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loubnabnl
/
github-code-duplicate

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xet
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cmd_drivers/mtd/lpddr/built-in.o := rm -f drivers/mtd/lpddr/built-in.o; mips-openwrt-linux-uclibc-ar rcsD drivers/mtd/lpddr/built-in.o
shizhai/wprobe
build_dir/target-mips_r2_uClibc-0.9.33.2/linux-ar71xx_generic/linux-3.10.4/drivers/mtd/lpddr/.built-in.o.cmd
Batchfile
gpl-2.0
136
<!-- This comment will put IE 6, 7 and 8 in quirks mode --> <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd"> <html xmlns="http://www.w3.org/1999/xhtml"> <head> <meta http-equiv="Content-Type" content="text/xhtml;charset=UTF-8"/> <title>Drupal SimpleTest: TestOfExceptionThrownInSetUpDoesNotRunTestBody Class Reference</title> <link href="tabs.css" rel="stylesheet" type="text/css"/> <link href="search/search.css" rel="stylesheet" type="text/css"/> <script type="text/javaScript" src="search/search.js"></script> <link href="doxygen.css" rel="stylesheet" type="text/css"/> </head> <body onload='searchBox.OnSelectItem(0);'> <!-- Generated by Doxygen 1.6.1 --> <script type="text/javascript"><!-- var searchBox = new SearchBox("searchBox", "search",false,'Search'); --></script> <div class="navigation" id="top"> <div class="tabs"> <ul> <li><a href="index.html"><span>Main&nbsp;Page</span></a></li> <li><a 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<li><a href="functions.html"><span>Class&nbsp;Members</span></a></li> </ul> </div> </div> <div class="contents"> <h1>TestOfExceptionThrownInSetUpDoesNotRunTestBody Class Reference</h1><!-- doxytag: class="TestOfExceptionThrownInSetUpDoesNotRunTestBody" --><!-- doxytag: inherits="UnitTestCase" --><div class="dynheader"> Inheritance diagram for TestOfExceptionThrownInSetUpDoesNotRunTestBody:</div> <div class="dynsection"> <div class="center"> <img src="class_test_of_exception_thrown_in_set_up_does_not_run_test_body.gif" usemap="#TestOfExceptionThrownInSetUpDoesNotRunTestBody_map" alt=""/> <map id="TestOfExceptionThrownInSetUpDoesNotRunTestBody_map" name="TestOfExceptionThrownInSetUpDoesNotRunTestBody_map"> <area href="class_unit_test_case.html" alt="UnitTestCase" shape="rect" coords="0,0,311,24"/> </map> </div> </div> <p><a href="class_test_of_exception_thrown_in_set_up_does_not_run_test_body-members.html">List of all members.</a></p> <table border="0" cellpadding="0" cellspacing="0"> <tr><td colspan="2"><h2>Public Member Functions</h2></td></tr> <tr><td class="memItemLeft" align="right" valign="top"><a class="anchor" id="a5c949f31295e4def2d5991c8671f8f9a"></a><!-- doxytag: member="TestOfExceptionThrownInSetUpDoesNotRunTestBody::setUp" ref="a5c949f31295e4def2d5991c8671f8f9a" args="()" --> &nbsp;</td><td class="memItemRight" valign="bottom"><b>setUp</b> ()</td></tr> <tr><td class="memItemLeft" align="right" valign="top"><a class="anchor" id="ae32b9c8a8fb7c414a1a3f6489b54ab80"></a><!-- doxytag: member="TestOfExceptionThrownInSetUpDoesNotRunTestBody::testShouldNotBeRun" ref="ae32b9c8a8fb7c414a1a3f6489b54ab80" args="()" --> &nbsp;</td><td class="memItemRight" valign="bottom"><b>testShouldNotBeRun</b> ()</td></tr> <tr><td class="memItemLeft" align="right" valign="top"><a class="anchor" id="a0c188e31b815e74fb52ca413db2ffa99"></a><!-- doxytag: member="TestOfExceptionThrownInSetUpDoesNotRunTestBody::testShouldNotBeRunEither" ref="a0c188e31b815e74fb52ca413db2ffa99" args="()" --> &nbsp;</td><td class="memItemRight" valign="bottom"><b>testShouldNotBeRunEither</b> ()</td></tr> </table> <hr/>The documentation for this class was generated from the following file:<ul> <li>/Applications/MAMP/htdocs/drump/drupalcodedump.com/sites/all/modules/simpletest/simpletest/test/exceptions_test.php</li> </ul> </div> <!--- window showing the filter options --> <div id="MSearchSelectWindow" onmouseover="return searchBox.OnSearchSelectShow()" onmouseout="return searchBox.OnSearchSelectHide()" onkeydown="return searchBox.OnSearchSelectKey(event)"> <a class="SelectItem" href="javascript:void(0)" onclick="searchBox.OnSelectItem(0)"><span class="SelectionMark">&nbsp;</span>All</a><a class="SelectItem" href="javascript:void(0)" onclick="searchBox.OnSelectItem(1)"><span class="SelectionMark">&nbsp;</span>Classes</a><a class="SelectItem" href="javascript:void(0)" onclick="searchBox.OnSelectItem(2)"><span class="SelectionMark">&nbsp;</span>Namespaces</a><a class="SelectItem" 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chachasikes/TwinCitiesTestSprint
docs/SimpletestDocumentation/drupal-simpletest/html/class_test_of_exception_thrown_in_set_up_does_not_run_test_body.html
HTML
gpl-2.0
6,056
//-*-c++-*- // ==================================================================== // ==================================================================== // // Module: opt_ssa.h // $Revision: 1.99 $ // $Date: 2000/04/06 15:25:34 $ // $Author: dlstephe $ // $Source: /isms/cmplrs.src/osprey1.0/be/opt/RCS/opt_ssa.h,v $ // // Revision history: // 4-OCT-94 shin - Original Version // // ==================================================================== // /* Copyright (C) 2001 Tensilica, Inc. All Rights Reserved. Revised to support Tensilica processors and to improve overall performance */ // // Copyright (C) 2000 Silicon Graphics, Inc. All Rights Reserved. // // This program is free software; you can redistribute it and/or modify // it under the terms of version 2 of the GNU General Public License as // published by the Free Software Foundation. // // This program is distributed in the hope that it would be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. // // Further, this software is distributed without any warranty that it // is free of the rightful claim of any third person regarding // infringement or the like. Any license provided herein, whether // implied or otherwise, applies only to this software file. Patent // licenses, if any, provided herein do not apply to combinations of // this program with other software, or any other product whatsoever. // // You should have received a copy of the GNU General Public License // along with this program; if not, write the Free Software Foundation, // Inc., 59 Temple Place - Suite 330, Boston MA 02111-1307, USA. // // Contact information: Silicon Graphics, Inc., 1600 Amphitheatre Pky, // Mountain View, CA 94043, or: // // http://www.sgi.com // // For further information regarding this notice, see: // // http://oss.sgi.com/projects/GenInfo/NoticeExplan // // ==================================================================== // // Description: // // ==================================================================== // ==================================================================== #ifndef opt_ssa_INCLUDED #define opt_ssa_INCLUDED "opt_ssa.h" #include "defs.h" #include "opt_defs.h" #include "cxx_memory.h" #include "opt_sym.h" // Forward declaration class CFG; class OPT_STAB; class BB_NODE; class BB_LIST; class STMTREP; class COLOR; class PHI_LIST; class COPYPROP; class EXC; class EXC_SCOPE; class SSA { private: MEM_POOL *mem_pool; MEM_POOL *loc_pool; CFG *_cfg; CODEMAP *_htable; OPT_STAB *_opt_stab; SSA(void); SSA(const SSA&); SSA& operator = (const SSA&); OPT_STAB *Opt_stab(void) { return _opt_stab; } CFG *Cfg(void) { return _cfg; } CODEMAP *Htable(void) { return _htable; } void Collect_defs_bb(MEM_POOL *); void Place_phi_node(MEM_POOL *); BB_NODE *Insert_identity_assignment_4_loopexit(BB_NODE *,AUX_ID,MEM_POOL *); void Insert_identity_assignment_4_entry(CFG *cfg, OPT_STAB *opt_stab); void Rename(CFG *cfg, OPT_STAB *opt_stab, BB_NODE *bb); void Rename_rhs(OPT_STAB *opt_stab, WN *wn); void Gen_name(OPT_STAB *opt_stab, IDTYPE var); void Value_number(CODEMAP *htable, OPT_STAB *opt_stab, BB_NODE *bb, COPYPROP *copyprop, EXC *exc); CODEREP *Du2cr( CODEMAP *htable, OPT_STAB *opt_stab, VER_ID du, STMTREP *stmt); CODEREP *Revive_phi_chi_opnd(VER_ID du); void Make_live_phi_chi_opnd(VER_ID du); public: SSA(MEM_POOL *gpool, MEM_POOL *lpool){mem_pool=gpool; loc_pool=lpool; } ~SSA(void) {}; MEM_POOL *Mem_pool(void) { return mem_pool; } void Construct(CODEMAP *htable, CFG *cfg, OPT_STAB *opt_stab); // Construct SSA form. CODEREP *Get_zero_version_CR(AUX_ID aux_id, OPT_STAB *, VER_ID); void Pointer_Alias_Analysis(void); void Dead_store_elim(CFG *, OPT_STAB *, EXC *); void Find_zero_versions(); void Create_CODEMAP(void); void Value_number_mu_list(MU_LIST *mu_list); void Value_number_mu_node(MU_NODE *mu_node); void Resurrect_phi(PHI_NODE *phi); void Resurrect_chi(CHI_NODE *chi); }; class CODEREP; class PHI_KEY { IDTYPE _bb_id; AUX_ID _aux_id; public: // A constructor is not allowed because // PHI_KEY is a union member in ID_MAP! void Init(IDTYPE bb_id, AUX_ID aux_id) { _bb_id = bb_id; _aux_id = aux_id; } friend BOOL operator==(const PHI_KEY x, const PHI_KEY y) { return (x._bb_id == y._bb_id && x._aux_id == y._aux_id); } friend BOOL operator!=(const PHI_KEY x, const PHI_KEY y) { return (x._bb_id != y._bb_id || x._aux_id != y._aux_id); } }; // Phi functions class PHI_NODE : public SLIST_NODE { DECLARE_SLIST_NODE_CLASS(PHI_NODE) private: enum PHI_NODE_FLAGS { PNF_NONE = 0x00, PNF_LIVE = 0x01, PNF_DSE_DEAD = 0x02, PNF_DCE_DEAD = 0x04,// phi res is dead after DCE PNF_RES_IS_CR = 0x08,// phi res is CODEREP, not VER_STAB index PNF_OPND_IV_UPDATE = 0x10,// an opnd is defined by an IV update PNF_OPND_NOT_IV_UPDATE = 0x20,// an opnd is not defined by an IV update PNF_VISITED = 0x40, // vistied bit. PNF_NULL_SSU_PROCESSED = 0x80, // prevent infinite loop in setting // NULL_SSU_VERSION flag in SPRE step 2 PNF_FIND_DEF_PROCESSED = 0x100, // prevent infinite loop in looking for // real stores in SPRE step 6 PNF_INCOMPLETE = 0x200, // when this bit is set, its dominator // frontier might not have a phi // this bit is set by phi generated by LPRE/EPRE. PNF_SIZE_VISITED = 0x400, // No_trucation_by_value_size visited PNF_FIND_CORR_PROCESSED = 0x800, // prevent infinite loop in looking for // corresponding preg in SPRE step 6 }; AUX_ID _aux_id; mUINT32 _flags; mINT16 size; mINT16 count; BB_NODE *_bb; union PHI_ELEM { friend class PHI_NODE; private: AUX_ID version; CODEREP *cr; }; // vec[0] is the result // vec[1..] are the operands PHI_ELEM *vec; PHI_NODE(void); PHI_NODE(const PHI_NODE&); PHI_NODE& operator = (const PHI_NODE&); public: PHI_NODE(mINT16 in_degree, MEM_POOL *pool, BB_NODE *bb) { vec = (PHI_ELEM*) CXX_NEW_ARRAY(PHI_ELEM, (in_degree + 1), pool); size = in_degree; count = 0; _bb = bb; _flags = PNF_NONE; } ~PHI_NODE(void) { /*CXX_DELETE_ARRAY(vec, Opt_default_pool);*/ } AUX_ID Opnd(INT32 i) const { return vec[i+1].version; } AUX_ID Result(void) const { return vec[0].version; } CODEREP *OPND(INT32 i) const { return vec[i+1].cr; } CODEREP *RESULT(void) const { return vec[0].cr; } mINT16 Size(void) const { return size; } mINT16 Count(void) const { return count; } IDTYPE Aux_id(void) const { return _aux_id; } BB_NODE *Bb(void) const { return _bb; } void Set_bb(BB_NODE *bb) { _bb = bb; } PHI_KEY Key(void) const { PHI_KEY key; key.Init(_bb->Id(), _aux_id); return key; } mUINT8 Flags(void) const { return _flags; } void Set_flags(mUINT8 i) { _flags = i; } void Set_opnd(const INT32 i, AUX_ID cr) { vec[i+1].version = cr;} void Set_result(AUX_ID cr) { vec[0].version = cr; } void Set_opnd(const INT32 i, CODEREP *c) { vec[i+1].cr = c; } void Set_result(CODEREP *c) { vec[0].cr = c; } void Set_count(mINT16 c) { count = c; } void Set_aux_id(AUX_ID v) { _aux_id = v; } void Set_invalid(void) { vec[0].cr = NULL; } void Reset_OPND(INT32 i) { vec[i+1].cr = NULL; } // Remove the i'th operand from the phi-node (0 is first opnd) void Remove_opnd(INT32 i); // flags field accessors BOOL Live(void) const { return _flags & PNF_LIVE; } void Set_live(void) { _flags |= PNF_LIVE; } void Reset_live(void) { _flags &= ~PNF_LIVE; } BOOL Dse_dead(void) const { return _flags & PNF_DSE_DEAD; } void Set_dse_dead(void) { _flags |= PNF_DSE_DEAD; } void Reset_dse_dead(void) { _flags &= ~PNF_DSE_DEAD; } BOOL Dce_dead(void) const { return _flags & PNF_DCE_DEAD; } void Reset_dce_dead(void) { _flags &= ~PNF_DCE_DEAD; } void Set_dce_dead(void) { _flags |= PNF_DCE_DEAD; } BOOL Res_is_cr(void) const { return _flags & PNF_RES_IS_CR; } void Set_res_is_cr(void) { _flags |= PNF_RES_IS_CR; } // is one of the operands defined by an IV update statement BOOL Opnd_iv_update(void) const { return _flags & PNF_OPND_IV_UPDATE; } void Set_opnd_iv_update(void) { _flags |= PNF_OPND_IV_UPDATE; } // none of the operands defined by an IV update statement BOOL Opnd_not_iv_update(void) const{ return _flags & PNF_OPND_NOT_IV_UPDATE; } void Set_opnd_not_iv_update(void) { _flags |= PNF_OPND_NOT_IV_UPDATE; } BOOL Visited(void) const { return _flags & PNF_VISITED; } void Set_visited(void) { _flags |= PNF_VISITED; } void Reset_visited(void) { _flags &= ~PNF_VISITED; } BOOL Null_ssu_processed(void) const { return _flags & PNF_NULL_SSU_PROCESSED; } void Set_null_ssu_processed(void) { _flags |= PNF_NULL_SSU_PROCESSED; } BOOL Find_def_processed(void) const { return _flags & PNF_FIND_DEF_PROCESSED; } void Set_find_def_processed(void) { _flags |= PNF_FIND_DEF_PROCESSED; } void Reset_find_def_processed(void) { _flags &= ~PNF_FIND_DEF_PROCESSED; } BOOL Find_corr_processed(void) const { return _flags & PNF_FIND_CORR_PROCESSED; } void Set_find_corr_processed(void) { _flags |= PNF_FIND_CORR_PROCESSED; } BOOL Incomplete(void) const { return _flags & PNF_INCOMPLETE; } void Set_incomplete(void) { _flags |= PNF_INCOMPLETE; } void Reset_incomplete(void) { _flags &= ~PNF_INCOMPLETE; } BOOL Is_size_visited(void) const { return _flags & PNF_SIZE_VISITED; } void Set_size_visited(void) { _flags |= PNF_SIZE_VISITED; } void Reset_size_visited(void) { _flags &= ~PNF_SIZE_VISITED; } // Print functions void Print(INT32 in_degree, FILE *fp=stderr) const; void PRINT(INT32 in_degree, FILE *fp=stderr) const; void Print(FILE *fp=stderr) const; }; class PHI_LIST : public SLIST { DECLARE_SLIST_CLASS (PHI_LIST, PHI_NODE) private: INT32 in_degree; PHI_LIST(const PHI_LIST&); PHI_LIST& operator = (const PHI_LIST&); public: PHI_LIST(BB_NODE *bb); ~PHI_LIST(void) {} PHI_NODE *New_phi_node(IDTYPE var, MEM_POOL *pool, BB_NODE *bb) { PHI_NODE *p = (PHI_NODE *) CXX_NEW (PHI_NODE(in_degree, pool, bb), pool); for (INT32 i = 0; i < in_degree; i++) p->Set_opnd(i, (AUX_ID)0); p->Set_result((AUX_ID)0); p->Set_aux_id(var); Append(p); return p; } PHI_LIST *Dup_phi_node(MEM_POOL *pool, BB_NODE *bb, INT pos); // Remove the i'th operand from the phi-nodes (0 is first opnd) void Remove_opnd(INT32 i); INT32 In_degree(void) const { return in_degree; } void Set_in_degree( INT32 n ) { in_degree = n; } void Print(FILE *fp=stderr); void PRINT(FILE *fp=stderr); }; class PHI_LIST_ITER : public SLIST_ITER { private: DECLARE_SLIST_ITER_CLASS (PHI_LIST_ITER, PHI_NODE, PHI_LIST) PHI_LIST_ITER(const PHI_LIST_ITER&); PHI_LIST_ITER& operator = (const PHI_LIST_ITER&); public: ~PHI_LIST_ITER(void) {} PHI_NODE *First_elem(void) { return First(); } PHI_NODE *Next_elem(void) { return Next(); } }; class PHI_OPND_ITER { private: PHI_NODE *_phi; INT _curidx; PHI_OPND_ITER(void); PHI_OPND_ITER(const PHI_OPND_ITER&); PHI_OPND_ITER& operator = (const PHI_OPND_ITER&); public: PHI_OPND_ITER(PHI_NODE *phi) { _phi = phi; } ~PHI_OPND_ITER(void) {} void Init(PHI_NODE *phi) { _phi = phi; } void Init(void) {} CODEREP *First_elem(void) { _curidx = 0; return _phi->OPND(_curidx); } CODEREP *Next_elem(void) { _curidx++; return (Is_Empty())? NULL:_phi->OPND(_curidx); } BOOL Is_Empty(void) const { return _curidx >= _phi->Size(); } INT Curidx(void) const { return _curidx; } }; #endif // opt_ssa_INCLUDED
qiyao/xcc
be/opt/opt_ssa.h
C
gpl-2.0
12,937
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd"> <html> <head> <title>Hibernate Mappings - Table Info</title> <link rel="stylesheet" type="text/css" href="../../assets/doc-style.css" title="Style"/> </head> <body> <div id="header"> <div id="logo"> <a href="http://www.hibernate.org/" target="_blank"> <img src="../../assets/hibernate_logo.gif" alt="Hibernate"/> </a> </div> <ul><li><a href="../index.html" target="_top">Tables</a></li><li><a href="../../entities/index.html" target="_top">Entities</a></li></ul> <hr/> </div> <h4>Schema owner_track</h4> <h2>Table data_sensor_p50</h2> <table id="column_summary"> <thead> <tr> <th class="MainTableHeading" colspan="7"> Column Summary </th> </tr> <tr> <th style="width: 14%"> Name </th> <th style="width: 14%"> SqlType </th> <th style="width: 14%"> Length </th> <th style="width: 14%"> Precision </th> <th style="width: 14%"> Scale </th> <th style="width: 14%"> Nullable </th> <th style="width: 14%"> Unique </th> </tr> </thead> <tbody> <tr> <td> <a href="#column_detail_dasn_id"> dasn_id </a> </td> <td> int8 </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> false </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_uid"> dasn_uid </a> </td> <td> int8 </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> false </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_datetime"> dasn_datetime </a> </td> <td> timestamp </td> <td> 29 </td> <td> 19 </td> <td> 2 </td> <td> false </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_latitude"> dasn_latitude </a> </td> <td> float8 </td> <td> 255 </td> <td> 17 </td> <td> 17 </td> <td> false </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_longitude"> dasn_longitude </a> </td> <td> float8 </td> <td> 255 </td> <td> 17 </td> <td> 17 </td> <td> false </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_status"> dasn_status </a> </td> <td> int8 </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> false </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_sat_used"> dasn_sat_used </a> </td> <td> int8 </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_zone_alarm"> dasn_zone_alarm </a> </td> <td> int8 </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_macro_id"> dasn_macro_id </a> </td> <td> int8 </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_macro_src"> dasn_macro_src </a> </td> <td> int8 </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_sog"> dasn_sog </a> </td> <td> float8 </td> <td> 255 </td> <td> 17 </td> <td> 17 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_course"> dasn_course </a> </td> <td> float8 </td> <td> 255 </td> <td> 17 </td> <td> 17 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_hdop"> dasn_hdop </a> </td> <td> float8 </td> <td> 255 </td> <td> 17 </td> <td> 17 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_hgeo"> dasn_hgeo </a> </td> <td> float8 </td> <td> 255 </td> <td> 17 </td> <td> 17 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_hmet"> dasn_hmet </a> </td> <td> float8 </td> <td> 255 </td> <td> 17 </td> <td> 17 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_gpio"> dasn_gpio </a> </td> <td> int8 </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_adc"> dasn_adc </a> </td> <td> int8 </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_temp"> dasn_temp </a> </td> <td> float8 </td> <td> 255 </td> <td> 17 </td> <td> 17 </td> <td> true </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_type"> dasn_type </a> </td> <td> int8 </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> false </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_xml"> dasn_xml </a> </td> <td> varchar(255) </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> false </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_dtm"> dasn_dtm </a> </td> <td> timestamp </td> <td> 29 </td> <td> 19 </td> <td> 2 </td> <td> false </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_spsn_id"> dasn_spsn_id </a> </td> <td> int8 </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> false </td> <td> false </td> </tr> <tr> <td> <a href="#column_detail_dasn_vehicle"> dasn_vehicle </a> </td> <td> varchar(255) </td> <td> 255 </td> <td> 19 </td> <td> 2 </td> <td> true </td> <td> false </td> </tr> </tbody> </table> <table id="primary_key"> <thead> <tr> <th class="MainTableHeading" colspan="2"> Primary Key </th> </tr> <tr> <th style="width: 50%"> Name </th> <th style="width: 50%"> Columns </th> </tr> </thead> <tbody> <tr> <td> No Primary Key </td> </tr> </tbody> </table> <table id="indexes"> <thead> <tr> <th class="MainTableHeading" colspan="2"> Indexes </th> </tr> <tr> <th style="width: 50%"> Name </th> <th style="width: 50%"> Columns </th> </tr> </thead> <tbody> <tr> <td> dasn_datetime_i50 </td> <td> <a href="#column_detail_dasn_datetime"> dasn_datetime </a> </td> </tr> </tbody> </table> <p id="column_detail" class="MainTableHeading"> Column Detail </p> <h3 id="column_detail_dasn_id">dasn_id</h3> <ul> <li> <strong>Type:</strong> int8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> false </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_uid">dasn_uid</h3> <ul> <li> <strong>Type:</strong> int8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> false </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_datetime">dasn_datetime</h3> <ul> <li> <strong>Type:</strong> timestamp </li> <li> <strong>Length:</strong> 29 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> false </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_latitude">dasn_latitude</h3> <ul> <li> <strong>Type:</strong> float8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 17 </li> <li> <strong>Scale:</strong> 17 </li> <li> <strong>Nullable:</strong> false </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_longitude">dasn_longitude</h3> <ul> <li> <strong>Type:</strong> float8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 17 </li> <li> <strong>Scale:</strong> 17 </li> <li> <strong>Nullable:</strong> false </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_status">dasn_status</h3> <ul> <li> <strong>Type:</strong> int8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> false </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_sat_used">dasn_sat_used</h3> <ul> <li> <strong>Type:</strong> int8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_zone_alarm">dasn_zone_alarm</h3> <ul> <li> <strong>Type:</strong> int8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_macro_id">dasn_macro_id</h3> <ul> <li> <strong>Type:</strong> int8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_macro_src">dasn_macro_src</h3> <ul> <li> <strong>Type:</strong> int8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_sog">dasn_sog</h3> <ul> <li> <strong>Type:</strong> float8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 17 </li> <li> <strong>Scale:</strong> 17 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_course">dasn_course</h3> <ul> <li> <strong>Type:</strong> float8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 17 </li> <li> <strong>Scale:</strong> 17 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_hdop">dasn_hdop</h3> <ul> <li> <strong>Type:</strong> float8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 17 </li> <li> <strong>Scale:</strong> 17 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_hgeo">dasn_hgeo</h3> <ul> <li> <strong>Type:</strong> float8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 17 </li> <li> <strong>Scale:</strong> 17 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_hmet">dasn_hmet</h3> <ul> <li> <strong>Type:</strong> float8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 17 </li> <li> <strong>Scale:</strong> 17 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_gpio">dasn_gpio</h3> <ul> <li> <strong>Type:</strong> int8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_adc">dasn_adc</h3> <ul> <li> <strong>Type:</strong> int8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_temp">dasn_temp</h3> <ul> <li> <strong>Type:</strong> float8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 17 </li> <li> <strong>Scale:</strong> 17 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_type">dasn_type</h3> <ul> <li> <strong>Type:</strong> int8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> false </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_xml">dasn_xml</h3> <ul> <li> <strong>Type:</strong> varchar(255) </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> false </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_dtm">dasn_dtm</h3> <ul> <li> <strong>Type:</strong> timestamp </li> <li> <strong>Length:</strong> 29 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> false </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_spsn_id">dasn_spsn_id</h3> <ul> <li> <strong>Type:</strong> int8 </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> false </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> <h3 id="column_detail_dasn_vehicle">dasn_vehicle</h3> <ul> <li> <strong>Type:</strong> varchar(255) </li> <li> <strong>Length:</strong> 255 </li> <li> <strong>Precision:</strong> 19 </li> <li> <strong>Scale:</strong> 2 </li> <li> <strong>Nullable:</strong> true </li> <li> <strong>Unique:</strong> false </li> <li> <strong>Comment:</strong> </li> </ul> <hr/> </body> </html>
novaris/novoscan
src/database/tables/owner_track/data_sensor_p50.html
HTML
gpl-2.0
20,987
/* * drivers/power/process.c - Functions for starting/stopping processes on * suspend transitions. * * Originally from swsusp. */ #undef DEBUG #include <linux/interrupt.h> #include <linux/oom.h> #include <linux/suspend.h> #include <linux/module.h> #include <linux/syscalls.h> #include <linux/freezer.h> #include <linux/delay.h> #include <linux/workqueue.h> #include <linux/kmod.h> #include <linux/wakelock.h> #include "power.h" /* * Timeout for stopping processes */ #define TIMEOUT (20 * HZ) static int try_to_freeze_tasks(bool user_only) { struct task_struct *g, *p; unsigned long end_time; unsigned int todo; bool wq_busy = false; struct timeval start, end; u64 elapsed_csecs64; unsigned int elapsed_csecs; bool wakeup = false; do_gettimeofday(&start); end_time = jiffies + TIMEOUT; if (!user_only) freeze_workqueues_begin(); while (true) { todo = 0; read_lock(&tasklist_lock); do_each_thread(g, p) { if (p == current || !freeze_task(p)) continue; /* * Now that we've done set_freeze_flag, don't * perturb a task in TASK_STOPPED or TASK_TRACED. * It is "frozen enough". If the task does wake * up, it will immediately call try_to_freeze. * * Because freeze_task() goes through p's scheduler lock, it's * guaranteed that TASK_STOPPED/TRACED -> TASK_RUNNING * transition can't race with task state testing here. */ if (!task_is_stopped_or_traced(p) && !freezer_should_skip(p)) todo++; } while_each_thread(g, p); read_unlock(&tasklist_lock); if (!user_only) { wq_busy = freeze_workqueues_busy(); todo += wq_busy; } if (todo && has_wake_lock(WAKE_LOCK_SUSPEND)) { wakeup = 1; break; } if (!todo || time_after(jiffies, end_time)) break; if (pm_wakeup_pending()) { wakeup = true; break; } /* * We need to retry, but first give the freezing tasks some * time to enter the regrigerator. */ msleep(10); } do_gettimeofday(&end); elapsed_csecs64 = timeval_to_ns(&end) - timeval_to_ns(&start); do_div(elapsed_csecs64, NSEC_PER_SEC / 100); elapsed_csecs = elapsed_csecs64; if (todo) { /* This does not unfreeze processes that are already frozen * (we have slightly ugly calling convention in that respect, * and caller must call thaw_processes() if something fails), * but it cleans up leftover PF_FREEZE requests. */ if(wakeup) { printk("\n"); printk(KERN_ERR "Freezing of %s aborted\n", user_only ? "user space " : "tasks "); } else { printk("\n"); printk(KERN_ERR "Freezing of tasks %s after %d.%02d seconds " "(%d tasks refusing to freeze, wq_busy=%d):\n", wakeup ? "aborted" : "failed", elapsed_csecs / 100, elapsed_csecs % 100, todo - wq_busy, wq_busy); } if (!wakeup) { read_lock(&tasklist_lock); do_each_thread(g, p) { if (p != current && !freezer_should_skip(p) && freezing(p) && !frozen(p) && elapsed_csecs > 100) sched_show_task(p); } while_each_thread(g, p); read_unlock(&tasklist_lock); } } else { printk("(elapsed %d.%02d seconds) ", elapsed_csecs / 100, elapsed_csecs % 100); } return todo ? -EBUSY : 0; } /** * freeze_processes - Signal user space processes to enter the refrigerator. * * On success, returns 0. On failure, -errno and system is fully thawed. */ int freeze_processes(void) { int error; error = suspend_sys_sync_wait(); if (error) return error; error = __usermodehelper_disable(UMH_FREEZING); if (error) return error; if (!pm_freezing) atomic_inc(&system_freezing_cnt); printk("Freezing user space processes ... "); pm_freezing = true; error = try_to_freeze_tasks(true); if (!error) { printk("done."); __usermodehelper_set_disable_depth(UMH_DISABLED); oom_killer_disable(); } printk("\n"); BUG_ON(in_atomic()); if (error) thaw_processes(); return error; } /** * freeze_kernel_threads - Make freezable kernel threads go to the refrigerator. * * On success, returns 0. On failure, -errno and only the kernel threads are * thawed, so as to give a chance to the caller to do additional cleanups * (if any) before thawing the userspace tasks. So, it is the responsibility * of the caller to thaw the userspace tasks, when the time is right. */ int freeze_kernel_threads(void) { int error; // error = suspend_sys_sync_wait(); // if (error) // return error; printk("Freezing remaining freezable tasks ... "); pm_nosig_freezing = true; error = try_to_freeze_tasks(false); if (!error) printk("done."); printk("\n"); BUG_ON(in_atomic()); if (error) thaw_kernel_threads(); return error; } void thaw_processes(void) { struct task_struct *g, *p; if (pm_freezing) atomic_dec(&system_freezing_cnt); pm_freezing = false; pm_nosig_freezing = false; oom_killer_enable(); printk("Restarting tasks ... "); __usermodehelper_set_disable_depth(UMH_FREEZING); thaw_workqueues(); read_lock(&tasklist_lock); do_each_thread(g, p) { __thaw_task(p); } while_each_thread(g, p); read_unlock(&tasklist_lock); usermodehelper_enable(); schedule(); printk("done.\n"); } void thaw_kernel_threads(void) { struct task_struct *g, *p; pm_nosig_freezing = false; printk("Restarting kernel threads ... "); thaw_workqueues(); read_lock(&tasklist_lock); do_each_thread(g, p) { if (p->flags & (PF_KTHREAD | PF_WQ_WORKER)) __thaw_task(p); } while_each_thread(g, p); read_unlock(&tasklist_lock); schedule(); printk("done.\n"); }
forfivo/v500_kernel_aosp
kernel/power/process.c
C
gpl-2.0
5,537
<?php namespace RandomRango\Bundle\MainBundle\Controller; use Symfony\Bundle\FrameworkBundle\Controller\Controller; class DefaultController extends Controller { public function indexAction() { return $this->render('RandomRangoMainBundle:Default:index.html.twig'); } }
polypapps/RandomRango_Web
src/RandomRango/Bundle/MainBundle/Controller/DefaultController.php
PHP
gpl-2.0
291
/* packet-lbmr.c * Routines for LBM Topic Resolution Packet dissection * * Copyright (c) 2005-2014 Informatica Corporation. All Rights Reserved. * * Wireshark - Network traffic analyzer * By Gerald Combs <[email protected]> * Copyright 1998 Gerald Combs * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "config.h" #ifdef HAVE_ARPA_INET_H #include <arpa/inet.h> #endif #if HAVE_WINSOCK2_H #include <winsock2.h> #endif #include <epan/packet.h> #include <epan/address.h> #include <epan/strutil.h> #include <epan/prefs.h> #include <epan/tap.h> #include <epan/stats_tree.h> #include <epan/expert.h> #include <epan/uat.h> #include <epan/to_str.h> #ifndef HAVE_INET_ATON #include <wsutil/inet_aton.h> #endif #include <wsutil/pint.h> #include "packet-lbm.h" #include "packet-lbtru.h" #include "packet-lbtrm.h" #include "packet-lbttcp.h" #define LBMR_MAX_NAMELEN 256 void proto_register_lbmr(void); void proto_reg_handoff_lbmr(void); /*----------------------------------------------------------------------------*/ /* LBT-IPC transport management. */ /*----------------------------------------------------------------------------*/ typedef struct { guint32 host_id; guint32 session_id; guint16 xport_id; guint64 channel; } lbtipc_transport_t; static wmem_tree_t * lbtipc_transport_table = NULL; #define LBTIPC_KEY_ELEMENT_COUNT 3 #define LBTIPC_KEY_ELEMENT_HOST_ID 0 #define LBTIPC_KEY_ELEMENT_SESSION_ID 1 #define LBTIPC_KEY_ELEMENT_XPORT_ID 2 static void lbtipc_transport_init(void) { lbtipc_transport_table = wmem_tree_new_autoreset(wmem_epan_scope(), wmem_file_scope()); } static lbtipc_transport_t * lbtipc_transport_find(guint32 host_id, guint32 session_id, guint16 xport_id) { lbtipc_transport_t * entry = NULL; guint32 keyval[LBTIPC_KEY_ELEMENT_COUNT]; wmem_tree_key_t tkey[2]; keyval[LBTIPC_KEY_ELEMENT_HOST_ID] = host_id; keyval[LBTIPC_KEY_ELEMENT_SESSION_ID] = session_id; keyval[LBTIPC_KEY_ELEMENT_XPORT_ID] = (guint32) xport_id; tkey[0].length = LBTIPC_KEY_ELEMENT_COUNT; tkey[0].key = keyval; tkey[1].length = 0; tkey[1].key = NULL; entry = (lbtipc_transport_t *) wmem_tree_lookup32_array(lbtipc_transport_table, tkey); return (entry); } static lbtipc_transport_t * lbtipc_transport_add(guint32 host_id, guint32 session_id, guint16 xport_id) { lbtipc_transport_t * entry; guint32 keyval[LBTIPC_KEY_ELEMENT_COUNT]; wmem_tree_key_t tkey[2]; entry = lbtipc_transport_find(host_id, session_id, xport_id); if (entry != NULL) { return (entry); } entry = wmem_new(wmem_file_scope(), lbtipc_transport_t); entry->host_id = host_id; entry->session_id = session_id; entry->xport_id = xport_id; entry->channel = lbm_channel_assign(LBM_CHANNEL_TRANSPORT_LBTIPC); keyval[LBTIPC_KEY_ELEMENT_HOST_ID] = host_id; keyval[LBTIPC_KEY_ELEMENT_SESSION_ID] = session_id; keyval[LBTIPC_KEY_ELEMENT_XPORT_ID] = (guint32) xport_id; tkey[0].length = LBTIPC_KEY_ELEMENT_COUNT; tkey[0].key = keyval; tkey[1].length = 0; tkey[1].key = NULL; wmem_tree_insert32_array(lbtipc_transport_table, tkey, (void *) entry); return (entry); } static char * lbtipc_transport_source_string(guint32 host_id _U_, guint32 session_id, guint16 xport_id) { return (wmem_strdup_printf(wmem_file_scope(), "LBT-IPC:%x:%" G_GUINT16_FORMAT, session_id, xport_id)); } /*----------------------------------------------------------------------------*/ /* LBT-SMX transport management. */ /*----------------------------------------------------------------------------*/ typedef struct { guint32 host_id; guint32 session_id; guint16 xport_id; guint64 channel; } lbtsmx_transport_t; static wmem_tree_t * lbtsmx_transport_table = NULL; #define LBTSMX_KEY_ELEMENT_COUNT 3 #define LBTSMX_KEY_ELEMENT_HOST_ID 0 #define LBTSMX_KEY_ELEMENT_SESSION_ID 1 #define LBTSMX_KEY_ELEMENT_XPORT_ID 2 static void lbtsmx_transport_init(void) { lbtsmx_transport_table = wmem_tree_new_autoreset(wmem_epan_scope(), wmem_file_scope()); } static lbtsmx_transport_t * lbtsmx_transport_find(guint32 host_id, guint32 session_id, guint16 xport_id) { lbtsmx_transport_t * entry = NULL; guint32 keyval[LBTSMX_KEY_ELEMENT_COUNT]; wmem_tree_key_t tkey[2]; keyval[LBTSMX_KEY_ELEMENT_HOST_ID] = host_id; keyval[LBTSMX_KEY_ELEMENT_SESSION_ID] = session_id; keyval[LBTSMX_KEY_ELEMENT_XPORT_ID] = (guint32) xport_id; tkey[0].length = LBTSMX_KEY_ELEMENT_COUNT; tkey[0].key = keyval; tkey[1].length = 0; tkey[1].key = NULL; entry = (lbtsmx_transport_t *) wmem_tree_lookup32_array(lbtsmx_transport_table, tkey); return (entry); } static lbtsmx_transport_t * lbtsmx_transport_add(guint32 host_id, guint32 session_id, guint16 xport_id) { lbtsmx_transport_t * entry; guint32 keyval[LBTSMX_KEY_ELEMENT_COUNT]; wmem_tree_key_t tkey[2]; entry = lbtsmx_transport_find(host_id, session_id, xport_id); if (entry != NULL) { return (entry); } entry = wmem_new(wmem_file_scope(), lbtsmx_transport_t); entry->host_id = host_id; entry->session_id = session_id; entry->xport_id = xport_id; entry->channel = lbm_channel_assign(LBM_CHANNEL_TRANSPORT_LBTSMX); keyval[LBTSMX_KEY_ELEMENT_HOST_ID] = host_id; keyval[LBTSMX_KEY_ELEMENT_SESSION_ID] = session_id; keyval[LBTSMX_KEY_ELEMENT_XPORT_ID] = (guint32) xport_id; tkey[0].length = LBTSMX_KEY_ELEMENT_COUNT; tkey[0].key = keyval; tkey[1].length = 0; tkey[1].key = NULL; wmem_tree_insert32_array(lbtsmx_transport_table, tkey, (void *) entry); return (entry); } static char * lbtsmx_transport_source_string(guint32 host_id _U_, guint32 session_id, guint16 xport_id) { return (wmem_strdup_printf(wmem_file_scope(), "LBT-SMX:%x:%" G_GUINT16_FORMAT, session_id, xport_id)); } /*----------------------------------------------------------------------------*/ /* LBT-RDMA transport management. */ /*----------------------------------------------------------------------------*/ typedef struct { address source_address; guint32 session_id; guint16 port; guint64 channel; } lbtrdma_transport_t; static wmem_tree_t * lbtrdma_transport_table = NULL; #define LBTRDMA_KEY_ELEMENT_COUNT 3 #define LBTRDMA_KEY_ELEMENT_SOURCE_ADDRESS 0 #define LBTRDMA_KEY_ELEMENT_SESSION_ID 1 #define LBTRDMA_KEY_ELEMENT_PORT 2 static void lbtrdma_transport_init(void) { lbtrdma_transport_table = wmem_tree_new_autoreset(wmem_epan_scope(), wmem_file_scope()); } static void lbtrdma_transport_build_key(guint32 * key_value, wmem_tree_key_t * key, const lbtrdma_transport_t * transport) { guint32 val; memcpy((void *) &val, (void *) transport->source_address.data, sizeof(guint32)); key_value[LBTRDMA_KEY_ELEMENT_SOURCE_ADDRESS] = val; key_value[LBTRDMA_KEY_ELEMENT_SESSION_ID] = transport->session_id; key_value[LBTRDMA_KEY_ELEMENT_PORT] = (guint32) transport->port; key[0].length = LBTRDMA_KEY_ELEMENT_COUNT; key[0].key = key_value; key[1].length = 0; key[1].key = NULL; } static lbtrdma_transport_t * lbtrdma_transport_find(const address * source_address, guint32 session_id, guint16 port) { lbtrdma_transport_t key; lbtrdma_transport_t * entry = NULL; guint32 keyval[LBTRDMA_KEY_ELEMENT_COUNT]; wmem_tree_key_t tkey[2]; memset((void *)&key, 0, sizeof(lbtrdma_transport_t)); COPY_ADDRESS_SHALLOW(&(key.source_address), source_address); key.session_id = session_id; key.port = port; lbtrdma_transport_build_key(keyval, tkey, &key); entry = (lbtrdma_transport_t *) wmem_tree_lookup32_array(lbtrdma_transport_table, tkey); return (entry); } static lbtrdma_transport_t * lbtrdma_transport_add(const address * source_address, guint32 session_id, guint16 port) { lbtrdma_transport_t * entry; guint32 keyval[LBTRDMA_KEY_ELEMENT_COUNT]; wmem_tree_key_t tkey[2]; entry = lbtrdma_transport_find(source_address, session_id, port); if (entry != NULL) { return (entry); } entry = wmem_new(wmem_file_scope(), lbtrdma_transport_t); WMEM_COPY_ADDRESS(wmem_file_scope(), &(entry->source_address), source_address); entry->session_id = session_id; entry->port = port; entry->channel = lbm_channel_assign(LBM_CHANNEL_TRANSPORT_LBTRDMA); lbtrdma_transport_build_key(keyval, tkey, entry); wmem_tree_insert32_array(lbtrdma_transport_table, tkey, (void *) entry); return (entry); } static char * lbtrdma_transport_source_string(const address * source_address _U_, guint32 session_id, guint16 port) { return (wmem_strdup_printf(wmem_file_scope(), "LBT-RDMA:%x:%" G_GUINT16_FORMAT, session_id, port)); } /*----------------------------------------------------------------------------*/ /* Packet layouts. */ /*----------------------------------------------------------------------------*/ /* LBMR main header. */ typedef struct { lbm_uint8_t ver_type; lbm_uint8_t tqrs; lbm_uint16_t tirs; } lbmr_hdr_t; #define O_LBMR_HDR_T_VER_TYPE OFFSETOF(lbmr_hdr_t, ver_type) #define L_LBMR_HDR_T_VER_TYPE SIZEOF(lbmr_hdr_t, ver_type) #define O_LBMR_HDR_T_TQRS OFFSETOF(lbmr_hdr_t, tqrs) #define L_LBMR_HDR_T_TQRS SIZEOF(lbmr_hdr_t, tqrs) #define O_LBMR_HDR_T_TIRS OFFSETOF(lbmr_hdr_t, tirs) #define L_LBMR_HDR_T_TIRS SIZEOF(lbmr_hdr_t, tirs) #define L_LBMR_HDR_T (gint) sizeof(lbmr_hdr_t) #define LBMR_HDR_VER_VER_MASK 0xf0 #define LBMR_HDR_VER_TYPE_MASK 0x07 #define LBMR_HDR_VER(x) (((x) & LBMR_HDR_VER_VER_MASK) >> 4) #define LBMR_HDR_TYPE(x) ((x) & LBMR_HDR_VER_TYPE_MASK) #define LBMR_HDR_TYPE_NORMAL 0x0 #define LBMR_HDR_TYPE_WC_TQRS 0x1 #define LBMR_HDR_TYPE_UCAST_RCV_ALIVE 0x2 #define LBMR_HDR_TYPE_UCAST_SRC_ALIVE 0x3 #define LBMR_HDR_TYPE_TOPIC_MGMT 0x4 #define LBMR_HDR_TYPE_QUEUE_RES 0x6 #define LBMR_HDR_TYPE_EXT 0x7 #define LBMR_HDR_TYPE_OPTS_MASK 0x8 /* LBMR extended header. */ typedef struct { lbm_uint8_t ver_type; lbm_uint8_t ext_type; lbm_uint16_t dep; } lbmr_hdr_ext_type_t; #define O_LBMR_HDR_EXT_TYPE_T_VER_TYPE OFFSETOF(lbmr_hdr_ext_type_t, ver_type) #define L_LBMR_HDR_EXT_TYPE_T_VER_TYPE SIZEOF(lbmr_hdr_ext_type_t, ver_type) #define O_LBMR_HDR_EXT_TYPE_T_EXT_TYPE OFFSETOF(lbmr_hdr_ext_type_t, ext_type) #define L_LBMR_HDR_EXT_TYPE_T_EXT_TYPE SIZEOF(lbmr_hdr_ext_type_t, ext_type) #define O_LBMR_HDR_EXT_TYPE_T_DEP OFFSETOF(lbmr_hdr_ext_type_t, dep) #define L_LBMR_HDR_EXT_TYPE_T_DEP SIZEOF(lbmr_hdr_ext_type_t, dep) #define L_LBMR_HDR_EXT_TYPE_T (gint) sizeof(lbmr_hdr_ext_type_t) #define LBMR_HDR_EXT_TYPE_UME_PROXY_SRC_ELECT 0x1 #define LBMR_HDR_EXT_TYPE_UMQ_QUEUE_MGMT 0x2 #define LBMR_HDR_EXT_TYPE_CONTEXT_INFO 0x3 #define LBMR_HDR_EXT_TYPE_TOPIC_RES_REQUEST 0x4 #define LBMR_HDR_EXT_TYPE_TNWG_MSG 0x5 #define LBMR_HDR_EXT_TYPE_REMOTE_DOMAIN_ROUTE 0x6 #define LBMR_HDR_EXT_TYPE_REMOTE_CONTEXT_INFO 0x7 /* LBMR topic information record */ typedef struct { lbm_uint8_t transport; lbm_uint8_t tlen; lbm_uint16_t ttl; lbm_uint32_t index; } lbmr_tir_t; #define O_LBMR_TIR_T_TRANSPORT OFFSETOF(lbmr_tir_t, transport) #define L_LBMR_TIR_T_TRANSPORT SIZEOF(lbmr_tir_t, transport) #define O_LBMR_TIR_T_TLEN OFFSETOF(lbmr_tir_t, tlen) #define L_LBMR_TIR_T_TLEN SIZEOF(lbmr_tir_t, tlen) #define O_LBMR_TIR_T_TTL OFFSETOF(lbmr_tir_t, ttl) #define L_LBMR_TIR_T_TTL SIZEOF(lbmr_tir_t, ttl) #define O_LBMR_TIR_T_INDEX OFFSETOF(lbmr_tir_t, index) #define L_LBMR_TIR_T_INDEX SIZEOF(lbmr_tir_t, index) #define L_LBMR_TIR_T (gint) sizeof(lbmr_tir_t) /* LBMR topic information record TCP option data */ typedef struct { lbm_uint32_t ip; lbm_uint16_t port; } lbmr_tir_tcp_t; #define O_LBMR_TIR_TCP_T_IP OFFSETOF(lbmr_tir_tcp_t, ip) #define L_LBMR_TIR_TCP_T_IP SIZEOF(lbmr_tir_tcp_t, ip) #define O_LBMR_TIR_TCP_T_PORT OFFSETOF(lbmr_tir_tcp_t, port) #define L_LBMR_TIR_TCP_T_PORT SIZEOF(lbmr_tir_tcp_t, port) #define L_LBMR_TIR_TCP_T 6 typedef struct { lbm_uint32_t ip; lbm_uint32_t session_id; lbm_uint16_t port; } lbmr_tir_tcp_with_sid_t; #define O_LBMR_TIR_TCP_WITH_SID_T_IP OFFSETOF(lbmr_tir_tcp_with_sid_t, ip) #define L_LBMR_TIR_TCP_WITH_SID_T_IP SIZEOF(lbmr_tir_tcp_with_sid_t, ip) #define O_LBMR_TIR_TCP_WITH_SID_T_SESSION_ID OFFSETOF(lbmr_tir_tcp_with_sid_t, session_id) #define L_LBMR_TIR_TCP_WITH_SID_T_SESSION_ID SIZEOF(lbmr_tir_tcp_with_sid_t, session_id) #define O_LBMR_TIR_TCP_WITH_SID_T_PORT OFFSETOF(lbmr_tir_tcp_with_sid_t, port) #define L_LBMR_TIR_TCP_WITH_SID_T_PORT SIZEOF(lbmr_tir_tcp_with_sid_t, port) #define L_LBMR_TIR_TCP_WITH_SID_T 10 /* LBMR topic information record LBT-RM option data */ typedef struct { lbm_uint32_t src_addr; lbm_uint32_t mcast_addr; lbm_uint32_t session_id; lbm_uint16_t udp_dest_port; lbm_uint16_t src_ucast_port; } lbmr_tir_lbtrm_t; #define O_LBMR_TIR_LBTRM_T_SRC_ADDR OFFSETOF(lbmr_tir_lbtrm_t, src_addr) #define L_LBMR_TIR_LBTRM_T_SRC_ADDR SIZEOF(lbmr_tir_lbtrm_t, src_addr) #define O_LBMR_TIR_LBTRM_T_MCAST_ADDR OFFSETOF(lbmr_tir_lbtrm_t, mcast_addr) #define L_LBMR_TIR_LBTRM_T_MCAST_ADDR SIZEOF(lbmr_tir_lbtrm_t, mcast_addr) #define O_LBMR_TIR_LBTRM_T_SESSION_ID OFFSETOF(lbmr_tir_lbtrm_t, session_id) #define L_LBMR_TIR_LBTRM_T_SESSION_ID SIZEOF(lbmr_tir_lbtrm_t, session_id) #define O_LBMR_TIR_LBTRM_T_UDP_DEST_PORT OFFSETOF(lbmr_tir_lbtrm_t, udp_dest_port) #define L_LBMR_TIR_LBTRM_T_UDP_DEST_PORT SIZEOF(lbmr_tir_lbtrm_t, udp_dest_port) #define O_LBMR_TIR_LBTRM_T_SRC_UCAST_PORT OFFSETOF(lbmr_tir_lbtrm_t, src_ucast_port) #define L_LBMR_TIR_LBTRM_T_SRC_UCAST_PORT SIZEOF(lbmr_tir_lbtrm_t, src_ucast_port) #define L_LBMR_TIR_LBTRM_T (gint) sizeof(lbmr_tir_lbtrm_t) /* LBMR topic information record LBT-RU option data */ typedef struct { lbm_uint32_t ip; lbm_uint16_t port; } lbmr_tir_lbtru_t; #define O_LBMR_TIR_LBTRU_T_IP OFFSETOF(lbmr_tir_lbtru_t, ip) #define L_LBMR_TIR_LBTRU_T_IP SIZEOF(lbmr_tir_lbtru_t, ip) #define O_LBMR_TIR_LBTRU_T_PORT OFFSETOF(lbmr_tir_lbtru_t, port) #define L_LBMR_TIR_LBTRU_T_PORT SIZEOF(lbmr_tir_lbtru_t, port) #define L_LBMR_TIR_LBTRU_T 6 typedef struct { lbm_uint32_t ip; lbm_uint32_t session_id; lbm_uint16_t port; } lbmr_tir_lbtru_with_sid_t; #define O_LBMR_TIR_LBTRU_WITH_SID_T_IP OFFSETOF(lbmr_tir_lbtru_with_sid_t, ip) #define L_LBMR_TIR_LBTRU_WITH_SID_T_IP SIZEOF(lbmr_tir_lbtru_with_sid_t, ip) #define O_LBMR_TIR_LBTRU_WITH_SID_T_SESSION_ID OFFSETOF(lbmr_tir_lbtru_with_sid_t, session_id) #define L_LBMR_TIR_LBTRU_WITH_SID_T_SESSION_ID SIZEOF(lbmr_tir_lbtru_with_sid_t, session_id) #define O_LBMR_TIR_LBTRU_WITH_SID_T_PORT OFFSETOF(lbmr_tir_lbtru_with_sid_t, port) #define L_LBMR_TIR_LBTRU_WITH_SID_T_PORT SIZEOF(lbmr_tir_lbtru_with_sid_t, port) #define L_LBMR_TIR_LBTRU_WITH_SID_T 10 /* LBMR topic information record LBT-IPC option data */ typedef struct { lbm_uint32_t host_id; lbm_uint32_t session_id; lbm_uint16_t xport_id; } lbmr_tir_lbtipc_t; #define O_LBMR_TIR_LBTIPC_T_HOST_ID OFFSETOF(lbmr_tir_lbtipc_t, host_id) #define L_LBMR_TIR_LBTIPC_T_HOST_ID SIZEOF(lbmr_tir_lbtipc_t, host_id) #define O_LBMR_TIR_LBTIPC_T_SESSION_ID OFFSETOF(lbmr_tir_lbtipc_t, session_id) #define L_LBMR_TIR_LBTIPC_T_SESSION_ID SIZEOF(lbmr_tir_lbtipc_t, session_id) #define O_LBMR_TIR_LBTIPC_T_XPORT_ID OFFSETOF(lbmr_tir_lbtipc_t, xport_id) #define L_LBMR_TIR_LBTIPC_T_XPORT_ID SIZEOF(lbmr_tir_lbtipc_t, xport_id) #define L_LBMR_TIR_LBTIPC_T 10 /* LBMR topic information record LBT-RDMA option data */ typedef struct { lbm_uint32_t ip; lbm_uint32_t session_id; lbm_uint16_t port; } lbmr_tir_lbtrdma_t; #define O_LBMR_TIR_LBTRDMA_T_IP OFFSETOF(lbmr_tir_lbtrdma_t, ip) #define L_LBMR_TIR_LBTRDMA_T_IP SIZEOF(lbmr_tir_lbtrdma_t, ip) #define O_LBMR_TIR_LBTRDMA_T_SESSION_ID OFFSETOF(lbmr_tir_lbtrdma_t, session_id) #define L_LBMR_TIR_LBTRDMA_T_SESSION_ID SIZEOF(lbmr_tir_lbtrdma_t, session_id) #define O_LBMR_TIR_LBTRDMA_T_PORT OFFSETOF(lbmr_tir_lbtrdma_t, port) #define L_LBMR_TIR_LBTRDMA_T_PORT SIZEOF(lbmr_tir_lbtrdma_t, port) #define L_LBMR_TIR_LBTRDMA_T 10 /* LBMR topic information record LBT-SMX option data */ typedef struct { lbm_uint32_t host_id; lbm_uint32_t session_id; lbm_uint16_t xport_id; } lbmr_tir_lbtsmx_t; #define O_LBMR_TIR_LBTSMX_T_HOST_ID OFFSETOF(lbmr_tir_lbtsmx_t, host_id) #define L_LBMR_TIR_LBTSMX_T_HOST_ID SIZEOF(lbmr_tir_lbtsmx_t, host_id) #define O_LBMR_TIR_LBTSMX_T_SESSION_ID OFFSETOF(lbmr_tir_lbtsmx_t, session_id) #define L_LBMR_TIR_LBTSMX_T_SESSION_ID SIZEOF(lbmr_tir_lbtsmx_t, session_id) #define O_LBMR_TIR_LBTSMX_T_XPORT_ID OFFSETOF(lbmr_tir_lbtsmx_t, xport_id) #define L_LBMR_TIR_LBTSMX_T_XPORT_ID SIZEOF(lbmr_tir_lbtsmx_t, xport_id) #define L_LBMR_TIR_LBTSMX_T 10 #define LBMR_TIR_TRANSPORT 0x7F #define LBMR_TIR_OPTIONS 0x80 /* LBMR topic option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; } lbmr_topic_opt_t; #define O_LBMR_TOPIC_OPT_T_TYPE OFFSETOF(lbmr_topic_opt_t, type) #define L_LBMR_TOPIC_OPT_T_TYPE SIZEOF(lbmr_topic_opt_t, type) #define O_LBMR_TOPIC_OPT_T_LEN OFFSETOF(lbmr_topic_opt_t, len) #define L_LBMR_TOPIC_OPT_T_LEN SIZEOF(lbmr_topic_opt_t, len) #define O_LBMR_TOPIC_OPT_T_FLAGS OFFSETOF(lbmr_topic_opt_t, flags) #define L_LBMR_TOPIC_OPT_T_FLAGS SIZEOF(lbmr_topic_opt_t, flags) #define L_LBMR_TOPIC_OPT_T (gint) sizeof(lbmr_topic_opt_t) #define LBMR_TOPIC_OPT_FLAG_IGNORE 0x8000 /* LBMR topic option length */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t total_len; } lbmr_topic_opt_len_t; #define O_LBMR_TOPIC_OPT_LEN_T_TYPE OFFSETOF(lbmr_topic_opt_len_t, type) #define L_LBMR_TOPIC_OPT_LEN_T_TYPE SIZEOF(lbmr_topic_opt_len_t, type) #define O_LBMR_TOPIC_OPT_LEN_T_LEN OFFSETOF(lbmr_topic_opt_len_t, len) #define L_LBMR_TOPIC_OPT_LEN_T_LEN SIZEOF(lbmr_topic_opt_len_t, len) #define O_LBMR_TOPIC_OPT_LEN_T_TOTAL_LEN OFFSETOF(lbmr_topic_opt_len_t, total_len) #define L_LBMR_TOPIC_OPT_LEN_T_TOTAL_LEN SIZEOF(lbmr_topic_opt_len_t, total_len) #define L_LBMR_TOPIC_OPT_LEN_T (gint) sizeof(lbmr_topic_opt_len_t) #define LBMR_TOPIC_OPT_LEN_TYPE 0x00 #define LBMR_TOPIC_OPT_LEN_SZ 4 /* LBMR topic UME option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint16_t store_tcp_port; lbm_uint16_t src_tcp_port; lbm_uint32_t store_tcp_addr; lbm_uint32_t src_tcp_addr; lbm_uint32_t src_reg_id; lbm_uint32_t transport_idx; lbm_uint32_t high_seqnum; lbm_uint32_t low_seqnum; } lbmr_topic_opt_ume_t; #define O_LBMR_TOPIC_OPT_UME_T_TYPE OFFSETOF(lbmr_topic_opt_ume_t, type) #define L_LBMR_TOPIC_OPT_UME_T_TYPE SIZEOF(lbmr_topic_opt_ume_t, type) #define O_LBMR_TOPIC_OPT_UME_T_LEN OFFSETOF(lbmr_topic_opt_ume_t, len) #define L_LBMR_TOPIC_OPT_UME_T_LEN SIZEOF(lbmr_topic_opt_ume_t, len) #define O_LBMR_TOPIC_OPT_UME_T_FLAGS OFFSETOF(lbmr_topic_opt_ume_t, flags) #define L_LBMR_TOPIC_OPT_UME_T_FLAGS SIZEOF(lbmr_topic_opt_ume_t, flags) #define O_LBMR_TOPIC_OPT_UME_T_STORE_TCP_PORT OFFSETOF(lbmr_topic_opt_ume_t, store_tcp_port) #define L_LBMR_TOPIC_OPT_UME_T_STORE_TCP_PORT SIZEOF(lbmr_topic_opt_ume_t, store_tcp_port) #define O_LBMR_TOPIC_OPT_UME_T_SRC_TCP_PORT OFFSETOF(lbmr_topic_opt_ume_t, src_tcp_port) #define L_LBMR_TOPIC_OPT_UME_T_SRC_TCP_PORT SIZEOF(lbmr_topic_opt_ume_t, src_tcp_port) #define O_LBMR_TOPIC_OPT_UME_T_STORE_TCP_ADDR OFFSETOF(lbmr_topic_opt_ume_t, store_tcp_addr) #define L_LBMR_TOPIC_OPT_UME_T_STORE_TCP_ADDR SIZEOF(lbmr_topic_opt_ume_t, store_tcp_addr) #define O_LBMR_TOPIC_OPT_UME_T_SRC_TCP_ADDR OFFSETOF(lbmr_topic_opt_ume_t, src_tcp_addr) #define L_LBMR_TOPIC_OPT_UME_T_SRC_TCP_ADDR SIZEOF(lbmr_topic_opt_ume_t, src_tcp_addr) #define O_LBMR_TOPIC_OPT_UME_T_SRC_REG_ID OFFSETOF(lbmr_topic_opt_ume_t, src_reg_id) #define L_LBMR_TOPIC_OPT_UME_T_SRC_REG_ID SIZEOF(lbmr_topic_opt_ume_t, src_reg_id) #define O_LBMR_TOPIC_OPT_UME_T_TRANSPORT_IDX OFFSETOF(lbmr_topic_opt_ume_t, transport_idx) #define L_LBMR_TOPIC_OPT_UME_T_TRANSPORT_IDX SIZEOF(lbmr_topic_opt_ume_t, transport_idx) #define O_LBMR_TOPIC_OPT_UME_T_HIGH_SEQNUM OFFSETOF(lbmr_topic_opt_ume_t, high_seqnum) #define L_LBMR_TOPIC_OPT_UME_T_HIGH_SEQNUM SIZEOF(lbmr_topic_opt_ume_t, high_seqnum) #define O_LBMR_TOPIC_OPT_UME_T_LOW_SEQNUM OFFSETOF(lbmr_topic_opt_ume_t, low_seqnum) #define L_LBMR_TOPIC_OPT_UME_T_LOW_SEQNUM SIZEOF(lbmr_topic_opt_ume_t, low_seqnum) #define L_LBMR_TOPIC_OPT_UME_T (gint) sizeof(lbmr_topic_opt_ume_t) #define LBMR_TOPIC_OPT_UME_TYPE 0x01 #define LBMR_TOPIC_OPT_UME_FLAG_IGNORE 0x8000 #define LBMR_TOPIC_OPT_UME_FLAG_LATEJOIN 0x4000 #define LBMR_TOPIC_OPT_UME_FLAG_STORE 0x2000 #define LBMR_TOPIC_OPT_UME_FLAG_QCCAP 0x1000 #define LBMR_TOPIC_OPT_UME_FLAG_ACKTOSRC 0x800 #define LBMR_TOPIC_OPT_UME_SZ 32 /* LBMR topic UME store option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint8_t flags; lbm_uint8_t grp_idx; lbm_uint16_t store_tcp_port; lbm_uint16_t store_idx; lbm_uint32_t store_ip_addr; lbm_uint32_t src_reg_id; } lbmr_topic_opt_ume_store_t; #define O_LBMR_TOPIC_OPT_UME_STORE_T_TYPE OFFSETOF(lbmr_topic_opt_ume_store_t, type) #define L_LBMR_TOPIC_OPT_UME_STORE_T_TYPE SIZEOF(lbmr_topic_opt_ume_store_t, type) #define O_LBMR_TOPIC_OPT_UME_STORE_T_LEN OFFSETOF(lbmr_topic_opt_ume_store_t, len) #define L_LBMR_TOPIC_OPT_UME_STORE_T_LEN SIZEOF(lbmr_topic_opt_ume_store_t, len) #define O_LBMR_TOPIC_OPT_UME_STORE_T_FLAGS OFFSETOF(lbmr_topic_opt_ume_store_t, flags) #define L_LBMR_TOPIC_OPT_UME_STORE_T_FLAGS SIZEOF(lbmr_topic_opt_ume_store_t, flags) #define O_LBMR_TOPIC_OPT_UME_STORE_T_GRP_IDX OFFSETOF(lbmr_topic_opt_ume_store_t, grp_idx) #define L_LBMR_TOPIC_OPT_UME_STORE_T_GRP_IDX SIZEOF(lbmr_topic_opt_ume_store_t, grp_idx) #define O_LBMR_TOPIC_OPT_UME_STORE_T_STORE_TCP_PORT OFFSETOF(lbmr_topic_opt_ume_store_t, store_tcp_port) #define L_LBMR_TOPIC_OPT_UME_STORE_T_STORE_TCP_PORT SIZEOF(lbmr_topic_opt_ume_store_t, store_tcp_port) #define O_LBMR_TOPIC_OPT_UME_STORE_T_STORE_IDX OFFSETOF(lbmr_topic_opt_ume_store_t, store_idx) #define L_LBMR_TOPIC_OPT_UME_STORE_T_STORE_IDX SIZEOF(lbmr_topic_opt_ume_store_t, store_idx) #define O_LBMR_TOPIC_OPT_UME_STORE_T_STORE_IP_ADDR OFFSETOF(lbmr_topic_opt_ume_store_t, store_ip_addr) #define L_LBMR_TOPIC_OPT_UME_STORE_T_STORE_IP_ADDR SIZEOF(lbmr_topic_opt_ume_store_t, store_ip_addr) #define O_LBMR_TOPIC_OPT_UME_STORE_T_SRC_REG_ID OFFSETOF(lbmr_topic_opt_ume_store_t, src_reg_id) #define L_LBMR_TOPIC_OPT_UME_STORE_T_SRC_REG_ID SIZEOF(lbmr_topic_opt_ume_store_t, src_reg_id) #define L_LBMR_TOPIC_OPT_UME_STORE_T (gint) sizeof(lbmr_topic_opt_ume_store_t) #define LBMR_TOPIC_OPT_UME_STORE_TYPE 0x02 #define LBMR_TOPIC_OPT_UME_STORE_FLAG_IGNORE 0x80 #define LBMR_TOPIC_OPT_UME_STORE_SZ 16 /* LBMR topic UME store group option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint8_t flags; lbm_uint8_t grp_idx; lbm_uint16_t grp_sz; lbm_uint16_t reserved; } lbmr_topic_opt_ume_store_group_t; #define O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_TYPE OFFSETOF(lbmr_topic_opt_ume_store_group_t, type) #define L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_TYPE SIZEOF(lbmr_topic_opt_ume_store_group_t, type) #define O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_LEN OFFSETOF(lbmr_topic_opt_ume_store_group_t, len) #define L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_LEN SIZEOF(lbmr_topic_opt_ume_store_group_t, len) #define O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_FLAGS OFFSETOF(lbmr_topic_opt_ume_store_group_t, flags) #define L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_FLAGS SIZEOF(lbmr_topic_opt_ume_store_group_t, flags) #define O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_GRP_IDX OFFSETOF(lbmr_topic_opt_ume_store_group_t, grp_idx) #define L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_GRP_IDX SIZEOF(lbmr_topic_opt_ume_store_group_t, grp_idx) #define O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_GRP_SZ OFFSETOF(lbmr_topic_opt_ume_store_group_t, grp_sz) #define L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_GRP_SZ SIZEOF(lbmr_topic_opt_ume_store_group_t, grp_sz) #define O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_RESERVED OFFSETOF(lbmr_topic_opt_ume_store_group_t, reserved) #define L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_RESERVED SIZEOF(lbmr_topic_opt_ume_store_group_t, reserved) #define L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T (gint) sizeof(lbmr_topic_opt_ume_store_group_t) #define LBMR_TOPIC_OPT_UME_STORE_GROUP_TYPE 0x03 #define LBMR_TOPIC_OPT_UME_STORE_GROUP_FLAG_IGNORE 0x80 #define LBMR_TOPIC_OPT_UME_STORE_GROUP_SZ 8 /* LBMR topic latejoin option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint16_t src_tcp_port; lbm_uint16_t reserved; lbm_uint32_t src_ip_addr; lbm_uint32_t transport_idx; lbm_uint32_t high_seqnum; lbm_uint32_t low_seqnum; } lbmr_topic_opt_latejoin_t; #define O_LBMR_TOPIC_OPT_LATEJOIN_T_TYPE OFFSETOF(lbmr_topic_opt_latejoin_t, type) #define L_LBMR_TOPIC_OPT_LATEJOIN_T_TYPE SIZEOF(lbmr_topic_opt_latejoin_t, type) #define O_LBMR_TOPIC_OPT_LATEJOIN_T_LEN OFFSETOF(lbmr_topic_opt_latejoin_t, len) #define L_LBMR_TOPIC_OPT_LATEJOIN_T_LEN SIZEOF(lbmr_topic_opt_latejoin_t, len) #define O_LBMR_TOPIC_OPT_LATEJOIN_T_FLAGS OFFSETOF(lbmr_topic_opt_latejoin_t, flags) #define L_LBMR_TOPIC_OPT_LATEJOIN_T_FLAGS SIZEOF(lbmr_topic_opt_latejoin_t, flags) #define O_LBMR_TOPIC_OPT_LATEJOIN_T_SRC_TCP_PORT OFFSETOF(lbmr_topic_opt_latejoin_t, src_tcp_port) #define L_LBMR_TOPIC_OPT_LATEJOIN_T_SRC_TCP_PORT SIZEOF(lbmr_topic_opt_latejoin_t, src_tcp_port) #define O_LBMR_TOPIC_OPT_LATEJOIN_T_RESERVED OFFSETOF(lbmr_topic_opt_latejoin_t, reserved) #define L_LBMR_TOPIC_OPT_LATEJOIN_T_RESERVED SIZEOF(lbmr_topic_opt_latejoin_t, reserved) #define O_LBMR_TOPIC_OPT_LATEJOIN_T_SRC_IP_ADDR OFFSETOF(lbmr_topic_opt_latejoin_t, src_ip_addr) #define L_LBMR_TOPIC_OPT_LATEJOIN_T_SRC_IP_ADDR SIZEOF(lbmr_topic_opt_latejoin_t, src_ip_addr) #define O_LBMR_TOPIC_OPT_LATEJOIN_T_TRANSPORT_IDX OFFSETOF(lbmr_topic_opt_latejoin_t, transport_idx) #define L_LBMR_TOPIC_OPT_LATEJOIN_T_TRANSPORT_IDX SIZEOF(lbmr_topic_opt_latejoin_t, transport_idx) #define O_LBMR_TOPIC_OPT_LATEJOIN_T_HIGH_SEQNUM OFFSETOF(lbmr_topic_opt_latejoin_t, high_seqnum) #define L_LBMR_TOPIC_OPT_LATEJOIN_T_HIGH_SEQNUM SIZEOF(lbmr_topic_opt_latejoin_t, high_seqnum) #define O_LBMR_TOPIC_OPT_LATEJOIN_T_LOW_SEQNUM OFFSETOF(lbmr_topic_opt_latejoin_t, low_seqnum) #define L_LBMR_TOPIC_OPT_LATEJOIN_T_LOW_SEQNUM SIZEOF(lbmr_topic_opt_latejoin_t, low_seqnum) #define L_LBMR_TOPIC_OPT_LATEJOIN_T (gint) sizeof(lbmr_topic_opt_latejoin_t) #define LBMR_TOPIC_OPT_LATEJOIN_TYPE 0x04 #define LBMR_TOPIC_OPT_LATEJOIN_FLAG_IGNORE 0x8000 #define LBMR_TOPIC_OPT_LATEJOIN_FLAG_ACKTOSRC 0x4000 #define LBMR_TOPIC_OPT_LATEJOIN_SZ 24 /* LBMR topic queue control option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint32_t rcr_idx; } lbmr_topic_opt_umq_rcridx_t; #define O_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_TYPE OFFSETOF(lbmr_topic_opt_umq_rcridx_t, type) #define L_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_TYPE SIZEOF(lbmr_topic_opt_umq_rcridx_t, type) #define O_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_LEN OFFSETOF(lbmr_topic_opt_umq_rcridx_t, len) #define L_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_LEN SIZEOF(lbmr_topic_opt_umq_rcridx_t, len) #define O_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_FLAGS OFFSETOF(lbmr_topic_opt_umq_rcridx_t, flags) #define L_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_FLAGS SIZEOF(lbmr_topic_opt_umq_rcridx_t, flags) #define O_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_RCR_IDX OFFSETOF(lbmr_topic_opt_umq_rcridx_t, rcr_idx) #define L_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_RCR_IDX SIZEOF(lbmr_topic_opt_umq_rcridx_t, rcr_idx) #define L_LBMR_TOPIC_OPT_UMQ_RCRIDX_T (gint) sizeof(lbmr_topic_opt_umq_rcridx_t) #define LBMR_TOPIC_OPT_UMQ_RCRIDX_TYPE 0x05 #define LBMR_TOPIC_OPT_UMQ_RCRIDX_SZ 8 #define LBMR_TOPIC_OPT_UMQ_RCRIDX_FLAG_IGNORE 0x8000 #define LBMR_TOPIC_OPT_UMQ_QINFO_TYPE 0x06 #define LBMR_TOPIC_OPT_UMQ_FLAG_IGNORE 0x8000 #define LBMR_TOPIC_OPT_UMQ_FLAG_QUEUE 0x4000 #define LBMR_TOPIC_OPT_UMQ_FLAG_RCVLISTEN 0x2000 #define LBMR_TOPIC_OPT_UMQ_FLAG_CONTROL 0x1000 #define LBMR_TOPIC_OPT_UMQ_FLAG_SRCRCVLISTEN 0x0800 #define LBMR_TOPIC_OPT_UMQ_FLAG_PARTICIPANTS_ONLY 0x0400 #define LBMR_TOPIC_OPT_UMQ_MAX_QNAME_LEN 252 /* LBMR topic ULB option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint32_t queue_id; lbm_uint8_t regid[8]; lbm_uint32_t ulb_src_id; lbm_uint32_t src_ip_addr; lbm_uint16_t src_tcp_port; lbm_uint16_t reserved; } lbmr_topic_opt_ulb_t; #define O_LBMR_TOPIC_OPT_ULB_T_TYPE OFFSETOF(lbmr_topic_opt_ulb_t, type) #define L_LBMR_TOPIC_OPT_ULB_T_TYPE SIZEOF(lbmr_topic_opt_ulb_t, type) #define O_LBMR_TOPIC_OPT_ULB_T_LEN OFFSETOF(lbmr_topic_opt_ulb_t, len) #define L_LBMR_TOPIC_OPT_ULB_T_LEN SIZEOF(lbmr_topic_opt_ulb_t, len) #define O_LBMR_TOPIC_OPT_ULB_T_FLAGS OFFSETOF(lbmr_topic_opt_ulb_t, flags) #define L_LBMR_TOPIC_OPT_ULB_T_FLAGS SIZEOF(lbmr_topic_opt_ulb_t, flags) #define O_LBMR_TOPIC_OPT_ULB_T_QUEUE_ID OFFSETOF(lbmr_topic_opt_ulb_t, queue_id) #define L_LBMR_TOPIC_OPT_ULB_T_QUEUE_ID SIZEOF(lbmr_topic_opt_ulb_t, queue_id) #define O_LBMR_TOPIC_OPT_ULB_T_REGID OFFSETOF(lbmr_topic_opt_ulb_t, regid) #define L_LBMR_TOPIC_OPT_ULB_T_REGID SIZEOF(lbmr_topic_opt_ulb_t, regid) #define O_LBMR_TOPIC_OPT_ULB_T_ULB_SRC_ID OFFSETOF(lbmr_topic_opt_ulb_t, ulb_src_id) #define L_LBMR_TOPIC_OPT_ULB_T_ULB_SRC_ID SIZEOF(lbmr_topic_opt_ulb_t, ulb_src_id) #define O_LBMR_TOPIC_OPT_ULB_T_SRC_IP_ADDR OFFSETOF(lbmr_topic_opt_ulb_t, src_ip_addr) #define L_LBMR_TOPIC_OPT_ULB_T_SRC_IP_ADDR SIZEOF(lbmr_topic_opt_ulb_t, src_ip_addr) #define O_LBMR_TOPIC_OPT_ULB_T_SRC_TCP_PORT OFFSETOF(lbmr_topic_opt_ulb_t, src_tcp_port) #define L_LBMR_TOPIC_OPT_ULB_T_SRC_TCP_PORT SIZEOF(lbmr_topic_opt_ulb_t, src_tcp_port) #define O_LBMR_TOPIC_OPT_ULB_T_RESERVED OFFSETOF(lbmr_topic_opt_ulb_t, reserved) #define L_LBMR_TOPIC_OPT_ULB_T_RESERVED SIZEOF(lbmr_topic_opt_ulb_t, reserved) #define L_LBMR_TOPIC_OPT_ULB_T (gint) sizeof(lbmr_topic_opt_ulb_t) #define LBMR_TOPIC_OPT_ULB_TYPE 0x0B #define LBMR_TOPIC_OPT_ULB_FLAG_IGNORE 0x8000 #define LBMR_TOPIC_OPT_ULB_SZ 28 /* LBMR topic cost option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint8_t flags; lbm_uint8_t hop_count; lbm_uint32_t cost; } lbmr_topic_opt_cost_t; #define O_LBMR_TOPIC_OPT_COST_T_TYPE OFFSETOF(lbmr_topic_opt_cost_t, type) #define L_LBMR_TOPIC_OPT_COST_T_TYPE SIZEOF(lbmr_topic_opt_cost_t, type) #define O_LBMR_TOPIC_OPT_COST_T_LEN OFFSETOF(lbmr_topic_opt_cost_t, len) #define L_LBMR_TOPIC_OPT_COST_T_LEN SIZEOF(lbmr_topic_opt_cost_t, len) #define O_LBMR_TOPIC_OPT_COST_T_FLAGS OFFSETOF(lbmr_topic_opt_cost_t, flags) #define L_LBMR_TOPIC_OPT_COST_T_FLAGS SIZEOF(lbmr_topic_opt_cost_t, flags) #define O_LBMR_TOPIC_OPT_COST_T_HOP_COUNT OFFSETOF(lbmr_topic_opt_cost_t, hop_count) #define L_LBMR_TOPIC_OPT_COST_T_HOP_COUNT SIZEOF(lbmr_topic_opt_cost_t, hop_count) #define O_LBMR_TOPIC_OPT_COST_T_COST OFFSETOF(lbmr_topic_opt_cost_t, cost) #define L_LBMR_TOPIC_OPT_COST_T_COST SIZEOF(lbmr_topic_opt_cost_t, cost) #define L_LBMR_TOPIC_OPT_COST_T (gint) sizeof(lbmr_topic_opt_cost_t) #define LBMR_TOPIC_OPT_COST_TYPE 0x07 #define LBMR_TOPIC_OPT_COST_FLAG_IGNORE 0x80 #define LBMR_TOPIC_OPT_COST_SZ 8 /* LBMR topic originating transport ID option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint8_t originating_transport[LBM_OTID_BLOCK_SZ]; } lbmr_topic_opt_otid_t; #define O_LBMR_TOPIC_OPT_OTID_T_TYPE OFFSETOF(lbmr_topic_opt_otid_t, type) #define L_LBMR_TOPIC_OPT_OTID_T_TYPE SIZEOF(lbmr_topic_opt_otid_t, type) #define O_LBMR_TOPIC_OPT_OTID_T_LEN OFFSETOF(lbmr_topic_opt_otid_t, len) #define L_LBMR_TOPIC_OPT_OTID_T_LEN SIZEOF(lbmr_topic_opt_otid_t, len) #define O_LBMR_TOPIC_OPT_OTID_T_FLAGS OFFSETOF(lbmr_topic_opt_otid_t, flags) #define L_LBMR_TOPIC_OPT_OTID_T_FLAGS SIZEOF(lbmr_topic_opt_otid_t, flags) #define O_LBMR_TOPIC_OPT_OTID_T_ORIGINATING_TRANSPORT OFFSETOF(lbmr_topic_opt_otid_t, originating_transport) #define L_LBMR_TOPIC_OPT_OTID_T_ORIGINATING_TRANSPORT SIZEOF(lbmr_topic_opt_otid_t, originating_transport) #define L_LBMR_TOPIC_OPT_OTID_T (gint) sizeof(lbmr_topic_opt_otid_t) #define LBMR_TOPIC_OPT_OTID_TYPE 0x08 #define LBMR_TOPIC_OPT_OTID_FLAG_IGNORE 0x8000 #define LBMR_TOPIC_OPT_OTID_SZ 36 /* LBMR topic context instance transport option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint8_t flags; lbm_uint8_t res; lbm_uint8_t ctxinst[LBM_CONTEXT_INSTANCE_BLOCK_SZ]; } lbmr_topic_opt_ctxinst_t; #define O_LBMR_TOPIC_OPT_CTXINST_T_TYPE OFFSETOF(lbmr_topic_opt_ctxinst_t, type) #define L_LBMR_TOPIC_OPT_CTXINST_T_TYPE SIZEOF(lbmr_topic_opt_ctxinst_t, type) #define O_LBMR_TOPIC_OPT_CTXINST_T_LEN OFFSETOF(lbmr_topic_opt_ctxinst_t, len) #define L_LBMR_TOPIC_OPT_CTXINST_T_LEN SIZEOF(lbmr_topic_opt_ctxinst_t, len) #define O_LBMR_TOPIC_OPT_CTXINST_T_FLAGS OFFSETOF(lbmr_topic_opt_ctxinst_t, flags) #define L_LBMR_TOPIC_OPT_CTXINST_T_FLAGS SIZEOF(lbmr_topic_opt_ctxinst_t, flags) #define O_LBMR_TOPIC_OPT_CTXINST_T_RES OFFSETOF(lbmr_topic_opt_ctxinst_t, res) #define L_LBMR_TOPIC_OPT_CTXINST_T_RES SIZEOF(lbmr_topic_opt_ctxinst_t, res) #define O_LBMR_TOPIC_OPT_CTXINST_T_CTXINST OFFSETOF(lbmr_topic_opt_ctxinst_t, ctxinst) #define L_LBMR_TOPIC_OPT_CTXINST_T_CTXINST SIZEOF(lbmr_topic_opt_ctxinst_t, ctxinst) #define L_LBMR_TOPIC_OPT_CTXINST_T (gint) sizeof(lbmr_topic_opt_ctxinst_t) #define LBMR_TOPIC_OPT_CTXINST_TYPE 0x09 #define LBMR_TOPIC_OPT_CTXINST_FLAG_IGNORE 0x80 #define LBMR_TOPIC_OPT_CTXINST_SZ 12 /* LBMR topic context instance store transport option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint8_t flags; lbm_uint8_t idx; lbm_uint8_t ctxinst[LBM_CONTEXT_INSTANCE_BLOCK_SZ]; } lbmr_topic_opt_ctxinsts_t; #define O_LBMR_TOPIC_OPT_CTXINSTS_T_TYPE OFFSETOF(lbmr_topic_opt_ctxinsts_t, type) #define L_LBMR_TOPIC_OPT_CTXINSTS_T_TYPE SIZEOF(lbmr_topic_opt_ctxinsts_t, type) #define O_LBMR_TOPIC_OPT_CTXINSTS_T_LEN OFFSETOF(lbmr_topic_opt_ctxinsts_t, len) #define L_LBMR_TOPIC_OPT_CTXINSTS_T_LEN SIZEOF(lbmr_topic_opt_ctxinsts_t, len) #define O_LBMR_TOPIC_OPT_CTXINSTS_T_FLAGS OFFSETOF(lbmr_topic_opt_ctxinsts_t, flags) #define L_LBMR_TOPIC_OPT_CTXINSTS_T_FLAGS SIZEOF(lbmr_topic_opt_ctxinsts_t, flags) #define O_LBMR_TOPIC_OPT_CTXINSTS_T_IDX OFFSETOF(lbmr_topic_opt_ctxinsts_t, idx) #define L_LBMR_TOPIC_OPT_CTXINSTS_T_IDX SIZEOF(lbmr_topic_opt_ctxinsts_t, idx) #define O_LBMR_TOPIC_OPT_CTXINSTS_T_CTXINST OFFSETOF(lbmr_topic_opt_ctxinsts_t, ctxinst) #define L_LBMR_TOPIC_OPT_CTXINSTS_T_CTXINST SIZEOF(lbmr_topic_opt_ctxinsts_t, ctxinst) #define L_LBMR_TOPIC_OPT_CTXINSTS_T (gint) sizeof(lbmr_topic_opt_ctxinsts_t) #define LBMR_TOPIC_OPT_CTXINSTS_TYPE 0x0A #define LBMR_TOPIC_OPT_CTXINSTS_FLAG_IGNORE 0x80 #define LBMR_TOPIC_OPT_CTXINSTS_SZ 12 /* LBMR topic context instance queue transport option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint8_t flags; lbm_uint8_t idx; lbm_uint8_t ctxinst[LBM_CONTEXT_INSTANCE_BLOCK_SZ]; } lbmr_topic_opt_ctxinstq_t; #define O_LBMR_TOPIC_OPT_CTXINSTQ_T_TYPE OFFSETOF(lbmr_topic_opt_ctxinstq_t, type) #define L_LBMR_TOPIC_OPT_CTXINSTQ_T_TYPE SIZEOF(lbmr_topic_opt_ctxinstq_t, type) #define O_LBMR_TOPIC_OPT_CTXINSTQ_T_LEN OFFSETOF(lbmr_topic_opt_ctxinstq_t, len) #define L_LBMR_TOPIC_OPT_CTXINSTQ_T_LEN SIZEOF(lbmr_topic_opt_ctxinstq_t, len) #define O_LBMR_TOPIC_OPT_CTXINSTQ_T_FLAGS OFFSETOF(lbmr_topic_opt_ctxinstq_t, flags) #define L_LBMR_TOPIC_OPT_CTXINSTQ_T_FLAGS SIZEOF(lbmr_topic_opt_ctxinstq_t, flags) #define O_LBMR_TOPIC_OPT_CTXINSTQ_T_IDX OFFSETOF(lbmr_topic_opt_ctxinstq_t, idx) #define L_LBMR_TOPIC_OPT_CTXINSTQ_T_IDX SIZEOF(lbmr_topic_opt_ctxinstq_t, idx) #define O_LBMR_TOPIC_OPT_CTXINSTQ_T_CTXINST OFFSETOF(lbmr_topic_opt_ctxinstq_t, ctxinst) #define L_LBMR_TOPIC_OPT_CTXINSTQ_T_CTXINST SIZEOF(lbmr_topic_opt_ctxinstq_t, ctxinst) #define L_LBMR_TOPIC_OPT_CTXINSTQ_T (gint) sizeof(lbmr_topic_opt_ctxinstq_t) #define LBMR_TOPIC_OPT_CTXINSTQ_TYPE 0x0C #define LBMR_TOPIC_OPT_CTXINSTQ_FLAG_IGNORE 0x80 #define LBMR_TOPIC_OPT_CTXINSTQ_SZ 12 /* LBMR topic domain ID option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint32_t domain_id; } lbmr_topic_opt_domain_id_t; #define O_LBMR_TOPIC_OPT_DOMAIN_ID_T_TYPE OFFSETOF(lbmr_topic_opt_domain_id_t, type) #define L_LBMR_TOPIC_OPT_DOMAIN_ID_T_TYPE SIZEOF(lbmr_topic_opt_domain_id_t, type) #define O_LBMR_TOPIC_OPT_DOMAIN_ID_T_LEN OFFSETOF(lbmr_topic_opt_domain_id_t, len) #define L_LBMR_TOPIC_OPT_DOMAIN_ID_T_LEN SIZEOF(lbmr_topic_opt_domain_id_t, len) #define O_LBMR_TOPIC_OPT_DOMAIN_ID_T_FLAGS OFFSETOF(lbmr_topic_opt_domain_id_t, flags) #define L_LBMR_TOPIC_OPT_DOMAIN_ID_T_FLAGS SIZEOF(lbmr_topic_opt_domain_id_t, flags) #define O_LBMR_TOPIC_OPT_DOMAIN_ID_T_DOMAIN_ID OFFSETOF(lbmr_topic_opt_domain_id_t, domain_id) #define L_LBMR_TOPIC_OPT_DOMAIN_ID_T_DOMAIN_ID SIZEOF(lbmr_topic_opt_domain_id_t, domain_id) #define L_LBMR_TOPIC_OPT_DOMAIN_ID_T (gint) sizeof(lbmr_topic_opt_domain_id_t) #define LBMR_TOPIC_OPT_DOMAIN_ID_TYPE 0x0D #define LBMR_TOPIC_OPT_DOMAIN_ID_FLAG_IGNORE 0x8000 #define LBMR_TOPIC_OPT_DOMAIN_ID_SZ 8 /* LBMR topic extended functionality option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint16_t src_tcp_port; lbm_uint16_t reserved; lbm_uint32_t src_ip_addr; lbm_uint32_t functionality_flags; } lbmr_topic_opt_exfunc_t; #define O_LBMR_TOPIC_OPT_EXFUNC_T_TYPE OFFSETOF(lbmr_topic_opt_exfunc_t, type) #define L_LBMR_TOPIC_OPT_EXFUNC_T_TYPE SIZEOF(lbmr_topic_opt_exfunc_t, type) #define O_LBMR_TOPIC_OPT_EXFUNC_T_LEN OFFSETOF(lbmr_topic_opt_exfunc_t, len) #define L_LBMR_TOPIC_OPT_EXFUNC_T_LEN SIZEOF(lbmr_topic_opt_exfunc_t, len) #define O_LBMR_TOPIC_OPT_EXFUNC_T_FLAGS OFFSETOF(lbmr_topic_opt_exfunc_t, flags) #define L_LBMR_TOPIC_OPT_EXFUNC_T_FLAGS SIZEOF(lbmr_topic_opt_exfunc_t, flags) #define O_LBMR_TOPIC_OPT_EXFUNC_T_SRC_TCP_PORT OFFSETOF(lbmr_topic_opt_exfunc_t, src_tcp_port) #define L_LBMR_TOPIC_OPT_EXFUNC_T_SRC_TCP_PORT SIZEOF(lbmr_topic_opt_exfunc_t, src_tcp_port) #define O_LBMR_TOPIC_OPT_EXFUNC_T_RESERVED OFFSETOF(lbmr_topic_opt_exfunc_t, reserved) #define L_LBMR_TOPIC_OPT_EXFUNC_T_RESERVED SIZEOF(lbmr_topic_opt_exfunc_t, reserved) #define O_LBMR_TOPIC_OPT_EXFUNC_T_SRC_IP_ADDR OFFSETOF(lbmr_topic_opt_exfunc_t, src_ip_addr) #define L_LBMR_TOPIC_OPT_EXFUNC_T_SRC_IP_ADDR SIZEOF(lbmr_topic_opt_exfunc_t, src_ip_addr) #define O_LBMR_TOPIC_OPT_EXFUNC_T_FUNCTIONALITY_FLAGS OFFSETOF(lbmr_topic_opt_exfunc_t, functionality_flags) #define L_LBMR_TOPIC_OPT_EXFUNC_T_FUNCTIONALITY_FLAGS SIZEOF(lbmr_topic_opt_exfunc_t, functionality_flags) #define L_LBMR_TOPIC_OPT_EXFUNC_T (gint) sizeof(lbmr_topic_opt_exfunc_t) #define LBMR_TOPIC_OPT_EXFUNC_TYPE 0x0E #define LBMR_TOPIC_OPT_EXFUNC_FLAG_IGNORE 0x8000 #define LBMR_TOPIC_OPT_EXFUNC_SZ 16 /* Transports */ #define LBMR_TRANSPORT_TCP 0x00 #define LBMR_TRANSPORT_LBTRU 0x01 #define LBMR_TRANSPORT_TCP6 0x02 #define LBMR_TRANSPORT_LBTSMX 0x4 #define LBMR_TRANSPORT_LBTRM 0x10 #define LBMR_TRANSPORT_LBTIPC 0x40 #define LBMR_TRANSPORT_LBTRDMA 0x20 #define LBMR_TRANSPORT_PGM 0x11 #define LBMR_TRANSPORT_OPTION_MASK 0x80 /* LBMR context info */ typedef struct { lbm_uint8_t ver_type; lbm_uint8_t ext_type; lbm_uint8_t len; lbm_uint8_t hop_count; lbm_uint16_t flags; lbm_uint16_t port; lbm_uint32_t ip; lbm_uint8_t instance[LBM_CONTEXT_INSTANCE_BLOCK_SZ]; } lbmr_ctxinfo_t; #define O_LBMR_CTXINFO_T_VER_TYPE OFFSETOF(lbmr_ctxinfo_t, ver_type) #define L_LBMR_CTXINFO_T_VER_TYPE SIZEOF(lbmr_ctxinfo_t, ver_type) #define O_LBMR_CTXINFO_T_EXT_TYPE OFFSETOF(lbmr_ctxinfo_t, ext_type) #define L_LBMR_CTXINFO_T_EXT_TYPE SIZEOF(lbmr_ctxinfo_t, ext_type) #define O_LBMR_CTXINFO_T_LEN OFFSETOF(lbmr_ctxinfo_t, len) #define L_LBMR_CTXINFO_T_LEN SIZEOF(lbmr_ctxinfo_t, len) #define O_LBMR_CTXINFO_T_HOP_COUNT OFFSETOF(lbmr_ctxinfo_t, hop_count) #define L_LBMR_CTXINFO_T_HOP_COUNT SIZEOF(lbmr_ctxinfo_t, hop_count) #define O_LBMR_CTXINFO_T_FLAGS OFFSETOF(lbmr_ctxinfo_t, flags) #define L_LBMR_CTXINFO_T_FLAGS SIZEOF(lbmr_ctxinfo_t, flags) #define O_LBMR_CTXINFO_T_PORT OFFSETOF(lbmr_ctxinfo_t, port) #define L_LBMR_CTXINFO_T_PORT SIZEOF(lbmr_ctxinfo_t, port) #define O_LBMR_CTXINFO_T_IP OFFSETOF(lbmr_ctxinfo_t, ip) #define L_LBMR_CTXINFO_T_IP SIZEOF(lbmr_ctxinfo_t, ip) #define O_LBMR_CTXINFO_T_INSTANCE OFFSETOF(lbmr_ctxinfo_t, instance) #define L_LBMR_CTXINFO_T_INSTANCE SIZEOF(lbmr_ctxinfo_t, instance) #define L_LBMR_CTXINFO_T (gint) sizeof(lbmr_ctxinfo_t) #define LBMR_CTXINFO_QUERY_FLAG 0x8000 #define LBMR_CTXINFO_IP_FLAG 0x4000 #define LBMR_CTXINFO_INSTANCE_FLAG 0x2000 #define LBMR_CTXINFO_TNWG_SRC_FLAG 0x1000 #define LBMR_CTXINFO_TNWG_RCV_FLAG 0x0800 #define LBMR_CTXINFO_PROXY_FLAG 0x0400 #define LBMR_CTXINFO_NAME_FLAG 0x0001 /* LBMR topic resolution request */ typedef struct { lbm_uint8_t ver_type; lbm_uint8_t ext_type; lbm_uint16_t flags; } lbmr_topic_res_request_t; #define O_LBMR_TOPIC_RES_REQUEST_T_VER_TYPE OFFSETOF(lbmr_topic_res_request_t, ver_type) #define L_LBMR_TOPIC_RES_REQUEST_T_VER_TYPE SIZEOF(lbmr_topic_res_request_t, ver_type) #define O_LBMR_TOPIC_RES_REQUEST_T_EXT_TYPE OFFSETOF(lbmr_topic_res_request_t, ext_type) #define L_LBMR_TOPIC_RES_REQUEST_T_EXT_TYPE SIZEOF(lbmr_topic_res_request_t, ext_type) #define O_LBMR_TOPIC_RES_REQUEST_T_FLAGS OFFSETOF(lbmr_topic_res_request_t, flags) #define L_LBMR_TOPIC_RES_REQUEST_T_FLAGS SIZEOF(lbmr_topic_res_request_t, flags) #define L_LBMR_TOPIC_RES_REQUEST_T (gint) sizeof(lbmr_topic_res_request_t) #define LBM_TOPIC_RES_REQUEST_GW_REMOTE_INTEREST 0x40 #define LBM_TOPIC_RES_REQUEST_CONTEXT_QUERY 0x20 #define LBM_TOPIC_RES_REQUEST_CONTEXT_ADVERTISEMENT 0x10 #define LBM_TOPIC_RES_REQUEST_RESERVED1 0x08 #define LBM_TOPIC_RES_REQUEST_ADVERTISEMENT 0x04 #define LBM_TOPIC_RES_REQUEST_QUERY 0x02 #define LBM_TOPIC_RES_REQUEST_WILDCARD_QUERY 0x01 /* LBMR topic management block */ typedef struct { lbm_uint16_t len; lbm_uint16_t tmrs; } lbmr_tmb_t; #define O_LBMR_TMB_T_LEN OFFSETOF(lbmr_tmb_t, len) #define L_LBMR_TMB_T_LEN SIZEOF(lbmr_tmb_t, len) #define O_LBMR_TMB_T_TMRS OFFSETOF(lbmr_tmb_t, tmrs) #define L_LBMR_TMB_T_TMRS SIZEOF(lbmr_tmb_t, tmrs) #define L_LBMR_TMB_T (gint) sizeof(lbmr_tmb_t) /* LBMR topic management record */ typedef struct { lbm_uint16_t len; lbm_uint8_t type; lbm_uint8_t flags; } lbmr_tmr_t; #define O_LBMR_TMR_T_LEN OFFSETOF(lbmr_tmr_t, len) #define L_LBMR_TMR_T_LEN SIZEOF(lbmr_tmr_t, len) #define O_LBMR_TMR_T_TYPE OFFSETOF(lbmr_tmr_t, type) #define L_LBMR_TMR_T_TYPE SIZEOF(lbmr_tmr_t, type) #define O_LBMR_TMR_T_FLAGS OFFSETOF(lbmr_tmr_t, flags) #define L_LBMR_TMR_T_FLAGS SIZEOF(lbmr_tmr_t, flags) #define L_LBMR_TMR_T (gint) sizeof(lbmr_tmr_t) #define LBMR_TMR_LEAVE_TOPIC 0x00 #define LBMR_TMR_TOPIC_USE 0x01 #define LBMR_TMR_FLAG_RESPONSE 0x80 #define LBMR_TMR_FLAG_WILDCARD_PCRE 0x40 #define LBMR_TMR_FLAG_WILDCARD_REGEX 0x20 #define LBMR_TMR_FLAG_WILDCARD_MASK (LBMR_TMR_FLAG_WILDCARD_PCRE | LBMR_TMR_FLAG_WILDCARD_REGEX) /* LBMR queue information record */ typedef struct { lbm_uint32_t queue_id; lbm_uint32_t queue_ver; lbm_uint32_t queue_prev_ver; lbm_uint16_t grp_blks; lbm_uint16_t queue_blks; } lbmr_qir_t; #define O_LBMR_QIR_T_QUEUE_ID OFFSETOF(lbmr_qir_t, queue_id) #define L_LBMR_QIR_T_QUEUE_ID SIZEOF(lbmr_qir_t, queue_id) #define O_LBMR_QIR_T_QUEUE_VER OFFSETOF(lbmr_qir_t, queue_ver) #define L_LBMR_QIR_T_QUEUE_VER SIZEOF(lbmr_qir_t, queue_ver) #define O_LBMR_QIR_T_QUEUE_PREV_VER OFFSETOF(lbmr_qir_t, queue_prev_ver) #define L_LBMR_QIR_T_QUEUE_PREV_VER SIZEOF(lbmr_qir_t, queue_prev_ver) #define O_LBMR_QIR_T_GRP_BLKS OFFSETOF(lbmr_qir_t, grp_blks) #define L_LBMR_QIR_T_GRP_BLKS SIZEOF(lbmr_qir_t, grp_blks) #define O_LBMR_QIR_T_QUEUE_BLKS OFFSETOF(lbmr_qir_t, queue_blks) #define L_LBMR_QIR_T_QUEUE_BLKS SIZEOF(lbmr_qir_t, queue_blks) #define L_LBMR_QIR_T (gint) sizeof(lbmr_qir_t) #define LBMR_QIR_OPTIONS 0x8000 #define LBMR_QIR_GRP_BLOCKS_MASK 0x7fff /* LBMR queue group block record */ typedef struct { lbm_uint16_t grp_idx; lbm_uint16_t grp_sz; } lbmr_qir_grp_blk_t; #define O_LBMR_QIR_GRP_BLK_T_GRP_IDX OFFSETOF(lbmr_qir_grp_blk_t, grp_idx) #define L_LBMR_QIR_GRP_BLK_T_GRP_IDX SIZEOF(lbmr_qir_grp_blk_t, grp_idx) #define O_LBMR_QIR_GRP_BLK_T_GRP_SZ OFFSETOF(lbmr_qir_grp_blk_t, grp_sz) #define L_LBMR_QIR_GRP_BLK_T_GRP_SZ SIZEOF(lbmr_qir_grp_blk_t, grp_sz) #define L_LBMR_QIR_GRP_BLK_T (gint) sizeof(lbmr_qir_grp_blk_t) /* LBMR queue block record */ typedef struct { lbm_uint32_t ip; lbm_uint16_t port; lbm_uint16_t idx; lbm_uint16_t grp_idx; lbm_uint16_t reserved; } lbmr_qir_queue_blk_t; #define O_LBMR_QIR_QUEUE_BLK_T_IP OFFSETOF(lbmr_qir_queue_blk_t, ip) #define L_LBMR_QIR_QUEUE_BLK_T_IP SIZEOF(lbmr_qir_queue_blk_t, ip) #define O_LBMR_QIR_QUEUE_BLK_T_PORT OFFSETOF(lbmr_qir_queue_blk_t, port) #define L_LBMR_QIR_QUEUE_BLK_T_PORT SIZEOF(lbmr_qir_queue_blk_t, port) #define O_LBMR_QIR_QUEUE_BLK_T_IDX OFFSETOF(lbmr_qir_queue_blk_t, idx) #define L_LBMR_QIR_QUEUE_BLK_T_IDX SIZEOF(lbmr_qir_queue_blk_t, idx) #define O_LBMR_QIR_QUEUE_BLK_T_GRP_IDX OFFSETOF(lbmr_qir_queue_blk_t, grp_idx) #define L_LBMR_QIR_QUEUE_BLK_T_GRP_IDX SIZEOF(lbmr_qir_queue_blk_t, grp_idx) #define O_LBMR_QIR_QUEUE_BLK_T_RESERVED OFFSETOF(lbmr_qir_queue_blk_t, reserved) #define L_LBMR_QIR_QUEUE_BLK_T_RESERVED SIZEOF(lbmr_qir_queue_blk_t, reserved) #define L_LBMR_QIR_QUEUE_BLK_T (gint) sizeof(lbmr_qir_queue_blk_t) #define LBMR_QIR_QUEUE_BLK_FLAG_MASTER 0x8000 /* LBMR packet option header */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; } lbmr_lbmr_opt_hdr_t; #define O_LBMR_LBMR_OPT_HDR_T_TYPE OFFSETOF(lbmr_lbmr_opt_hdr_t, type) #define L_LBMR_LBMR_OPT_HDR_T_TYPE SIZEOF(lbmr_lbmr_opt_hdr_t, type) #define O_LBMR_LBMR_OPT_HDR_T_LEN OFFSETOF(lbmr_lbmr_opt_hdr_t, len) #define L_LBMR_LBMR_OPT_HDR_T_LEN SIZEOF(lbmr_lbmr_opt_hdr_t, len) #define O_LBMR_LBMR_OPT_HDR_T_FLAGS OFFSETOF(lbmr_lbmr_opt_hdr_t, flags) #define L_LBMR_LBMR_OPT_HDR_T_FLAGS SIZEOF(lbmr_lbmr_opt_hdr_t, flags) #define L_LBMR_LBMR_OPT_HDR_T (gint) sizeof(lbmr_lbmr_opt_hdr_t) #define LBMR_LBMR_OPT_HDR_FLAG_IGNORE 0x8000 /* LBMR packet option length header */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t total_len; } lbmr_lbmr_opt_len_t; #define O_LBMR_LBMR_OPT_LEN_T_TYPE OFFSETOF(lbmr_lbmr_opt_len_t, type) #define L_LBMR_LBMR_OPT_LEN_T_TYPE SIZEOF(lbmr_lbmr_opt_len_t, type) #define O_LBMR_LBMR_OPT_LEN_T_LEN OFFSETOF(lbmr_lbmr_opt_len_t, len) #define L_LBMR_LBMR_OPT_LEN_T_LEN SIZEOF(lbmr_lbmr_opt_len_t, len) #define O_LBMR_LBMR_OPT_LEN_T_TOTAL_LEN OFFSETOF(lbmr_lbmr_opt_len_t, total_len) #define L_LBMR_LBMR_OPT_LEN_T_TOTAL_LEN SIZEOF(lbmr_lbmr_opt_len_t, total_len) #define L_LBMR_LBMR_OPT_LEN_T (gint) sizeof(lbmr_lbmr_opt_len_t) #define LBMR_LBMR_OPT_LEN_TYPE 0x80 /* LBMR packet option source ID header */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint8_t src_id[LBM_CONTEXT_INSTANCE_BLOCK_SZ]; } lbmr_lbmr_opt_src_id_t; #define O_LBMR_LBMR_OPT_SRC_ID_T_TYPE OFFSETOF(lbmr_lbmr_opt_src_id_t, type) #define L_LBMR_LBMR_OPT_SRC_ID_T_TYPE SIZEOF(lbmr_lbmr_opt_src_id_t, type) #define O_LBMR_LBMR_OPT_SRC_ID_T_LEN OFFSETOF(lbmr_lbmr_opt_src_id_t, len) #define L_LBMR_LBMR_OPT_SRC_ID_T_LEN SIZEOF(lbmr_lbmr_opt_src_id_t, len) #define O_LBMR_LBMR_OPT_SRC_ID_T_FLAGS OFFSETOF(lbmr_lbmr_opt_src_id_t, flags) #define L_LBMR_LBMR_OPT_SRC_ID_T_FLAGS SIZEOF(lbmr_lbmr_opt_src_id_t, flags) #define O_LBMR_LBMR_OPT_SRC_ID_T_SRC_ID OFFSETOF(lbmr_lbmr_opt_src_id_t, src_id) #define L_LBMR_LBMR_OPT_SRC_ID_T_SRC_ID SIZEOF(lbmr_lbmr_opt_src_id_t, src_id) #define L_LBMR_LBMR_OPT_SRC_ID_T (gint) sizeof(lbmr_lbmr_opt_src_id_t) #define LBMR_LBMR_OPT_SRC_ID_TYPE 0x81 #define LBMR_LBMR_OPT_SRC_ID_FLAG_IGNORE 0x8000 /* LBMR packet option source type header */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint8_t flags; lbm_uint8_t src_type; } lbmr_lbmr_opt_src_type_t; #define O_LBMR_LBMR_OPT_SRC_TYPE_T_TYPE OFFSETOF(lbmr_lbmr_opt_src_type_t, type) #define L_LBMR_LBMR_OPT_SRC_TYPE_T_TYPE SIZEOF(lbmr_lbmr_opt_src_type_t, type) #define O_LBMR_LBMR_OPT_SRC_TYPE_T_LEN OFFSETOF(lbmr_lbmr_opt_src_type_t, len) #define L_LBMR_LBMR_OPT_SRC_TYPE_T_LEN SIZEOF(lbmr_lbmr_opt_src_type_t, len) #define O_LBMR_LBMR_OPT_SRC_TYPE_T_FLAGS OFFSETOF(lbmr_lbmr_opt_src_type_t, flags) #define L_LBMR_LBMR_OPT_SRC_TYPE_T_FLAGS SIZEOF(lbmr_lbmr_opt_src_type_t, flags) #define O_LBMR_LBMR_OPT_SRC_TYPE_T_SRC_TYPE OFFSETOF(lbmr_lbmr_opt_src_type_t, src_type) #define L_LBMR_LBMR_OPT_SRC_TYPE_T_SRC_TYPE SIZEOF(lbmr_lbmr_opt_src_type_t, src_type) #define L_LBMR_LBMR_OPT_SRC_TYPE_T (gint) sizeof(lbmr_lbmr_opt_src_type_t) #define LBMR_LBMR_OPT_SRC_TYPE_TYPE 0x82 #define LBMR_LBMR_OPT_SRC_TYPE_SZ 4 #define LBMR_LBMR_OPT_SRC_TYPE_FLAG_IGNORE 0x80 #define LBMR_LBMR_OPT_SRC_TYPE_SRC_TYPE_APPLICATION 0 #define LBMR_LBMR_OPT_SRC_TYPE_SRC_TYPE_TNWGD 1 #define LBMR_LBMR_OPT_SRC_TYPE_SRC_TYPE_STORE 2 /* LBMR packet option version header */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint32_t version; } lbmr_lbmr_opt_version_t; #define O_LBMR_LBMR_OPT_VERSION_T_TYPE OFFSETOF(lbmr_lbmr_opt_version_t, type) #define L_LBMR_LBMR_OPT_VERSION_T_TYPE SIZEOF(lbmr_lbmr_opt_version_t, type) #define O_LBMR_LBMR_OPT_VERSION_T_LEN OFFSETOF(lbmr_lbmr_opt_version_t, len) #define L_LBMR_LBMR_OPT_VERSION_T_LEN SIZEOF(lbmr_lbmr_opt_version_t, len) #define O_LBMR_LBMR_OPT_VERSION_T_FLAGS OFFSETOF(lbmr_lbmr_opt_version_t, flags) #define L_LBMR_LBMR_OPT_VERSION_T_FLAGS SIZEOF(lbmr_lbmr_opt_version_t, flags) #define O_LBMR_LBMR_OPT_VERSION_T_VERSION OFFSETOF(lbmr_lbmr_opt_version_t, version) #define L_LBMR_LBMR_OPT_VERSION_T_VERSION SIZEOF(lbmr_lbmr_opt_version_t, version) #define L_LBMR_LBMR_OPT_VERSION_T (gint) sizeof(lbmr_lbmr_opt_version_t) #define LBMR_LBMR_OPT_VERSION_TYPE 0x83 #define LBMR_LBMR_OPT_VERSIION_SZ 8 #define LBMR_LBMR_OPT_VERSION_FLAG_IGNORE 0x8000 #define LBMR_LBMR_OPT_VERSION_FLAG_UME 0x0001 #define LBMR_LBMR_OPT_VERSION_FLAG_UMQ 0x0002 /* LBMR packet option domain header */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint32_t local_domain_id; } lbmr_lbmr_opt_local_domain_t; #define O_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_TYPE OFFSETOF(lbmr_lbmr_opt_local_domain_t, type) #define L_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_TYPE SIZEOF(lbmr_lbmr_opt_local_domain_t, type) #define O_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_LEN OFFSETOF(lbmr_lbmr_opt_local_domain_t, len) #define L_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_LEN SIZEOF(lbmr_lbmr_opt_local_domain_t, len) #define O_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_FLAGS OFFSETOF(lbmr_lbmr_opt_local_domain_t, flags) #define L_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_FLAGS SIZEOF(lbmr_lbmr_opt_local_domain_t, flags) #define O_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_LOCAL_DOMAIN_ID OFFSETOF(lbmr_lbmr_opt_local_domain_t, local_domain_id) #define L_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_LOCAL_DOMAIN_ID SIZEOF(lbmr_lbmr_opt_local_domain_t, local_domain_id) #define L_LBMR_LBMR_OPT_LOCAL_DOMAIN_T (gint) sizeof(lbmr_lbmr_opt_local_domain_t) #define LBMR_LBMR_OPT_LOCAL_DOMAIN_TYPE 0x84 #define LBMR_LBMR_OPT_LOCAL_DOMAIN_SZ 8 #define LBMR_LBMR_OPT_LOCAL_DOMAIN_FLAG_IGNORE 0x8000 /* LBMR (extended) proxy source election record */ typedef struct { lbm_uint8_t ver_type; lbm_uint8_t ext_type; lbm_uint16_t dep_type; lbm_uint16_t len; lbm_uint16_t flags; lbm_uint32_t source_ip; lbm_uint32_t store_ip; lbm_uint32_t transport_idx; lbm_uint32_t topic_idx; lbm_uint16_t source_port; lbm_uint16_t store_port; } lbmr_pser_t; #define O_LBMR_PSER_T_VER_TYPE OFFSETOF(lbmr_pser_t, ver_type) #define L_LBMR_PSER_T_VER_TYPE SIZEOF(lbmr_pser_t, ver_type) #define O_LBMR_PSER_T_EXT_TYPE OFFSETOF(lbmr_pser_t, ext_type) #define L_LBMR_PSER_T_EXT_TYPE SIZEOF(lbmr_pser_t, ext_type) #define O_LBMR_PSER_T_DEP_TYPE OFFSETOF(lbmr_pser_t, dep_type) #define L_LBMR_PSER_T_DEP_TYPE SIZEOF(lbmr_pser_t, dep_type) #define O_LBMR_PSER_T_LEN OFFSETOF(lbmr_pser_t, len) #define L_LBMR_PSER_T_LEN SIZEOF(lbmr_pser_t, len) #define O_LBMR_PSER_T_FLAGS OFFSETOF(lbmr_pser_t, flags) #define L_LBMR_PSER_T_FLAGS SIZEOF(lbmr_pser_t, flags) #define O_LBMR_PSER_T_SOURCE_IP OFFSETOF(lbmr_pser_t, source_ip) #define L_LBMR_PSER_T_SOURCE_IP SIZEOF(lbmr_pser_t, source_ip) #define O_LBMR_PSER_T_STORE_IP OFFSETOF(lbmr_pser_t, store_ip) #define L_LBMR_PSER_T_STORE_IP SIZEOF(lbmr_pser_t, store_ip) #define O_LBMR_PSER_T_TRANSPORT_IDX OFFSETOF(lbmr_pser_t, transport_idx) #define L_LBMR_PSER_T_TRANSPORT_IDX SIZEOF(lbmr_pser_t, transport_idx) #define O_LBMR_PSER_T_TOPIC_IDX OFFSETOF(lbmr_pser_t, topic_idx) #define L_LBMR_PSER_T_TOPIC_IDX SIZEOF(lbmr_pser_t, topic_idx) #define O_LBMR_PSER_T_SOURCE_PORT OFFSETOF(lbmr_pser_t, source_port) #define L_LBMR_PSER_T_SOURCE_PORT SIZEOF(lbmr_pser_t, source_port) #define O_LBMR_PSER_T_STORE_PORT OFFSETOF(lbmr_pser_t, store_port) #define L_LBMR_PSER_T_STORE_PORT SIZEOF(lbmr_pser_t, store_port) #define O_LBMR_PSER_T_TOPIC (O_LBMR_PSER_T_STORE_PORT + L_LBMR_PSER_T_STORE_PORT) #define L_LBMR_PSER_T (gint) sizeof(lbmr_pser_t) #define LBMR_PSER_OPT_FLAG 0x8000 #define LBMR_HDR_EXT_TYPE_UME_PROXY_SRC_ELECT_DEP_ELECT 0 #define LBMR_HDR_EXT_TYPE_UME_PROXY_SRC_ELECT_DEP_REELECT 1 typedef struct { lbm_uint16_t type; lbm_uint16_t optlen; } lbmr_pser_optlen_t; #define O_LBMR_PSER_OPTLEN_T_TYPE OFFSETOF(lbmr_pser_optlen_t, type) #define L_LBMR_PSER_OPTLEN_T_TYPE SIZEOF(lbmr_pser_optlen_t, type) #define O_LBMR_PSER_OPTLEN_T_OPTLEN OFFSETOF(lbmr_pser_optlen_t, optlen) #define L_LBMR_PSER_OPTLEN_T_OPTLEN SIZEOF(lbmr_pser_optlen_t, optlen) #define L_LBMR_PSER_OPTLEN_T (gint) sizeof(lbmr_pser_optlen_t) typedef struct { lbm_uint8_t len; lbm_uint8_t type; } lbmr_pser_opt_hdr_t; #define O_LBMR_PSER_OPT_HDR_T_LEN OFFSETOF(lbmr_pser_opt_hdr_t, len) #define L_LBMR_PSER_OPT_HDR_T_LEN SIZEOF(lbmr_pser_opt_hdr_t, len) #define O_LBMR_PSER_OPT_HDR_T_TYPE OFFSETOF(lbmr_pser_opt_hdr_t, type) #define L_LBMR_PSER_OPT_HDR_T_TYPE SIZEOF(lbmr_pser_opt_hdr_t, type) #define L_LBMR_PSER_OPT_HDR_T (gint) sizeof(lbmr_pser_opt_hdr_t) #define LBMR_PSER_OPT_SRC_CTXINST_TYPE 0x00 #define LBMR_PSER_OPT_STORE_CTXINST_TYPE 0x01 typedef struct { lbm_uint8_t len; lbm_uint8_t type; lbm_uint8_t ctxinst[LBM_CONTEXT_INSTANCE_BLOCK_SZ]; } lbmr_pser_opt_ctxinst_t; #define O_LBMR_PSER_OPT_CTXINST_T_LEN OFFSETOF(lbmr_pser_opt_ctxinst_t, len) #define L_LBMR_PSER_OPT_CTXINST_T_LEN SIZEOF(lbmr_pser_opt_ctxinst_t, len) #define O_LBMR_PSER_OPT_CTXINST_T_TYPE OFFSETOF(lbmr_pser_opt_ctxinst_t, type) #define L_LBMR_PSER_OPT_CTXINST_T_TYPE SIZEOF(lbmr_pser_opt_ctxinst_t, type) #define O_LBMR_PSER_OPT_CTXINST_T_CTXINST OFFSETOF(lbmr_pser_opt_ctxinst_t, ctxinst) #define L_LBMR_PSER_OPT_CTXINST_T_CTXINST SIZEOF(lbmr_pser_opt_ctxinst_t, ctxinst) #define L_LBMR_PSER_OPT_CTXINST_T (gint) sizeof(lbmr_pser_opt_ctxinst_t) /* LBMR (extended) gateway message */ typedef struct { lbm_uint8_t ver_type; lbm_uint8_t ext_type; lbm_uint16_t len; lbm_uint16_t type; lbm_uint16_t reserved; } lbmr_tnwg_t; #define O_LBMR_TNWG_T_VER_TYPE OFFSETOF(lbmr_tnwg_t, ver_type) #define L_LBMR_TNWG_T_VER_TYPE SIZEOF(lbmr_tnwg_t, ver_type) #define O_LBMR_TNWG_T_EXT_TYPE OFFSETOF(lbmr_tnwg_t, ext_type) #define L_LBMR_TNWG_T_EXT_TYPE SIZEOF(lbmr_tnwg_t, ext_type) #define O_LBMR_TNWG_T_LEN OFFSETOF(lbmr_tnwg_t, len) #define L_LBMR_TNWG_T_LEN SIZEOF(lbmr_tnwg_t, len) #define O_LBMR_TNWG_T_TYPE OFFSETOF(lbmr_tnwg_t, type) #define L_LBMR_TNWG_T_TYPE SIZEOF(lbmr_tnwg_t, type) #define O_LBMR_TNWG_T_RESERVED OFFSETOF(lbmr_tnwg_t, reserved) #define L_LBMR_TNWG_T_RESERVED SIZEOF(lbmr_tnwg_t, reserved) #define L_LBMR_TNWG_T (gint) sizeof(lbmr_tnwg_t) #define LBMR_TNWG_TYPE_INTEREST 0x0000 #define LBMR_TNWG_TYPE_CTXINFO 0x0001 #define LBMR_TNWG_TYPE_TRREQ 0x0002 /* LBMR (extended) gateway message - interest header */ typedef struct { lbm_uint16_t len; lbm_uint16_t count; } lbmr_tnwg_interest_t; #define O_LBMR_TNWG_INTEREST_T_LEN OFFSETOF(lbmr_tnwg_interest_t, len) #define L_LBMR_TNWG_INTEREST_T_LEN SIZEOF(lbmr_tnwg_interest_t, len) #define O_LBMR_TNWG_INTEREST_T_COUNT OFFSETOF(lbmr_tnwg_interest_t, count) #define L_LBMR_TNWG_INTEREST_T_COUNT SIZEOF(lbmr_tnwg_interest_t, count) #define L_LBMR_TNWG_INTEREST_T (gint) sizeof(lbmr_tnwg_interest_t) /* LBMR (extended) gateway message - interest record */ typedef struct { lbm_uint16_t len; lbm_uint8_t flags; lbm_uint8_t pattype; lbm_uint32_t domain_id; } lbmr_tnwg_interest_rec_t; #define O_LBMR_TNWG_INTEREST_REC_T_LEN OFFSETOF(lbmr_tnwg_interest_rec_t, len) #define L_LBMR_TNWG_INTEREST_REC_T_LEN SIZEOF(lbmr_tnwg_interest_rec_t, len) #define O_LBMR_TNWG_INTEREST_REC_T_FLAGS OFFSETOF(lbmr_tnwg_interest_rec_t, flags) #define L_LBMR_TNWG_INTEREST_REC_T_FLAGS SIZEOF(lbmr_tnwg_interest_rec_t, flags) #define O_LBMR_TNWG_INTEREST_REC_T_PATTYPE OFFSETOF(lbmr_tnwg_interest_rec_t, pattype) #define L_LBMR_TNWG_INTEREST_REC_T_PATTYPE SIZEOF(lbmr_tnwg_interest_rec_t, pattype) #define O_LBMR_TNWG_INTEREST_REC_T_DOMAIN_ID OFFSETOF(lbmr_tnwg_interest_rec_t, domain_id) #define L_LBMR_TNWG_INTEREST_REC_T_DOMAIN_ID SIZEOF(lbmr_tnwg_interest_rec_t, domain_id) #define L_LBMR_TNWG_INTEREST_REC_T (gint) sizeof(lbmr_tnwg_interest_rec_t) #define LBMR_TNWG_INTEREST_REC_PATTERN_FLAG 0x80 #define LBMR_TNWG_INTEREST_REC_CANCEL_FLAG 0x40 #define LBMR_TNWG_INTEREST_REC_REFRESH_FLAG 0x20 /* LBMR (extended) gateway message - ctxinfo header */ typedef struct { lbm_uint16_t len; lbm_uint8_t hop_count; lbm_uint8_t reserved; lbm_uint32_t flags1; lbm_uint32_t flags2; } lbmr_tnwg_ctxinfo_t; #define O_LBMR_TNWG_CTXINFO_T_LEN OFFSETOF(lbmr_tnwg_ctxinfo_t, len) #define L_LBMR_TNWG_CTXINFO_T_LEN SIZEOF(lbmr_tnwg_ctxinfo_t, len) #define O_LBMR_TNWG_CTXINFO_T_HOP_COUNT OFFSETOF(lbmr_tnwg_ctxinfo_t, hop_count) #define L_LBMR_TNWG_CTXINFO_T_HOP_COUNT SIZEOF(lbmr_tnwg_ctxinfo_t, hop_count) #define O_LBMR_TNWG_CTXINFO_T_RESERVED OFFSETOF(lbmr_tnwg_ctxinfo_t, reserved) #define L_LBMR_TNWG_CTXINFO_T_RESERVED SIZEOF(lbmr_tnwg_ctxinfo_t, reserved) #define O_LBMR_TNWG_CTXINFO_T_FLAGS1 OFFSETOF(lbmr_tnwg_ctxinfo_t, flags1) #define L_LBMR_TNWG_CTXINFO_T_FLAGS1 SIZEOF(lbmr_tnwg_ctxinfo_t, flags1) #define O_LBMR_TNWG_CTXINFO_T_FLAGS2 OFFSETOF(lbmr_tnwg_ctxinfo_t, flags2) #define L_LBMR_TNWG_CTXINFO_T_FLAGS2 SIZEOF(lbmr_tnwg_ctxinfo_t, flags2) #define L_LBMR_TNWG_CTXINFO_T (gint) sizeof(lbmr_tnwg_ctxinfo_t) #define LBMR_TNWG_CTXINFO_QUERY_FLAG 0x80000000 #define LBMR_TNWG_CTXINFO_TNWG_SRC_FLAG 0x40000000 #define LBMR_TNWG_CTXINFO_TNWG_RCV_FLAG 0x20000000 #define LBMR_TNWG_CTXINFO_PROXY_FLAG 0x10000000 /* LBMR (extended) gateway message - topic res request header */ typedef struct { lbm_uint16_t len; } lbmr_tnwg_trreq_t; #define O_LBMR_TNWG_TRREQ_T_LEN OFFSETOF(lbmr_tnwg_trreq_t, len) #define L_LBMR_TNWG_TRREQ_T_LEN SIZEOF(lbmr_tnwg_trreq_t, len) #define L_LBMR_TNWG_TRREQ_T (gint) sizeof(lbmr_tnwg_trreq_t) /* LBMR (extended) gateway message - basic option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; } lbmr_tnwg_opt_t; #define O_LBMR_TNWG_OPT_T_TYPE OFFSETOF(lbmr_tnwg_opt_t, type) #define L_LBMR_TNWG_OPT_T_TYPE SIZEOF(lbmr_tnwg_opt_t, type) #define O_LBMR_TNWG_OPT_T_LEN OFFSETOF(lbmr_tnwg_opt_t, len) #define L_LBMR_TNWG_OPT_T_LEN SIZEOF(lbmr_tnwg_opt_t, len) #define O_LBMR_TNWG_OPT_T_FLAGS OFFSETOF(lbmr_tnwg_opt_t, flags) #define L_LBMR_TNWG_OPT_T_FLAGS SIZEOF(lbmr_tnwg_opt_t, flags) #define L_LBMR_TNWG_OPT_T (gint) sizeof(lbmr_tnwg_opt_t) #define LBMR_TNWG_OPT_IGNORE_FLAG 0x8000 /* LBMR (extended) gateway message - ctxinst option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint8_t instance[LBM_CONTEXT_INSTANCE_BLOCK_SZ]; } lbmr_tnwg_opt_ctxinst_t; #define O_LBMR_TNWG_OPT_CTXINST_T_TYPE OFFSETOF(lbmr_tnwg_opt_ctxinst_t, type) #define L_LBMR_TNWG_OPT_CTXINST_T_TYPE SIZEOF(lbmr_tnwg_opt_ctxinst_t, type) #define O_LBMR_TNWG_OPT_CTXINST_T_LEN OFFSETOF(lbmr_tnwg_opt_ctxinst_t, len) #define L_LBMR_TNWG_OPT_CTXINST_T_LEN SIZEOF(lbmr_tnwg_opt_ctxinst_t, len) #define O_LBMR_TNWG_OPT_CTXINST_T_FLAGS OFFSETOF(lbmr_tnwg_opt_ctxinst_t, flags) #define L_LBMR_TNWG_OPT_CTXINST_T_FLAGS SIZEOF(lbmr_tnwg_opt_ctxinst_t, flags) #define O_LBMR_TNWG_OPT_CTXINST_T_INSTANCE OFFSETOF(lbmr_tnwg_opt_ctxinst_t, instance) #define L_LBMR_TNWG_OPT_CTXINST_T_INSTANCE SIZEOF(lbmr_tnwg_opt_ctxinst_t, instance) #define L_LBMR_TNWG_OPT_CTXINST_T (gint) sizeof(lbmr_tnwg_opt_ctxinst_t) #define LBMR_TNWG_OPT_CTXINST_TYPE 0x00 /* LBMR (extended) gateway message - address option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint16_t port; lbm_uint16_t res; lbm_uint32_t ip; } lbmr_tnwg_opt_address_t; #define O_LBMR_TNWG_OPT_ADDRESS_T_TYPE OFFSETOF(lbmr_tnwg_opt_address_t, type) #define L_LBMR_TNWG_OPT_ADDRESS_T_TYPE SIZEOF(lbmr_tnwg_opt_address_t, type) #define O_LBMR_TNWG_OPT_ADDRESS_T_LEN OFFSETOF(lbmr_tnwg_opt_address_t, len) #define L_LBMR_TNWG_OPT_ADDRESS_T_LEN SIZEOF(lbmr_tnwg_opt_address_t, len) #define O_LBMR_TNWG_OPT_ADDRESS_T_FLAGS OFFSETOF(lbmr_tnwg_opt_address_t, flags) #define L_LBMR_TNWG_OPT_ADDRESS_T_FLAGS SIZEOF(lbmr_tnwg_opt_address_t, flags) #define O_LBMR_TNWG_OPT_ADDRESS_T_PORT OFFSETOF(lbmr_tnwg_opt_address_t, port) #define L_LBMR_TNWG_OPT_ADDRESS_T_PORT SIZEOF(lbmr_tnwg_opt_address_t, port) #define O_LBMR_TNWG_OPT_ADDRESS_T_RES OFFSETOF(lbmr_tnwg_opt_address_t, res) #define L_LBMR_TNWG_OPT_ADDRESS_T_RES SIZEOF(lbmr_tnwg_opt_address_t, res) #define O_LBMR_TNWG_OPT_ADDRESS_T_IP OFFSETOF(lbmr_tnwg_opt_address_t, ip) #define L_LBMR_TNWG_OPT_ADDRESS_T_IP SIZEOF(lbmr_tnwg_opt_address_t, ip) #define L_LBMR_TNWG_OPT_ADDRESS_T (gint) sizeof(lbmr_tnwg_opt_address_t) #define LBMR_TNWG_OPT_ADDRESS_TYPE 0x01 /* LBMR (extended) gateway message - domain option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint32_t domain_id; } lbmr_tnwg_opt_domain_t; #define O_LBMR_TNWG_OPT_DOMAIN_T_TYPE OFFSETOF(lbmr_tnwg_opt_domain_t, type) #define L_LBMR_TNWG_OPT_DOMAIN_T_TYPE SIZEOF(lbmr_tnwg_opt_domain_t, type) #define O_LBMR_TNWG_OPT_DOMAIN_T_LEN OFFSETOF(lbmr_tnwg_opt_domain_t, len) #define L_LBMR_TNWG_OPT_DOMAIN_T_LEN SIZEOF(lbmr_tnwg_opt_domain_t, len) #define O_LBMR_TNWG_OPT_DOMAIN_T_FLAGS OFFSETOF(lbmr_tnwg_opt_domain_t, flags) #define L_LBMR_TNWG_OPT_DOMAIN_T_FLAGS SIZEOF(lbmr_tnwg_opt_domain_t, flags) #define O_LBMR_TNWG_OPT_DOMAIN_T_DOMAIN_ID OFFSETOF(lbmr_tnwg_opt_domain_t, domain_id) #define L_LBMR_TNWG_OPT_DOMAIN_T_DOMAIN_ID SIZEOF(lbmr_tnwg_opt_domain_t, domain_id) #define L_LBMR_TNWG_OPT_DOMAIN_T (gint) sizeof(lbmr_tnwg_opt_domain_t) #define LBMR_TNWG_OPT_DOMAIN_TYPE 0x02 /* LBMR (extended) gateway message - name option (a base option) */ #define LBMR_TNWG_OPT_NAME_TYPE 0x03 /* LBMR (extended) remote domain route message */ typedef struct { lbm_uint8_t ver_type; lbm_uint8_t ext_type; lbm_uint16_t num_domains; lbm_uint32_t ip; lbm_uint16_t port; lbm_uint16_t reserved; lbm_uint32_t length; /* lbm_uint32_t domains[num_domains]; */ } lbmr_remote_domain_route_hdr_t; #define O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_VER_TYPE OFFSETOF(lbmr_remote_domain_route_hdr_t, ver_type) #define L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_VER_TYPE SIZEOF(lbmr_remote_domain_route_hdr_t, ver_type) #define O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_EXT_TYPE OFFSETOF(lbmr_remote_domain_route_hdr_t, ext_type) #define L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_EXT_TYPE SIZEOF(lbmr_remote_domain_route_hdr_t, ext_type) #define O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_NUM_DOMAINS OFFSETOF(lbmr_remote_domain_route_hdr_t, num_domains) #define L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_NUM_DOMAINS SIZEOF(lbmr_remote_domain_route_hdr_t, num_domains) #define O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_IP OFFSETOF(lbmr_remote_domain_route_hdr_t, ip) #define L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_IP SIZEOF(lbmr_remote_domain_route_hdr_t, ip) #define O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_PORT OFFSETOF(lbmr_remote_domain_route_hdr_t, port) #define L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_PORT SIZEOF(lbmr_remote_domain_route_hdr_t, port) #define O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_RESERVED OFFSETOF(lbmr_remote_domain_route_hdr_t, reserved) #define L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_RESERVED SIZEOF(lbmr_remote_domain_route_hdr_t, reserved) #define O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_LENGTH OFFSETOF(lbmr_remote_domain_route_hdr_t, length) #define L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_LENGTH SIZEOF(lbmr_remote_domain_route_hdr_t, length) #define L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T (gint) sizeof(lbmr_remote_domain_route_hdr_t) /* LBMR (extended) remote context information message */ typedef struct { lbm_uint8_t ver_type; lbm_uint8_t ext_type; lbm_uint16_t len; lbm_uint16_t num_recs; lbm_uint16_t reserved; } lbmr_rctxinfo_t; #define O_LBMR_RCTXINFO_T_VER_TYPE OFFSETOF(lbmr_rctxinfo_t, ver_type) #define L_LBMR_RCTXINFO_T_VER_TYPE SIZEOF(lbmr_rctxinfo_t, ver_type) #define O_LBMR_RCTXINFO_T_EXT_TYPE OFFSETOF(lbmr_rctxinfo_t, ext_type) #define L_LBMR_RCTXINFO_T_EXT_TYPE SIZEOF(lbmr_rctxinfo_t, ext_type) #define O_LBMR_RCTXINFO_T_LEN OFFSETOF(lbmr_rctxinfo_t, len) #define L_LBMR_RCTXINFO_T_LEN SIZEOF(lbmr_rctxinfo_t, len) #define O_LBMR_RCTXINFO_T_NUM_RECS OFFSETOF(lbmr_rctxinfo_t, num_recs) #define L_LBMR_RCTXINFO_T_NUM_RECS SIZEOF(lbmr_rctxinfo_t, num_recs) #define O_LBMR_RCTXINFO_T_RESERVED OFFSETOF(lbmr_rctxinfo_t, reserved) #define L_LBMR_RCTXINFO_T_RESERVED SIZEOF(lbmr_rctxinfo_t, reserved) #define L_LBMR_RCTXINFO_T (gint) sizeof(lbmr_rctxinfo_t) /* LBMR (extended) remote context information record */ typedef struct { lbm_uint16_t len; lbm_uint16_t flags; } lbmr_rctxinfo_rec_t; #define O_LBMR_RCTXINFO_REC_T_LEN OFFSETOF(lbmr_rctxinfo_rec_t, len) #define L_LBMR_RCTXINFO_REC_T_LEN SIZEOF(lbmr_rctxinfo_rec_t, len) #define O_LBMR_RCTXINFO_REC_T_FLAGS OFFSETOF(lbmr_rctxinfo_rec_t, flags) #define L_LBMR_RCTXINFO_REC_T_FLAGS SIZEOF(lbmr_rctxinfo_rec_t, flags) #define L_LBMR_RCTXINFO_REC_T (gint) sizeof(lbmr_rctxinfo_rec_t) #define LBMR_RCTXINFO_REC_FLAG_QUERY 0x8000 /* LBMR (extended) remote context information record option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; } lbmr_rctxinfo_rec_opt_t; #define O_LBMR_RCTXINFO_REC_OPT_T_TYPE OFFSETOF(lbmr_rctxinfo_rec_opt_t, type) #define L_LBMR_RCTXINFO_REC_OPT_T_TYPE SIZEOF(lbmr_rctxinfo_rec_opt_t, type) #define O_LBMR_RCTXINFO_REC_OPT_T_LEN OFFSETOF(lbmr_rctxinfo_rec_opt_t, len) #define L_LBMR_RCTXINFO_REC_OPT_T_LEN SIZEOF(lbmr_rctxinfo_rec_opt_t, len) #define O_LBMR_RCTXINFO_REC_OPT_T_FLAGS OFFSETOF(lbmr_rctxinfo_rec_opt_t, flags) #define L_LBMR_RCTXINFO_REC_OPT_T_FLAGS SIZEOF(lbmr_rctxinfo_rec_opt_t, flags) #define L_LBMR_RCTXINFO_REC_OPT_T (gint) sizeof(lbmr_rctxinfo_rec_opt_t) /* LBMR (extended) remote context information record address option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint32_t domain_id; lbm_uint32_t ip; lbm_uint16_t port; lbm_uint16_t res; } lbmr_rctxinfo_rec_address_opt_t; #define O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_TYPE OFFSETOF(lbmr_rctxinfo_rec_address_opt_t, type) #define L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_TYPE SIZEOF(lbmr_rctxinfo_rec_address_opt_t, type) #define O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_LEN OFFSETOF(lbmr_rctxinfo_rec_address_opt_t, len) #define L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_LEN SIZEOF(lbmr_rctxinfo_rec_address_opt_t, len) #define O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_FLAGS OFFSETOF(lbmr_rctxinfo_rec_address_opt_t, flags) #define L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_FLAGS SIZEOF(lbmr_rctxinfo_rec_address_opt_t, flags) #define O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_DOMAIN_ID OFFSETOF(lbmr_rctxinfo_rec_address_opt_t, domain_id) #define L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_DOMAIN_ID SIZEOF(lbmr_rctxinfo_rec_address_opt_t, domain_id) #define O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_IP OFFSETOF(lbmr_rctxinfo_rec_address_opt_t, ip) #define L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_IP SIZEOF(lbmr_rctxinfo_rec_address_opt_t, ip) #define O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_PORT OFFSETOF(lbmr_rctxinfo_rec_address_opt_t, port) #define L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_PORT SIZEOF(lbmr_rctxinfo_rec_address_opt_t, port) #define O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_RES OFFSETOF(lbmr_rctxinfo_rec_address_opt_t, res) #define L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_RES SIZEOF(lbmr_rctxinfo_rec_address_opt_t, res) #define L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T (gint) sizeof(lbmr_rctxinfo_rec_address_opt_t) #define LBMR_RCTXINFO_OPT_ADDRESS_TYPE 0x01 /* LBMR (extended) remote context information record instance option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint8_t instance[LBM_CONTEXT_INSTANCE_BLOCK_SZ]; } lbmr_rctxinfo_rec_instance_opt_t; #define O_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_TYPE OFFSETOF(lbmr_rctxinfo_rec_instance_opt_t, type) #define L_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_TYPE SIZEOF(lbmr_rctxinfo_rec_instance_opt_t, type) #define O_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_LEN OFFSETOF(lbmr_rctxinfo_rec_instance_opt_t, len) #define L_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_LEN SIZEOF(lbmr_rctxinfo_rec_instance_opt_t, len) #define O_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_FLAGS OFFSETOF(lbmr_rctxinfo_rec_instance_opt_t, flags) #define L_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_FLAGS SIZEOF(lbmr_rctxinfo_rec_instance_opt_t, flags) #define O_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_INSTANCE OFFSETOF(lbmr_rctxinfo_rec_instance_opt_t, instance) #define L_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_INSTANCE SIZEOF(lbmr_rctxinfo_rec_instance_opt_t, instance) #define L_LBMR_RCTXINFO_REC_INSTANCE_OPT_T (gint) sizeof(lbmr_rctxinfo_rec_instance_opt_t) #define LBMR_RCTXINFO_OPT_INSTANCE_TYPE 0x02 /* LBMR (extended) remote context information record odomain option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; lbm_uint32_t domain_id; } lbmr_rctxinfo_rec_odomain_opt_t; #define O_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_TYPE OFFSETOF(lbmr_rctxinfo_rec_odomain_opt_t, type) #define L_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_TYPE SIZEOF(lbmr_rctxinfo_rec_odomain_opt_t, type) #define O_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_LEN OFFSETOF(lbmr_rctxinfo_rec_odomain_opt_t, len) #define L_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_LEN SIZEOF(lbmr_rctxinfo_rec_odomain_opt_t, len) #define O_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_FLAGS OFFSETOF(lbmr_rctxinfo_rec_odomain_opt_t, flags) #define L_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_FLAGS SIZEOF(lbmr_rctxinfo_rec_odomain_opt_t, flags) #define O_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_DOMAIN_ID OFFSETOF(lbmr_rctxinfo_rec_odomain_opt_t, domain_id) #define L_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_DOMAIN_ID SIZEOF(lbmr_rctxinfo_rec_odomain_opt_t, domain_id) #define L_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T (gint) sizeof(lbmr_rctxinfo_rec_odomain_opt_t) #define LBMR_RCTXINFO_OPT_ODOMAIN_TYPE 0x03 /* LBMR (extended) remote context information record name option */ typedef struct { lbm_uint8_t type; lbm_uint8_t len; lbm_uint16_t flags; } lbmr_rctxinfo_rec_name_opt_t; #define O_LBMR_RCTXINFO_REC_NAME_OPT_T_TYPE OFFSETOF(lbmr_rctxinfo_rec_name_opt_t, type) #define L_LBMR_RCTXINFO_REC_NAME_OPT_T_TYPE SIZEOF(lbmr_rctxinfo_rec_name_opt_t, type) #define O_LBMR_RCTXINFO_REC_NAME_OPT_T_LEN OFFSETOF(lbmr_rctxinfo_rec_name_opt_t, len) #define L_LBMR_RCTXINFO_REC_NAME_OPT_T_LEN SIZEOF(lbmr_rctxinfo_rec_name_opt_t, len) #define O_LBMR_RCTXINFO_REC_NAME_OPT_T_FLAGS OFFSETOF(lbmr_rctxinfo_rec_name_opt_t, flags) #define L_LBMR_RCTXINFO_REC_NAME_OPT_T_FLAGS SIZEOF(lbmr_rctxinfo_rec_name_opt_t, flags) #define L_LBMR_RCTXINFO_REC_NAME_OPT_T (gint) sizeof(lbmr_rctxinfo_rec_name_opt_t) #define LBMR_RCTXINFO_OPT_NAME_TYPE 0x04 /* Queue management headers (may appear in LBMR or LBMC packets) */ typedef struct { lbm_uint8_t ver_type; lbm_uint8_t ext_type; } lbmr_umq_qmgmt_hdr_t; #define O_LBMR_UMQ_QMGMT_HDR_T_VER_TYPE OFFSETOF(lbmr_umq_qmgmt_hdr_t, ver_type) #define L_LBMR_UMQ_QMGMT_HDR_T_VER_TYPE SIZEOF(lbmr_umq_qmgmt_hdr_t, ver_type) #define O_LBMR_UMQ_QMGMT_HDR_T_EXT_TYPE OFFSETOF(lbmr_umq_qmgmt_hdr_t, ext_type) #define L_LBMR_UMQ_QMGMT_HDR_T_EXT_TYPE SIZEOF(lbmr_umq_qmgmt_hdr_t, ext_type) #define L_LBMR_UMQ_QMGMT_HDR_T (gint) sizeof(lbmr_umq_qmgmt_hdr_t) typedef struct { lbm_uint8_t filler1; lbm_uint8_t filler2; lbm_uint8_t flags; lbm_uint8_t pckt_type; lbm_uint8_t cfgsig[20]; lbm_uint32_t queue_id; lbm_uint32_t queue_ver; lbm_uint32_t ip; lbm_uint16_t port; lbm_uint16_t inst_idx; lbm_uint16_t grp_idx; lbm_uint16_t pckt_type_dep16; } umq_qmgmt_hdr_t; #define O_UMQ_QMGMT_HDR_T_FLAGS OFFSETOF(umq_qmgmt_hdr_t, flags) #define L_UMQ_QMGMT_HDR_T_FLAGS SIZEOF(umq_qmgmt_hdr_t, flags) #define O_UMQ_QMGMT_HDR_T_PCKT_TYPE OFFSETOF(umq_qmgmt_hdr_t, pckt_type) #define L_UMQ_QMGMT_HDR_T_PCKT_TYPE SIZEOF(umq_qmgmt_hdr_t, pckt_type) #define O_UMQ_QMGMT_HDR_T_CFGSIG OFFSETOF(umq_qmgmt_hdr_t, cfgsig) #define L_UMQ_QMGMT_HDR_T_CFGSIG SIZEOF(umq_qmgmt_hdr_t, cfgsig) #define O_UMQ_QMGMT_HDR_T_QUEUE_ID OFFSETOF(umq_qmgmt_hdr_t, queue_id) #define L_UMQ_QMGMT_HDR_T_QUEUE_ID SIZEOF(umq_qmgmt_hdr_t, queue_id) #define O_UMQ_QMGMT_HDR_T_QUEUE_VER OFFSETOF(umq_qmgmt_hdr_t, queue_ver) #define L_UMQ_QMGMT_HDR_T_QUEUE_VER SIZEOF(umq_qmgmt_hdr_t, queue_ver) #define O_UMQ_QMGMT_HDR_T_IP OFFSETOF(umq_qmgmt_hdr_t, ip) #define L_UMQ_QMGMT_HDR_T_IP SIZEOF(umq_qmgmt_hdr_t, ip) #define O_UMQ_QMGMT_HDR_T_PORT OFFSETOF(umq_qmgmt_hdr_t, port) #define L_UMQ_QMGMT_HDR_T_PORT SIZEOF(umq_qmgmt_hdr_t, port) #define O_UMQ_QMGMT_HDR_T_INST_IDX OFFSETOF(umq_qmgmt_hdr_t, inst_idx) #define L_UMQ_QMGMT_HDR_T_INST_IDX SIZEOF(umq_qmgmt_hdr_t, inst_idx) #define O_UMQ_QMGMT_HDR_T_GRP_IDX OFFSETOF(umq_qmgmt_hdr_t, grp_idx) #define L_UMQ_QMGMT_HDR_T_GRP_IDX SIZEOF(umq_qmgmt_hdr_t, grp_idx) #define O_UMQ_QMGMT_HDR_T_PCKT_TYPE_DEP16 OFFSETOF(umq_qmgmt_hdr_t, pckt_type_dep16) #define L_UMQ_QMGMT_HDR_T_PCKT_TYPE_DEP16 SIZEOF(umq_qmgmt_hdr_t, pckt_type_dep16) #define L_UMQ_QMGMT_HDR_T (gint) sizeof(umq_qmgmt_hdr_t) #define UMQ_QMGMT_HDR_I_FLAG 0x80 #define UMQ_QMGMT_HDR_N_FLAG 0x40 #define UMQ_QMGMT_HDR_IL_L_FLAG 0x20 #define UMQ_QMGMT_HDR_IL_K_FLAG 0x10 typedef struct { lbm_uint32_t highest_rcr_tsp; } umq_qmgmt_il_hdr_t; #define O_UMQ_QMGMT_IL_HDR_T_HIGHEST_RCR_TSP OFFSETOF(umq_qmgmt_il_hdr_t, highest_rcr_tsp) #define L_UMQ_QMGMT_IL_HDR_T_HIGHEST_RCR_TSP SIZEOF(umq_qmgmt_il_hdr_t, highest_rcr_tsp) #define L_UMQ_QMGMT_IL_HDR_T (gint) sizeof(umq_qmgmt_il_hdr_t) typedef struct { lbm_uint32_t ip; lbm_uint16_t port; lbm_uint16_t inst_idx; lbm_uint16_t grp_idx; lbm_uint16_t flags; } umq_qmgmt_il_inst_hdr_t; #define O_UMQ_QMGMT_IL_INST_HDR_T_IP OFFSETOF(umq_qmgmt_il_inst_hdr_t, ip) #define L_UMQ_QMGMT_IL_INST_HDR_T_IP SIZEOF(umq_qmgmt_il_inst_hdr_t, ip) #define O_UMQ_QMGMT_IL_INST_HDR_T_PORT OFFSETOF(umq_qmgmt_il_inst_hdr_t, port) #define L_UMQ_QMGMT_IL_INST_HDR_T_PORT SIZEOF(umq_qmgmt_il_inst_hdr_t, port) #define O_UMQ_QMGMT_IL_INST_HDR_T_INST_IDX OFFSETOF(umq_qmgmt_il_inst_hdr_t, inst_idx) #define L_UMQ_QMGMT_IL_INST_HDR_T_INST_IDX SIZEOF(umq_qmgmt_il_inst_hdr_t, inst_idx) #define O_UMQ_QMGMT_IL_INST_HDR_T_GRP_IDX OFFSETOF(umq_qmgmt_il_inst_hdr_t, grp_idx) #define L_UMQ_QMGMT_IL_INST_HDR_T_GRP_IDX SIZEOF(umq_qmgmt_il_inst_hdr_t, grp_idx) #define O_UMQ_QMGMT_IL_INST_HDR_T_FLAGS OFFSETOF(umq_qmgmt_il_inst_hdr_t, flags) #define L_UMQ_QMGMT_IL_INST_HDR_T_FLAGS SIZEOF(umq_qmgmt_il_inst_hdr_t, flags) #define L_UMQ_QMGMT_IL_INST_HDR_T (gint) sizeof(umq_qmgmt_il_inst_hdr_t) #define UMQ_QMGMT_HDR_IL_INST_M_FLAG 0x8000 #define UMQ_QMGMT_HDR_IL_INST_Q_FLAG 0x4000 #define UMQ_QMGMT_HDR_IL_INST_P_FLAG 0x2000 typedef struct { lbm_uint32_t queue_new_ver; } umq_qmgmt_ec_hdr_t; #define O_UMQ_QMGMT_EC_HDR_T_QUEUE_NEW_VER OFFSETOF(umq_qmgmt_ec_hdr_t, queue_new_ver) #define L_UMQ_QMGMT_EC_HDR_T_QUEUE_NEW_VER SIZEOF(umq_qmgmt_ec_hdr_t, queue_new_ver) #define L_UMQ_QMGMT_EC_HDR_T (gint) sizeof(umq_qmgmt_ec_hdr_t) typedef struct { lbm_uint32_t highest_rcr_tsp; lbm_uint32_t age; } umq_qmgmt_ev_hdr_t; #define O_UMQ_QMGMT_EV_HDR_T_HIGHEST_RCR_TSP OFFSETOF(umq_qmgmt_ev_hdr_t, highest_rcr_tsp) #define L_UMQ_QMGMT_EV_HDR_T_HIGHEST_RCR_TSP SIZEOF(umq_qmgmt_ev_hdr_t, highest_rcr_tsp) #define O_UMQ_QMGMT_EV_HDR_T_AGE OFFSETOF(umq_qmgmt_ev_hdr_t, age) #define L_UMQ_QMGMT_EV_HDR_T_AGE SIZEOF(umq_qmgmt_ev_hdr_t, age) #define L_UMQ_QMGMT_EV_HDR_T (gint) sizeof(umq_qmgmt_ev_hdr_t) typedef struct { lbm_uint32_t highest_rcr_tsp; } umq_qmgmt_qro_hdr_t; #define O_UMQ_QMGMT_QRO_HDR_T_HIGHEST_RCR_TSP OFFSETOF(umq_qmgmt_qro_hdr_t, highest_rcr_tsp) #define L_UMQ_QMGMT_QRO_HDR_T_HIGHEST_RCR_TSP SIZEOF(umq_qmgmt_qro_hdr_t, highest_rcr_tsp) #define L_UMQ_QMGMT_QRO_HDR_T (gint) sizeof(umq_qmgmt_qro_hdr_t) #define UMQ_QMGMT_HDR_PCKT_TYPE_IL 0x1 #define UMQ_QMGMT_HDR_PCKT_TYPE_JR 0x2 #define UMQ_QMGMT_HDR_PCKT_TYPE_JREJ 0x3 #define UMQ_QMGMT_HDR_PCKT_TYPE_IKA 0x4 #define UMQ_QMGMT_HDR_PCKT_TYPE_EC 0x5 #define UMQ_QMGMT_HDR_PCKT_TYPE_EV 0x6 #define UMQ_QMGMT_HDR_PCKT_TYPE_CNIL 0x7 #define UMQ_QMGMT_HDR_PCKT_TYPE_QRO 0x8 #define LBMR_VERSION_0 0x00 #define LBMR_VERSION_1 0x01 #define LBMR_VERSION_GATEWAY LBMR_VERSION_1 #define LBMR_VERSION LBMR_VERSION_0 /*----------------------------------------------------------------------------*/ /* Value translation tables. */ /*----------------------------------------------------------------------------*/ static const value_string lbmr_packet_type[] = { { LBMR_HDR_TYPE_NORMAL, "NORMAL" }, { LBMR_HDR_TYPE_WC_TQRS, "WC-TQR" }, { LBMR_HDR_TYPE_UCAST_RCV_ALIVE, "Rcv Alive" }, { LBMR_HDR_TYPE_UCAST_SRC_ALIVE, "Src Alive" }, { LBMR_HDR_TYPE_TOPIC_MGMT, "Topic Mgmt" }, { LBMR_HDR_TYPE_QUEUE_RES, "UMQ" }, { LBMR_HDR_TYPE_EXT, "Extended" }, { 0x0, NULL } }; static const value_string lbmr_ext_packet_type[] = { { LBMR_HDR_EXT_TYPE_UME_PROXY_SRC_ELECT, "Proxy Source Election" }, { LBMR_HDR_EXT_TYPE_UMQ_QUEUE_MGMT, "Queue Management" }, { LBMR_HDR_EXT_TYPE_CONTEXT_INFO, "Context Information" }, { LBMR_HDR_EXT_TYPE_TOPIC_RES_REQUEST, "Topic Resolution Request" }, { LBMR_HDR_EXT_TYPE_TNWG_MSG, "Gateway Message" }, { LBMR_HDR_EXT_TYPE_REMOTE_DOMAIN_ROUTE, "Remote Domain Route" }, { LBMR_HDR_EXT_TYPE_REMOTE_CONTEXT_INFO, "Remote Context Information" }, { 0x0, NULL } }; static const value_string lbmr_transport_type[] = { { LBMR_TRANSPORT_TCP, "TCP" }, { LBMR_TRANSPORT_LBTSMX, "LBT-SMX" }, { LBMR_TRANSPORT_LBTRU, "LBT-RU" }, { LBMR_TRANSPORT_LBTRM, "LBT-RM" }, { LBMR_TRANSPORT_LBTIPC, "LBT-IPC" }, { LBMR_TRANSPORT_LBTRDMA, "LBT-RDMA" }, { 0x0, NULL } }; static const value_string lbmr_tmr_type[] = { { LBMR_TMR_LEAVE_TOPIC, "Leave Topic" }, { LBMR_TMR_TOPIC_USE, "Topic Use" }, { 0x0, NULL } }; static const value_string lbmr_topic_option_type[] = { { LBMR_TOPIC_OPT_LEN_TYPE, "Option Length" }, { LBMR_TOPIC_OPT_UME_TYPE, "UME" }, { LBMR_TOPIC_OPT_UME_STORE_TYPE, "UME Store" }, { LBMR_TOPIC_OPT_UME_STORE_GROUP_TYPE, "UME Store Group" }, { LBMR_TOPIC_OPT_LATEJOIN_TYPE, "Late Join" }, { LBMR_TOPIC_OPT_UMQ_RCRIDX_TYPE, "UMQ Receiver Control Record Index" }, { LBMR_TOPIC_OPT_UMQ_QINFO_TYPE, "UMQ Queue Info" }, { LBMR_TOPIC_OPT_COST_TYPE, "Cost" }, { LBMR_TOPIC_OPT_OTID_TYPE, "Originating Transport" }, { LBMR_TOPIC_OPT_CTXINST_TYPE, "Context Instance" }, { LBMR_TOPIC_OPT_CTXINSTS_TYPE, "Store Context Instance" }, { LBMR_TOPIC_OPT_ULB_TYPE, "UMQ ULB" }, { LBMR_TOPIC_OPT_CTXINSTQ_TYPE, "Queue Context Instance" }, { LBMR_TOPIC_OPT_DOMAIN_ID_TYPE, "Domain ID" }, { LBMR_TOPIC_OPT_EXFUNC_TYPE, "Extended Functionality" }, { 0x0, NULL } }; static const value_string lbmr_pser_dependent_type[] = { { LBMR_HDR_EXT_TYPE_UME_PROXY_SRC_ELECT_DEP_ELECT, "Election" }, { LBMR_HDR_EXT_TYPE_UME_PROXY_SRC_ELECT_DEP_REELECT, "Re-election" }, { 0x0, NULL } }; static const value_string lbmr_option_type[] = { { LBMR_LBMR_OPT_LEN_TYPE, "Option length" }, { LBMR_LBMR_OPT_SRC_ID_TYPE, "Source ID" }, { LBMR_LBMR_OPT_SRC_TYPE_TYPE, "Source type" }, { LBMR_LBMR_OPT_VERSION_TYPE, "Version" }, { LBMR_LBMR_OPT_LOCAL_DOMAIN_TYPE, "Local Domain" }, { 0x0, NULL } }; static const value_string lbmr_pser_option_type[] = { { LBMR_PSER_OPT_SRC_CTXINST_TYPE, "Source context instance" }, { LBMR_PSER_OPT_STORE_CTXINST_TYPE, "Store context instance" }, { 0x0, NULL } }; static const value_string lbmr_option_source_type[] = { { LBMR_LBMR_OPT_SRC_TYPE_SRC_TYPE_APPLICATION, "Application" }, { LBMR_LBMR_OPT_SRC_TYPE_SRC_TYPE_TNWGD, "Gateway" }, { LBMR_LBMR_OPT_SRC_TYPE_SRC_TYPE_STORE, "Store" }, { 0x0, NULL } }; static const value_string lbmr_tnwg_function_type[] = { { LBMR_TNWG_TYPE_INTEREST, "Interest" }, { LBMR_TNWG_TYPE_CTXINFO, "Context information" }, { LBMR_TNWG_TYPE_TRREQ, "Topic res request" }, { 0x0, NULL } }; static const value_string lbmr_tnwg_option_type[] = { { LBMR_TNWG_OPT_CTXINST_TYPE, "Context instance" }, { LBMR_TNWG_OPT_ADDRESS_TYPE, "Address" }, { LBMR_TNWG_OPT_DOMAIN_TYPE, "Domain" }, { LBMR_TNWG_OPT_NAME_TYPE, "Name" }, { 0x0, NULL } }; static const value_string umq_qmgmt_packet_type[] = { { UMQ_QMGMT_HDR_PCKT_TYPE_IL, "Instance List" }, { UMQ_QMGMT_HDR_PCKT_TYPE_JR, "Join Request" }, { UMQ_QMGMT_HDR_PCKT_TYPE_JREJ, "Join Request Rejection" }, { UMQ_QMGMT_HDR_PCKT_TYPE_IKA, "Instance Keepalive" }, { UMQ_QMGMT_HDR_PCKT_TYPE_EC, "Election Call" }, { UMQ_QMGMT_HDR_PCKT_TYPE_EV, "Election Vote" }, { UMQ_QMGMT_HDR_PCKT_TYPE_CNIL, "Confirm New Instance List" }, { UMQ_QMGMT_HDR_PCKT_TYPE_QRO, "Queue resume operation" }, { 0x0, NULL } }; static const value_string lbmr_rctxinfo_option_type[] = { { LBMR_RCTXINFO_OPT_ADDRESS_TYPE, "Address" }, { LBMR_RCTXINFO_OPT_INSTANCE_TYPE, "Instance" }, { LBMR_RCTXINFO_OPT_ODOMAIN_TYPE, "Originating Domain" }, { LBMR_RCTXINFO_OPT_NAME_TYPE, "Name" }, { 0x0, NULL } }; /*----------------------------------------------------------------------------*/ /* Preferences. */ /*----------------------------------------------------------------------------*/ /* Preferences default values. */ #define LBMR_DEFAULT_MC_INCOMING_UDP_PORT 12965 #define LBMR_DEFAULT_MC_INCOMING_UDP_PORT_STRING MAKESTRING(LBMR_DEFAULT_MC_INCOMING_UDP_PORT) #define LBMR_DEFAULT_MC_OUTGOING_UDP_PORT 12965 #define LBMR_DEFAULT_MC_OUTGOING_UDP_PORT_STRING MAKESTRING(LBMR_DEFAULT_MC_OUTGOING_UDP_PORT) #define LBMR_DEFAULT_MC_INCOMING_ADDRESS "224.9.10.11" #define LBMR_DEFAULT_MC_OUTGOING_ADDRESS "224.9.10.11" #define LBMR_DEFAULT_UC_PORT_HIGH 14406 #define LBMR_DEFAULT_UC_PORT_HIGH_STRING MAKESTRING(LBMR_DEFAULT_UC_PORT_HIGH) #define LBMR_DEFAULT_UC_PORT_LOW 14402 #define LBMR_DEFAULT_UC_PORT_LOW_STRING MAKESTRING(LBMR_DEFAULT_UC_PORT_LOW) #define LBMR_DEFAULT_UC_DEST_PORT 15380 #define LBMR_DEFAULT_UC_DEST_PORT_STRING MAKESTRING(LBMR_DEFAULT_UC_DEST_PORT) #define LBMR_DEFAULT_UC_ADDRESS "0.0.0.0" /* Global preferences variables (altered by the preferences dialog). */ static guint32 global_lbmr_mc_incoming_udp_port = LBMR_DEFAULT_MC_INCOMING_UDP_PORT; static guint32 global_lbmr_mc_outgoing_udp_port = LBMR_DEFAULT_MC_OUTGOING_UDP_PORT; static const char * global_lbmr_mc_incoming_address = LBMR_DEFAULT_MC_INCOMING_ADDRESS; static const char * global_lbmr_mc_outgoing_address = LBMR_DEFAULT_MC_OUTGOING_ADDRESS; static guint32 global_lbmr_uc_port_high = LBMR_DEFAULT_UC_PORT_HIGH; static guint32 global_lbmr_uc_port_low = LBMR_DEFAULT_UC_PORT_LOW; static guint32 global_lbmr_uc_dest_port = LBMR_DEFAULT_UC_DEST_PORT; static const char * global_lbmr_uc_address = LBMR_DEFAULT_UC_ADDRESS; static gboolean global_lbmr_use_tag = FALSE; /* Local preferences variables (used by the dissector). */ static guint32 lbmr_mc_incoming_udp_port = LBMR_DEFAULT_MC_INCOMING_UDP_PORT; static guint32 lbmr_mc_outgoing_udp_port = LBMR_DEFAULT_MC_OUTGOING_UDP_PORT; static guint32 lbmr_mc_incoming_address_host = 0; static guint32 lbmr_mc_outgoing_address_host = 0; static guint32 lbmr_uc_port_high = LBMR_DEFAULT_UC_PORT_HIGH; static guint32 lbmr_uc_port_low = LBMR_DEFAULT_UC_PORT_LOW; static guint32 lbmr_uc_dest_port = LBMR_DEFAULT_UC_DEST_PORT; static guint32 lbmr_uc_address_host = 0; static gboolean lbmr_use_tag = FALSE; typedef struct { char * name; guint32 mc_outgoing_udp_port; guint32 mc_incoming_udp_port; char * mc_incoming_address; guint32 mc_incoming_address_val_h; char * mc_outgoing_address; guint32 mc_outgoing_address_val_h; guint32 uc_port_high; guint32 uc_port_low; guint32 uc_dest_port; char * uc_address; guint32 uc_address_val_h; } lbmr_tag_entry_t; static lbmr_tag_entry_t * lbmr_tag_entry = NULL; static guint lbmr_tag_count = 0; UAT_CSTRING_CB_DEF(lbmr_tag, name, lbmr_tag_entry_t) UAT_DEC_CB_DEF(lbmr_tag, mc_outgoing_udp_port, lbmr_tag_entry_t) UAT_DEC_CB_DEF(lbmr_tag, mc_incoming_udp_port, lbmr_tag_entry_t) UAT_IPV4_MC_CB_DEF(lbmr_tag, mc_incoming_address, lbmr_tag_entry_t) UAT_IPV4_MC_CB_DEF(lbmr_tag, mc_outgoing_address, lbmr_tag_entry_t) UAT_DEC_CB_DEF(lbmr_tag, uc_port_high, lbmr_tag_entry_t) UAT_DEC_CB_DEF(lbmr_tag, uc_port_low, lbmr_tag_entry_t) UAT_DEC_CB_DEF(lbmr_tag, uc_dest_port, lbmr_tag_entry_t) UAT_IPV4_CB_DEF(lbmr_tag, uc_address, lbmr_tag_entry_t) static uat_field_t lbmr_tag_array[] = { UAT_FLD_CSTRING(lbmr_tag, name, "Tag name", "Tag name"), UAT_FLD_DEC(lbmr_tag, mc_incoming_udp_port, "Incoming multicast UDP port", "Incoming UDP port"), UAT_FLD_IPV4_MC(lbmr_tag, mc_incoming_address, "Incoming multicast address", "Incoming multicast address"), UAT_FLD_DEC(lbmr_tag, mc_outgoing_udp_port, "Outgoing UDP port", "Outgoing UDP port"), UAT_FLD_IPV4_MC(lbmr_tag, mc_outgoing_address, "Outgoing multicast address", "Outgoing multicast address"), UAT_FLD_DEC(lbmr_tag, uc_port_low, "Unicast UDP port low", "Unicast UDP port low"), UAT_FLD_DEC(lbmr_tag, uc_port_high, "Unicast UDP port high", "Unicast UDP port high"), UAT_FLD_DEC(lbmr_tag, uc_dest_port, "Unicast UDP destination port", "Unicast UDP destination port"), UAT_FLD_IPV4(lbmr_tag, uc_address, "Unicast resolver address", "Unicast resolver address"), UAT_END_FIELDS }; /*----------------------------------------------------------------------------*/ /* UAT callback functions. */ /*----------------------------------------------------------------------------*/ static gboolean lbmr_tag_update_cb(void * record, char * * error_string) { lbmr_tag_entry_t * tag = (lbmr_tag_entry_t *)record; if (tag->name == NULL) { *error_string = g_strdup_printf("Tag name can't be empty"); return FALSE; } else { g_strstrip(tag->name); if (tag->name[0] == 0) { *error_string = g_strdup_printf("Tag name can't be empty"); return FALSE; } } return TRUE; } static void * lbmr_tag_copy_cb(void * destination, const void * source, size_t length _U_) { const lbmr_tag_entry_t * src = (const lbmr_tag_entry_t *)source; lbmr_tag_entry_t * dest = (lbmr_tag_entry_t *)destination; dest->name = g_strdup(src->name); dest->mc_outgoing_udp_port = src->mc_outgoing_udp_port; dest->mc_incoming_udp_port = src->mc_incoming_udp_port; dest->mc_incoming_address = g_strdup(src->mc_incoming_address); dest->mc_incoming_address_val_h = src->mc_incoming_address_val_h; dest->mc_outgoing_address = g_strdup(src->mc_outgoing_address); dest->mc_outgoing_address_val_h = src->mc_outgoing_address_val_h; dest->uc_port_high = src->uc_port_high; dest->uc_port_low = src->uc_port_low; dest->uc_dest_port = src->uc_dest_port; dest->uc_address = g_strdup(src->uc_address); dest->uc_address_val_h = src->uc_address_val_h; return (dest); } static void lbmr_tag_free_cb(void * record) { lbmr_tag_entry_t * tag = (lbmr_tag_entry_t *)record; if (tag->name != NULL) { g_free(tag->name); tag->name = NULL; } if (tag->mc_incoming_address != NULL) { g_free(tag->mc_incoming_address); tag->mc_incoming_address = NULL; } if (tag->mc_outgoing_address != NULL) { g_free(tag->mc_outgoing_address); tag->mc_outgoing_address = NULL; } if (tag->uc_address != NULL) { g_free(tag->uc_address); tag->uc_address = NULL; } } static gboolean lbmr_match_packet(packet_info * pinfo, const lbmr_tag_entry_t * entry) { guint32 dest_addr_h; guint32 src_addr_h; if ((pinfo->dst.type != AT_IPv4) || (pinfo->dst.len != 4) || (pinfo->src.type != AT_IPv4) || (pinfo->src.len != 4)) return (FALSE); dest_addr_h = pntoh32(pinfo->dst.data); src_addr_h = pntoh32(pinfo->src.data); if (IN_MULTICAST(dest_addr_h)) { /* Check multicast topic resolution values. */ if ((dest_addr_h != entry->mc_incoming_address_val_h) && (dest_addr_h != entry->mc_outgoing_address_val_h)) { /* No match. */ return (FALSE); } /* Check for the correct port. */ if ((dest_addr_h == entry->mc_incoming_address_val_h) && (pinfo->destport != entry->mc_incoming_udp_port)) { /* Wrong incoming port. */ return (FALSE); } if ((dest_addr_h == entry->mc_outgoing_address_val_h) && (pinfo->destport != entry->mc_outgoing_udp_port)) { /* Wrong outgoing port. */ return (FALSE); } /* Must be one of ours. */ return (TRUE); } else { /* Check unicast topic resolution values. */ /* Address should be either not specified, or match the src or dest address of the packet. */ if ((entry->uc_address_val_h == 0) || (entry->uc_address_val_h == dest_addr_h) || (entry->uc_address_val_h == src_addr_h)) { if (((pinfo->destport == entry->uc_dest_port) || (pinfo->srcport == entry->uc_dest_port)) && (((pinfo->destport <= entry->uc_port_high) && (pinfo->destport >= entry->uc_port_low)) || ((pinfo->srcport <= entry->uc_port_high) && (pinfo->srcport >= entry->uc_port_low)))) { /* One of ours, so handle it. */ return (TRUE); } } } return (FALSE); } static char * lbmr_tag_find(packet_info * pinfo) { guint idx; lbmr_tag_entry_t * tag = NULL; if (!lbmr_use_tag) { return (NULL); } for (idx = 0; idx < lbmr_tag_count; ++idx) { tag = &(lbmr_tag_entry[idx]); if (lbmr_match_packet(pinfo, tag)) { return tag->name; } } return (NULL); } /*----------------------------------------------------------------------------*/ /* Handles of all types. */ /*----------------------------------------------------------------------------*/ /* Protocol handle */ static int proto_lbmr = -1; /* Dissector handle */ static dissector_handle_t lbmr_dissector_handle; /* Dissector tree handles */ static gint ett_lbmr = -1; static gint ett_lbmr_hdr = -1; static gint ett_lbmr_tqrs = -1; static gint ett_lbmr_tqr = -1; static gint ett_lbmr_tirs = -1; static gint ett_lbmr_tir = -1; static gint ett_lbmr_tir_tcp = -1; static gint ett_lbmr_tir_lbtrm = -1; static gint ett_lbmr_tir_lbtru = -1; static gint ett_lbmr_tir_lbtipc = -1; static gint ett_lbmr_tir_lbtrdma = -1; static gint ett_lbmr_tir_lbtsmx = -1; static gint ett_lbmr_topts = -1; static gint ett_lbmr_topt_len = -1; static gint ett_lbmr_topt_ume = -1; static gint ett_lbmr_topt_ume_flags = -1; static gint ett_lbmr_topt_ume_store = -1; static gint ett_lbmr_topt_ume_store_flags = -1; static gint ett_lbmr_topt_ume_store_group = -1; static gint ett_lbmr_topt_ume_store_group_flags = -1; static gint ett_lbmr_topt_latejoin = -1; static gint ett_lbmr_topt_latejoin_flags = -1; static gint ett_lbmr_topt_umq_rcridx = -1; static gint ett_lbmr_topt_umq_rcridx_flags = -1; static gint ett_lbmr_topt_umq_qinfo = -1; static gint ett_lbmr_topt_umq_qinfo_flags = -1; static gint ett_lbmr_topt_cost = -1; static gint ett_lbmr_topt_cost_flags = -1; static gint ett_lbmr_topt_otid = -1; static gint ett_lbmr_topt_otid_flags = -1; static gint ett_lbmr_topt_ctxinst = -1; static gint ett_lbmr_topt_ctxinst_flags = -1; static gint ett_lbmr_topt_ctxinsts = -1; static gint ett_lbmr_topt_ctxinsts_flags = -1; static gint ett_lbmr_topt_ulb = -1; static gint ett_lbmr_topt_ulb_flags = -1; static gint ett_lbmr_topt_ctxinstq = -1; static gint ett_lbmr_topt_ctxinstq_flags = -1; static gint ett_lbmr_topt_domain_id = -1; static gint ett_lbmr_topt_domain_id_flags = -1; static gint ett_lbmr_topt_exfunc = -1; static gint ett_lbmr_topt_exfunc_flags = -1; static gint ett_lbmr_topt_exfunc_functionality_flags = -1; static gint ett_lbmr_topt_unknown = -1; static gint ett_lbmr_tmb = -1; static gint ett_lbmr_tmrs = -1; static gint ett_lbmr_tmr = -1; static gint ett_lbmr_tmr_flags = -1; static gint ett_lbmr_pser_flags = -1; static gint ett_lbmr_pser_opts = -1; static gint ett_lbmr_pser_opt_len = -1; static gint ett_lbmr_pser_opt_ctxinst = -1; static gint ett_lbmr_qqrs = -1; static gint ett_lbmr_qirs = -1; static gint ett_lbmr_qir = -1; static gint ett_lbmr_qir_options = -1; static gint ett_lbmr_qir_grp_blk = -1; static gint ett_lbmr_qir_queue_blk = -1; static gint ett_lbmr_qir_grp = -1; static gint ett_lbmr_qir_queue = -1; static gint ett_lbmr_topic_res_request_flags = -1; static gint ett_lbmr_ctxinfo_flags = -1; static gint ett_lbmr_tnwg = -1; static gint ett_lbmr_tnwg_interest = -1; static gint ett_lbmr_tnwg_interest_rec = -1; static gint ett_lbmr_tnwg_interest_rec_flags = -1; static gint ett_lbmr_tnwg_ctxinfo = -1; static gint ett_lbmr_tnwg_ctxinfo_flags1 = -1; static gint ett_lbmr_tnwg_trreq = -1; static gint ett_lbmr_tnwg_ctxinst_opt = -1; static gint ett_lbmr_tnwg_ctxinst_opt_flags = -1; static gint ett_lbmr_tnwg_address_opt = -1; static gint ett_lbmr_tnwg_address_opt_flags = -1; static gint ett_lbmr_tnwg_domain_opt = -1; static gint ett_lbmr_tnwg_domain_opt_flags = -1; static gint ett_lbmr_tnwg_name_opt = -1; static gint ett_lbmr_tnwg_name_opt_flags = -1; static gint ett_lbmr_tnwg_unknown_opt = -1; static gint ett_lbmr_tnwg_unknown_opt_flags = -1; static gint ett_lbmr_remote_domain_route_hdr = -1; static gint ett_lbmr_rctxinfo = -1; static gint ett_lbmr_rctxinfo_rec = -1; static gint ett_lbmr_rctxinfo_rec_flags = -1; static gint ett_lbmr_rctxinfo_rec_address = -1; static gint ett_lbmr_rctxinfo_rec_instance = -1; static gint ett_lbmr_rctxinfo_rec_odomain = -1; static gint ett_lbmr_rctxinfo_rec_name = -1; static gint ett_lbmr_rctxinfo_rec_unknown = -1; static gint ett_qmgmt_flags = -1; static gint ett_qmgmt_il = -1; static gint ett_qmgmt_il_inst = -1; static gint ett_qmgmt_il_inst_flags = -1; static gint ett_qmgmt_ec = -1; static gint ett_qmgmt_ev = -1; static gint ett_qmgmt_qro = -1; static gint ett_lbmr_opts = -1; static gint ett_lbmr_opt_src_id = -1; static gint ett_lbmr_opt_src_id_flags = -1; static gint ett_lbmr_opt_len = -1; static gint ett_lbmr_opt_src_type = -1; static gint ett_lbmr_opt_src_type_flags = -1; static gint ett_lbmr_opt_version = -1; static gint ett_lbmr_opt_version_flags = -1; static gint ett_lbmr_opt_local_domain = -1; static gint ett_lbmr_opt_local_domain_flags = -1; static gint ett_lbmr_opt_unknown = -1; /* Dissector field handles */ static int hf_lbmr_tag = -1; static int hf_lbmr_hdr = -1; static int hf_lbmr_hdr_ver = -1; static int hf_lbmr_hdr_opt = -1; static int hf_lbmr_hdr_type = -1; static int hf_lbmr_hdr_tqrs = -1; static int hf_lbmr_hdr_tirs = -1; static int hf_lbmr_hdr_qqrs = -1; static int hf_lbmr_hdr_qirs = -1; static int hf_lbmr_hdr_ext_type = -1; static int hf_lbmr_tqrs = -1; static int hf_lbmr_tqr = -1; static int hf_lbmr_tqr_pattern_type = -1; static int hf_lbmr_tqr_pattern = -1; static int hf_lbmr_tqr_name = -1; static int hf_lbmr_tirs = -1; static int hf_lbmr_tir = -1; static int hf_lbmr_tir_transport_opts = -1; static int hf_lbmr_tir_transport_type = -1; static int hf_lbmr_tir_tlen = -1; static int hf_lbmr_tir_ttl = -1; static int hf_lbmr_tir_index = -1; static int hf_lbmr_tir_name = -1; static int hf_lbmr_tir_tcp = -1; static int hf_lbmr_tir_tcp_ip = -1; static int hf_lbmr_tir_tcp_session_id = -1; static int hf_lbmr_tir_tcp_port = -1; static int hf_lbmr_tir_lbtrm = -1; static int hf_lbmr_tir_lbtrm_src_addr = -1; static int hf_lbmr_tir_lbtrm_mcast_addr = -1; static int hf_lbmr_tir_lbtrm_session_id = -1; static int hf_lbmr_tir_lbtrm_udp_dest_port = -1; static int hf_lbmr_tir_lbtrm_src_ucast_port = -1; static int hf_lbmr_tir_lbtru = -1; static int hf_lbmr_tir_lbtru_ip = -1; static int hf_lbmr_tir_lbtru_port = -1; static int hf_lbmr_tir_lbtru_session_id = -1; static int hf_lbmr_tir_lbtipc = -1; static int hf_lbmr_tir_lbtipc_host_id = -1; static int hf_lbmr_tir_lbtipc_session_id = -1; static int hf_lbmr_tir_lbtipc_xport_id = -1; static int hf_lbmr_tir_lbtrdma = -1; static int hf_lbmr_tir_lbtrdma_ip = -1; static int hf_lbmr_tir_lbtrdma_session_id = -1; static int hf_lbmr_tir_lbtrdma_port = -1; static int hf_lbmr_tir_lbtsmx = -1; static int hf_lbmr_tir_lbtsmx_host_id = -1; static int hf_lbmr_tir_lbtsmx_session_id = -1; static int hf_lbmr_tir_lbtsmx_xport_id = -1; static int hf_lbmr_tir_channel = -1; static int hf_lbmr_tir_unknown_transport = -1; static int hf_lbmr_topts = -1; static int hf_lbmr_topt_len = -1; static int hf_lbmr_topt_len_type = -1; static int hf_lbmr_topt_len_len = -1; static int hf_lbmr_topt_len_total_len = -1; static int hf_lbmr_topt_ume = -1; static int hf_lbmr_topt_ume_type = -1; static int hf_lbmr_topt_ume_len = -1; static int hf_lbmr_topt_ume_flags = -1; static int hf_lbmr_topt_ume_flags_ignore = -1; static int hf_lbmr_topt_ume_flags_latejoin = -1; static int hf_lbmr_topt_ume_flags_store = -1; static int hf_lbmr_topt_ume_flags_qccap = -1; static int hf_lbmr_topt_ume_flags_acktosrc = -1; static int hf_lbmr_topt_ume_store_tcp_port = -1; static int hf_lbmr_topt_ume_src_tcp_port = -1; static int hf_lbmr_topt_ume_store_tcp_addr = -1; static int hf_lbmr_topt_ume_src_tcp_addr = -1; static int hf_lbmr_topt_ume_src_reg_id = -1; static int hf_lbmr_topt_ume_transport_idx = -1; static int hf_lbmr_topt_ume_high_seqnum = -1; static int hf_lbmr_topt_ume_low_seqnum = -1; static int hf_lbmr_topt_ume_store = -1; static int hf_lbmr_topt_ume_store_type = -1; static int hf_lbmr_topt_ume_store_len = -1; static int hf_lbmr_topt_ume_store_flags = -1; static int hf_lbmr_topt_ume_store_flags_ignore = -1; static int hf_lbmr_topt_ume_store_grp_idx = -1; static int hf_lbmr_topt_ume_store_store_tcp_port = -1; static int hf_lbmr_topt_ume_store_store_idx = -1; static int hf_lbmr_topt_ume_store_store_ip_addr = -1; static int hf_lbmr_topt_ume_store_src_reg_id = -1; static int hf_lbmr_topt_ume_store_group = -1; static int hf_lbmr_topt_ume_store_group_type = -1; static int hf_lbmr_topt_ume_store_group_len = -1; static int hf_lbmr_topt_ume_store_group_flags = -1; static int hf_lbmr_topt_ume_store_group_flags_ignore = -1; static int hf_lbmr_topt_ume_store_group_grp_idx = -1; static int hf_lbmr_topt_ume_store_group_grp_sz = -1; static int hf_lbmr_topt_ume_store_group_reserved = -1; static int hf_lbmr_topt_latejoin = -1; static int hf_lbmr_topt_latejoin_type = -1; static int hf_lbmr_topt_latejoin_len = -1; static int hf_lbmr_topt_latejoin_flags = -1; static int hf_lbmr_topt_latejoin_flags_ignore = -1; static int hf_lbmr_topt_latejoin_flags_acktosrc = -1; static int hf_lbmr_topt_latejoin_src_tcp_port = -1; static int hf_lbmr_topt_latejoin_reserved = -1; static int hf_lbmr_topt_latejoin_src_ip_addr = -1; static int hf_lbmr_topt_latejoin_transport_idx = -1; static int hf_lbmr_topt_latejoin_high_seqnum = -1; static int hf_lbmr_topt_latejoin_low_seqnum = -1; static int hf_lbmr_topt_umq_rcridx = -1; static int hf_lbmr_topt_umq_rcridx_type = -1; static int hf_lbmr_topt_umq_rcridx_len = -1; static int hf_lbmr_topt_umq_rcridx_flags = -1; static int hf_lbmr_topt_umq_rcridx_flags_ignore = -1; static int hf_lbmr_topt_umq_rcridx_rcr_idx = -1; static int hf_lbmr_topt_umq_qinfo = -1; static int hf_lbmr_topt_umq_qinfo_type = -1; static int hf_lbmr_topt_umq_qinfo_len = -1; static int hf_lbmr_topt_umq_qinfo_flags = -1; static int hf_lbmr_topt_umq_qinfo_flags_ignore = -1; static int hf_lbmr_topt_umq_qinfo_flags_queue = -1; static int hf_lbmr_topt_umq_qinfo_flags_rcvlisten = -1; static int hf_lbmr_topt_umq_qinfo_flags_control = -1; static int hf_lbmr_topt_umq_qinfo_flags_srcrcvlisten = -1; static int hf_lbmr_topt_umq_qinfo_flags_participants_only = -1; static int hf_lbmr_topt_umq_qinfo_queue = -1; static int hf_lbmr_topt_cost = -1; static int hf_lbmr_topt_cost_type = -1; static int hf_lbmr_topt_cost_len = -1; static int hf_lbmr_topt_cost_flags = -1; static int hf_lbmr_topt_cost_flags_ignore = -1; static int hf_lbmr_topt_cost_hop_count = -1; static int hf_lbmr_topt_cost_cost = -1; static int hf_lbmr_topt_otid = -1; static int hf_lbmr_topt_otid_type = -1; static int hf_lbmr_topt_otid_len = -1; static int hf_lbmr_topt_otid_flags = -1; static int hf_lbmr_topt_otid_flags_ignore = -1; static int hf_lbmr_topt_otid_originating_transport = -1; static int hf_lbmr_topt_ctxinst = -1; static int hf_lbmr_topt_ctxinst_type = -1; static int hf_lbmr_topt_ctxinst_len = -1; static int hf_lbmr_topt_ctxinst_flags = -1; static int hf_lbmr_topt_ctxinst_flags_ignore = -1; static int hf_lbmr_topt_ctxinst_res = -1; static int hf_lbmr_topt_ctxinst_ctxinst = -1; static int hf_lbmr_topt_ctxinsts = -1; static int hf_lbmr_topt_ctxinsts_type = -1; static int hf_lbmr_topt_ctxinsts_len = -1; static int hf_lbmr_topt_ctxinsts_flags = -1; static int hf_lbmr_topt_ctxinsts_flags_ignore = -1; static int hf_lbmr_topt_ctxinsts_idx = -1; static int hf_lbmr_topt_ctxinsts_ctxinst = -1; static int hf_lbmr_topt_ulb = -1; static int hf_lbmr_topt_ulb_type = -1; static int hf_lbmr_topt_ulb_len = -1; static int hf_lbmr_topt_ulb_flags = -1; static int hf_lbmr_topt_ulb_flags_ignore = -1; static int hf_lbmr_topt_ulb_queue_id = -1; static int hf_lbmr_topt_ulb_regid = -1; static int hf_lbmr_topt_ulb_ulb_src_id = -1; static int hf_lbmr_topt_ulb_src_ip_addr = -1; static int hf_lbmr_topt_ulb_src_tcp_port = -1; static int hf_lbmr_topt_ulb_reserved = -1; static int hf_lbmr_topt_ctxinstq = -1; static int hf_lbmr_topt_ctxinstq_type = -1; static int hf_lbmr_topt_ctxinstq_len = -1; static int hf_lbmr_topt_ctxinstq_flags = -1; static int hf_lbmr_topt_ctxinstq_flags_ignore = -1; static int hf_lbmr_topt_ctxinstq_idx = -1; static int hf_lbmr_topt_ctxinstq_ctxinst = -1; static int hf_lbmr_topt_domain_id = -1; static int hf_lbmr_topt_domain_id_type = -1; static int hf_lbmr_topt_domain_id_len = -1; static int hf_lbmr_topt_domain_id_flags = -1; static int hf_lbmr_topt_domain_id_flags_ignore = -1; static int hf_lbmr_topt_domain_id_domain_id = -1; static int hf_lbmr_topt_exfunc = -1; static int hf_lbmr_topt_exfunc_type = -1; static int hf_lbmr_topt_exfunc_len = -1; static int hf_lbmr_topt_exfunc_flags = -1; static int hf_lbmr_topt_exfunc_flags_ignore = -1; static int hf_lbmr_topt_exfunc_src_tcp_port = -1; static int hf_lbmr_topt_exfunc_reserved = -1; static int hf_lbmr_topt_exfunc_src_ip_addr = -1; static int hf_lbmr_topt_exfunc_functionality_flags = -1; static int hf_lbmr_topt_exfunc_functionality_flags_lj = -1; static int hf_lbmr_topt_exfunc_functionality_flags_ume = -1; static int hf_lbmr_topt_exfunc_functionality_flags_umq = -1; static int hf_lbmr_topt_exfunc_functionality_flags_ulb = -1; static int hf_lbmr_topt_unknown = -1; static int hf_lbmr_topt_unknown_type = -1; static int hf_lbmr_topt_unknown_len = -1; static int hf_lbmr_topt_unknown_flags = -1; static int hf_lbmr_topt_unknown_data = -1; static int hf_lbmr_qqr = -1; static int hf_lbmr_qqr_name = -1; static int hf_lbmr_qirs = -1; static int hf_lbmr_qir = -1; static int hf_lbmr_qir_queue_name = -1; static int hf_lbmr_qir_topic_name = -1; static int hf_lbmr_qir_queue_id = -1; static int hf_lbmr_qir_queue_ver = -1; static int hf_lbmr_qir_queue_prev_ver = -1; static int hf_lbmr_qir_option_flag = -1; static int hf_lbmr_qir_grp_blks = -1; static int hf_lbmr_qir_queue_blks = -1; static int hf_lbmr_qir_grps = -1; static int hf_lbmr_qir_grp_blk = -1; static int hf_lbmr_qir_grp_blk_grp_idx = -1; static int hf_lbmr_qir_grp_blk_grp_sz = -1; static int hf_lbmr_qir_queues = -1; static int hf_lbmr_qir_queue_blk = -1; static int hf_lbmr_qir_queue_blk_ip = -1; static int hf_lbmr_qir_queue_blk_port = -1; static int hf_lbmr_qir_queue_blk_idx = -1; static int hf_lbmr_qir_queue_blk_grp_idx = -1; static int hf_lbmr_qir_queue_blk_reserved = -1; static int hf_lbmr_tmb = -1; static int hf_lbmr_tmb_len = -1; static int hf_lbmr_tmb_tmrs = -1; static int hf_lbmr_tmb_tmr_list = -1; static int hf_lbmr_tmr = -1; static int hf_lbmr_tmr_len = -1; static int hf_lbmr_tmr_type = -1; static int hf_lbmr_tmr_flags = -1; static int hf_lbmr_tmr_flags_response = -1; static int hf_lbmr_tmr_flags_wildcard_pcre = -1; static int hf_lbmr_tmr_flags_wildcard_regex = -1; static int hf_lbmr_tmr_name = -1; static int hf_lbmr_pser_dep_type = -1; static int hf_lbmr_pser_len = -1; static int hf_lbmr_pser_flags = -1; static int hf_lbmr_pser_flags_option = -1; static int hf_lbmr_pser_source_ip = -1; static int hf_lbmr_pser_store_ip = -1; static int hf_lbmr_pser_transport_idx = -1; static int hf_lbmr_pser_topic_idx = -1; static int hf_lbmr_pser_source_port = -1; static int hf_lbmr_pser_store_port = -1; static int hf_lbmr_pser_topic = -1; static int hf_lbmr_pser_opts = -1; static int hf_lbmr_pser_optlen = -1; static int hf_lbmr_pser_optlen_type = -1; static int hf_lbmr_pser_optlen_optlen = -1; static int hf_lbmr_pser_opt_ctxinst = -1; static int hf_lbmr_pser_opt_ctxinst_len = -1; static int hf_lbmr_pser_opt_ctxinst_type = -1; static int hf_lbmr_pser_opt_ctxinst_ctxinst = -1; static int hf_lbmr_opts = -1; static int hf_lbmr_opt_len = -1; static int hf_lbmr_opt_len_type = -1; static int hf_lbmr_opt_len_len = -1; static int hf_lbmr_opt_len_total_len = -1; static int hf_lbmr_opt_src_id = -1; static int hf_lbmr_opt_src_id_type = -1; static int hf_lbmr_opt_src_id_len = -1; static int hf_lbmr_opt_src_id_flags = -1; static int hf_lbmr_opt_src_id_flags_ignore = -1; static int hf_lbmr_opt_src_id_src_id = -1; static int hf_lbmr_opt_src_type = -1; static int hf_lbmr_opt_src_type_type = -1; static int hf_lbmr_opt_src_type_len = -1; static int hf_lbmr_opt_src_type_flags = -1; static int hf_lbmr_opt_src_type_flags_ignore = -1; static int hf_lbmr_opt_src_type_src_type = -1; static int hf_lbmr_opt_version = -1; static int hf_lbmr_opt_version_type = -1; static int hf_lbmr_opt_version_len = -1; static int hf_lbmr_opt_version_flags = -1; static int hf_lbmr_opt_version_flags_ignore = -1; static int hf_lbmr_opt_version_flags_ume = -1; static int hf_lbmr_opt_version_flags_umq = -1; static int hf_lbmr_opt_version_version = -1; static int hf_lbmr_opt_local_domain = -1; static int hf_lbmr_opt_local_domain_type = -1; static int hf_lbmr_opt_local_domain_len = -1; static int hf_lbmr_opt_local_domain_flags = -1; static int hf_lbmr_opt_local_domain_flags_ignore = -1; static int hf_lbmr_opt_local_domain_local_domain_id = -1; static int hf_lbmr_opt_unknown = -1; static int hf_lbmr_opt_unknown_type = -1; static int hf_lbmr_opt_unknown_len = -1; static int hf_lbmr_opt_unknown_flags = -1; static int hf_lbmr_opt_unknown_data = -1; static int hf_lbmr_topic_res_request_flags = -1; static int hf_lbmr_topic_res_request_flags_gw_remote_interest = -1; static int hf_lbmr_topic_res_request_flags_context_query = -1; static int hf_lbmr_topic_res_request_flags_context_advertisement = -1; static int hf_lbmr_topic_res_request_flags_gateway_meta = -1; static int hf_lbmr_topic_res_request_flags_advertisement = -1; static int hf_lbmr_topic_res_request_flags_query = -1; static int hf_lbmr_topic_res_request_flags_wildcard_query = -1; static int hf_lbmr_ctxinfo_len = -1; static int hf_lbmr_ctxinfo_hop_count = -1; static int hf_lbmr_ctxinfo_flags = -1; static int hf_lbmr_ctxinfo_flags_query = -1; static int hf_lbmr_ctxinfo_flags_ip = -1; static int hf_lbmr_ctxinfo_flags_instance = -1; static int hf_lbmr_ctxinfo_flags_tnwg_src = -1; static int hf_lbmr_ctxinfo_flags_tnwg_rcv = -1; static int hf_lbmr_ctxinfo_flags_proxy = -1; static int hf_lbmr_ctxinfo_flags_name = -1; static int hf_lbmr_ctxinfo_port = -1; static int hf_lbmr_ctxinfo_ip = -1; static int hf_lbmr_ctxinfo_instance = -1; static int hf_lbmr_ctxinfo_name = -1; static int hf_lbmr_tnwg_len = -1; static int hf_lbmr_tnwg_type = -1; static int hf_lbmr_tnwg_reserved = -1; static int hf_lbmr_tnwg_interest = -1; static int hf_lbmr_tnwg_interest_len = -1; static int hf_lbmr_tnwg_interest_count = -1; static int hf_lbmr_tnwg_interest_rec = -1; static int hf_lbmr_tnwg_interest_rec_len = -1; static int hf_lbmr_tnwg_interest_rec_flags = -1; static int hf_lbmr_tnwg_interest_rec_flags_pattern = -1; static int hf_lbmr_tnwg_interest_rec_flags_cancel = -1; static int hf_lbmr_tnwg_interest_rec_flags_refresh = -1; static int hf_lbmr_tnwg_interest_rec_pattype = -1; static int hf_lbmr_tnwg_interest_rec_domain_id = -1; static int hf_lbmr_tnwg_interest_rec_symbol = -1; static int hf_lbmr_tnwg_ctxinfo = -1; static int hf_lbmr_tnwg_ctxinfo_len = -1; static int hf_lbmr_tnwg_ctxinfo_hop_count = -1; static int hf_lbmr_tnwg_ctxinfo_reserved = -1; static int hf_lbmr_tnwg_ctxinfo_flags1 = -1; static int hf_lbmr_tnwg_ctxinfo_flags1_query = -1; static int hf_lbmr_tnwg_ctxinfo_flags1_tnwg_src = -1; static int hf_lbmr_tnwg_ctxinfo_flags1_tnwg_rcv = -1; static int hf_lbmr_tnwg_ctxinfo_flags1_proxy = -1; static int hf_lbmr_tnwg_ctxinfo_flags2 = -1; static int hf_lbmr_tnwg_trreq = -1; static int hf_lbmr_tnwg_trreq_len = -1; static int hf_lbmr_tnwg_opt = -1; static int hf_lbmr_tnwg_opt_type = -1; static int hf_lbmr_tnwg_opt_len = -1; static int hf_lbmr_tnwg_opt_flags = -1; static int hf_lbmr_tnwg_opt_flags_ignore = -1; static int hf_lbmr_tnwg_opt_data = -1; static int hf_lbmr_tnwg_opt_ctxinst = -1; static int hf_lbmr_tnwg_opt_ctxinst_type = -1; static int hf_lbmr_tnwg_opt_ctxinst_len = -1; static int hf_lbmr_tnwg_opt_ctxinst_flags = -1; static int hf_lbmr_tnwg_opt_ctxinst_flags_ignore = -1; static int hf_lbmr_tnwg_opt_ctxinst_instance = -1; static int hf_lbmr_tnwg_opt_address = -1; static int hf_lbmr_tnwg_opt_address_type = -1; static int hf_lbmr_tnwg_opt_address_len = -1; static int hf_lbmr_tnwg_opt_address_flags = -1; static int hf_lbmr_tnwg_opt_address_flags_ignore = -1; static int hf_lbmr_tnwg_opt_address_port = -1; static int hf_lbmr_tnwg_opt_address_res = -1; static int hf_lbmr_tnwg_opt_address_ip = -1; static int hf_lbmr_tnwg_opt_domain = -1; static int hf_lbmr_tnwg_opt_domain_type = -1; static int hf_lbmr_tnwg_opt_domain_len = -1; static int hf_lbmr_tnwg_opt_domain_flags = -1; static int hf_lbmr_tnwg_opt_domain_flags_ignore = -1; static int hf_lbmr_tnwg_opt_domain_domain_id = -1; static int hf_lbmr_tnwg_opt_name = -1; static int hf_lbmr_tnwg_opt_name_type = -1; static int hf_lbmr_tnwg_opt_name_len = -1; static int hf_lbmr_tnwg_opt_name_flags = -1; static int hf_lbmr_tnwg_opt_name_flags_ignore = -1; static int hf_lbmr_tnwg_opt_name_name = -1; static int hf_lbmr_remote_domain_route_hdr_num_domains = -1; static int hf_lbmr_remote_domain_route_hdr_ip = -1; static int hf_lbmr_remote_domain_route_hdr_port = -1; static int hf_lbmr_remote_domain_route_hdr_reserved = -1; static int hf_lbmr_remote_domain_route_hdr_length = -1; static int hf_lbmr_remote_domain_route_hdr_domain = -1; static int hf_lbmr_rctxinfo_len = -1; static int hf_lbmr_rctxinfo_num_recs = -1; static int hf_lbmr_rctxinfo_reserved = -1; static int hf_lbmr_rctxinfo_rec = -1; static int hf_lbmr_rctxinfo_rec_len = -1; static int hf_lbmr_rctxinfo_rec_flags = -1; static int hf_lbmr_rctxinfo_rec_flags_query = -1; static int hf_lbmr_rctxinfo_rec_address = -1; static int hf_lbmr_rctxinfo_rec_address_type = -1; static int hf_lbmr_rctxinfo_rec_address_len = -1; static int hf_lbmr_rctxinfo_rec_address_flags = -1; static int hf_lbmr_rctxinfo_rec_address_domain_id = -1; static int hf_lbmr_rctxinfo_rec_address_ip = -1; static int hf_lbmr_rctxinfo_rec_address_port = -1; static int hf_lbmr_rctxinfo_rec_address_res = -1; static int hf_lbmr_rctxinfo_rec_instance = -1; static int hf_lbmr_rctxinfo_rec_instance_type = -1; static int hf_lbmr_rctxinfo_rec_instance_len = -1; static int hf_lbmr_rctxinfo_rec_instance_flags = -1; static int hf_lbmr_rctxinfo_rec_instance_instance = -1; static int hf_lbmr_rctxinfo_rec_odomain = -1; static int hf_lbmr_rctxinfo_rec_odomain_type = -1; static int hf_lbmr_rctxinfo_rec_odomain_len = -1; static int hf_lbmr_rctxinfo_rec_odomain_flags = -1; static int hf_lbmr_rctxinfo_rec_odomain_domain_id = -1; static int hf_lbmr_rctxinfo_rec_name = -1; static int hf_lbmr_rctxinfo_rec_name_type = -1; static int hf_lbmr_rctxinfo_rec_name_len = -1; static int hf_lbmr_rctxinfo_rec_name_flags = -1; static int hf_lbmr_rctxinfo_rec_name_name = -1; static int hf_lbmr_rctxinfo_rec_unknown = -1; static int hf_lbmr_rctxinfo_rec_unknown_type = -1; static int hf_lbmr_rctxinfo_rec_unknown_len = -1; static int hf_lbmr_rctxinfo_rec_unknown_flags = -1; static int hf_lbmr_rctxinfo_rec_unknown_data = -1; static int hf_qmgmt_flags = -1; static int hf_qmgmt_flags_i_flag = -1; static int hf_qmgmt_flags_n_flag = -1; static int hf_qmgmt_flags_il_l_flag = -1; static int hf_qmgmt_flags_il_k_flag = -1; static int hf_qmgmt_pckt_type = -1; static int hf_qmgmt_cfgsig = -1; static int hf_qmgmt_queue_id = -1; static int hf_qmgmt_queue_ver = -1; static int hf_qmgmt_ip = -1; static int hf_qmgmt_port = -1; static int hf_qmgmt_inst_idx = -1; static int hf_qmgmt_grp_idx = -1; static int hf_qmgmt_pckt_type_dep16 = -1; static int hf_qmgmt_il_num_insts = -1; static int hf_qmgmt_jrej_code = -1; static int hf_qmgmt_ev_bias = -1; static int hf_qmgmt_il = -1; static int hf_qmgmt_il_highest_rcr_tsp = -1; static int hf_qmgmt_il_inst = -1; static int hf_qmgmt_il_inst_ip = -1; static int hf_qmgmt_il_inst_port = -1; static int hf_qmgmt_il_inst_inst_idx = -1; static int hf_qmgmt_il_inst_grp_idx = -1; static int hf_qmgmt_il_inst_flags = -1; static int hf_qmgmt_il_inst_flags_m_flag = -1; static int hf_qmgmt_il_inst_flags_q_flag = -1; static int hf_qmgmt_il_inst_flags_p_flag = -1; static int hf_qmgmt_ec = -1; static int hf_qmgmt_ec_queue_new_ver = -1; static int hf_qmgmt_ev = -1; static int hf_qmgmt_ev_highest_rcr_tsp = -1; static int hf_qmgmt_ev_age = -1; static int hf_qmgmt_qro = -1; static int hf_qmgmt_qro_highest_rcr_tsp = -1; static int hf_qmgmt_qname = -1; /* Expert info handles */ static expert_field ei_lbmr_analysis_length_incorrect = EI_INIT; static expert_field ei_lbmr_analysis_invalid_value = EI_INIT; static expert_field ei_lbmr_analysis_zero_len_option = EI_INIT; /* Tap handles */ static int lbmr_topic_advertisement_tap_handle = -1; static int lbmr_topic_query_tap_handle = -1; static int lbmr_pattern_query_tap_handle = -1; static int lbmr_queue_advertisement_tap_handle = -1; static int lbmr_queue_query_tap_handle = -1; #define LBMR_TOPIC_ADVERTISEMENT_TAP_STRING "lbm_lbmr_topic_advertisement" #define LBMR_TOPIC_QUERY_TAP_STRING "lbm_lbmr_topic_query" #define LBMR_PATTERN_QUERY_TAP_STRING "lbm_lbmr_pattern_query" #define LBMR_QUEUE_ADVERTISEMENT_TAP_STRING "lbm_lbmr_queue_advertisement" #define LBMR_QUEUE_QUERY_TAP_STRING "lbm_lbmr_queue_query" /*----------------------------------------------------------------------------*/ /* Statistics. */ /*----------------------------------------------------------------------------*/ /* Statistics structures */ struct tqr_node_t_stct; struct tqr_node_t_stct { char * topic; struct tqr_node_t_stct * next; }; typedef struct tqr_node_t_stct tqr_node_t; struct wctqr_node_t_stct; struct wctqr_node_t_stct { guint8 type; char * pattern; struct wctqr_node_t_stct * next; }; typedef struct wctqr_node_t_stct wctqr_node_t; struct tir_node_t_stct; struct tir_node_t_stct { char * topic; char * source_string; guint32 index; struct tir_node_t_stct * next; }; typedef struct tir_node_t_stct tir_node_t; typedef struct { gint tqr_count; tqr_node_t * tqr; gint tir_count; tir_node_t * tir; gint wctqr_count; wctqr_node_t * wctqr; } lbmr_topic_contents_t; struct qqr_node_t_stct; struct qqr_node_t_stct { char * queue; struct qqr_node_t_stct * next; }; typedef struct qqr_node_t_stct qqr_node_t; struct qir_node_t_stct; struct qir_node_t_stct { char * queue; char * topic; guint16 port; struct qir_node_t_stct * next; }; typedef struct qir_node_t_stct qir_node_t; typedef struct { gint qqr_count; qqr_node_t * qqr; gint qir_count; qir_node_t * qir; } lbmr_queue_contents_t; typedef struct { gint type; union { lbmr_topic_contents_t topic; lbmr_queue_contents_t queue; } contents; } lbmr_contents_t; #define LBMR_CONTENTS_TOPIC 0 #define LBMR_CONTENTS_QUEUE 1 /* Statistics titles */ static const gchar * lbmr_stat_tree_name_topic_ads_topic = "29West/Topics/Advertisements by Topic"; static const gchar * lbmr_stat_tree_name_topic_ads_source = "29West/Topics/Advertisements by Source"; static const gchar * lbmr_stat_tree_name_topic_ads_transport = "29West/Topics/Advertisements by Transport"; static const gchar * lbmr_stat_tree_name_topic_queries_topic = "29West/Topics/Queries by Topic"; static const gchar * lbmr_stat_tree_name_topic_queries_receiver = "29West/Topics/Queries by Receiver"; static const gchar * lbmr_stat_tree_name_topic_queries_pattern = "29West/Topics/Wildcard Queries by Pattern"; static const gchar * lbmr_stat_tree_name_topic_queries_pattern_receiver = "29West/Topics/Wildcard Queries by Receiver"; static const gchar * lbmr_stat_tree_name_queue_ads_queue = "29West/Queues/Advertisements by Queue"; static const gchar * lbmr_stat_tree_name_queue_ads_source = "29West/Queues/Advertisements by Source"; static const gchar * lbmr_stat_tree_name_queue_queries_queue = "29West/Queues/Queries by Queue"; static const gchar * lbmr_stat_tree_name_queue_queries_receiver = "29West/Queues/Queries by Receiver"; /* Statistics handles */ static int lbmr_stats_tree_handle_topic_ads_topic = -1; static int lbmr_stats_tree_handle_topic_ads_source = -1; static int lbmr_stats_tree_handle_topic_ads_transport = -1; static int lbmr_stats_tree_handle_topic_queries_topic = -1; static int lbmr_stats_tree_handle_topic_queries_receiver = -1; static int lbmr_stats_tree_handle_topic_queries_pattern = -1; static int lbmr_stats_tree_handle_topic_queries_pattern_receiver = -1; static int lbmr_stats_tree_handle_queue_ads_queue = -1; static int lbmr_stats_tree_handle_queue_ads_source = -1; static int lbmr_stats_tree_handle_queue_queries_queue = -1; static int lbmr_stats_tree_handle_queue_queries_receiver = -1; /*----------------------------------------------------------------------------*/ /* Statistics tree utility functions. */ /*----------------------------------------------------------------------------*/ static void add_contents_tqr(lbmr_contents_t * contents, const char * topic) { tqr_node_t * node = NULL; node = wmem_new(wmem_packet_scope(), tqr_node_t); node->topic = wmem_strdup(wmem_packet_scope(), topic); node->next = contents->contents.topic.tqr; contents->contents.topic.tqr = node; contents->contents.topic.tqr_count++; } static void add_contents_wctqr(lbmr_contents_t * contents, unsigned char type, const char * pattern) { wctqr_node_t * node = NULL; node = wmem_new(wmem_packet_scope(), wctqr_node_t); node->type = type; node->pattern = wmem_strdup(wmem_packet_scope(), pattern); node->next = contents->contents.topic.wctqr; contents->contents.topic.wctqr = node; contents->contents.topic.wctqr_count++; } static void add_contents_tir(lbmr_contents_t * contents, const char * topic, char * source, guint32 topic_index) { tir_node_t * node = NULL; node = wmem_new(wmem_packet_scope(), tir_node_t); node->topic = wmem_strdup(wmem_packet_scope(), topic); node->source_string = source; node->index = topic_index; node->next = contents->contents.topic.tir; contents->contents.topic.tir = node; contents->contents.topic.tir_count++; } static void add_contents_qqr(lbmr_contents_t * contents, const char * queue) { qqr_node_t * node = NULL; node = wmem_new(wmem_packet_scope(), qqr_node_t); node->queue = wmem_strdup(wmem_packet_scope(), queue); node->next = contents->contents.queue.qqr; contents->contents.queue.qqr = node; contents->contents.queue.qqr_count++; } static void add_contents_qir(lbmr_contents_t * contents, const char * queue, const char * topic, guint16 port) { qir_node_t * node = NULL; node = wmem_new(wmem_packet_scope(), qir_node_t); node->queue = wmem_strdup(wmem_packet_scope(), queue); node->topic = wmem_strdup(wmem_packet_scope(), topic); node->port = port; node->next = contents->contents.queue.qir; contents->contents.queue.qir = node; contents->contents.queue.qir_count++; } /*----------------------------------------------------------------------------*/ /* Topic advertisements by Topic: */ /* Topic name */ /* - Source address */ /* - Source string (including topic index) */ /*----------------------------------------------------------------------------*/ static void lbmr_topic_ads_topic_stats_tree_init(stats_tree * tree) { lbmr_stats_tree_handle_topic_ads_topic = stats_tree_create_node(tree, lbmr_stat_tree_name_topic_ads_topic, 0, TRUE); } static int lbmr_topic_ads_topic_stats_tree_packet(stats_tree * tree, packet_info * pinfo, epan_dissect_t * edt _U_, const void * data) { const lbm_lbmr_topic_advertisement_tap_info_t * info = (const lbm_lbmr_topic_advertisement_tap_info_t *) data; int topic_node; int source_node; gchar * full_source_string; tick_stat_node(tree, lbmr_stat_tree_name_topic_ads_topic, 0, FALSE); topic_node = tick_stat_node(tree, info->topic, lbmr_stats_tree_handle_topic_ads_topic, TRUE); source_node = tick_stat_node(tree, address_to_str(wmem_packet_scope(), &pinfo->net_src), topic_node, TRUE); full_source_string = wmem_strdup_printf(wmem_packet_scope(), "%s[%" G_GUINT32_FORMAT "]", info->source, info->topic_index); tick_stat_node(tree, full_source_string, source_node, TRUE); return (1); } /*----------------------------------------------------------------------------*/ /* Topic advertisements by Source: */ /* Source address */ /* - Topic name */ /* - Source string (including topic index) */ /*----------------------------------------------------------------------------*/ static void lbmr_topic_ads_source_stats_tree_init(stats_tree * tree) { lbmr_stats_tree_handle_topic_ads_source = stats_tree_create_node(tree, lbmr_stat_tree_name_topic_ads_source, 0, TRUE); } static int lbmr_topic_ads_source_stats_tree_packet(stats_tree * tree, packet_info * pinfo, epan_dissect_t * edt _U_, const void * data) { const lbm_lbmr_topic_advertisement_tap_info_t * info = (const lbm_lbmr_topic_advertisement_tap_info_t *) data; int source_node; int topic_node; gchar * full_source_string; tick_stat_node(tree, lbmr_stat_tree_name_topic_ads_source, 0, FALSE); source_node = tick_stat_node(tree, address_to_str(wmem_packet_scope(), &pinfo->net_src), lbmr_stats_tree_handle_topic_ads_source, TRUE); topic_node = tick_stat_node(tree, info->topic, source_node, TRUE); full_source_string = wmem_strdup_printf(wmem_packet_scope(), "%s[%" G_GUINT32_FORMAT "]", info->source, info->topic_index); tick_stat_node(tree, full_source_string, topic_node, TRUE); return (1); } /*----------------------------------------------------------------------------*/ /* Topic advertisements by Transport: */ /* Source string */ /* - Topic name (including topic index) */ /*----------------------------------------------------------------------------*/ static void lbmr_topic_ads_transport_stats_tree_init(stats_tree * tree) { lbmr_stats_tree_handle_topic_ads_transport = stats_tree_create_node(tree, lbmr_stat_tree_name_topic_ads_transport, 0, TRUE); } static int lbmr_topic_ads_transport_stats_tree_packet(stats_tree * tree, packet_info * pinfo _U_, epan_dissect_t * edt _U_, const void * data) { const lbm_lbmr_topic_advertisement_tap_info_t * info = (const lbm_lbmr_topic_advertisement_tap_info_t *) data; int transport_node; gchar * full_source_string; tick_stat_node(tree, lbmr_stat_tree_name_topic_ads_transport, 0, FALSE); transport_node = tick_stat_node(tree, info->source, lbmr_stats_tree_handle_topic_ads_transport, TRUE); full_source_string = wmem_strdup_printf(wmem_packet_scope(), "%s [%" G_GUINT32_FORMAT "]", info->topic, info->topic_index); tick_stat_node(tree, full_source_string, transport_node, TRUE); return (1); } /*----------------------------------------------------------------------------*/ /* Topic queries by Topic: */ /* Topic name */ /* - Receiver address */ /*----------------------------------------------------------------------------*/ static void lbmr_topic_queries_topic_stats_tree_init(stats_tree * tree) { lbmr_stats_tree_handle_topic_queries_topic = stats_tree_create_node(tree, lbmr_stat_tree_name_topic_queries_topic, 0, TRUE); } static int lbmr_topic_queries_topic_stats_tree_packet(stats_tree * tree, packet_info * pinfo, epan_dissect_t * edt _U_, const void * data) { const lbm_lbmr_topic_query_tap_info_t * info = (const lbm_lbmr_topic_query_tap_info_t *) data; int topic_node; tick_stat_node(tree, lbmr_stat_tree_name_topic_queries_topic, 0, FALSE); topic_node = tick_stat_node(tree, info->topic, lbmr_stats_tree_handle_topic_queries_topic, TRUE); tick_stat_node(tree, address_to_str(wmem_packet_scope(), &pinfo->net_src), topic_node, TRUE); return (1); } /*----------------------------------------------------------------------------*/ /* Topic queries by Receiver: */ /* Receiver address */ /* - Topic name */ /*----------------------------------------------------------------------------*/ static void lbmr_topic_queries_receiver_stats_tree_init(stats_tree * tree) { lbmr_stats_tree_handle_topic_queries_receiver = stats_tree_create_node(tree, lbmr_stat_tree_name_topic_queries_receiver, 0, TRUE); } static int lbmr_topic_queries_receiver_stats_tree_packet(stats_tree * tree, packet_info * pinfo, epan_dissect_t * edt _U_, const void * data) { const lbm_lbmr_topic_query_tap_info_t * info = (const lbm_lbmr_topic_query_tap_info_t *) data; int receiver_node; tick_stat_node(tree, lbmr_stat_tree_name_topic_queries_receiver, 0, FALSE); receiver_node = tick_stat_node(tree, address_to_str(wmem_packet_scope(), &pinfo->net_src), lbmr_stats_tree_handle_topic_queries_receiver, TRUE); tick_stat_node(tree, info->topic, receiver_node, TRUE); return (1); } /*----------------------------------------------------------------------------*/ /* Topic queries by Pattern: */ /* Pattern */ /* - Receiver address */ /*----------------------------------------------------------------------------*/ static void lbmr_topic_queries_pattern_stats_tree_init(stats_tree * tree) { lbmr_stats_tree_handle_topic_queries_pattern = stats_tree_create_node(tree, lbmr_stat_tree_name_topic_queries_pattern, 0, TRUE); } static int lbmr_topic_queries_pattern_stats_tree_packet(stats_tree * tree, packet_info * pinfo, epan_dissect_t * edt _U_, const void * data) { const lbm_lbmr_pattern_query_tap_info_t * info = (const lbm_lbmr_pattern_query_tap_info_t *) data; int pattern_node; char * pattern_str; tick_stat_node(tree, lbmr_stat_tree_name_topic_queries_pattern, 0, FALSE); pattern_str = wmem_strdup_printf(wmem_packet_scope(), "%s (%s)", info->pattern, val_to_str(info->type, lbm_wildcard_pattern_type_short, "UNKN[0x%02x]")); pattern_node = tick_stat_node(tree, pattern_str, lbmr_stats_tree_handle_topic_queries_pattern, TRUE); tick_stat_node(tree, address_to_str(wmem_packet_scope(), &pinfo->net_src), pattern_node, TRUE); return (1); } /*----------------------------------------------------------------------------*/ /* Topic queries by Pattern: */ /* Receiver address */ /* - Patternme */ /*----------------------------------------------------------------------------*/ static void lbmr_topic_queries_pattern_receiver_stats_tree_init(stats_tree * tree) { lbmr_stats_tree_handle_topic_queries_pattern_receiver = stats_tree_create_node(tree, lbmr_stat_tree_name_topic_queries_pattern_receiver, 0, TRUE); } static int lbmr_topic_queries_pattern_receiver_stats_tree_packet(stats_tree * tree, packet_info * pinfo, epan_dissect_t * edt _U_, const void * data) { const lbm_lbmr_pattern_query_tap_info_t * info = (const lbm_lbmr_pattern_query_tap_info_t *) data; int receiver_node; char * pattern_str; tick_stat_node(tree, lbmr_stat_tree_name_topic_queries_pattern_receiver, 0, FALSE); receiver_node = tick_stat_node(tree, address_to_str(wmem_packet_scope(), &pinfo->net_src), lbmr_stats_tree_handle_topic_queries_pattern_receiver, TRUE); pattern_str = wmem_strdup_printf(wmem_packet_scope(), "%s (%s)", info->pattern, val_to_str(info->type, lbm_wildcard_pattern_type_short, "UNKN[0x%02x]")); tick_stat_node(tree, pattern_str, receiver_node, TRUE); return (1); } /*----------------------------------------------------------------------------*/ /* Queue advertisements by Queue: */ /* Queue name */ /* - Source address and port */ /*----------------------------------------------------------------------------*/ static void lbmr_queue_ads_queue_stats_tree_init(stats_tree * tree) { lbmr_stats_tree_handle_queue_ads_queue = stats_tree_create_node(tree, lbmr_stat_tree_name_queue_ads_queue, 0, TRUE); } static int lbmr_queue_ads_queue_stats_tree_packet(stats_tree * tree, packet_info * pinfo, epan_dissect_t * edt _U_, const void * data) { const lbm_lbmr_queue_advertisement_tap_info_t * info = (const lbm_lbmr_queue_advertisement_tap_info_t *) data; int queue_node; gchar * str; tick_stat_node(tree, lbmr_stat_tree_name_queue_ads_queue, 0, FALSE); queue_node = tick_stat_node(tree, info->queue, lbmr_stats_tree_handle_queue_ads_queue, TRUE); str = wmem_strdup_printf(wmem_packet_scope(), "%s:%" G_GUINT16_FORMAT, address_to_str(wmem_packet_scope(), &pinfo->net_src), info->port); tick_stat_node(tree, str, queue_node, TRUE); return (1); } /*----------------------------------------------------------------------------*/ /* Queue advertisements by Source: */ /* Source address */ /* - Queue name and port */ /*----------------------------------------------------------------------------*/ static void lbmr_queue_ads_source_stats_tree_init(stats_tree * tree) { lbmr_stats_tree_handle_queue_ads_source = stats_tree_create_node(tree, lbmr_stat_tree_name_queue_ads_source, 0, TRUE); } static int lbmr_queue_ads_source_stats_tree_packet(stats_tree * tree, packet_info * pinfo, epan_dissect_t * edt _U_, const void * data) { const lbm_lbmr_queue_advertisement_tap_info_t * info = (const lbm_lbmr_queue_advertisement_tap_info_t *) data; int source_node; gchar * str; tick_stat_node(tree, lbmr_stat_tree_name_queue_ads_source, 0, FALSE); source_node = tick_stat_node(tree, address_to_str(wmem_packet_scope(), &pinfo->net_src), lbmr_stats_tree_handle_queue_ads_source, TRUE); str = wmem_strdup_printf(wmem_packet_scope(), "%s:%" G_GUINT16_FORMAT, info->queue, info->port); tick_stat_node(tree, str, source_node, TRUE); return (1); } /*----------------------------------------------------------------------------*/ /* Queue queries by Queue: */ /* Queue name */ /* - Receiver address */ /*----------------------------------------------------------------------------*/ static void lbmr_queue_queries_queue_stats_tree_init(stats_tree * tree) { lbmr_stats_tree_handle_queue_queries_queue = stats_tree_create_node(tree, lbmr_stat_tree_name_queue_queries_queue, 0, TRUE); } static int lbmr_queue_queries_queue_stats_tree_packet(stats_tree * tree, packet_info * pinfo, epan_dissect_t * edt _U_, const void * data) { const lbm_lbmr_queue_query_tap_info_t * info = (const lbm_lbmr_queue_query_tap_info_t *) data; int queue_node = 0; tick_stat_node(tree, lbmr_stat_tree_name_queue_queries_queue, 0, FALSE); queue_node = tick_stat_node(tree, info->queue, lbmr_stats_tree_handle_queue_queries_queue, TRUE); tick_stat_node(tree, address_to_str(wmem_packet_scope(), &pinfo->net_src), queue_node, TRUE); return (1); } /*----------------------------------------------------------------------------*/ /* Queue queries by Receiver: */ /* Receiver address */ /* - Queue name */ /*----------------------------------------------------------------------------*/ static void lbmr_queue_queries_receiver_stats_tree_init(stats_tree * tree) { lbmr_stats_tree_handle_queue_queries_receiver = stats_tree_create_node(tree, lbmr_stat_tree_name_queue_queries_receiver, 0, TRUE); } static int lbmr_queue_queries_receiver_stats_tree_packet(stats_tree * tree, packet_info * pinfo, epan_dissect_t * edt _U_, const void * data) { const lbm_lbmr_queue_query_tap_info_t * info = (const lbm_lbmr_queue_query_tap_info_t *) data; int receiver_node; tick_stat_node(tree, lbmr_stat_tree_name_queue_queries_receiver, 0, FALSE); receiver_node = tick_stat_node(tree, address_to_str(wmem_packet_scope(), &pinfo->net_src), lbmr_stats_tree_handle_queue_queries_receiver, TRUE); tick_stat_node(tree, info->queue, receiver_node, TRUE); return (1); } /*----------------------------------------------------------------------------*/ /* Dissector functions. */ /*----------------------------------------------------------------------------*/ /*----------------------------------------------------------------------------*/ /* LBMR TNWG option dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_tnwg_ctxinst_opt(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * opt_tree = NULL; proto_item * opt_item = NULL; guint8 opt_len = 0; static const int * flags[] = { &hf_lbmr_tnwg_opt_ctxinst_flags_ignore, NULL }; opt_len = tvb_get_guint8(tvb, offset + O_LBMR_TNWG_OPT_CTXINST_T_LEN); opt_item = proto_tree_add_item(tree, hf_lbmr_tnwg_opt_ctxinst, tvb, offset, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_tnwg_ctxinst_opt); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_ctxinst_type, tvb, offset + O_LBMR_TNWG_OPT_CTXINST_T_TYPE, L_LBMR_TNWG_OPT_CTXINST_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_ctxinst_len, tvb, offset + O_LBMR_TNWG_OPT_CTXINST_T_LEN, L_LBMR_TNWG_OPT_CTXINST_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, offset + O_LBMR_TNWG_OPT_CTXINST_T_FLAGS, hf_lbmr_tnwg_opt_ctxinst_flags, ett_lbmr_tnwg_ctxinst_opt_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_ctxinst_instance, tvb, offset + O_LBMR_TNWG_OPT_CTXINST_T_INSTANCE, L_LBMR_TNWG_OPT_CTXINST_T_INSTANCE, ENC_NA); return ((int) opt_len); } static int dissect_lbmr_tnwg_address_opt(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * opt_tree = NULL; proto_item * opt_item = NULL; guint8 opt_len = 0; static const int * flags[] = { &hf_lbmr_tnwg_opt_address_flags_ignore, NULL }; opt_len = tvb_get_guint8(tvb, offset + O_LBMR_TNWG_OPT_ADDRESS_T_LEN); opt_item = proto_tree_add_item(tree, hf_lbmr_tnwg_opt_address, tvb, offset, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_tnwg_address_opt); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_address_type, tvb, offset + O_LBMR_TNWG_OPT_ADDRESS_T_TYPE, L_LBMR_TNWG_OPT_ADDRESS_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_address_len, tvb, offset + O_LBMR_TNWG_OPT_ADDRESS_T_LEN, L_LBMR_TNWG_OPT_ADDRESS_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, offset + O_LBMR_TNWG_OPT_ADDRESS_T_FLAGS, hf_lbmr_tnwg_opt_address_flags, ett_lbmr_tnwg_address_opt_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_address_port, tvb, offset + O_LBMR_TNWG_OPT_ADDRESS_T_PORT, L_LBMR_TNWG_OPT_ADDRESS_T_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_address_res, tvb, offset + O_LBMR_TNWG_OPT_ADDRESS_T_RES, L_LBMR_TNWG_OPT_ADDRESS_T_RES, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_address_ip, tvb, offset + O_LBMR_TNWG_OPT_ADDRESS_T_IP, L_LBMR_TNWG_OPT_ADDRESS_T_IP, ENC_BIG_ENDIAN); return ((int)opt_len); } static int dissect_lbmr_tnwg_domain_opt(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * opt_tree = NULL; proto_item * opt_item = NULL; guint8 opt_len = 0; static const int * flags[] = { &hf_lbmr_tnwg_opt_domain_flags_ignore, NULL }; opt_len = tvb_get_guint8(tvb, offset + O_LBMR_TNWG_OPT_DOMAIN_T_LEN); opt_item = proto_tree_add_item(tree, hf_lbmr_tnwg_opt_domain, tvb, offset, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_tnwg_domain_opt); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_domain_type, tvb, offset + O_LBMR_TNWG_OPT_DOMAIN_T_TYPE, L_LBMR_TNWG_OPT_DOMAIN_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_domain_len, tvb, offset + O_LBMR_TNWG_OPT_DOMAIN_T_LEN, L_LBMR_TNWG_OPT_DOMAIN_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, offset + O_LBMR_TNWG_OPT_DOMAIN_T_FLAGS, hf_lbmr_tnwg_opt_domain_flags, ett_lbmr_tnwg_domain_opt_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_domain_domain_id, tvb, offset + O_LBMR_TNWG_OPT_DOMAIN_T_DOMAIN_ID, L_LBMR_TNWG_OPT_DOMAIN_T_DOMAIN_ID, ENC_BIG_ENDIAN); return ((int)opt_len); } static int dissect_lbmr_tnwg_name_opt(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * opt_tree = NULL; proto_item * opt_item = NULL; guint8 opt_len = 0; static const int * flags[] = { &hf_lbmr_tnwg_opt_name_flags_ignore, NULL }; guint32 name_len = 0; opt_len = tvb_get_guint8(tvb, offset + O_LBMR_TNWG_OPT_T_LEN); name_len = opt_len - L_LBMR_TNWG_OPT_T; opt_item = proto_tree_add_item(tree, hf_lbmr_tnwg_opt_name, tvb, offset, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_tnwg_name_opt); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_name_type, tvb, offset + O_LBMR_TNWG_OPT_T_TYPE, L_LBMR_TNWG_OPT_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_name_len, tvb, offset + O_LBMR_TNWG_OPT_T_LEN, L_LBMR_TNWG_OPT_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, offset + O_LBMR_TNWG_OPT_T_FLAGS, hf_lbmr_tnwg_opt_name_flags, ett_lbmr_tnwg_name_opt_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_name_name, tvb, offset + L_LBMR_TNWG_OPT_T, name_len, ENC_ASCII|ENC_NA); return ((int)opt_len); } static int dissect_lbmr_tnwg_unknown_opt(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * opt_tree = NULL; proto_item * opt_item = NULL; guint8 opt_len = 0; static const int * flags[] = { &hf_lbmr_tnwg_opt_flags_ignore, NULL }; guint32 data_len = 0; opt_len = tvb_get_guint8(tvb, offset + O_LBMR_TNWG_OPT_T_LEN); data_len = opt_len - L_LBMR_TNWG_OPT_T; opt_item = proto_tree_add_item(tree, hf_lbmr_tnwg_opt, tvb, offset, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_tnwg_unknown_opt); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_type, tvb, offset + O_LBMR_TNWG_OPT_T_TYPE, L_LBMR_TNWG_OPT_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_len, tvb, offset + O_LBMR_TNWG_OPT_T_LEN, L_LBMR_TNWG_OPT_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, offset + O_LBMR_TNWG_OPT_T_FLAGS, hf_lbmr_tnwg_opt_flags, ett_lbmr_tnwg_unknown_opt_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_tnwg_opt_data, tvb, offset + L_LBMR_TNWG_OPT_T, data_len, ENC_NA); return ((int)opt_len); } static int dissect_lbmr_tnwg_opts(tvbuff_t * tvb, int offset, int length, packet_info * pinfo, proto_tree * tree) { int len_remaining = length; int curr_offset = offset; int dissected_len = 0; guint8 type = 0; int len_used = 0; while (len_remaining >= L_LBMR_TNWG_OPT_T) { type = tvb_get_guint8(tvb, curr_offset); switch (type) { case LBMR_TNWG_OPT_CTXINST_TYPE: dissected_len += dissect_lbmr_tnwg_ctxinst_opt(tvb, curr_offset, pinfo, tree); break; case LBMR_TNWG_OPT_ADDRESS_TYPE: dissected_len += dissect_lbmr_tnwg_address_opt(tvb, curr_offset, pinfo, tree); break; case LBMR_TNWG_OPT_DOMAIN_TYPE: dissected_len += dissect_lbmr_tnwg_domain_opt(tvb, curr_offset, pinfo, tree); break; case LBMR_TNWG_OPT_NAME_TYPE: dissected_len += dissect_lbmr_tnwg_name_opt(tvb, curr_offset, pinfo, tree); break; default: dissected_len += dissect_lbmr_tnwg_unknown_opt(tvb, curr_offset, pinfo, tree); break; } len_remaining -= dissected_len; len_used += dissected_len; curr_offset += dissected_len; } return (len_used); } /*----------------------------------------------------------------------------*/ /* LBMR TNWG Interest dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_tnwg_interest_rec(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * rec_tree = NULL; proto_item * rec_item = NULL; guint16 rec_len = 0; gint string_len = 0; static const int * flags[] = { &hf_lbmr_tnwg_interest_rec_flags_pattern, &hf_lbmr_tnwg_interest_rec_flags_cancel, &hf_lbmr_tnwg_interest_rec_flags_refresh, NULL }; rec_len = tvb_get_ntohs(tvb, offset + O_LBMR_TNWG_INTEREST_REC_T_LEN); string_len = rec_len - L_LBMR_TNWG_INTEREST_REC_T; rec_item = proto_tree_add_item(tree, hf_lbmr_tnwg_interest_rec, tvb, offset, rec_len, ENC_NA); rec_tree = proto_item_add_subtree(rec_item, ett_lbmr_tnwg_interest_rec); proto_tree_add_item(rec_tree, hf_lbmr_tnwg_interest_rec_len, tvb, offset + O_LBMR_TNWG_INTEREST_REC_T_LEN, L_LBMR_TNWG_INTEREST_REC_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(rec_tree, tvb, offset + O_LBMR_TNWG_INTEREST_REC_T_FLAGS, hf_lbmr_tnwg_interest_rec_flags, ett_lbmr_tnwg_interest_rec_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(rec_tree, hf_lbmr_tnwg_interest_rec_pattype, tvb, offset + O_LBMR_TNWG_INTEREST_REC_T_PATTYPE, L_LBMR_TNWG_INTEREST_REC_T_PATTYPE, ENC_BIG_ENDIAN); proto_tree_add_item(rec_tree, hf_lbmr_tnwg_interest_rec_domain_id, tvb, offset + O_LBMR_TNWG_INTEREST_REC_T_DOMAIN_ID, L_LBMR_TNWG_INTEREST_REC_T_DOMAIN_ID, ENC_BIG_ENDIAN); proto_tree_add_item(rec_tree, hf_lbmr_tnwg_interest_rec_symbol, tvb, offset + L_LBMR_TNWG_INTEREST_REC_T, string_len, ENC_ASCII|ENC_NA); return ((int)rec_len); } static int dissect_lbmr_tnwg_interest(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { proto_tree * int_tree = NULL; proto_item * int_item = NULL; guint16 rec_count = 0; int curr_offset = 0; int len = 0; int len_remaining = 0; int len_dissected = 0; len_remaining = tvb_get_ntohs(tvb, offset + O_LBMR_TNWG_INTEREST_T_LEN); rec_count = tvb_get_ntohs(tvb, offset + O_LBMR_TNWG_INTEREST_T_COUNT); int_item = proto_tree_add_item(tree, hf_lbmr_tnwg_interest, tvb, offset, len_remaining, ENC_NA); int_tree = proto_item_add_subtree(int_item, ett_lbmr_tnwg_interest); proto_tree_add_item(int_tree, hf_lbmr_tnwg_interest_len, tvb, offset + O_LBMR_TNWG_INTEREST_T_LEN, L_LBMR_TNWG_INTEREST_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(int_tree, hf_lbmr_tnwg_interest_count, tvb, offset + O_LBMR_TNWG_INTEREST_T_COUNT, L_LBMR_TNWG_INTEREST_T_COUNT, ENC_BIG_ENDIAN); curr_offset = offset + L_LBMR_TNWG_INTEREST_T; len = L_LBMR_TNWG_INTEREST_T; while (rec_count > 0) { len_dissected = dissect_lbmr_tnwg_interest_rec(tvb, curr_offset, pinfo, int_tree); curr_offset += len_dissected; len += len_dissected; rec_count--; } return (len); } /*----------------------------------------------------------------------------*/ /* LBMR TNWG ContextInfo dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_tnwg_ctxinfo(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { proto_tree * ctxinfo_tree = NULL; proto_item * ctxinfo_item = NULL; static const int * flags1[] = { &hf_lbmr_tnwg_ctxinfo_flags1_query, &hf_lbmr_tnwg_ctxinfo_flags1_tnwg_src, &hf_lbmr_tnwg_ctxinfo_flags1_tnwg_rcv, &hf_lbmr_tnwg_ctxinfo_flags1_proxy, NULL }; guint16 reclen = 0; guint16 len_remaining = 0; int len_used = 0; reclen = tvb_get_ntohs(tvb, offset + O_LBMR_TNWG_CTXINFO_T_LEN); len_remaining = reclen; ctxinfo_item = proto_tree_add_item(tree, hf_lbmr_tnwg_ctxinfo, tvb, offset, (gint)reclen, ENC_NA); ctxinfo_tree = proto_item_add_subtree(ctxinfo_item, ett_lbmr_tnwg_ctxinfo); proto_tree_add_item(ctxinfo_tree, hf_lbmr_tnwg_ctxinfo_len, tvb, offset + O_LBMR_TNWG_CTXINFO_T_LEN, L_LBMR_TNWG_CTXINFO_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(ctxinfo_tree, hf_lbmr_tnwg_ctxinfo_hop_count, tvb, offset + O_LBMR_TNWG_CTXINFO_T_HOP_COUNT, L_LBMR_TNWG_CTXINFO_T_HOP_COUNT, ENC_BIG_ENDIAN); proto_tree_add_item(ctxinfo_tree, hf_lbmr_tnwg_ctxinfo_reserved, tvb, offset + O_LBMR_TNWG_CTXINFO_T_RESERVED, L_LBMR_TNWG_CTXINFO_T_RESERVED, ENC_BIG_ENDIAN); proto_tree_add_bitmask(ctxinfo_tree, tvb, offset + O_LBMR_TNWG_CTXINFO_T_FLAGS1, hf_lbmr_tnwg_ctxinfo_flags1, ett_lbmr_tnwg_ctxinfo_flags1, flags1, ENC_BIG_ENDIAN); proto_tree_add_item(ctxinfo_tree, hf_lbmr_tnwg_ctxinfo_flags2, tvb, offset + O_LBMR_TNWG_CTXINFO_T_FLAGS2, L_LBMR_TNWG_CTXINFO_T_FLAGS2, ENC_BIG_ENDIAN); offset += L_LBMR_TNWG_CTXINFO_T; len_remaining -= L_LBMR_TNWG_CTXINFO_T; len_used = L_LBMR_TNWG_CTXINFO_T; if (len_remaining >= L_LBMR_TNWG_OPT_T) { len_used += dissect_lbmr_tnwg_opts(tvb, offset, len_remaining, pinfo, ctxinfo_tree); } return (len_used); } /*----------------------------------------------------------------------------*/ /* LBMR TNWG TopicRes Request dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_tnwg_trreq(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { proto_tree * trreq_tree = NULL; proto_item * trreq_item = NULL; guint16 reclen = 0; guint16 len_remaining = 0; int len_used = 0; reclen = tvb_get_ntohs(tvb, offset + O_LBMR_TNWG_TRREQ_T_LEN); len_remaining = reclen; trreq_item = proto_tree_add_item(tree, hf_lbmr_tnwg_trreq, tvb, offset, (gint)reclen, ENC_NA); trreq_tree = proto_item_add_subtree(trreq_item, ett_lbmr_tnwg_trreq); proto_tree_add_item(trreq_tree, hf_lbmr_tnwg_trreq_len, tvb, offset + O_LBMR_TNWG_TRREQ_T_LEN, L_LBMR_TNWG_TRREQ_T_LEN, ENC_BIG_ENDIAN); offset += L_LBMR_TNWG_TRREQ_T; len_remaining -= L_LBMR_TNWG_TRREQ_T; len_used = L_LBMR_TNWG_TRREQ_T; if (len_remaining >= L_LBMR_TNWG_OPT_T) { len_used += dissect_lbmr_tnwg_opts(tvb, offset, len_remaining, pinfo, trreq_tree); } return (len_used); } /*----------------------------------------------------------------------------*/ /* LBMR TNWG dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_tnwg(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { guint16 type = 0; int curr_offset = 0; int len_dissected = 0; proto_item * type_item = NULL; type = tvb_get_ntohs(tvb, offset + O_LBMR_TNWG_T_TYPE); proto_tree_add_item(tree, hf_lbmr_tnwg_len, tvb, offset + O_LBMR_TNWG_T_LEN, L_LBMR_TNWG_T_LEN, ENC_BIG_ENDIAN); type_item = proto_tree_add_item(tree, hf_lbmr_tnwg_type, tvb, offset + O_LBMR_TNWG_T_TYPE, L_LBMR_TNWG_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_tnwg_reserved, tvb, offset + O_LBMR_TNWG_T_RESERVED, L_LBMR_TNWG_T_RESERVED, ENC_BIG_ENDIAN); len_dissected = L_LBMR_TNWG_T; curr_offset = offset + L_LBMR_TNWG_T; switch (type) { case LBMR_TNWG_TYPE_INTEREST: len_dissected += dissect_lbmr_tnwg_interest(tvb, curr_offset, pinfo, tree); break; case LBMR_TNWG_TYPE_CTXINFO: len_dissected += dissect_lbmr_tnwg_ctxinfo(tvb, curr_offset, pinfo, tree); break; case LBMR_TNWG_TYPE_TRREQ: len_dissected += dissect_lbmr_tnwg_trreq(tvb, curr_offset, pinfo, tree); break; default: expert_add_info_format(pinfo, type_item, &ei_lbmr_analysis_invalid_value, "Unknown LBMR TNWG type 0x%04x", type); break; } return ((int)len_dissected); } /*----------------------------------------------------------------------------*/ /* LBMR Topic Management dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_tmr(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { gint namelen = 0; int name_offset = 0; char * name = NULL; proto_item * ti = NULL; proto_tree * tinfo_tree = NULL; static const int * flags[] = { &hf_lbmr_tmr_flags_response, &hf_lbmr_tmr_flags_wildcard_pcre, &hf_lbmr_tmr_flags_wildcard_regex, NULL }; guint16 tmr_len; guint8 tmr_type; guint8 tmr_flags; const char * info_string = ""; tmr_len = tvb_get_ntohs(tvb, offset + O_LBMR_TMR_T_LEN); tmr_type = tvb_get_guint8(tvb, offset + O_LBMR_TMR_T_TYPE); tmr_flags = tvb_get_guint8(tvb, offset + O_LBMR_TMR_T_FLAGS); name_offset = offset + L_LBMR_TMR_T; name = tvb_get_stringz_enc(wmem_packet_scope(), tvb, name_offset, &namelen, ENC_ASCII); switch (tmr_type) { case LBMR_TMR_LEAVE_TOPIC: default: break; case LBMR_TMR_TOPIC_USE: if (tmr_flags & LBMR_TMR_FLAG_RESPONSE) { info_string = " Response"; } else { info_string = " Query"; } break; } ti = proto_tree_add_none_format(tree, hf_lbmr_tmr, tvb, offset, tmr_len, "%s: %s%s, Length %" G_GUINT16_FORMAT, name, val_to_str(tmr_type, lbmr_tmr_type, "Unknown (0x%02x)"), info_string, tmr_len); tinfo_tree = proto_item_add_subtree(ti, ett_lbmr_tmr); proto_tree_add_item(tinfo_tree, hf_lbmr_tmr_len, tvb, offset + O_LBMR_TMR_T_LEN, L_LBMR_TMR_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(tinfo_tree, hf_lbmr_tmr_type, tvb, offset + O_LBMR_TMR_T_TYPE, L_LBMR_TMR_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_bitmask(tinfo_tree, tvb, offset + O_LBMR_TMR_T_FLAGS, hf_lbmr_tmr_flags, ett_lbmr_tmr_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(tinfo_tree, hf_lbmr_tmr_name, tvb, name_offset, namelen, ENC_ASCII|ENC_NA); return ((int) tmr_len); } static int dissect_lbmr_tmb(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { int tmr_len = 0; proto_tree * tmb_tree = NULL; proto_item * ti = NULL; proto_tree * tmr_tree = NULL; proto_item * tmr_ti = NULL; int tmr_count = 0; guint16 tmrs; int len_dissected; tmrs = tvb_get_ntohs(tvb, offset + O_LBMR_TMB_T_TMRS); ti = proto_tree_add_item(tree, hf_lbmr_tmb, tvb, offset, -1, ENC_NA); tmb_tree = proto_item_add_subtree(ti, ett_lbmr_tmb); proto_tree_add_item(tmb_tree, hf_lbmr_tmb_len, tvb, offset + O_LBMR_TMB_T_LEN, L_LBMR_TMB_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(tmb_tree, hf_lbmr_tmb_tmrs, tvb, offset + O_LBMR_TMB_T_TMRS, L_LBMR_TMB_T_TMRS, ENC_BIG_ENDIAN); tmr_ti = proto_tree_add_item(tmb_tree, hf_lbmr_tmb_tmr_list, tvb, offset + L_LBMR_TMB_T, -1, ENC_NA); tmr_tree = proto_item_add_subtree(tmr_ti, ett_lbmr_tmrs); offset += L_LBMR_TMB_T; len_dissected = L_LBMR_TMB_T; while (tmr_count < tmrs) { tmr_len = dissect_lbmr_tmr(tvb, offset, pinfo, tmr_tree); len_dissected += tmr_len; offset += tmr_len; tmr_count++; } return (len_dissected); } /*----------------------------------------------------------------------------*/ /* LBMR Topic Query Record dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_tqr(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree, gboolean wildcard_tqr, lbmr_contents_t * contents) { gint namelen = 0; guint reclen = 0; char * name = NULL; guint8 pattern_type; proto_item * tqr_item = NULL; proto_tree * tqr_tree = NULL; gint name_offset = offset; if (wildcard_tqr) { pattern_type = tvb_get_guint8(tvb, offset); name_offset++; reclen++; } name = tvb_get_stringz_enc(wmem_packet_scope(), tvb, name_offset, &namelen, ENC_ASCII); reclen += namelen; if (wildcard_tqr) { tqr_item = proto_tree_add_none_format(tree, hf_lbmr_tqr, tvb, offset, reclen, "Wildcard TQR: %s", name); } else { tqr_item = proto_tree_add_none_format(tree, hf_lbmr_tqr, tvb, offset, reclen, "TQR: %s", name); } tqr_tree = proto_item_add_subtree(tqr_item, ett_lbmr_tqr); if (wildcard_tqr) { proto_tree_add_item(tqr_tree, hf_lbmr_tqr_pattern_type, tvb, offset, 1, ENC_BIG_ENDIAN); proto_tree_add_item(tqr_tree, hf_lbmr_tqr_pattern, tvb, offset, namelen, ENC_ASCII|ENC_NA); add_contents_wctqr(contents, pattern_type, name); } else { proto_tree_add_item(tqr_tree, hf_lbmr_tqr_name, tvb, offset, namelen, ENC_ASCII|ENC_NA); add_contents_tqr(contents, name); } return (reclen); } static int dissect_lbmr_tqrs(tvbuff_t * tvb, int offset, guint8 tqr_count, packet_info * pinfo, proto_tree * tree, gboolean wildcard_tqr, lbmr_contents_t * contents) { int start_offset = 0; int tqr_len = 0; proto_tree * tqrs_tree = NULL; proto_item * ti = NULL; int len = 0; start_offset = offset; if (wildcard_tqr) { ti = proto_tree_add_none_format(tree, hf_lbmr_tqrs, tvb, start_offset, -1, "Wildcard TQRs"); } else { ti = proto_tree_add_none_format(tree, hf_lbmr_tqrs, tvb, start_offset, -1, "TQRs"); } tqrs_tree = proto_item_add_subtree(ti, ett_lbmr_tqrs); while (tqr_count-- > 0) { tqr_len = dissect_lbmr_tqr(tvb, offset, pinfo, tqrs_tree, wildcard_tqr, contents); len += tqr_len; offset += tqr_len; } proto_item_set_len(ti, len); return (len); } /*----------------------------------------------------------------------------*/ /* LBMR Topic Information Record dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_tir_options(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { guint8 opt_type = 0; guint8 opt_len = 0; int opt_total_len = 0; int opt_remaining_len = 0; int curr_offset = offset; proto_item * oi = NULL; proto_tree * otree = NULL; proto_item * optlen_item = NULL; proto_tree * optlen_tree = NULL; static const int * opt_ume_flags[] = { &hf_lbmr_topt_ume_flags_ignore, &hf_lbmr_topt_ume_flags_latejoin, &hf_lbmr_topt_ume_flags_store, &hf_lbmr_topt_ume_flags_qccap, &hf_lbmr_topt_ume_flags_acktosrc, NULL }; static const int * opt_ume_store_flags[] = { &hf_lbmr_topt_ume_store_flags_ignore, NULL }; static const int * opt_ume_store_group_flags[] = { &hf_lbmr_topt_ume_store_group_flags_ignore, NULL }; static const int * opt_latejoin_flags[] = { &hf_lbmr_topt_latejoin_flags_ignore, &hf_lbmr_topt_latejoin_flags_acktosrc, NULL }; static const int * opt_umq_rcridx_flags[] = { &hf_lbmr_topt_umq_rcridx_flags_ignore, NULL }; static const int * opt_umq_qinfo_flags[] = { &hf_lbmr_topt_umq_qinfo_flags_ignore, &hf_lbmr_topt_umq_qinfo_flags_queue, &hf_lbmr_topt_umq_qinfo_flags_rcvlisten, &hf_lbmr_topt_umq_qinfo_flags_control, &hf_lbmr_topt_umq_qinfo_flags_srcrcvlisten, &hf_lbmr_topt_umq_qinfo_flags_participants_only, NULL }; static const int * opt_cost_flags[] = { &hf_lbmr_topt_cost_flags_ignore, NULL }; static const int * opt_otid_flags[] = { &hf_lbmr_topt_otid_flags_ignore, NULL }; static const int * opt_ctxinst_flags[] = { &hf_lbmr_topt_ctxinst_flags_ignore, NULL }; static const int * opt_ctxinsts_flags[] = { &hf_lbmr_topt_ctxinsts_flags_ignore, NULL }; static const int * opt_ulb_flags[] = { &hf_lbmr_topt_ulb_flags_ignore, NULL }; static const int * opt_ctxinstq_flags[] = { &hf_lbmr_topt_ctxinstq_flags_ignore, NULL }; static const int * opt_domain_id_flags[] = { &hf_lbmr_topt_domain_id_flags_ignore, NULL }; static const int * opt_exfunc_flags[] = { &hf_lbmr_topt_exfunc_flags_ignore, NULL }; static const int * opt_exfunc_functionality_flags[] = { &hf_lbmr_topt_exfunc_functionality_flags_ulb, &hf_lbmr_topt_exfunc_functionality_flags_umq, &hf_lbmr_topt_exfunc_functionality_flags_ume, &hf_lbmr_topt_exfunc_functionality_flags_lj, NULL }; int len = 0; opt_total_len = (int)tvb_get_ntohs(tvb, curr_offset + O_LBMR_TOPIC_OPT_LEN_T_TOTAL_LEN); opt_remaining_len = opt_total_len; oi = proto_tree_add_none_format(tree, hf_lbmr_topts, tvb, curr_offset, opt_total_len, "Options: %d bytes", opt_total_len); otree = proto_item_add_subtree(oi, ett_lbmr_topts); optlen_item = proto_tree_add_item(otree, hf_lbmr_topt_len, tvb, curr_offset, L_LBMR_TOPIC_OPT_LEN_T, ENC_NA); optlen_tree = proto_item_add_subtree(optlen_item, ett_lbmr_topt_len); proto_tree_add_item(optlen_tree, hf_lbmr_topt_len_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_LEN_T_TYPE, L_LBMR_TOPIC_OPT_LEN_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(optlen_tree, hf_lbmr_topt_len_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_LEN_T_LEN, L_LBMR_TOPIC_OPT_LEN_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(optlen_tree, hf_lbmr_topt_len_total_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_LEN_T_TOTAL_LEN, L_LBMR_TOPIC_OPT_LEN_T_TOTAL_LEN, ENC_BIG_ENDIAN); len = L_LBMR_TOPIC_OPT_LEN_T; curr_offset += L_LBMR_TOPIC_OPT_LEN_T; opt_remaining_len -= L_LBMR_TOPIC_OPT_LEN_T; while (opt_remaining_len > 0) { proto_item * opt_item = NULL; proto_tree * opt_tree = NULL; proto_item * ei_item = NULL; int qname_len; opt_type = tvb_get_guint8(tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE); opt_len = tvb_get_guint8(tvb, curr_offset + O_LBMR_TOPIC_OPT_T_LEN); if (opt_len == 0) { opt_item = proto_tree_add_item(otree, hf_lbmr_topt_unknown, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_unknown); proto_tree_add_item(opt_tree, hf_lbmr_topt_unknown_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, L_LBMR_TOPIC_OPT_T_TYPE, ENC_BIG_ENDIAN); ei_item = proto_tree_add_item(opt_tree, hf_lbmr_topt_unknown_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_LEN, L_LBMR_TOPIC_OPT_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_unknown_flags, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_FLAGS, L_LBMR_TOPIC_OPT_T_FLAGS, ENC_BIG_ENDIAN); if (((int) opt_len) > L_LBMR_TOPIC_OPT_T) { proto_tree_add_item(opt_tree, hf_lbmr_topt_unknown_data, tvb, curr_offset + L_LBMR_TOPIC_OPT_T, ((int) opt_len) - L_LBMR_TOPIC_OPT_T, ENC_NA); } expert_add_info_format(pinfo, ei_item, &ei_lbmr_analysis_zero_len_option, "Zero-length LBMR option"); return (len); } switch (opt_type) { case LBMR_TOPIC_OPT_UME_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_ume, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_ume); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_T_TYPE, L_LBMR_TOPIC_OPT_UME_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_T_LEN, L_LBMR_TOPIC_OPT_UME_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_T_FLAGS, hf_lbmr_topt_ume_flags, ett_lbmr_topt_ume_flags, opt_ume_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_tcp_port, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_T_STORE_TCP_PORT, L_LBMR_TOPIC_OPT_UME_T_STORE_TCP_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_src_tcp_port, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_T_SRC_TCP_PORT, L_LBMR_TOPIC_OPT_UME_T_SRC_TCP_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_tcp_addr, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_T_STORE_TCP_ADDR, L_LBMR_TOPIC_OPT_UME_T_STORE_TCP_ADDR, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_src_tcp_addr, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_T_SRC_TCP_ADDR, L_LBMR_TOPIC_OPT_UME_T_SRC_TCP_ADDR, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_src_reg_id, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_T_SRC_REG_ID, L_LBMR_TOPIC_OPT_UME_T_SRC_REG_ID, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_transport_idx, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_T_TRANSPORT_IDX, L_LBMR_TOPIC_OPT_UME_T_TRANSPORT_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_high_seqnum, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_T_HIGH_SEQNUM, L_LBMR_TOPIC_OPT_UME_T_HIGH_SEQNUM, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_low_seqnum, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_T_LOW_SEQNUM, L_LBMR_TOPIC_OPT_UME_T_LOW_SEQNUM, ENC_BIG_ENDIAN); break; case LBMR_TOPIC_OPT_UME_STORE_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_ume_store, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_ume_store); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_T_TYPE, L_LBMR_TOPIC_OPT_UME_STORE_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_T_LEN, L_LBMR_TOPIC_OPT_UME_STORE_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_T_FLAGS, hf_lbmr_topt_ume_store_flags, ett_lbmr_topt_ume_store_flags, opt_ume_store_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_grp_idx, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_T_GRP_IDX, L_LBMR_TOPIC_OPT_UME_STORE_T_GRP_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_store_tcp_port, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_T_STORE_TCP_PORT, L_LBMR_TOPIC_OPT_UME_STORE_T_STORE_TCP_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_store_idx, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_T_STORE_IDX, L_LBMR_TOPIC_OPT_UME_STORE_T_STORE_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_store_ip_addr, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_T_STORE_IP_ADDR, L_LBMR_TOPIC_OPT_UME_STORE_T_STORE_IP_ADDR, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_src_reg_id, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_T_SRC_REG_ID, L_LBMR_TOPIC_OPT_UME_STORE_T_SRC_REG_ID, ENC_BIG_ENDIAN); break; case LBMR_TOPIC_OPT_UME_STORE_GROUP_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_ume_store_group, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_ume_store_group); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_group_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_TYPE, L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_group_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_LEN, L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_FLAGS, hf_lbmr_topt_ume_store_group_flags, ett_lbmr_topt_ume_store_group_flags, opt_ume_store_group_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_group_grp_idx, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_GRP_IDX, L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_GRP_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_group_grp_sz, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_GRP_SZ, L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_GRP_SZ, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ume_store_group_reserved, tvb, curr_offset + O_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_RESERVED, L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_RESERVED, ENC_BIG_ENDIAN); break; case LBMR_TOPIC_OPT_LATEJOIN_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_latejoin, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_latejoin); proto_tree_add_item(opt_tree, hf_lbmr_topt_latejoin_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_LATEJOIN_T_TYPE, L_LBMR_TOPIC_OPT_LATEJOIN_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_latejoin_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_LATEJOIN_T_LEN, L_LBMR_TOPIC_OPT_LATEJOIN_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_LATEJOIN_T_FLAGS, hf_lbmr_topt_latejoin_flags, ett_lbmr_topt_latejoin_flags, opt_latejoin_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_latejoin_src_tcp_port, tvb, curr_offset + O_LBMR_TOPIC_OPT_LATEJOIN_T_SRC_TCP_PORT, L_LBMR_TOPIC_OPT_LATEJOIN_T_SRC_TCP_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_latejoin_reserved, tvb, curr_offset + O_LBMR_TOPIC_OPT_LATEJOIN_T_RESERVED, L_LBMR_TOPIC_OPT_LATEJOIN_T_RESERVED, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_latejoin_src_ip_addr, tvb, curr_offset + O_LBMR_TOPIC_OPT_LATEJOIN_T_SRC_IP_ADDR, L_LBMR_TOPIC_OPT_LATEJOIN_T_SRC_IP_ADDR, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_latejoin_transport_idx, tvb, curr_offset + O_LBMR_TOPIC_OPT_LATEJOIN_T_TRANSPORT_IDX, L_LBMR_TOPIC_OPT_LATEJOIN_T_TRANSPORT_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_latejoin_high_seqnum, tvb, curr_offset + O_LBMR_TOPIC_OPT_LATEJOIN_T_HIGH_SEQNUM, L_LBMR_TOPIC_OPT_LATEJOIN_T_HIGH_SEQNUM, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_latejoin_low_seqnum, tvb, curr_offset + O_LBMR_TOPIC_OPT_LATEJOIN_T_LOW_SEQNUM, L_LBMR_TOPIC_OPT_LATEJOIN_T_LOW_SEQNUM, ENC_BIG_ENDIAN); break; case LBMR_TOPIC_OPT_UMQ_RCRIDX_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_umq_rcridx, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_umq_rcridx); proto_tree_add_item(opt_tree, hf_lbmr_topt_umq_rcridx_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_TYPE, L_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_umq_rcridx_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_LEN, L_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_FLAGS, hf_lbmr_topt_umq_rcridx_flags, ett_lbmr_topt_umq_rcridx_flags, opt_umq_rcridx_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_umq_rcridx_rcr_idx, tvb, curr_offset + O_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_RCR_IDX, L_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_RCR_IDX, ENC_BIG_ENDIAN); break; case LBMR_TOPIC_OPT_UMQ_QINFO_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_umq_qinfo, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_umq_qinfo); proto_tree_add_item(opt_tree, hf_lbmr_topt_umq_qinfo_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, L_LBMR_TOPIC_OPT_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_umq_qinfo_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_LEN, L_LBMR_TOPIC_OPT_T_LEN, ENC_BIG_ENDIAN); qname_len = opt_len - L_LBMR_TOPIC_OPT_T; proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_FLAGS, hf_lbmr_topt_umq_qinfo_flags, ett_lbmr_topt_umq_qinfo_flags, opt_umq_qinfo_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_umq_qinfo_queue, tvb, curr_offset + L_LBMR_TOPIC_OPT_T, qname_len, ENC_ASCII|ENC_NA); break; case LBMR_TOPIC_OPT_COST_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_cost, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_cost); proto_tree_add_item(opt_tree, hf_lbmr_topt_cost_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_COST_T_TYPE, L_LBMR_TOPIC_OPT_COST_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_cost_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_COST_T_LEN, L_LBMR_TOPIC_OPT_COST_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_COST_T_FLAGS, hf_lbmr_topt_cost_flags, ett_lbmr_topt_cost_flags, opt_cost_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_cost_hop_count, tvb, curr_offset + O_LBMR_TOPIC_OPT_COST_T_HOP_COUNT, L_LBMR_TOPIC_OPT_COST_T_HOP_COUNT, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_cost_cost, tvb, curr_offset + O_LBMR_TOPIC_OPT_COST_T_COST, L_LBMR_TOPIC_OPT_COST_T_COST, ENC_BIG_ENDIAN); break; case LBMR_TOPIC_OPT_OTID_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_otid, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_otid); proto_tree_add_item(opt_tree, hf_lbmr_topt_otid_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_OTID_T_TYPE, L_LBMR_TOPIC_OPT_OTID_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_otid_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_OTID_T_LEN, L_LBMR_TOPIC_OPT_OTID_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_OTID_T_FLAGS, hf_lbmr_topt_otid_flags, ett_lbmr_topt_otid_flags, opt_otid_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_otid_originating_transport, tvb, curr_offset + O_LBMR_TOPIC_OPT_OTID_T_ORIGINATING_TRANSPORT, L_LBMR_TOPIC_OPT_OTID_T_ORIGINATING_TRANSPORT, ENC_NA); break; case LBMR_TOPIC_OPT_CTXINST_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_ctxinst, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_ctxinst); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinst_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINST_T_TYPE, L_LBMR_TOPIC_OPT_CTXINST_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinst_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINST_T_LEN, L_LBMR_TOPIC_OPT_CTXINST_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINST_T_FLAGS, hf_lbmr_topt_ctxinst_flags, ett_lbmr_topt_ctxinst_flags, opt_ctxinst_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinst_res, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINST_T_RES, L_LBMR_TOPIC_OPT_CTXINST_T_RES, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinst_ctxinst, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINST_T_CTXINST, L_LBMR_TOPIC_OPT_CTXINST_T_CTXINST, ENC_NA); break; case LBMR_TOPIC_OPT_CTXINSTS_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_ctxinsts, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_ctxinsts); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinsts_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINSTS_T_TYPE, L_LBMR_TOPIC_OPT_CTXINSTS_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinsts_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINSTS_T_LEN, L_LBMR_TOPIC_OPT_CTXINSTS_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINSTS_T_FLAGS, hf_lbmr_topt_ctxinsts_flags, ett_lbmr_topt_ctxinsts_flags, opt_ctxinsts_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinsts_idx, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINSTS_T_IDX, L_LBMR_TOPIC_OPT_CTXINSTS_T_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinsts_ctxinst, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINSTS_T_CTXINST, L_LBMR_TOPIC_OPT_CTXINSTS_T_CTXINST, ENC_NA); break; case LBMR_TOPIC_OPT_ULB_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_ulb, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_ulb); proto_tree_add_item(opt_tree, hf_lbmr_topt_ulb_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_ULB_T_TYPE, L_LBMR_TOPIC_OPT_ULB_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ulb_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_ULB_T_LEN, L_LBMR_TOPIC_OPT_ULB_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_ULB_T_FLAGS, hf_lbmr_topt_ulb_flags, ett_lbmr_topt_ulb_flags, opt_ulb_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ulb_queue_id, tvb, curr_offset + O_LBMR_TOPIC_OPT_ULB_T_QUEUE_ID, L_LBMR_TOPIC_OPT_ULB_T_QUEUE_ID, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ulb_regid, tvb, curr_offset + O_LBMR_TOPIC_OPT_ULB_T_REGID, L_LBMR_TOPIC_OPT_ULB_T_REGID, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ulb_ulb_src_id, tvb, curr_offset + O_LBMR_TOPIC_OPT_ULB_T_ULB_SRC_ID, L_LBMR_TOPIC_OPT_ULB_T_ULB_SRC_ID, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ulb_src_ip_addr, tvb, curr_offset + O_LBMR_TOPIC_OPT_ULB_T_SRC_IP_ADDR, L_LBMR_TOPIC_OPT_ULB_T_SRC_IP_ADDR, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ulb_src_tcp_port, tvb, curr_offset + O_LBMR_TOPIC_OPT_ULB_T_SRC_TCP_PORT, L_LBMR_TOPIC_OPT_ULB_T_SRC_TCP_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ulb_reserved, tvb, curr_offset + O_LBMR_TOPIC_OPT_ULB_T_RESERVED, L_LBMR_TOPIC_OPT_ULB_T_RESERVED, ENC_BIG_ENDIAN); break; case LBMR_TOPIC_OPT_CTXINSTQ_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_ctxinstq, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_ctxinstq); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinstq_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINSTQ_T_TYPE, L_LBMR_TOPIC_OPT_CTXINSTQ_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinstq_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINSTQ_T_LEN, L_LBMR_TOPIC_OPT_CTXINSTQ_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINSTQ_T_FLAGS, hf_lbmr_topt_ctxinstq_flags, ett_lbmr_topt_ctxinstq_flags, opt_ctxinstq_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinstq_idx, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINSTQ_T_IDX, L_LBMR_TOPIC_OPT_CTXINSTQ_T_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_ctxinstq_ctxinst, tvb, curr_offset + O_LBMR_TOPIC_OPT_CTXINSTQ_T_CTXINST, L_LBMR_TOPIC_OPT_CTXINSTQ_T_CTXINST, ENC_NA); break; case LBMR_TOPIC_OPT_DOMAIN_ID_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_domain_id, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_domain_id); proto_tree_add_item(opt_tree, hf_lbmr_topt_domain_id_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_DOMAIN_ID_T_TYPE, L_LBMR_TOPIC_OPT_DOMAIN_ID_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_domain_id_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_DOMAIN_ID_T_LEN, L_LBMR_TOPIC_OPT_DOMAIN_ID_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_DOMAIN_ID_T_FLAGS, hf_lbmr_topt_domain_id_flags, ett_lbmr_topt_domain_id_flags, opt_domain_id_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_domain_id_domain_id, tvb, curr_offset + O_LBMR_TOPIC_OPT_DOMAIN_ID_T_DOMAIN_ID, L_LBMR_TOPIC_OPT_DOMAIN_ID_T_DOMAIN_ID, ENC_BIG_ENDIAN); break; case LBMR_TOPIC_OPT_EXFUNC_TYPE: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_exfunc, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_exfunc); proto_tree_add_item(opt_tree, hf_lbmr_topt_exfunc_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_EXFUNC_T_TYPE, L_LBMR_TOPIC_OPT_EXFUNC_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_exfunc_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_EXFUNC_T_LEN, L_LBMR_TOPIC_OPT_EXFUNC_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_EXFUNC_T_FLAGS, hf_lbmr_topt_exfunc_flags, ett_lbmr_topt_exfunc_flags, opt_exfunc_flags, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_exfunc_src_tcp_port, tvb, curr_offset + O_LBMR_TOPIC_OPT_EXFUNC_T_SRC_TCP_PORT, L_LBMR_TOPIC_OPT_EXFUNC_T_SRC_TCP_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_exfunc_reserved, tvb, curr_offset + O_LBMR_TOPIC_OPT_EXFUNC_T_RESERVED, L_LBMR_TOPIC_OPT_EXFUNC_T_RESERVED, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_exfunc_src_ip_addr, tvb, curr_offset + O_LBMR_TOPIC_OPT_EXFUNC_T_SRC_IP_ADDR, L_LBMR_TOPIC_OPT_EXFUNC_T_SRC_IP_ADDR, ENC_BIG_ENDIAN); proto_tree_add_bitmask(opt_tree, tvb, curr_offset + O_LBMR_TOPIC_OPT_EXFUNC_T_FUNCTIONALITY_FLAGS, hf_lbmr_topt_exfunc_functionality_flags, ett_lbmr_topt_exfunc_functionality_flags, opt_exfunc_functionality_flags, ENC_BIG_ENDIAN); break; default: opt_item = proto_tree_add_item(otree, hf_lbmr_topt_unknown, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, opt_len, ENC_NA); opt_tree = proto_item_add_subtree(opt_item, ett_lbmr_topt_unknown); ei_item = proto_tree_add_item(opt_tree, hf_lbmr_topt_unknown_type, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_TYPE, L_LBMR_TOPIC_OPT_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_unknown_len, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_LEN, L_LBMR_TOPIC_OPT_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(opt_tree, hf_lbmr_topt_unknown_flags, tvb, curr_offset + O_LBMR_TOPIC_OPT_T_FLAGS, L_LBMR_TOPIC_OPT_T_FLAGS, ENC_BIG_ENDIAN); if (((int) opt_len) > L_LBMR_TOPIC_OPT_T) { proto_tree_add_item(opt_tree, hf_lbmr_topt_unknown_data, tvb, curr_offset + L_LBMR_TOPIC_OPT_T, ((int) opt_len) - L_LBMR_TOPIC_OPT_T, ENC_NA); } expert_add_info_format(pinfo, ei_item, &ei_lbmr_analysis_invalid_value, "Unknown option 0x%02x", opt_type); break; } len += opt_len; curr_offset += opt_len; opt_remaining_len -= opt_len; } return (opt_total_len); } static int dissect_lbmr_tir_transport(tvbuff_t * tvb, int offset, lbm_uint8_t transport, lbm_uint8_t transport_len, const char * topic_name, guint32 topic_index, packet_info * pinfo, proto_tree * tree, lbmr_contents_t * contents, proto_item * transport_len_item) { int len = 0; guint64 channel; proto_item * channel_item = NULL; proto_item * ei_item = NULL; switch (transport) { case LBMR_TRANSPORT_TCP: { guint16 port = 0; guint32 session_id = 0; proto_item * tcp_item = NULL; proto_tree * tcp_tree = NULL; lbttcp_transport_t * lbttcp_transport = NULL; tcp_item = proto_tree_add_item(tree, hf_lbmr_tir_tcp, tvb, offset, (gint) transport_len, ENC_NA); tcp_tree = proto_item_add_subtree(tcp_item, ett_lbmr_tir_tcp); if ((transport_len != L_LBMR_TIR_TCP_T) && (transport_len != L_LBMR_TIR_TCP_WITH_SID_T)) { expert_add_info_format(pinfo, transport_len_item, &ei_lbmr_analysis_length_incorrect, "Wrong transport length for LBMR TIR TCP info"); return (0); } if (transport_len == L_LBMR_TIR_TCP_WITH_SID_T) { session_id = tvb_get_ntohl(tvb, offset + O_LBMR_TIR_TCP_WITH_SID_T_SESSION_ID); port = tvb_get_ntohs(tvb, offset + O_LBMR_TIR_TCP_WITH_SID_T_PORT); proto_tree_add_item(tcp_tree, hf_lbmr_tir_tcp_ip, tvb, offset + O_LBMR_TIR_TCP_WITH_SID_T_IP, L_LBMR_TIR_TCP_WITH_SID_T_IP, ENC_BIG_ENDIAN); proto_tree_add_item(tcp_tree, hf_lbmr_tir_tcp_session_id, tvb, offset + O_LBMR_TIR_TCP_WITH_SID_T_SESSION_ID, L_LBMR_TIR_TCP_WITH_SID_T_SESSION_ID, ENC_BIG_ENDIAN); proto_tree_add_item(tcp_tree, hf_lbmr_tir_tcp_port, tvb, offset + O_LBMR_TIR_TCP_WITH_SID_T_PORT, L_LBMR_TIR_TCP_WITH_SID_T_PORT, ENC_BIG_ENDIAN); len += L_LBMR_TIR_TCP_WITH_SID_T; } else { port = tvb_get_ntohs(tvb, offset + O_LBMR_TIR_TCP_T_PORT); proto_tree_add_item(tcp_tree, hf_lbmr_tir_tcp_ip, tvb, offset + O_LBMR_TIR_TCP_T_IP, L_LBMR_TIR_TCP_T_IP, ENC_BIG_ENDIAN); proto_tree_add_item(tcp_tree, hf_lbmr_tir_tcp_port, tvb, offset + O_LBMR_TIR_TCP_T_PORT, L_LBMR_TIR_TCP_T_PORT, ENC_BIG_ENDIAN); session_id = 0; len += L_LBMR_TIR_TCP_T; } lbttcp_transport = lbttcp_transport_add(&(pinfo->src), port, session_id, pinfo->fd->num); channel = lbttcp_transport->channel; add_contents_tir(contents, topic_name, lbttcp_transport_source_string(&(pinfo->src), port, session_id), topic_index); } break; case LBMR_TRANSPORT_LBTRM: { guint16 src_ucast_port = 0; guint16 udp_dest_port = 0; guint32 session_id = 0; proto_item * lbtrm_item = NULL; proto_tree * lbtrm_tree = NULL; lbtrm_transport_t * lbtrm_transport = NULL; address multicast_group; lbtrm_item = proto_tree_add_item(tree, hf_lbmr_tir_lbtrm, tvb, offset, (gint)transport_len, ENC_NA); lbtrm_tree = proto_item_add_subtree(lbtrm_item, ett_lbmr_tir_lbtrm); TVB_SET_ADDRESS(&multicast_group, AT_IPv4, tvb, offset + O_LBMR_TIR_LBTRM_T_MCAST_ADDR, L_LBMR_TIR_LBTRM_T_MCAST_ADDR); session_id = tvb_get_ntohl(tvb, offset + O_LBMR_TIR_LBTRM_T_SESSION_ID); udp_dest_port = tvb_get_ntohs(tvb, offset + O_LBMR_TIR_LBTRM_T_UDP_DEST_PORT); src_ucast_port = tvb_get_ntohs(tvb, offset + O_LBMR_TIR_LBTRM_T_SRC_UCAST_PORT); proto_tree_add_item(lbtrm_tree, hf_lbmr_tir_lbtrm_src_addr, tvb, offset + O_LBMR_TIR_LBTRM_T_SRC_ADDR, L_LBMR_TIR_LBTRM_T_SRC_ADDR, ENC_BIG_ENDIAN); proto_tree_add_item(lbtrm_tree, hf_lbmr_tir_lbtrm_mcast_addr, tvb, offset + O_LBMR_TIR_LBTRM_T_MCAST_ADDR, L_LBMR_TIR_LBTRM_T_MCAST_ADDR, ENC_BIG_ENDIAN); proto_tree_add_item(lbtrm_tree, hf_lbmr_tir_lbtrm_session_id, tvb, offset + O_LBMR_TIR_LBTRM_T_SESSION_ID, L_LBMR_TIR_LBTRM_T_SESSION_ID, ENC_BIG_ENDIAN); proto_tree_add_item(lbtrm_tree, hf_lbmr_tir_lbtrm_udp_dest_port, tvb, offset + O_LBMR_TIR_LBTRM_T_UDP_DEST_PORT, L_LBMR_TIR_LBTRM_T_UDP_DEST_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(lbtrm_tree, hf_lbmr_tir_lbtrm_src_ucast_port, tvb, offset + O_LBMR_TIR_LBTRM_T_SRC_UCAST_PORT, L_LBMR_TIR_LBTRM_T_SRC_UCAST_PORT, ENC_BIG_ENDIAN); lbtrm_transport = lbtrm_transport_add(&(pinfo->src), src_ucast_port, session_id, &multicast_group, udp_dest_port, pinfo->fd->num); channel = lbtrm_transport->channel; add_contents_tir(contents, topic_name, lbtrm_transport_source_string(&(pinfo->src), src_ucast_port, session_id, &multicast_group, udp_dest_port), topic_index); len += L_LBMR_TIR_LBTRM_T; if (transport_len != L_LBMR_TIR_LBTRM_T) { expert_add_info_format(pinfo, transport_len_item, &ei_lbmr_analysis_length_incorrect, "Wrong transport length for LBMR TIR LBTRM info"); } } break; case LBMR_TRANSPORT_LBTRU: { guint32 session_id; guint16 port; proto_item * lbtru_item = NULL; proto_tree * lbtru_tree = NULL; lbtru_transport_t * lbtru_transport = NULL; lbtru_item = proto_tree_add_item(tree, hf_lbmr_tir_lbtru, tvb, offset, (gint)transport_len, ENC_NA); lbtru_tree = proto_item_add_subtree(lbtru_item, ett_lbmr_tir_lbtru); if ((transport_len != L_LBMR_TIR_LBTRU_T) && (transport_len != L_LBMR_TIR_LBTRU_WITH_SID_T)) { expert_add_info_format(pinfo, transport_len_item, &ei_lbmr_analysis_length_incorrect, "Wrong transport length for LBMR TIR LBTRU info"); return (0); } if (transport_len == L_LBMR_TIR_LBTRU_WITH_SID_T) { session_id = tvb_get_ntohl(tvb, offset + O_LBMR_TIR_LBTRU_WITH_SID_T_SESSION_ID); port = tvb_get_ntohs(tvb, offset + O_LBMR_TIR_LBTRU_WITH_SID_T_PORT); proto_tree_add_item(lbtru_tree, hf_lbmr_tir_lbtru_ip, tvb, offset + O_LBMR_TIR_LBTRU_WITH_SID_T_IP, L_LBMR_TIR_LBTRU_WITH_SID_T_IP, ENC_BIG_ENDIAN); proto_tree_add_item(lbtru_tree, hf_lbmr_tir_lbtru_session_id, tvb, offset + O_LBMR_TIR_LBTRU_WITH_SID_T_SESSION_ID, L_LBMR_TIR_LBTRU_WITH_SID_T_SESSION_ID, ENC_BIG_ENDIAN); proto_tree_add_item(lbtru_tree, hf_lbmr_tir_lbtru_port, tvb, offset + O_LBMR_TIR_LBTRU_WITH_SID_T_PORT, L_LBMR_TIR_LBTRU_WITH_SID_T_PORT, ENC_BIG_ENDIAN); len += L_LBMR_TIR_LBTRU_WITH_SID_T; } else { session_id = 0; port = tvb_get_ntohs(tvb, offset + O_LBMR_TIR_LBTRU_T_PORT); proto_tree_add_item(lbtru_tree, hf_lbmr_tir_lbtru_ip, tvb, offset + O_LBMR_TIR_LBTRU_T_IP, L_LBMR_TIR_LBTRU_T_IP, ENC_BIG_ENDIAN); proto_tree_add_item(lbtru_tree, hf_lbmr_tir_lbtru_port, tvb, offset + O_LBMR_TIR_LBTRU_T_PORT, L_LBMR_TIR_LBTRU_T_PORT, ENC_BIG_ENDIAN); len += L_LBMR_TIR_LBTRU_T; } lbtru_transport = lbtru_transport_add(&(pinfo->src), port, session_id, pinfo->fd->num); channel = lbtru_transport->channel; add_contents_tir(contents, topic_name, lbtru_transport_source_string(&(pinfo->src), port, session_id), topic_index); } break; case LBMR_TRANSPORT_LBTIPC: { guint32 host_id; guint32 session_id; guint16 xport_id; proto_item * lbtipc_item = NULL; proto_tree * lbtipc_tree = NULL; lbtipc_transport_t * lbtipc_transport = NULL; lbtipc_item = proto_tree_add_item(tree, hf_lbmr_tir_lbtipc, tvb, offset, (gint)transport_len, ENC_NA); lbtipc_tree = proto_item_add_subtree(lbtipc_item, ett_lbmr_tir_lbtipc); if (transport_len != L_LBMR_TIR_LBTIPC_T) { expert_add_info_format(pinfo, transport_len_item, &ei_lbmr_analysis_length_incorrect, "Wrong transport length for LBMR TIR LBTIPC info"); return (0); } host_id = tvb_get_ntohl(tvb, offset + O_LBMR_TIR_LBTIPC_T_HOST_ID); session_id = tvb_get_ntohl(tvb, offset + O_LBMR_TIR_LBTIPC_T_SESSION_ID); xport_id = tvb_get_ntohs(tvb, offset + O_LBMR_TIR_LBTIPC_T_XPORT_ID); proto_tree_add_item(lbtipc_tree, hf_lbmr_tir_lbtipc_host_id, tvb, offset + O_LBMR_TIR_LBTIPC_T_HOST_ID, L_LBMR_TIR_LBTIPC_T_HOST_ID, ENC_BIG_ENDIAN); proto_tree_add_item(lbtipc_tree, hf_lbmr_tir_lbtipc_session_id, tvb, offset + O_LBMR_TIR_LBTIPC_T_SESSION_ID, L_LBMR_TIR_LBTIPC_T_SESSION_ID, ENC_BIG_ENDIAN); proto_tree_add_item(lbtipc_tree, hf_lbmr_tir_lbtipc_xport_id, tvb, offset + O_LBMR_TIR_LBTIPC_T_XPORT_ID, L_LBMR_TIR_LBTIPC_T_XPORT_ID, ENC_BIG_ENDIAN); lbtipc_transport = lbtipc_transport_add(host_id, session_id, xport_id); channel = lbtipc_transport->channel; add_contents_tir(contents, topic_name, lbtipc_transport_source_string(host_id, session_id, xport_id), topic_index); len += L_LBMR_TIR_LBTIPC_T; } break; case LBMR_TRANSPORT_LBTRDMA: { guint32 session_id; guint16 port; proto_item * lbtrdma_item = NULL; proto_tree * lbtrdma_tree = NULL; lbtrdma_transport_t * lbtrdma_transport = NULL; address source_addr; lbtrdma_item = proto_tree_add_item(tree, hf_lbmr_tir_lbtrdma, tvb, offset, (gint)transport_len, ENC_NA); lbtrdma_tree = proto_item_add_subtree(lbtrdma_item, ett_lbmr_tir_lbtrdma); if (transport_len != L_LBMR_TIR_LBTRDMA_T) { expert_add_info_format(pinfo, transport_len_item, &ei_lbmr_analysis_length_incorrect, "Wrong transport length for LBMR TIR LBTRDMA info"); return (0); } TVB_SET_ADDRESS(&source_addr, AT_IPv4, tvb, offset + O_LBMR_TIR_LBTRDMA_T_IP, L_LBMR_TIR_LBTRDMA_T_IP); session_id = tvb_get_ntohl(tvb, offset + O_LBMR_TIR_LBTRDMA_T_SESSION_ID); port = tvb_get_ntohs(tvb, offset + O_LBMR_TIR_LBTRDMA_T_PORT); proto_tree_add_item(lbtrdma_tree, hf_lbmr_tir_lbtrdma_ip, tvb, offset + O_LBMR_TIR_LBTRDMA_T_IP, L_LBMR_TIR_LBTRDMA_T_IP, ENC_BIG_ENDIAN); proto_tree_add_item(lbtrdma_tree, hf_lbmr_tir_lbtrdma_session_id, tvb, offset + O_LBMR_TIR_LBTRDMA_T_SESSION_ID, L_LBMR_TIR_LBTRDMA_T_SESSION_ID, ENC_BIG_ENDIAN); proto_tree_add_item(lbtrdma_tree, hf_lbmr_tir_lbtrdma_port, tvb, offset + O_LBMR_TIR_LBTRDMA_T_PORT, L_LBMR_TIR_LBTRDMA_T_PORT, ENC_BIG_ENDIAN); lbtrdma_transport = lbtrdma_transport_add(&source_addr, port, session_id); channel = lbtrdma_transport->channel; add_contents_tir(contents, topic_name, lbtrdma_transport_source_string(&source_addr, port, session_id), topic_index); len += L_LBMR_TIR_LBTRDMA_T; } break; case LBMR_TRANSPORT_LBTSMX: { guint32 host_id; guint32 session_id; guint16 xport_id; proto_item * lbtsmx_item = NULL; proto_tree * lbtsmx_tree = NULL; lbtsmx_transport_t * lbtsmx_transport = NULL; lbtsmx_item = proto_tree_add_item(tree, hf_lbmr_tir_lbtsmx, tvb, offset, (gint)transport_len, ENC_NA); lbtsmx_tree = proto_item_add_subtree(lbtsmx_item, ett_lbmr_tir_lbtsmx); if (transport_len != L_LBMR_TIR_LBTSMX_T) { expert_add_info_format(pinfo, transport_len_item, &ei_lbmr_analysis_length_incorrect, "Wrong transport length for LBMR TIR LBTSMX info"); } host_id = tvb_get_ntohl(tvb, offset + O_LBMR_TIR_LBTSMX_T_HOST_ID); session_id = tvb_get_ntohl(tvb, offset + O_LBMR_TIR_LBTSMX_T_SESSION_ID); xport_id = tvb_get_ntohs(tvb, offset + O_LBMR_TIR_LBTSMX_T_XPORT_ID); proto_tree_add_item(lbtsmx_tree, hf_lbmr_tir_lbtsmx_host_id, tvb, offset + O_LBMR_TIR_LBTSMX_T_HOST_ID, L_LBMR_TIR_LBTSMX_T_HOST_ID, ENC_BIG_ENDIAN); proto_tree_add_item(lbtsmx_tree, hf_lbmr_tir_lbtsmx_session_id, tvb, offset + O_LBMR_TIR_LBTSMX_T_SESSION_ID, L_LBMR_TIR_LBTSMX_T_SESSION_ID, ENC_BIG_ENDIAN); proto_tree_add_item(lbtsmx_tree, hf_lbmr_tir_lbtsmx_xport_id, tvb, offset + O_LBMR_TIR_LBTSMX_T_XPORT_ID, L_LBMR_TIR_LBTSMX_T_XPORT_ID, ENC_BIG_ENDIAN); lbtsmx_transport = lbtsmx_transport_add(host_id, session_id, xport_id); channel = lbtsmx_transport->channel; add_contents_tir(contents, topic_name, lbtsmx_transport_source_string(host_id, session_id, xport_id), topic_index); len += L_LBMR_TIR_LBTSMX_T; } break; default: ei_item = proto_tree_add_item(tree, hf_lbmr_tir_unknown_transport, tvb, offset, transport_len, ENC_NA); expert_add_info_format(pinfo, ei_item, &ei_lbmr_analysis_invalid_value, "Unknown LBMR TIR transport 0x%02x", transport); len = transport_len; channel = LBM_CHANNEL_NO_CHANNEL; break; } if (channel != LBM_CHANNEL_NO_CHANNEL) { lbm_topic_add(channel, topic_index, topic_name); channel_item = proto_tree_add_uint64(tree, hf_lbmr_tir_channel, tvb, 0, 0, channel); PROTO_ITEM_SET_GENERATED(channel_item); } return (len); } static int dissect_lbmr_tir_entry(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree, lbmr_contents_t * contents) { gint namelen = 0; gint reclen = 0; int dissect_len = 0; int tinfo_offset = 0; char * name = NULL; proto_item * ti = NULL; proto_tree * tinfo_tree = NULL; guint8 transport; guint8 tlen; guint16 ttl; guint32 idx; int curr_offset; proto_item * transport_len_item = NULL; name = tvb_get_stringz_enc(wmem_packet_scope(), tvb, offset, &namelen, ENC_ASCII); reclen += namelen; curr_offset = offset + namelen; tinfo_offset = curr_offset; transport = tvb_get_guint8(tvb, curr_offset + O_LBMR_TIR_T_TRANSPORT); tlen = tvb_get_guint8(tvb, curr_offset + O_LBMR_TIR_T_TLEN); ttl = tvb_get_ntohs(tvb, curr_offset + O_LBMR_TIR_T_TTL); idx = tvb_get_ntohl(tvb, curr_offset + O_LBMR_TIR_T_INDEX); reclen += L_LBMR_TIR_T; curr_offset += L_LBMR_TIR_T; ti = proto_tree_add_none_format(tree, hf_lbmr_tir, tvb, offset, reclen, "%s: %s, Length %u, Index %" G_GUINT32_FORMAT ", TTL %" G_GUINT16_FORMAT, name, val_to_str((transport & LBMR_TIR_TRANSPORT), lbmr_transport_type, "Unknown (0x%02x)"), tlen, idx, ttl); tinfo_tree = proto_item_add_subtree(ti, ett_lbmr_tir); proto_tree_add_item(tinfo_tree, hf_lbmr_tir_name, tvb, offset, namelen, ENC_ASCII|ENC_NA); proto_tree_add_item(tinfo_tree, hf_lbmr_tir_transport_opts, tvb, tinfo_offset + O_LBMR_TIR_T_TRANSPORT, L_LBMR_TIR_T_TRANSPORT, ENC_BIG_ENDIAN); proto_tree_add_item(tinfo_tree, hf_lbmr_tir_transport_type, tvb, tinfo_offset + O_LBMR_TIR_T_TRANSPORT, L_LBMR_TIR_T_TRANSPORT, ENC_BIG_ENDIAN); transport_len_item = proto_tree_add_item(tinfo_tree, hf_lbmr_tir_tlen, tvb, tinfo_offset + O_LBMR_TIR_T_TLEN, L_LBMR_TIR_T_TLEN, ENC_BIG_ENDIAN); proto_tree_add_item(tinfo_tree, hf_lbmr_tir_ttl, tvb, tinfo_offset + O_LBMR_TIR_T_TTL, L_LBMR_TIR_T_TTL, ENC_BIG_ENDIAN); proto_tree_add_item(tinfo_tree, hf_lbmr_tir_index, tvb, tinfo_offset + O_LBMR_TIR_T_INDEX, L_LBMR_TIR_T_INDEX, ENC_BIG_ENDIAN); if ((transport & LBMR_TIR_OPTIONS) != 0) { dissect_len = dissect_lbmr_tir_options(tvb, curr_offset, pinfo, tinfo_tree); reclen += dissect_len; curr_offset += dissect_len; } reclen += dissect_lbmr_tir_transport(tvb, curr_offset, (lbm_uint8_t)(transport & LBMR_TIR_TRANSPORT), tlen, name, idx, pinfo, tinfo_tree, contents, transport_len_item); proto_item_set_len(ti, reclen); return (reclen); } static int dissect_lbmr_tirs(tvbuff_t * tvb, int offset, guint16 tir_count, packet_info * pinfo, proto_tree * tree, const char * name, lbmr_contents_t * contents) { int start_offset; int tir_len; proto_tree * tirs_tree = NULL; proto_item * ti = NULL; int len = 0; start_offset = offset; ti = proto_tree_add_none_format(tree, hf_lbmr_tirs, tvb, start_offset, -1, "%s", name); tirs_tree = proto_item_add_subtree(ti, ett_lbmr_tirs); while (tir_count-- > 0) { tir_len = dissect_lbmr_tir_entry(tvb, offset, pinfo, tirs_tree, contents); offset += tir_len; len += tir_len; } proto_item_set_len(ti, len); return (len); } /*----------------------------------------------------------------------------*/ /* LBMR Queue Query Record dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_qqr(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree, lbmr_contents_t * contents) { gint namelen = 0; guint reclen = 0; char * name = NULL; name = tvb_get_stringz_enc(wmem_packet_scope(), tvb, offset, &namelen, ENC_ASCII); reclen += namelen; add_contents_qqr(contents, name); proto_tree_add_item(tree, hf_lbmr_qqr_name, tvb, offset, namelen, ENC_ASCII|ENC_NA); return (reclen); } static int dissect_lbmr_qqrs(tvbuff_t * tvb, int offset, guint8 qqr_count, packet_info * pinfo, proto_tree * tree, lbmr_contents_t * contents) { int start_offset; int qqr_len; proto_tree * qqrs_tree = NULL; proto_item * qqrs_ti = NULL; int total_len = 0; start_offset = offset; qqrs_ti = proto_tree_add_item(tree, hf_lbmr_qqr, tvb, start_offset, -1, ENC_NA); qqrs_tree = proto_item_add_subtree(qqrs_ti, ett_lbmr_qqrs); while (qqr_count-- > 0) { qqr_len = dissect_lbmr_qqr(tvb, offset, pinfo, qqrs_tree, contents); total_len += qqr_len; offset += qqr_len; } proto_item_set_len(qqrs_ti, total_len); return (total_len); } /*----------------------------------------------------------------------------*/ /* LBMR Queue Information Record dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_qir_queue_blk(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree, const char * queue_name, const char * topic_name, lbmr_contents_t * contents) { guint16 port = 0; proto_item * ti = NULL; proto_tree * blk_tree = NULL; port = tvb_get_ntohs(tvb, offset + O_LBMR_QIR_QUEUE_BLK_T_PORT); ti = proto_tree_add_item(tree, hf_lbmr_qir_queue_blk, tvb, offset, L_LBMR_QIR_QUEUE_BLK_T, ENC_NA); blk_tree = proto_item_add_subtree(ti, ett_lbmr_qir_queue_blk); proto_tree_add_item(blk_tree, hf_lbmr_qir_queue_blk_ip, tvb, offset + O_LBMR_QIR_QUEUE_BLK_T_IP, L_LBMR_QIR_QUEUE_BLK_T_IP, ENC_BIG_ENDIAN); proto_tree_add_item(blk_tree, hf_lbmr_qir_queue_blk_port, tvb, offset + O_LBMR_QIR_QUEUE_BLK_T_PORT, L_LBMR_QIR_QUEUE_BLK_T_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(blk_tree, hf_lbmr_qir_queue_blk_idx, tvb, offset + O_LBMR_QIR_QUEUE_BLK_T_IDX, L_LBMR_QIR_QUEUE_BLK_T_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(blk_tree, hf_lbmr_qir_queue_blk_grp_idx, tvb, offset + O_LBMR_QIR_QUEUE_BLK_T_GRP_IDX, L_LBMR_QIR_QUEUE_BLK_T_GRP_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(blk_tree, hf_lbmr_qir_queue_blk_reserved, tvb, offset + O_LBMR_QIR_QUEUE_BLK_T_RESERVED, L_LBMR_QIR_QUEUE_BLK_T_RESERVED, ENC_BIG_ENDIAN); add_contents_qir(contents, queue_name, topic_name, port); return ((int)L_LBMR_QIR_QUEUE_BLK_T); } static int dissect_lbmr_qir_grp_blk(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree, lbmr_contents_t * contents _U_) { proto_item * ti = NULL; proto_tree * blk_tree = NULL; guint16 idx = 0; guint16 sz = 0; idx = tvb_get_ntohs(tvb, offset + O_LBMR_QIR_GRP_BLK_T_GRP_IDX); sz = tvb_get_ntohs(tvb, offset + O_LBMR_QIR_GRP_BLK_T_GRP_SZ); ti = proto_tree_add_none_format(tree, hf_lbmr_qir_grp_blk, tvb, offset, L_LBMR_QIR_GRP_BLK_T, "Group block, Index %" G_GUINT16_FORMAT ", Size %" G_GUINT16_FORMAT, idx, sz); blk_tree = proto_item_add_subtree(ti, ett_lbmr_qir_grp_blk); proto_tree_add_item(blk_tree, hf_lbmr_qir_grp_blk_grp_idx, tvb, offset + O_LBMR_QIR_GRP_BLK_T_GRP_IDX, L_LBMR_QIR_GRP_BLK_T_GRP_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(blk_tree, hf_lbmr_qir_grp_blk_grp_sz, tvb, offset + O_LBMR_QIR_GRP_BLK_T_GRP_SZ, L_LBMR_QIR_GRP_BLK_T_GRP_SZ, ENC_BIG_ENDIAN); return ((int)L_LBMR_QIR_GRP_BLK_T); } static int dissect_lbmr_qir_entry(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree, lbmr_contents_t * contents) { gint qnamelen = 0; gint qnameoffset = 0; char * qname = NULL; gint tnamelen = 0; gint tnameoffset = 0; char * tname = NULL; gint reclen = 0; int curr_offset = 0; proto_item * qirti = NULL; proto_tree * qirtree = NULL; proto_item * grpti = NULL; proto_tree * grptree = NULL; int grplen = 0; proto_item * queueti = NULL; proto_item * queuetree = NULL; int queuelen = 0; guint32 queue_id = 0; guint16 grp_blks = 0; guint16 queue_blks = 0; guint16 have_options = 0; int optlen = 0; /* queue name (null-terminated) topic name (null-terminated) lbmr_qir_t if qir.grp_blks & LBMR_QIR_OPTIONS parse options (normal topic options - though there shouldn't be any) can use dissect_lbmr_tir_options endif group blocks (lbmr_qir_grp_blk_t) queue blocks (lbmr_qir_queue_blk_t) */ curr_offset = offset; qnameoffset = curr_offset; qname = tvb_get_stringz_enc(wmem_packet_scope(), tvb, qnameoffset, &qnamelen, ENC_ASCII); curr_offset += qnamelen; reclen += qnamelen; tnameoffset = curr_offset; tname = tvb_get_stringz_enc(wmem_packet_scope(), tvb, tnameoffset, &tnamelen, ENC_ASCII); curr_offset += tnamelen; reclen += tnamelen; queue_id = tvb_get_ntohl(tvb, curr_offset + O_LBMR_QIR_T_QUEUE_ID); have_options = tvb_get_ntohs(tvb, curr_offset + O_LBMR_QIR_T_GRP_BLKS); grp_blks = have_options & LBMR_QIR_GRP_BLOCKS_MASK; have_options &= LBMR_QIR_OPTIONS; queue_blks = tvb_get_ntohs(tvb, curr_offset + O_LBMR_QIR_T_QUEUE_BLKS); qirti = proto_tree_add_none_format(tree, hf_lbmr_qir, tvb, offset, reclen, "%s: %s, ID %" G_GUINT32_FORMAT, qname, tname, queue_id); qirtree = proto_item_add_subtree(qirti, ett_lbmr_qir); proto_tree_add_item(qirtree, hf_lbmr_qir_queue_name, tvb, qnameoffset, qnamelen, ENC_ASCII|ENC_NA); proto_tree_add_item(qirtree, hf_lbmr_qir_topic_name, tvb, tnameoffset, tnamelen, ENC_ASCII|ENC_NA); proto_tree_add_item(qirtree, hf_lbmr_qir_queue_id, tvb, curr_offset + O_LBMR_QIR_T_QUEUE_ID, L_LBMR_QIR_T_QUEUE_ID, ENC_BIG_ENDIAN); proto_tree_add_item(qirtree, hf_lbmr_qir_queue_ver, tvb, curr_offset + O_LBMR_QIR_T_QUEUE_VER, L_LBMR_QIR_T_QUEUE_VER, ENC_BIG_ENDIAN); proto_tree_add_item(qirtree, hf_lbmr_qir_queue_prev_ver, tvb, curr_offset + O_LBMR_QIR_T_QUEUE_PREV_VER, L_LBMR_QIR_T_QUEUE_PREV_VER, ENC_BIG_ENDIAN); proto_tree_add_item(qirtree, hf_lbmr_qir_option_flag, tvb, curr_offset + O_LBMR_QIR_T_GRP_BLKS, L_LBMR_QIR_T_GRP_BLKS, ENC_BIG_ENDIAN); proto_tree_add_item(qirtree, hf_lbmr_qir_grp_blks, tvb, curr_offset + O_LBMR_QIR_T_GRP_BLKS, L_LBMR_QIR_T_GRP_BLKS, ENC_BIG_ENDIAN); proto_tree_add_item(qirtree, hf_lbmr_qir_queue_blks, tvb, curr_offset + O_LBMR_QIR_T_QUEUE_BLKS, L_LBMR_QIR_T_QUEUE_BLKS, ENC_BIG_ENDIAN); curr_offset += L_LBMR_QIR_T; reclen += L_LBMR_QIR_T; if (have_options) { optlen = dissect_lbmr_tir_options(tvb, curr_offset, pinfo, tree); curr_offset += optlen; reclen += optlen; } if (grp_blks > 0) { grpti = proto_tree_add_item(qirtree, hf_lbmr_qir_grps, tvb, curr_offset, 1, ENC_NA); grptree = proto_item_add_subtree(grpti, ett_lbmr_qir_grp); grplen = 0; while (grp_blks-- > 0) { optlen = dissect_lbmr_qir_grp_blk(tvb, curr_offset, pinfo, grptree, contents); curr_offset += optlen; reclen += optlen; grplen += optlen; } proto_item_set_len(grpti, grplen); } if (queue_blks > 0) { queueti = proto_tree_add_item(qirtree, hf_lbmr_qir_queues, tvb, curr_offset, 1, ENC_NA); queuetree = proto_item_add_subtree(queueti, ett_lbmr_qir_queue); queuelen = 0; while (queue_blks-- > 0) { optlen = dissect_lbmr_qir_queue_blk(tvb, curr_offset, pinfo, queuetree, qname, tname, contents); curr_offset += optlen; reclen += optlen; queuelen += optlen; } proto_item_set_len(queueti, queuelen); } proto_item_set_len(qirti, reclen); return (reclen); } static int dissect_lbmr_qirs(tvbuff_t * tvb, int offset, guint16 qirs, packet_info * pinfo, proto_tree * tree, lbmr_contents_t * contents) { int start_offset; int qir_len; proto_tree * qirs_tree = NULL; proto_item * qirs_ti = NULL; int len = 0; start_offset = offset; qirs_ti = proto_tree_add_item(tree, hf_lbmr_qirs, tvb, start_offset, -1, ENC_NA); qirs_tree = proto_item_add_subtree(qirs_ti, ett_lbmr_qirs); while (qirs-- > 0) { qir_len = dissect_lbmr_qir_entry(tvb, offset, pinfo, qirs_tree, contents); len += qir_len; offset += qir_len; } proto_item_set_len(qirs_ti, len); return (len); } /*----------------------------------------------------------------------------*/ /* LBMR Proxy Source Election Record dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_pser(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { int hdr_len = 0; int len = 0; int topic_len = 0; static const int * flags[] = { &hf_lbmr_pser_flags_option, NULL }; int curr_offset = offset; guint16 flags_val = 0; hdr_len = (int)tvb_get_ntohs(tvb, curr_offset + O_LBMR_PSER_T_LEN); flags_val = tvb_get_ntohs(tvb, curr_offset + O_LBMR_PSER_T_FLAGS); topic_len = hdr_len - L_LBMR_PSER_T; proto_tree_add_item(tree, hf_lbmr_pser_dep_type, tvb, offset + O_LBMR_PSER_T_DEP_TYPE, L_LBMR_PSER_T_DEP_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_pser_len, tvb, offset + O_LBMR_PSER_T_LEN, L_LBMR_PSER_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(tree, tvb, offset + O_LBMR_PSER_T_FLAGS, hf_lbmr_pser_flags, ett_lbmr_pser_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_pser_source_ip, tvb, offset + O_LBMR_PSER_T_SOURCE_IP, L_LBMR_PSER_T_SOURCE_IP, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_pser_store_ip, tvb, offset + O_LBMR_PSER_T_STORE_IP, L_LBMR_PSER_T_STORE_IP, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_pser_transport_idx, tvb, offset + O_LBMR_PSER_T_TRANSPORT_IDX, L_LBMR_PSER_T_TRANSPORT_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_pser_topic_idx, tvb, offset + O_LBMR_PSER_T_TOPIC_IDX, L_LBMR_PSER_T_TOPIC_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_pser_source_port, tvb, offset + O_LBMR_PSER_T_SOURCE_PORT, L_LBMR_PSER_T_SOURCE_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_pser_store_port, tvb, offset + O_LBMR_PSER_T_STORE_PORT, L_LBMR_PSER_T_STORE_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_pser_topic, tvb, offset + O_LBMR_PSER_T_TOPIC, topic_len, ENC_ASCII|ENC_NA); curr_offset += hdr_len; len = hdr_len; if ((flags_val & LBMR_PSER_OPT_FLAG) != 0) { proto_tree * opts_tree = NULL; proto_item * opts_item = NULL; proto_tree * optlen_tree = NULL; proto_tree * optlen_item = NULL; guint16 opt_len = 0; opt_len = tvb_get_ntohs(tvb, curr_offset + O_LBMR_PSER_OPTLEN_T_OPTLEN); opts_item = proto_tree_add_item(tree, hf_lbmr_pser_opts, tvb, curr_offset, -1, ENC_NA); opts_tree = proto_item_add_subtree(opts_item, ett_lbmr_pser_opts); optlen_item = proto_tree_add_item(opts_tree, hf_lbmr_pser_optlen, tvb, curr_offset, L_LBMR_PSER_OPTLEN_T, ENC_NA); optlen_tree = proto_item_add_subtree(optlen_item, ett_lbmr_pser_opt_len); proto_tree_add_item(optlen_tree, hf_lbmr_pser_optlen_type, tvb, curr_offset + O_LBMR_PSER_OPTLEN_T_TYPE, L_LBMR_PSER_OPTLEN_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(optlen_tree, hf_lbmr_pser_optlen_optlen, tvb, curr_offset + O_LBMR_PSER_OPTLEN_T_OPTLEN, L_LBMR_PSER_OPTLEN_T_OPTLEN, ENC_BIG_ENDIAN); proto_item_set_len(opts_item, opt_len); len += L_LBMR_PSER_OPTLEN_T; curr_offset += L_LBMR_PSER_OPTLEN_T; opt_len -= L_LBMR_PSER_OPTLEN_T; while (opt_len > 0) { proto_tree * ctxinst_tree = NULL; proto_item * ctxinst_item = NULL; guint8 opt_type = tvb_get_guint8(tvb, curr_offset + O_LBMR_PSER_OPT_HDR_T_TYPE); guint8 option_len = tvb_get_guint8(tvb, curr_offset + O_LBMR_PSER_OPT_HDR_T_LEN); switch (opt_type) { case LBMR_PSER_OPT_SRC_CTXINST_TYPE: case LBMR_PSER_OPT_STORE_CTXINST_TYPE: ctxinst_item = proto_tree_add_item(opts_tree, hf_lbmr_pser_opt_ctxinst, tvb, curr_offset, L_LBMR_PSER_OPT_CTXINST_T, ENC_NA); ctxinst_tree = proto_item_add_subtree(ctxinst_item, ett_lbmr_pser_opt_ctxinst); proto_tree_add_item(ctxinst_tree, hf_lbmr_pser_opt_ctxinst_len, tvb, curr_offset + O_LBMR_PSER_OPT_CTXINST_T_LEN, L_LBMR_PSER_OPT_CTXINST_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(ctxinst_tree, hf_lbmr_pser_opt_ctxinst_type, tvb, curr_offset + O_LBMR_PSER_OPT_CTXINST_T_TYPE, L_LBMR_PSER_OPT_CTXINST_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(ctxinst_tree, hf_lbmr_pser_opt_ctxinst_ctxinst, tvb, curr_offset + O_LBMR_PSER_OPT_CTXINST_T_CTXINST, L_LBMR_PSER_OPT_CTXINST_T_CTXINST, ENC_NA); len += L_LBMR_PSER_OPT_CTXINST_T; curr_offset += L_LBMR_PSER_OPT_CTXINST_T; opt_len -= L_LBMR_PSER_OPT_CTXINST_T; break; default: len += option_len; curr_offset += option_len; opt_len -= option_len; expert_add_info_format(pinfo, NULL, &ei_lbmr_analysis_invalid_value, "Unknown LBMR PSER option 0x%02x", opt_type); if (option_len == 0) { return (len); } break; } } } return (len); } /*----------------------------------------------------------------------------*/ /* LBMR Queue Management dissection functions. */ /*----------------------------------------------------------------------------*/ int lbmr_dissect_umq_qmgmt(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { guint8 pckt_type = 0; int curr_offset = 0; guint16 dep16; guint16 idx; guint8 flags_val = 0; int len_dissected = 0; static const int * flags[] = { &hf_qmgmt_flags_i_flag, &hf_qmgmt_flags_n_flag, NULL }; static const int * il_flags[] = { &hf_qmgmt_flags_i_flag, &hf_qmgmt_flags_n_flag, &hf_qmgmt_flags_il_l_flag, &hf_qmgmt_flags_il_k_flag, NULL }; flags_val = tvb_get_guint8(tvb, offset + O_UMQ_QMGMT_HDR_T_FLAGS); pckt_type = tvb_get_guint8(tvb, offset + O_UMQ_QMGMT_HDR_T_PCKT_TYPE); dep16 = tvb_get_ntohs(tvb, offset + O_UMQ_QMGMT_HDR_T_PCKT_TYPE_DEP16); if (pckt_type == UMQ_QMGMT_HDR_PCKT_TYPE_IL) { proto_tree_add_bitmask(tree, tvb, offset + O_UMQ_QMGMT_HDR_T_FLAGS, hf_qmgmt_flags, ett_qmgmt_flags, il_flags, ENC_BIG_ENDIAN); } else { proto_tree_add_bitmask(tree, tvb, offset + O_UMQ_QMGMT_HDR_T_FLAGS, hf_qmgmt_flags, ett_qmgmt_flags, flags, ENC_BIG_ENDIAN); } proto_tree_add_item(tree, hf_qmgmt_pckt_type, tvb, offset + O_UMQ_QMGMT_HDR_T_PCKT_TYPE, L_UMQ_QMGMT_HDR_T_PCKT_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_qmgmt_cfgsig, tvb, offset + O_UMQ_QMGMT_HDR_T_CFGSIG, L_UMQ_QMGMT_HDR_T_CFGSIG, ENC_NA); proto_tree_add_item(tree, hf_qmgmt_queue_id, tvb, offset + O_UMQ_QMGMT_HDR_T_QUEUE_ID, L_UMQ_QMGMT_HDR_T_QUEUE_ID, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_qmgmt_queue_ver, tvb, offset + O_UMQ_QMGMT_HDR_T_QUEUE_VER, L_UMQ_QMGMT_HDR_T_QUEUE_VER, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_qmgmt_ip, tvb, offset + O_UMQ_QMGMT_HDR_T_IP, L_UMQ_QMGMT_HDR_T_IP, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_qmgmt_port, tvb, offset + O_UMQ_QMGMT_HDR_T_PORT, L_UMQ_QMGMT_HDR_T_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_qmgmt_inst_idx, tvb, offset + O_UMQ_QMGMT_HDR_T_INST_IDX, L_UMQ_QMGMT_HDR_T_INST_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_qmgmt_grp_idx, tvb, offset + O_UMQ_QMGMT_HDR_T_GRP_IDX, L_UMQ_QMGMT_HDR_T_GRP_IDX, ENC_BIG_ENDIAN); switch (pckt_type) { case UMQ_QMGMT_HDR_PCKT_TYPE_IL: proto_tree_add_item(tree, hf_qmgmt_il_num_insts, tvb, offset + O_UMQ_QMGMT_HDR_T_PCKT_TYPE_DEP16, L_UMQ_QMGMT_HDR_T_PCKT_TYPE_DEP16, ENC_BIG_ENDIAN); break; case UMQ_QMGMT_HDR_PCKT_TYPE_JREJ: proto_tree_add_item(tree, hf_qmgmt_jrej_code, tvb, offset + O_UMQ_QMGMT_HDR_T_PCKT_TYPE_DEP16, L_UMQ_QMGMT_HDR_T_PCKT_TYPE_DEP16, ENC_BIG_ENDIAN); break; case UMQ_QMGMT_HDR_PCKT_TYPE_EV: proto_tree_add_item(tree, hf_qmgmt_ev_bias, tvb, offset + O_UMQ_QMGMT_HDR_T_PCKT_TYPE_DEP16, L_UMQ_QMGMT_HDR_T_PCKT_TYPE_DEP16, ENC_BIG_ENDIAN); break; default: proto_tree_add_item(tree, hf_qmgmt_pckt_type_dep16, tvb, offset + O_UMQ_QMGMT_HDR_T_PCKT_TYPE_DEP16, L_UMQ_QMGMT_HDR_T_PCKT_TYPE_DEP16, ENC_BIG_ENDIAN); break; } len_dissected = L_UMQ_QMGMT_HDR_T; curr_offset = offset + L_UMQ_QMGMT_HDR_T; switch (pckt_type) { case UMQ_QMGMT_HDR_PCKT_TYPE_IL: { proto_item * il_subtree_item = NULL; proto_tree * il_subtree = NULL; static const int * il_inst_flags[] = { &hf_qmgmt_il_inst_flags_m_flag, &hf_qmgmt_il_inst_flags_q_flag, &hf_qmgmt_il_inst_flags_p_flag, NULL }; il_subtree_item = proto_tree_add_item(tree, hf_qmgmt_il, tvb, curr_offset, L_UMQ_QMGMT_IL_HDR_T, ENC_NA); il_subtree = proto_item_add_subtree(il_subtree_item, ett_qmgmt_il); proto_tree_add_item(il_subtree, hf_qmgmt_il_highest_rcr_tsp, tvb, curr_offset + O_UMQ_QMGMT_IL_HDR_T_HIGHEST_RCR_TSP, L_UMQ_QMGMT_IL_HDR_T_HIGHEST_RCR_TSP, ENC_BIG_ENDIAN); len_dissected += L_UMQ_QMGMT_IL_HDR_T; curr_offset += L_UMQ_QMGMT_IL_HDR_T; for (idx = 0; idx < dep16; ++idx) { proto_item * il_inst_subtree_item = NULL; proto_tree * il_inst_subtree = NULL; il_inst_subtree_item = proto_tree_add_item(tree, hf_qmgmt_il_inst, tvb, curr_offset, L_UMQ_QMGMT_IL_INST_HDR_T, ENC_NA); il_inst_subtree = proto_item_add_subtree(il_inst_subtree_item, ett_qmgmt_il_inst); proto_tree_add_item(il_inst_subtree, hf_qmgmt_il_inst_ip, tvb, curr_offset + O_UMQ_QMGMT_IL_INST_HDR_T_IP, L_UMQ_QMGMT_IL_INST_HDR_T_IP, ENC_BIG_ENDIAN); proto_tree_add_item(il_inst_subtree, hf_qmgmt_il_inst_port, tvb, curr_offset + O_UMQ_QMGMT_IL_INST_HDR_T_PORT, L_UMQ_QMGMT_IL_INST_HDR_T_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(il_inst_subtree, hf_qmgmt_il_inst_inst_idx, tvb, curr_offset + O_UMQ_QMGMT_IL_INST_HDR_T_INST_IDX, L_UMQ_QMGMT_IL_INST_HDR_T_INST_IDX, ENC_BIG_ENDIAN); proto_tree_add_item(il_inst_subtree, hf_qmgmt_il_inst_grp_idx, tvb, curr_offset + O_UMQ_QMGMT_IL_INST_HDR_T_GRP_IDX, L_UMQ_QMGMT_IL_INST_HDR_T_GRP_IDX, ENC_BIG_ENDIAN); proto_tree_add_bitmask(il_inst_subtree, tvb, curr_offset + O_UMQ_QMGMT_IL_INST_HDR_T_FLAGS, hf_qmgmt_il_inst_flags, ett_qmgmt_il_inst_flags, il_inst_flags, ENC_BIG_ENDIAN); len_dissected += L_UMQ_QMGMT_IL_INST_HDR_T; curr_offset += L_UMQ_QMGMT_IL_INST_HDR_T; } } break; case UMQ_QMGMT_HDR_PCKT_TYPE_JR: /* Nothing to do */ break; case UMQ_QMGMT_HDR_PCKT_TYPE_JREJ: /* Nothing to do */ break; case UMQ_QMGMT_HDR_PCKT_TYPE_IKA: /* Nothing to do */ break; case UMQ_QMGMT_HDR_PCKT_TYPE_EC: { proto_item * ec_subtree_item = NULL; proto_tree * ec_subtree = NULL; ec_subtree_item = proto_tree_add_item(tree, hf_qmgmt_ec, tvb, curr_offset, L_UMQ_QMGMT_EC_HDR_T, ENC_NA); ec_subtree = proto_item_add_subtree(ec_subtree_item, ett_qmgmt_ec); proto_tree_add_item(ec_subtree, hf_qmgmt_ec_queue_new_ver, tvb, curr_offset + O_UMQ_QMGMT_EC_HDR_T_QUEUE_NEW_VER, L_UMQ_QMGMT_EC_HDR_T_QUEUE_NEW_VER, ENC_BIG_ENDIAN); len_dissected += L_UMQ_QMGMT_EC_HDR_T; curr_offset += L_UMQ_QMGMT_EC_HDR_T; } break; case UMQ_QMGMT_HDR_PCKT_TYPE_EV: { proto_item * ev_subtree_item = NULL; proto_tree * ev_subtree = NULL; ev_subtree_item = proto_tree_add_item(tree, hf_qmgmt_ev, tvb, curr_offset, L_UMQ_QMGMT_EV_HDR_T, ENC_NA); ev_subtree = proto_item_add_subtree(ev_subtree_item, ett_qmgmt_ev); proto_tree_add_item(ev_subtree, hf_qmgmt_ev_highest_rcr_tsp, tvb, curr_offset + O_UMQ_QMGMT_EV_HDR_T_HIGHEST_RCR_TSP, L_UMQ_QMGMT_EV_HDR_T_HIGHEST_RCR_TSP, ENC_BIG_ENDIAN); proto_tree_add_item(ev_subtree, hf_qmgmt_ev_age, tvb, curr_offset + O_UMQ_QMGMT_EV_HDR_T_AGE, L_UMQ_QMGMT_EV_HDR_T_AGE, ENC_BIG_ENDIAN); len_dissected += L_UMQ_QMGMT_EV_HDR_T; curr_offset += L_UMQ_QMGMT_EV_HDR_T; } break; case UMQ_QMGMT_HDR_PCKT_TYPE_CNIL: /* Nothing to do */ break; case UMQ_QMGMT_HDR_PCKT_TYPE_QRO: { proto_item * qro_subtree_item = NULL; proto_tree * qro_subtree = NULL; qro_subtree_item = proto_tree_add_item(tree, hf_qmgmt_qro, tvb, curr_offset, L_UMQ_QMGMT_QRO_HDR_T, ENC_NA); qro_subtree = proto_item_add_subtree(qro_subtree_item, ett_qmgmt_qro); proto_tree_add_item(qro_subtree, hf_qmgmt_qro_highest_rcr_tsp, tvb, curr_offset + O_UMQ_QMGMT_QRO_HDR_T_HIGHEST_RCR_TSP, L_UMQ_QMGMT_QRO_HDR_T_HIGHEST_RCR_TSP, ENC_BIG_ENDIAN); len_dissected += L_UMQ_QMGMT_QRO_HDR_T; curr_offset += L_UMQ_QMGMT_QRO_HDR_T; } break; default: expert_add_info_format(pinfo, NULL, &ei_lbmr_analysis_invalid_value, "Unknown LBMR QMGMT packet type 0x%02x", pckt_type); break; } if ((flags_val & UMQ_QMGMT_HDR_N_FLAG) != 0) { int qnamelen = tvb_reported_length_remaining(tvb, curr_offset); if (qnamelen > 1) { proto_tree_add_item(tree, hf_qmgmt_qname, tvb, curr_offset, qnamelen, ENC_ASCII|ENC_NA); } len_dissected += qnamelen; } return (len_dissected); } /*----------------------------------------------------------------------------*/ /* LBMR ContextInfo dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_ctxinfo(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { guint8 reclen = 0; int name_offset = -1; int name_len = 0; static const int * flags[] = { &hf_lbmr_ctxinfo_flags_query, &hf_lbmr_ctxinfo_flags_ip, &hf_lbmr_ctxinfo_flags_instance, &hf_lbmr_ctxinfo_flags_tnwg_src, &hf_lbmr_ctxinfo_flags_tnwg_rcv, &hf_lbmr_ctxinfo_flags_proxy, &hf_lbmr_ctxinfo_flags_name, NULL }; reclen = tvb_get_guint8(tvb, offset + O_LBMR_CTXINFO_T_LEN); proto_tree_add_item(tree, hf_lbmr_ctxinfo_len, tvb, offset + O_LBMR_CTXINFO_T_LEN, L_LBMR_CTXINFO_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_ctxinfo_hop_count, tvb, offset + O_LBMR_CTXINFO_T_HOP_COUNT, L_LBMR_CTXINFO_T_HOP_COUNT, ENC_BIG_ENDIAN); proto_tree_add_bitmask(tree, tvb, offset + O_LBMR_CTXINFO_T_FLAGS, hf_lbmr_ctxinfo_flags, ett_lbmr_ctxinfo_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_ctxinfo_port, tvb, offset + O_LBMR_CTXINFO_T_PORT, L_LBMR_CTXINFO_T_FLAGS, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_ctxinfo_ip, tvb, offset + O_LBMR_CTXINFO_T_IP, L_LBMR_CTXINFO_T_IP, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_ctxinfo_instance, tvb, offset + O_LBMR_CTXINFO_T_INSTANCE, L_LBMR_CTXINFO_T_INSTANCE, ENC_NA); if (name_offset != -1) { proto_tree_add_item(tree, hf_lbmr_ctxinfo_name, tvb, name_offset, name_len, ENC_ASCII|ENC_NA); } return ((int)reclen); } /*----------------------------------------------------------------------------*/ /* LBMR Topic Res Request dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_topic_res_request(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { static const int * flags[] = { &hf_lbmr_topic_res_request_flags_gw_remote_interest, &hf_lbmr_topic_res_request_flags_context_query, &hf_lbmr_topic_res_request_flags_context_advertisement, &hf_lbmr_topic_res_request_flags_gateway_meta, &hf_lbmr_topic_res_request_flags_advertisement, &hf_lbmr_topic_res_request_flags_query, &hf_lbmr_topic_res_request_flags_wildcard_query, NULL }; proto_tree_add_bitmask(tree, tvb, offset + O_LBMR_TOPIC_RES_REQUEST_T_FLAGS, hf_lbmr_topic_res_request_flags, ett_lbmr_topic_res_request_flags, flags, ENC_BIG_ENDIAN); return (L_LBMR_TOPIC_RES_REQUEST_T); } /*----------------------------------------------------------------------------*/ /* LBMR Remote Domain Route dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_remote_domain_route(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { guint16 num_domains; int len_dissected = 0; int ofs = 0; guint16 idx; num_domains = tvb_get_ntohs(tvb, offset + O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_NUM_DOMAINS); proto_tree_add_item(tree, hf_lbmr_remote_domain_route_hdr_num_domains, tvb, offset + O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_NUM_DOMAINS, L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_NUM_DOMAINS, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_remote_domain_route_hdr_ip, tvb, offset + O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_IP, L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_IP, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_remote_domain_route_hdr_port, tvb, offset + O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_PORT, L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_remote_domain_route_hdr_reserved, tvb, offset + O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_RESERVED, L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_RESERVED, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_remote_domain_route_hdr_length, tvb, offset + O_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_LENGTH, L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T_LENGTH, ENC_BIG_ENDIAN); len_dissected = L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T; ofs = offset + L_LBMR_REMOTE_DOMAIN_ROUTE_HDR_T; for (idx = 0; idx < num_domains; ++idx) { proto_tree_add_item(tree, hf_lbmr_remote_domain_route_hdr_domain, tvb, ofs, sizeof(lbm_uint32_t), ENC_BIG_ENDIAN); len_dissected += (int)sizeof(lbm_uint32_t); ofs += (int)sizeof(lbm_uint32_t); } return (len_dissected); } /*----------------------------------------------------------------------------*/ /* LBMR Remote ContextInfo option dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_rctxinfo_rec_address_opt(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; subtree_item = proto_tree_add_item(tree, hf_lbmr_rctxinfo_rec_address, tvb, offset, L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_rctxinfo_rec_address); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_address_type, tvb, offset + O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_TYPE, L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_address_len, tvb, offset + O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_LEN, L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_address_flags, tvb, offset + O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_FLAGS, L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_FLAGS, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_address_domain_id, tvb, offset + O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_DOMAIN_ID, L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_DOMAIN_ID, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_address_ip, tvb, offset + O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_IP, L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_IP, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_address_port, tvb, offset + O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_PORT, L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_PORT, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_address_res, tvb, offset + O_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_RES, L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T_RES, ENC_BIG_ENDIAN); return ((int)L_LBMR_RCTXINFO_REC_ADDRESS_OPT_T); } static int dissect_lbmr_rctxinfo_rec_instance_opt(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; guint8 len = 0; len = tvb_get_guint8(tvb, offset + O_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_LEN); subtree_item = proto_tree_add_item(tree, hf_lbmr_rctxinfo_rec_instance, tvb, offset, (int)len, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_rctxinfo_rec_instance); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_instance_type, tvb, offset + O_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_TYPE, L_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_instance_len, tvb, offset + O_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_LEN, L_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_instance_flags, tvb, offset + O_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_FLAGS, L_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_FLAGS, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_instance_instance, tvb, offset + O_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_INSTANCE, L_LBMR_RCTXINFO_REC_INSTANCE_OPT_T_INSTANCE, ENC_NA); return ((int)L_LBMR_RCTXINFO_REC_INSTANCE_OPT_T); } static int dissect_lbmr_rctxinfo_rec_odomain_opt(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; guint8 len = 0; len = tvb_get_guint8(tvb, offset + O_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_LEN); subtree_item = proto_tree_add_item(tree, hf_lbmr_rctxinfo_rec_odomain, tvb, offset, (int)len, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_rctxinfo_rec_odomain); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_odomain_type, tvb, offset + O_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_TYPE, L_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_odomain_len, tvb, offset + O_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_LEN, L_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_odomain_flags, tvb, offset + O_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_FLAGS, L_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_FLAGS, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_odomain_domain_id, tvb, offset + O_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_DOMAIN_ID, L_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T_DOMAIN_ID, ENC_BIG_ENDIAN); return ((int)L_LBMR_RCTXINFO_REC_ODOMAIN_OPT_T); } static int dissect_lbmr_rctxinfo_rec_name_opt(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; guint8 len = 0; int name_len = 0; len = tvb_get_guint8(tvb, offset + O_LBMR_RCTXINFO_REC_NAME_OPT_T_LEN); subtree_item = proto_tree_add_item(tree, hf_lbmr_rctxinfo_rec_name, tvb, offset, (int)len, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_rctxinfo_rec_name); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_name_type, tvb, offset + O_LBMR_RCTXINFO_REC_NAME_OPT_T_TYPE, L_LBMR_RCTXINFO_REC_NAME_OPT_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_name_len, tvb, offset + O_LBMR_RCTXINFO_REC_NAME_OPT_T_LEN, L_LBMR_RCTXINFO_REC_NAME_OPT_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_name_flags, tvb, offset + O_LBMR_RCTXINFO_REC_NAME_OPT_T_FLAGS, L_LBMR_RCTXINFO_REC_NAME_OPT_T_FLAGS, ENC_BIG_ENDIAN); name_len = ((int)len) - L_LBMR_RCTXINFO_REC_NAME_OPT_T; proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_name_name, tvb, offset + L_LBMR_RCTXINFO_REC_NAME_OPT_T, name_len, ENC_ASCII|ENC_NA); return ((int)len); } static int dissect_lbmr_rctxinfo_rec_unknown_opt(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; guint8 len = 0; int data_len = 0; guint8 opt_type; opt_type = tvb_get_guint8(tvb, offset + O_LBMR_RCTXINFO_REC_OPT_T_TYPE); len = tvb_get_guint8(tvb, offset + O_LBMR_RCTXINFO_REC_OPT_T_LEN); subtree_item = proto_tree_add_item(tree, hf_lbmr_rctxinfo_rec_unknown, tvb, offset, (int)len, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_rctxinfo_rec_unknown); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_unknown_type, tvb, offset + O_LBMR_RCTXINFO_REC_OPT_T_TYPE, L_LBMR_RCTXINFO_REC_OPT_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_unknown_len, tvb, offset + O_LBMR_RCTXINFO_REC_OPT_T_LEN, L_LBMR_RCTXINFO_REC_OPT_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_unknown_flags, tvb, offset + O_LBMR_RCTXINFO_REC_OPT_T_FLAGS, L_LBMR_RCTXINFO_REC_OPT_T_FLAGS, ENC_BIG_ENDIAN); data_len = ((int) len) - L_LBMR_RCTXINFO_REC_OPT_T; proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_unknown_data, tvb, offset + L_LBMR_RCTXINFO_REC_OPT_T, data_len, ENC_NA); expert_add_info_format(pinfo, subtree_item, &ei_lbmr_analysis_invalid_value, "Unknown LBMR RCTXINFO option 0x%02x", opt_type); return ((int) len); } /*----------------------------------------------------------------------------*/ /* LBMR Remote ContextInfo dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_rctxinfo_rec(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; guint8 opt_type = 0; static const int * flags[] = { &hf_lbmr_rctxinfo_rec_flags_query, NULL }; guint16 len = 0; int rec_len_remaining = 0; int ofs = 0; int opt_len_dissected = 0; int len_dissected = 0; len = tvb_get_ntohs(tvb, offset + O_LBMR_RCTXINFO_REC_T_LEN); subtree_item = proto_tree_add_item(tree, hf_lbmr_rctxinfo_rec, tvb, offset, -1, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_rctxinfo_rec); proto_tree_add_item(subtree, hf_lbmr_rctxinfo_rec_len, tvb, offset + O_LBMR_RCTXINFO_REC_T_LEN, L_LBMR_RCTXINFO_REC_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(subtree, tvb, offset + O_LBMR_RCTXINFO_REC_T_FLAGS, hf_lbmr_rctxinfo_rec_flags, ett_lbmr_rctxinfo_rec_flags, flags, ENC_BIG_ENDIAN); ofs = offset + L_LBMR_RCTXINFO_REC_T; rec_len_remaining = len - L_LBMR_RCTXINFO_REC_T; len_dissected = L_LBMR_RCTXINFO_REC_T; while (rec_len_remaining > 0) { opt_type = tvb_get_guint8(tvb, ofs + O_LBMR_RCTXINFO_REC_OPT_T_TYPE); switch (opt_type) { case LBMR_RCTXINFO_OPT_ADDRESS_TYPE: opt_len_dissected = dissect_lbmr_rctxinfo_rec_address_opt(tvb, ofs, pinfo, subtree); break; case LBMR_RCTXINFO_OPT_INSTANCE_TYPE: opt_len_dissected = dissect_lbmr_rctxinfo_rec_instance_opt(tvb, ofs, pinfo, subtree); break; case LBMR_RCTXINFO_OPT_ODOMAIN_TYPE: opt_len_dissected = dissect_lbmr_rctxinfo_rec_odomain_opt(tvb, ofs, pinfo, subtree); break; case LBMR_RCTXINFO_OPT_NAME_TYPE: opt_len_dissected = dissect_lbmr_rctxinfo_rec_name_opt(tvb, ofs, pinfo, subtree); break; default: opt_len_dissected = dissect_lbmr_rctxinfo_rec_unknown_opt(tvb, ofs, pinfo, subtree); break; } len_dissected += opt_len_dissected; rec_len_remaining -= opt_len_dissected; ofs += opt_len_dissected; } proto_item_set_len(subtree_item, len_dissected); return (len_dissected); } static int dissect_lbmr_rctxinfo(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { guint16 num_recs = 0; int ofs = 0; int len_dissected = 0; int rec_len_dissected = 0; num_recs = tvb_get_ntohs(tvb, offset + O_LBMR_RCTXINFO_T_NUM_RECS); proto_tree_add_item(tree, hf_lbmr_rctxinfo_len, tvb, offset + O_LBMR_RCTXINFO_T_LEN, L_LBMR_RCTXINFO_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_rctxinfo_num_recs, tvb, offset + O_LBMR_RCTXINFO_T_NUM_RECS, L_LBMR_RCTXINFO_T_NUM_RECS, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_rctxinfo_reserved, tvb, offset + O_LBMR_RCTXINFO_T_RESERVED, L_LBMR_RCTXINFO_T_RESERVED, ENC_BIG_ENDIAN); len_dissected = L_LBMR_RCTXINFO_T; ofs = offset + L_LBMR_RCTXINFO_T; while (num_recs > 0) { rec_len_dissected = dissect_lbmr_rctxinfo_rec(tvb, ofs, pinfo, tree); ofs += rec_len_dissected; len_dissected += rec_len_dissected; num_recs--; } return (len_dissected); } static proto_item * format_ver_type(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_item * type_item = NULL; proto_tree_add_item(tree, hf_lbmr_hdr_ver, tvb, offset + O_LBMR_HDR_T_VER_TYPE, L_LBMR_HDR_T_VER_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(tree, hf_lbmr_hdr_opt, tvb, offset + O_LBMR_HDR_T_VER_TYPE, L_LBMR_HDR_T_VER_TYPE, ENC_BIG_ENDIAN); type_item = proto_tree_add_item(tree, hf_lbmr_hdr_type, tvb, offset + O_LBMR_HDR_T_VER_TYPE, L_LBMR_HDR_T_VER_TYPE, ENC_BIG_ENDIAN); return (type_item); } /*----------------------------------------------------------------------------*/ /* LBMR Option dissection functions. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr_opt_len(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; int len = 0; subtree_item = proto_tree_add_item(tree, hf_lbmr_opt_len, tvb, offset, L_LBMR_LBMR_OPT_SRC_ID_T, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_opt_len); proto_tree_add_item(subtree, hf_lbmr_opt_len_type, tvb, offset + O_LBMR_LBMR_OPT_LEN_T_TYPE, L_LBMR_LBMR_OPT_LEN_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_opt_len_len, tvb, offset + O_LBMR_LBMR_OPT_LEN_T_LEN, L_LBMR_LBMR_OPT_LEN_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_opt_len_total_len, tvb, offset + O_LBMR_LBMR_OPT_LEN_T_TOTAL_LEN, L_LBMR_LBMR_OPT_LEN_T_TOTAL_LEN, ENC_BIG_ENDIAN); len = L_LBMR_LBMR_OPT_LEN_T; return (len); } static int dissect_lbmr_opt_src_id(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; static const int * flags[] = { &hf_lbmr_opt_src_id_flags_ignore, NULL }; subtree_item = proto_tree_add_item(tree, hf_lbmr_opt_src_id, tvb, offset, L_LBMR_LBMR_OPT_SRC_ID_T, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_opt_src_id); proto_tree_add_item(subtree, hf_lbmr_opt_src_id_type, tvb, offset + O_LBMR_LBMR_OPT_SRC_ID_T_TYPE, L_LBMR_LBMR_OPT_SRC_ID_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_opt_src_id_len, tvb, offset + O_LBMR_LBMR_OPT_SRC_ID_T_LEN, L_LBMR_LBMR_OPT_SRC_ID_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(subtree, tvb, offset + O_LBMR_LBMR_OPT_SRC_ID_T_FLAGS, hf_lbmr_opt_src_id_flags, ett_lbmr_opt_src_id_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_opt_src_id_src_id, tvb, offset + O_LBMR_LBMR_OPT_SRC_ID_T_SRC_ID, L_LBMR_LBMR_OPT_SRC_ID_T_SRC_ID, ENC_NA); return (L_LBMR_LBMR_OPT_SRC_ID_T); } static int dissect_lbmr_opt_src_type(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; static const int * flags[] = { &hf_lbmr_opt_src_type_flags_ignore, NULL }; subtree_item = proto_tree_add_item(tree, hf_lbmr_opt_src_type, tvb, offset, L_LBMR_LBMR_OPT_SRC_TYPE_T, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_opt_src_type); proto_tree_add_item(subtree, hf_lbmr_opt_src_type_type, tvb, offset + O_LBMR_LBMR_OPT_SRC_TYPE_T_TYPE, L_LBMR_LBMR_OPT_SRC_TYPE_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_opt_src_type_len, tvb, offset + O_LBMR_LBMR_OPT_SRC_TYPE_T_LEN, L_LBMR_LBMR_OPT_SRC_TYPE_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(subtree, tvb, offset + O_LBMR_LBMR_OPT_SRC_TYPE_T_FLAGS, hf_lbmr_opt_src_type_flags, ett_lbmr_opt_src_type_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_opt_src_type_src_type, tvb, offset + O_LBMR_LBMR_OPT_SRC_TYPE_T_SRC_TYPE, L_LBMR_LBMR_OPT_SRC_TYPE_T_SRC_TYPE, ENC_BIG_ENDIAN); return (L_LBMR_LBMR_OPT_SRC_TYPE_T); } static int dissect_lbmr_opt_version(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; static const int * flags[] = { &hf_lbmr_opt_version_flags_ignore, &hf_lbmr_opt_version_flags_ume, &hf_lbmr_opt_version_flags_umq, NULL }; subtree_item = proto_tree_add_item(tree, hf_lbmr_opt_version, tvb, offset, L_LBMR_LBMR_OPT_VERSION_T, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_opt_version); proto_tree_add_item(subtree, hf_lbmr_opt_version_type, tvb, offset + O_LBMR_LBMR_OPT_VERSION_T_TYPE, L_LBMR_LBMR_OPT_VERSION_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_opt_version_len, tvb, offset + O_LBMR_LBMR_OPT_VERSION_T_LEN, L_LBMR_LBMR_OPT_VERSION_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(subtree, tvb, offset + O_LBMR_LBMR_OPT_VERSION_T_FLAGS, hf_lbmr_opt_version_flags, ett_lbmr_opt_version_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_opt_version_version, tvb, offset + O_LBMR_LBMR_OPT_VERSION_T_VERSION, L_LBMR_LBMR_OPT_VERSION_T_VERSION, ENC_BIG_ENDIAN); return (L_LBMR_LBMR_OPT_VERSION_T); } static int dissect_lbmr_opt_local_domain(tvbuff_t * tvb, int offset, packet_info * pinfo _U_, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; static const int * flags[] = { &hf_lbmr_opt_local_domain_flags_ignore, NULL }; subtree_item = proto_tree_add_item(tree, hf_lbmr_opt_local_domain, tvb, offset, L_LBMR_LBMR_OPT_LOCAL_DOMAIN_T, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_opt_local_domain); proto_tree_add_item(subtree, hf_lbmr_opt_local_domain_type, tvb, offset + O_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_TYPE, L_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_TYPE, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_opt_local_domain_len, tvb, offset + O_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_LEN, L_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_bitmask(subtree, tvb, offset + O_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_FLAGS, hf_lbmr_opt_local_domain_flags, ett_lbmr_opt_local_domain_flags, flags, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_opt_local_domain_local_domain_id, tvb, offset + O_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_LOCAL_DOMAIN_ID, L_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_LOCAL_DOMAIN_ID, ENC_BIG_ENDIAN); return (L_LBMR_LBMR_OPT_LOCAL_DOMAIN_T); } static int dissect_lbmr_opt_unknown(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { proto_tree * subtree = NULL; proto_item * subtree_item = NULL; guint8 len = 0; proto_item * type_item = NULL; guint8 opt_type = 0; subtree_item = proto_tree_add_item(tree, hf_lbmr_opt_unknown, tvb, offset, -1, ENC_NA); subtree = proto_item_add_subtree(subtree_item, ett_lbmr_opt_unknown); opt_type = tvb_get_guint8(tvb, offset + O_LBMR_LBMR_OPT_HDR_T_TYPE); type_item = proto_tree_add_item(subtree, hf_lbmr_opt_unknown_type, tvb, offset + O_LBMR_LBMR_OPT_HDR_T_TYPE, L_LBMR_LBMR_OPT_HDR_T_TYPE, ENC_BIG_ENDIAN); len = tvb_get_guint8(tvb, offset + O_LBMR_LBMR_OPT_HDR_T_LEN); proto_tree_add_item(subtree, hf_lbmr_opt_unknown_len, tvb, offset + O_LBMR_LBMR_OPT_HDR_T_LEN, L_LBMR_LBMR_OPT_HDR_T_LEN, ENC_BIG_ENDIAN); proto_tree_add_item(subtree, hf_lbmr_opt_unknown_flags, tvb, offset + O_LBMR_LBMR_OPT_HDR_T_FLAGS, L_LBMR_LBMR_OPT_HDR_T_FLAGS, ENC_NA); proto_tree_add_item(subtree, hf_lbmr_opt_unknown_data, tvb, offset + L_LBMR_LBMR_OPT_HDR_T, (int) len - L_LBMR_LBMR_OPT_HDR_T, ENC_NA); proto_item_set_len(subtree_item, (int) len); expert_add_info_format(pinfo, type_item, &ei_lbmr_analysis_invalid_value, "Unknown LBMR option type 0x%02x", opt_type); return ((int) len); } static int dissect_lbmr_options(tvbuff_t * tvb, int offset, packet_info * pinfo, proto_tree * tree) { proto_tree * opt_tree = NULL; proto_item * ti = NULL; int curr_offset = offset; int len = 0; ti = proto_tree_add_item(tree, hf_lbmr_opts, tvb, curr_offset, -1, ENC_NA); opt_tree = proto_item_add_subtree(ti, ett_lbmr_opts); while (tvb_reported_length_remaining(tvb, curr_offset) > 0) { int opt_len; guint8 opt_type; opt_type = tvb_get_guint8(tvb, curr_offset + O_LBMR_LBMR_OPT_HDR_T_TYPE); switch (opt_type) { case LBMR_LBMR_OPT_LEN_TYPE: opt_len = dissect_lbmr_opt_len(tvb, curr_offset, pinfo, opt_tree); break; case LBMR_LBMR_OPT_SRC_ID_TYPE: opt_len = dissect_lbmr_opt_src_id(tvb, curr_offset, pinfo, opt_tree); break; case LBMR_LBMR_OPT_SRC_TYPE_TYPE: opt_len = dissect_lbmr_opt_src_type(tvb, curr_offset, pinfo, opt_tree); break; case LBMR_LBMR_OPT_VERSION_TYPE: opt_len = dissect_lbmr_opt_version(tvb, curr_offset, pinfo, opt_tree); break; case LBMR_LBMR_OPT_LOCAL_DOMAIN_TYPE: opt_len = dissect_lbmr_opt_local_domain(tvb, curr_offset, pinfo, opt_tree); break; default: opt_len = dissect_lbmr_opt_unknown(tvb, curr_offset, pinfo, opt_tree); break; } len += opt_len; curr_offset += opt_len; } return (len); } static void lbmr_tap_queue_packet(packet_info * pinfo, const lbmr_contents_t * contents) { const lbmr_topic_contents_t * topic; const lbmr_queue_contents_t * queue; switch (contents->type) { case LBMR_CONTENTS_TOPIC: topic = &(contents->contents.topic); if (topic->tqr_count > 0) { tqr_node_t * tqr = topic->tqr; while (tqr != NULL) { lbm_lbmr_topic_query_tap_info_t * tqr_tap = wmem_new0(wmem_packet_scope(), lbm_lbmr_topic_query_tap_info_t); tqr_tap->size = (guint16) sizeof(lbm_lbmr_topic_query_tap_info_t); tqr_tap->topic_length = (guint8)strlen(tqr->topic); memcpy(tqr_tap->topic, tqr->topic, tqr_tap->topic_length); tap_queue_packet(lbmr_topic_query_tap_handle, pinfo, (void *) tqr_tap); tqr = tqr->next; } } if (topic->tir_count > 0) { tir_node_t * tir = topic->tir; while (tir != NULL) { lbm_lbmr_topic_advertisement_tap_info_t * tir_tap = wmem_new0(wmem_packet_scope(), lbm_lbmr_topic_advertisement_tap_info_t); tir_tap->size = (guint16) sizeof(lbm_lbmr_topic_advertisement_tap_info_t); tir_tap->topic_length = (guint8)strlen(tir->topic); tir_tap->source_length = (guint8)strlen(tir->source_string); tir_tap->topic_index = tir->index; memcpy(tir_tap->topic, tir->topic, tir_tap->topic_length); memcpy(tir_tap->source, tir->source_string, tir_tap->source_length); tap_queue_packet(lbmr_topic_advertisement_tap_handle, pinfo, (void *) tir_tap); tir = tir->next; } } if (topic->wctqr_count > 0) { wctqr_node_t * wctqr = topic->wctqr; while (wctqr != NULL) { lbm_lbmr_pattern_query_tap_info_t * wctqr_tap = wmem_new0(wmem_packet_scope(), lbm_lbmr_pattern_query_tap_info_t); wctqr_tap->size = (guint16) sizeof(lbm_lbmr_pattern_query_tap_info_t); wctqr_tap->type = wctqr->type; wctqr_tap->pattern_length = (guint8)strlen(wctqr->pattern); memcpy(wctqr_tap->pattern, wctqr->pattern, wctqr_tap->pattern_length); tap_queue_packet(lbmr_pattern_query_tap_handle, pinfo, (void *) wctqr_tap); wctqr = wctqr->next; } } break; case LBMR_CONTENTS_QUEUE: queue = &(contents->contents.queue); if (queue->qqr_count > 0) { qqr_node_t * qqr = queue->qqr; while (qqr != NULL) { lbm_lbmr_queue_query_tap_info_t * qqr_tap = wmem_new0(wmem_packet_scope(), lbm_lbmr_queue_query_tap_info_t); qqr_tap->size = (guint16) sizeof(lbm_lbmr_queue_query_tap_info_t); qqr_tap->queue_length = (guint8)strlen(qqr->queue); memcpy(qqr_tap->queue, qqr->queue, qqr_tap->queue_length); tap_queue_packet(lbmr_queue_advertisement_tap_handle, pinfo, (void *) qqr_tap); qqr = qqr->next; } } if (queue->qir_count > 0) { qir_node_t * qir = queue->qir; while (qir != NULL) { lbm_lbmr_queue_advertisement_tap_info_t * qir_tap = wmem_new0(wmem_packet_scope(), lbm_lbmr_queue_advertisement_tap_info_t); qir_tap->size = (guint16) sizeof(lbm_lbmr_queue_advertisement_tap_info_t); qir_tap->port = qir->port; qir_tap->queue_length = (guint8)strlen(qir->queue); qir_tap->topic_length = (guint8)strlen(qir->topic); memcpy(qir_tap->queue, qir->queue, qir_tap->queue_length); memcpy(qir_tap->topic, qir->topic, qir_tap->topic_length); tap_queue_packet(lbmr_queue_query_tap_handle, pinfo, (void *) qir_tap); qir = qir->next; } } break; default: break; } } /*----------------------------------------------------------------------------*/ /* dissect_lbmr - The dissector for LBM Topic Resolution protocol. */ /*----------------------------------------------------------------------------*/ static int dissect_lbmr(tvbuff_t * tvb, packet_info * pinfo, proto_tree * tree, void * user_data _U_) { proto_tree * lbmr_tree = NULL; proto_item * ti = NULL; int offset = 0; guint8 ver_type; guint8 ver; guint8 type; lbmr_contents_t * contents = NULL; char * tag_name = NULL; int total_len_dissected = 0; int len_dissected = 0; tvbuff_t * packet_tvb = NULL; proto_item * lbmr_hdr_item = NULL; proto_tree * lbmr_hdr_tree = NULL; col_set_str(pinfo->cinfo, COL_PROTOCOL, "LBMR"); if (lbmr_use_tag) { tag_name = lbmr_tag_find(pinfo); } col_clear(pinfo->cinfo, COL_INFO); if (tag_name != NULL) { col_add_fstr(pinfo->cinfo, COL_INFO, "[Tag: %s]", tag_name); } col_set_fence(pinfo->cinfo, COL_INFO); ver_type = tvb_get_guint8(tvb, O_LBMR_HDR_T_VER_TYPE); ver = LBMR_HDR_VER(ver_type); type = LBMR_HDR_TYPE(ver_type); offset = 0; total_len_dissected = 0; packet_tvb = tvb; if ((ver_type & LBMR_HDR_TYPE_OPTS_MASK) != 0) { guint8 opt_type; guint8 opt_len; opt_type = tvb_get_guint8(tvb, -L_LBMR_LBMR_OPT_LEN_T + O_LBMR_LBMR_OPT_LEN_T_TYPE); opt_len = tvb_get_guint8(tvb, -L_LBMR_LBMR_OPT_LEN_T + O_LBMR_LBMR_OPT_LEN_T_LEN); if ((opt_type == LBMR_LBMR_OPT_LEN_TYPE) && (((gint)opt_len) == L_LBMR_LBMR_OPT_LEN_T)) { gint opt_total_len = 0; gint packet_len; packet_len = tvb_reported_length_remaining(tvb, 0); opt_total_len = (gint)tvb_get_ntohs(tvb, -L_LBMR_LBMR_OPT_LEN_T + O_LBMR_LBMR_OPT_LEN_T_TOTAL_LEN); if (packet_len > opt_total_len) { gint tvb_len = packet_len - opt_total_len; packet_tvb = tvb_new_subset_length(tvb, 0, tvb_len); } } } if (type == LBMR_HDR_TYPE_EXT) { guint8 ext_type = 0; const gchar * ext_string; proto_item * ext_type_item = NULL; ext_type = tvb_get_guint8(tvb, O_LBMR_HDR_EXT_TYPE_T_EXT_TYPE); ext_string = val_to_str(ext_type, lbmr_ext_packet_type, "Unknown(0x%02x)"); col_append_sep_fstr(pinfo->cinfo, COL_INFO, " ", "ExtType %s", ext_string); if (tag_name != NULL) { ti = proto_tree_add_protocol_format(tree, proto_lbmr, tvb, O_LBMR_HDR_EXT_TYPE_T_VER_TYPE, -1, "LBM Topic Resolution Protocol (Tag: %s): Version %u, Type 0x%x (%s), ExtType %s", tag_name, ver, type, val_to_str(type, lbmr_packet_type, "Unknown(0x%02x)"), ext_string); } else { ti = proto_tree_add_protocol_format(tree, proto_lbmr, tvb, O_LBMR_HDR_EXT_TYPE_T_VER_TYPE, -1, "LBM Topic Resolution Protocol: Version %u, Type 0x%x (%s), ExtType %s", ver, type, val_to_str(type, lbmr_packet_type, "Unknown(0x%02x)"), ext_string); } lbmr_tree = proto_item_add_subtree(ti, ett_lbmr); if (tag_name != NULL) { proto_item * item = NULL; item = proto_tree_add_string(lbmr_tree, hf_lbmr_tag, tvb, 0, 0, tag_name); PROTO_ITEM_SET_GENERATED(item); } lbmr_hdr_item = proto_tree_add_item(lbmr_tree, hf_lbmr_hdr, tvb, 0, -1, ENC_NA); lbmr_hdr_tree = proto_item_add_subtree(lbmr_hdr_item, ett_lbmr_hdr); (void) format_ver_type(tvb, 0, pinfo, lbmr_hdr_tree); ext_type_item = proto_tree_add_item(lbmr_hdr_tree, hf_lbmr_hdr_ext_type, tvb, O_LBMR_HDR_EXT_TYPE_T_EXT_TYPE, L_LBMR_HDR_EXT_TYPE_T_EXT_TYPE, ENC_BIG_ENDIAN); /* ver_type and ext_type have already been processed. But their dissected length is included in the individual type dissections below. */ switch (ext_type) { case LBMR_HDR_EXT_TYPE_UME_PROXY_SRC_ELECT: len_dissected = dissect_lbmr_pser(packet_tvb, offset, pinfo, lbmr_tree); break; case LBMR_HDR_EXT_TYPE_UMQ_QUEUE_MGMT: offset += L_LBMR_UMQ_QMGMT_HDR_T_VER_TYPE + L_LBMR_UMQ_QMGMT_HDR_T_EXT_TYPE; total_len_dissected += L_LBMR_UMQ_QMGMT_HDR_T_VER_TYPE + L_LBMR_UMQ_QMGMT_HDR_T_EXT_TYPE; len_dissected = lbmr_dissect_umq_qmgmt(packet_tvb, offset - 2, pinfo, lbmr_tree); break; case LBMR_HDR_EXT_TYPE_CONTEXT_INFO: len_dissected = dissect_lbmr_ctxinfo(packet_tvb, offset, pinfo, lbmr_tree); break; case LBMR_HDR_EXT_TYPE_TOPIC_RES_REQUEST: len_dissected = dissect_lbmr_topic_res_request(packet_tvb, offset, pinfo, lbmr_tree); break; case LBMR_HDR_EXT_TYPE_TNWG_MSG: len_dissected = dissect_lbmr_tnwg(packet_tvb, offset, pinfo, lbmr_tree); break; case LBMR_HDR_EXT_TYPE_REMOTE_DOMAIN_ROUTE: len_dissected = dissect_lbmr_remote_domain_route(packet_tvb, offset, pinfo, lbmr_tree); break; case LBMR_HDR_EXT_TYPE_REMOTE_CONTEXT_INFO: len_dissected = dissect_lbmr_rctxinfo(packet_tvb, offset, pinfo, lbmr_tree); break; default: len_dissected = L_LBMR_HDR_EXT_TYPE_T_VER_TYPE + L_LBMR_HDR_EXT_TYPE_T_EXT_TYPE; expert_add_info_format(pinfo, ext_type_item, &ei_lbmr_analysis_invalid_value, "Unknown LBMR extended type 0x%02x", ext_type); break; } offset += len_dissected; total_len_dissected += len_dissected; } else { guint8 tqrs = 0; guint16 tirs = 0; gboolean rd_keepalive = FALSE; gboolean topic_mgmt = FALSE; gboolean client_rd_keepalive = FALSE; gboolean zero_tirs_tqrs = FALSE; proto_item * type_item = NULL; tqrs = tvb_get_guint8(tvb, O_LBMR_HDR_T_TQRS); tirs = tvb_get_ntohs(tvb, O_LBMR_HDR_T_TIRS); if ((tqrs == 0) && (tirs == 0)) { zero_tirs_tqrs = TRUE; } if ((type == LBMR_HDR_TYPE_NORMAL) && zero_tirs_tqrs) { rd_keepalive = TRUE; } else if (zero_tirs_tqrs && ((type == LBMR_HDR_TYPE_UCAST_RCV_ALIVE) || (type == LBMR_HDR_TYPE_UCAST_SRC_ALIVE))) { client_rd_keepalive = TRUE; } else if (type == LBMR_HDR_TYPE_TOPIC_MGMT) { topic_mgmt = TRUE; } switch (type) { case LBMR_HDR_TYPE_QUEUE_RES: col_append_sep_fstr(pinfo->cinfo, COL_INFO, " ", "QQRs %u QIRs %" G_GUINT16_FORMAT, tqrs, tirs); break; default: if (rd_keepalive) { col_append_sep_str(pinfo->cinfo, COL_INFO, " ", "Unicast Resolver Keepalive"); } else if (client_rd_keepalive) { if (type == LBMR_HDR_TYPE_UCAST_RCV_ALIVE) { col_append_sep_str(pinfo->cinfo, COL_INFO, " ", "Receiver Alive"); } else { col_append_sep_str(pinfo->cinfo, COL_INFO, " ", "Source Alive"); } } else if (topic_mgmt) { col_append_sep_str(pinfo->cinfo, COL_INFO, " ", "Topic Management"); } else { col_append_sep_fstr(pinfo->cinfo, COL_INFO, " ", "TQRs %u TIRs %" G_GUINT16_FORMAT, tqrs, tirs); } break; } switch (type) { case LBMR_HDR_TYPE_QUEUE_RES: if (tag_name != NULL) { ti = proto_tree_add_protocol_format(tree, proto_lbmr, tvb, O_LBMR_HDR_T_VER_TYPE, -1, "LBM Topic Resolution Protocol (Tag: %s): Version %u, Type 0x%x (%s) QQRs %u, QIRs %" G_GUINT16_FORMAT, tag_name, ver, type, val_to_str(type, lbmr_packet_type, "Unknown(0x%02x)"), tqrs, tirs); } else { ti = proto_tree_add_protocol_format(tree, proto_lbmr, tvb, O_LBMR_HDR_T_VER_TYPE, -1, "LBM Topic Resolution Protocol: Version %u, Type 0x%x (%s) QQRs %u, QIRs %" G_GUINT16_FORMAT, ver, type, val_to_str(type, lbmr_packet_type, "Unknown(0x%02x)"), tqrs, tirs); } break; default: if (tag_name != NULL) { if (rd_keepalive) { ti = proto_tree_add_protocol_format(tree, proto_lbmr, tvb, O_LBMR_HDR_T_VER_TYPE, -1, "LBM Topic Resolution Protocol (Tag: %s): Version %u, Type 0x%x (%s) Unicast Resolver Keepalive", tag_name, ver, type, val_to_str(type, lbmr_packet_type, "Unknown(0x%02x)")); } else if (topic_mgmt) { ti = proto_tree_add_protocol_format(tree, proto_lbmr, tvb, O_LBMR_HDR_T_VER_TYPE, -1, "LBM Topic Resolution Protocol (Tag: %s): Version %u, Type 0x%x (%s) Topic Management", tag_name, ver, type, val_to_str(type, lbmr_packet_type, "Unknown(0x%02x)")); } else { ti = proto_tree_add_protocol_format(tree, proto_lbmr, tvb, O_LBMR_HDR_T_VER_TYPE, -1, "LBM Topic Resolution Protocol (Tag: %s): Version %u, Type 0x%x (%s) TQRs %u, TIRs %" G_GUINT16_FORMAT, tag_name, ver, type, val_to_str(type, lbmr_packet_type, "Unknown(0x%02x)"), tqrs, tirs); } } else { if (rd_keepalive) { ti = proto_tree_add_protocol_format(tree, proto_lbmr, tvb, O_LBMR_HDR_T_VER_TYPE, -1, "LBM Topic Resolution Protocol: Version %u, Type 0x%x (%s) Unicast Resolver Keepalive", ver, type, val_to_str(type, lbmr_packet_type, "Unknown(0x%02x)")); } else if (topic_mgmt) { ti = proto_tree_add_protocol_format(tree, proto_lbmr, tvb, O_LBMR_HDR_T_VER_TYPE, -1, "LBM Topic Resolution Protocol: Version %u, Type 0x%x (%s) Topic Management", ver, type, val_to_str(type, lbmr_packet_type, "Unknown(0x%02x)")); } else { ti = proto_tree_add_protocol_format(tree, proto_lbmr, tvb, O_LBMR_HDR_T_VER_TYPE, -1, "LBM Topic Resolution Protocol: Version %u, Type 0x%x (%s) TQRs %u, TIRs %" G_GUINT16_FORMAT, ver, type, val_to_str(type, lbmr_packet_type, "Unknown(0x%02x)"), tqrs, tirs); } } break; } lbmr_tree = proto_item_add_subtree(ti, ett_lbmr); if (tag_name != NULL) { proto_item * item; item = proto_tree_add_string(lbmr_tree, hf_lbmr_tag, tvb, 0, 0, tag_name); PROTO_ITEM_SET_GENERATED(item); } lbmr_hdr_item = proto_tree_add_item(lbmr_tree, hf_lbmr_hdr, tvb, 0, -1, ENC_NA); lbmr_hdr_tree = proto_item_add_subtree(lbmr_hdr_item, ett_lbmr_hdr); type_item = format_ver_type(tvb, 0, pinfo, lbmr_hdr_tree); switch (type) { case LBMR_HDR_TYPE_QUEUE_RES: proto_tree_add_item(lbmr_hdr_tree, hf_lbmr_hdr_qqrs, tvb, O_LBMR_HDR_T_TQRS, L_LBMR_HDR_T_TQRS, ENC_BIG_ENDIAN); proto_tree_add_item(lbmr_hdr_tree, hf_lbmr_hdr_qirs, tvb, O_LBMR_HDR_T_TIRS, L_LBMR_HDR_T_TIRS, ENC_BIG_ENDIAN); break; default: proto_tree_add_item(lbmr_hdr_tree, hf_lbmr_hdr_tqrs, tvb, O_LBMR_HDR_T_TQRS, L_LBMR_HDR_T_TQRS, ENC_BIG_ENDIAN); proto_tree_add_item(lbmr_hdr_tree, hf_lbmr_hdr_tirs, tvb, O_LBMR_HDR_T_TIRS, L_LBMR_HDR_T_TIRS, ENC_BIG_ENDIAN); break; } offset = L_LBMR_HDR_T; total_len_dissected = L_LBMR_HDR_T; contents = wmem_new0(wmem_packet_scope(), lbmr_contents_t); switch (type) { case LBMR_HDR_TYPE_QUEUE_RES: contents->type = LBMR_CONTENTS_QUEUE; if (tqrs > 0) { len_dissected = dissect_lbmr_qqrs(packet_tvb, offset, tqrs, pinfo, lbmr_tree, contents); total_len_dissected += len_dissected; offset += len_dissected; } if (tirs > 0) { len_dissected = dissect_lbmr_qirs(packet_tvb, offset, tirs, pinfo, lbmr_tree, contents); total_len_dissected += len_dissected; offset += len_dissected; } lbmr_tap_queue_packet(pinfo, contents); break; case LBMR_HDR_TYPE_NORMAL: case LBMR_HDR_TYPE_WC_TQRS: if (!rd_keepalive) { contents->type = LBMR_CONTENTS_TOPIC; if (tqrs > 0) { gboolean wc_tqrs = FALSE; if (type == LBMR_HDR_TYPE_WC_TQRS) { wc_tqrs = TRUE; } len_dissected = dissect_lbmr_tqrs(packet_tvb, offset, tqrs, pinfo, lbmr_tree, wc_tqrs, contents); total_len_dissected += len_dissected; offset += len_dissected; } if (tirs > 0) { len_dissected = dissect_lbmr_tirs(packet_tvb, offset, tirs, pinfo, lbmr_tree, "TIRs", contents); total_len_dissected += len_dissected; offset += len_dissected; } lbmr_tap_queue_packet(pinfo, contents); } break; case LBMR_HDR_TYPE_TOPIC_MGMT: len_dissected = dissect_lbmr_tmb(packet_tvb, offset, pinfo, lbmr_tree); total_len_dissected += len_dissected; offset += len_dissected; break; case LBMR_HDR_TYPE_UCAST_RCV_ALIVE: case LBMR_HDR_TYPE_UCAST_SRC_ALIVE: break; default: expert_add_info_format(pinfo, type_item, &ei_lbmr_analysis_invalid_value, "Unknown LBMR type 0x%02x", type); break; } } if ((tvb_reported_length_remaining(tvb, offset) > 0) && ((ver_type & LBMR_HDR_TYPE_OPTS_MASK) != 0)) { /* Process LBMR packet options. */ len_dissected = dissect_lbmr_options(tvb, offset, pinfo, lbmr_tree); total_len_dissected += len_dissected; } return (total_len_dissected); } static gboolean test_lbmr_packet(tvbuff_t * tvb, packet_info * pinfo, proto_tree * tree, void * user_data _U_) { lbmr_tag_entry_t entry; gboolean valid_packet = FALSE; /* Must be a UDP packet. */ if (pinfo->ptype != PT_UDP) { return (FALSE); } /* Destination address must be IPV4 and 4 bytes in length. */ if ((pinfo->dst.type != AT_IPv4) || (pinfo->dst.len != 4)) { return (FALSE); } if (lbmr_use_tag) { if (lbmr_tag_find(pinfo) != NULL) { valid_packet = TRUE; } } else { entry.name = NULL; entry.mc_outgoing_udp_port = lbmr_mc_outgoing_udp_port; entry.mc_incoming_udp_port = lbmr_mc_incoming_udp_port; entry.mc_incoming_address = NULL; entry.mc_incoming_address_val_h = lbmr_mc_incoming_address_host; entry.mc_outgoing_address = NULL; entry.mc_outgoing_address_val_h = lbmr_mc_outgoing_address_host; entry.uc_port_high = lbmr_uc_port_high; entry.uc_port_low = lbmr_uc_port_low; entry.uc_dest_port = lbmr_uc_dest_port; entry.uc_address = NULL; entry.uc_address_val_h = lbmr_uc_address_host; valid_packet = lbmr_match_packet(pinfo, &entry); } if (valid_packet) { dissect_lbmr(tvb, pinfo, tree, NULL); return (TRUE); } return (FALSE); } /* Register all the bits needed with the filtering engine */ void proto_register_lbmr(void) { static hf_register_info hf[] = { { &hf_lbmr_tag, { "Tag", "lbmr.tag", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_hdr, { "Header", "lbmr.hdr", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_hdr_ver, { "Version", "lbmr.hdr.ver", FT_UINT8, BASE_DEC, NULL, LBMR_HDR_VER_VER_MASK, NULL, HFILL } }, { &hf_lbmr_hdr_opt, { "Options", "lbmr.hdr.opts", FT_BOOLEAN, 8, TFS(&tfs_present_not_present), LBMR_HDR_TYPE_OPTS_MASK, "Set if LBMR options are present", HFILL } }, { &hf_lbmr_hdr_type, { "Type", "lbmr.hdr.type", FT_UINT8, BASE_HEX, VALS(lbmr_packet_type), LBMR_HDR_VER_TYPE_MASK, NULL, HFILL } }, { &hf_lbmr_hdr_tqrs, { "Topic Query Records", "lbmr.hdr.tqrs", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_hdr_tirs, { "Topic Information Records", "lbmr.hdr.tirs", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_hdr_qqrs, { "Queue Query Records", "lbmr.hdr.qqrs", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_hdr_qirs, { "Queue Information Records", "lbmr.hdr.qirs", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_hdr_ext_type, { "Extended Type", "lbmr.hdr.ext_type", FT_UINT8, BASE_HEX, VALS(lbmr_ext_packet_type), 0x0, NULL, HFILL } }, { &hf_lbmr_tqrs, { "TQRs", "lbmr.tqrs", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tqr, { "TQR", "lbmr.tqr", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tqr_pattern_type, { "Pattern Type", "lbmr.tqr.pattern_type", FT_UINT8, BASE_DEC, VALS(lbm_wildcard_pattern_type), 0x0, NULL, HFILL } }, { &hf_lbmr_tqr_pattern, { "Pattern", "lbmr.tqr.pattern", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tqr_name, { "Topic Name", "lbmr.tqr.name", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tirs, { "TIRs", "lbmr.tirs", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir, { "TIR", "lbmr.tir", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_name, { "Topic Name", "lbmr.tir.name", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_transport_opts, { "Transport Options Present", "lbmr.tir.transport_opts", FT_BOOLEAN, L_LBMR_TIR_T_TRANSPORT * 8, TFS(&tfs_set_notset), LBMR_TIR_OPTIONS, "Set if transport options are present", HFILL } }, { &hf_lbmr_tir_transport_type, { "Transport Type", "lbmr.tir.transport_type", FT_UINT8, BASE_HEX, VALS(lbmr_transport_type), LBMR_TIR_TRANSPORT, NULL, HFILL } }, { &hf_lbmr_tir_tlen, { "Transport Info Length", "lbmr.tir.tlen", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_ttl, { "TTL", "lbmr.tir.ttl", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_index, { "Index", "lbmr.tir.index", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_tcp, { "TCP Transport", "lbmr.tir.tcp", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_tcp_ip, { "Source IP", "lbmr.tir.tcp.ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_tcp_session_id, { "Session ID", "lbmr.tir.tcp.session_id", FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_tcp_port, { "Source Port", "lbmr.tir.tcp.port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtrm, { "LBTRM Transport", "lbmr.tir.lbtrm", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtrm_src_addr, { "Source IP", "lbmr.tir.lbtrm.srcip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtrm_mcast_addr, { "Multicast IP", "lbmr.tir.lbtrm.mcastip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtrm_session_id, { "Session ID", "lbmr.tir.lbtrm.sessid", FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtrm_udp_dest_port, { "Destination Port", "lbmr.tir.lbtrm.dport", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtrm_src_ucast_port, { "Source Port", "lbmr.tir.lbtrm.sport", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtru, { "LBTRU Transport", "lbmr.tir.lbtru", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtru_ip, { "Source IP", "lbmr.tir.lbtru.ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtru_port, { "Source Port", "lbmr.tir.lbtru.port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtru_session_id, { "Session ID", "lbmr.tir.lbtru.session_id", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtipc, { "LBTIPC Transport", "lbmr.tir.lbtipc", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtipc_host_id, { "Host ID", "lbmr.tir.lbtipc.host_id", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtipc_session_id, { "Session ID", "lbmr.tir.lbtipc.session_id", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtipc_xport_id, { "Transport ID", "lbmr.tir.lbtipc.xport_id", FT_UINT16, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtrdma, { "LBTRDMA Transport", "lbmr.tir.lbtrdma", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtrdma_ip, { "Source IP", "lbmr.tir.lbtrdma.ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtrdma_session_id, { "Session ID", "lbmr.tir.lbtrdma.session_id", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtrdma_port, { "Port", "lbmr.tir.lbtrdma.port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtsmx, { "LBTSMX Transport", "lbmr.tir.lbtsmx", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtsmx_host_id, { "Host ID", "lbmr.tir.lbtsmx.host_id", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtsmx_session_id, { "Session ID", "lbmr.tir.lbtsmx.session_id", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_lbtsmx_xport_id, { "Transport ID", "lbmr.tir.lbtsmx.xport_id", FT_UINT16, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_channel, { "Channel", "lbmr.tir.channel", FT_UINT64, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tir_unknown_transport, { "Unknown Transport", "lbmr.tir.unknown_transport", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topts, { "Options", "lbmr.topts", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_len, { "Length Option", "lbmr.topt.len", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_len_type, { "Type", "lbmr.topt.len.type", FT_UINT8, BASE_DEC, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_len_len, { "Length", "lbmr.topt.len.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_len_total_len, { "Total Length", "lbmr.topt.len.total_len", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume, { "UME Option", "lbmr.topt.ume", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_type, { "Type", "lbmr.topt.ume.type", FT_UINT8, BASE_DEC, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_len, { "Length", "lbmr.topt.ume.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_flags, { "Flags", "lbmr.topt.ume.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_flags_ignore, { "Ignore", "lbmr.topt.ume.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_UME_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_UME_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_ume_flags_latejoin, { "Late Join", "lbmr.topt.ume.flags.latejoin", FT_BOOLEAN, L_LBMR_TOPIC_OPT_UME_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TOPIC_OPT_UME_FLAG_LATEJOIN, "If set, the source provides late join", HFILL } }, { &hf_lbmr_topt_ume_flags_store, { "Store", "lbmr.topt.ume.flags.store", FT_BOOLEAN, L_LBMR_TOPIC_OPT_UME_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TOPIC_OPT_UME_FLAG_STORE, "If set, one or more stores are specified", HFILL } }, { &hf_lbmr_topt_ume_flags_qccap, { "Q/C Capable", "lbmr.topt.ume.flags.qccap", FT_BOOLEAN, L_LBMR_TOPIC_OPT_UME_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TOPIC_OPT_UME_FLAG_QCCAP, "If set, the source supports quorun/consensus", HFILL } }, { &hf_lbmr_topt_ume_flags_acktosrc, { "Send ACKs to Source", "lbmr.topt.ume.flags.acktosrc", FT_BOOLEAN, L_LBMR_TOPIC_OPT_UME_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TOPIC_OPT_UME_FLAG_ACKTOSRC, "If set, receivers send ACKs to the source", HFILL } }, { &hf_lbmr_topt_ume_store_tcp_port, { "Store TCP Port", "lbmr.topt.ume.store_tcp_port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_src_tcp_port, { "Source TCP Port", "lbmr.topt.ume.src_tcp_port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_tcp_addr, { "Store TCP Address", "lbmr.topt.ume.store_tcp_addr", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_src_tcp_addr, { "Source TCP Address", "lbmr.topt.ume.src_tcp_addr", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_src_reg_id, { "Source Registration ID", "lbmr.topt.ume.src_reg_id", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_transport_idx, { "Transport Index", "lbmr.topt.ume.transport_idx", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_high_seqnum, { "High Sequence Number", "lbmr.topt.ume.high_seqnum", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_low_seqnum, { "Low Sequence Number", "lbmr.topt.ume.low_seqnum", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store, { "UME Store Option", "lbmr.topt.ume_store", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_type, { "Type", "lbmr.topt.ume_store.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_len, { "Length", "lbmr.topt.ume_store.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_flags, { "Flags", "lbmr.topt.ume_store.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_flags_ignore, { "Ignore", "lbmr.topt.ume_store.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_UME_STORE_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_UME_STORE_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_grp_idx, { "Group Index", "lbmr.topt.ume_store.grp_idx", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_store_tcp_port, { "Store TCP Port", "lbmr.topt.ume_store.store_tcp_port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_store_idx, { "Store Index", "lbmr.topt.ume_store.store_idx", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_store_ip_addr, { "Store IP Address", "lbmr.topt.ume_store.store_ip_addr", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_src_reg_id, { "Source Registration ID", "lbmr.topt.ume_store.src_reg_id", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_group, { "UME Store Group Option", "lbmr.topt.ume_store_group", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_group_type, { "Type", "lbmr.topt.ume_store_group.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_group_len, { "Length", "lbmr.topt.ume_store_group.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_group_flags, { "Flags", "lbmr.topt.ume_store_group.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_group_flags_ignore, { "Ignore", "lbmr.topt.ume_store_group.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_UME_STORE_GROUP_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_UME_STORE_GROUP_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_group_grp_idx, { "Group Index", "lbmr.topt.ume_store_group.grp_idx", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_group_grp_sz, { "Group Size", "lbmr.topt.ume_store_group.grp_sz", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ume_store_group_reserved, { "Reserved", "lbmr.topt.ume_store_group.reserved", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_latejoin, { "Late Join Option", "lbmr.topt.latejoin", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_latejoin_type, { "Type", "lbmr.topt.latejoin.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_latejoin_len, { "Length", "lbmr.topt.latejoin.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_latejoin_flags, { "Flags", "lbmr.topt.latejoin.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_latejoin_flags_ignore, { "Ignore", "lbmr.topt.latejoin.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_LATEJOIN_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_LATEJOIN_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_latejoin_flags_acktosrc, { "Send ACKs to Source", "lbmr.topt.latejoin.flags.acktosrc", FT_BOOLEAN, L_LBMR_TOPIC_OPT_LATEJOIN_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TOPIC_OPT_LATEJOIN_FLAG_ACKTOSRC, "If set, ACKs are sent to source", HFILL } }, { &hf_lbmr_topt_latejoin_src_tcp_port, { "Source TCP Port", "lbmr.topt.latejoin.src_tcp_port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_latejoin_reserved, { "Reserved", "lbmr.topt.latejoin.reserved", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_latejoin_src_ip_addr, { "Source IP Address", "lbmr.topt.latejoin.src_ip_addr", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_latejoin_transport_idx, { "Transport Index", "lbmr.topt.latejoin.transport_idx", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_latejoin_high_seqnum, { "High Sequence Number", "lbmr.topt.latejoin.high_seqnum", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_latejoin_low_seqnum, { "Low Sequence Number", "lbmr.topt.latejoin.low_seqnum", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_umq_rcridx, { "Receiver Control Record Index Option", "lbmr.topt.umq_rcridx", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_umq_rcridx_type, { "Type", "lbmr.topt.umq_rcridx.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_umq_rcridx_len, { "Length", "lbmr.topt.umq_rcridx.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_umq_rcridx_flags, { "Flags", "lbmr.topt.umq_rcridx.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_umq_rcridx_flags_ignore, { "Ignore", "lbmr.topt.umq_rcridx.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_UMQ_RCRIDX_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_UMQ_RCRIDX_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_umq_rcridx_rcr_idx, { "Receiver Control Record Index", "lbmr.topt.umq_rcridx.rcr_idx", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_umq_qinfo, { "Queue Info Option", "lbmr.topt.umq_qinfo", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_umq_qinfo_type, { "Type", "lbmr.topt.umq_qinfo.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_umq_qinfo_len, { "Length", "lbmr.topt.umq_qinfo.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_umq_qinfo_flags, { "Flags", "lbmr.topt.umq_qinfo.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_umq_qinfo_flags_ignore, { "Ignore", "lbmr.topt.umq_qinfo.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_UMQ_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_umq_qinfo_flags_queue, { "Queue", "lbmr.topt.umq_qinfo.flags.queue", FT_BOOLEAN, L_LBMR_TOPIC_OPT_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TOPIC_OPT_UMQ_FLAG_QUEUE, NULL, HFILL } }, { &hf_lbmr_topt_umq_qinfo_flags_rcvlisten, { "Receiver Listen", "lbmr.topt.umq_qinfo.flags.rcvlisten", FT_BOOLEAN, L_LBMR_TOPIC_OPT_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TOPIC_OPT_UMQ_FLAG_RCVLISTEN, NULL, HFILL } }, { &hf_lbmr_topt_umq_qinfo_flags_control, { "Control", "lbmr.topt.umq_qinfo.flags.control", FT_BOOLEAN, L_LBMR_TOPIC_OPT_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TOPIC_OPT_UMQ_FLAG_CONTROL, NULL, HFILL } }, { &hf_lbmr_topt_umq_qinfo_flags_srcrcvlisten, { "Source Receiver Listen", "lbmr.topt.umq_qinfo.flags.srcrcvlisten", FT_BOOLEAN, L_LBMR_TOPIC_OPT_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TOPIC_OPT_UMQ_FLAG_SRCRCVLISTEN, NULL, HFILL } }, { &hf_lbmr_topt_umq_qinfo_flags_participants_only, { "Participants Only", "lbmr.topt.umq_qinfo.flags.participants_only", FT_BOOLEAN, L_LBMR_TOPIC_OPT_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TOPIC_OPT_UMQ_FLAG_PARTICIPANTS_ONLY, NULL, HFILL } }, { &hf_lbmr_topt_umq_qinfo_queue, { "Queue", "lbmr.topt.ume_qinfo.queue", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_cost, { "Cost Option", "lbmr.topt.cost", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_cost_type, { "Type", "lbmr.topt.cost.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_cost_len, { "Length", "lbmr.topt.cost.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_cost_flags, { "Flags", "lbmr.topt.cost.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_cost_flags_ignore, { "Ignore", "lbmr.topt.cost.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_COST_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_COST_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_cost_hop_count, { "Hop count", "lbmr.topt.cost.hop_count", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_cost_cost, { "Cost", "lbmr.topt.cost.cost", FT_INT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_otid, { "Originating Transport ID Option", "lbmr.topt.otid", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_otid_type, { "Type", "lbmr.topt.otid.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_otid_len, { "Length", "lbmr.topt.otid.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_otid_flags, { "Flags", "lbmr.topt.otid.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_otid_flags_ignore, { "Ignore", "lbmr.topt.otid.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_OTID_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_OTID_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_otid_originating_transport, { "Originating Transport ID", "lbmr.topt.otid.originating_transport", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinst, { "Context Instance Option", "lbmr.topt.ctxinst", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinst_type, { "Type", "lbmr.topt.ctxinst.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinst_len, { "Length", "lbmr.topt.ctxinst.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinst_flags, { "Flags", "lbmr.topt.ctxinst.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinst_flags_ignore, { "Ignore", "lbmr.topt.ctxinst.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_CTXINST_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_CTXINST_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_ctxinst_res, { "Reserved", "lbmr.topt.ctxinst.res", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinst_ctxinst, { "Context Instance", "lbmr.topt.ctxinst.ctxinst", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinsts, { "Store Context Instance Option", "lbmr.topt.ctxinsts", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinsts_type, { "Type", "lbmr.topt.ctxinsts.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinsts_len, { "Length", "lbmr.topt.ctxinsts.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinsts_flags, { "Flags", "lbmr.topt.ctxinsts.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinsts_flags_ignore, { "Ignore", "lbmr.topt.ctxinsts.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_CTXINSTS_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_CTXINSTS_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_ctxinsts_idx, { "Index", "lbmr.topt.ctxinsts.idx", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinsts_ctxinst, { "Store Context Instance", "lbmr.topt.ctxinsts.ctxinsts", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ulb, { "ULB Option", "lbmr.topt.ulb", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ulb_type, { "Type", "lbmr.topt.ulb.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ulb_len, { "Length", "lbmr.topt.ulb.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ulb_flags, { "Flags", "lbmr.topt.ulb.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ulb_flags_ignore, { "Ignore", "lbmr.topt.ulb.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_ULB_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_ULB_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_ulb_queue_id, { "Queue ID", "lbmr.topt.ulb.queue_id", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ulb_regid, { "Registration ID", "lbmr.topt.ulb.regid", FT_UINT64, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ulb_ulb_src_id, { "ULB Source ID", "lbmr.topt.ulb.ulb_src_id", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ulb_src_ip_addr, { "Source IP Address", "lbmr.topt.ulb.src_ip_addr", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ulb_src_tcp_port, { "Source TCP Port", "lbmr.topt.ulb.src_tcp_port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ulb_reserved, { "Reserved", "lbmr.topt.ulb.reserved", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinstq, { "Queue Context Instance Option", "lbmr.topt.ctxinstq", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinstq_type, { "Type", "lbmr.topt.ctxinstq.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinstq_len, { "Length", "lbmr.topt.ctxinstq.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinstq_flags, { "Flags", "lbmr.topt.ctxinstq.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinstq_flags_ignore, { "Ignore", "lbmr.topt.ctxinstq.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_CTXINSTQ_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_CTXINSTQ_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_ctxinstq_idx, { "Index", "lbmr.topt.ctxinstq.idx", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_ctxinstq_ctxinst, { "Store Context Instance", "lbmr.topt.ctxinstq.ctxinstq", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_domain_id, { "Domain ID Option", "lbmr.topt.domain_id", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_domain_id_type, { "Type", "lbmr.topt.domain_id.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_domain_id_len, { "Length", "lbmr.topt.domain_id.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_domain_id_flags, { "Flags", "lbmr.topt.domain_id.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_domain_id_flags_ignore, { "Ignore", "lbmr.topt.domain_id.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_DOMAIN_ID_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_DOMAIN_ID_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_domain_id_domain_id, { "Domain ID", "lbmr.topt.domain_id.domain_id", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_exfunc, { "Extended Functionality Option", "lbmr.topt.exfunc", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_exfunc_type, { "Type", "lbmr.topt.exfunc.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_exfunc_len, { "Length", "lbmr.topt.exfunc.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_exfunc_flags, { "Flags", "lbmr.topt.exfunc.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_exfunc_flags_ignore, { "Ignore", "lbmr.topt.exfunc.flags.ignore", FT_BOOLEAN, L_LBMR_TOPIC_OPT_EXFUNC_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TOPIC_OPT_EXFUNC_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_topt_exfunc_src_tcp_port, { "Source TCP Port", "lbmr.topt.exfunc.src_tcp_port", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_exfunc_reserved, { "Reserved", "lbmr.topt.exfunc.reserved", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_exfunc_src_ip_addr, { "Source IP Address", "lbmr.topt.exfunc.src_ip_addr", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_exfunc_functionality_flags, { "Functionality Flags", "lbmr.topt.exfunc.functionality_flags", FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_exfunc_functionality_flags_ulb, { "ULB", "lbmr.topt.exfunc.functionality_flags.ulb", FT_BOOLEAN, L_LBMR_TOPIC_OPT_EXFUNC_T_FUNCTIONALITY_FLAGS * 8, TFS(&tfs_capable_not_capable), LBM_TOPIC_OPT_EXFUNC_FFLAG_ULB, "Set if ULB supported", HFILL } }, { &hf_lbmr_topt_exfunc_functionality_flags_umq, { "UMQ", "lbmr.topt.exfunc.functionality_flags.umq", FT_BOOLEAN, L_LBMR_TOPIC_OPT_EXFUNC_T_FUNCTIONALITY_FLAGS * 8, TFS(&tfs_capable_not_capable), LBM_TOPIC_OPT_EXFUNC_FFLAG_UMQ, "Set if UMQ supported", HFILL } }, { &hf_lbmr_topt_exfunc_functionality_flags_ume, { "UME", "lbmr.topt.exfunc.functionality_flags.ume", FT_BOOLEAN, L_LBMR_TOPIC_OPT_EXFUNC_T_FUNCTIONALITY_FLAGS * 8, TFS(&tfs_capable_not_capable), LBM_TOPIC_OPT_EXFUNC_FFLAG_UME, "Set if UME supported", HFILL } }, { &hf_lbmr_topt_exfunc_functionality_flags_lj, { "Late Join", "lbmr.topt.exfunc.functionality_flags.lj", FT_BOOLEAN, L_LBMR_TOPIC_OPT_EXFUNC_T_FUNCTIONALITY_FLAGS * 8, TFS(&tfs_capable_not_capable), LBM_TOPIC_OPT_EXFUNC_FFLAG_LJ, "Set if late join supported", HFILL } }, { &hf_lbmr_topt_unknown, { "Unknown Option", "lbmr.topt.unknown", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_unknown_type, { "Type", "lbmr.topt.unknown.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_topic_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_topt_unknown_len, { "Length", "lbmr.topt.unknown.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_unknown_flags, { "Flags", "lbmr.topt.unknown.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topt_unknown_data, { "Data", "lbmr.topt.unknown.data", FT_BYTES, FT_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tmb, { "Topic Management Block", "lbmr.tmb", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tmb_len, { "Length", "lbmr.tmb.len", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tmb_tmrs, { "Topic Management Record Count", "lbmr.tmb.tmrs", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tmb_tmr_list, { "Topic Management Records", "lbmr.tmb.tmr_list", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tmr, { "Topic Management Record", "lbmr.tmb.tmr", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tmr_len, { "Length", "lbmr.tmb.tmr.len", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tmr_type, { "TMR Type", "lbmr.tmb.tmr.type", FT_UINT8, BASE_DEC, VALS(lbmr_tmr_type), 0x0, NULL, HFILL } }, { &hf_lbmr_tmr_flags, { "Flags", "lbmr.tmb.tmr.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tmr_flags_response, { "Response", "lbmr.tmb.tmr.flags.response", FT_BOOLEAN, L_LBMR_TMR_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TMR_FLAG_RESPONSE, "Set if this is a response", HFILL } }, { &hf_lbmr_tmr_flags_wildcard_pcre, { "PCRE pattern", "lbmr.tmb.tmr.flags.wildcard_pcre", FT_BOOLEAN, L_LBMR_TMR_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TMR_FLAG_WILDCARD_PCRE, "Set if topic is a PCRE pattern", HFILL } }, { &hf_lbmr_tmr_flags_wildcard_regex, { "Regex pattern", "lbmr.tmb.tmr.flags.wildcard_regex", FT_BOOLEAN, L_LBMR_TMR_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TMR_FLAG_WILDCARD_REGEX, "Set if topic is a Regex pattern", HFILL } }, { &hf_lbmr_tmr_name, { "Topic Name", "lbmr.tmb.tmr.name", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_dep_type, { "Dependent Type", "lbmr.pser.dep_type", FT_UINT16, BASE_DEC_HEX, VALS(lbmr_pser_dependent_type), 0x0, NULL, HFILL } }, { &hf_lbmr_pser_len, { "Length", "lbmr.pser.len", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_flags, { "Flags", "lbmr.pser.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_flags_option, { "Option", "lbmr.pser.flags.option", FT_BOOLEAN, L_LBMR_PSER_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_PSER_OPT_FLAG, NULL, HFILL } }, { &hf_lbmr_pser_source_ip, { "Source IP", "lbmr.pser.source_ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_store_ip, { "Store IP", "lbmr.pser.store_ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_transport_idx, { "Transport Index", "lbmr.pser.transport_idx", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_topic_idx, { "Topic Index", "lbmr.pser.topic_idx", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_source_port, { "Source Port", "lbmr.pser.source_port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_store_port, { "Store Port", "lbmr.pser.store_port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_topic, { "Topic", "lbmr.pser.topic", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_opts, { "Options", "lbmr.pser.opts", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_optlen, { "Option Length", "lbmr.pser.opt.optlen", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_optlen_type, { "Type", "lbmr.pser.opt.optlen.type", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_optlen_optlen, { "Options Length", "lbmr.pser.opt.optlen.optlen", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_opt_ctxinst, { "Context Instance Option", "lbmr.pser.opt.ctxinst", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_opt_ctxinst_len, { "Length", "lbmr.pser.opt.ctxinst.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_pser_opt_ctxinst_type, { "Type", "lbmr.pser.opt.ctxinst.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_pser_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_pser_opt_ctxinst_ctxinst, { "Context Instance", "lbmr.pser.opt.ctxinst.ctxinst", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qqr, { "QQRs", "lbmr.qqr", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qqr_name, { "Queue name", "lbmr.qqr.name", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qirs, { "QIRs", "lbmr.qirs", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir, { "QIR", "lbmr.qir", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_queue_name, { "Queue name", "lbmr.qir.qname", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_topic_name, { "Topic name", "lbmr.qir.tname", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_queue_id, { "Queue ID", "lbmr.qir.queue_id", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_queue_ver, { "Queue Version", "lbmr.qir.queue_ver", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_queue_prev_ver, { "Queue Previous Version", "lbmr.qir.queue_prev_ver", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_option_flag, { "QIR Options Present", "lbmr.qir.opts", FT_BOOLEAN, L_LBMR_QIR_T_GRP_BLKS * 8, TFS(&tfs_set_notset), LBMR_QIR_OPTIONS, NULL, HFILL } }, { &hf_lbmr_qir_grp_blks, { "Group Block Count", "lbmr.qir.grp_blks", FT_UINT16, BASE_DEC_HEX, NULL, LBMR_QIR_GRP_BLOCKS_MASK, NULL, HFILL } }, { &hf_lbmr_qir_queue_blks, { "Queue Blocks", "lbmr.qir.queue_blks", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_grps, { "Groups", "lbmr.qir.grps", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_grp_blk, { "Group Block", "lbmr.qir.grp", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_grp_blk_grp_idx, { "Group Index", "lbmr.qir.grp.grp_idx", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_grp_blk_grp_sz, { "Group Size", "lbmr.qir.grp.grp_sz", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_queues, { "Queues", "lbmr.qir.queues", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_queue_blk, { "Queue Block", "lbmr.qir.queue", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_queue_blk_ip, { "IP Address", "lbmr.qir.queue.ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_queue_blk_port, { "Port", "lbmr.qir.queue.port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_queue_blk_idx, { "Index", "lbmr.qir.queue.idx", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_queue_blk_grp_idx, { "Group Index", "lbmr.qir.queue.grp_idx", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_qir_queue_blk_reserved, { "Reserved", "lbmr.qir.queue.reserved", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opts, { "Options", "lbmr.opt", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_len, { "Length Option", "lbmr.opt.len", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_len_type, { "Type", "lbmr.opt.len.type", FT_UINT8, BASE_HEX_DEC, VALS(lbmr_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_opt_len_len, { "Length", "lbmr.opt.len.len", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_len_total_len, { "Total Length", "lbmr.opt.len.total_len", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_src_id, { "Source ID Option", "lbmr.opt.src_id", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_src_id_type, { "Type", "lbmr.opt.src_id.type", FT_UINT8, BASE_HEX_DEC, VALS(lbmr_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_opt_src_id_len, { "Length", "lbmr.opt.src_id.len", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_src_id_flags, { "Flags", "lbmr.opt.src_id.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_src_id_flags_ignore, { "Ignore", "lbmr.opt.src_id.flags.ignore", FT_BOOLEAN, L_LBMR_LBMR_OPT_SRC_ID_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_LBMR_OPT_SRC_ID_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_opt_src_id_src_id, { "Source ID", "lbmr.opt.src_id.src_id", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_src_type, { "Source Type Option", "lbmr.opt.src_type", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_src_type_type, { "Type", "lbmr.opt.src_type.type", FT_UINT8, BASE_HEX_DEC, VALS(lbmr_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_opt_src_type_len, { "Length", "lbmr.opt.src_type.len", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_src_type_flags, { "Flags", "lbmr.opt.src_type.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_src_type_flags_ignore, { "Ignore", "lbmr.opt.src_type.flags.ignore", FT_BOOLEAN, L_LBMR_LBMR_OPT_SRC_TYPE_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_LBMR_OPT_SRC_TYPE_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_opt_src_type_src_type, { "Source Type", "lbmr.opt.src_type.src_type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_option_source_type), 0x0, NULL, HFILL } }, { &hf_lbmr_opt_version, { "Version Option", "lbmr.opt.version", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_version_type, { "Type", "lbmr.opt.version.type", FT_UINT8, BASE_HEX_DEC, VALS(lbmr_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_opt_version_len, { "Length", "lbmr.opt.version.len", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_version_flags, { "Flags", "lbmr.opt.version.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_version_flags_ignore, { "Ignore", "lbmr.opt.version.flags.ignore", FT_BOOLEAN, L_LBMR_LBMR_OPT_VERSION_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_LBMR_OPT_VERSION_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_opt_version_flags_ume, { "UME Capable", "lbmr.opt.version.flags.ume", FT_BOOLEAN, L_LBMR_LBMR_OPT_VERSION_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_LBMR_OPT_VERSION_FLAG_UME, "Set if UME capable", HFILL } }, { &hf_lbmr_opt_version_flags_umq, { "UMQ Capable", "lbmr.opt.version.flags.umq", FT_BOOLEAN, L_LBMR_LBMR_OPT_VERSION_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_LBMR_OPT_VERSION_FLAG_UMQ, "Set if UMQ capable", HFILL } }, { &hf_lbmr_opt_version_version, { "Version", "lbmr.opt.version.version", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_local_domain, { "Local Domain Option", "lbmr.opt.local_domain", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_local_domain_type, { "Type", "lbmr.opt.local_domain.type", FT_UINT8, BASE_HEX_DEC, VALS(lbmr_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_opt_local_domain_len, { "Length", "lbmr.opt.local_domain.len", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_local_domain_flags, { "Flags", "lbmr.opt.local_domain.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_local_domain_flags_ignore, { "Ignore", "lbmr.opt.local_domain.flags.ignore", FT_BOOLEAN, L_LBMR_LBMR_OPT_LOCAL_DOMAIN_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_LBMR_OPT_VERSION_FLAG_IGNORE, NULL, HFILL } }, { &hf_lbmr_opt_local_domain_local_domain_id, { "Local Domain ID", "lbmr.opt.local_domain.local_domain_id", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_unknown, { "Unknown ID Option", "lbmr.opt.unknown", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_unknown_type, { "Type", "lbmr.opt.unknown.type", FT_UINT8, BASE_HEX_DEC, VALS(lbmr_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_opt_unknown_len, { "Length", "lbmr.opt.unknown.len", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_unknown_flags, { "Flags", "lbmr.opt.unknown.flags", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_opt_unknown_data, { "Data", "lbmr.opt.unknown.data", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topic_res_request_flags, { "Flags", "lbmr.topic_res_request.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_topic_res_request_flags_gw_remote_interest, { "Gateway Remote Interest", "lbmr.topic_res_request.flags.gw_remote_interest", FT_BOOLEAN, 8 * L_LBMR_TOPIC_RES_REQUEST_T_FLAGS, TFS(&tfs_set_notset), LBM_TOPIC_RES_REQUEST_GW_REMOTE_INTEREST, "Set if gateway remote interest is requested", HFILL } }, { &hf_lbmr_topic_res_request_flags_context_query, { "Context Queries", "lbmr.topic_res_request.flags.context_query", FT_BOOLEAN, 8 * L_LBMR_TOPIC_RES_REQUEST_T_FLAGS, TFS(&tfs_set_notset), LBM_TOPIC_RES_REQUEST_CONTEXT_QUERY, "Set if context queries are requested", HFILL } }, { &hf_lbmr_topic_res_request_flags_context_advertisement, { "Context Advertisements", "lbmr.topic_res_request.flags.context_advertisement", FT_BOOLEAN, 8 * L_LBMR_TOPIC_RES_REQUEST_T_FLAGS, TFS(&tfs_set_notset), LBM_TOPIC_RES_REQUEST_CONTEXT_ADVERTISEMENT, "Set if context advertisements are requested", HFILL } }, { &hf_lbmr_topic_res_request_flags_gateway_meta, { "Gateway Meta Flag", "lbmr.topic_res_request.flags.gateway_meta", FT_BOOLEAN, 8 * L_LBMR_TOPIC_RES_REQUEST_T_FLAGS, TFS(&tfs_set_notset), LBM_TOPIC_RES_REQUEST_RESERVED1, NULL, HFILL } }, { &hf_lbmr_topic_res_request_flags_advertisement, { "Advertisements", "lbmr.topic_res_request.flags.advertisement", FT_BOOLEAN, 8 * L_LBMR_TOPIC_RES_REQUEST_T_FLAGS, TFS(&tfs_set_notset), LBM_TOPIC_RES_REQUEST_ADVERTISEMENT, "Set if advertisements are requested", HFILL } }, { &hf_lbmr_topic_res_request_flags_query, { "Queries", "lbmr.topic_res_request.flags.query", FT_BOOLEAN, 8 * L_LBMR_TOPIC_RES_REQUEST_T_FLAGS, TFS(&tfs_set_notset), LBM_TOPIC_RES_REQUEST_QUERY, "Set if queries are requested", HFILL } }, { &hf_lbmr_topic_res_request_flags_wildcard_query, { "Wildcard Queries", "lbmr.topic_res_request.flags.wildcard_query", FT_BOOLEAN, 8 * L_LBMR_TOPIC_RES_REQUEST_T_FLAGS, TFS(&tfs_set_notset), LBM_TOPIC_RES_REQUEST_WILDCARD_QUERY, "Set if wildcard queries are requested", HFILL } }, { &hf_lbmr_ctxinfo_len, { "Length", "lbmr.ctxinfo.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_ctxinfo_hop_count, { "Hop Count", "lbmr.ctxinfo.hop_count", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_ctxinfo_flags, { "Flags", "lbmr.ctxinfo.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_ctxinfo_flags_query, { "Query", "lbmr.ctxinfo.flags.query", FT_BOOLEAN, 16, TFS(&tfs_set_notset), LBMR_CTXINFO_QUERY_FLAG, "Set if query, clear if response", HFILL } }, { &hf_lbmr_ctxinfo_flags_ip, { "IP Address", "lbmr.ctxinfo.flags.ip", FT_BOOLEAN, 16, TFS(&tfs_present_not_present), LBMR_CTXINFO_IP_FLAG, "Set if IP address is included", HFILL } }, { &hf_lbmr_ctxinfo_flags_instance, { "Instance", "lbmr.ctxinfo.flags.instance", FT_BOOLEAN, 16, TFS(&tfs_present_not_present), LBMR_CTXINFO_INSTANCE_FLAG, "Set if context instance is included", HFILL } }, { &hf_lbmr_ctxinfo_flags_tnwg_src, { "Gateway Source", "lbmr.ctxinfo.flags.tnwg_src", FT_BOOLEAN, 16, TFS(&tfs_set_notset), LBMR_CTXINFO_TNWG_SRC_FLAG, "Set if a gateway source", HFILL } }, { &hf_lbmr_ctxinfo_flags_tnwg_rcv, { "Gateway Receiver", "lbmr.ctxinfo.flags.tnwg_rcv", FT_BOOLEAN, 16, TFS(&tfs_set_notset), LBMR_CTXINFO_TNWG_RCV_FLAG, "Set if a gateway receiver", HFILL } }, { &hf_lbmr_ctxinfo_flags_proxy, { "Proxy", "lbmr.ctxinfo.flags.proxy", FT_BOOLEAN, 16, TFS(&tfs_set_notset), LBMR_CTXINFO_PROXY_FLAG, "Set if a proxy for another context", HFILL } }, { &hf_lbmr_ctxinfo_flags_name, { "Name", "lbmr.ctxinfo.flags.name", FT_BOOLEAN, 16, TFS(&tfs_present_not_present), LBMR_CTXINFO_NAME_FLAG, "Set if context name is included", HFILL } }, { &hf_lbmr_ctxinfo_port, { "Port", "lbmr.ctxinfo.port", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_ctxinfo_ip, { "IP Address", "lbmr.ctxinfo.ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_ctxinfo_instance, { "Instance", "lbmr.ctxinfo.instance", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_ctxinfo_name, { "Name", "lbmr.ctxinfo.name", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_len, { "Length", "lbmr.tnwg.len", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_type, { "Type", "lbmr.tnwg.type", FT_UINT16, BASE_DEC_HEX, VALS(lbmr_tnwg_function_type), 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_reserved, { "Reserved", "lbmr.tnwg.reserved", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_interest, { "Interest", "lbmr.tnwg.interest", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_interest_len, { "Length", "lbmr.tnwg.interest.len", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_interest_count, { "Record Count", "lbmr.tnwg.interest.count", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_interest_rec, { "Interest Record", "lbmr.tnwg.interest_rec", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_interest_rec_len, { "Length", "lbmr.tnwg.interest_rec.len", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_interest_rec_flags, { "Flags", "lbmr.tnwg.interest_rec.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_interest_rec_flags_pattern, { "Pattern", "lbmr.tnwg.interest_rec.flags.pattern", FT_BOOLEAN, L_LBMR_TNWG_INTEREST_REC_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TNWG_INTEREST_REC_PATTERN_FLAG, "Set if interest is for a pattern", HFILL } }, { &hf_lbmr_tnwg_interest_rec_flags_cancel, { "Cancel", "lbmr.tnwg.interest_rec.flags.cancel", FT_BOOLEAN, L_LBMR_TNWG_INTEREST_REC_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TNWG_INTEREST_REC_CANCEL_FLAG, "Set if interest is being cancelled", HFILL } }, { &hf_lbmr_tnwg_interest_rec_flags_refresh, { "Refresh", "lbmr.tnwg.interest_rec.flags.refresh", FT_BOOLEAN, L_LBMR_TNWG_INTEREST_REC_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_TNWG_INTEREST_REC_REFRESH_FLAG, "Set if interest is being refreshed", HFILL } }, { &hf_lbmr_tnwg_interest_rec_pattype, { "Pattern Type", "lbmr.tnwg.interest_rec.pattype", FT_UINT8, BASE_DEC_HEX, VALS(lbm_wildcard_pattern_type_short), 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_interest_rec_domain_id, { "Domain ID", "lbmr.tnwg.interest_rec.domain_id", FT_UINT32, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_interest_rec_symbol, { "Symbol", "lbmr.tnwg.interest_rec.symbol", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_ctxinfo, { "Context Information", "lbmr.tnwg.ctxinfo", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_ctxinfo_len, { "Length", "lbmr.tnwg.ctxinfo.len", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_ctxinfo_hop_count, { "Hop Count", "lbmr.tnwg.ctxinfo.hop_count", FT_UINT8, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_ctxinfo_reserved, { "Reserved", "lbmr.tnwg.ctxinfo.reserved", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_ctxinfo_flags1, { "Flags1", "lbmr.tnwg.ctxinfo.flags1", FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_ctxinfo_flags1_query, { "Query", "lbmr.tnwg.ctxinfo.flags1.query", FT_BOOLEAN, L_LBMR_TNWG_CTXINFO_T_FLAGS1 * 8, TFS(&tfs_set_notset), LBMR_TNWG_CTXINFO_QUERY_FLAG, "Set if a query, clear if a response", HFILL } }, { &hf_lbmr_tnwg_ctxinfo_flags1_tnwg_src, { "TNWG Source", "lbmr.tnwg.ctxinfo.flags1.tnwg_src", FT_BOOLEAN, L_LBMR_TNWG_CTXINFO_T_FLAGS1 * 8, TFS(&tfs_set_notset), LBMR_TNWG_CTXINFO_TNWG_SRC_FLAG, "Set if a gateway source", HFILL } }, { &hf_lbmr_tnwg_ctxinfo_flags1_tnwg_rcv, { "TNWG Receiver", "lbmr.tnwg.ctxinfo.flags1.tnwg_rcv", FT_BOOLEAN, L_LBMR_TNWG_CTXINFO_T_FLAGS1 * 8, TFS(&tfs_set_notset), LBMR_TNWG_CTXINFO_TNWG_RCV_FLAG, "Set if a gateway receiver", HFILL } }, { &hf_lbmr_tnwg_ctxinfo_flags1_proxy, { "Proxy", "lbmr.tnwg.ctxinfo.flags1.proxy", FT_BOOLEAN, L_LBMR_TNWG_CTXINFO_T_FLAGS1 * 8, TFS(&tfs_set_notset), LBMR_TNWG_CTXINFO_PROXY_FLAG, "Set if a proxy for another context", HFILL } }, { &hf_lbmr_tnwg_ctxinfo_flags2, { "Flags2", "lbmr.tnwg.ctxinfo.flags2", FT_UINT32, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_trreq, { "Topic Res Request", "lbmr.tnwg.trreq", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_trreq_len, { "Length", "lbmr.tnwg.trreq.len", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt, { "Unknown Option", "lbmr.tnwg.opt", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_type, { "Type", "lbmr.tnwg.opt.type", FT_UINT8, BASE_HEX_DEC, VALS(lbmr_tnwg_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_len, { "Length", "lbmr.tnwg.opt.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_flags, { "Flags", "lbmr.tnwg.opt.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_flags_ignore, { "Ignore", "lbmr.tnwg.opt.flags.ignore", FT_BOOLEAN, L_LBMR_TNWG_OPT_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TNWG_OPT_IGNORE_FLAG, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_data, { "Data", "lbmr.tnwg.opt.data", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_ctxinst, { "Context Instance Option", "lbmr.tnwg.opt_ctxinst", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_ctxinst_type, { "Type", "lbmr.tnwg.opt_ctxinst.type", FT_UINT8, BASE_HEX_DEC, VALS(lbmr_tnwg_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_ctxinst_len, { "Length", "lbmr.tnwg.opt_ctxinst.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_ctxinst_flags, { "Flags", "lbmr.tnwg.opt_ctxinst.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_ctxinst_flags_ignore, { "Ignore", "lbmr.tnwg.opt_ctxinst.flags.ignore", FT_BOOLEAN, L_LBMR_TNWG_OPT_CTXINST_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TNWG_OPT_IGNORE_FLAG, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_ctxinst_instance, { "Context Instance", "lbmr.tnwg.opt_ctxinst.instance", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_address, { "Address Option", "lbmr.tnwg.opt_address", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_address_type, { "Type", "lbmr.tnwg.opt_address.type", FT_UINT8, BASE_HEX_DEC, VALS(lbmr_tnwg_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_address_len, { "Length", "lbmr.tnwg.opt_address.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_address_flags, { "Flags", "lbmr.tnwg.opt_address.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_address_flags_ignore, { "Ignore", "lbmr.tnwg.opt_address.flags.ignore", FT_BOOLEAN, L_LBMR_TNWG_OPT_ADDRESS_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TNWG_OPT_IGNORE_FLAG, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_address_port, { "Port", "lbmr.tnwg.opt_address.port", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_address_res, { "Reserved", "lbmr.tnwg.opt_address.res", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_address_ip, { "IP Address", "lbmr.tnwg.opt_address.ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_domain, { "Domain Option", "lbmr.tnwg.opt_domain", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_domain_type, { "Type", "lbmr.tnwg.opt_domain.type", FT_UINT8, BASE_HEX_DEC, VALS(lbmr_tnwg_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_domain_len, { "Length", "lbmr.tnwg.opt_domain.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_domain_flags, { "Flags", "lbmr.tnwg.opt_domain.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_domain_flags_ignore, { "Ignore", "lbmr.tnwg.opt_domain.flags.ignore", FT_BOOLEAN, L_LBMR_TNWG_OPT_DOMAIN_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TNWG_OPT_IGNORE_FLAG, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_domain_domain_id, { "Domain ID", "lbmr.tnwg.opt_domain.domain_id", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_name, { "Name Option", "lbmr.tnwg.opt_name", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_name_type, { "Type", "lbmr.tnwg.opt_name.type", FT_UINT8, BASE_HEX_DEC, VALS(lbmr_tnwg_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_name_len, { "Length", "lbmr.tnwg.opt_name.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_name_flags, { "Flags", "lbmr.tnwg.opt_name.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_name_flags_ignore, { "Ignore", "lbmr.tnwg.opt_name.flags.ignore", FT_BOOLEAN, L_LBMR_TNWG_OPT_T_FLAGS * 8, TFS(&lbm_ignore_flag), LBMR_TNWG_OPT_IGNORE_FLAG, NULL, HFILL } }, { &hf_lbmr_tnwg_opt_name_name, { "Name", "lbmr.tnwg.opt_name.name", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_remote_domain_route_hdr_num_domains, { "Number of Domains", "lbmr.remote_domain_route.num_domains", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_remote_domain_route_hdr_ip, { "IP Address", "lbmr.remote_domain_route.ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_remote_domain_route_hdr_port, { "Port", "lbmr.remote_domain_route.port", FT_UINT16, BASE_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_remote_domain_route_hdr_reserved, { "Reserved", "lbmr.remote_domain_route.reserved", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_remote_domain_route_hdr_length, { "Length", "lbmr.remote_domain_route.length", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_remote_domain_route_hdr_domain, { "Domain", "lbmr.remote_domain_route.domain", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_len, { "Length", "lbmr.rctxinfo.len", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_num_recs, { "Number of Records", "lbmr.rctxinfo.num_recs", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_reserved, { "Reserved", "lbmr.rctxinfo.reserved", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec, { "Remote Context Information Record", "lbmr.rctxinfo.rec", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_len, { "Length", "lbmr.rctxinfo.rec.len", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_flags, { "Flags", "lbmr.rctxinfo.rec.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_flags_query, { "Query", "lbmr.rctxinfo.rec.flags.query", FT_BOOLEAN, L_LBMR_RCTXINFO_REC_T_FLAGS * 8, TFS(&tfs_set_notset), LBMR_RCTXINFO_REC_FLAG_QUERY, "Set if a query, clear if a response", HFILL } }, { &hf_lbmr_rctxinfo_rec_address, { "Address Option", "lbmr.rctxinfo.rec.address", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_address_type, { "Type", "lbmr.rctxinfo.rec.address.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_rctxinfo_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_address_len, { "Length", "lbmr.rctxinfo.rec.address.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_address_flags, { "Flags", "lbmr.rctxinfo.rec.address.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_address_domain_id, { "Domain ID", "lbmr.rctxinfo.rec.address.domain_id", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_address_ip, { "Address", "lbmr.rctxinfo.rec.address.ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_address_port, { "Port", "lbmr.rctxinfo.rec.address.port", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_address_res, { "Reserved", "lbmr.rctxinfo.rec.address.res", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_instance, { "Instance Option", "lbmr.rctxinfo.rec.instance", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_instance_type, { "Type", "lbmr.rctxinfo.rec.instance.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_rctxinfo_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_instance_len, { "Length", "lbmr.rctxinfo.rec.instance.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_instance_flags, { "Flags", "lbmr.rctxinfo.rec.instance.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_instance_instance, { "Instance", "lbmr.rctxinfo.rec.instance.instance", FT_BYTES, FT_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_odomain, { "Originating Domain Option", "lbmr.rctxinfo.rec.odomain", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_odomain_type, { "Type", "lbmr.rctxinfo.rec.odomain.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_rctxinfo_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_odomain_len, { "Length", "lbmr.rctxinfo.rec.odomain.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_odomain_flags, { "Flags", "lbmr.rctxinfo.rec.odomain.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_odomain_domain_id, { "Domain ID", "lbmr.rctxinfo.rec.odomain.domain_id", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_name, { "Name Option", "lbmr.rctxinfo.rec.name", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_name_type, { "Type", "lbmr.rctxinfo.rec.name.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_rctxinfo_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_name_len, { "Length", "lbmr.rctxinfo.rec.name.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_name_flags, { "Flags", "lbmr.rctxinfo.rec.name.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_name_name, { "Name", "lbmr.rctxinfo.rec.name.name", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_unknown, { "Unknown Option", "lbmr.rctxinfo.rec.unknown", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_unknown_type, { "Type", "lbmr.rctxinfo.rec.unknown.type", FT_UINT8, BASE_DEC_HEX, VALS(lbmr_rctxinfo_option_type), 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_unknown_len, { "Length", "lbmr.rctxinfo.rec.unknown.len", FT_UINT8, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_unknown_flags, { "Flags", "lbmr.rctxinfo.rec.unknown.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_lbmr_rctxinfo_rec_unknown_data, { "Data", "lbmr.rctxinfo.rec.unknown.data", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_flags, { "Flags", "lbmr.qmgmt.flags", FT_UINT8, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_flags_i_flag, { "Ignore", "lbmr.qmgmt.flags.i_flag", FT_BOOLEAN, L_UMQ_QMGMT_HDR_T_FLAGS * 8, TFS(&lbm_ignore_flag), UMQ_QMGMT_HDR_I_FLAG, NULL, HFILL } }, { &hf_qmgmt_flags_n_flag, { "Queue Name", "lbmr.qmgmt.flags.n_flag", FT_BOOLEAN, L_UMQ_QMGMT_HDR_T_FLAGS * 8, TFS(&tfs_present_not_present), UMQ_QMGMT_HDR_N_FLAG, "Set if queue name is present", HFILL } }, { &hf_qmgmt_flags_il_l_flag, { "New Instance List", "lbmr.qmgmt.flags.il_l_flag", FT_BOOLEAN, L_UMQ_QMGMT_HDR_T_FLAGS * 8, TFS(&tfs_set_notset), UMQ_QMGMT_HDR_IL_L_FLAG, "Set if contains a new instance list", HFILL } }, { &hf_qmgmt_flags_il_k_flag, { "Keepalive Requested", "lbmr.qmgmt.flags.il_k_flag", FT_BOOLEAN, L_UMQ_QMGMT_HDR_T_FLAGS * 8, TFS(&tfs_set_notset), UMQ_QMGMT_HDR_IL_K_FLAG, "Set if a keepalive requester", HFILL } }, { &hf_qmgmt_pckt_type, { "Packet Type", "lbmr.qmgmt.pckt_type", FT_UINT8, BASE_HEX_DEC, VALS(umq_qmgmt_packet_type), 0x0, NULL, HFILL } }, { &hf_qmgmt_cfgsig, { "Configuration Signature", "lbmr.qmgmt.cfg_sig", FT_BYTES, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_queue_id, { "Queue ID", "lbmr.qmgmt.queue_id", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_queue_ver, { "Queue Version", "lbmr.qmgmt.queue_ver", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_ip, { "IP Address", "lbmr.qmgmt.ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_port, { "Port", "lbmr.qmgmt.port", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_inst_idx, { "Instance Index", "lbmr.qmgmt.inst_idx", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_grp_idx, { "Group Index", "lbmr.qmgmt.grp_idx", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_pckt_type_dep16, { "Packet-Type Dependent Data", "lbmr.qmgmt.pckt_type_dep16", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_il_num_insts, { "Number of IL Instances", "lbmr.qmgmt.il_num_insts", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_jrej_code, { "Join Rejection Code", "lbmr.qmgmt.jrej_code", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_ev_bias, { "EV Bias", "lbmr.qmgmt.ev_bias", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_il, { "Instance List Header", "lbmr.qmgmt.il", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_il_highest_rcr_tsp, { "Highest RCR TSP", "lbmr.qmgmt.il.highest_rcr_tsp", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_il_inst, { "Instance Header", "lbmr.qmgmt.il_inst", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_il_inst_ip, { "IP", "lbmr.qmgmt.il_inst.ip", FT_IPv4, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_il_inst_port, { "Port", "lbmr.qmgmt.il_inst.port", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_il_inst_inst_idx, { "Instance Index", "lbmr.qmgmt.il_inst.inst_idx", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_il_inst_grp_idx, { "Group Index", "lbmr.qmgmt.il_inst.grp_idx", FT_UINT16, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_il_inst_flags, { "Flags", "lbmr.qmgmt.il_inst.flags", FT_UINT16, BASE_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_il_inst_flags_m_flag, { "Master", "lbmr.qmgmt.il_inst.flags.m_flag", FT_BOOLEAN, L_UMQ_QMGMT_IL_INST_HDR_T_FLAGS * 8, TFS(&tfs_set_notset), UMQ_QMGMT_HDR_IL_INST_M_FLAG, "Set if the master queue", HFILL } }, { &hf_qmgmt_il_inst_flags_q_flag, { "Queue Election Master", "lbmr.qmgmt.il_inst.flags.q_flag", FT_BOOLEAN, L_UMQ_QMGMT_IL_INST_HDR_T_FLAGS * 8, TFS(&tfs_set_notset), UMQ_QMGMT_HDR_IL_INST_Q_FLAG, "Set if a queue election master", HFILL } }, { &hf_qmgmt_il_inst_flags_p_flag, { "Post Election Master", "lbmr.qmgmt.il_inst.flags.p_flag", FT_BOOLEAN, L_UMQ_QMGMT_IL_INST_HDR_T_FLAGS * 8, TFS(&tfs_set_notset), UMQ_QMGMT_HDR_IL_INST_P_FLAG, "Set if a post election master", HFILL } }, { &hf_qmgmt_ec, { "Election Call Header", "lbmr.qmgmt.ec", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_ec_queue_new_ver, { "Queue New Version", "lbmr.qmgmt.ec.queue_new_ver", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_ev, { "Election Vote Header", "lbmr.qmgmt.ev", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_ev_highest_rcr_tsp, { "Highest RCR TSP", "lbmr.qmgmt.ev.highest_rcr_tsp", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_ev_age, { "Age", "lbmr.qmgmt.ev.age", FT_UINT32, BASE_DEC_HEX, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_qro, { "Queue Resume Operation Header", "lbmr.qmgmt.qro", FT_NONE, BASE_NONE, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_qro_highest_rcr_tsp, { "Highest RCR TSP", "lbmr.qmgmt.qro.highest_rcr_tsp", FT_UINT32, BASE_HEX_DEC, NULL, 0x0, NULL, HFILL } }, { &hf_qmgmt_qname, { "Queue Name", "lbmr.qmgmt.qname", FT_STRING, BASE_NONE, NULL, 0x0, NULL, HFILL } } }; static gint * ett[] = { &ett_lbmr, &ett_lbmr_hdr, &ett_lbmr_opts, &ett_lbmr_opt_src_id, &ett_lbmr_opt_src_id_flags, &ett_lbmr_opt_len, &ett_lbmr_opt_src_type, &ett_lbmr_opt_src_type_flags, &ett_lbmr_opt_version, &ett_lbmr_opt_version_flags, &ett_lbmr_opt_local_domain, &ett_lbmr_opt_local_domain_flags, &ett_lbmr_opt_unknown, &ett_lbmr_tqrs, &ett_lbmr_tqr, &ett_lbmr_tirs, &ett_lbmr_tir, &ett_lbmr_tir_tcp, &ett_lbmr_tir_lbtrm, &ett_lbmr_tir_lbtru, &ett_lbmr_tir_lbtipc, &ett_lbmr_tir_lbtrdma, &ett_lbmr_tir_lbtsmx, &ett_lbmr_topts, &ett_lbmr_topt_len, &ett_lbmr_topt_ume, &ett_lbmr_topt_ume_flags, &ett_lbmr_topt_ume_store, &ett_lbmr_topt_ume_store_flags, &ett_lbmr_topt_ume_store_group, &ett_lbmr_topt_ume_store_group_flags, &ett_lbmr_topt_latejoin, &ett_lbmr_topt_latejoin_flags, &ett_lbmr_topt_umq_rcridx, &ett_lbmr_topt_umq_rcridx_flags, &ett_lbmr_topt_umq_qinfo, &ett_lbmr_topt_umq_qinfo_flags, &ett_lbmr_topt_cost, &ett_lbmr_topt_cost_flags, &ett_lbmr_topt_otid, &ett_lbmr_topt_otid_flags, &ett_lbmr_topt_ctxinst, &ett_lbmr_topt_ctxinst_flags, &ett_lbmr_topt_ctxinsts, &ett_lbmr_topt_ctxinsts_flags, &ett_lbmr_topt_ulb, &ett_lbmr_topt_ulb_flags, &ett_lbmr_topt_ctxinstq, &ett_lbmr_topt_ctxinstq_flags, &ett_lbmr_topt_domain_id, &ett_lbmr_topt_domain_id_flags, &ett_lbmr_topt_exfunc, &ett_lbmr_topt_exfunc_flags, &ett_lbmr_topt_exfunc_functionality_flags, &ett_lbmr_topt_unknown, &ett_lbmr_tmb, &ett_lbmr_tmrs, &ett_lbmr_tmr, &ett_lbmr_tmr_flags, &ett_lbmr_pser_flags, &ett_lbmr_pser_opts, &ett_lbmr_pser_opt_len, &ett_lbmr_pser_opt_ctxinst, &ett_lbmr_qqrs, &ett_lbmr_qirs, &ett_lbmr_qir, &ett_lbmr_qir_options, &ett_lbmr_qir_grp_blk, &ett_lbmr_qir_queue_blk, &ett_lbmr_qir_grp, &ett_lbmr_qir_queue, &ett_lbmr_topic_res_request_flags, &ett_lbmr_ctxinfo_flags, &ett_lbmr_tnwg, &ett_lbmr_tnwg_interest, &ett_lbmr_tnwg_interest_rec, &ett_lbmr_tnwg_interest_rec_flags, &ett_lbmr_tnwg_ctxinfo, &ett_lbmr_tnwg_ctxinfo_flags1, &ett_lbmr_tnwg_trreq, &ett_lbmr_tnwg_ctxinst_opt, &ett_lbmr_tnwg_ctxinst_opt_flags, &ett_lbmr_tnwg_address_opt, &ett_lbmr_tnwg_address_opt_flags, &ett_lbmr_tnwg_domain_opt, &ett_lbmr_tnwg_domain_opt_flags, &ett_lbmr_tnwg_name_opt, &ett_lbmr_tnwg_name_opt_flags, &ett_lbmr_tnwg_unknown_opt, &ett_lbmr_tnwg_unknown_opt_flags, &ett_lbmr_remote_domain_route_hdr, &ett_lbmr_rctxinfo, &ett_lbmr_rctxinfo_rec, &ett_lbmr_rctxinfo_rec_flags, &ett_lbmr_rctxinfo_rec_address, &ett_lbmr_rctxinfo_rec_instance, &ett_lbmr_rctxinfo_rec_odomain, &ett_lbmr_rctxinfo_rec_name, &ett_lbmr_rctxinfo_rec_unknown, &ett_qmgmt_flags, &ett_qmgmt_il, &ett_qmgmt_il_inst, &ett_qmgmt_il_inst_flags, &ett_qmgmt_ec, &ett_qmgmt_ev, &ett_qmgmt_qro }; static ei_register_info ei[] = { { &ei_lbmr_analysis_length_incorrect, { "lbmr.analysis.length_incorrect", PI_MALFORMED, PI_ERROR, "Header length incorrect", EXPFILL } }, { &ei_lbmr_analysis_invalid_value, { "lbmr.analysis.invalid_value", PI_UNDECODED, PI_WARN, "Invalid value", EXPFILL } }, { &ei_lbmr_analysis_zero_len_option, { "lbmr.analysis.zero_len_option", PI_MALFORMED, PI_ERROR, "Zero-length LBMR option", EXPFILL } }, }; module_t * lbmr_module; struct in_addr addr; uat_t * tag_uat; expert_module_t * expert_lbmr; proto_lbmr = proto_register_protocol("LBM Topic Resolution Protocol", "LBMR", "lbmr"); proto_register_field_array(proto_lbmr, hf, array_length(hf)); proto_register_subtree_array(ett, array_length(ett)); expert_lbmr = expert_register_protocol(proto_lbmr); expert_register_field_array(expert_lbmr, ei, array_length(ei)); lbmr_module = prefs_register_protocol_subtree("29West", proto_lbmr, proto_reg_handoff_lbmr); prefs_register_uint_preference(lbmr_module, "mc_incoming_port", "Incoming multicast UDP port (default " LBMR_DEFAULT_MC_INCOMING_UDP_PORT_STRING ")", "Set the UDP port for incoming multicast topic resolution (context resolver_multicast_incoming_port)", 10, &global_lbmr_mc_incoming_udp_port); inet_aton(LBMR_DEFAULT_MC_INCOMING_ADDRESS, &addr); lbmr_mc_incoming_address_host = g_ntohl(addr.s_addr); prefs_register_string_preference(lbmr_module, "mc_incoming_address", "Incoming multicast address (default " LBMR_DEFAULT_MC_INCOMING_ADDRESS ")", "Set the multicast address for incoming multicast topic resolution (context resolver_multicast_incoming_address)", &global_lbmr_mc_incoming_address); prefs_register_uint_preference(lbmr_module, "mc_outgoing_port", "Outgoing multicast UDP port (default " LBMR_DEFAULT_MC_OUTGOING_UDP_PORT_STRING ")", "Set the UDP port for outgoing multicast topic resolution (context resolver_multicast_outgoing_port)", 10, &global_lbmr_mc_outgoing_udp_port); inet_aton(LBMR_DEFAULT_MC_OUTGOING_ADDRESS, &addr); lbmr_mc_outgoing_address_host = g_ntohl(addr.s_addr); prefs_register_string_preference(lbmr_module, "mc_outgoing_address", "Outgoing multicast address (default " LBMR_DEFAULT_MC_OUTGOING_ADDRESS ")", "Set the multicast address for outgoing multicast topic resolution (context resolver_multicast_outgoing_address)", &global_lbmr_mc_outgoing_address); prefs_register_uint_preference(lbmr_module, "uc_port_low", "Unicast UDP port low (default " LBMR_DEFAULT_UC_PORT_LOW_STRING ")", "Set the low UDP port for unicast topic resolution (context resolver_unicast_port_low)", 10, &global_lbmr_uc_port_low); prefs_register_uint_preference(lbmr_module, "uc_port_high", "Unicast UDP port high (default " LBMR_DEFAULT_UC_PORT_HIGH_STRING ")", "Set the high UDP port for unicast topic resolution (context resolver_unicast_port_high)", 10, &global_lbmr_uc_port_high); prefs_register_uint_preference(lbmr_module, "uc_dest_port", "Unicast UDP destination port (default " LBMR_DEFAULT_UC_DEST_PORT_STRING ")", "Set the destination port for unicast topic resolution (context resolver_unicast_destination_port)", 10, &global_lbmr_uc_dest_port); inet_aton(LBMR_DEFAULT_UC_ADDRESS, &addr); lbmr_uc_address_host = g_ntohl(addr.s_addr); prefs_register_string_preference(lbmr_module, "uc_address", "Unicast resolver address (default " LBMR_DEFAULT_UC_ADDRESS ")", "Set the address of the unicast resolver daemon (context resolver_unicast_address)", &global_lbmr_uc_address); prefs_register_bool_preference(lbmr_module, "use_lbmr_domain", "Use LBMR tag table", "Use table of LBMR tags to decode the packet instead of above values", &global_lbmr_use_tag); tag_uat = uat_new("LBMR tag definitions", sizeof(lbmr_tag_entry_t), "lbmr_domains", TRUE, (void * *)&lbmr_tag_entry, &lbmr_tag_count, UAT_AFFECTS_DISSECTION, NULL, lbmr_tag_copy_cb, lbmr_tag_update_cb, lbmr_tag_free_cb, NULL, lbmr_tag_array); prefs_register_uat_preference(lbmr_module, "tnw_lbmr_tags", "LBMR Tags", "A table to define LBMR tags", tag_uat); lbmr_topic_advertisement_tap_handle = register_tap(LBMR_TOPIC_ADVERTISEMENT_TAP_STRING); lbmr_topic_query_tap_handle = register_tap(LBMR_TOPIC_QUERY_TAP_STRING); lbmr_pattern_query_tap_handle = register_tap(LBMR_PATTERN_QUERY_TAP_STRING); lbmr_queue_advertisement_tap_handle = register_tap(LBMR_QUEUE_ADVERTISEMENT_TAP_STRING); lbmr_queue_query_tap_handle = register_tap(LBMR_QUEUE_QUERY_TAP_STRING); stats_tree_register(LBMR_TOPIC_ADVERTISEMENT_TAP_STRING, "lbmr_topic_ads_topic", lbmr_stat_tree_name_topic_ads_topic, 0, lbmr_topic_ads_topic_stats_tree_packet, lbmr_topic_ads_topic_stats_tree_init, NULL); stats_tree_register(LBMR_TOPIC_ADVERTISEMENT_TAP_STRING, "lbmr_topic_ads_source", lbmr_stat_tree_name_topic_ads_source, 0, lbmr_topic_ads_source_stats_tree_packet, lbmr_topic_ads_source_stats_tree_init, NULL); stats_tree_register(LBMR_TOPIC_ADVERTISEMENT_TAP_STRING, "lbmr_topic_ads_transport", lbmr_stat_tree_name_topic_ads_transport, 0, lbmr_topic_ads_transport_stats_tree_packet, lbmr_topic_ads_transport_stats_tree_init, NULL); stats_tree_register(LBMR_TOPIC_QUERY_TAP_STRING, "lbmr_topic_queries_topic", lbmr_stat_tree_name_topic_queries_topic, 0, lbmr_topic_queries_topic_stats_tree_packet, lbmr_topic_queries_topic_stats_tree_init, NULL); stats_tree_register(LBMR_TOPIC_QUERY_TAP_STRING, "lbmr_topic_queries_receiver", lbmr_stat_tree_name_topic_queries_receiver, 0, lbmr_topic_queries_receiver_stats_tree_packet, lbmr_topic_queries_receiver_stats_tree_init, NULL); stats_tree_register(LBMR_PATTERN_QUERY_TAP_STRING, "lbmr_topic_queries_pattern", lbmr_stat_tree_name_topic_queries_pattern, 0, lbmr_topic_queries_pattern_stats_tree_packet, lbmr_topic_queries_pattern_stats_tree_init, NULL); stats_tree_register(LBMR_PATTERN_QUERY_TAP_STRING, "lbmr_topic_queries_pattern_receiver", lbmr_stat_tree_name_topic_queries_pattern_receiver, 0, lbmr_topic_queries_pattern_receiver_stats_tree_packet, lbmr_topic_queries_pattern_receiver_stats_tree_init, NULL); stats_tree_register(LBMR_QUEUE_ADVERTISEMENT_TAP_STRING, "lbmr_queue_ads_queue", lbmr_stat_tree_name_queue_ads_queue, 0, lbmr_queue_ads_queue_stats_tree_packet, lbmr_queue_ads_queue_stats_tree_init, NULL); stats_tree_register(LBMR_QUEUE_ADVERTISEMENT_TAP_STRING, "lbmr_queue_ads_source", lbmr_stat_tree_name_queue_ads_source, 0, lbmr_queue_ads_source_stats_tree_packet, lbmr_queue_ads_source_stats_tree_init, NULL); stats_tree_register(LBMR_QUEUE_QUERY_TAP_STRING, "lbmr_queue_queries_queue", lbmr_stat_tree_name_queue_queries_queue, 0, lbmr_queue_queries_queue_stats_tree_packet, lbmr_queue_queries_queue_stats_tree_init, NULL); stats_tree_register(LBMR_QUEUE_QUERY_TAP_STRING, "lbmr_queue_queries_receiver", lbmr_stat_tree_name_queue_queries_receiver, 0, lbmr_queue_queries_receiver_stats_tree_packet, lbmr_queue_queries_receiver_stats_tree_init, NULL); lbm_topic_init(); lbtsmx_transport_init(); lbtipc_transport_init(); lbtrdma_transport_init(); } /* The registration hand-off routine */ void proto_reg_handoff_lbmr(void) { static gboolean already_registered = FALSE; struct in_addr addr; if (!already_registered) { lbmr_dissector_handle = new_create_dissector_handle(dissect_lbmr, proto_lbmr); dissector_add_for_decode_as("udp.port", lbmr_dissector_handle); heur_dissector_add("udp", test_lbmr_packet, "LBM Topic Resolution over UDP", "lbmr_udp", proto_lbmr, HEURISTIC_ENABLE); } lbmr_mc_incoming_udp_port = global_lbmr_mc_incoming_udp_port; lbmr_mc_outgoing_udp_port = global_lbmr_mc_outgoing_udp_port; inet_aton(global_lbmr_mc_incoming_address, &addr); lbmr_mc_incoming_address_host = g_ntohl(addr.s_addr); inet_aton(global_lbmr_mc_outgoing_address, &addr); lbmr_mc_outgoing_address_host = g_ntohl(addr.s_addr); /* Make sure the low port is <= the high port. If not, don't change them. */ if (global_lbmr_uc_port_low <= global_lbmr_uc_port_high) { lbmr_uc_port_high = global_lbmr_uc_port_high; lbmr_uc_port_low = global_lbmr_uc_port_low; } lbmr_uc_dest_port = global_lbmr_uc_dest_port; inet_aton(global_lbmr_uc_address, &addr); lbmr_uc_address_host = g_ntohl(addr.s_addr); lbmr_use_tag = global_lbmr_use_tag; already_registered = TRUE; } /* * Editor modelines - http://www.wireshark.org/tools/modelines.html * * Local variables: * c-basic-offset: 4 * tab-width: 4 * indent-tabs-mode: nil * End: * * vi: set shiftwidth=4 tabstop=4 expandtab: * :indentSize=4:tabSize=4:noTabs=true: */
just-another-one-timmy/wireshark
epan/dissectors/packet-lbmr.c
C
gpl-2.0
356,549
package com.rideon.web.security; import org.apache.http.auth.UsernamePasswordCredentials; import org.apache.http.client.CredentialsProvider; import org.apache.http.impl.client.DefaultHttpClient; import org.springframework.web.client.RestTemplate; public class ClientAuthenticator { public ClientAuthenticator() { super(); } // API public static void setAuthentication(final RestTemplate restTemplate, final String username, final String password) { basicAuth(restTemplate, username, password); } private static void basicAuth(final RestTemplate restTemplate, final String username, final String password) { final HttpComponentsClientHttpRequestFactoryBasicAuth requestFactory = ((HttpComponentsClientHttpRequestFactoryBasicAuth) restTemplate.getRequestFactory()); DefaultHttpClient httpClient = (DefaultHttpClient) requestFactory.getHttpClient(); CredentialsProvider prov = httpClient.getCredentialsProvider(); prov.setCredentials(requestFactory.getAuthScope(), new UsernamePasswordCredentials(username, password)); } }
vilasmaciel/rideon
rideon-client/src/main/java/com/rideon/web/security/ClientAuthenticator.java
Java
gpl-2.0
1,128
<?php namespace TYPO3\CMS\T3editor; /* * This file is part of the TYPO3 CMS project. * * It is free software; you can redistribute it and/or modify it under * the terms of the GNU General Public License, either version 2 * of the License, or any later version. * * For the full copyright and license information, please read the * LICENSE.txt file that was distributed with this source code. * * The TYPO3 project - inspiring people to share! */ use Psr\Http\Message\ResponseInterface; use Psr\Http\Message\ServerRequestInterface; use TYPO3\CMS\Core\Utility\GeneralUtility; /** * Code completion for t3editor */ class CodeCompletion { /** * @var \TYPO3\CMS\Core\Http\AjaxRequestHandler */ protected $ajaxObj; /** * Default constructor */ public function __construct() { $GLOBALS['LANG']->includeLLFile('EXT:t3editor/Resources/Private/Language/locallang.xlf'); } /** * General processor for AJAX requests. * Called by AjaxRequestHandler * * @param ServerRequestInterface $request * @param ResponseInterface $response * @return ResponseInterface */ public function processAjaxRequest(ServerRequestInterface $request, ResponseInterface $response) { $pageId = (int)(isset($request->getParsedBody()['pageId']) ? $request->getParsedBody()['pageId'] : $request->getQueryParams()['pageId']); return $this->loadTemplates($pageId); } /** * Loads all templates up to a given page id (walking the rootline) and * cleans parts that are not required for the t3editor codecompletion. * * @param int $pageId ID of the page * @return ResponseInterface */ protected function loadTemplates($pageId) { /** @var \TYPO3\CMS\Core\Http\Response $response */ $response = GeneralUtility::makeInstance(\TYPO3\CMS\Core\Http\Response::class); // Check whether access is granted (only admin have access to sys_template records): if ($GLOBALS['BE_USER']->isAdmin()) { // Check whether there is a pageId given: if ($pageId) { $response->getBody()->write(json_encode($this->getMergedTemplates($pageId))); } else { $response->getBody()->write($GLOBALS['LANG']->getLL('pageIDInteger')); $response = $response->withStatus(500); } } else { $response->getBody()->write($GLOBALS['LANG']->getLL('noPermission')); $response = $response->withStatus(500); } return $response; } /** * Gets merged templates by walking the rootline to a given page id. * * @todo [email protected]: Refactor this method and comment what's going on there * @param int $pageId * @param int $templateId * @return array Setup part of merged template records */ protected function getMergedTemplates($pageId, $templateId = 0) { /** @var $tsParser \TYPO3\CMS\Core\TypoScript\ExtendedTemplateService */ $tsParser = \TYPO3\CMS\Core\Utility\GeneralUtility::makeInstance(\TYPO3\CMS\Core\TypoScript\ExtendedTemplateService::class); $tsParser->init(); // Gets the rootLine $page = \TYPO3\CMS\Core\Utility\GeneralUtility::makeInstance(\TYPO3\CMS\Frontend\Page\PageRepository::class); $rootLine = $page->getRootLine($pageId); // This generates the constants/config + hierarchy info for the template. $tsParser->runThroughTemplates($rootLine); // ts-setup & ts-constants of the currently edited template should not be included // therefor we have to delete the last template from the stack array_pop($tsParser->config); array_pop($tsParser->constants); $tsParser->linkObjects = true; $tsParser->ext_regLinenumbers = false; $tsParser->generateConfig(); $result = $this->treeWalkCleanup($tsParser->setup); return $result; } /** * Walks through a tree of TypoScript configuration an cleans it up. * * @TODO [email protected]: Define and comment why this is necessary and exactly happens below * @param array $treeBranch TypoScript configuration or sub branch of it * @return array Cleaned TypoScript branch */ private function treeWalkCleanup(array $treeBranch) { $cleanedTreeBranch = array(); foreach ($treeBranch as $key => $value) { $dotCount = substr_count($key, '.'); //type definition or value-assignment if ($dotCount == 0) { if ($value != '') { if (strlen($value) > 20) { $value = substr($value, 0, 20); } if (!isset($cleanedTreeBranch[$key])) { $cleanedTreeBranch[$key] = array(); } $cleanedTreeBranch[$key]['v'] = $value; } } elseif ($dotCount == 1) { // subtree (definition of properties) $subBranch = $this->treeWalkCleanup($value); if ($subBranch) { $key = str_replace('.', '', $key); if (!isset($cleanedTreeBranch[$key])) { $cleanedTreeBranch[$key] = array(); } $cleanedTreeBranch[$key]['c'] = $subBranch; } } } return $cleanedTreeBranch; } }
michaelklapper/TYPO3.CMS
typo3/sysext/t3editor/Classes/CodeCompletion.php
PHP
gpl-2.0
5,509
# -*- encoding: utf-8 -*- try: from httplib import HTTPSConnection from urlparse import urlparse except ImportError: from http.client import HTTPSConnection from urllib.parse import urlparse from json import dumps, loads from django.conf import settings class GCMError(Exception): pass def send(user, message, **kwargs): """ Site: https://developers.google.com API: https://developers.google.com/cloud-messaging/ Desc: Android notifications """ headers = { "Content-type": "application/json", "Authorization": "key=" + kwargs.pop("gcm_key", settings.GCM_KEY) } hook_url = 'https://android.googleapis.com/gcm/send' data = { "registration_ids": [user], "data": { "title": kwargs.pop("event"), 'message': message, } } data['data'].update(kwargs) up = urlparse(hook_url) http = HTTPSConnection(up.netloc) http.request( "POST", up.path, headers=headers, body=dumps(data)) response = http.getresponse() if response.status != 200: raise GCMError(response.reason) body = response.read() if loads(body).get("failure") > 0: raise GCMError(repr(body)) return True
LPgenerator/django-db-mailer
dbmail/providers/google/android.py
Python
gpl-2.0
1,265
<?php /*************************************************************** * Copyright notice * * (c) 2011 Adrien LUCAS ([email protected]) * All rights reserved * * This script is part of the TYPO3 project. The Typo3 project is * free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * The GNU General Public License can be found at * http://www.gnu.org/copyleft/gpl.html. * * This script is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * This copyright notice MUST APPEAR in all copies of the script! ***************************************************************/ class tx_obladydebug_Reporting_SystemeLog extends tx_obladydebug_Reporting_Base{ public function report($error, $index, $showSource){ $rendering = new tx_obladydebug_Rendering_PlainText; @error_log($this->classicRendering($error, $rendering), SYSTEM_LOG); } public function finish(){} }
Oblady/oblady-debug
oblady_debug/Classes/Reporting/SystemeLog.php
PHP
gpl-2.0
1,267
/* Copyright (c) 2012-2014, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * */ #define pr_fmt(fmt) "%s:%s " fmt, KBUILD_MODNAME, __func__ #include <linux/kernel.h> #include <linux/init.h> #include <linux/module.h> #include <linux/kthread.h> #include <linux/mutex.h> #include <linux/msm_tsens.h> #include <linux/workqueue.h> #include <linux/completion.h> #include <linux/cpu.h> #include <linux/cpufreq.h> #include <linux/msm_tsens.h> #include <linux/msm_thermal.h> #include <linux/platform_device.h> #include <linux/of.h> #include <linux/err.h> #include <linux/slab.h> #include <linux/of.h> #include <linux/sysfs.h> #include <linux/types.h> #include <linux/thermal.h> #include <linux/regulator/rpm-smd-regulator.h> #include <linux/regulator/consumer.h> #include <linux/regulator/driver.h> #include <linux/msm_thermal_ioctl.h> #include <soc/qcom/rpm-smd.h> #include <soc/qcom/scm.h> #include <linux/sched/rt.h> #define CREATE_TRACE_POINTS #define TRACE_MSM_THERMAL #include <trace/trace_thermal.h> #define MAX_CURRENT_UA 100000 #define MAX_RAILS 5 #define MAX_THRESHOLD 2 #define MONITOR_ALL_TSENS -1 #define TSENS_NAME_MAX 20 #define TSENS_NAME_FORMAT "tsens_tz_sensor%d" #define THERM_SECURE_BITE_CMD 8 #define SENSOR_SCALING_FACTOR 1 #define CPU_DEVICE "cpu%d" #define POLLING_DELAY 100 unsigned int temp_threshold = 60; module_param(temp_threshold, int, 0755); static struct msm_thermal_data msm_thermal_info; static struct delayed_work check_temp_work; static bool core_control_enabled; static uint32_t cpus_offlined; static DEFINE_MUTEX(core_control_mutex); static struct kobject *cc_kobj; static struct kobject *mx_kobj; static struct task_struct *hotplug_task; static struct task_struct *freq_mitigation_task; static struct task_struct *thermal_monitor_task; static struct completion hotplug_notify_complete; static struct completion freq_mitigation_complete; static struct completion thermal_monitor_complete; static int enabled; static int polling_enabled; static int rails_cnt; static int sensor_cnt; static int psm_rails_cnt; static int ocr_rail_cnt; static int limit_idx; static int limit_idx_low; static int limit_idx_high; static int max_tsens_num; static struct cpufreq_frequency_table *table; static uint32_t usefreq; static int freq_table_get; static bool vdd_rstr_enabled; static bool vdd_rstr_nodes_called; static bool vdd_rstr_probed; static bool sensor_info_nodes_called; static bool sensor_info_probed; static bool psm_enabled; static bool psm_nodes_called; static bool psm_probed; static bool freq_mitigation_enabled; static bool ocr_enabled; static bool ocr_nodes_called; static bool ocr_probed; static bool ocr_reg_init_defer; static bool hotplug_enabled; static bool interrupt_mode_enable; static bool msm_thermal_probed; static bool gfx_crit_phase_ctrl_enabled; static bool gfx_warm_phase_ctrl_enabled; static bool cx_phase_ctrl_enabled; static bool vdd_mx_enabled; static bool therm_reset_enabled; static bool online_core; static bool cluster_info_probed; static bool cluster_info_nodes_called; static int *tsens_id_map; static DEFINE_MUTEX(vdd_rstr_mutex); static DEFINE_MUTEX(psm_mutex); static DEFINE_MUTEX(cx_mutex); static DEFINE_MUTEX(gfx_mutex); static DEFINE_MUTEX(ocr_mutex); static DEFINE_MUTEX(vdd_mx_mutex); static uint32_t min_freq_limit; static uint32_t curr_gfx_band; static uint32_t curr_cx_band; static struct kobj_attribute cx_mode_attr; static struct kobj_attribute gfx_mode_attr; static struct kobj_attribute mx_enabled_attr; static struct attribute_group cx_attr_gp; static struct attribute_group gfx_attr_gp; static struct attribute_group mx_attr_group; static struct regulator *vdd_mx; static struct cpufreq_frequency_table *pending_freq_table_ptr; static int pending_cpu_freq = -1; static long *tsens_temp_at_panic; static LIST_HEAD(devices_list); enum thermal_threshold { HOTPLUG_THRESHOLD_HIGH, HOTPLUG_THRESHOLD_LOW, FREQ_THRESHOLD_HIGH, FREQ_THRESHOLD_LOW, THRESHOLD_MAX_NR, }; enum sensor_id_type { THERM_ZONE_ID, THERM_TSENS_ID, THERM_ID_MAX_NR, }; struct cluster_info { int cluster_id; uint32_t entity_count; struct cluster_info *child_entity_ptr; struct cluster_info *parent_ptr; struct cpufreq_frequency_table *freq_table; int freq_idx; int freq_idx_low; int freq_idx_high; cpumask_t cluster_cores; bool sync_cluster; uint32_t limited_max_freq; uint32_t limited_min_freq; }; struct cpu_info { uint32_t cpu; const char *sensor_type; enum sensor_id_type id_type; uint32_t sensor_id; bool offline; bool user_offline; bool hotplug_thresh_clear; struct sensor_threshold threshold[THRESHOLD_MAX_NR]; bool max_freq; uint32_t user_max_freq; uint32_t user_min_freq; uint32_t limited_max_freq; uint32_t limited_min_freq; bool freq_thresh_clear; struct cluster_info *parent_ptr; }; struct threshold_info; struct therm_threshold { int32_t sensor_id; enum sensor_id_type id_type; struct sensor_threshold threshold[MAX_THRESHOLD]; int32_t trip_triggered; void (*notify)(struct therm_threshold *); struct threshold_info *parent; }; struct threshold_info { uint32_t thresh_ct; bool thresh_triggered; struct therm_threshold *thresh_list; }; struct rail { const char *name; uint32_t freq_req; uint32_t min_level; uint32_t num_levels; int32_t curr_level; uint32_t levels[3]; struct kobj_attribute value_attr; struct kobj_attribute level_attr; struct regulator *reg; struct attribute_group attr_gp; }; struct msm_sensor_info { const char *name; const char *alias; const char *type; uint32_t scaling_factor; }; struct psm_rail { const char *name; uint8_t init; uint8_t mode; struct kobj_attribute mode_attr; struct rpm_regulator *reg; struct regulator *phase_reg; struct attribute_group attr_gp; }; struct devmgr_devices { struct device_manager_data *hotplug_dev; struct device_manager_data *cpufreq_dev[NR_CPUS]; }; enum msm_thresh_list { MSM_THERM_RESET, MSM_VDD_RESTRICTION, MSM_CX_PHASE_CTRL_HOT, MSM_GFX_PHASE_CTRL_WARM, MSM_GFX_PHASE_CTRL_HOT, MSM_OCR, MSM_VDD_MX_RESTRICTION, MSM_LIST_MAX_NR, }; enum msm_thermal_phase_ctrl { MSM_CX_PHASE_CTRL, MSM_GFX_PHASE_CTRL, MSM_PHASE_CTRL_NR, }; enum msm_temp_band { MSM_COLD_CRITICAL = 1, MSM_COLD, MSM_COOL, MSM_NORMAL, MSM_WARM, MSM_HOT, MSM_HOT_CRITICAL, MSM_TEMP_MAX_NR, }; static struct psm_rail *psm_rails; static struct psm_rail *ocr_rails; static struct rail *rails; static struct msm_sensor_info *sensors; static struct cpu_info cpus[NR_CPUS]; static struct threshold_info *thresh; static bool mx_restr_applied; static struct cluster_info *core_ptr; static struct devmgr_devices *devices; struct vdd_rstr_enable { struct kobj_attribute ko_attr; uint32_t enabled; }; /* For SMPS only*/ enum PMIC_SW_MODE { PMIC_AUTO_MODE = RPM_REGULATOR_MODE_AUTO, PMIC_IPEAK_MODE = RPM_REGULATOR_MODE_IPEAK, PMIC_PWM_MODE = RPM_REGULATOR_MODE_HPM, }; enum ocr_request { OPTIMUM_CURRENT_MIN, OPTIMUM_CURRENT_MAX, OPTIMUM_CURRENT_NR, }; #define SYNC_CORE(_cpu) \ (core_ptr && cpus[_cpu].parent_ptr->sync_cluster) #define VDD_RES_RO_ATTRIB(_rail, ko_attr, j, _name) \ ko_attr.attr.name = __stringify(_name); \ ko_attr.attr.mode = 0444; \ ko_attr.show = vdd_rstr_reg_##_name##_show; \ ko_attr.store = NULL; \ sysfs_attr_init(&ko_attr.attr); \ _rail.attr_gp.attrs[j] = &ko_attr.attr; #define VDD_RES_RW_ATTRIB(_rail, ko_attr, j, _name) \ ko_attr.attr.name = __stringify(_name); \ ko_attr.attr.mode = 0644; \ ko_attr.show = vdd_rstr_reg_##_name##_show; \ ko_attr.store = vdd_rstr_reg_##_name##_store; \ sysfs_attr_init(&ko_attr.attr); \ _rail.attr_gp.attrs[j] = &ko_attr.attr; #define VDD_RSTR_ENABLE_FROM_ATTRIBS(attr) \ (container_of(attr, struct vdd_rstr_enable, ko_attr)); #define VDD_RSTR_REG_VALUE_FROM_ATTRIBS(attr) \ (container_of(attr, struct rail, value_attr)); #define VDD_RSTR_REG_LEVEL_FROM_ATTRIBS(attr) \ (container_of(attr, struct rail, level_attr)); #define OCR_RW_ATTRIB(_rail, ko_attr, j, _name) \ ko_attr.attr.name = __stringify(_name); \ ko_attr.attr.mode = 0644; \ ko_attr.show = ocr_reg_##_name##_show; \ ko_attr.store = ocr_reg_##_name##_store; \ sysfs_attr_init(&ko_attr.attr); \ _rail.attr_gp.attrs[j] = &ko_attr.attr; #define PSM_RW_ATTRIB(_rail, ko_attr, j, _name) \ ko_attr.attr.name = __stringify(_name); \ ko_attr.attr.mode = 0644; \ ko_attr.show = psm_reg_##_name##_show; \ ko_attr.store = psm_reg_##_name##_store; \ sysfs_attr_init(&ko_attr.attr); \ _rail.attr_gp.attrs[j] = &ko_attr.attr; #define PSM_REG_MODE_FROM_ATTRIBS(attr) \ (container_of(attr, struct psm_rail, mode_attr)); #define PHASE_RW_ATTR(_phase, _name, _attr, j, _attr_gr) \ _attr.attr.name = __stringify(_name); \ _attr.attr.mode = 0644; \ _attr.show = _phase##_phase_show; \ _attr.store = _phase##_phase_store; \ sysfs_attr_init(&_attr.attr); \ _attr_gr.attrs[j] = &_attr.attr; #define MX_RW_ATTR(ko_attr, _name, _attr_gp) \ ko_attr.attr.name = __stringify(_name); \ ko_attr.attr.mode = 0644; \ ko_attr.show = show_mx_##_name; \ ko_attr.store = store_mx_##_name; \ sysfs_attr_init(&ko_attr.attr); \ _attr_gp.attrs[0] = &ko_attr.attr; static struct device_manager_data *find_device_by_name(const char *device_name) { struct device_manager_data *dev_mgr = NULL; list_for_each_entry(dev_mgr, &devices_list, dev_ptr) { if (strcmp(dev_mgr->device_name, device_name) == 0) return dev_mgr; } return NULL; } static int validate_client(struct device_clnt_data *clnt) { int ret = 0; struct device_manager_data *dev_mgr = NULL; struct device_clnt_data *client_ptr = NULL; if (!clnt || !clnt->dev_mgr) { pr_err("Invalid client\n"); ret = -EINVAL; goto validate_exit; } list_for_each_entry(dev_mgr, &devices_list, dev_ptr) { if (dev_mgr == clnt->dev_mgr) break; } if (dev_mgr != clnt->dev_mgr) { pr_err("Invalid device manager\n"); ret = -EINVAL; goto validate_exit; } mutex_lock(&dev_mgr->clnt_lock); list_for_each_entry(client_ptr, &dev_mgr->client_list, clnt_ptr) { if (clnt == client_ptr) break; } if (clnt != client_ptr) { pr_err("Invalid client\n"); ret = -EINVAL; goto validate_unlock; } validate_unlock: mutex_unlock(&dev_mgr->clnt_lock); validate_exit: return ret; } static int devmgr_client_cpufreq_update(struct device_manager_data *dev_mgr) { int ret = 0; struct device_clnt_data *clnt = NULL; uint32_t max_freq = UINT_MAX; uint32_t min_freq = 0; mutex_lock(&dev_mgr->clnt_lock); list_for_each_entry(clnt, &dev_mgr->client_list, clnt_ptr) { if (!clnt->req_active) continue; max_freq = min(max_freq, clnt->request.freq.max_freq); min_freq = max(min_freq, clnt->request.freq.min_freq); } if (dev_mgr->active_req.freq.max_freq == max_freq && dev_mgr->active_req.freq.min_freq == min_freq) { goto update_exit; } dev_mgr->active_req.freq.max_freq = max_freq; dev_mgr->active_req.freq.min_freq = min_freq; if (freq_mitigation_task) { complete(&freq_mitigation_complete); } else { pr_err("Frequency mitigation task is not initialized\n"); ret = -ESRCH; } update_exit: mutex_unlock(&dev_mgr->clnt_lock); return ret; } static int devmgr_client_hotplug_update(struct device_manager_data *dev_mgr) { int ret = 0; struct device_clnt_data *clnt = NULL; cpumask_t offline_mask = CPU_MASK_NONE; mutex_lock(&dev_mgr->clnt_lock); list_for_each_entry(clnt, &dev_mgr->client_list, clnt_ptr) { if (!clnt->req_active) continue; cpumask_or(&offline_mask, &offline_mask, &clnt->request.offline_mask); } if (cpumask_equal(&dev_mgr->active_req.offline_mask, &offline_mask)) goto update_exit; cpumask_copy(&dev_mgr->active_req.offline_mask, &offline_mask); if (hotplug_task) { complete(&hotplug_notify_complete); } else { pr_err("Hotplug task is not initialized\n"); ret = -ESRCH; } update_exit: mutex_unlock(&dev_mgr->clnt_lock); return ret; } static int devmgr_hotplug_client_request_validate_and_update( struct device_clnt_data *clnt, union device_request *req, enum device_req_type type) { if (type != HOTPLUG_MITIGATION_REQ) return -EINVAL; cpumask_copy(&clnt->request.offline_mask, &req->offline_mask); if (!cpumask_empty(&req->offline_mask)) clnt->req_active = true; else clnt->req_active = false; return 0; } static int devmgr_cpufreq_client_request_validate_and_update( struct device_clnt_data *clnt, union device_request *req, enum device_req_type type) { if (type != CPUFREQ_MITIGATION_REQ) return -EINVAL; if (req->freq.max_freq < req->freq.min_freq) { pr_err("Invalid Max and Min freq req. max:%u min:%u\n", req->freq.max_freq, req->freq.min_freq); return -EINVAL; } clnt->request.freq.max_freq = req->freq.max_freq; clnt->request.freq.min_freq = req->freq.min_freq; if ((req->freq.max_freq == CPUFREQ_MAX_NO_MITIGATION) && (req->freq.min_freq == CPUFREQ_MIN_NO_MITIGATION)) clnt->req_active = false; else clnt->req_active = true; return 0; } int devmgr_client_request_mitigation(struct device_clnt_data *clnt, enum device_req_type type, union device_request *req) { int ret = 0; struct device_manager_data *dev_mgr = NULL; if (!clnt || !req) { pr_err("Invalid inputs for mitigation.\n"); ret = -EINVAL; goto req_exit; } ret = validate_client(clnt); if (ret) { pr_err("Invalid mitigation client. ret:%d\n", ret); goto req_exit; } if (!clnt->dev_mgr->request_validate) { pr_err("Invalid dev mgr request update\n"); ret = -EINVAL; goto req_exit; } dev_mgr = clnt->dev_mgr; mutex_lock(&dev_mgr->clnt_lock); ret = dev_mgr->request_validate(clnt, req, type); if (ret) { pr_err("Invalid client request\n"); goto req_unlock; } req_unlock: mutex_unlock(&dev_mgr->clnt_lock); if (!ret && dev_mgr->update) dev_mgr->update(dev_mgr); req_exit: return ret; } struct device_clnt_data *devmgr_register_mitigation_client(struct device *dev, const char *device_name, void (*callback)(struct device_clnt_data *, union device_request *, void *)) { struct device_clnt_data *client = NULL; struct device_manager_data *dev_mgr = NULL; if (!dev || !device_name) { pr_err("Invalid input\n"); return ERR_PTR(-EINVAL); } dev_mgr = find_device_by_name(device_name); if (!dev_mgr) { pr_err("Invalid device %s\n", device_name); return ERR_PTR(-EINVAL); } client = devm_kzalloc(dev, sizeof(struct device_clnt_data), GFP_KERNEL); if (!client) { pr_err("Memory alloc failed\n"); return ERR_PTR(-ENOMEM); } mutex_lock(&dev_mgr->clnt_lock); client->dev_mgr = dev_mgr; client->callback = callback; list_add_tail(&client->clnt_ptr, &dev_mgr->client_list); mutex_unlock(&dev_mgr->clnt_lock); return client; } void devmgr_unregister_mitigation_client(struct device *dev, struct device_clnt_data *clnt) { int ret = 0; struct device_manager_data *dev_mgr = NULL; if (!clnt) { pr_err("Invalid input\n"); return; } ret = validate_client(clnt); if (ret) return; dev_mgr = clnt->dev_mgr; mutex_lock(&dev_mgr->clnt_lock); list_del(&clnt->clnt_ptr); mutex_unlock(&dev_mgr->clnt_lock); devm_kfree(dev, clnt); if (dev_mgr->update) dev_mgr->update(dev_mgr); } static int msm_thermal_cpufreq_callback(struct notifier_block *nfb, unsigned long event, void *data) { struct cpufreq_policy *policy = data; uint32_t max_freq_req, min_freq_req; switch (event) { case CPUFREQ_INCOMPATIBLE: if (SYNC_CORE(policy->cpu)) { max_freq_req = cpus[policy->cpu].parent_ptr->limited_max_freq; min_freq_req = cpus[policy->cpu].parent_ptr->limited_min_freq; } else { max_freq_req = cpus[policy->cpu].limited_max_freq; min_freq_req = cpus[policy->cpu].limited_min_freq; } pr_debug("mitigating CPU%d to freq max: %u min: %u\n", policy->cpu, max_freq_req, min_freq_req); cpufreq_verify_within_limits(policy, min_freq_req, max_freq_req); if (max_freq_req < min_freq_req) pr_err("Invalid frequency request Max:%u Min:%u\n", max_freq_req, min_freq_req); break; case CPUFREQ_CREATE_POLICY: if (pending_cpu_freq != -1 && (cpumask_first(policy->related_cpus) == pending_cpu_freq)) { pr_debug("Updating freq plan for cpu: %d\n", policy->cpu); pending_freq_table_ptr = cpufreq_frequency_get_table( policy->cpu); pending_cpu_freq = -1; } break; } return NOTIFY_OK; } static struct notifier_block msm_thermal_cpufreq_notifier = { .notifier_call = msm_thermal_cpufreq_callback, }; static void update_cpu_freq(int cpu) { int ret = 0; if (cpu_online(cpu)) { trace_thermal_pre_frequency_mit(cpu, cpus[cpu].limited_max_freq, cpus[cpu].limited_min_freq); ret = cpufreq_update_policy(cpu); trace_thermal_post_frequency_mit(cpu, cpufreq_quick_get_max(cpu), cpus[cpu].limited_min_freq); if (ret) pr_err("Unable to update policy for cpu:%d. err:%d\n", cpu, ret); } } static int * __init get_sync_cluster(struct device *dev, int *cnt) { int *sync_cluster = NULL, cluster_cnt = 0, ret = 0; char *key = "qcom,synchronous-cluster-id"; if (!of_get_property(dev->of_node, key, &cluster_cnt) || cluster_cnt <= 0 || !core_ptr) return NULL; cluster_cnt /= sizeof(__be32); if (cluster_cnt > core_ptr->entity_count) { pr_err("Invalid cluster count:%d\n", cluster_cnt); return NULL; } sync_cluster = devm_kzalloc(dev, sizeof(int) * cluster_cnt, GFP_KERNEL); if (!sync_cluster) { pr_err("Memory alloc failed\n"); return NULL; } ret = of_property_read_u32_array(dev->of_node, key, sync_cluster, cluster_cnt); if (ret) { pr_err("Error in reading property:%s. err:%d\n", key, ret); devm_kfree(dev, sync_cluster); return NULL; } *cnt = cluster_cnt; return sync_cluster; } static void update_cpu_datastructure(struct cluster_info *cluster_ptr, int *sync_cluster, int sync_cluster_cnt) { int i = 0; bool is_sync_cluster = false; for (i = 0; (sync_cluster) && (i < sync_cluster_cnt); i++) { if (cluster_ptr->cluster_id != sync_cluster[i]) continue; is_sync_cluster = true; break; } cluster_ptr->sync_cluster = is_sync_cluster; pr_debug("Cluster ID:%d Sync cluster:%s Sibling mask:%lu\n", cluster_ptr->cluster_id, is_sync_cluster ? "Yes" : "No", *cluster_ptr->cluster_cores.bits); for_each_cpu_mask(i, cluster_ptr->cluster_cores) { cpus[i].parent_ptr = cluster_ptr; } } static ssize_t cluster_info_show( struct kobject *kobj, struct kobj_attribute *attr, char *buf) { uint32_t i = 0; ssize_t tot_size = 0, size = 0; for (; i < core_ptr->entity_count; i++) { struct cluster_info *cluster_ptr = &core_ptr->child_entity_ptr[i]; size = snprintf(&buf[tot_size], PAGE_SIZE - tot_size, "%d:%lu:%d ", cluster_ptr->cluster_id, *cluster_ptr->cluster_cores.bits, cluster_ptr->sync_cluster); if ((tot_size + size) >= PAGE_SIZE) { pr_err("Not enough buffer size"); break; } tot_size += size; } return tot_size; } static struct kobj_attribute cluster_info_attr = __ATTR_RO(cluster_info); static int create_cpu_topology_sysfs(void) { int ret = 0; struct kobject *module_kobj = NULL; if (!cluster_info_probed) { cluster_info_nodes_called = true; return ret; } if (!core_ptr) return ret; module_kobj = kset_find_obj(module_kset, KBUILD_MODNAME); if (!module_kobj) { pr_err("cannot find kobject\n"); return -ENODEV; } sysfs_attr_init(&cluster_info_attr.attr); ret = sysfs_create_file(module_kobj, &cluster_info_attr.attr); if (ret) { pr_err("cannot create cluster info attr group. err:%d\n", ret); return ret; } return ret; } static int get_device_tree_cluster_info(struct device *dev, int *cluster_id, cpumask_t *cluster_cpus) { int i, cluster_cnt = 0, ret = 0; uint32_t val = 0; char *key = "qcom,synchronous-cluster-map"; if (!of_get_property(dev->of_node, key, &cluster_cnt) || cluster_cnt <= 0) { pr_debug("Property %s not defined.\n", key); return -ENODEV; } if (cluster_cnt % (sizeof(__be32) * 2)) { pr_err("Invalid number(%d) of entry for %s\n", cluster_cnt, key); return -EINVAL; } cluster_cnt /= (sizeof(__be32) * 2); for (i = 0; i < cluster_cnt; i++) { ret = of_property_read_u32_index(dev->of_node, key, i * 2, &val); if (ret) { pr_err("Error reading index%d\n", i * 2); return -EINVAL; } cluster_id[i] = val; of_property_read_u32_index(dev->of_node, key, i * 2 + 1, &val); if (ret) { pr_err("Error reading index%d\n", i * 2 + 1); return -EINVAL; } *cluster_cpus[i].bits = val; } return cluster_cnt; } static int get_kernel_cluster_info(int *cluster_id, cpumask_t *cluster_cpus) { uint32_t _cpu, cluster_index, cluster_cnt; for (_cpu = 0, cluster_cnt = 0; _cpu < num_possible_cpus(); _cpu++) { if (topology_physical_package_id(_cpu) < 0) { pr_err("CPU%d topology not initialized.\n", _cpu); return -ENODEV; } /* Do not use the sibling cpumask from topology module. ** kernel topology module updates the sibling cpumask ** only when the cores are brought online for the first time. ** KTM figures out the sibling cpumask using the ** cluster and core ID mapping. */ for (cluster_index = 0; cluster_index < num_possible_cpus(); cluster_index++) { if (cluster_id[cluster_index] == -1) { cluster_id[cluster_index] = topology_physical_package_id(_cpu); *cluster_cpus[cluster_index].bits = 0; cpumask_set_cpu(_cpu, &cluster_cpus[cluster_index]); cluster_cnt++; break; } if (cluster_id[cluster_index] == topology_physical_package_id(_cpu)) { cpumask_set_cpu(_cpu, &cluster_cpus[cluster_index]); break; } } } return cluster_cnt; } static void update_cpu_topology(struct device *dev) { int cluster_id[NR_CPUS] = {[0 ... NR_CPUS-1] = -1}; cpumask_t cluster_cpus[NR_CPUS]; uint32_t i, j; int cluster_cnt, cpu, sync_cluster_cnt = 0; struct cluster_info *temp_ptr = NULL; int *sync_cluster_id = NULL; cluster_info_probed = true; cluster_cnt = get_kernel_cluster_info(cluster_id, cluster_cpus); if (cluster_cnt <= 0) { cluster_cnt = get_device_tree_cluster_info(dev, cluster_id, cluster_cpus); if (cluster_cnt <= 0) { core_ptr = NULL; pr_debug("Cluster Info not defined. KTM continues.\n"); return; } } core_ptr = devm_kzalloc(dev, sizeof(struct cluster_info), GFP_KERNEL); if (!core_ptr) { pr_err("Memory alloc failed\n"); return; } core_ptr->parent_ptr = NULL; core_ptr->entity_count = cluster_cnt; core_ptr->cluster_id = -1; core_ptr->sync_cluster = false; temp_ptr = devm_kzalloc(dev, sizeof(struct cluster_info) * cluster_cnt, GFP_KERNEL); if (!temp_ptr) { pr_err("Memory alloc failed\n"); devm_kfree(dev, core_ptr); core_ptr = NULL; return; } sync_cluster_id = get_sync_cluster(dev, &sync_cluster_cnt); for (i = 0; i < cluster_cnt; i++) { pr_debug("Cluster_ID:%d CPU's:%lu\n", cluster_id[i], *cluster_cpus[i].bits); temp_ptr[i].cluster_id = cluster_id[i]; temp_ptr[i].parent_ptr = core_ptr; temp_ptr[i].cluster_cores = cluster_cpus[i]; temp_ptr[i].limited_max_freq = UINT_MAX; temp_ptr[i].limited_min_freq = 0; temp_ptr[i].freq_idx = 0; temp_ptr[i].freq_idx_low = 0; temp_ptr[i].freq_idx_high = 0; temp_ptr[i].freq_table = NULL; j = 0; for_each_cpu_mask(cpu, cluster_cpus[i]) j++; temp_ptr[i].entity_count = j; temp_ptr[i].child_entity_ptr = NULL; update_cpu_datastructure(&temp_ptr[i], sync_cluster_id, sync_cluster_cnt); } core_ptr->child_entity_ptr = temp_ptr; } static int __ref init_cluster_freq_table(void) { uint32_t _cluster = 0, _cpu = 0, table_len = 0, idx = 0; int ret = 0; struct cluster_info *cluster_ptr = NULL; struct cpufreq_policy *policy = NULL; struct cpufreq_frequency_table *freq_table_ptr = NULL; for (; _cluster < core_ptr->entity_count; _cluster++, table_len = 0, (policy && freq_table_ptr) ? cpufreq_cpu_put(policy) : 0, policy = NULL, freq_table_ptr = NULL) { cluster_ptr = &core_ptr->child_entity_ptr[_cluster]; if (cluster_ptr->freq_table) continue; for_each_cpu_mask(_cpu, cluster_ptr->cluster_cores) { policy = cpufreq_cpu_get(_cpu); if (!policy) continue; freq_table_ptr = cpufreq_frequency_get_table( policy->cpu); if (!freq_table_ptr) { cpufreq_cpu_put(policy); continue; } else { break; } } if (!freq_table_ptr) { _cpu = first_cpu(cluster_ptr->cluster_cores); pr_debug( "Online cpu%d in cluster%d to read cpufreq table\n", cluster_ptr->cluster_id, _cpu); pending_cpu_freq = _cpu; if (!cpu_online(_cpu)) { #ifdef CONFIG_SMP cpu_up(_cpu); cpu_down(_cpu); #endif } freq_table_ptr = pending_freq_table_ptr; } if (!freq_table_ptr) { pr_debug("Error reading cluster%d cpufreq table\n", cluster_ptr->cluster_id); ret = -EAGAIN; continue; } while (freq_table_ptr[table_len].frequency != CPUFREQ_TABLE_END) table_len++; cluster_ptr->freq_idx_low = 0; cluster_ptr->freq_idx_high = cluster_ptr->freq_idx = table_len - 1; if (cluster_ptr->freq_idx_high < 0 || (cluster_ptr->freq_idx_high < cluster_ptr->freq_idx_low)) { cluster_ptr->freq_idx = cluster_ptr->freq_idx_low = cluster_ptr->freq_idx_high = 0; WARN(1, "Cluster%d frequency table length:%d\n", cluster_ptr->cluster_id, table_len); ret = -EINVAL; goto release_and_exit; } cluster_ptr->freq_table = devm_kzalloc( &msm_thermal_info.pdev->dev, sizeof(struct cpufreq_frequency_table) * table_len, GFP_KERNEL); if (!cluster_ptr->freq_table) { pr_err("memory alloc failed\n"); cluster_ptr->freq_idx = cluster_ptr->freq_idx_low = cluster_ptr->freq_idx_high = 0; ret = -ENOMEM; goto release_and_exit; } for (idx = 0; idx < table_len; idx++) cluster_ptr->freq_table[idx].frequency = freq_table_ptr[idx].frequency; } return ret; release_and_exit: cpufreq_cpu_put(policy); return ret; } static void update_cluster_freq(void) { int online_cpu = -1; struct cluster_info *cluster_ptr = NULL; uint32_t _cluster = 0, _cpu = 0, max = UINT_MAX, min = 0; if (!core_ptr) return; for (; _cluster < core_ptr->entity_count; _cluster++, _cpu = 0, online_cpu = -1, max = UINT_MAX, min = 0) { /* ** If a cluster is synchronous, go over the frequency limits ** of each core in that cluster and aggregate the minimum ** and maximum frequencies. After aggregating, request for ** frequency update on the first online core in that cluster. ** Cpufreq driver takes care of updating the frequency of ** other cores in a synchronous cluster. */ cluster_ptr = &core_ptr->child_entity_ptr[_cluster]; if (!cluster_ptr->sync_cluster) continue; for_each_cpu_mask(_cpu, cluster_ptr->cluster_cores) { if (online_cpu == -1 && cpu_online(_cpu)) online_cpu = _cpu; max = min(max, cpus[_cpu].limited_max_freq); min = max(min, cpus[_cpu].limited_min_freq); } if (cluster_ptr->limited_max_freq == max && cluster_ptr->limited_min_freq == min) continue; cluster_ptr->limited_max_freq = max; cluster_ptr->limited_min_freq = min; if (online_cpu != -1) update_cpu_freq(online_cpu); } } static void do_cluster_freq_ctrl(long temp) { uint32_t _cluster = 0; int _cpu = -1, freq_idx = 0; bool mitigate = false; struct cluster_info *cluster_ptr = NULL; if (temp >= msm_thermal_info.limit_temp_degC) mitigate = true; else if (temp < msm_thermal_info.limit_temp_degC - msm_thermal_info.temp_hysteresis_degC) mitigate = false; else return; get_online_cpus(); for (; _cluster < core_ptr->entity_count; _cluster++) { cluster_ptr = &core_ptr->child_entity_ptr[_cluster]; if (!cluster_ptr->freq_table) continue; if (mitigate) freq_idx = max_t(int, cluster_ptr->freq_idx_low, (cluster_ptr->freq_idx - msm_thermal_info.bootup_freq_step)); else freq_idx = min_t(int, cluster_ptr->freq_idx_high, (cluster_ptr->freq_idx + msm_thermal_info.bootup_freq_step)); if (freq_idx == cluster_ptr->freq_idx) continue; cluster_ptr->freq_idx = freq_idx; for_each_cpu_mask(_cpu, cluster_ptr->cluster_cores) { if (!(msm_thermal_info.bootup_freq_control_mask & BIT(_cpu))) continue; pr_info("Limiting CPU%d max frequency to %u. Temp:%ld\n" , _cpu , cluster_ptr->freq_table[freq_idx].frequency , temp); cpus[_cpu].limited_max_freq = cluster_ptr->freq_table[freq_idx].frequency; } } if (_cpu != -1) update_cluster_freq(); put_online_cpus(); } /* If freq table exists, then we can send freq request */ static int check_freq_table(void) { int ret = 0; uint32_t i = 0; static bool invalid_table; if (invalid_table) return -EINVAL; if (freq_table_get) return 0; if (core_ptr) { ret = init_cluster_freq_table(); if (!ret) freq_table_get = 1; else if (ret == -EINVAL) invalid_table = true; return ret; } table = cpufreq_frequency_get_table(0); if (!table) { pr_debug("error reading cpufreq table\n"); return -EINVAL; } while (table[i].frequency != CPUFREQ_TABLE_END) i++; limit_idx_low = 0; limit_idx_high = limit_idx = i - 1; if (limit_idx_high < 0 || limit_idx_high < limit_idx_low) { invalid_table = true; table = NULL; limit_idx_low = limit_idx_high = limit_idx = 0; WARN(1, "CPU0 frequency table length:%d\n", i); return -EINVAL; } freq_table_get = 1; return 0; } static int update_cpu_min_freq_all(uint32_t min) { uint32_t cpu = 0, _cluster = 0; int ret = 0; struct cluster_info *cluster_ptr = NULL; bool valid_table = false; if (!freq_table_get) { ret = check_freq_table(); if (ret && !core_ptr) { pr_err("Fail to get freq table. err:%d\n", ret); return ret; } } /* If min is larger than allowed max */ if (core_ptr) { for (; _cluster < core_ptr->entity_count; _cluster++) { cluster_ptr = &core_ptr->child_entity_ptr[_cluster]; if (!cluster_ptr->freq_table) continue; valid_table = true; min = min(min, cluster_ptr->freq_table[ cluster_ptr->freq_idx_high].frequency); } if (!valid_table) return ret; } else { min = min(min, table[limit_idx_high].frequency); } pr_debug("Requesting min freq:%u for all CPU's\n", min); if (freq_mitigation_task) { min_freq_limit = min; complete(&freq_mitigation_complete); } else { get_online_cpus(); for_each_possible_cpu(cpu) { cpus[cpu].limited_min_freq = min; if (!SYNC_CORE(cpu)) update_cpu_freq(cpu); } update_cluster_freq(); put_online_cpus(); } return ret; } static int vdd_restriction_apply_freq(struct rail *r, int level) { int ret = 0; if (level == r->curr_level) return ret; /* level = -1: disable, level = 0,1,2..n: enable */ if (level == -1) { ret = update_cpu_min_freq_all(r->min_level); if (ret) return ret; else r->curr_level = -1; } else if (level >= 0 && level < (r->num_levels)) { ret = update_cpu_min_freq_all(r->levels[level]); if (ret) return ret; else r->curr_level = level; } else { pr_err("level input:%d is not within range\n", level); return -EINVAL; } return ret; } static int vdd_restriction_apply_voltage(struct rail *r, int level) { int ret = 0; if (r->reg == NULL) { pr_err("%s don't have regulator handle. can't apply vdd\n", r->name); return -EFAULT; } if (level == r->curr_level) return ret; /* level = -1: disable, level = 0,1,2..n: enable */ if (level == -1) { ret = regulator_set_voltage(r->reg, r->min_level, r->levels[r->num_levels - 1]); if (!ret) r->curr_level = -1; pr_debug("Requested min level for %s. curr level: %d\n", r->name, r->curr_level); } else if (level >= 0 && level < (r->num_levels)) { ret = regulator_set_voltage(r->reg, r->levels[level], r->levels[r->num_levels - 1]); if (!ret) r->curr_level = level; pr_debug("Requesting level %d for %s. curr level: %d\n", r->levels[level], r->name, r->levels[r->curr_level]); } else { pr_err("level input:%d is not within range\n", level); return -EINVAL; } return ret; } /* Setting all rails the same mode */ static int psm_set_mode_all(int mode) { int i = 0; int fail_cnt = 0; int ret = 0; pr_debug("Requesting PMIC Mode: %d\n", mode); for (i = 0; i < psm_rails_cnt; i++) { if (psm_rails[i].mode != mode) { ret = rpm_regulator_set_mode(psm_rails[i].reg, mode); if (ret) { pr_err("Cannot set mode:%d for %s. err:%d", mode, psm_rails[i].name, ret); fail_cnt++; } else psm_rails[i].mode = mode; } } return fail_cnt ? (-EFAULT) : ret; } static ssize_t vdd_rstr_en_show( struct kobject *kobj, struct kobj_attribute *attr, char *buf) { struct vdd_rstr_enable *en = VDD_RSTR_ENABLE_FROM_ATTRIBS(attr); return snprintf(buf, PAGE_SIZE, "%d\n", en->enabled); } static ssize_t vdd_rstr_en_store(struct kobject *kobj, struct kobj_attribute *attr, const char *buf, size_t count) { int ret = 0; int i = 0; uint8_t en_cnt = 0; uint8_t dis_cnt = 0; uint32_t val = 0; struct kernel_param kp; struct vdd_rstr_enable *en = VDD_RSTR_ENABLE_FROM_ATTRIBS(attr); mutex_lock(&vdd_rstr_mutex); kp.arg = &val; ret = param_set_bool(buf, &kp); if (ret) { pr_err("Invalid input %s for enabled\n", buf); goto done_vdd_rstr_en; } if ((val == 0) && (en->enabled == 0)) goto done_vdd_rstr_en; for (i = 0; i < rails_cnt; i++) { if (rails[i].freq_req == 1 && freq_table_get) ret = vdd_restriction_apply_freq(&rails[i], (val) ? 0 : -1); else ret = vdd_restriction_apply_voltage(&rails[i], (val) ? 0 : -1); /* * Even if fail to set one rail, still try to set the * others. Continue the loop */ if (ret) pr_err("Set vdd restriction for %s failed\n", rails[i].name); else { if (val) en_cnt++; else dis_cnt++; } } /* As long as one rail is enabled, vdd rstr is enabled */ if (val && en_cnt) en->enabled = 1; else if (!val && (dis_cnt == rails_cnt)) en->enabled = 0; pr_debug("%s vdd restriction. curr: %d\n", (val) ? "Enable" : "Disable", en->enabled); done_vdd_rstr_en: mutex_unlock(&vdd_rstr_mutex); return count; } static int send_temperature_band(enum msm_thermal_phase_ctrl phase, enum msm_temp_band req_band) { int ret = 0; uint32_t msg_id; struct msm_rpm_request *rpm_req; unsigned int band = req_band; uint32_t key, resource, resource_id; if (phase < 0 || phase >= MSM_PHASE_CTRL_NR || req_band <= 0 || req_band >= MSM_TEMP_MAX_NR) { pr_err("Invalid input\n"); ret = -EINVAL; goto phase_ctrl_exit; } switch (phase) { case MSM_CX_PHASE_CTRL: key = msm_thermal_info.cx_phase_request_key; break; case MSM_GFX_PHASE_CTRL: key = msm_thermal_info.gfx_phase_request_key; break; default: goto phase_ctrl_exit; break; } resource = msm_thermal_info.phase_rpm_resource_type; resource_id = msm_thermal_info.phase_rpm_resource_id; pr_debug("Sending %s temperature band %d\n", (phase == MSM_CX_PHASE_CTRL) ? "CX" : "GFX", req_band); rpm_req = msm_rpm_create_request(MSM_RPM_CTX_ACTIVE_SET, resource, resource_id, 1); if (!rpm_req) { pr_err("Creating RPM request failed\n"); ret = -ENXIO; goto phase_ctrl_exit; } ret = msm_rpm_add_kvp_data(rpm_req, key, (const uint8_t *)&band, (int)sizeof(band)); if (ret) { pr_err("Adding KVP data failed. err:%d\n", ret); goto free_rpm_handle; } msg_id = msm_rpm_send_request(rpm_req); if (!msg_id) { pr_err("RPM send request failed\n"); ret = -ENXIO; goto free_rpm_handle; } ret = msm_rpm_wait_for_ack(msg_id); if (ret) { pr_err("RPM wait for ACK failed. err:%d\n", ret); goto free_rpm_handle; } free_rpm_handle: msm_rpm_free_request(rpm_req); phase_ctrl_exit: return ret; } static uint32_t msm_thermal_str_to_int(const char *inp) { int i, len; uint32_t output = 0; len = strnlen(inp, sizeof(uint32_t)); for (i = 0; i < len; i++) output |= inp[i] << (i * 8); return output; } static ssize_t sensor_info_show( struct kobject *kobj, struct kobj_attribute *attr, char *buf) { int i; ssize_t tot_size = 0, size = 0; for (i = 0; i < sensor_cnt; i++) { size = snprintf(&buf[tot_size], PAGE_SIZE - tot_size, "%s:%s:%s:%d ", sensors[i].type, sensors[i].name, sensors[i].alias ? : "", sensors[i].scaling_factor); if (tot_size + size >= PAGE_SIZE) { pr_err("Not enough buffer size\n"); break; } tot_size += size; } if (tot_size) buf[tot_size - 1] = '\n'; return tot_size; } static struct vdd_rstr_enable vdd_rstr_en = { .ko_attr.attr.name = __stringify(enabled), .ko_attr.attr.mode = 0644, .ko_attr.show = vdd_rstr_en_show, .ko_attr.store = vdd_rstr_en_store, .enabled = 1, }; static struct attribute *vdd_rstr_en_attribs[] = { &vdd_rstr_en.ko_attr.attr, NULL, }; static struct attribute_group vdd_rstr_en_attribs_gp = { .attrs = vdd_rstr_en_attribs, }; static ssize_t vdd_rstr_reg_value_show( struct kobject *kobj, struct kobj_attribute *attr, char *buf) { int val = 0; struct rail *reg = VDD_RSTR_REG_VALUE_FROM_ATTRIBS(attr); /* -1:disabled, -2:fail to get regualtor handle */ if (reg->curr_level < 0) val = reg->curr_level; else val = reg->levels[reg->curr_level]; return snprintf(buf, PAGE_SIZE, "%d\n", val); } static ssize_t vdd_rstr_reg_level_show( struct kobject *kobj, struct kobj_attribute *attr, char *buf) { struct rail *reg = VDD_RSTR_REG_LEVEL_FROM_ATTRIBS(attr); return snprintf(buf, PAGE_SIZE, "%d\n", reg->curr_level); } static ssize_t vdd_rstr_reg_level_store(struct kobject *kobj, struct kobj_attribute *attr, const char *buf, size_t count) { int ret = 0; int val = 0; struct rail *reg = VDD_RSTR_REG_LEVEL_FROM_ATTRIBS(attr); mutex_lock(&vdd_rstr_mutex); if (vdd_rstr_en.enabled == 0) goto done_store_level; ret = kstrtouint(buf, 10, &val); if (ret) { pr_err("Invalid input %s for level\n", buf); goto done_store_level; } if (val < 0 || val > reg->num_levels - 1) { pr_err(" Invalid number %d for level\n", val); goto done_store_level; } if (val != reg->curr_level) { if (reg->freq_req == 1 && freq_table_get) update_cpu_min_freq_all(reg->levels[val]); else { ret = vdd_restriction_apply_voltage(reg, val); if (ret) { pr_err( \ "Set vdd restriction for regulator %s failed. err:%d\n", reg->name, ret); goto done_store_level; } } reg->curr_level = val; pr_debug("Request level %d for %s\n", reg->curr_level, reg->name); } done_store_level: mutex_unlock(&vdd_rstr_mutex); return count; } static int request_optimum_current(struct psm_rail *rail, enum ocr_request req) { int ret = 0; if ((!rail) || (req >= OPTIMUM_CURRENT_NR) || (req < 0)) { pr_err("Invalid input %d\n", req); ret = -EINVAL; goto request_ocr_exit; } ret = regulator_set_optimum_mode(rail->phase_reg, (req == OPTIMUM_CURRENT_MAX) ? MAX_CURRENT_UA : 0); if (ret < 0) { pr_err("Optimum current request failed. err:%d\n", ret); goto request_ocr_exit; } ret = 0; /*regulator_set_optimum_mode returns the mode on success*/ pr_debug("Requested optimum current mode: %d\n", req); request_ocr_exit: return ret; } static int ocr_set_mode_all(enum ocr_request req) { int ret = 0, i; for (i = 0; i < ocr_rail_cnt; i++) { if (ocr_rails[i].mode == req) continue; ret = request_optimum_current(&ocr_rails[i], req); if (ret) goto ocr_set_mode_exit; ocr_rails[i].mode = req; } ocr_set_mode_exit: return ret; } static ssize_t ocr_reg_mode_show(struct kobject *kobj, struct kobj_attribute *attr, char *buf) { struct psm_rail *reg = PSM_REG_MODE_FROM_ATTRIBS(attr); return snprintf(buf, PAGE_SIZE, "%d\n", reg->mode); } static ssize_t ocr_reg_mode_store(struct kobject *kobj, struct kobj_attribute *attr, const char *buf, size_t count) { int ret = 0; int val = 0; struct psm_rail *reg = PSM_REG_MODE_FROM_ATTRIBS(attr); if (!ocr_enabled) return count; mutex_lock(&ocr_mutex); ret = kstrtoint(buf, 10, &val); if (ret) { pr_err("Invalid input %s for mode. err:%d\n", buf, ret); goto done_ocr_store; } if ((val != OPTIMUM_CURRENT_MAX) && (val != OPTIMUM_CURRENT_MIN)) { pr_err("Invalid value %d for mode\n", val); goto done_ocr_store; } if (val != reg->mode) { ret = request_optimum_current(reg, val); if (ret) goto done_ocr_store; reg->mode = val; } done_ocr_store: mutex_unlock(&ocr_mutex); return count; } static ssize_t store_phase_request(const char *buf, size_t count, bool is_cx) { int ret = 0, val; struct mutex *phase_mutex = (is_cx) ? (&cx_mutex) : (&gfx_mutex); enum msm_thermal_phase_ctrl phase_req = (is_cx) ? MSM_CX_PHASE_CTRL : MSM_GFX_PHASE_CTRL; ret = kstrtoint(buf, 10, &val); if (ret) { pr_err("Invalid input %s for %s temperature band\n", buf, (is_cx) ? "CX" : "GFX"); goto phase_store_exit; } if ((val <= 0) || (val >= MSM_TEMP_MAX_NR)) { pr_err("Invalid input %d for %s temperature band\n", val, (is_cx) ? "CX" : "GFX"); ret = -EINVAL; goto phase_store_exit; } mutex_lock(phase_mutex); if (val != ((is_cx) ? curr_cx_band : curr_gfx_band)) { ret = send_temperature_band(phase_req, val); if (!ret) { *((is_cx) ? &curr_cx_band : &curr_gfx_band) = val; } else { pr_err("Failed to send %d temp. band to %s rail\n", val, (is_cx) ? "CX" : "GFX"); goto phase_store_unlock_exit; } } ret = count; phase_store_unlock_exit: mutex_unlock(phase_mutex); phase_store_exit: return ret; } #define show_phase(_name, _variable) \ static ssize_t _name##_phase_show(struct kobject *kobj, \ struct kobj_attribute *attr, char *buf) \ { \ return snprintf(buf, PAGE_SIZE, "%u\n", _variable); \ } #define store_phase(_name, _variable, _iscx) \ static ssize_t _name##_phase_store(struct kobject *kobj, \ struct kobj_attribute *attr, const char *buf, size_t count) \ { \ return store_phase_request(buf, count, _iscx); \ } show_phase(gfx, curr_gfx_band) show_phase(cx, curr_cx_band) store_phase(gfx, curr_gfx_band, false) store_phase(cx, curr_cx_band, true) static ssize_t psm_reg_mode_show( struct kobject *kobj, struct kobj_attribute *attr, char *buf) { struct psm_rail *reg = PSM_REG_MODE_FROM_ATTRIBS(attr); return snprintf(buf, PAGE_SIZE, "%d\n", reg->mode); } static ssize_t psm_reg_mode_store(struct kobject *kobj, struct kobj_attribute *attr, const char *buf, size_t count) { int ret = 0; int val = 0; struct psm_rail *reg = PSM_REG_MODE_FROM_ATTRIBS(attr); mutex_lock(&psm_mutex); ret = kstrtoint(buf, 10, &val); if (ret) { pr_err("Invalid input %s for mode\n", buf); goto done_psm_store; } if ((val != PMIC_PWM_MODE) && (val != PMIC_AUTO_MODE)) { pr_err("Invalid number %d for mode\n", val); goto done_psm_store; } if (val != reg->mode) { ret = rpm_regulator_set_mode(reg->reg, val); if (ret) { pr_err("Fail to set Mode:%d for %s. err:%d\n", val, reg->name, ret); goto done_psm_store; } reg->mode = val; } done_psm_store: mutex_unlock(&psm_mutex); return count; } static int check_sensor_id(int sensor_id) { int i = 0; bool hw_id_found = false; int ret = 0; for (i = 0; i < max_tsens_num; i++) { if (sensor_id == tsens_id_map[i]) { hw_id_found = true; break; } } if (!hw_id_found) { pr_err("Invalid sensor hw id:%d\n", sensor_id); return -EINVAL; } return ret; } static int create_sensor_id_map(void) { int i = 0; int ret = 0; tsens_id_map = kzalloc(sizeof(int) * max_tsens_num, GFP_KERNEL); if (!tsens_id_map) { pr_err("Cannot allocate memory for tsens_id_map\n"); return -ENOMEM; } for (i = 0; i < max_tsens_num; i++) { ret = tsens_get_hw_id_mapping(i, &tsens_id_map[i]); /* If return -ENXIO, hw_id is default in sequence */ if (ret) { if (ret == -ENXIO) { tsens_id_map[i] = i; ret = 0; } else { pr_err("Failed to get hw id for id:%d.err:%d\n", i, ret); goto fail; } } } return ret; fail: kfree(tsens_id_map); return ret; } /* 1:enable, 0:disable */ static int vdd_restriction_apply_all(int en) { int i = 0; int en_cnt = 0; int dis_cnt = 0; int fail_cnt = 0; int ret = 0; for (i = 0; i < rails_cnt; i++) { if (rails[i].freq_req == 1) if (freq_table_get) ret = vdd_restriction_apply_freq(&rails[i], en ? 0 : -1); else continue; else ret = vdd_restriction_apply_voltage(&rails[i], en ? 0 : -1); if (ret) { pr_err("Failed to %s for %s. err:%d", (en) ? "enable" : "disable", rails[i].name, ret); fail_cnt++; } else { if (en) en_cnt++; else dis_cnt++; } } /* As long as one rail is enabled, vdd rstr is enabled */ if (en && en_cnt) vdd_rstr_en.enabled = 1; else if (!en && (dis_cnt == rails_cnt)) vdd_rstr_en.enabled = 0; /* * Check fail_cnt again to make sure all of the rails are applied * restriction successfully or not */ if (fail_cnt) return -EFAULT; return ret; } static int set_and_activate_threshold(uint32_t sensor_id, struct sensor_threshold *threshold) { int ret = 0; ret = sensor_set_trip(sensor_id, threshold); if (ret != 0) { pr_err("sensor:%u Error in setting trip:%d. err:%d\n", sensor_id, threshold->trip, ret); goto set_done; } ret = sensor_activate_trip(sensor_id, threshold, true); if (ret != 0) { pr_err("sensor:%u Error in enabling trip:%d. err:%d\n", sensor_id, threshold->trip, ret); goto set_done; } set_done: return ret; } static int therm_get_temp(uint32_t id, enum sensor_id_type type, long *temp) { int ret = 0; struct tsens_device tsens_dev; if (!temp) { pr_err("Invalid value\n"); ret = -EINVAL; goto get_temp_exit; } switch (type) { case THERM_ZONE_ID: ret = sensor_get_temp(id, temp); if (ret) { pr_err("Unable to read thermal zone sensor:%d\n", id); goto get_temp_exit; } break; case THERM_TSENS_ID: tsens_dev.sensor_num = id; ret = tsens_get_temp(&tsens_dev, temp); if (ret) { pr_err("Unable to read TSENS sensor:%d\n", tsens_dev.sensor_num); goto get_temp_exit; } break; default: pr_err("Invalid type\n"); ret = -EINVAL; goto get_temp_exit; } get_temp_exit: return ret; } static int msm_thermal_panic_callback(struct notifier_block *nfb, unsigned long event, void *data) { int i; for (i = 0; i < max_tsens_num; i++) therm_get_temp(tsens_id_map[i], THERM_TSENS_ID, &tsens_temp_at_panic[i]); return NOTIFY_OK; } static struct notifier_block msm_thermal_panic_notifier = { .notifier_call = msm_thermal_panic_callback, }; static int set_threshold(uint32_t zone_id, struct sensor_threshold *threshold) { int i = 0, ret = 0; long temp; if (!threshold) { pr_err("Invalid input\n"); ret = -EINVAL; goto set_threshold_exit; } ret = therm_get_temp(zone_id, THERM_ZONE_ID, &temp); if (ret) { pr_err("Unable to read temperature for zone:%d. err:%d\n", zone_id, ret); goto set_threshold_exit; } while (i < MAX_THRESHOLD) { switch (threshold[i].trip) { case THERMAL_TRIP_CONFIGURABLE_HI: if (threshold[i].temp >= temp) { ret = set_and_activate_threshold(zone_id, &threshold[i]); if (ret) goto set_threshold_exit; } break; case THERMAL_TRIP_CONFIGURABLE_LOW: if (threshold[i].temp <= temp) { ret = set_and_activate_threshold(zone_id, &threshold[i]); if (ret) goto set_threshold_exit; } break; default: pr_err("zone:%u Invalid trip:%d\n", zone_id, threshold[i].trip); break; } i++; } set_threshold_exit: return ret; } static int apply_vdd_mx_restriction(void) { int ret = 0; if (mx_restr_applied) goto done; ret = regulator_set_voltage(vdd_mx, msm_thermal_info.vdd_mx_min, INT_MAX); if (ret) { pr_err("Failed to add mx vote, error %d\n", ret); goto done; } ret = regulator_enable(vdd_mx); if (ret) pr_err("Failed to vote for mx voltage %d, error %d\n", msm_thermal_info.vdd_mx_min, ret); else mx_restr_applied = true; done: return ret; } static int remove_vdd_mx_restriction(void) { int ret = 0; if (!mx_restr_applied) goto done; ret = regulator_disable(vdd_mx); if (ret) { pr_err("Failed to disable mx voting, error %d\n", ret); goto done; } ret = regulator_set_voltage(vdd_mx, 0, INT_MAX); if (ret) pr_err("Failed to remove mx vote, error %d\n", ret); else mx_restr_applied = false; done: return ret; } static int do_vdd_mx(void) { long temp = 0; int ret = 0; int i = 0; int dis_cnt = 0; if (!vdd_mx_enabled) return ret; mutex_lock(&vdd_mx_mutex); for (i = 0; i < thresh[MSM_VDD_MX_RESTRICTION].thresh_ct; i++) { ret = therm_get_temp( thresh[MSM_VDD_MX_RESTRICTION].thresh_list[i].sensor_id, thresh[MSM_VDD_MX_RESTRICTION].thresh_list[i].id_type, &temp); if (ret) { pr_err("Unable to read TSENS sensor:%d, err:%d\n", thresh[MSM_VDD_MX_RESTRICTION].thresh_list[i]. sensor_id, ret); dis_cnt++; continue; } if (temp <= msm_thermal_info.vdd_mx_temp_degC) { ret = apply_vdd_mx_restriction(); if (ret) pr_err( "Failed to apply mx restriction\n"); goto exit; } else if (temp >= (msm_thermal_info.vdd_mx_temp_degC + msm_thermal_info.vdd_mx_temp_hyst_degC)) { dis_cnt++; } } if ((dis_cnt == thresh[MSM_VDD_MX_RESTRICTION].thresh_ct)) { ret = remove_vdd_mx_restriction(); if (ret) pr_err("Failed to remove vdd mx restriction\n"); } exit: mutex_unlock(&vdd_mx_mutex); return ret; } static void vdd_mx_notify(struct therm_threshold *trig_thresh) { static uint32_t mx_sens_status; int ret; pr_debug("Sensor%d trigger recevied for type %d\n", trig_thresh->sensor_id, trig_thresh->trip_triggered); if (!vdd_mx_enabled) return; mutex_lock(&vdd_mx_mutex); switch (trig_thresh->trip_triggered) { case THERMAL_TRIP_CONFIGURABLE_LOW: mx_sens_status |= BIT(trig_thresh->sensor_id); break; case THERMAL_TRIP_CONFIGURABLE_HI: if (mx_sens_status & BIT(trig_thresh->sensor_id)) mx_sens_status ^= BIT(trig_thresh->sensor_id); break; default: pr_err("Unsupported trip type\n"); break; } if (mx_sens_status) { ret = apply_vdd_mx_restriction(); if (ret) pr_err("Failed to apply mx restriction\n"); } else if (!mx_sens_status) { ret = remove_vdd_mx_restriction(); if (ret) pr_err("Failed to remove vdd mx restriction\n"); } mutex_unlock(&vdd_mx_mutex); set_threshold(trig_thresh->sensor_id, trig_thresh->threshold); } static void msm_thermal_bite(int tsens_id, long temp) { struct scm_desc desc; pr_err("TSENS:%d reached temperature:%ld. System reset\n", tsens_id, temp); if (!is_scm_armv8()) { scm_call_atomic1(SCM_SVC_BOOT, THERM_SECURE_BITE_CMD, 0); } else { desc.args[0] = 0; desc.arginfo = SCM_ARGS(1); scm_call2_atomic(SCM_SIP_FNID(SCM_SVC_BOOT, THERM_SECURE_BITE_CMD), &desc); } } static int do_therm_reset(void) { int ret = 0, i; long temp = 0; if (!therm_reset_enabled) return ret; for (i = 0; i < thresh[MSM_THERM_RESET].thresh_ct; i++) { ret = therm_get_temp( thresh[MSM_THERM_RESET].thresh_list[i].sensor_id, thresh[MSM_THERM_RESET].thresh_list[i].id_type, &temp); if (ret) { pr_err("Unable to read TSENS sensor:%d. err:%d\n", thresh[MSM_THERM_RESET].thresh_list[i].sensor_id, ret); continue; } if (temp >= msm_thermal_info.therm_reset_temp_degC) msm_thermal_bite( thresh[MSM_THERM_RESET].thresh_list[i].sensor_id, temp); } return ret; } static void therm_reset_notify(struct therm_threshold *thresh_data) { long temp; int ret = 0; if (!therm_reset_enabled) return; if (!thresh_data) { pr_err("Invalid input\n"); return; } switch (thresh_data->trip_triggered) { case THERMAL_TRIP_CONFIGURABLE_HI: ret = therm_get_temp(thresh_data->sensor_id, thresh_data->id_type, &temp); if (ret) pr_err("Unable to read TSENS sensor:%d. err:%d\n", thresh_data->sensor_id, ret); msm_thermal_bite(tsens_id_map[thresh_data->sensor_id], temp); break; case THERMAL_TRIP_CONFIGURABLE_LOW: break; default: pr_err("Invalid trip type\n"); break; } set_threshold(thresh_data->sensor_id, thresh_data->threshold); } #ifdef CONFIG_SMP static void __ref do_core_control(long temp) { int i = 0; int ret = 0; if (!core_control_enabled) return; mutex_lock(&core_control_mutex); if (msm_thermal_info.core_control_mask && temp >= msm_thermal_info.core_limit_temp_degC) { for (i = num_possible_cpus(); i > 0; i--) { if (!(msm_thermal_info.core_control_mask & BIT(i))) continue; if (cpus_offlined & BIT(i) && !cpu_online(i)) continue; pr_info("Set Offline: CPU%d Temp: %ld\n", i, temp); trace_thermal_pre_core_offline(i); ret = cpu_down(i); if (ret) pr_err("Error %d offline core %d\n", ret, i); trace_thermal_post_core_offline(i, cpumask_test_cpu(i, cpu_online_mask)); cpus_offlined |= BIT(i); break; } } else if (msm_thermal_info.core_control_mask && cpus_offlined && temp <= (msm_thermal_info.core_limit_temp_degC - msm_thermal_info.core_temp_hysteresis_degC)) { for (i = 0; i < num_possible_cpus(); i++) { if (!(cpus_offlined & BIT(i))) continue; cpus_offlined &= ~BIT(i); pr_info("Allow Online CPU%d Temp: %ld\n", i, temp); /* * If this core is already online, then bring up the * next offlined core. */ if (cpu_online(i)) continue; trace_thermal_pre_core_online(i); ret = cpu_up(i); if (ret) pr_err("Error %d online core %d\n", ret, i); trace_thermal_post_core_online(i, cpumask_test_cpu(i, cpu_online_mask)); break; } } mutex_unlock(&core_control_mutex); } /* Call with core_control_mutex locked */ static int __ref update_offline_cores(int val) { uint32_t cpu = 0; int ret = 0; uint32_t previous_cpus_offlined = 0; if (!core_control_enabled) return 0; previous_cpus_offlined = cpus_offlined; cpus_offlined = msm_thermal_info.core_control_mask & val; for_each_possible_cpu(cpu) { if (cpus_offlined & BIT(cpu)) { if (!cpu_online(cpu)) continue; trace_thermal_pre_core_offline(cpu); ret = cpu_down(cpu); if (ret) pr_err("Unable to offline CPU%d. err:%d\n", cpu, ret); else pr_debug("Offlined CPU%d\n", cpu); trace_thermal_post_core_offline(cpu, cpumask_test_cpu(cpu, cpu_online_mask)); } else if (online_core && (previous_cpus_offlined & BIT(cpu))) { if (cpu_online(cpu)) continue; trace_thermal_pre_core_online(cpu); ret = cpu_up(cpu); if (ret && ret == notifier_to_errno(NOTIFY_BAD)) pr_debug("Onlining CPU%d is vetoed\n", cpu); else if (ret) pr_err("Unable to online CPU%d. err:%d\n", cpu, ret); else pr_debug("Onlined CPU%d\n", cpu); trace_thermal_post_core_online(cpu, cpumask_test_cpu(cpu, cpu_online_mask)); } } return ret; } static __ref int do_hotplug(void *data) { int ret = 0; uint32_t cpu = 0, mask = 0; struct device_clnt_data *clnt = NULL; struct sched_param param = {.sched_priority = MAX_RT_PRIO-2}; if (!core_control_enabled) { pr_debug("Core control disabled\n"); return -EINVAL; } sched_setscheduler(current, SCHED_FIFO, &param); while (!kthread_should_stop()) { while (wait_for_completion_interruptible( &hotplug_notify_complete) != 0) ; INIT_COMPLETION(hotplug_notify_complete); mask = 0; mutex_lock(&core_control_mutex); for_each_possible_cpu(cpu) { if (hotplug_enabled && cpus[cpu].hotplug_thresh_clear) { set_threshold(cpus[cpu].sensor_id, &cpus[cpu].threshold[HOTPLUG_THRESHOLD_HIGH]); cpus[cpu].hotplug_thresh_clear = false; } if (cpus[cpu].offline || cpus[cpu].user_offline) mask |= BIT(cpu); } if (devices && devices->hotplug_dev) { mutex_lock(&devices->hotplug_dev->clnt_lock); for_each_cpu_mask(cpu, devices->hotplug_dev->active_req.offline_mask) mask |= BIT(cpu); mutex_unlock(&devices->hotplug_dev->clnt_lock); } if (mask != cpus_offlined) update_offline_cores(mask); mutex_unlock(&core_control_mutex); if (devices && devices->hotplug_dev) { union device_request req; req.offline_mask = CPU_MASK_NONE; mutex_lock(&devices->hotplug_dev->clnt_lock); for_each_cpu_mask(cpu, devices->hotplug_dev->active_req.offline_mask) if (mask & BIT(cpu)) cpumask_test_and_set_cpu(cpu, &req.offline_mask); list_for_each_entry(clnt, &devices->hotplug_dev->client_list, clnt_ptr) { if (clnt->callback) clnt->callback(clnt, &req, clnt->usr_data); } mutex_unlock(&devices->hotplug_dev->clnt_lock); } sysfs_notify(cc_kobj, NULL, "cpus_offlined"); } return ret; } #else static void __ref do_core_control(long temp) { return; } static __ref int do_hotplug(void *data) { return 0; } static int __ref update_offline_cores(int val) { return 0; } #endif static int do_gfx_phase_cond(void) { long temp = 0; int ret = 0; uint32_t new_req_band = curr_gfx_band; if (!gfx_warm_phase_ctrl_enabled && !gfx_crit_phase_ctrl_enabled) return ret; mutex_lock(&gfx_mutex); if (gfx_warm_phase_ctrl_enabled) { ret = therm_get_temp( thresh[MSM_GFX_PHASE_CTRL_WARM].thresh_list->sensor_id, thresh[MSM_GFX_PHASE_CTRL_WARM].thresh_list->id_type, &temp); if (ret) { pr_err("Unable to read TSENS sensor:%d. err:%d\n", thresh[MSM_GFX_PHASE_CTRL_WARM].thresh_list->sensor_id, ret); goto gfx_phase_cond_exit; } } else { ret = therm_get_temp( thresh[MSM_GFX_PHASE_CTRL_HOT].thresh_list->sensor_id, thresh[MSM_GFX_PHASE_CTRL_HOT].thresh_list->id_type, &temp); if (ret) { pr_err("Unable to read TSENS sensor:%d. err:%d\n", thresh[MSM_GFX_PHASE_CTRL_HOT].thresh_list->sensor_id, ret); goto gfx_phase_cond_exit; } } switch (curr_gfx_band) { case MSM_HOT_CRITICAL: if (temp < (msm_thermal_info.gfx_phase_hot_temp_degC - msm_thermal_info.gfx_phase_hot_temp_hyst_degC)) new_req_band = MSM_WARM; break; case MSM_WARM: if (temp >= msm_thermal_info.gfx_phase_hot_temp_degC) new_req_band = MSM_HOT_CRITICAL; else if (temp < (msm_thermal_info.gfx_phase_warm_temp_degC - msm_thermal_info.gfx_phase_warm_temp_hyst_degC)) new_req_band = MSM_NORMAL; break; case MSM_NORMAL: if (temp >= msm_thermal_info.gfx_phase_warm_temp_degC) new_req_band = MSM_WARM; break; default: if (temp >= msm_thermal_info.gfx_phase_hot_temp_degC) new_req_band = MSM_HOT_CRITICAL; else if (temp >= msm_thermal_info.gfx_phase_warm_temp_degC) new_req_band = MSM_WARM; else new_req_band = MSM_NORMAL; break; } if (new_req_band != curr_gfx_band) { ret = send_temperature_band(MSM_GFX_PHASE_CTRL, new_req_band); if (!ret) { pr_debug("Reached %d band. Temp:%ld\n", new_req_band, temp); curr_gfx_band = new_req_band; } else { pr_err("Error sending temp. band:%d. Temp:%ld. err:%d", new_req_band, temp, ret); } } gfx_phase_cond_exit: mutex_unlock(&gfx_mutex); return ret; } static int do_cx_phase_cond(void) { long temp = 0; int i, ret = 0, dis_cnt = 0; if (!cx_phase_ctrl_enabled) return ret; mutex_lock(&cx_mutex); for (i = 0; i < thresh[MSM_CX_PHASE_CTRL_HOT].thresh_ct; i++) { ret = therm_get_temp( thresh[MSM_CX_PHASE_CTRL_HOT].thresh_list[i].sensor_id, thresh[MSM_CX_PHASE_CTRL_HOT].thresh_list[i].id_type, &temp); if (ret) { pr_err("Unable to read TSENS sensor:%d. err:%d\n", thresh[MSM_CX_PHASE_CTRL_HOT].thresh_list[i].sensor_id, ret); dis_cnt++; continue; } if (temp >= msm_thermal_info.cx_phase_hot_temp_degC) { if (curr_cx_band != MSM_HOT_CRITICAL) { ret = send_temperature_band(MSM_CX_PHASE_CTRL, MSM_HOT_CRITICAL); if (!ret) { pr_debug("band:HOT_CRITICAL Temp:%ld\n", temp); curr_cx_band = MSM_HOT_CRITICAL; } else { pr_err("Error %d sending HOT_CRITICAL", ret); } } goto cx_phase_cond_exit; } else if (temp < (msm_thermal_info.cx_phase_hot_temp_degC - msm_thermal_info.cx_phase_hot_temp_hyst_degC)) dis_cnt++; } if (dis_cnt == max_tsens_num && curr_cx_band != MSM_WARM) { ret = send_temperature_band(MSM_CX_PHASE_CTRL, MSM_WARM); if (!ret) { pr_debug("band:WARM Temp:%ld\n", temp); curr_cx_band = MSM_WARM; } else { pr_err("Error sending WARM temp band. err:%d", ret); } } cx_phase_cond_exit: mutex_unlock(&cx_mutex); return ret; } static int do_ocr(void) { long temp = 0; int ret = 0; int i = 0, j = 0; int pfm_cnt = 0; if (!ocr_enabled) return ret; mutex_lock(&ocr_mutex); for (i = 0; i < thresh[MSM_OCR].thresh_ct; i++) { ret = therm_get_temp( thresh[MSM_OCR].thresh_list[i].sensor_id, thresh[MSM_OCR].thresh_list[i].id_type, &temp); if (ret) { pr_err("Unable to read TSENS sensor %d. err:%d\n", thresh[MSM_OCR].thresh_list[i].sensor_id, ret); pfm_cnt++; continue; } if (temp > msm_thermal_info.ocr_temp_degC) { if (ocr_rails[0].init != OPTIMUM_CURRENT_NR) for (j = 0; j < ocr_rail_cnt; j++) ocr_rails[j].init = OPTIMUM_CURRENT_NR; ret = ocr_set_mode_all(OPTIMUM_CURRENT_MAX); if (ret) pr_err("Error setting max ocr. err:%d\n", ret); else pr_debug("Requested MAX OCR. tsens:%d Temp:%ld", thresh[MSM_OCR].thresh_list[i].sensor_id, temp); goto do_ocr_exit; } else if (temp <= (msm_thermal_info.ocr_temp_degC - msm_thermal_info.ocr_temp_hyst_degC)) pfm_cnt++; } if (pfm_cnt == thresh[MSM_OCR].thresh_ct || ocr_rails[0].init != OPTIMUM_CURRENT_NR) { /* 'init' not equal to OPTIMUM_CURRENT_NR means this is the ** first polling iteration after device probe. During first ** iteration, if temperature is less than the set point, clear ** the max current request made and reset the 'init'. */ if (ocr_rails[0].init != OPTIMUM_CURRENT_NR) for (j = 0; j < ocr_rail_cnt; j++) ocr_rails[j].init = OPTIMUM_CURRENT_NR; ret = ocr_set_mode_all(OPTIMUM_CURRENT_MIN); if (ret) { pr_err("Error setting min ocr. err:%d\n", ret); goto do_ocr_exit; } else { pr_debug("Requested MIN OCR. Temp:%ld", temp); } } do_ocr_exit: mutex_unlock(&ocr_mutex); return ret; } static int do_vdd_restriction(void) { long temp = 0; int ret = 0; int i = 0; int dis_cnt = 0; if (!vdd_rstr_enabled) return ret; if (usefreq && !freq_table_get) { if (check_freq_table() && !core_ptr) return ret; } mutex_lock(&vdd_rstr_mutex); for (i = 0; i < thresh[MSM_VDD_RESTRICTION].thresh_ct; i++) { ret = therm_get_temp( thresh[MSM_VDD_RESTRICTION].thresh_list[i].sensor_id, thresh[MSM_VDD_RESTRICTION].thresh_list[i].id_type, &temp); if (ret) { pr_err("Unable to read TSENS sensor:%d. err:%d\n", thresh[MSM_VDD_RESTRICTION].thresh_list[i].sensor_id, ret); dis_cnt++; continue; } if (temp <= msm_thermal_info.vdd_rstr_temp_degC) { ret = vdd_restriction_apply_all(1); if (ret) { pr_err( \ "Enable vdd rstr for all failed. err:%d\n", ret); goto exit; } pr_debug("Enabled Vdd Restriction tsens:%d. Temp:%ld\n", thresh[MSM_VDD_RESTRICTION].thresh_list[i].sensor_id, temp); goto exit; } else if (temp > msm_thermal_info.vdd_rstr_temp_hyst_degC) dis_cnt++; } if (dis_cnt == max_tsens_num) { ret = vdd_restriction_apply_all(0); if (ret) { pr_err("Disable vdd rstr for all failed. err:%d\n", ret); goto exit; } pr_debug("Disabled Vdd Restriction\n"); } exit: mutex_unlock(&vdd_rstr_mutex); return ret; } static int do_psm(void) { long temp = 0; int ret = 0; int i = 0; int auto_cnt = 0; mutex_lock(&psm_mutex); for (i = 0; i < max_tsens_num; i++) { ret = therm_get_temp(tsens_id_map[i], THERM_TSENS_ID, &temp); if (ret) { pr_err("Unable to read TSENS sensor:%d. err:%d\n", tsens_id_map[i], ret); auto_cnt++; continue; } /* * As long as one sensor is above the threshold, set PWM mode * on all rails, and loop stops. Set auto mode when all rails * are below thershold */ if (temp > msm_thermal_info.psm_temp_degC) { ret = psm_set_mode_all(PMIC_PWM_MODE); if (ret) { pr_err("Set pwm mode for all failed. err:%d\n", ret); goto exit; } pr_debug("Requested PMIC PWM Mode tsens:%d. Temp:%ld\n", tsens_id_map[i], temp); break; } else if (temp <= msm_thermal_info.psm_temp_hyst_degC) auto_cnt++; } if (auto_cnt == max_tsens_num) { ret = psm_set_mode_all(PMIC_AUTO_MODE); if (ret) { pr_err("Set auto mode for all failed. err:%d\n", ret); goto exit; } pr_debug("Requested PMIC AUTO Mode\n"); } exit: mutex_unlock(&psm_mutex); return ret; } static void do_freq_control(long temp) { uint32_t cpu = 0; uint32_t max_freq = cpus[cpu].limited_max_freq; if (core_ptr) return do_cluster_freq_ctrl(temp); if (!freq_table_get) return; if (temp >= temp_threshold) { if (limit_idx == limit_idx_low) return; limit_idx -= msm_thermal_info.bootup_freq_step; if (limit_idx < limit_idx_low) limit_idx = limit_idx_low; max_freq = table[limit_idx].frequency; } else if (temp < temp_threshold - msm_thermal_info.temp_hysteresis_degC) { if (limit_idx == limit_idx_high) return; limit_idx += msm_thermal_info.bootup_freq_step; if (limit_idx >= limit_idx_high) { limit_idx = limit_idx_high; max_freq = UINT_MAX; } else max_freq = table[limit_idx].frequency; } if (max_freq == cpus[cpu].limited_max_freq) return; /* Update new limits */ get_online_cpus(); for_each_possible_cpu(cpu) { if (!(msm_thermal_info.bootup_freq_control_mask & BIT(cpu))) continue; pr_info("Limiting CPU%d max frequency to %u. Temp:%ld\n", cpu, max_freq, temp); cpus[cpu].limited_max_freq = max_freq; if (!SYNC_CORE(cpu)) update_cpu_freq(cpu); } update_cluster_freq(); put_online_cpus(); } static void check_temp(struct work_struct *work) { long temp = 0; int ret = 0; do_therm_reset(); ret = therm_get_temp(msm_thermal_info.sensor_id, THERM_TSENS_ID, &temp); if (ret) { pr_err("Unable to read TSENS sensor:%d. err:%d\n", msm_thermal_info.sensor_id, ret); goto reschedule; } do_core_control(temp); do_vdd_mx(); do_psm(); do_gfx_phase_cond(); do_cx_phase_cond(); do_ocr(); /* ** All mitigation involving CPU frequency should be ** placed below this check. The mitigation following this ** frequency table check, should be able to handle the failure case. */ if (!freq_table_get) check_freq_table(); do_vdd_restriction(); do_freq_control(temp); reschedule: if (polling_enabled) schedule_delayed_work(&check_temp_work, msecs_to_jiffies(POLLING_DELAY)); } static int __ref msm_thermal_cpu_callback(struct notifier_block *nfb, unsigned long action, void *hcpu) { uint32_t cpu = (uintptr_t)hcpu; if (action == CPU_UP_PREPARE || action == CPU_UP_PREPARE_FROZEN) { if (core_control_enabled && (msm_thermal_info.core_control_mask & BIT(cpu)) && (cpus_offlined & BIT(cpu))) { pr_debug("Preventing CPU%d from coming online.\n", cpu); return NOTIFY_BAD; } } pr_debug("voting for CPU%d to be online\n", cpu); return NOTIFY_OK; } static struct notifier_block __refdata msm_thermal_cpu_notifier = { .notifier_call = msm_thermal_cpu_callback, }; static int hotplug_notify(enum thermal_trip_type type, int temp, void *data) { struct cpu_info *cpu_node = (struct cpu_info *)data; pr_info("%s reach temp threshold: %d\n", cpu_node->sensor_type, temp); if (!(msm_thermal_info.core_control_mask & BIT(cpu_node->cpu))) return 0; switch (type) { case THERMAL_TRIP_CONFIGURABLE_HI: if (!(cpu_node->offline)) cpu_node->offline = 1; break; case THERMAL_TRIP_CONFIGURABLE_LOW: if (cpu_node->offline) cpu_node->offline = 0; break; default: break; } if (hotplug_task) { cpu_node->hotplug_thresh_clear = true; complete(&hotplug_notify_complete); } else pr_err("Hotplug task is not initialized\n"); return 0; } /* Adjust cpus offlined bit based on temperature reading. */ static int hotplug_init_cpu_offlined(void) { long temp = 0; uint32_t cpu = 0; if (!hotplug_enabled) return 0; mutex_lock(&core_control_mutex); for_each_possible_cpu(cpu) { if (!(msm_thermal_info.core_control_mask & BIT(cpus[cpu].cpu))) continue; if (therm_get_temp(cpus[cpu].sensor_id, cpus[cpu].id_type, &temp)) { pr_err("Unable to read TSENS sensor:%d.\n", cpus[cpu].sensor_id); mutex_unlock(&core_control_mutex); return -EINVAL; } if (temp >= msm_thermal_info.hotplug_temp_degC) cpus[cpu].offline = 1; else if (temp <= (msm_thermal_info.hotplug_temp_degC - msm_thermal_info.hotplug_temp_hysteresis_degC)) cpus[cpu].offline = 0; } mutex_unlock(&core_control_mutex); if (hotplug_task) complete(&hotplug_notify_complete); else { pr_err("Hotplug task is not initialized\n"); return -EINVAL; } return 0; } static void hotplug_init(void) { uint32_t cpu = 0; struct sensor_threshold *hi_thresh = NULL, *low_thresh = NULL; if (hotplug_task) return; if (!hotplug_enabled) goto init_kthread; for_each_possible_cpu(cpu) { cpus[cpu].sensor_id = sensor_get_id((char *)cpus[cpu].sensor_type); cpus[cpu].id_type = THERM_ZONE_ID; if (!(msm_thermal_info.core_control_mask & BIT(cpus[cpu].cpu))) continue; hi_thresh = &cpus[cpu].threshold[HOTPLUG_THRESHOLD_HIGH]; low_thresh = &cpus[cpu].threshold[HOTPLUG_THRESHOLD_LOW]; hi_thresh->temp = msm_thermal_info.hotplug_temp_degC; hi_thresh->trip = THERMAL_TRIP_CONFIGURABLE_HI; low_thresh->temp = msm_thermal_info.hotplug_temp_degC - msm_thermal_info.hotplug_temp_hysteresis_degC; low_thresh->trip = THERMAL_TRIP_CONFIGURABLE_LOW; hi_thresh->notify = low_thresh->notify = hotplug_notify; hi_thresh->data = low_thresh->data = (void *)&cpus[cpu]; set_threshold(cpus[cpu].sensor_id, hi_thresh); } init_kthread: init_completion(&hotplug_notify_complete); hotplug_task = kthread_run(do_hotplug, NULL, "msm_thermal:hotplug"); if (IS_ERR(hotplug_task)) { pr_err("Failed to create do_hotplug thread. err:%ld\n", PTR_ERR(hotplug_task)); return; } /* * Adjust cpus offlined bit when hotplug intitializes so that the new * cpus offlined state is based on hotplug threshold range */ if (hotplug_init_cpu_offlined()) kthread_stop(hotplug_task); } static __ref int do_freq_mitigation(void *data) { int ret = 0; uint32_t cpu = 0, max_freq_req = 0, min_freq_req = 0; struct sched_param param = {.sched_priority = MAX_RT_PRIO-1}; struct device_clnt_data *clnt = NULL; struct device_manager_data *cpu_dev = NULL; sched_setscheduler(current, SCHED_FIFO, &param); while (!kthread_should_stop()) { while (wait_for_completion_interruptible( &freq_mitigation_complete) != 0) ; INIT_COMPLETION(freq_mitigation_complete); for_each_possible_cpu(cpu) { max_freq_req = (cpus[cpu].max_freq) ? msm_thermal_info.freq_limit : UINT_MAX; max_freq_req = min(max_freq_req, cpus[cpu].user_max_freq); min_freq_req = max(min_freq_limit, cpus[cpu].user_min_freq); if (devices && devices->cpufreq_dev[cpu]) { cpu_dev = devices->cpufreq_dev[cpu]; mutex_lock(&cpu_dev->clnt_lock); max_freq_req = min(max_freq_req, cpu_dev->active_req.freq.max_freq); min_freq_req = max(min_freq_req, cpu_dev->active_req.freq.min_freq); mutex_unlock(&cpu_dev->clnt_lock); } if ((max_freq_req == cpus[cpu].limited_max_freq) && (min_freq_req == cpus[cpu].limited_min_freq)) goto reset_threshold; cpus[cpu].limited_max_freq = max_freq_req; cpus[cpu].limited_min_freq = min_freq_req; if (!SYNC_CORE(cpu)) update_cpu_freq(cpu); reset_threshold: if (!SYNC_CORE(cpu) && devices && devices->cpufreq_dev[cpu]) { union device_request req; req.freq.max_freq = max_freq_req; req.freq.min_freq = min_freq_req; cpu_dev = devices->cpufreq_dev[cpu]; mutex_lock(&cpu_dev->clnt_lock); list_for_each_entry(clnt, &cpu_dev->client_list, clnt_ptr) { if (clnt->callback) clnt->callback(clnt, &req, clnt->usr_data); } mutex_unlock(&cpu_dev->clnt_lock); } if (freq_mitigation_enabled && cpus[cpu].freq_thresh_clear) { set_threshold(cpus[cpu].sensor_id, &cpus[cpu].threshold[FREQ_THRESHOLD_HIGH]); cpus[cpu].freq_thresh_clear = false; } } update_cluster_freq(); } return ret; } static int freq_mitigation_notify(enum thermal_trip_type type, int temp, void *data) { struct cpu_info *cpu_node = (struct cpu_info *) data; pr_debug("%s reached temp threshold: %d\n", cpu_node->sensor_type, temp); if (!(msm_thermal_info.freq_mitig_control_mask & BIT(cpu_node->cpu))) return 0; switch (type) { case THERMAL_TRIP_CONFIGURABLE_HI: if (!cpu_node->max_freq) { pr_info("Mitigating CPU%d frequency to %d\n", cpu_node->cpu, msm_thermal_info.freq_limit); cpu_node->max_freq = true; } break; case THERMAL_TRIP_CONFIGURABLE_LOW: if (cpu_node->max_freq) { pr_info("Removing frequency mitigation for CPU%d\n", cpu_node->cpu); cpu_node->max_freq = false; } break; default: break; } if (freq_mitigation_task) { cpu_node->freq_thresh_clear = true; complete(&freq_mitigation_complete); } else { pr_err("Frequency mitigation task is not initialized\n"); } return 0; } static void freq_mitigation_init(void) { uint32_t cpu = 0; struct sensor_threshold *hi_thresh = NULL, *low_thresh = NULL; if (freq_mitigation_task) return; if (!freq_mitigation_enabled) goto init_freq_thread; for_each_possible_cpu(cpu) { if (!(msm_thermal_info.freq_mitig_control_mask & BIT(cpu))) continue; hi_thresh = &cpus[cpu].threshold[FREQ_THRESHOLD_HIGH]; low_thresh = &cpus[cpu].threshold[FREQ_THRESHOLD_LOW]; hi_thresh->temp = msm_thermal_info.freq_mitig_temp_degc; hi_thresh->trip = THERMAL_TRIP_CONFIGURABLE_HI; low_thresh->temp = msm_thermal_info.freq_mitig_temp_degc - msm_thermal_info.freq_mitig_temp_hysteresis_degc; low_thresh->trip = THERMAL_TRIP_CONFIGURABLE_LOW; hi_thresh->notify = low_thresh->notify = freq_mitigation_notify; hi_thresh->data = low_thresh->data = (void *)&cpus[cpu]; set_threshold(cpus[cpu].sensor_id, hi_thresh); } init_freq_thread: init_completion(&freq_mitigation_complete); freq_mitigation_task = kthread_run(do_freq_mitigation, NULL, "msm_thermal:freq_mitig"); if (IS_ERR(freq_mitigation_task)) { pr_err("Failed to create frequency mitigation thread. err:%ld\n", PTR_ERR(freq_mitigation_task)); return; } } int msm_thermal_get_freq_plan_size(uint32_t cluster, unsigned int *table_len) { uint32_t i = 0; struct cluster_info *cluster_ptr = NULL; if (!core_ptr) { pr_err("Topology ptr not initialized\n"); return -ENODEV; } if (!table_len) { pr_err("Invalid input\n"); return -EINVAL; } if (!freq_table_get) check_freq_table(); for (; i < core_ptr->entity_count; i++) { cluster_ptr = &core_ptr->child_entity_ptr[i]; if (cluster_ptr->cluster_id == cluster) { if (!cluster_ptr->freq_table) { pr_err("Cluster%d clock plan not initialized\n", cluster); return -EINVAL; } *table_len = cluster_ptr->freq_idx_high + 1; return 0; } } pr_err("Invalid cluster ID:%d\n", cluster); return -EINVAL; } int msm_thermal_get_cluster_freq_plan(uint32_t cluster, unsigned int *table_ptr) { uint32_t i = 0; struct cluster_info *cluster_ptr = NULL; if (!core_ptr) { pr_err("Topology ptr not initialized\n"); return -ENODEV; } if (!table_ptr) { pr_err("Invalid input\n"); return -EINVAL; } if (!freq_table_get) check_freq_table(); for (; i < core_ptr->entity_count; i++) { cluster_ptr = &core_ptr->child_entity_ptr[i]; if (cluster_ptr->cluster_id == cluster) break; } if (i == core_ptr->entity_count) { pr_err("Invalid cluster ID:%d\n", cluster); return -EINVAL; } if (!cluster_ptr->freq_table) { pr_err("Cluster%d clock plan not initialized\n", cluster); return -EINVAL; } for (i = 0; i <= cluster_ptr->freq_idx_high; i++) table_ptr[i] = cluster_ptr->freq_table[i].frequency; return 0; } int msm_thermal_set_cluster_freq(uint32_t cluster, uint32_t freq, bool is_max) { int ret = 0; uint32_t i = 0; struct cluster_info *cluster_ptr = NULL; bool notify = false; if (!core_ptr) { pr_err("Topology ptr not initialized\n"); return -ENODEV; } for (; i < core_ptr->entity_count; i++) { cluster_ptr = &core_ptr->child_entity_ptr[i]; if (cluster_ptr->cluster_id != cluster) continue; if (!cluster_ptr->sync_cluster) { pr_err("Cluster%d is not synchronous\n", cluster); return -EINVAL; } else { pr_debug("Update Cluster%d %s frequency to %d\n", cluster, (is_max) ? "max" : "min", freq); break; } } if (i == core_ptr->entity_count) { pr_err("Invalid cluster ID:%d\n", cluster); return -EINVAL; } for_each_cpu_mask(i, cluster_ptr->cluster_cores) { uint32_t *freq_ptr = (is_max) ? &cpus[i].user_max_freq : &cpus[i].user_min_freq; if (*freq_ptr == freq) continue; notify = true; *freq_ptr = freq; } if (freq_mitigation_task) { if (notify) complete(&freq_mitigation_complete); } else { pr_err("Frequency mitigation task is not initialized\n"); return -ESRCH; } return ret; } int msm_thermal_set_frequency(uint32_t cpu, uint32_t freq, bool is_max) { int ret = 0; if (cpu >= num_possible_cpus()) { pr_err("Invalid input\n"); ret = -EINVAL; goto set_freq_exit; } pr_debug("Userspace requested %s frequency %u for CPU%u\n", (is_max) ? "Max" : "Min", freq, cpu); if (is_max) { if (cpus[cpu].user_max_freq == freq) goto set_freq_exit; cpus[cpu].user_max_freq = freq; } else { if (cpus[cpu].user_min_freq == freq) goto set_freq_exit; cpus[cpu].user_min_freq = freq; } if (freq_mitigation_task) { complete(&freq_mitigation_complete); } else { pr_err("Frequency mitigation task is not initialized\n"); ret = -ESRCH; goto set_freq_exit; } set_freq_exit: return ret; } int therm_set_threshold(struct threshold_info *thresh_inp) { int ret = 0, i = 0, err = 0; struct therm_threshold *thresh_ptr; if (!thresh_inp) { pr_err("Invalid input\n"); ret = -EINVAL; goto therm_set_exit; } thresh_inp->thresh_triggered = false; for (i = 0; i < thresh_inp->thresh_ct; i++) { thresh_ptr = &thresh_inp->thresh_list[i]; thresh_ptr->trip_triggered = -1; err = set_threshold(thresh_ptr->sensor_id, thresh_ptr->threshold); if (err) { ret = err; err = 0; } } therm_set_exit: return ret; } static void cx_phase_ctrl_notify(struct therm_threshold *trig_thresh) { static uint32_t cx_sens_status; int ret = 0; if (!cx_phase_ctrl_enabled) return; if (trig_thresh->trip_triggered < 0) goto cx_phase_ctrl_exit; mutex_lock(&cx_mutex); pr_debug("sensor:%d reached %s thresh for CX\n", tsens_id_map[trig_thresh->sensor_id], (trig_thresh->trip_triggered == THERMAL_TRIP_CONFIGURABLE_HI) ? "hot critical" : "warm"); switch (trig_thresh->trip_triggered) { case THERMAL_TRIP_CONFIGURABLE_HI: cx_sens_status |= BIT(trig_thresh->sensor_id); break; case THERMAL_TRIP_CONFIGURABLE_LOW: if (cx_sens_status & BIT(trig_thresh->sensor_id)) cx_sens_status ^= BIT(trig_thresh->sensor_id); break; default: pr_err("Unsupported trip type\n"); goto cx_phase_unlock_exit; break; } if ((cx_sens_status && (curr_cx_band == MSM_HOT_CRITICAL)) || (!cx_sens_status && (curr_cx_band == MSM_WARM))) goto cx_phase_unlock_exit; ret = send_temperature_band(MSM_CX_PHASE_CTRL, (cx_sens_status) ? MSM_HOT_CRITICAL : MSM_WARM); if (!ret) curr_cx_band = (cx_sens_status) ? MSM_HOT_CRITICAL : MSM_WARM; cx_phase_unlock_exit: mutex_unlock(&cx_mutex); cx_phase_ctrl_exit: set_threshold(trig_thresh->sensor_id, trig_thresh->threshold); return; } static void gfx_phase_ctrl_notify(struct therm_threshold *trig_thresh) { uint32_t new_req_band = curr_gfx_band; int ret = 0; if (!gfx_warm_phase_ctrl_enabled && !gfx_crit_phase_ctrl_enabled) return; if (trig_thresh->trip_triggered < 0) goto gfx_phase_ctrl_exit; mutex_lock(&gfx_mutex); if (gfx_crit_phase_ctrl_enabled) { switch ( thresh[MSM_GFX_PHASE_CTRL_HOT].thresh_list->trip_triggered) { case THERMAL_TRIP_CONFIGURABLE_HI: new_req_band = MSM_HOT_CRITICAL; pr_debug( "sensor:%d reached hot critical thresh for GFX\n", tsens_id_map[trig_thresh->sensor_id]); goto notify_new_band; break; case THERMAL_TRIP_CONFIGURABLE_LOW: new_req_band = MSM_WARM; pr_debug("sensor:%d reached warm thresh for GFX\n", tsens_id_map[trig_thresh->sensor_id]); goto notify_new_band; break; default: break; } } if (gfx_warm_phase_ctrl_enabled) { switch ( thresh[MSM_GFX_PHASE_CTRL_WARM].thresh_list->trip_triggered) { case THERMAL_TRIP_CONFIGURABLE_HI: new_req_band = MSM_WARM; pr_debug("sensor:%d reached warm thresh for GFX\n", tsens_id_map[trig_thresh->sensor_id]); goto notify_new_band; break; case THERMAL_TRIP_CONFIGURABLE_LOW: new_req_band = MSM_NORMAL; pr_debug("sensor:%d reached normal thresh for GFX\n", tsens_id_map[trig_thresh->sensor_id]); goto notify_new_band; break; default: break; } } notify_new_band: if (new_req_band != curr_gfx_band) { ret = send_temperature_band(MSM_GFX_PHASE_CTRL, new_req_band); if (!ret) curr_gfx_band = new_req_band; } mutex_unlock(&gfx_mutex); gfx_phase_ctrl_exit: switch (curr_gfx_band) { case MSM_HOT_CRITICAL: if (gfx_crit_phase_ctrl_enabled) therm_set_threshold(&thresh[MSM_GFX_PHASE_CTRL_HOT]); break; case MSM_NORMAL: if (gfx_warm_phase_ctrl_enabled) therm_set_threshold(&thresh[MSM_GFX_PHASE_CTRL_WARM]); break; case MSM_WARM: default: if (gfx_crit_phase_ctrl_enabled) therm_set_threshold(&thresh[MSM_GFX_PHASE_CTRL_HOT]); if (gfx_warm_phase_ctrl_enabled) therm_set_threshold(&thresh[MSM_GFX_PHASE_CTRL_WARM]); break; } return; } static void vdd_restriction_notify(struct therm_threshold *trig_thresh) { int ret = 0; static uint32_t vdd_sens_status; if (!vdd_rstr_enabled) return; if (!trig_thresh) { pr_err("Invalid input\n"); return; } if (trig_thresh->trip_triggered < 0) goto set_and_exit; mutex_lock(&vdd_rstr_mutex); pr_debug("sensor:%d reached %s thresh for Vdd restriction\n", tsens_id_map[trig_thresh->sensor_id], (trig_thresh->trip_triggered == THERMAL_TRIP_CONFIGURABLE_HI) ? "high" : "low"); switch (trig_thresh->trip_triggered) { case THERMAL_TRIP_CONFIGURABLE_HI: if (vdd_sens_status & BIT(trig_thresh->sensor_id)) vdd_sens_status ^= BIT(trig_thresh->sensor_id); break; case THERMAL_TRIP_CONFIGURABLE_LOW: vdd_sens_status |= BIT(trig_thresh->sensor_id); break; default: pr_err("Unsupported trip type\n"); goto unlock_and_exit; break; } ret = vdd_restriction_apply_all((vdd_sens_status) ? 1 : 0); if (ret) { pr_err("%s vdd rstr votlage for all failed\n", (vdd_sens_status) ? "Enable" : "Disable"); goto unlock_and_exit; } unlock_and_exit: mutex_unlock(&vdd_rstr_mutex); set_and_exit: set_threshold(trig_thresh->sensor_id, trig_thresh->threshold); return; } static void ocr_notify(struct therm_threshold *trig_thresh) { int ret = 0; static uint32_t ocr_sens_status; if (!ocr_enabled) return; if (!trig_thresh) { pr_err("Invalid input\n"); return; } if (trig_thresh->trip_triggered < 0) goto set_and_exit; mutex_lock(&ocr_mutex); pr_debug("sensor%d reached %d thresh for Optimum current request\n", tsens_id_map[trig_thresh->sensor_id], trig_thresh->trip_triggered); switch (trig_thresh->trip_triggered) { case THERMAL_TRIP_CONFIGURABLE_HI: ocr_sens_status |= BIT(trig_thresh->sensor_id); break; case THERMAL_TRIP_CONFIGURABLE_LOW: if (ocr_sens_status & BIT(trig_thresh->sensor_id)) ocr_sens_status ^= BIT(trig_thresh->sensor_id); break; default: pr_err("Unsupported trip type\n"); goto unlock_and_exit; break; } ret = ocr_set_mode_all(ocr_sens_status ? OPTIMUM_CURRENT_MAX : OPTIMUM_CURRENT_MIN); if (ret) { pr_err("%s Optimum current mode for all failed. err:%d\n", (ocr_sens_status) ? "Enable" : "Disable", ret); goto unlock_and_exit; } unlock_and_exit: mutex_unlock(&ocr_mutex); set_and_exit: set_threshold(trig_thresh->sensor_id, trig_thresh->threshold); return; } static __ref int do_thermal_monitor(void *data) { int ret = 0, i, j; struct therm_threshold *sensor_list; while (!kthread_should_stop()) { while (wait_for_completion_interruptible( &thermal_monitor_complete) != 0) ; INIT_COMPLETION(thermal_monitor_complete); for (i = 0; i < MSM_LIST_MAX_NR; i++) { if (!thresh[i].thresh_triggered) continue; thresh[i].thresh_triggered = false; for (j = 0; j < thresh[i].thresh_ct; j++) { sensor_list = &thresh[i].thresh_list[j]; if (sensor_list->trip_triggered < 0) continue; sensor_list->notify(sensor_list); sensor_list->trip_triggered = -1; } } } return ret; } static int convert_to_zone_id(struct threshold_info *thresh_inp) { int ret = 0, i, zone_id; struct therm_threshold *thresh_array; if (!thresh_inp) { pr_err("Invalid input\n"); ret = -EINVAL; goto convert_to_exit; } thresh_array = thresh_inp->thresh_list; for (i = 0; i < thresh_inp->thresh_ct; i++) { char tsens_name[TSENS_NAME_MAX] = ""; if (thresh_array[i].id_type == THERM_ZONE_ID) continue; snprintf(tsens_name, TSENS_NAME_MAX, TSENS_NAME_FORMAT, thresh_array[i].sensor_id); zone_id = sensor_get_id(tsens_name); if (zone_id < 0) { pr_err("Error getting zone id for %s. err:%d\n", tsens_name, ret); ret = zone_id; goto convert_to_exit; } thresh_array[i].sensor_id = zone_id; thresh_array[i].id_type = THERM_ZONE_ID; } convert_to_exit: return ret; } static void thermal_monitor_init(void) { if (thermal_monitor_task) return; init_completion(&thermal_monitor_complete); thermal_monitor_task = kthread_run(do_thermal_monitor, NULL, "msm_thermal:therm_monitor"); if (IS_ERR(thermal_monitor_task)) { pr_err("Failed to create thermal monitor thread. err:%ld\n", PTR_ERR(thermal_monitor_task)); goto init_exit; } if (therm_reset_enabled && !(convert_to_zone_id(&thresh[MSM_THERM_RESET]))) therm_set_threshold(&thresh[MSM_THERM_RESET]); if ((cx_phase_ctrl_enabled) && !(convert_to_zone_id(&thresh[MSM_CX_PHASE_CTRL_HOT]))) therm_set_threshold(&thresh[MSM_CX_PHASE_CTRL_HOT]); if ((vdd_rstr_enabled) && !(convert_to_zone_id(&thresh[MSM_VDD_RESTRICTION]))) therm_set_threshold(&thresh[MSM_VDD_RESTRICTION]); if ((gfx_warm_phase_ctrl_enabled) && !(convert_to_zone_id(&thresh[MSM_GFX_PHASE_CTRL_WARM]))) { therm_set_threshold(&thresh[MSM_GFX_PHASE_CTRL_WARM]); } if ((gfx_crit_phase_ctrl_enabled) && !(convert_to_zone_id(&thresh[MSM_GFX_PHASE_CTRL_HOT]))) { therm_set_threshold(&thresh[MSM_GFX_PHASE_CTRL_HOT]); } if ((ocr_enabled) && !(convert_to_zone_id(&thresh[MSM_OCR]))) therm_set_threshold(&thresh[MSM_OCR]); if (vdd_mx_enabled && !(convert_to_zone_id(&thresh[MSM_VDD_MX_RESTRICTION]))) therm_set_threshold(&thresh[MSM_VDD_MX_RESTRICTION]); init_exit: return; } static int msm_thermal_notify(enum thermal_trip_type type, int temp, void *data) { struct therm_threshold *thresh_data = (struct therm_threshold *)data; if (thermal_monitor_task) { thresh_data->trip_triggered = type; thresh_data->parent->thresh_triggered = true; complete(&thermal_monitor_complete); } else { pr_err("Thermal monitor task is not initialized\n"); } return 0; } static int init_threshold(enum msm_thresh_list index, int sensor_id, int32_t hi_temp, int32_t low_temp, void (*callback)(struct therm_threshold *)) { int ret = 0, i; struct therm_threshold *thresh_ptr; if (!callback || index >= MSM_LIST_MAX_NR || index < 0 || sensor_id == -ENODEV) { pr_err("Invalid input. sensor:%d. index:%d\n", sensor_id, index); ret = -EINVAL; goto init_thresh_exit; } if (thresh[index].thresh_list) { pr_info("threshold id:%d already initialized\n", index); goto init_thresh_exit; } thresh[index].thresh_ct = (sensor_id == MONITOR_ALL_TSENS) ? max_tsens_num : 1; thresh[index].thresh_triggered = false; thresh[index].thresh_list = kzalloc(sizeof(struct therm_threshold) * thresh[index].thresh_ct, GFP_KERNEL); if (!thresh[index].thresh_list) { pr_err("kzalloc failed for thresh index:%d\n", index); ret = -ENOMEM; goto init_thresh_exit; } thresh_ptr = thresh[index].thresh_list; if (sensor_id == MONITOR_ALL_TSENS) { for (i = 0; i < max_tsens_num; i++) { thresh_ptr[i].sensor_id = tsens_id_map[i]; thresh_ptr[i].id_type = THERM_TSENS_ID; thresh_ptr[i].notify = callback; thresh_ptr[i].trip_triggered = -1; thresh_ptr[i].parent = &thresh[index]; thresh_ptr[i].threshold[0].temp = hi_temp; thresh_ptr[i].threshold[0].trip = THERMAL_TRIP_CONFIGURABLE_HI; thresh_ptr[i].threshold[1].temp = low_temp; thresh_ptr[i].threshold[1].trip = THERMAL_TRIP_CONFIGURABLE_LOW; thresh_ptr[i].threshold[0].notify = thresh_ptr[i].threshold[1].notify = msm_thermal_notify; thresh_ptr[i].threshold[0].data = thresh_ptr[i].threshold[1].data = (void *)&thresh_ptr[i]; } } else { thresh_ptr->sensor_id = sensor_id; thresh_ptr->id_type = THERM_TSENS_ID; thresh_ptr->notify = callback; thresh_ptr->trip_triggered = -1; thresh_ptr->parent = &thresh[index]; thresh_ptr->threshold[0].temp = hi_temp; thresh_ptr->threshold[0].trip = THERMAL_TRIP_CONFIGURABLE_HI; thresh_ptr->threshold[1].temp = low_temp; thresh_ptr->threshold[1].trip = THERMAL_TRIP_CONFIGURABLE_LOW; thresh_ptr->threshold[0].notify = thresh_ptr->threshold[1].notify = msm_thermal_notify; thresh_ptr->threshold[0].data = thresh_ptr->threshold[1].data = (void *)thresh_ptr; } init_thresh_exit: return ret; } static int msm_thermal_add_gfx_nodes(void) { struct kobject *module_kobj = NULL; struct kobject *gfx_kobj = NULL; int ret = 0; if (!gfx_warm_phase_ctrl_enabled && !gfx_crit_phase_ctrl_enabled) return -EINVAL; module_kobj = kset_find_obj(module_kset, KBUILD_MODNAME); if (!module_kobj) { pr_err("cannot find kobject\n"); ret = -ENOENT; goto gfx_node_exit; } gfx_kobj = kobject_create_and_add("gfx_phase_ctrl", module_kobj); if (!gfx_kobj) { pr_err("cannot create gfx kobject\n"); ret = -ENOMEM; goto gfx_node_exit; } gfx_attr_gp.attrs = kzalloc(sizeof(struct attribute *) * 2, GFP_KERNEL); if (!gfx_attr_gp.attrs) { pr_err("kzalloc failed\n"); ret = -ENOMEM; goto gfx_node_fail; } PHASE_RW_ATTR(gfx, temp_band, gfx_mode_attr, 0, gfx_attr_gp); gfx_attr_gp.attrs[1] = NULL; ret = sysfs_create_group(gfx_kobj, &gfx_attr_gp); if (ret) { pr_err("cannot create GFX attribute group. err:%d\n", ret); goto gfx_node_fail; } gfx_node_fail: if (ret) { kobject_put(gfx_kobj); kfree(gfx_attr_gp.attrs); gfx_attr_gp.attrs = NULL; } gfx_node_exit: return ret; } static int msm_thermal_add_cx_nodes(void) { struct kobject *module_kobj = NULL; struct kobject *cx_kobj = NULL; int ret = 0; if (!cx_phase_ctrl_enabled) return -EINVAL; module_kobj = kset_find_obj(module_kset, KBUILD_MODNAME); if (!module_kobj) { pr_err("cannot find kobject\n"); ret = -ENOENT; goto cx_node_exit; } cx_kobj = kobject_create_and_add("cx_phase_ctrl", module_kobj); if (!cx_kobj) { pr_err("cannot create cx kobject\n"); ret = -ENOMEM; goto cx_node_exit; } cx_attr_gp.attrs = kzalloc(sizeof(struct attribute *) * 2, GFP_KERNEL); if (!cx_attr_gp.attrs) { pr_err("kzalloc failed\n"); ret = -ENOMEM; goto cx_node_fail; } PHASE_RW_ATTR(cx, temp_band, cx_mode_attr, 0, cx_attr_gp); cx_attr_gp.attrs[1] = NULL; ret = sysfs_create_group(cx_kobj, &cx_attr_gp); if (ret) { pr_err("cannot create CX attribute group. err:%d\n", ret); goto cx_node_fail; } cx_node_fail: if (ret) { kobject_put(cx_kobj); kfree(cx_attr_gp.attrs); cx_attr_gp.attrs = NULL; } cx_node_exit: return ret; } /* * We will reset the cpu frequencies limits here. The core online/offline * status will be carried over to the process stopping the msm_thermal, as * we dont want to online a core and bring in the thermal issues. */ static void __ref disable_msm_thermal(void) { uint32_t cpu = 0; /* make sure check_temp is no longer running */ cancel_delayed_work_sync(&check_temp_work); get_online_cpus(); for_each_possible_cpu(cpu) { if (cpus[cpu].limited_max_freq == UINT_MAX && cpus[cpu].limited_min_freq == 0) continue; pr_info("Max frequency reset for CPU%d\n", cpu); cpus[cpu].limited_max_freq = UINT_MAX; cpus[cpu].limited_min_freq = 0; if (!SYNC_CORE(cpu)) update_cpu_freq(cpu); } update_cluster_freq(); put_online_cpus(); } static void interrupt_mode_init(void) { if (!msm_thermal_probed) { interrupt_mode_enable = true; return; } if (polling_enabled) { pr_info("Interrupt mode init\n"); polling_enabled = 0; disable_msm_thermal(); hotplug_init(); freq_mitigation_init(); thermal_monitor_init(); msm_thermal_add_cx_nodes(); msm_thermal_add_gfx_nodes(); } } static int __ref set_enabled(const char *val, const struct kernel_param *kp) { int ret = 0; ret = param_set_bool(val, kp); if (!enabled) interrupt_mode_init(); else pr_info("no action for enabled = %d\n", enabled); pr_info("enabled = %d\n", enabled); return ret; } static struct kernel_param_ops module_ops = { .set = set_enabled, .get = param_get_bool, }; module_param_cb(enabled, &module_ops, &enabled, 0644); MODULE_PARM_DESC(enabled, "enforce thermal limit on cpu"); static ssize_t show_cc_enabled(struct kobject *kobj, struct kobj_attribute *attr, char *buf) { return snprintf(buf, PAGE_SIZE, "%d\n", core_control_enabled); } static ssize_t __ref store_cc_enabled(struct kobject *kobj, struct kobj_attribute *attr, const char *buf, size_t count) { int ret = 0; int val = 0; uint32_t cpu = 0; ret = kstrtoint(buf, 10, &val); if (ret) { pr_err("Invalid input %s. err:%d\n", buf, ret); goto done_store_cc; } if (core_control_enabled == !!val) goto done_store_cc; core_control_enabled = !!val; if (core_control_enabled) { pr_info("Core control enabled\n"); register_cpu_notifier(&msm_thermal_cpu_notifier); /* * Re-evaluate thermal core condition, update current status * and set threshold for all cpus. */ hotplug_init_cpu_offlined(); mutex_lock(&core_control_mutex); update_offline_cores(cpus_offlined); if (hotplug_enabled) { for_each_possible_cpu(cpu) { if (!(msm_thermal_info.core_control_mask & BIT(cpus[cpu].cpu))) continue; set_threshold(cpus[cpu].sensor_id, &cpus[cpu].threshold[HOTPLUG_THRESHOLD_HIGH]); } } mutex_unlock(&core_control_mutex); } else { pr_info("Core control disabled\n"); unregister_cpu_notifier(&msm_thermal_cpu_notifier); } done_store_cc: return count; } static ssize_t show_cpus_offlined(struct kobject *kobj, struct kobj_attribute *attr, char *buf) { return snprintf(buf, PAGE_SIZE, "%d\n", cpus_offlined); } static ssize_t __ref store_cpus_offlined(struct kobject *kobj, struct kobj_attribute *attr, const char *buf, size_t count) { int ret = 0; uint32_t val = 0; uint32_t cpu; mutex_lock(&core_control_mutex); ret = kstrtouint(buf, 10, &val); if (ret) { pr_err("Invalid input %s. err:%d\n", buf, ret); goto done_cc; } if (polling_enabled) { pr_err("Ignoring request; polling thread is enabled.\n"); goto done_cc; } for_each_possible_cpu(cpu) { if (!(msm_thermal_info.core_control_mask & BIT(cpu))) continue; cpus[cpu].user_offline = !!(val & BIT(cpu)); pr_debug("\"%s\"(PID:%i) requests %s CPU%d.\n", current->comm, current->pid, (cpus[cpu].user_offline) ? "offline" : "online", cpu); } if (hotplug_task) complete(&hotplug_notify_complete); else pr_err("Hotplug task is not initialized\n"); done_cc: mutex_unlock(&core_control_mutex); return count; } static __refdata struct kobj_attribute cc_enabled_attr = __ATTR(enabled, 0644, show_cc_enabled, store_cc_enabled); static __refdata struct kobj_attribute cpus_offlined_attr = __ATTR(cpus_offlined, 0644, show_cpus_offlined, store_cpus_offlined); static __refdata struct attribute *cc_attrs[] = { &cc_enabled_attr.attr, &cpus_offlined_attr.attr, NULL, }; static __refdata struct attribute_group cc_attr_group = { .attrs = cc_attrs, }; static __init int msm_thermal_add_cc_nodes(void) { struct kobject *module_kobj = NULL; int ret = 0; module_kobj = kset_find_obj(module_kset, KBUILD_MODNAME); if (!module_kobj) { pr_err("cannot find kobject\n"); ret = -ENOENT; goto done_cc_nodes; } cc_kobj = kobject_create_and_add("core_control", module_kobj); if (!cc_kobj) { pr_err("cannot create core control kobj\n"); ret = -ENOMEM; goto done_cc_nodes; } ret = sysfs_create_group(cc_kobj, &cc_attr_group); if (ret) { pr_err("cannot create sysfs group. err:%d\n", ret); goto done_cc_nodes; } return 0; done_cc_nodes: if (cc_kobj) kobject_del(cc_kobj); return ret; } static ssize_t show_mx_enabled(struct kobject *kobj, struct kobj_attribute *attr, char *buf) { return snprintf(buf, PAGE_SIZE, "%d\n", vdd_mx_enabled); } static ssize_t __ref store_mx_enabled(struct kobject *kobj, struct kobj_attribute *attr, const char *buf, size_t count) { int ret = 0; int val = 0; ret = kstrtoint(buf, 10, &val); if (ret) { pr_err("Invalid input %s\n", buf); goto done_store_mx; } if (vdd_mx_enabled == !!val) goto done_store_mx; vdd_mx_enabled = !!val; mutex_lock(&vdd_mx_mutex); if (!vdd_mx_enabled) remove_vdd_mx_restriction(); else if (!(convert_to_zone_id(&thresh[MSM_VDD_MX_RESTRICTION]))) therm_set_threshold(&thresh[MSM_VDD_MX_RESTRICTION]); mutex_unlock(&vdd_mx_mutex); done_store_mx: return count; } static __init int msm_thermal_add_mx_nodes(void) { struct kobject *module_kobj = NULL; int ret = 0; if (!vdd_mx_enabled) return -EINVAL; module_kobj = kset_find_obj(module_kset, KBUILD_MODNAME); if (!module_kobj) { pr_err("cannot find kobject for module\n"); ret = -ENOENT; goto done_mx_nodes; } mx_kobj = kobject_create_and_add("vdd_mx", module_kobj); if (!mx_kobj) { pr_err("cannot create mx restriction kobj\n"); ret = -ENOMEM; goto done_mx_nodes; } mx_attr_group.attrs = kzalloc(sizeof(struct attribute *) * 2, GFP_KERNEL); if (!mx_attr_group.attrs) { ret = -ENOMEM; pr_err("cannot allocate memory for mx_attr_group.attrs"); goto done_mx_nodes; } MX_RW_ATTR(mx_enabled_attr, enabled, mx_attr_group); mx_attr_group.attrs[1] = NULL; ret = sysfs_create_group(mx_kobj, &mx_attr_group); if (ret) { pr_err("cannot create group\n"); goto done_mx_nodes; } done_mx_nodes: if (ret) { if (mx_kobj) kobject_del(mx_kobj); kfree(mx_attr_group.attrs); } return ret; } static void msm_thermal_panic_notifier_init(struct device *dev) { int i; tsens_temp_at_panic = devm_kzalloc(dev, sizeof(long) * max_tsens_num, GFP_KERNEL); if (!tsens_temp_at_panic) { pr_err("kzalloc failed\n"); return; } for (i = 0; i < max_tsens_num; i++) tsens_temp_at_panic[i] = LONG_MIN; atomic_notifier_chain_register(&panic_notifier_list, &msm_thermal_panic_notifier); } int msm_thermal_pre_init(struct device *dev) { int ret = 0; if (tsens_is_ready() <= 0) { pr_err("Tsens driver is not ready yet\n"); return -EPROBE_DEFER; } ret = tsens_get_max_sensor_num(&max_tsens_num); if (ret < 0) { pr_err("failed to get max sensor number, err:%d\n", ret); return ret; } if (create_sensor_id_map()) { pr_err("Creating sensor id map failed\n"); ret = -EINVAL; goto pre_init_exit; } if (!tsens_temp_at_panic) msm_thermal_panic_notifier_init(dev); if (!thresh) { thresh = kzalloc( sizeof(struct threshold_info) * MSM_LIST_MAX_NR, GFP_KERNEL); if (!thresh) { pr_err("kzalloc failed\n"); ret = -ENOMEM; goto pre_init_exit; } memset(thresh, 0, sizeof(struct threshold_info) * MSM_LIST_MAX_NR); } pre_init_exit: return ret; } static int devmgr_devices_init(struct platform_device *pdev) { int ret = 0; uint32_t cpu; struct device_manager_data *dev_mgr = NULL; devices = devm_kzalloc(&pdev->dev, sizeof(struct devmgr_devices), GFP_KERNEL); if (!devices) { pr_err("Malloc failed for devmgr devices\n"); ret = -ENOMEM; goto device_exit; } if (num_possible_cpus() > 1) { /* Add hotplug device */ dev_mgr = devm_kzalloc(&pdev->dev, sizeof(struct device_manager_data), GFP_KERNEL); if (!dev_mgr) { pr_err("Malloc failed for hotplug device\n"); ret = -ENOMEM; goto device_exit; } snprintf(dev_mgr->device_name, TSENS_NAME_MAX, HOTPLUG_DEVICE); dev_mgr->request_validate = devmgr_hotplug_client_request_validate_and_update; dev_mgr->update = devmgr_client_hotplug_update; HOTPLUG_NO_MITIGATION(&dev_mgr->active_req.offline_mask); mutex_init(&dev_mgr->clnt_lock); INIT_LIST_HEAD(&dev_mgr->client_list); list_add_tail(&dev_mgr->dev_ptr, &devices_list); devices->hotplug_dev = dev_mgr; } /* Add cpu devices */ for_each_possible_cpu(cpu) { dev_mgr = devm_kzalloc(&pdev->dev, sizeof(struct device_manager_data), GFP_KERNEL); if (!dev_mgr) { pr_err("Malloc failed for cpu%d device\n", cpu); ret = -ENOMEM; goto device_exit; } snprintf(dev_mgr->device_name, TSENS_NAME_MAX, CPU_DEVICE, cpu); dev_mgr->request_validate = devmgr_cpufreq_client_request_validate_and_update; dev_mgr->update = devmgr_client_cpufreq_update; dev_mgr->active_req.freq.max_freq = CPUFREQ_MAX_NO_MITIGATION; dev_mgr->active_req.freq.min_freq = CPUFREQ_MIN_NO_MITIGATION; mutex_init(&dev_mgr->clnt_lock); INIT_LIST_HEAD(&dev_mgr->client_list); list_add_tail(&dev_mgr->dev_ptr, &devices_list); devices->cpufreq_dev[cpu] = dev_mgr; } device_exit: if (ret) { if (devices) { if (devices->hotplug_dev) devm_kfree(&pdev->dev, devices->hotplug_dev); for_each_possible_cpu(cpu) { if (devices->cpufreq_dev[cpu]) devm_kfree(&pdev->dev, devices->cpufreq_dev[cpu]); } } } return ret; } int msm_thermal_init(struct msm_thermal_data *pdata) { int ret = 0; uint32_t cpu; ret = devmgr_devices_init(pdata->pdev); if (ret) pr_err("cannot initialize devm devices. err:%d\n", ret); for_each_possible_cpu(cpu) { cpus[cpu].cpu = cpu; cpus[cpu].offline = 0; cpus[cpu].user_offline = 0; cpus[cpu].hotplug_thresh_clear = false; cpus[cpu].max_freq = false; cpus[cpu].user_max_freq = UINT_MAX; cpus[cpu].user_min_freq = 0; cpus[cpu].limited_max_freq = UINT_MAX; cpus[cpu].limited_min_freq = 0; cpus[cpu].freq_thresh_clear = false; } BUG_ON(!pdata); memcpy(&msm_thermal_info, pdata, sizeof(struct msm_thermal_data)); if (check_sensor_id(msm_thermal_info.sensor_id)) { pr_err("Invalid sensor:%d for polling\n", msm_thermal_info.sensor_id); return -EINVAL; } enabled = 1; polling_enabled = 1; ret = cpufreq_register_notifier(&msm_thermal_cpufreq_notifier, CPUFREQ_POLICY_NOTIFIER); if (ret) pr_err("cannot register cpufreq notifier. err:%d\n", ret); INIT_DELAYED_WORK(&check_temp_work, check_temp); schedule_delayed_work(&check_temp_work, 0); if (num_possible_cpus() > 1) register_cpu_notifier(&msm_thermal_cpu_notifier); return ret; } static int ocr_reg_init(struct platform_device *pdev) { int ret = 0; int i, j; for (i = 0; i < ocr_rail_cnt; i++) { /* Check if vdd_restriction has already initialized any * regualtor handle. If so use the same handle.*/ for (j = 0; j < rails_cnt; j++) { if (!strcmp(ocr_rails[i].name, rails[j].name)) { if (rails[j].reg == NULL) break; ocr_rails[i].phase_reg = rails[j].reg; goto reg_init; } } ocr_rails[i].phase_reg = devm_regulator_get(&pdev->dev, ocr_rails[i].name); if (IS_ERR_OR_NULL(ocr_rails[i].phase_reg)) { ret = PTR_ERR(ocr_rails[i].phase_reg); if (ret != -EPROBE_DEFER) { pr_err("Could not get regulator: %s, err:%d\n", ocr_rails[i].name, ret); ocr_rails[i].phase_reg = NULL; ocr_rails[i].mode = 0; ocr_rails[i].init = 0; } return ret; } reg_init: ocr_rails[i].mode = OPTIMUM_CURRENT_MIN; } return ret; } static int vdd_restriction_reg_init(struct platform_device *pdev) { int ret = 0; int i; for (i = 0; i < rails_cnt; i++) { if (rails[i].freq_req == 1) { usefreq |= BIT(i); check_freq_table(); /* * Restrict frequency by default until we have made * our first temp reading */ if (freq_table_get) ret = vdd_restriction_apply_freq(&rails[i], 0); else pr_info("Defer vdd rstr freq init.\n"); } else { rails[i].reg = devm_regulator_get(&pdev->dev, rails[i].name); if (IS_ERR_OR_NULL(rails[i].reg)) { ret = PTR_ERR(rails[i].reg); if (ret != -EPROBE_DEFER) { pr_err( \ "could not get regulator: %s. err:%d\n", rails[i].name, ret); rails[i].reg = NULL; rails[i].curr_level = -2; return ret; } pr_info("Defer regulator %s probe\n", rails[i].name); return ret; } /* * Restrict votlage by default until we have made * our first temp reading */ ret = vdd_restriction_apply_voltage(&rails[i], 0); } } return ret; } static int psm_reg_init(struct platform_device *pdev) { int ret = 0; int i = 0; int j = 0; for (i = 0; i < psm_rails_cnt; i++) { psm_rails[i].reg = rpm_regulator_get(&pdev->dev, psm_rails[i].name); if (IS_ERR_OR_NULL(psm_rails[i].reg)) { ret = PTR_ERR(psm_rails[i].reg); if (ret != -EPROBE_DEFER) { pr_err("couldn't get rpm regulator %s. err%d\n", psm_rails[i].name, ret); psm_rails[i].reg = NULL; goto psm_reg_exit; } pr_info("Defer regulator %s probe\n", psm_rails[i].name); return ret; } /* Apps default vote for PWM mode */ psm_rails[i].init = PMIC_PWM_MODE; ret = rpm_regulator_set_mode(psm_rails[i].reg, psm_rails[i].init); if (ret) { pr_err("Cannot set PMIC PWM mode. err:%d\n", ret); return ret; } else psm_rails[i].mode = PMIC_PWM_MODE; } return ret; psm_reg_exit: if (ret) { for (j = 0; j < i; j++) { if (psm_rails[j].reg != NULL) rpm_regulator_put(psm_rails[j].reg); } } return ret; } static struct kobj_attribute sensor_info_attr = __ATTR_RO(sensor_info); static int msm_thermal_add_sensor_info_nodes(void) { struct kobject *module_kobj = NULL; int ret = 0; if (!sensor_info_probed) { sensor_info_nodes_called = true; return ret; } if (sensor_info_probed && sensor_cnt == 0) return ret; module_kobj = kset_find_obj(module_kset, KBUILD_MODNAME); if (!module_kobj) { pr_err("cannot find kobject\n"); return -ENOENT; } sysfs_attr_init(&sensor_info_attr.attr); ret = sysfs_create_file(module_kobj, &sensor_info_attr.attr); if (ret) { pr_err( "cannot create sensor info kobject attribute. err:%d\n", ret); return ret; } return ret; } static int msm_thermal_add_vdd_rstr_nodes(void) { struct kobject *module_kobj = NULL; struct kobject *vdd_rstr_kobj = NULL; struct kobject *vdd_rstr_reg_kobj[MAX_RAILS] = {0}; int rc = 0; int i = 0; if (!vdd_rstr_probed) { vdd_rstr_nodes_called = true; return rc; } if (vdd_rstr_probed && rails_cnt == 0) return rc; module_kobj = kset_find_obj(module_kset, KBUILD_MODNAME); if (!module_kobj) { pr_err("cannot find kobject\n"); rc = -ENOENT; goto thermal_sysfs_add_exit; } vdd_rstr_kobj = kobject_create_and_add("vdd_restriction", module_kobj); if (!vdd_rstr_kobj) { pr_err("cannot create vdd_restriction kobject\n"); rc = -ENOMEM; goto thermal_sysfs_add_exit; } rc = sysfs_create_group(vdd_rstr_kobj, &vdd_rstr_en_attribs_gp); if (rc) { pr_err("cannot create kobject attribute group. err:%d\n", rc); rc = -ENOMEM; goto thermal_sysfs_add_exit; } for (i = 0; i < rails_cnt; i++) { vdd_rstr_reg_kobj[i] = kobject_create_and_add(rails[i].name, vdd_rstr_kobj); if (!vdd_rstr_reg_kobj[i]) { pr_err("cannot create kobject for %s\n", rails[i].name); rc = -ENOMEM; goto thermal_sysfs_add_exit; } rails[i].attr_gp.attrs = kzalloc(sizeof(struct attribute *) * 3, GFP_KERNEL); if (!rails[i].attr_gp.attrs) { pr_err("kzalloc failed\n"); rc = -ENOMEM; goto thermal_sysfs_add_exit; } VDD_RES_RW_ATTRIB(rails[i], rails[i].level_attr, 0, level); VDD_RES_RO_ATTRIB(rails[i], rails[i].value_attr, 1, value); rails[i].attr_gp.attrs[2] = NULL; rc = sysfs_create_group(vdd_rstr_reg_kobj[i], &rails[i].attr_gp); if (rc) { pr_err("cannot create attribute group for %s. err:%d\n", rails[i].name, rc); goto thermal_sysfs_add_exit; } } return rc; thermal_sysfs_add_exit: if (rc) { for (i = 0; i < rails_cnt; i++) { kobject_del(vdd_rstr_reg_kobj[i]); kfree(rails[i].attr_gp.attrs); } if (vdd_rstr_kobj) kobject_del(vdd_rstr_kobj); } return rc; } static int msm_thermal_add_ocr_nodes(void) { struct kobject *module_kobj = NULL; struct kobject *ocr_kobj = NULL; struct kobject *ocr_reg_kobj[MAX_RAILS] = {0}; int rc = 0; int i = 0; if (!ocr_probed) { ocr_nodes_called = true; return rc; } if (ocr_probed && ocr_rail_cnt == 0) return rc; module_kobj = kset_find_obj(module_kset, KBUILD_MODNAME); if (!module_kobj) { pr_err("Cannot find kobject\n"); rc = -ENOENT; goto ocr_node_exit; } ocr_kobj = kobject_create_and_add("opt_curr_req", module_kobj); if (!ocr_kobj) { pr_err("Cannot create ocr kobject\n"); rc = -ENOMEM; goto ocr_node_exit; } for (i = 0; i < ocr_rail_cnt; i++) { ocr_reg_kobj[i] = kobject_create_and_add(ocr_rails[i].name, ocr_kobj); if (!ocr_reg_kobj[i]) { pr_err("Cannot create kobject for %s\n", ocr_rails[i].name); rc = -ENOMEM; goto ocr_node_exit; } ocr_rails[i].attr_gp.attrs = kzalloc( sizeof(struct attribute *) * 2, GFP_KERNEL); if (!ocr_rails[i].attr_gp.attrs) { pr_err("Fail to allocate memory for attribute for %s\n", ocr_rails[i].name); rc = -ENOMEM; goto ocr_node_exit; } OCR_RW_ATTRIB(ocr_rails[i], ocr_rails[i].mode_attr, 0, mode); ocr_rails[i].attr_gp.attrs[1] = NULL; rc = sysfs_create_group(ocr_reg_kobj[i], &ocr_rails[i].attr_gp); if (rc) { pr_err("Cannot create attribute group for %s. err:%d\n", ocr_rails[i].name, rc); goto ocr_node_exit; } } ocr_node_exit: if (rc) { for (i = 0; i < ocr_rail_cnt; i++) { if (ocr_reg_kobj[i]) kobject_del(ocr_reg_kobj[i]); kfree(ocr_rails[i].attr_gp.attrs); ocr_rails[i].attr_gp.attrs = NULL; } if (ocr_kobj) kobject_del(ocr_kobj); } return rc; } static int msm_thermal_add_psm_nodes(void) { struct kobject *module_kobj = NULL; struct kobject *psm_kobj = NULL; struct kobject *psm_reg_kobj[MAX_RAILS] = {0}; int rc = 0; int i = 0; if (!psm_probed) { psm_nodes_called = true; return rc; } if (psm_probed && psm_rails_cnt == 0) return rc; module_kobj = kset_find_obj(module_kset, KBUILD_MODNAME); if (!module_kobj) { pr_err("cannot find kobject\n"); rc = -ENOENT; goto psm_node_exit; } psm_kobj = kobject_create_and_add("pmic_sw_mode", module_kobj); if (!psm_kobj) { pr_err("cannot create psm kobject\n"); rc = -ENOMEM; goto psm_node_exit; } for (i = 0; i < psm_rails_cnt; i++) { psm_reg_kobj[i] = kobject_create_and_add(psm_rails[i].name, psm_kobj); if (!psm_reg_kobj[i]) { pr_err("cannot create kobject for %s\n", psm_rails[i].name); rc = -ENOMEM; goto psm_node_exit; } psm_rails[i].attr_gp.attrs = kzalloc( \ sizeof(struct attribute *) * 2, GFP_KERNEL); if (!psm_rails[i].attr_gp.attrs) { pr_err("kzalloc failed\n"); rc = -ENOMEM; goto psm_node_exit; } PSM_RW_ATTRIB(psm_rails[i], psm_rails[i].mode_attr, 0, mode); psm_rails[i].attr_gp.attrs[1] = NULL; rc = sysfs_create_group(psm_reg_kobj[i], &psm_rails[i].attr_gp); if (rc) { pr_err("cannot create attribute group for %s. err:%d\n", psm_rails[i].name, rc); goto psm_node_exit; } } return rc; psm_node_exit: if (rc) { for (i = 0; i < psm_rails_cnt; i++) { kobject_del(psm_reg_kobj[i]); kfree(psm_rails[i].attr_gp.attrs); } if (psm_kobj) kobject_del(psm_kobj); } return rc; } static int probe_vdd_mx(struct device_node *node, struct msm_thermal_data *data, struct platform_device *pdev) { int ret = 0; char *key = NULL; key = "qcom,disable-vdd-mx"; if (of_property_read_bool(node, key)) { vdd_mx_enabled = false; return ret; } key = "qcom,mx-restriction-temp"; ret = of_property_read_u32(node, key, &data->vdd_mx_temp_degC); if (ret) goto read_node_done; key = "qcom,mx-restriction-temp-hysteresis"; ret = of_property_read_u32(node, key, &data->vdd_mx_temp_hyst_degC); if (ret) goto read_node_done; key = "qcom,mx-retention-min"; ret = of_property_read_u32(node, key, &data->vdd_mx_min); if (ret) goto read_node_done; vdd_mx = devm_regulator_get(&pdev->dev, "vdd-mx"); if (IS_ERR_OR_NULL(vdd_mx)) { ret = PTR_ERR(vdd_mx); if (ret != -EPROBE_DEFER) { pr_err( "Could not get regulator: vdd-mx, err:%d\n", ret); } goto read_node_done; } ret = init_threshold(MSM_VDD_MX_RESTRICTION, MONITOR_ALL_TSENS, data->vdd_mx_temp_degC + data->vdd_mx_temp_hyst_degC, data->vdd_mx_temp_degC, vdd_mx_notify); read_node_done: if (!ret) vdd_mx_enabled = true; else if (ret != -EPROBE_DEFER) dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s. KTM continues\n", __func__, node->full_name, key); return ret; } static int probe_vdd_rstr(struct device_node *node, struct msm_thermal_data *data, struct platform_device *pdev) { int ret = 0; int i = 0; int arr_size; char *key = NULL; struct device_node *child_node = NULL; rails = NULL; key = "qcom,disable-vdd-rstr"; if (of_property_read_bool(node, key)) { vdd_rstr_probed = true; vdd_rstr_enabled = false; rails_cnt = 0; return ret; } key = "qcom,vdd-restriction-temp"; ret = of_property_read_u32(node, key, &data->vdd_rstr_temp_degC); if (ret) goto read_node_fail; key = "qcom,vdd-restriction-temp-hysteresis"; ret = of_property_read_u32(node, key, &data->vdd_rstr_temp_hyst_degC); if (ret) goto read_node_fail; for_each_child_of_node(node, child_node) { rails_cnt++; } if (rails_cnt == 0) goto read_node_fail; if (rails_cnt >= MAX_RAILS) { pr_err("Too many rails:%d.\n", rails_cnt); return -EFAULT; } rails = kzalloc(sizeof(struct rail) * rails_cnt, GFP_KERNEL); if (!rails) { pr_err("Fail to allocate memory for rails.\n"); return -ENOMEM; } i = 0; for_each_child_of_node(node, child_node) { key = "qcom,vdd-rstr-reg"; ret = of_property_read_string(child_node, key, &rails[i].name); if (ret) goto read_node_fail; key = "qcom,levels"; if (!of_get_property(child_node, key, &arr_size)) goto read_node_fail; rails[i].num_levels = arr_size/sizeof(__be32); if (rails[i].num_levels > sizeof(rails[i].levels)/sizeof(uint32_t)) { pr_err("Array size:%d too large for index:%d\n", rails[i].num_levels, i); return -EFAULT; } ret = of_property_read_u32_array(child_node, key, rails[i].levels, rails[i].num_levels); if (ret) goto read_node_fail; key = "qcom,freq-req"; rails[i].freq_req = of_property_read_bool(child_node, key); if (rails[i].freq_req) rails[i].min_level = 0; else { key = "qcom,min-level"; ret = of_property_read_u32(child_node, key, &rails[i].min_level); if (ret) goto read_node_fail; } rails[i].curr_level = -1; rails[i].reg = NULL; i++; } if (rails_cnt) { ret = vdd_restriction_reg_init(pdev); if (ret) { pr_err("Err regulator init. err:%d. KTM continues.\n", ret); goto read_node_fail; } ret = init_threshold(MSM_VDD_RESTRICTION, MONITOR_ALL_TSENS, data->vdd_rstr_temp_hyst_degC, data->vdd_rstr_temp_degC, vdd_restriction_notify); if (ret) { pr_err("Error in initializing thresholds. err:%d\n", ret); goto read_node_fail; } vdd_rstr_enabled = true; } read_node_fail: vdd_rstr_probed = true; if (ret) { dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s. err=%d. KTM continues\n", __func__, node->full_name, key, ret); kfree(rails); rails_cnt = 0; } if (ret == -EPROBE_DEFER) vdd_rstr_probed = false; return ret; } static void probe_sensor_info(struct device_node *node, struct msm_thermal_data *data, struct platform_device *pdev) { int err = 0; int i = 0; char *key = NULL; struct device_node *child_node = NULL; struct device_node *np = NULL; key = "qcom,disable-sensor-info"; if (of_property_read_bool(node, key)) { sensor_info_probed = true; return; } np = of_find_compatible_node(NULL, NULL, "qcom,sensor-information"); if (!np) { dev_info(&pdev->dev, "%s:unable to find DT for sensor-information.KTM continues\n", __func__); sensor_info_probed = true; return; } sensor_cnt = of_get_child_count(np); if (sensor_cnt == 0) { err = -ENODEV; goto read_node_fail; } sensors = devm_kzalloc(&pdev->dev, sizeof(struct msm_sensor_info) * sensor_cnt, GFP_KERNEL); if (!sensors) { pr_err("Fail to allocate memory for sensor_info.\n"); err = -ENOMEM; goto read_node_fail; } for_each_child_of_node(np, child_node) { key = "qcom,sensor-type"; err = of_property_read_string(child_node, key, &sensors[i].type); if (err) goto read_node_fail; key = "qcom,sensor-name"; err = of_property_read_string(child_node, key, &sensors[i].name); if (err) goto read_node_fail; key = "qcom,alias-name"; of_property_read_string(child_node, key, &sensors[i].alias); key = "qcom,scaling-factor"; err = of_property_read_u32(child_node, key, &sensors[i].scaling_factor); if (err) { sensors[i].scaling_factor = SENSOR_SCALING_FACTOR; err = 0; } i++; } read_node_fail: sensor_info_probed = true; if (err) { dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s. err=%d. KTM continues\n", __func__, np->full_name, key, err); devm_kfree(&pdev->dev, sensors); } } static int probe_ocr(struct device_node *node, struct msm_thermal_data *data, struct platform_device *pdev) { int ret = 0; int j = 0; char *key = NULL; if (ocr_probed) { pr_info("Nodes already probed\n"); goto read_ocr_exit; } ocr_rails = NULL; key = "qcom,disable-ocr"; if (of_property_read_bool(node, key)) { ocr_probed = true; ocr_enabled = false; ocr_rail_cnt = 0; goto read_ocr_exit; } key = "qcom,pmic-opt-curr-temp"; ret = of_property_read_u32(node, key, &data->ocr_temp_degC); if (ret) goto read_ocr_fail; key = "qcom,pmic-opt-curr-temp-hysteresis"; ret = of_property_read_u32(node, key, &data->ocr_temp_hyst_degC); if (ret) goto read_ocr_fail; key = "qcom,pmic-opt-curr-regs"; ocr_rail_cnt = of_property_count_strings(node, key); if (ocr_rail_cnt <= 0) { pr_err("Invalid ocr rail count. err:%d\n", ocr_rail_cnt); goto read_ocr_fail; } ocr_rails = kzalloc(sizeof(struct psm_rail) * ocr_rail_cnt, GFP_KERNEL); if (!ocr_rails) { pr_err("Fail to allocate memory for ocr rails\n"); ocr_rail_cnt = 0; return -ENOMEM; } for (j = 0; j < ocr_rail_cnt; j++) { ret = of_property_read_string_index(node, key, j, &ocr_rails[j].name); if (ret) goto read_ocr_fail; ocr_rails[j].phase_reg = NULL; ocr_rails[j].init = OPTIMUM_CURRENT_MAX; } key = "qcom,pmic-opt-curr-sensor-id"; ret = of_property_read_u32(node, key, &data->ocr_sensor_id); if (ret) { pr_info("ocr sensor is not configured, use all TSENS. err:%d\n", ret); data->ocr_sensor_id = MONITOR_ALL_TSENS; } ret = ocr_reg_init(pdev); if (ret) { if (ret == -EPROBE_DEFER) { ocr_reg_init_defer = true; pr_info("ocr reg init is defered\n"); } else { pr_err( "Failed to get regulators. KTM continues. err:%d\n", ret); goto read_ocr_fail; } } ret = init_threshold(MSM_OCR, data->ocr_sensor_id, data->ocr_temp_degC, data->ocr_temp_degC - data->ocr_temp_hyst_degC, ocr_notify); if (ret) goto read_ocr_fail; if (!ocr_reg_init_defer) ocr_enabled = true; ocr_nodes_called = false; /* * Vote for max optimum current by default until we have made * our first temp reading */ if (ocr_enabled) { ret = ocr_set_mode_all(OPTIMUM_CURRENT_MAX); if (ret) { pr_err("Set max optimum current failed. err:%d\n", ret); ocr_enabled = false; } } read_ocr_fail: ocr_probed = true; if (ret) { if (ret == -EPROBE_DEFER) { ret = 0; goto read_ocr_exit; } dev_err( &pdev->dev, "%s:Failed reading node=%s, key=%s err:%d. KTM continues\n", __func__, node->full_name, key, ret); kfree(ocr_rails); ocr_rails = NULL; ocr_rail_cnt = 0; } read_ocr_exit: return ret; } static int probe_psm(struct device_node *node, struct msm_thermal_data *data, struct platform_device *pdev) { int ret = 0; int j = 0; char *key = NULL; psm_rails = NULL; key = "qcom,disable-psm"; if (of_property_read_bool(node, key)) { psm_probed = true; psm_enabled = false; psm_rails_cnt = 0; return ret; } key = "qcom,pmic-sw-mode-temp"; ret = of_property_read_u32(node, key, &data->psm_temp_degC); if (ret) goto read_node_fail; key = "qcom,pmic-sw-mode-temp-hysteresis"; ret = of_property_read_u32(node, key, &data->psm_temp_hyst_degC); if (ret) goto read_node_fail; key = "qcom,pmic-sw-mode-regs"; psm_rails_cnt = of_property_count_strings(node, key); psm_rails = kzalloc(sizeof(struct psm_rail) * psm_rails_cnt, GFP_KERNEL); if (!psm_rails) { pr_err("Fail to allocate memory for psm rails\n"); psm_rails_cnt = 0; return -ENOMEM; } for (j = 0; j < psm_rails_cnt; j++) { ret = of_property_read_string_index(node, key, j, &psm_rails[j].name); if (ret) goto read_node_fail; } if (psm_rails_cnt) { ret = psm_reg_init(pdev); if (ret) { pr_err("Err regulator init. err:%d. KTM continues.\n", ret); goto read_node_fail; } psm_enabled = true; } read_node_fail: psm_probed = true; if (ret) { dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s. err=%d. KTM continues\n", __func__, node->full_name, key, ret); kfree(psm_rails); psm_rails_cnt = 0; } if (ret == -EPROBE_DEFER) psm_probed = false; return ret; } static int probe_cc(struct device_node *node, struct msm_thermal_data *data, struct platform_device *pdev) { char *key = NULL; uint32_t cpu_cnt = 0; int ret = 0; uint32_t cpu = 0; if (num_possible_cpus() > 1) { core_control_enabled = 1; hotplug_enabled = 1; } key = "qcom,core-limit-temp"; ret = of_property_read_u32(node, key, &data->core_limit_temp_degC); if (ret) goto read_node_fail; key = "qcom,core-temp-hysteresis"; ret = of_property_read_u32(node, key, &data->core_temp_hysteresis_degC); if (ret) goto read_node_fail; key = "qcom,core-control-mask"; ret = of_property_read_u32(node, key, &data->core_control_mask); if (ret) goto read_node_fail; key = "qcom,hotplug-temp"; ret = of_property_read_u32(node, key, &data->hotplug_temp_degC); if (ret) goto hotplug_node_fail; key = "qcom,hotplug-temp-hysteresis"; ret = of_property_read_u32(node, key, &data->hotplug_temp_hysteresis_degC); if (ret) goto hotplug_node_fail; key = "qcom,cpu-sensors"; cpu_cnt = of_property_count_strings(node, key); if (cpu_cnt < num_possible_cpus()) { pr_err("Wrong number of cpu sensors:%d\n", cpu_cnt); ret = -EINVAL; goto hotplug_node_fail; } for_each_possible_cpu(cpu) { ret = of_property_read_string_index(node, key, cpu, &cpus[cpu].sensor_type); if (ret) goto hotplug_node_fail; } read_node_fail: if (ret) { dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s. err=%d. KTM continues\n", KBUILD_MODNAME, node->full_name, key, ret); core_control_enabled = 0; } return ret; hotplug_node_fail: if (ret) { dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s. err=%d. KTM continues\n", KBUILD_MODNAME, node->full_name, key, ret); hotplug_enabled = 0; } return ret; } static int probe_gfx_phase_ctrl(struct device_node *node, struct msm_thermal_data *data, struct platform_device *pdev) { char *key = NULL; const char *tmp_str = NULL; int ret = 0; key = "qcom,disable-gfx-phase-ctrl"; if (of_property_read_bool(node, key)) { gfx_crit_phase_ctrl_enabled = false; gfx_warm_phase_ctrl_enabled = false; return ret; } key = "qcom,gfx-sensor-id"; ret = of_property_read_u32(node, key, &data->gfx_sensor); if (ret) goto probe_gfx_exit; key = "qcom,gfx-phase-resource-key"; ret = of_property_read_string(node, key, &tmp_str); if (ret) goto probe_gfx_exit; data->gfx_phase_request_key = msm_thermal_str_to_int(tmp_str); key = "qcom,gfx-phase-warm-temp"; ret = of_property_read_u32(node, key, &data->gfx_phase_warm_temp_degC); if (ret) { dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s. err=%d. KTM continues\n", KBUILD_MODNAME, node->full_name, key, ret); data->gfx_phase_warm_temp_degC = INT_MIN; goto probe_gfx_crit; } key = "qcom,gfx-phase-warm-temp-hyst"; ret = of_property_read_u32(node, key, &data->gfx_phase_warm_temp_hyst_degC); if (ret) { dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s. err=%d. KTM continues\n", KBUILD_MODNAME, node->full_name, key, ret); goto probe_gfx_crit; } ret = init_threshold(MSM_GFX_PHASE_CTRL_WARM, data->gfx_sensor, data->gfx_phase_warm_temp_degC, data->gfx_phase_warm_temp_degC - data->gfx_phase_warm_temp_hyst_degC, gfx_phase_ctrl_notify); if (ret) { pr_err("init WARM threshold failed. err:%d\n", ret); goto probe_gfx_crit; } gfx_warm_phase_ctrl_enabled = true; probe_gfx_crit: key = "qcom,gfx-phase-hot-crit-temp"; ret = of_property_read_u32(node, key, &data->gfx_phase_hot_temp_degC); if (ret) { data->gfx_phase_hot_temp_degC = INT_MAX; goto probe_gfx_exit; } key = "qcom,gfx-phase-hot-crit-temp-hyst"; ret = of_property_read_u32(node, key, &data->gfx_phase_hot_temp_hyst_degC); if (ret) goto probe_gfx_exit; ret = init_threshold(MSM_GFX_PHASE_CTRL_HOT, data->gfx_sensor, data->gfx_phase_hot_temp_degC, data->gfx_phase_hot_temp_degC - data->gfx_phase_hot_temp_hyst_degC, gfx_phase_ctrl_notify); if (ret) { pr_err("init HOT threshold failed. err:%d\n", ret); goto probe_gfx_exit; } gfx_crit_phase_ctrl_enabled = true; probe_gfx_exit: if (ret) { dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s. err=%d. KTM continues\n", KBUILD_MODNAME, node->full_name, key, ret); } return ret; } static int probe_cx_phase_ctrl(struct device_node *node, struct msm_thermal_data *data, struct platform_device *pdev) { char *key = NULL; const char *tmp_str; int ret = 0; key = "qcom,disable-cx-phase-ctrl"; if (of_property_read_bool(node, key)) { cx_phase_ctrl_enabled = false; return ret; } key = "qcom,rpm-phase-resource-type"; ret = of_property_read_string(node, key, &tmp_str); if (ret) goto probe_cx_exit; data->phase_rpm_resource_type = msm_thermal_str_to_int(tmp_str); key = "qcom,rpm-phase-resource-id"; ret = of_property_read_u32(node, key, &data->phase_rpm_resource_id); if (ret) goto probe_cx_exit; key = "qcom,cx-phase-resource-key"; ret = of_property_read_string(node, key, &tmp_str); if (ret) goto probe_cx_exit; data->cx_phase_request_key = msm_thermal_str_to_int(tmp_str); key = "qcom,cx-phase-hot-crit-temp"; ret = of_property_read_u32(node, key, &data->cx_phase_hot_temp_degC); if (ret) goto probe_cx_exit; key = "qcom,cx-phase-hot-crit-temp-hyst"; ret = of_property_read_u32(node, key, &data->cx_phase_hot_temp_hyst_degC); if (ret) goto probe_cx_exit; ret = init_threshold(MSM_CX_PHASE_CTRL_HOT, MONITOR_ALL_TSENS, data->cx_phase_hot_temp_degC, data->cx_phase_hot_temp_degC - data->cx_phase_hot_temp_hyst_degC, cx_phase_ctrl_notify); if (ret) { pr_err("init HOT threshold failed. err:%d\n", ret); goto probe_cx_exit; } cx_phase_ctrl_enabled = true; probe_cx_exit: if (ret) { dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s err=%d. KTM continues\n", KBUILD_MODNAME, node->full_name, key, ret); cx_phase_ctrl_enabled = false; } return ret; } static int probe_therm_reset(struct device_node *node, struct msm_thermal_data *data, struct platform_device *pdev) { char *key = NULL; int ret = 0; key = "qcom,therm-reset-temp"; ret = of_property_read_u32(node, key, &data->therm_reset_temp_degC); if (ret) goto PROBE_RESET_EXIT; ret = init_threshold(MSM_THERM_RESET, MONITOR_ALL_TSENS, data->therm_reset_temp_degC, data->therm_reset_temp_degC - 10, therm_reset_notify); if (ret) { pr_err("Therm reset data structure init failed\n"); goto PROBE_RESET_EXIT; } therm_reset_enabled = true; PROBE_RESET_EXIT: if (ret) { dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s err=%d. KTM continues\n", __func__, node->full_name, key, ret); therm_reset_enabled = false; } return ret; } static int probe_freq_mitigation(struct device_node *node, struct msm_thermal_data *data, struct platform_device *pdev) { char *key = NULL; int ret = 0; key = "qcom,freq-mitigation-temp"; ret = of_property_read_u32(node, key, &data->freq_mitig_temp_degc); if (ret) goto PROBE_FREQ_EXIT; key = "qcom,freq-mitigation-temp-hysteresis"; ret = of_property_read_u32(node, key, &data->freq_mitig_temp_hysteresis_degc); if (ret) goto PROBE_FREQ_EXIT; key = "qcom,freq-mitigation-value"; ret = of_property_read_u32(node, key, &data->freq_limit); if (ret) goto PROBE_FREQ_EXIT; key = "qcom,freq-mitigation-control-mask"; ret = of_property_read_u32(node, key, &data->freq_mitig_control_mask); if (ret) goto PROBE_FREQ_EXIT; freq_mitigation_enabled = 1; PROBE_FREQ_EXIT: if (ret) { dev_info(&pdev->dev, "%s:Failed reading node=%s, key=%s. err=%d. KTM continues\n", __func__, node->full_name, key, ret); freq_mitigation_enabled = 0; } return ret; } static int msm_thermal_dev_probe(struct platform_device *pdev) { int ret = 0; char *key = NULL; struct device_node *node = pdev->dev.of_node; struct msm_thermal_data data; memset(&data, 0, sizeof(struct msm_thermal_data)); data.pdev = pdev; ret = msm_thermal_pre_init(&pdev->dev); if (ret) { pr_err("thermal pre init failed. err:%d\n", ret); goto fail; } key = "qcom,sensor-id"; ret = of_property_read_u32(node, key, &data.sensor_id); if (ret) goto fail; key = "qcom,temp-hysteresis"; ret = of_property_read_u32(node, key, &data.temp_hysteresis_degC); if (ret) goto fail; key = "qcom,freq-step"; ret = of_property_read_u32(node, key, &data.bootup_freq_step); if (ret) goto fail; key = "qcom,online-hotplug-core"; if (of_property_read_bool(node, key)) online_core = true; else online_core = false; key = "qcom,freq-control-mask"; ret = of_property_read_u32(node, key, &data.bootup_freq_control_mask); ret = probe_cc(node, &data, pdev); ret = probe_freq_mitigation(node, &data, pdev); ret = probe_cx_phase_ctrl(node, &data, pdev); ret = probe_gfx_phase_ctrl(node, &data, pdev); ret = probe_therm_reset(node, &data, pdev); ret = probe_vdd_mx(node, &data, pdev); if (ret == -EPROBE_DEFER) goto fail; /* * Probe optional properties below. Call probe_psm before * probe_vdd_rstr because rpm_regulator_get has to be called * before devm_regulator_get * probe_ocr should be called after probe_vdd_rstr to reuse the * regualtor handle. calling devm_regulator_get more than once * will fail. */ ret = probe_psm(node, &data, pdev); if (ret == -EPROBE_DEFER) goto fail; ret = probe_vdd_rstr(node, &data, pdev); if (ret == -EPROBE_DEFER) goto fail; probe_sensor_info(node, &data, pdev); ret = probe_ocr(node, &data, pdev); update_cpu_topology(&pdev->dev); /* * In case sysfs add nodes get called before probe function. * Need to make sure sysfs node is created again */ if (psm_nodes_called) { msm_thermal_add_psm_nodes(); psm_nodes_called = false; } if (vdd_rstr_nodes_called) { msm_thermal_add_vdd_rstr_nodes(); vdd_rstr_nodes_called = false; } if (sensor_info_nodes_called) { msm_thermal_add_sensor_info_nodes(); sensor_info_nodes_called = false; } if (ocr_nodes_called) { msm_thermal_add_ocr_nodes(); ocr_nodes_called = false; } if (cluster_info_nodes_called) { create_cpu_topology_sysfs(); cluster_info_nodes_called = false; } msm_thermal_ioctl_init(); ret = msm_thermal_init(&data); msm_thermal_probed = true; if (interrupt_mode_enable) { interrupt_mode_init(); interrupt_mode_enable = false; } return ret; fail: if (ret) pr_err("Failed reading node=%s, key=%s. err:%d\n", node->full_name, key, ret); return ret; } static int msm_thermal_dev_exit(struct platform_device *inp_dev) { int i = 0; msm_thermal_ioctl_cleanup(); if (thresh) { if (vdd_rstr_enabled) kfree(thresh[MSM_VDD_RESTRICTION].thresh_list); if (cx_phase_ctrl_enabled) kfree(thresh[MSM_CX_PHASE_CTRL_HOT].thresh_list); if (gfx_warm_phase_ctrl_enabled) kfree(thresh[MSM_GFX_PHASE_CTRL_WARM].thresh_list); if (gfx_crit_phase_ctrl_enabled) kfree(thresh[MSM_GFX_PHASE_CTRL_HOT].thresh_list); if (ocr_enabled) { for (i = 0; i < ocr_rail_cnt; i++) kfree(ocr_rails[i].attr_gp.attrs); kfree(ocr_rails); ocr_rails = NULL; kfree(thresh[MSM_OCR].thresh_list); } if (vdd_mx_enabled) { kfree(mx_kobj); kfree(mx_attr_group.attrs); kfree(thresh[MSM_VDD_MX_RESTRICTION].thresh_list); } kfree(thresh); thresh = NULL; } return 0; } static struct of_device_id msm_thermal_match_table[] = { {.compatible = "qcom,msm-thermal"}, {}, }; static struct platform_driver msm_thermal_device_driver = { .probe = msm_thermal_dev_probe, .driver = { .name = "msm-thermal", .owner = THIS_MODULE, .of_match_table = msm_thermal_match_table, }, .remove = msm_thermal_dev_exit, }; int __init msm_thermal_device_init(void) { return platform_driver_register(&msm_thermal_device_driver); } arch_initcall(msm_thermal_device_init); int __init msm_thermal_late_init(void) { if (num_possible_cpus() > 1) msm_thermal_add_cc_nodes(); msm_thermal_add_psm_nodes(); msm_thermal_add_vdd_rstr_nodes(); msm_thermal_add_sensor_info_nodes(); if (ocr_reg_init_defer) { if (!ocr_reg_init(msm_thermal_info.pdev)) { ocr_enabled = true; msm_thermal_add_ocr_nodes(); } } msm_thermal_add_mx_nodes(); interrupt_mode_init(); create_cpu_topology_sysfs(); return 0; } late_initcall(msm_thermal_late_init);
C-Aniruddh/kernel_vortex
drivers/thermal/msm_thermal.c
C
gpl-2.0
134,237
#!/usr/bin/perl #[SUMMARY] Flashcard program. Used to train yourself for vocab retention, possibly other uses (e.g. general question and answer format). # Read through an input file (key - value), shuffle the keys randomly, and prompt the user for an answer. # If the answer doesn't match (case insensitive), retry (optional), or move on to the next key. # Track all failed keys. Give a summary at the end of all failed keys. # We use an error file to track our failures over time. The format of the error file is: # <key> <tab> <semi-colon separated list of dates and times> # This way we can see what we're having most trouble with. # [OUTLINE][step] # 1. Open files. Loop through input file and build hash. # 2. Shuffle hash, and prompt user for values. # 3. Summarize results. # # [todo] # 1. Dynamically parse the format to make this function general. Use a hash to map the characters in the format string to the localtime array. 'Y' maps to index 5, 'M' to index 4, 'D' to 3, 'H' to 2, 'MI' to 1, and 'S' to 0. # You cretae the sformat string by replacing these references in the format string with their sprintf equivalents (e.g. YYYY => %04d) and simultaneously push the appropriate localtime index onto an array. # This way you can pass a format of "YYYYMMDD", "MMYYYY", "DD-MM-YYYY HH:MI", etc., and the function could parse them correctly, without hardcoding in kludgy pattern matches as you currently do. # [FUZZY MATCH] Would be useful here - the answer we give could be fuzzy matched against the correct answer. # It fails if it falls below some threshold value (e.g. 90% match). We could also track the fuzzy match percentage in the error file metadata, which could help sorting the keys by difficulty. use strict; use warnings; use List::Util qw(shuffle); my %vocab; my $input_file; $input_file = shift || die "<usage> $0 <input file> <err_file>*\n\t*- optional. Default is <input_file>.err\n"; my $err_file = shift || "$input_file.err"; my $global_lim = 0; # No retries. my ($errcnt, $cnt, @errkeys, %errhash, @extra, $err_mdata); my $lim = 0; my $curtime = format_time(time, "YYYY/MM/DD HH:MI:SS"); # [step].1 open(IN, "<" , "$input_file") or die "opening $input_file for reading: $!\n"; # Build a hash. while (<IN>) { s/\s+$//; # Trim trailing blanks. next unless $_; my ($k,$v) = split /\s*[=-]\s*/, $_, 2; $vocab{$k} = $v; } close(IN); # Build err file. if (-s $err_file) { open(ERRFILE, "<", "$err_file") or die "opening $err_file for reading: $!\n"; while (<ERRFILE>) { s/\s+$//; if (/\t/) { my ($err, $mdata) = split /\t/, $_, 2; $errhash{$err} = $mdata; } else { push(@extra, $_); # This could be comments, or anything. We print it at the top of the error file. } } close(ERRFILE); } # [step].2 foreach my $key (shuffle(keys %vocab)) { my $correct_value = $vocab{$key}; my $val; my @dates; print "$key > "; ($val = <STDIN>) =~ s/\s+$//; if (lc($val) ne lc($correct_value)) { if (++$lim > $global_lim) { print "\t[answer] $correct_value\n"; $errcnt++; if ($err_mdata = $errhash{$key}) { @dates = split /\s*;\s*/, $err_mdata; } push(@dates, $curtime); $errhash{$key} = join("; ", @dates); push(@errkeys, $key); } else { print "\t[wrong] try again.\n"; redo; } } $cnt++; $lim = 0; } # [step].3 if (%errhash) { open(ERRFILE, ">", $err_file) or die "opening $err_file for writing: $!\n"; print ERRFILE join("\n", @extra); foreach my $key (sort keys %errhash) { print ERRFILE "$key\t$errhash{$key}\n"; } close(ERRFILE); } my $summary =<<EOF; [SUMMARY] $errcnt wrong out of $cnt Missed keys: ${\(join("\n", @errkeys))} See $err_file for more information. EOF print $summary; ########## # [todo].1 sub format_time { my $epoch_timeval = shift; my $format = shift; my @ltime = localtime($epoch_timeval); my $sformat; $ltime[5] += 1900; $ltime[4] += 1; if ($format =~ m|YYYY/MM/DD HH:MI:SS|) { $sformat = "%04d/%02d/%02d %02d:%02d:%02d"; } return sprintf "$sformat", @ltime[5,4,3,2,1,0]; }
huther/personal_projects
perl_exercises/vocab.pl
Perl
gpl-2.0
4,111
#ifndef COIN_SBPIMPLPTR_HPP #define COIN_SBPIMPLPTR_HPP /**************************************************************************\ * * This file is part of the Coin 3D visualization library. * Copyright (C) 1998-2008 by Kongsberg SIM. All rights reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * ("GPL") version 2 as published by the Free Software Foundation. * See the file LICENSE.GPL at the root directory of this source * distribution for additional information about the GNU GPL. * * For using Coin with software that can not be combined with the GNU * GPL, and for taking advantage of the additional benefits of our * support services, please contact Kongsberg SIM about acquiring * a Coin Professional Edition License. * * See http://www.coin3d.org/ for more information. * * Kongsberg SIM, Postboks 1283, Pirsenteret, 7462 Trondheim, NORWAY. * http://www.sim.no/ [email protected] [email protected] * \**************************************************************************/ #ifndef COIN_SBPIMPLPTR_H #error do not include Inventor/tools/SbPimplPtr.hpp directly, use Inventor/tools/SbPimplPtr.h #endif // !COIN_SBPIMPLPTR_H /* ********************************************************************** */ template <typename T> SbPimplPtr<T>::SbPimplPtr(void) : ptr(NULL) { this->set(this->getNew()); } template <typename T> SbPimplPtr<T>::SbPimplPtr(T * initial) { this->ptr = initial; } template <typename T> SbPimplPtr<T>::SbPimplPtr(const SbPimplPtr<T> & copy) { *this = copy; } template <typename T> SbPimplPtr<T>::~SbPimplPtr(void) { this->set(NULL); } template <typename T> void SbPimplPtr<T>::set(T * value) { if (this->ptr) { delete this->ptr; } this->ptr = value; } template <typename T> T & SbPimplPtr<T>::get(void) const { return *(this->ptr); } template <typename T> T * SbPimplPtr<T>::getNew(void) const { return new T; } template <typename T> SbPimplPtr<T> & SbPimplPtr<T>::operator = (const SbPimplPtr<T> & copy) { this->get() = copy.get(); return *this; } template <typename T> SbBool SbPimplPtr<T>::operator == (const SbPimplPtr<T> & rhs) const { return this->get() == rhs.get(); } template <typename T> SbBool SbPimplPtr<T>::operator != (const SbPimplPtr<T> & rhs) const { return !(*this == rhs); } template <typename T> const T * SbPimplPtr<T>::operator -> (void) const { return &(this->get()); } template <typename T> T * SbPimplPtr<T>::operator -> (void) { return &(this->get()); } /* ********************************************************************** */ #endif // !COIN_SBPIMPLPTR_HPP
erik132/MolekelCUDA
deps/include/Inventor/tools/SbPimplPtr.hpp
C++
gpl-2.0
2,699
/* $Id$ This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. oroborus - (c) 2001 Ken Lynch xfwm4 - (c) 2002-2020 Olivier Fourdan */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include <string.h> #include <X11/X.h> #include <X11/Xlib.h> #include <X11/Xutil.h> #include <X11/Xatom.h> #include <X11/extensions/shape.h> #include <glib.h> #include <gdk/gdk.h> #include <gdk/gdkx.h> #include <gtk/gtk.h> #ifdef HAVE_RANDR #include <X11/extensions/Xrandr.h> #endif #include <libxfce4util/libxfce4util.h> #include <libxfce4ui/libxfce4ui.h> #include <common/xfwm-common.h> #include "misc.h" #include "workspaces.h" #include "settings.h" #include "mywindow.h" #include "frame.h" #include "client.h" #include "moveresize.h" #include "cycle.h" #include "placement.h" #include "stacking.h" #include "transients.h" #include "focus.h" #include "netwm.h" #include "menu.h" #include "hints.h" #include "startup_notification.h" #include "compositor.h" #include "events.h" #include "event_filter.h" #include "xsync.h" #include "display.h" #ifndef CHECK_BUTTON_TIME #define CHECK_BUTTON_TIME 0 #endif #define WIN_IS_BUTTON(win) ((win == MYWINDOW_XWINDOW(c->buttons[HIDE_BUTTON])) || \ (win == MYWINDOW_XWINDOW(c->buttons[CLOSE_BUTTON])) || \ (win == MYWINDOW_XWINDOW(c->buttons[MAXIMIZE_BUTTON])) || \ (win == MYWINDOW_XWINDOW(c->buttons[SHADE_BUTTON])) || \ (win == MYWINDOW_XWINDOW(c->buttons[STICK_BUTTON]))) #define DOUBLE_CLICK_GRAB (ButtonMotionMask | \ PointerMotionMask | \ ButtonPressMask | \ ButtonReleaseMask) static xfwmWindow menu_event_window; /* Forward decl. */ static eventFilterStatus handleEvent (DisplayInfo *display_info, XfwmEvent *event); static void menu_callback (Menu * menu, MenuOp op, Window xid, gpointer menu_data, gpointer item_data); static void show_window_menu (Client *c, gint px, gint py, guint button, guint32 time, gboolean needscale); static gboolean show_popup_cb (GtkWidget * widget, GdkEventButton * ev, gpointer data); static gboolean set_reload (DisplayInfo *display_info); typedef enum { XFWM_BUTTON_UNDEFINED = 0, XFWM_BUTTON_DRAG = 1, XFWM_BUTTON_CLICK = 2, XFWM_BUTTON_CLICK_AND_DRAG = 3, XFWM_BUTTON_DOUBLE_CLICK = 4 } XfwmButtonClickType; typedef struct _XfwmButtonClickData XfwmButtonClickData; struct _XfwmButtonClickData { DisplayInfo *display_info; Window w; guint button; guint clicks; guint timeout; gint x0; gint y0; guint t0; gint xcurrent; gint ycurrent; guint tcurrent; gint double_click_time; gint double_click_distance; gboolean allow_double_click; }; static gboolean typeOfClick_end (gpointer data) { XfwmButtonClickData *passdata; passdata = data; if (passdata->timeout) { g_source_remove (passdata->timeout); passdata->timeout = 0; } gtk_main_quit (); return FALSE; } static eventFilterStatus typeOfClick_event_filter (XfwmEvent *event, gpointer data) { XfwmButtonClickData *passdata; eventFilterStatus status; guint32 timestamp; gboolean keep_going; keep_going = TRUE; passdata = data; status = EVENT_FILTER_CONTINUE; /* Update the display time */ timestamp = myDisplayUpdateCurrentTime (passdata->display_info, event); if (timestamp) { passdata->tcurrent = timestamp; if (((gint) passdata->tcurrent - (gint) passdata->t0) > passdata->double_click_time) { keep_going = FALSE; } } if (event->meta.type == XFWM_EVENT_BUTTON) { if (event->button.button == passdata->button) { passdata->clicks++; } if (((XfwmButtonClickType) passdata->clicks == XFWM_BUTTON_DOUBLE_CLICK) || (!(passdata->allow_double_click) && (XfwmButtonClickType) passdata->clicks == XFWM_BUTTON_CLICK)) { keep_going = FALSE; } status = EVENT_FILTER_STOP; } else if (event->meta.type == XFWM_EVENT_MOTION) { passdata->xcurrent = event->motion.x_root; passdata->ycurrent = event->motion.y_root; if ((ABS (passdata->x0 - passdata->xcurrent) > passdata->double_click_distance) || (ABS (passdata->y0 - passdata->ycurrent) > passdata->double_click_distance)) { keep_going = FALSE; } status = EVENT_FILTER_STOP; } else if ((event->meta.xevent->type == DestroyNotify) || (event->meta.xevent->type == UnmapNotify)) { if (event->meta.window == passdata->w) { /* Discard, mark the click as undefined */ passdata->clicks = (guint) XFWM_BUTTON_UNDEFINED; keep_going = FALSE; } } if (!keep_going) { TRACE ("click type=%u", passdata->clicks); TRACE ("time=%ims (timeout=%ims)", (gint) passdata->tcurrent - (gint) passdata->t0, passdata->double_click_time); TRACE ("dist x=%i (max=%i)", ABS (passdata->x0 - passdata->xcurrent), passdata->double_click_distance); TRACE ("dist y=%i (max=%i)", ABS (passdata->y0 - passdata->ycurrent), passdata->double_click_distance); typeOfClick_end (data); } return status; } static XfwmButtonClickType typeOfClick (ScreenInfo *screen_info, Window w, XfwmEventButton *event, gboolean allow_double_click) { DisplayInfo *display_info; XfwmButtonClickData passdata; gboolean g; g_return_val_if_fail (screen_info != NULL, XFWM_BUTTON_UNDEFINED); g_return_val_if_fail (event != NULL, XFWM_BUTTON_UNDEFINED); g_return_val_if_fail (w != None, XFWM_BUTTON_UNDEFINED); display_info = screen_info->display_info; g = myScreenGrabPointer (screen_info, FALSE, DOUBLE_CLICK_GRAB, None, event->time); if (!g) { TRACE ("grab failed"); gdk_display_beep (display_info->gdisplay); myScreenUngrabPointer (screen_info, event->time); return XFWM_BUTTON_UNDEFINED; } passdata.display_info = display_info; passdata.button = event->button; passdata.w = w; passdata.x0 = event->x_root; passdata.y0 = event->y_root; passdata.t0 = event->time; passdata.xcurrent = passdata.x0; passdata.ycurrent = passdata.y0; passdata.tcurrent = passdata.t0; passdata.clicks = 1; passdata.allow_double_click = allow_double_click; passdata.double_click_time = display_info->double_click_time; passdata.double_click_distance = display_info->double_click_distance; TRACE ("double click time= %i, distance=%i\n", display_info->double_click_time, display_info->double_click_distance); passdata.timeout = g_timeout_add_full (G_PRIORITY_HIGH, display_info->double_click_time, typeOfClick_end, &passdata, NULL); TRACE ("entering loop"); eventFilterPush (display_info->xfilter, typeOfClick_event_filter, &passdata); gtk_main (); eventFilterPop (display_info->xfilter); TRACE ("leaving loop"); myScreenUngrabPointer (screen_info, myDisplayGetCurrentTime (display_info)); return (XfwmButtonClickType) passdata.clicks; } static void toggle_show_desktop (ScreenInfo *screen_info) { screen_info->show_desktop = !screen_info->show_desktop; setHint (screen_info->display_info, screen_info->xroot, NET_SHOWING_DESKTOP, screen_info->show_desktop); sendRootMessage (screen_info, NET_SHOWING_DESKTOP, screen_info->show_desktop, myDisplayGetCurrentTime (screen_info->display_info)); } static eventFilterStatus handleMotionNotify (DisplayInfo *display_info, XfwmEventMotion *event) { TRACE ("entering"); return EVENT_FILTER_REMOVE; } static eventFilterStatus handleKeyPress (DisplayInfo *display_info, XfwmEventKey *event) { eventFilterStatus status; ScreenInfo *screen_info; ScreenInfo *ev_screen_info; Client *c; int key; TRACE ("entering"); ev_screen_info = myDisplayGetScreenFromRoot (display_info, event->root); if (!ev_screen_info) { return EVENT_FILTER_PASS; } status = EVENT_FILTER_PASS; c = clientGetFocus (); if (c) { screen_info = c->screen_info; key = myScreenGetKeyPressed (screen_info, event); status = EVENT_FILTER_REMOVE; switch (key) { case KEY_MOVE: clientMove (c, NULL); break; case KEY_RESIZE: clientResize (c, CORNER_BOTTOM_RIGHT, NULL); break; case KEY_CYCLE_WINDOWS: case KEY_CYCLE_REVERSE_WINDOWS: clientCycle (c, event); break; case KEY_CLOSE_WINDOW: clientClose (c); break; case KEY_HIDE_WINDOW: if (CLIENT_CAN_HIDE_WINDOW (c)) { clientWithdraw (c, c->win_workspace, TRUE); } break; case KEY_MAXIMIZE_WINDOW: clientToggleMaximized (c, CLIENT_FLAG_MAXIMIZED, TRUE); break; case KEY_MAXIMIZE_VERT: clientToggleMaximized (c, CLIENT_FLAG_MAXIMIZED_VERT, TRUE); break; case KEY_MAXIMIZE_HORIZ: clientToggleMaximized (c, CLIENT_FLAG_MAXIMIZED_HORIZ, TRUE); break; case KEY_SHADE_WINDOW: clientToggleShaded (c); break; case KEY_STICK_WINDOW: if (FLAG_TEST(c->xfwm_flags, XFWM_FLAG_HAS_STICK)) { clientToggleSticky (c, TRUE); frameQueueDraw (c, FALSE); } break; case KEY_RAISE_WINDOW: clientRaise (c, None); break; case KEY_LOWER_WINDOW: clientLower (c, None); break; case KEY_RAISELOWER_WINDOW: if (clientIsTopMost (c)) { clientLower (c, None); } else { clientRaise (c, None); } break; case KEY_TOGGLE_ABOVE: clientToggleLayerAbove (c); break; case KEY_TOGGLE_FULLSCREEN: clientToggleFullscreen (c); break; case KEY_MOVE_NEXT_WORKSPACE: workspaceSwitch (screen_info, screen_info->current_ws + 1, c, TRUE, event->time); break; case KEY_MOVE_PREV_WORKSPACE: workspaceSwitch (screen_info, screen_info->current_ws - 1, c, TRUE, event->time); break; case KEY_MOVE_UP_WORKSPACE: workspaceMove (screen_info, -1, 0, c, event->time); break; case KEY_MOVE_DOWN_WORKSPACE: workspaceMove (screen_info, 1, 0, c, event->time); break; case KEY_MOVE_LEFT_WORKSPACE: workspaceMove (screen_info, 0, -1, c, event->time); break; case KEY_MOVE_RIGHT_WORKSPACE: workspaceMove (screen_info, 0, 1, c, event->time); break; case KEY_MOVE_WORKSPACE_1: case KEY_MOVE_WORKSPACE_2: case KEY_MOVE_WORKSPACE_3: case KEY_MOVE_WORKSPACE_4: case KEY_MOVE_WORKSPACE_5: case KEY_MOVE_WORKSPACE_6: case KEY_MOVE_WORKSPACE_7: case KEY_MOVE_WORKSPACE_8: case KEY_MOVE_WORKSPACE_9: case KEY_MOVE_WORKSPACE_10: case KEY_MOVE_WORKSPACE_11: case KEY_MOVE_WORKSPACE_12: if ((guint) (key - KEY_MOVE_WORKSPACE_1) < screen_info->workspace_count) { clientRaise (c, None); clientSetWorkspace (c, key - KEY_MOVE_WORKSPACE_1, TRUE); } break; case KEY_POPUP_MENU: show_window_menu (c, frameExtentX (c) + frameLeft (c), frameExtentY (c) + frameTop (c), Button1, event->time, TRUE); break; case KEY_FILL_WINDOW: clientFill (c, CLIENT_FILL); break; case KEY_FILL_VERT: clientFill (c, CLIENT_FILL_VERT); break; case KEY_FILL_HORIZ: clientFill (c, CLIENT_FILL_HORIZ); break; case KEY_TILE_DOWN: clientToggleTile (c, TILE_DOWN); break; case KEY_TILE_LEFT: clientToggleTile (c, TILE_LEFT); break; case KEY_TILE_RIGHT: clientToggleTile (c, TILE_RIGHT); break; case KEY_TILE_UP: clientToggleTile (c, TILE_UP); break; case KEY_TILE_DOWN_LEFT: clientToggleTile (c, TILE_DOWN_LEFT); break; case KEY_TILE_DOWN_RIGHT: clientToggleTile (c, TILE_DOWN_RIGHT); break; case KEY_TILE_UP_LEFT: clientToggleTile (c, TILE_UP_LEFT); break; case KEY_TILE_UP_RIGHT: clientToggleTile (c, TILE_UP_RIGHT); break; default: break; } } else { key = myScreenGetKeyPressed (ev_screen_info, event); switch (key) { case KEY_CYCLE_WINDOWS: status = EVENT_FILTER_REMOVE; if (ev_screen_info->clients) { clientCycle (ev_screen_info->clients->prev, event); } break; case KEY_CLOSE_WINDOW: status = EVENT_FILTER_REMOVE; if (display_info->session) { xfce_sm_client_request_shutdown(display_info->session, XFCE_SM_CLIENT_SHUTDOWN_HINT_LOGOUT); } break; default: break; } } switch (key) { case KEY_SWITCH_WINDOW: clientSwitchWindow (); break; case KEY_SWITCH_APPLICATION: clientSwitchApp (); break; case KEY_NEXT_WORKSPACE: status = EVENT_FILTER_REMOVE; workspaceSwitch (ev_screen_info, ev_screen_info->current_ws + 1, NULL, TRUE, event->time); break; case KEY_PREV_WORKSPACE: status = EVENT_FILTER_REMOVE; workspaceSwitch (ev_screen_info, ev_screen_info->current_ws - 1, NULL, TRUE, event->time); break; case KEY_UP_WORKSPACE: status = EVENT_FILTER_REMOVE; workspaceMove(ev_screen_info, -1, 0, NULL, event->time); break; case KEY_DOWN_WORKSPACE: status = EVENT_FILTER_REMOVE; workspaceMove(ev_screen_info, 1, 0, NULL, event->time); break; case KEY_LEFT_WORKSPACE: status = EVENT_FILTER_REMOVE; workspaceMove(ev_screen_info, 0, -1, NULL, event->time); break; case KEY_RIGHT_WORKSPACE: status = EVENT_FILTER_REMOVE; workspaceMove(ev_screen_info, 0, 1, NULL, event->time); break; case KEY_ADD_WORKSPACE: status = EVENT_FILTER_REMOVE; workspaceSetCount (ev_screen_info, ev_screen_info->workspace_count + 1); break; case KEY_DEL_WORKSPACE: status = EVENT_FILTER_REMOVE; workspaceSetCount (ev_screen_info, ev_screen_info->workspace_count - 1); break; case KEY_ADD_ADJACENT_WORKSPACE: workspaceInsert (ev_screen_info, ev_screen_info->current_ws + 1); break; case KEY_DEL_ACTIVE_WORKSPACE: workspaceDelete (ev_screen_info, ev_screen_info->current_ws); break; case KEY_WORKSPACE_1: case KEY_WORKSPACE_2: case KEY_WORKSPACE_3: case KEY_WORKSPACE_4: case KEY_WORKSPACE_5: case KEY_WORKSPACE_6: case KEY_WORKSPACE_7: case KEY_WORKSPACE_8: case KEY_WORKSPACE_9: case KEY_WORKSPACE_10: case KEY_WORKSPACE_11: case KEY_WORKSPACE_12: status = EVENT_FILTER_REMOVE; if ((guint) (key - KEY_WORKSPACE_1) < ev_screen_info->workspace_count) { workspaceSwitch (ev_screen_info, key - KEY_WORKSPACE_1, NULL, TRUE, event->time); } break; case KEY_SHOW_DESKTOP: status = EVENT_FILTER_REMOVE; toggle_show_desktop (ev_screen_info); break; default: break; } /* Release pending events */ XAllowEvents (display_info->dpy, SyncKeyboard, CurrentTime); return status; } static eventFilterStatus handleKeyRelease (DisplayInfo *display_info, XfwmEventKey *event) { TRACE ("entering"); /* Release pending events */ XAllowEvents (display_info->dpy, SyncKeyboard, CurrentTime); return EVENT_FILTER_PASS; } /* User has clicked on an edge or corner. * Button 1 : Raise and resize * Button 2 : Move * Button 3 : Resize */ static void edgeButton (Client *c, int part, XfwmEventButton *event) { ScreenInfo *screen_info; XfwmButtonClickType tclick; guint state; screen_info = c->screen_info; state = event->state & MODIFIER_MASK; if (event->button == Button2) { tclick = typeOfClick (screen_info, c->window, event, FALSE); if (tclick == XFWM_BUTTON_CLICK) { clientLower (c, None); } else if (tclick == XFWM_BUTTON_DRAG) { clientMove (c, event); } } else if ((event->button == Button1) || (event->button == Button3)) { if ((event->button == Button1) || ((screen_info->params->easy_click) && (state == screen_info->params->easy_click))) { if (!(c->type & WINDOW_TYPE_DONT_FOCUS)) { clientSetFocus (screen_info, c, event->time, NO_FOCUS_FLAG); } clientRaise (c, None); } tclick = typeOfClick (screen_info, c->window, event, TRUE); if (tclick == XFWM_BUTTON_DOUBLE_CLICK) { switch (part) { case CORNER_COUNT + SIDE_LEFT: case CORNER_COUNT + SIDE_RIGHT: clientFill(c, CLIENT_FILL_HORIZ); break; case CORNER_COUNT + SIDE_TOP: case CORNER_COUNT + SIDE_BOTTOM: clientFill(c, CLIENT_FILL_VERT); break; default: clientFill(c, CLIENT_FILL); break; } } else if (tclick == XFWM_BUTTON_DRAG) { clientResize (c, part, event); } } } static int edgeGetPart (Client *c, XfwmEventButton *event) { int part, x_corner_pixels, y_corner_pixels, x_distance, y_distance; /* Corner is 1/3 of the side */ x_corner_pixels = MAX(c->width / 3, 50); y_corner_pixels = MAX(c->height / 3, 50); /* Distance from event to edge of client window */ x_distance = c->width / 2 - abs(c->width / 2 - event->x); y_distance = c->height / 2 - abs(c->height / 2 - event->y); if (x_distance < x_corner_pixels && y_distance < y_corner_pixels) { /* In a corner */ if (event->x < c->width / 2) { if (event->y < c->height / 2) { part = CORNER_TOP_LEFT; } else { part = CORNER_BOTTOM_LEFT; } } else { if (event->y < c->height / 2) { part = CORNER_TOP_RIGHT; } else { part = CORNER_BOTTOM_RIGHT; } } } else { /* Not a corner - some side */ if (x_distance / x_corner_pixels < y_distance / y_corner_pixels) { /* Left or right side */ if (event->x < c->width / 2) { part = CORNER_COUNT + SIDE_LEFT; } else { part = CORNER_COUNT + SIDE_RIGHT; } } else { /* Top or bottom side */ if (event->y < c->height / 2) { part = CORNER_COUNT + SIDE_TOP; } else { part = CORNER_COUNT + SIDE_BOTTOM; } } } return part; } static void button1Action (Client *c, XfwmEventButton *event) { ScreenInfo *screen_info; XfwmButtonClickType tclick; g_return_if_fail (c != NULL); g_return_if_fail (event != NULL); screen_info = c->screen_info; if (!(c->type & WINDOW_TYPE_DONT_FOCUS)) { clientSetFocus (screen_info, c, event->time, NO_FOCUS_FLAG); } clientRaise (c, None); tclick = typeOfClick (screen_info, c->window, event, TRUE); if ((tclick == XFWM_BUTTON_DRAG) || (tclick == XFWM_BUTTON_CLICK_AND_DRAG)) { clientMove (c, event); } else if (tclick == XFWM_BUTTON_DOUBLE_CLICK) { switch (screen_info->params->double_click_action) { case DOUBLE_CLICK_ACTION_MAXIMIZE: clientToggleMaximized (c, CLIENT_FLAG_MAXIMIZED, TRUE); break; case DOUBLE_CLICK_ACTION_SHADE: clientToggleShaded (c); break; case DOUBLE_CLICK_ACTION_FILL: clientFill(c, CLIENT_FILL); break; case DOUBLE_CLICK_ACTION_HIDE: if (CLIENT_CAN_HIDE_WINDOW (c)) { clientWithdraw (c, c->win_workspace, TRUE); } break; case DOUBLE_CLICK_ACTION_ABOVE: clientToggleLayerAbove (c); break; default: break; } } } static void titleButton (Client *c, guint state, XfwmEventButton *event) { ScreenInfo *screen_info; g_return_if_fail (c != NULL); g_return_if_fail (event != NULL); /* Get Screen data from the client itself */ screen_info = c->screen_info; if (event->button == Button1) { button1Action (c, event); } else if (event->button == Button2) { clientLower (c, None); } else if (event->button == Button3) { XfwmButtonClickType tclick; tclick = typeOfClick (screen_info, c->window, event, FALSE); if (tclick == XFWM_BUTTON_DRAG) { clientMove (c, event); } else if (tclick != XFWM_BUTTON_UNDEFINED) { if (!(c->type & WINDOW_TYPE_DONT_FOCUS)) { clientSetFocus (screen_info, c, event->time, NO_FOCUS_FLAG); } if (screen_info->params->raise_on_click) { clientRaise (c, None); } xfwm_device_button_update_window (event, event->root); if (screen_info->button_handler_id) { g_signal_handler_disconnect (G_OBJECT (myScreenGetGtkWidget (screen_info)), screen_info->button_handler_id); } screen_info->button_handler_id = g_signal_connect (G_OBJECT (myScreenGetGtkWidget (screen_info)), "button_press_event", G_CALLBACK (show_popup_cb), (gpointer) c); /* Let GTK handle this for us. */ } } else if (event->button == Button4) { /* Mouse wheel scroll up */ #ifdef HAVE_COMPOSITOR if ((state) && (state == screen_info->params->easy_click) && compositorIsActive (screen_info)) { clientIncOpacity(c); } else #endif /* HAVE_COMPOSITOR */ if (!FLAG_TEST (c->flags, CLIENT_FLAG_SHADED)) { if (screen_info->params->mousewheel_rollup) { clientShade (c); } } } else if (event->button == Button5) { /* Mouse wheel scroll down */ #ifdef HAVE_COMPOSITOR if ((state) && (state == screen_info->params->easy_click) && compositorIsActive (screen_info)) { clientDecOpacity(c); } else #endif /* HAVE_COMPOSITOR */ if (FLAG_TEST (c->flags, CLIENT_FLAG_SHADED)) { if (screen_info->params->mousewheel_rollup) { clientUnshade (c); } } } #ifdef HAVE_COMPOSITOR else if (screen_info->params->horiz_scroll_opacity) { if (event->button == Button6) { /* Mouse wheel scroll left, or left side button */ clientDecOpacity(c); } else if (event->button == Button7) { /* Mouse wheel scroll right, or right side button */ clientIncOpacity(c); } } #endif /* HAVE_COMPOSITOR */ } static void rootScrollButton (DisplayInfo *display_info, XfwmEventButton *event) { static guint32 lastscroll = CurrentTime; ScreenInfo *screen_info; if ((event->time - lastscroll) < 25) /* ms */ { /* Too many events in too little time, drop this event... */ return; } lastscroll = event->time; /* Get the screen structure from the root of the event */ screen_info = myDisplayGetScreenFromRoot (display_info, event->root); if (!screen_info) { return; } if (event->button == Button4) { workspaceSwitch (screen_info, screen_info->current_ws - 1, NULL, TRUE, event->time); } else if (event->button == Button5) { workspaceSwitch (screen_info, screen_info->current_ws + 1, NULL, TRUE, event->time); } } static eventFilterStatus handleButtonPress (DisplayInfo *display_info, XfwmEventButton *event) { ScreenInfo *screen_info; Client *c; Window win; guint state, part; gboolean replay; TRACE ("entering"); replay = FALSE; c = myDisplayGetClientFromWindow (display_info, event->meta.window, SEARCH_FRAME | SEARCH_WINDOW); if (c) { state = event->state & MODIFIER_MASK; win = event->subwindow; screen_info = c->screen_info; if ((event->button == Button1) && (state) && (state == screen_info->params->easy_click)) { button1Action (c, event); } else if ((event->button == Button2) && (state) && (state == screen_info->params->easy_click)) { clientLower (c, None); } else if ((event->button == Button3) && (state) && (state == screen_info->params->easy_click)) { part = edgeGetPart (c, event); edgeButton (c, part, event); } #ifdef HAVE_COMPOSITOR else if ((event->button == Button4) && (screen_info->params->zoom_desktop) && (state) && (state == screen_info->params->easy_click) && compositorIsActive (screen_info)) { compositorZoomIn(screen_info, event); } else if ((event->button == Button5) && (screen_info->params->zoom_desktop) && (state) && (state == screen_info->params->easy_click) && compositorIsActive (screen_info)) { compositorZoomOut(screen_info, event); } #endif /* HAVE_COMPOSITOR */ else if ((event->button == Button8) && (state) && (state == screen_info->params->easy_click)) { workspaceSwitch (screen_info, screen_info->current_ws - 1, NULL, TRUE, event->time); } else if ((event->button == Button9) && (state) && (state == screen_info->params->easy_click)) { workspaceSwitch (screen_info, screen_info->current_ws + 1, NULL, TRUE, event->time); } else if (WIN_IS_BUTTON (win)) { if (event->button <= Button3) { if (!(c->type & WINDOW_TYPE_DONT_FOCUS)) { clientSetFocus (screen_info, c, event->time, NO_FOCUS_FLAG); } if (screen_info->params->raise_on_click) { clientClearDelayedRaise (); clientRaise (c, None); } clientButtonPress (c, win, event); } } else if (win == MYWINDOW_XWINDOW (c->title)) { titleButton (c, state, event); } else if (win == MYWINDOW_XWINDOW (c->buttons[MENU_BUTTON])) { if (event->button == Button1) { XfwmButtonClickType tclick; tclick = typeOfClick (screen_info, c->window, event, TRUE); if (tclick == XFWM_BUTTON_DOUBLE_CLICK) { clientClose (c); } else if (tclick != XFWM_BUTTON_UNDEFINED) { if (!(c->type & WINDOW_TYPE_DONT_FOCUS)) { clientSetFocus (screen_info, c, event->time, NO_FOCUS_FLAG); } if (screen_info->params->raise_on_click) { clientClearDelayedRaise (); clientRaise (c, None); } xfwm_device_button_update_window (event, event->root); if (screen_info->button_handler_id) { g_signal_handler_disconnect (G_OBJECT (myScreenGetGtkWidget (screen_info)), screen_info->button_handler_id); } screen_info->button_handler_id = g_signal_connect (G_OBJECT (myScreenGetGtkWidget (screen_info)), "button_press_event", G_CALLBACK (show_popup_cb), (gpointer) c); /* Let GTK handle this for us. */ } } } else if (win == MYWINDOW_XWINDOW (c->corners[CORNER_TOP_LEFT])) { edgeButton (c, CORNER_TOP_LEFT, event); } else if (win == MYWINDOW_XWINDOW (c->corners[CORNER_TOP_RIGHT])) { edgeButton (c, CORNER_TOP_RIGHT, event); } else if (win == MYWINDOW_XWINDOW (c->corners[CORNER_BOTTOM_LEFT])) { edgeButton (c, CORNER_BOTTOM_LEFT, event); } else if (win == MYWINDOW_XWINDOW (c->corners[CORNER_BOTTOM_RIGHT])) { edgeButton (c, CORNER_BOTTOM_RIGHT, event); } else if (win == MYWINDOW_XWINDOW (c->sides[SIDE_BOTTOM])) { edgeButton (c, CORNER_COUNT + SIDE_BOTTOM, event); } else if (win == MYWINDOW_XWINDOW (c->sides[SIDE_TOP])) { edgeButton (c, CORNER_COUNT + SIDE_TOP, event); } else if (win == MYWINDOW_XWINDOW (c->sides[SIDE_LEFT])) { edgeButton (c, CORNER_COUNT + SIDE_LEFT, event); } else if (win == MYWINDOW_XWINDOW (c->sides[SIDE_RIGHT])) { edgeButton (c, CORNER_COUNT + SIDE_RIGHT, event); } else if (event->meta.window == c->window) { replay = TRUE; if (((screen_info->params->raise_with_any_button) && (c->type & WINDOW_REGULAR_FOCUSABLE)) || (event->button == Button1)) { if (!(c->type & WINDOW_TYPE_DONT_FOCUS)) { clientSetFocus (screen_info, c, event->time, NO_FOCUS_FLAG); } if ((screen_info->params->raise_on_click) || !FLAG_TEST (c->xfwm_flags, XFWM_FLAG_HAS_BORDER)) { clientClearDelayedRaise (); clientRaise (c, None); } } } } else { /* The event did not occur in one of our known good clients... Get the screen structure from the root of the event. */ screen_info = myDisplayGetScreenFromRoot (display_info, event->root); if (screen_info) { if ((event->meta.window == screen_info->xroot) && (screen_info->params->scroll_workspaces) && ((event->button == Button4) || (event->button == Button5))) { rootScrollButton (display_info, event); } else { myDisplayErrorTrapPush (display_info); xfwm_device_ungrab (display_info->devices, &display_info->devices->pointer, display_info->dpy, event->time); XSendEvent (display_info->dpy, screen_info->xfwm4_win, FALSE, SubstructureNotifyMask, event->meta.xevent); myDisplayErrorTrapPopIgnored (display_info); } } } /* Release pending events */ XAllowEvents (display_info->dpy, replay ? ReplayPointer : SyncPointer, CurrentTime); return EVENT_FILTER_REMOVE; } static eventFilterStatus handleButtonRelease (DisplayInfo *display_info, XfwmEventButton *event) { ScreenInfo *screen_info; TRACE ("entering"); /* Get the screen structure from the root of the event */ screen_info = myDisplayGetScreenFromRoot (display_info, event->root); myDisplayErrorTrapPush (display_info); if (screen_info) { XSendEvent (display_info->dpy, screen_info->xfwm4_win, FALSE, SubstructureNotifyMask, (XEvent *) event->meta.xevent); } /* Release pending events */ XAllowEvents (display_info->dpy, SyncPointer, CurrentTime); myDisplayErrorTrapPopIgnored (display_info); return EVENT_FILTER_REMOVE; } static eventFilterStatus handleDestroyNotify (DisplayInfo *display_info, XDestroyWindowEvent * ev) { eventFilterStatus status; GList *list_of_windows; Client *c; #ifdef ENABLE_KDE_SYSTRAY_PROXY ScreenInfo *screen_info; #endif TRACE ("window (0x%lx)", ev->window); status = EVENT_FILTER_PASS; #ifdef ENABLE_KDE_SYSTRAY_PROXY screen_info = myDisplayGetScreenFromSystray (display_info, ev->window); if (screen_info) { /* systray window is gone */ screen_info->systray = None; return EVENT_FILTER_REMOVE; } #endif c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_WINDOW); if (c) { TRACE ("client \"%s\" (0x%lx)", c->name, c->window); list_of_windows = clientListTransientOrModal (c); clientPassFocus (c->screen_info, c, list_of_windows); clientUnframe (c, FALSE); g_list_free (list_of_windows); status = EVENT_FILTER_REMOVE; } return status; } static eventFilterStatus handleMapRequest (DisplayInfo *display_info, XMapRequestEvent * ev) { eventFilterStatus status; Client *c; TRACE ("window (0x%lx)", ev->window); status = EVENT_FILTER_PASS; if (ev->window == None) { TRACE ("mapping None ???"); return status; } c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_WINDOW); if (c) { ScreenInfo *screen_info = c->screen_info; if (FLAG_TEST (c->xfwm_flags, XFWM_FLAG_MAP_PENDING)) { TRACE ("ignoring MapRequest on window (0x%lx)", ev->window); } if (FLAG_TEST (c->xfwm_flags, XFWM_FLAG_WAS_SHOWN)) { clientClearAllShowDesktop (screen_info); } clientShow (c, TRUE); if (FLAG_TEST (c->flags, CLIENT_FLAG_STICKY) || (c->win_workspace == screen_info->current_ws)) { clientFocusNew(c); } } else { clientFrame (display_info, ev->window, FALSE); } status = EVENT_FILTER_REMOVE; return status; } static eventFilterStatus handleMapNotify (DisplayInfo *display_info, XMapEvent * ev) { Client *c; TRACE ("window (0x%lx)", ev->window); c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_WINDOW); if (c) { TRACE ("client \"%s\" (0x%lx)", c->name, c->window); if (FLAG_TEST (c->xfwm_flags, XFWM_FLAG_MAP_PENDING)) { FLAG_UNSET (c->xfwm_flags, XFWM_FLAG_MAP_PENDING); } return EVENT_FILTER_REMOVE; } return EVENT_FILTER_PASS; } static eventFilterStatus handleUnmapNotify (DisplayInfo *display_info, XUnmapEvent * ev) { eventFilterStatus status; ScreenInfo *screen_info; GList *list_of_windows; Client *c; TRACE ("window (0x%lx)", ev->window); status = EVENT_FILTER_PASS; if (ev->from_configure) { TRACE ("ignoring UnmapNotify caused by parent's resize"); return status; } c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_WINDOW); if (c) { TRACE ("client \"%s\" (0x%lx) ignore_unmap %i", c->name, c->window, c->ignore_unmap); screen_info = c->screen_info; if ((ev->event != ev->window) && (ev->event != screen_info->xroot || !ev->send_event)) { TRACE ("event ignored"); return status; } status = EVENT_FILTER_REMOVE; if (FLAG_TEST (c->xfwm_flags, XFWM_FLAG_MAP_PENDING)) { /* * This UnmapNotify event is caused by reparenting * so we just ignore it, so the window won't return * to withdrawn state by mistake. */ TRACE ("client \"%s\" is not mapped, event ignored", c->name); return status; } /* * ICCCM spec states that a client wishing to switch * to WithdrawnState should send a synthetic UnmapNotify * with the event field set to root if the client window * is already unmapped. * Therefore, bypass the ignore_unmap counter and * unframe the client. */ if ((ev->event == screen_info->xroot) && (ev->send_event)) { if (!FLAG_TEST (c->xfwm_flags, XFWM_FLAG_VISIBLE)) { TRACE ("ICCCM UnmapNotify for \"%s\"", c->name); list_of_windows = clientListTransientOrModal (c); clientPassFocus (screen_info, c, list_of_windows); clientUnframe (c, FALSE); g_list_free (list_of_windows); } return status; } if (c->ignore_unmap) { c->ignore_unmap--; TRACE ("ignore_unmap for \"%s\" is now %i", c->name, c->ignore_unmap); } else { TRACE ("unmapping \"%s\" as ignore_unmap is %i", c->name, c->ignore_unmap); list_of_windows = clientListTransientOrModal (c); clientPassFocus (screen_info, c, list_of_windows); clientUnframe (c, FALSE); g_list_free (list_of_windows); } } return status; } static eventFilterStatus handleConfigureNotify (DisplayInfo *display_info, XConfigureEvent * ev) { TRACE ("entering"); return EVENT_FILTER_PASS; } static eventFilterStatus handleConfigureRequest (DisplayInfo *display_info, XConfigureRequestEvent * ev) { Client *c; XWindowChanges wc; TRACE ("window (0x%lx)", ev->window); wc.x = ev->x; wc.y = ev->y; wc.width = ev->width; wc.height = ev->height; wc.sibling = ev->above; wc.stack_mode = ev->detail; wc.border_width = ev->border_width; c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_WINDOW); if (!c) { /* Some app tend or try to manipulate the wm frame to achieve fullscreen mode */ c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_FRAME); if (c) { TRACE ("client %s (0x%lx) is attempting to manipulate its frame!", c->name, c->window); if (ev->value_mask & CWX) { wc.x += frameLeft (c); } if (ev->value_mask & CWY) { wc.y += frameTop (c); } if (ev->value_mask & CWWidth) { wc.width -= frameLeft (c) + frameRight (c); } if (ev->value_mask & CWHeight) { wc.height -= frameTop (c) + frameBottom (c); } /* We don't allow changing stacking order by accessing the frame window because that would break the layer management in xfwm4 */ ev->value_mask &= ~(CWSibling | CWStackMode); } } if (c) { TRACE ("window \"%s\" (0x%lx)", c->name, c->window); if (FLAG_TEST (c->xfwm_flags, XFWM_FLAG_MOVING_RESIZING)) { /* Sorry, but it's not the right time for configure request */ return EVENT_FILTER_REMOVE; } clientAdjustCoordGravity (c, c->gravity, &wc, &ev->value_mask); clientMoveResizeWindow (c, &wc, ev->value_mask); } else { TRACE ("unmanaged configure request for window 0x%lx", ev->window); myDisplayErrorTrapPush (display_info); XConfigureWindow (display_info->dpy, ev->window, ev->value_mask, &wc); myDisplayErrorTrapPopIgnored (display_info); } return EVENT_FILTER_REMOVE; } static eventFilterStatus handleEnterNotify (DisplayInfo *display_info, XfwmEventCrossing *event) { ScreenInfo *screen_info; Client *c; int b; gboolean need_redraw; /* See http://rfc-ref.org/RFC-TEXTS/1013/chapter12.html for details */ TRACE ("entering"); if ((event->mode == NotifyGrab) || (event->mode == NotifyUngrab) || (event->detail > NotifyNonlinearVirtual)) { /* We're not interested in such notifications */ return EVENT_FILTER_PASS; } TRACE ("window (0x%lx)", event->meta.window); need_redraw = FALSE; c = myDisplayGetClientFromWindow (display_info, event->meta.window, SEARCH_FRAME | SEARCH_BUTTON); if (c) { screen_info = c->screen_info; TRACE ("client \"%s\"", c->name); if (!(screen_info->params->click_to_focus) && clientAcceptFocus (c)) { if (!(c->type & (WINDOW_DOCK | WINDOW_DESKTOP))) { if(screen_info->params->focus_delay) { clientClearDelayedFocus (); clientAddDelayedFocus (c, event->time); } else { clientSetFocus (c->screen_info, c, event->time, NO_FOCUS_FLAG); } } else { clientClearDelayedFocus (); } } if (c == clientGetFocus ()) { for (b = 0; b < BUTTON_COUNT; b++) { if (MYWINDOW_XWINDOW(c->buttons[b]) == event->meta.window) { if (!xfwmPixmapNone(clientGetButtonPixmap(c, b, PRELIGHT))) { c->button_status[b] = BUTTON_STATE_PRELIGHT; need_redraw = TRUE; } } } if (need_redraw) { frameQueueDraw (c, FALSE); } } /* No need to process the event any further */ return EVENT_FILTER_REMOVE; } /* The event was not for a client window */ if (display_info->nb_screens > 1) { /* Wrap workspace/wrap windows is disabled with multiscreen */ return EVENT_FILTER_REMOVE; } /* Get the screen structure from the root of the event */ screen_info = myDisplayGetScreenFromRoot (display_info, event->root); if (!screen_info) { return EVENT_FILTER_PASS; } if (screen_info->params->wrap_workspaces && screen_info->workspace_count > 1) { clientMoveWarp (NULL, screen_info, &event->x_root, &event->y_root, event->time); } return EVENT_FILTER_REMOVE; } static eventFilterStatus handleLeaveNotify (DisplayInfo *display_info, XfwmEventCrossing *event) { Client *c; int b; gboolean need_redraw; TRACE ("entering"); need_redraw = FALSE; c = myDisplayGetClientFromWindow (display_info, event->meta.window, SEARCH_FRAME | SEARCH_BUTTON); if (c) { for (b = 0; b < BUTTON_COUNT; b++) { if ((c->button_status[b] == BUTTON_STATE_PRELIGHT) || (c->button_status[b] == BUTTON_STATE_PRESSED)) { if (MYWINDOW_XWINDOW(c->buttons[b]) == event->meta.window) { c->button_status[b] = BUTTON_STATE_NORMAL; need_redraw = TRUE; } } } if (need_redraw) { frameQueueDraw (c, FALSE); } /* No need to process the event any further */ return EVENT_FILTER_REMOVE; } return EVENT_FILTER_PASS; } static eventFilterStatus handleFocusIn (DisplayInfo *display_info, XFocusChangeEvent * ev) { ScreenInfo *screen_info; Client *c, *user_focus, *current_focus; /* See http://rfc-ref.org/RFC-TEXTS/1013/chapter12.html for details */ TRACE ("window (0x%lx) mode = %s", ev->window, (ev->mode == NotifyNormal) ? "NotifyNormal" : (ev->mode == NotifyWhileGrabbed) ? "NotifyWhileGrabbed" : (ev->mode == NotifyGrab) ? "NotifyGrab" : (ev->mode == NotifyUngrab) ? "NotifyUngrab" : "(unknown)"); TRACE ("window (0x%lx) detail = %s", ev->window, (ev->detail == NotifyAncestor) ? "NotifyAncestor" : (ev->detail == NotifyVirtual) ? "NotifyVirtual" : (ev->detail == NotifyInferior) ? "NotifyInferior" : (ev->detail == NotifyNonlinear) ? "NotifyNonlinear" : (ev->detail == NotifyNonlinearVirtual) ? "NotifyNonlinearVirtual" : (ev->detail == NotifyPointer) ? "NotifyPointer" : (ev->detail == NotifyPointerRoot) ? "NotifyPointerRoot" : (ev->detail == NotifyDetailNone) ? "NotifyDetailNone" : "(unknown)"); if ((ev->mode == NotifyGrab) || (ev->mode == NotifyUngrab)) { /* We're not interested in such notifications */ return EVENT_FILTER_PASS; } screen_info = myDisplayGetScreenFromWindow (display_info, ev->window); if (screen_info && ((ev->detail == NotifyDetailNone) || ((ev->mode == NotifyNormal) && (ev->detail == NotifyInferior)))) { /* Handle unexpected focus transition to root (means that an unknown window has vanished and the focus is returned to the root). */ c = clientGetFocusOrPending (); clientSetFocus (screen_info, c, getXServerTime (display_info), FOCUS_FORCE); return EVENT_FILTER_PASS; } c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_FRAME | SEARCH_WINDOW); user_focus = clientGetUserFocus (); current_focus = clientGetFocus (); TRACE ("window (0x%lx)", ev->window); if ((c) && (c != current_focus) && (FLAG_TEST (c->xfwm_flags, XFWM_FLAG_VISIBLE))) { TRACE ("focus transfered to \"%s\" (0x%lx)", c->name, c->window); screen_info = c->screen_info; clientUpdateFocus (screen_info, c, FOCUS_SORT); if ((user_focus != c) && (user_focus != NULL)) { /* Focus stealing prevention: Some apps tend to focus the window directly. If focus stealing prevention is enabled, we revert the user set focus to the window that we think has focus and then set the demand attention flag. Note that focus stealing prevention is ignored between windows of the same group or between windows that have a transient relationship, as some apps tend to play with focus with their "own" windows. */ if (screen_info->params->prevent_focus_stealing && !clientSameGroup (c, user_focus) && !clientIsTransientOrModalFor (c, user_focus)) { TRACE ("setting focus back to \"%s\" (0x%lx)", user_focus->name, user_focus->window); clientSetFocus (user_focus->screen_info, user_focus, getXServerTime (display_info), NO_FOCUS_FLAG); if (current_focus) { TRACE ("setting WM_STATE_DEMANDS_ATTENTION flag on \"%s\" (0x%lx)", c->name, c->window); FLAG_SET (c->flags, CLIENT_FLAG_DEMANDS_ATTENTION); clientSetNetState (c); } } } } return EVENT_FILTER_REMOVE; } static eventFilterStatus handleFocusOut (DisplayInfo *display_info, XFocusChangeEvent * ev) { Client *c; /* See http://rfc-ref.org/RFC-TEXTS/1013/chapter12.html for details */ TRACE ("window (0x%lx) mode = %s", ev->window, (ev->mode == NotifyNormal) ? "NotifyNormal" : (ev->mode == NotifyWhileGrabbed) ? "NotifyWhileGrabbed" : "(unknown)"); TRACE ("window (0x%lx) detail = %s", ev->window, (ev->detail == NotifyAncestor) ? "NotifyAncestor" : (ev->detail == NotifyVirtual) ? "NotifyVirtual" : (ev->detail == NotifyInferior) ? "NotifyInferior" : (ev->detail == NotifyNonlinear) ? "NotifyNonlinear" : (ev->detail == NotifyNonlinearVirtual) ? "NotifyNonlinearVirtual" : (ev->detail == NotifyPointer) ? "NotifyPointer" : (ev->detail == NotifyPointerRoot) ? "NotifyPointerRoot" : (ev->detail == NotifyDetailNone) ? "NotifyDetailNone" : "(unknown)"); if ((ev->mode == NotifyGrab) || (ev->mode == NotifyUngrab) || (ev->detail == NotifyInferior) || (ev->detail > NotifyNonlinearVirtual)) { /* We're not interested in such notifications */ return EVENT_FILTER_PASS; } if ((ev->mode == NotifyNormal) && ((ev->detail == NotifyNonlinear) || (ev->detail == NotifyNonlinearVirtual))) { c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_FRAME | SEARCH_WINDOW); TRACE ("window (0x%lx)", ev->window); if ((c) && (c == clientGetFocus ())) { TRACE ("focus lost from \"%s\" (0x%lx)", c->name, c->window); clientUpdateFocus (c->screen_info, NULL, NO_FOCUS_FLAG); clientClearDelayedRaise (); } } return EVENT_FILTER_REMOVE; } static eventFilterStatus handlePropertyNotify (DisplayInfo *display_info, XPropertyEvent * ev) { eventFilterStatus status; ScreenInfo *screen_info; Client *c; TRACE ("entering"); status = EVENT_FILTER_PASS; c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_WINDOW | SEARCH_WIN_USER_TIME); if (c) { status = EVENT_FILTER_REMOVE; screen_info = c->screen_info; if (ev->atom == XA_WM_NORMAL_HINTS) { TRACE ("client \"%s\" (0x%lx) has received a XA_WM_NORMAL_HINTS notify", c->name, c->window); clientGetWMNormalHints (c, TRUE); } else if ((ev->atom == XA_WM_NAME) || (ev->atom == display_info->atoms[NET_WM_NAME]) || (ev->atom == display_info->atoms[WM_CLIENT_MACHINE])) { TRACE ("client \"%s\" (0x%lx) has received a XA_WM_NAME/NET_WM_NAME/WM_CLIENT_MACHINE notify", c->name, c->window); clientUpdateName (c); } else if (ev->atom == display_info->atoms[MOTIF_WM_HINTS]) { TRACE ("client \"%s\" (0x%lx) has received a MOTIF_WM_HINTS notify", c->name, c->window); clientGetMWMHints (c); clientApplyMWMHints (c, TRUE); } else if (ev->atom == XA_WM_HINTS) { TRACE ("client \"%s\" (0x%lx) has received a XA_WM_HINTS notify", c->name, c->window); /* Free previous wmhints if any */ if (c->wmhints) { XFree (c->wmhints); } myDisplayErrorTrapPush (display_info); c->wmhints = XGetWMHints (display_info->dpy, c->window); myDisplayErrorTrapPopIgnored (display_info); if (c->wmhints) { if (c->wmhints->flags & WindowGroupHint) { c->group_leader = c->wmhints->window_group; } if ((c->wmhints->flags & IconPixmapHint) && (screen_info->params->show_app_icon)) { clientUpdateIcon (c); } if (HINTS_ACCEPT_INPUT (c->wmhints)) { FLAG_SET (c->wm_flags, WM_FLAG_INPUT); } else { FLAG_UNSET (c->wm_flags, WM_FLAG_INPUT); } } clientUpdateUrgency (c); } else if (ev->atom == display_info->atoms[WM_PROTOCOLS]) { TRACE ("client \"%s\" (0x%lx) has received a WM_PROTOCOLS notify", c->name, c->window); clientGetWMProtocols (c); } else if (ev->atom == display_info->atoms[WM_TRANSIENT_FOR]) { Window w; TRACE ("client \"%s\" (0x%lx) has received a WM_TRANSIENT_FOR notify", c->name, c->window); c->transient_for = None; getTransientFor (display_info, c->screen_info->xroot, c->window, &w); if (clientCheckTransientWindow (c, w)) { c->transient_for = w; } /* Recompute window type as it may have changed */ clientWindowType (c); } else if (ev->atom == display_info->atoms[NET_WM_WINDOW_TYPE]) { TRACE ("client \"%s\" (0x%lx) has received a NET_WM_WINDOW_TYPE notify", c->name, c->window); clientGetNetWmType (c); frameQueueDraw (c, TRUE); } else if ((ev->atom == display_info->atoms[NET_WM_STRUT]) || (ev->atom == display_info->atoms[NET_WM_STRUT_PARTIAL])) { TRACE ("client \"%s\" (0x%lx) has received a NET_WM_STRUT notify", c->name, c->window); if (clientGetNetStruts (c) && FLAG_TEST (c->xfwm_flags, XFWM_FLAG_VISIBLE)) { workspaceUpdateArea (c->screen_info); } } else if (ev->atom == display_info->atoms[WM_COLORMAP_WINDOWS]) { TRACE ("client \"%s\" (0x%lx) has received a WM_COLORMAP_WINDOWS notify", c->name, c->window); clientUpdateColormaps (c); if (c == clientGetFocus ()) { clientInstallColormaps (c); } } else if (ev->atom == display_info->atoms[NET_WM_USER_TIME]) { TRACE ("client \"%s\" (0x%lx) has received a NET_WM_USER_TIME notify", c->name, c->window); clientGetUserTime (c); } else if (ev->atom == display_info->atoms[NET_WM_USER_TIME_WINDOW]) { TRACE ("client \"%s\" (0x%lx) has received a NET_WM_USER_TIME_WINDOW notify", c->name, c->window); clientRemoveUserTimeWin (c); c->user_time_win = getNetWMUserTimeWindow(display_info, c->window); clientAddUserTimeWin (c); } else if (ev->atom == display_info->atoms[NET_WM_PID]) { TRACE ("client \"%s\" (0x%lx) has received a NET_WM_PID notify", c->name, c->window); if (c->pid == 0) { c->pid = getWindowPID (display_info, c->window); TRACE ("client \"%s\" (0x%lx) updated PID = %i", c->name, c->window, c->pid); } } else if (ev->atom == display_info->atoms[NET_WM_WINDOW_OPACITY]) { TRACE ("client \"%s\" (0x%lx) has received a NET_WM_WINDOW_OPACITY notify", c->name, c->window); if (!getOpacity (display_info, c->window, &c->opacity)) { c->opacity = NET_WM_OPAQUE; } clientSetOpacity (c, c->opacity, 0, 0); } else if (ev->atom == display_info->atoms[NET_WM_WINDOW_OPACITY_LOCKED]) { TRACE ("client \"%s\" (0x%lx) has received a NET_WM_WINDOW_OPACITY_LOCKED notify", c->name, c->window); if (getOpacityLock (display_info, c->window)) { FLAG_SET (c->xfwm_flags, XFWM_FLAG_OPACITY_LOCKED); } else { FLAG_UNSET (c->xfwm_flags, XFWM_FLAG_OPACITY_LOCKED); } } else if ((screen_info->params->show_app_icon) && ((ev->atom == display_info->atoms[NET_WM_ICON]) || (ev->atom == display_info->atoms[KWM_WIN_ICON]))) { clientUpdateIcon (c); } else if (ev->atom == display_info->atoms[GTK_FRAME_EXTENTS]) { TRACE ("client \"%s\" (0x%lx) has received a GTK_FRAME_EXTENTS notify", c->name, c->window); if (clientGetGtkFrameExtents (c)) { if (FLAG_TEST (c->flags, CLIENT_FLAG_MAXIMIZED)) { clientUpdateMaximizeSize (c); } else if (c->tile_mode != TILE_NONE) { clientUpdateTileSize (c); } } } else if (ev->atom == display_info->atoms[GTK_HIDE_TITLEBAR_WHEN_MAXIMIZED]) { TRACE ("client \"%s\" (0x%lx) has received a GTK_HIDE_TITLEBAR_WHEN_MAXIMIZED notify", c->name, c->window); if (clientGetGtkHideTitlebar (c)) { if (FLAG_TEST (c->flags, CLIENT_FLAG_MAXIMIZED)) { clientUpdateMaximizeSize (c); clientReconfigure (c, CFG_FORCE_REDRAW); } } } #ifdef HAVE_STARTUP_NOTIFICATION else if (ev->atom == display_info->atoms[NET_STARTUP_ID]) { if (c->startup_id) { g_free (c->startup_id); c->startup_id = NULL; } getWindowStartupId (display_info, c->window, &c->startup_id); } #endif /* HAVE_STARTUP_NOTIFICATION */ #ifdef HAVE_XSYNC else if (ev->atom == display_info->atoms[NET_WM_SYNC_REQUEST_COUNTER]) { TRACE ("window 0x%lx has received NET_WM_SYNC_REQUEST_COUNTER", c->window); clientGetXSyncCounter (c); } #endif /* HAVE_XSYNC */ return status; } screen_info = myDisplayGetScreenFromWindow (display_info, ev->window); if (!screen_info) { return status; } if (ev->atom == display_info->atoms[NET_DESKTOP_NAMES]) { gchar **names; guint items; TRACE ("root has received a NET_DESKTOP_NAMES notify"); if (getUTF8StringList (display_info, screen_info->xroot, NET_DESKTOP_NAMES, &names, &items)) { workspaceSetNames (screen_info, names, items); } } else if (ev->atom == display_info->atoms[NET_DESKTOP_LAYOUT]) { TRACE ("root has received a NET_DESKTOP_LAYOUT notify"); getDesktopLayout(display_info, screen_info->xroot, screen_info->workspace_count, &screen_info->desktop_layout); placeSidewalks(screen_info, screen_info->params->wrap_workspaces); } return status; } static eventFilterStatus handleClientMessage (DisplayInfo *display_info, XClientMessageEvent * ev) { eventFilterStatus status; ScreenInfo *screen_info; Client *c; TRACE ("window (0x%lx)", ev->window); if (ev->window == None) { /* Some do not set the window member, not much we can do without */ return EVENT_FILTER_PASS; } status = EVENT_FILTER_PASS; c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_WINDOW); if (c) { status = EVENT_FILTER_REMOVE; if ((ev->message_type == display_info->atoms[WM_CHANGE_STATE]) && (ev->format == 32) && (ev->data.l[0] == IconicState)) { TRACE ("client \"%s\" (0x%lx) has received a WM_CHANGE_STATE event", c->name, c->window); if (!FLAG_TEST (c->flags, CLIENT_FLAG_ICONIFIED)) { clientWithdraw (c, c->win_workspace, TRUE); } } else if ((ev->message_type == display_info->atoms[NET_WM_DESKTOP]) && (ev->format == 32)) { TRACE ("client \"%s\" (0x%lx) has received a NET_WM_DESKTOP event", c->name, c->window); clientUpdateNetWmDesktop (c, ev); } else if ((ev->message_type == display_info->atoms[NET_CLOSE_WINDOW]) && (ev->format == 32)) { TRACE ("client \"%s\" (0x%lx) has received a NET_CLOSE_WINDOW event", c->name, c->window); clientClose (c); } else if ((ev->message_type == display_info->atoms[NET_WM_STATE]) && (ev->format == 32)) { TRACE ("client \"%s\" (0x%lx) has received a NET_WM_STATE event", c->name, c->window); clientUpdateNetState (c, ev); } else if ((ev->message_type == display_info->atoms[NET_WM_MOVERESIZE]) && (ev->format == 32)) { TRACE ("client \"%s\" (0x%lx) has received a NET_WM_MOVERESIZE event", c->name, c->window); clientNetMoveResize (c, ev); } else if ((ev->message_type == display_info->atoms[NET_MOVERESIZE_WINDOW]) && (ev->format == 32)) { TRACE ("client \"%s\" (0x%lx) has received a NET_MOVERESIZE_WINDOW event", c->name, c->window); clientNetMoveResizeWindow (c, ev); } else if ((ev->message_type == display_info->atoms[NET_ACTIVE_WINDOW]) && (ev->format == 32)) { TRACE ("client \"%s\" (0x%lx) has received a NET_ACTIVE_WINDOW event", c->name, c->window); clientHandleNetActiveWindow (c, (guint32) ev->data.l[1], (gboolean) (ev->data.l[0] == 1)); } else if (ev->message_type == display_info->atoms[NET_REQUEST_FRAME_EXTENTS]) { TRACE ("client \"%s\" (0x%lx) has received a NET_REQUEST_FRAME_EXTENTS event", c->name, c->window); setNetFrameExtents (display_info, c->window, frameTop (c), frameLeft (c), frameRight (c), frameBottom (c)); } else if (ev->message_type == display_info->atoms[NET_WM_FULLSCREEN_MONITORS]) { TRACE ("client \"%s\" (0x%lx) has received a NET_WM_FULLSCREEN_MONITORS event", c->name, c->window); clientSetFullscreenMonitor (c, (gint) ev->data.l[0], (gint) ev->data.l[1], (gint) ev->data.l[2], (gint) ev->data.l[3]); } else if ((ev->message_type == display_info->atoms[GTK_SHOW_WINDOW_MENU]) && (ev->format == 32)) { TRACE ("client \"%s\" (0x%lx) has received a GTK_SHOW_WINDOW_MENU event", c->name, c->window); show_window_menu (c, (gint) ev->data.l[1], (gint) ev->data.l[2], Button3, (Time) myDisplayGetCurrentTime (display_info), TRUE); } } else { screen_info = myDisplayGetScreenFromWindow (display_info, ev->window); if (!screen_info) { return status; } status = EVENT_FILTER_REMOVE; if ((ev->message_type == display_info->atoms[NET_CURRENT_DESKTOP]) && (ev->format == 32)) { TRACE ("root has received a win_workspace or a NET_CURRENT_DESKTOP event %li", ev->data.l[0]); if ((ev->data.l[0] >= 0) && (ev->data.l[0] < (long) screen_info->workspace_count) && (ev->data.l[0] != (long) screen_info->current_ws)) { workspaceSwitch (screen_info, ev->data.l[0], NULL, TRUE, myDisplayGetTime (display_info, (guint32) ev->data.l[1])); } } else if ((ev->message_type == display_info->atoms[NET_NUMBER_OF_DESKTOPS]) && (ev->format == 32)) { TRACE ("root has received a win_workspace_count event"); if (ev->data.l[0] != (long) screen_info->workspace_count) { workspaceSetCount (screen_info, ev->data.l[0]); getDesktopLayout(display_info, screen_info->xroot, screen_info->workspace_count, &screen_info->desktop_layout); } } else if ((ev->message_type == display_info->atoms[NET_SHOWING_DESKTOP]) && (ev->format == 32)) { TRACE ("root has received a NET_SHOWING_DESKTOP event"); screen_info->show_desktop = (ev->data.l[0] != 0); clientToggleShowDesktop (screen_info); setHint (display_info, screen_info->xroot, NET_SHOWING_DESKTOP, ev->data.l[0]); } else if (ev->message_type == display_info->atoms[NET_REQUEST_FRAME_EXTENTS]) { TRACE ("window (0x%lx) has received a NET_REQUEST_FRAME_EXTENTS event", ev->window); /* Size estimate from the decoration extents */ setNetFrameExtents (display_info, ev->window, frameDecorationTop (screen_info), frameDecorationLeft (screen_info), frameDecorationRight (screen_info), frameDecorationBottom (screen_info)); } else if ((ev->message_type == display_info->atoms[MANAGER]) && (ev->format == 32)) { Atom selection; TRACE ("window (0x%lx) has received a MANAGER event", ev->window); selection = (Atom) ev->data.l[1]; #ifdef ENABLE_KDE_SYSTRAY_PROXY if (selection == screen_info->net_system_tray_selection) { TRACE ("root has received a NET_SYSTEM_TRAY_MANAGER selection event"); screen_info->systray = getSystrayWindow (display_info, screen_info->net_system_tray_selection); } else #endif if (myScreenCheckWMAtom (screen_info, selection)) { TRACE ("root has received a WM_Sn selection event"); display_info->quit = TRUE; } } else if (ev->message_type == display_info->atoms[WM_PROTOCOLS]) { if ((Atom) ev->data.l[0] == display_info->atoms[NET_WM_PING]) { TRACE ("root has received a NET_WM_PING (pong) event\n"); clientReceiveNetWMPong (screen_info, (guint32) ev->data.l[1]); } } else if (ev->message_type == display_info->atoms[GTK_READ_RCFILES]) { TRACE ("window (0x%lx) has received a GTK_READ_RCFILES event", ev->window); set_reload (display_info); } else { TRACE ("unidentified client message for window 0x%lx", ev->window); } } return status; } static eventFilterStatus handleSelectionClear (DisplayInfo *display_info, XSelectionClearEvent * ev) { eventFilterStatus status; ScreenInfo *screen_info, *pscreen; GSList *list; DBG ("entering handleSelectionClear 0x%lx", ev->window); status = EVENT_FILTER_PASS; screen_info = NULL; for (list = display_info->screens; list; list = g_slist_next (list)) { pscreen = (ScreenInfo *) list->data; if (ev->window == pscreen->xfwm4_win) { screen_info = pscreen; break; } } if (screen_info) { if (myScreenCheckWMAtom (screen_info, ev->selection)) { TRACE ("root has received a WM_Sn selection event"); display_info->quit = TRUE; status = EVENT_FILTER_REMOVE; } } return status; } static eventFilterStatus handleShape (DisplayInfo *display_info, XShapeEvent * ev) { Client *c; gboolean update; TRACE ("entering"); c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_WINDOW); if (c) { update = FALSE; if (ev->kind == ShapeInput) { frameSetShapeInput (c); update = TRUE; } else if (ev->kind == ShapeBounding) { if ((ev->shaped) && !FLAG_TEST (c->flags, CLIENT_FLAG_HAS_SHAPE)) { update = TRUE; FLAG_SET (c->flags, CLIENT_FLAG_HAS_SHAPE); clientGetMWMHints (c); clientApplyMWMHints (c, TRUE); } else if (!(ev->shaped) && FLAG_TEST (c->flags, CLIENT_FLAG_HAS_SHAPE)) { update = TRUE; FLAG_UNSET (c->flags, CLIENT_FLAG_HAS_SHAPE); clientGetMWMHints (c); clientApplyMWMHints (c, TRUE); } } if (!update) { frameQueueDraw (c, FALSE); } } return EVENT_FILTER_REMOVE; } static eventFilterStatus handleColormapNotify (DisplayInfo *display_info, XColormapEvent * ev) { Client *c; TRACE ("entering"); c = myDisplayGetClientFromWindow (display_info, ev->window, SEARCH_WINDOW); if ((c) && (ev->window == c->window) && (ev->new)) { if (c == clientGetFocus ()) { clientInstallColormaps (c); } return EVENT_FILTER_REMOVE; } return EVENT_FILTER_PASS; } static eventFilterStatus handleReparentNotify (DisplayInfo *display_info, XReparentEvent * ev) { TRACE ("window 0x%lx reparented in 0x%lx", ev->window, ev->parent); return EVENT_FILTER_PASS; } #ifdef HAVE_XSYNC static eventFilterStatus handleXSyncAlarmNotify (DisplayInfo *display_info, XSyncAlarmNotifyEvent * ev) { Client *c; TRACE ("entering"); if (display_info->have_xsync) { c = myDisplayGetClientFromXSyncAlarm (display_info, ev->alarm); if (c) { clientXSyncUpdateValue (c, ev->counter_value); } } return EVENT_FILTER_REMOVE; } #endif /* HAVE_XSYNC */ static eventFilterStatus handleEvent (DisplayInfo *display_info, XfwmEvent *event) { eventFilterStatus status; status = EVENT_FILTER_PASS; TRACE ("entering"); /* Update the display time */ myDisplayUpdateCurrentTime (display_info, event); sn_process_event (event->meta.xevent); switch (event->meta.type) { case XFWM_EVENT_KEY: if (event->key.pressed) { status = handleKeyPress (display_info, &event->key); } else { status = handleKeyRelease (display_info, &event->key); } break; case XFWM_EVENT_BUTTON: if (event->button.pressed) { status = handleButtonPress (display_info, &event->button); } else { status = handleButtonRelease (display_info, &event->button); } break; case XFWM_EVENT_MOTION: status = handleMotionNotify (display_info, &event->motion); break; case XFWM_EVENT_CROSSING: if (event->crossing.enter) { status = handleEnterNotify (display_info, &event->crossing); } else { status = handleLeaveNotify (display_info, &event->crossing); } break; case XFWM_EVENT_XEVENT: switch (event->meta.xevent->type) { case DestroyNotify: status = handleDestroyNotify (display_info, (XDestroyWindowEvent *) event->meta.xevent); break; case UnmapNotify: status = handleUnmapNotify (display_info, (XUnmapEvent *) event->meta.xevent); break; case MapRequest: status = handleMapRequest (display_info, (XMapRequestEvent *) event->meta.xevent); break; case MapNotify: status = handleMapNotify (display_info, (XMapEvent *) event->meta.xevent); break; case ConfigureNotify: status = handleConfigureNotify (display_info, (XConfigureEvent *) event->meta.xevent); break; case ConfigureRequest: status = handleConfigureRequest (display_info, (XConfigureRequestEvent *) event->meta.xevent); break; case FocusIn: status = handleFocusIn (display_info, (XFocusChangeEvent *) event->meta.xevent); break; case FocusOut: status = handleFocusOut (display_info, (XFocusChangeEvent *) event->meta.xevent); break; case PropertyNotify: status = handlePropertyNotify (display_info, (XPropertyEvent *) event->meta.xevent); break; case ClientMessage: status = handleClientMessage (display_info, (XClientMessageEvent *) event->meta.xevent); break; case SelectionClear: status = handleSelectionClear (display_info, (XSelectionClearEvent *) event->meta.xevent); break; case ColormapNotify: handleColormapNotify (display_info, (XColormapEvent *) event->meta.xevent); break; case ReparentNotify: status = handleReparentNotify (display_info, (XReparentEvent *) event->meta.xevent); break; default: if ((display_info->have_shape) && (event->meta.xevent->type == display_info->shape_event_base)) { status = handleShape (display_info, (XShapeEvent *) event->meta.xevent); } #ifdef HAVE_XSYNC if ((display_info->have_xsync) && (event->meta.xevent->type == (display_info->xsync_event_base + XSyncAlarmNotify))) { status = handleXSyncAlarmNotify (display_info, (XSyncAlarmNotifyEvent *) event->meta.xevent); } #endif /* HAVE_XSYNC */ break; } break; } if (!gdk_events_pending () && !XPending (display_info->dpy)) { if (display_info->reload) { reloadSettings (display_info, UPDATE_ALL); display_info->reload = FALSE; } else if (display_info->quit) { /* * Qutting on purpose, update session manager so * it does not restart the program immediately */ xfce_sm_client_set_restart_style(display_info->session, XFCE_SM_CLIENT_RESTART_NORMAL); gtk_main_quit (); } } compositorHandleEvent (display_info, event->meta.xevent); return status; } eventFilterStatus xfwm4_event_filter (XfwmEvent *event, gpointer data) { eventFilterStatus status; DisplayInfo *display_info; display_info = (DisplayInfo *) data; TRACE ("entering"); status = handleEvent (display_info, event); TRACE ("leaving"); return EVENT_FILTER_STOP | status; } /* GTK specific stuff */ static void menu_callback (Menu * menu, MenuOp op, Window xid, gpointer menu_data, gpointer item_data) { Client *c; TRACE ("entering"); if (!xfwmWindowDeleted(&menu_event_window)) { xfwmWindowDelete (&menu_event_window); } c = NULL; if ((menu_data != NULL) && (xid != None)) { ScreenInfo *screen_info = (ScreenInfo *) menu_data; c = myScreenGetClientFromWindow (screen_info, xid, SEARCH_WINDOW); } if (c) { c->button_status[MENU_BUTTON] = BUTTON_STATE_NORMAL; switch (op) { case MENU_OP_QUIT: gtk_main_quit (); break; case MENU_OP_MAXIMIZE: case MENU_OP_UNMAXIMIZE: if (CLIENT_CAN_MAXIMIZE_WINDOW (c)) { clientToggleMaximized (c, CLIENT_FLAG_MAXIMIZED, TRUE); } break; case MENU_OP_MINIMIZE: if (CLIENT_CAN_HIDE_WINDOW (c)) { clientWithdraw (c, c->win_workspace, TRUE); } break; case MENU_OP_MOVE: clientMove (c, NULL); break; case MENU_OP_RESIZE: clientResize (c, CORNER_BOTTOM_RIGHT, NULL); break; case MENU_OP_MINIMIZE_ALL: clientWithdrawAll (c, c->win_workspace); break; case MENU_OP_UNMINIMIZE: if (FLAG_TEST (c->xfwm_flags, XFWM_FLAG_WAS_SHOWN)) { clientClearAllShowDesktop (c->screen_info); } clientShow (c, TRUE); break; case MENU_OP_SHADE: case MENU_OP_UNSHADE: clientToggleShaded (c); break; case MENU_OP_STICK: clientToggleSticky (c, TRUE); frameQueueDraw (c, FALSE); break; case MENU_OP_WORKSPACES: clientSetWorkspace (c, GPOINTER_TO_INT (item_data), TRUE); break; case MENU_OP_DELETE: clientClose (c); break; case MENU_OP_CONTEXT_HELP: clientEnterContextMenuState (c); break; case MENU_OP_ABOVE: clientToggleLayerAbove (c); break; case MENU_OP_NORMAL: clientSetLayerNormal (c); break; case MENU_OP_BELOW: clientToggleLayerBelow (c); break; case MENU_OP_FULLSCREEN: case MENU_OP_UNFULLSCREEN: clientToggleFullscreen (c); break; default: frameQueueDraw (c, FALSE); break; } } else { gdk_display_beep (gdk_display_get_default ()); } menu_free (menu); } void initMenuEventWin (void) { xfwmWindowInit (&menu_event_window); } static void show_window_menu (Client *c, gint px, gint py, guint button, guint32 timestamp, gboolean needscale) { ScreenInfo *screen_info; DisplayInfo *display_info; Menu *menu; MenuOp ops; MenuOp insensitive; gboolean is_transient; gint x, y; gint scale = 1; TRACE ("coords (%d,%d)", px, py); if ((button != Button1) && (button != Button3)) { return; } if (!c || !FLAG_TEST (c->xfwm_flags, XFWM_FLAG_VISIBLE)) { return; } screen_info = c->screen_info; display_info = screen_info->display_info; is_transient = clientIsValidTransientOrModal (c); scale = gdk_window_get_scale_factor (gdk_screen_get_root_window (screen_info->gscr)); x = px; y = py; if (needscale) { x /= scale; y /= scale; } c->button_status[MENU_BUTTON] = BUTTON_STATE_PRESSED; frameQueueDraw (c, FALSE); if (CLIENT_HAS_FRAME (c)) { x = px; y = c->y / scale; if (needscale) { x /= scale; } } ops = MENU_OP_DELETE | MENU_OP_MINIMIZE_ALL | MENU_OP_WORKSPACES | MENU_OP_MOVE | MENU_OP_RESIZE; insensitive = 0; if (FLAG_TEST (c->flags, CLIENT_FLAG_MAXIMIZED)) { ops |= MENU_OP_UNMAXIMIZE; } else { ops |= MENU_OP_MAXIMIZE; } if (!FLAG_TEST (c->xfwm_flags, XFWM_FLAG_HAS_MOVE)) { insensitive |= MENU_OP_MOVE; } if (FLAG_TEST (c->flags, CLIENT_FLAG_ICONIFIED)) { ops |= MENU_OP_UNMINIMIZE; } else { ops |= MENU_OP_MINIMIZE; } if (FLAG_TEST (c->flags, CLIENT_FLAG_SHADED)) { ops |= MENU_OP_UNSHADE; } else { ops |= MENU_OP_SHADE; } if (!FLAG_TEST (c->flags, CLIENT_FLAG_STICKY)) { ops |= MENU_OP_STICK; } if (!FLAG_TEST (c->xfwm_flags, XFWM_FLAG_HAS_BORDER)) { insensitive |= MENU_OP_SHADE | MENU_OP_UNSHADE; } if (!FLAG_TEST (c->xfwm_flags, XFWM_FLAG_HAS_CLOSE)) { insensitive |= MENU_OP_DELETE; } if (is_transient || !FLAG_TEST(c->xfwm_flags, XFWM_FLAG_HAS_STICK)) { insensitive |= MENU_OP_STICK; } if (!CLIENT_CAN_HIDE_WINDOW (c)) { insensitive |= MENU_OP_MINIMIZE; } if (!CLIENT_CAN_MAXIMIZE_WINDOW (c)) { insensitive |= MENU_OP_MAXIMIZE; } if (!FLAG_TEST (c->xfwm_flags, XFWM_FLAG_HAS_MOVE)) { insensitive |= MENU_OP_MOVE; } if (!FLAG_TEST_ALL (c->xfwm_flags, XFWM_FLAG_HAS_RESIZE | XFWM_FLAG_IS_RESIZABLE) || FLAG_TEST_ALL (c->flags, CLIENT_FLAG_MAXIMIZED)) { insensitive |= MENU_OP_RESIZE; } if (FLAG_TEST (c->flags, CLIENT_FLAG_FULLSCREEN)) { insensitive |= MENU_OP_SHADE | MENU_OP_MOVE | MENU_OP_RESIZE | MENU_OP_MAXIMIZE | MENU_OP_UNMAXIMIZE; } if (FLAG_TEST(c->flags, CLIENT_FLAG_FULLSCREEN)) { ops |= MENU_OP_UNFULLSCREEN; } else { ops |= MENU_OP_FULLSCREEN; } if (is_transient || (c->type != WINDOW_NORMAL)) { insensitive |= MENU_OP_FULLSCREEN | MENU_OP_UNFULLSCREEN; } if (FLAG_TEST(c->flags, CLIENT_FLAG_ABOVE)) { ops |= MENU_OP_NORMAL | MENU_OP_BELOW; } else if (FLAG_TEST(c->flags, CLIENT_FLAG_BELOW)) { ops |= MENU_OP_NORMAL | MENU_OP_ABOVE; } else { ops |= MENU_OP_ABOVE | MENU_OP_BELOW; } if (is_transient || !(c->type & WINDOW_REGULAR_FOCUSABLE) || FLAG_TEST (c->flags, CLIENT_FLAG_FULLSCREEN)) { insensitive |= MENU_OP_NORMAL | MENU_OP_ABOVE | MENU_OP_BELOW; } /* KDE extension */ clientGetWMProtocols(c); if (FLAG_TEST (c->wm_flags, WM_FLAG_CONTEXT_HELP)) { ops |= MENU_OP_CONTEXT_HELP; } if (is_transient || !FLAG_TEST (c->xfwm_flags, XFWM_FLAG_HAS_STICK) || FLAG_TEST (c->flags, CLIENT_FLAG_STICKY)) { insensitive |= MENU_OP_WORKSPACES; } if (screen_info->button_handler_id) { g_signal_handler_disconnect (G_OBJECT (myScreenGetGtkWidget (screen_info)), screen_info->button_handler_id); } screen_info->button_handler_id = g_signal_connect (G_OBJECT (myScreenGetGtkWidget (screen_info)), "button_press_event", G_CALLBACK (show_popup_cb), (gpointer) NULL); if (!xfwmWindowDeleted(&menu_event_window)) { xfwmWindowDelete (&menu_event_window); } /* Since all button press/release events are catched by the windows frames, there is some side effect with GTK menu. When a menu is opened, any click on the window frame is not detected as a click outside the menu, and the menu doesn't close. To avoid this (painless but annoying) behavior, we just setup a no event window that "hides" the events to regular windows. That might look tricky, but it's very efficient and save plenty of lines of complicated code. Don't forget to delete that window once the menu is closed, though, or we'll get in trouble. */ xfwmWindowTemp (screen_info, NULL, 0, screen_info->xroot, &menu_event_window, 0, 0, screen_info->width, screen_info->height, NoEventMask, FALSE); menu = menu_default (screen_info->gscr, c->window, ops, insensitive, menu_callback, c->win_workspace, screen_info->workspace_count, screen_info->workspace_names, screen_info->workspace_names_items, display_info->xfilter, screen_info); if (!menu_popup (menu, x, y, button, timestamp)) { TRACE ("cannot open menu"); gdk_display_beep (display_info->gdisplay); c->button_status[MENU_BUTTON] = BUTTON_STATE_NORMAL; frameQueueDraw (c, FALSE); xfwmWindowDelete (&menu_event_window); menu_free (menu); } } static gboolean show_popup_cb (GtkWidget * widget, GdkEventButton * ev, gpointer data) { TRACE ("entering"); show_window_menu ((Client *) data, (gint) ev->x_root, (gint) ev->y_root, ev->button, ev->time, FALSE); return TRUE; } static gboolean set_reload (DisplayInfo *display_info) { TRACE ("setting reload flag so all prefs will be reread at next event loop"); display_info->reload = TRUE; return TRUE; } static gboolean double_click_time_cb (GObject * obj, GdkEvent * ev, gpointer data) { DisplayInfo *display_info; GValue tmp_val = { 0, }; display_info = (DisplayInfo *) data; g_return_val_if_fail (display_info, TRUE); g_value_init (&tmp_val, G_TYPE_INT); if (gdk_setting_get ("gtk-double-click-time", &tmp_val)) { display_info->double_click_time = abs (g_value_get_int (&tmp_val)); } return TRUE; } static gboolean double_click_distance_cb (GObject * obj, GdkEvent * ev, gpointer data) { DisplayInfo *display_info; GValue tmp_val = { 0, }; display_info = (DisplayInfo *) data; g_return_val_if_fail (display_info, TRUE); g_value_init (&tmp_val, G_TYPE_INT); if (gdk_setting_get ("gtk-double-click-distance", &tmp_val)) { display_info->double_click_distance = abs (g_value_get_int (&tmp_val)); } return TRUE; } static void cursor_theme_cb (GObject * obj, GParamSpec * pspec, gpointer data) { DisplayInfo * display_info; GSList *list; display_info = (DisplayInfo *) data; g_return_if_fail (display_info); myDisplayFreeCursor (display_info); myDisplayCreateCursor (display_info); for (list = display_info->screens; list; list = g_slist_next (list)) { ScreenInfo *screen_info = (ScreenInfo *) list->data; clientUpdateAllCursor (screen_info); XDefineCursor (display_info->dpy, screen_info->xroot, display_info->root_cursor); } } static void update_screen_font (ScreenInfo *screen_info) { myScreenUpdateFontAttr (screen_info); clientUpdateAllFrames (screen_info, UPDATE_FRAME); } static gboolean refresh_font_cb (GObject * obj, GdkEvent * ev, gpointer data) { DisplayInfo * display_info; GSList *list; display_info = (DisplayInfo *) data; g_return_val_if_fail (display_info, TRUE); for (list = display_info->screens; list; list = g_slist_next (list)) { update_screen_font (list->data); } return TRUE; } /* * The size-changed signal is emitted when the pixel width or height * of a screen changes. */ static void size_changed_cb(GdkScreen *gscreen, gpointer data) { ScreenInfo *screen_info; DisplayInfo *display_info; gboolean size_changed; TRACE ("entering"); screen_info = (ScreenInfo *) data; g_return_if_fail (screen_info); display_info = screen_info->display_info; if (xfwm_get_n_monitors (screen_info->gscr) == 0) { /* * Recent Xorg drivers disable the output when the lid * is closed, leaving no active monitor, in that case simply * ignore the event to avoid messing with windows' positions. */ return; } size_changed = myScreenComputeSize (screen_info); if (size_changed) { myScreenInvalidateMonitorCache (screen_info); setNetWorkarea (display_info, screen_info->xroot, screen_info->workspace_count, screen_info->width, screen_info->height, screen_info->margins); setNetDesktopInfo (display_info, screen_info->xroot, screen_info->current_ws, screen_info->width, screen_info->height); placeSidewalks (screen_info, screen_info->params->wrap_workspaces); compositorUpdateScreenSize (screen_info); } clientScreenResize (screen_info, FALSE); } /* * The monitors-changed signal is emitted when the number, size or * position of the monitors attached to the screen change. */ static void monitors_changed_cb(GdkScreen *gscreen, gpointer data) { ScreenInfo *screen_info; DisplayInfo *display_info; gint previous_num_monitors; gboolean size_changed; TRACE ("entering"); screen_info = (ScreenInfo *) data; g_return_if_fail (screen_info); display_info = screen_info->display_info; if (xfwm_get_n_monitors (screen_info->gscr) == 0) { /* * Recent Xorg drivers disable the output when the lid * is closed, leaving no active monitor, in that case simply * ignore the event to avoid messing with windows' positions. */ return; } /* * We have added/removed a monitor or even changed the layout, * the cache for monitor position we use in our screen structure * is not valid anymore and potentially refers to a monitor that * was just removed, so invalidate it. */ previous_num_monitors = screen_info->num_monitors; myScreenInvalidateMonitorCache (screen_info); myScreenRebuildMonitorIndex (screen_info); size_changed = myScreenComputeSize (screen_info); if (size_changed || (screen_info->num_monitors != previous_num_monitors)) { setNetWorkarea (display_info, screen_info->xroot, screen_info->workspace_count, screen_info->width, screen_info->height, screen_info->margins); setNetDesktopInfo (display_info, screen_info->xroot, screen_info->current_ws, screen_info->width, screen_info->height); placeSidewalks (screen_info, screen_info->params->wrap_workspaces); } if (size_changed) { compositorUpdateScreenSize (screen_info); } clientScreenResize (screen_info, (screen_info->num_monitors < previous_num_monitors)); } void initPerScreenCallbacks (ScreenInfo *screen_info) { g_return_if_fail (screen_info); screen_info->button_handler_id = g_signal_connect (G_OBJECT (myScreenGetGtkWidget (screen_info)), "button_press_event", G_CALLBACK (show_popup_cb), (gpointer) NULL); g_object_connect (G_OBJECT(screen_info->gscr), "signal::size-changed", G_CALLBACK(size_changed_cb), (gpointer) (screen_info), "signal::monitors-changed", G_CALLBACK(monitors_changed_cb), (gpointer) (screen_info), NULL); g_signal_connect_swapped (G_OBJECT (myScreenGetGtkWidget (screen_info)), "notify::scale-factor", G_CALLBACK (update_screen_font), screen_info); } void initPerDisplayCallbacks (DisplayInfo *display_info) { GtkSettings *settings; g_return_if_fail (display_info); settings = gtk_settings_get_default (); g_object_connect (settings, "swapped-signal::notify::gtk-theme-name", G_CALLBACK (set_reload), (gpointer) (display_info), "swapped-signal::notify::gtk-font-name", G_CALLBACK (set_reload), (gpointer) (display_info), "signal::notify::gtk-double-click-time", G_CALLBACK (double_click_time_cb), (gpointer) (display_info), "signal::notify::gtk-double-click-distance", G_CALLBACK (double_click_distance_cb), (gpointer) (display_info), "signal::notify::gtk-cursor-theme-name", G_CALLBACK (cursor_theme_cb), (gpointer) (display_info), "signal::notify::gtk-cursor-theme-size", G_CALLBACK (cursor_theme_cb), (gpointer) (display_info), "signal::notify::gtk-xft-antialias", G_CALLBACK (refresh_font_cb), (gpointer) (display_info), "signal::notify::gtk-xft-dpi", G_CALLBACK (refresh_font_cb), (gpointer) (display_info), "signal::notify::gtk-xft-hinting", G_CALLBACK (refresh_font_cb), (gpointer) (display_info), "signal::notify::gtk-xft-hintstyle", G_CALLBACK (refresh_font_cb), (gpointer) (display_info), "signal::notify::gtk-xft-rgba", G_CALLBACK (refresh_font_cb), (gpointer) (display_info), NULL); }
xfce-mirror/xfwm4
src/events.c
C
gpl-2.0
95,564
{% extends "base.html" %} {% block content_title %}{% endblock %} {% block ogtitle %}{{ SITENAME }}{% endblock %} {% block ogurl %}{{ SITEURL }}{%endblock%} {% block canonicalurl %}{{ SITEURL }}{%endblock%} {% block content %} <div class="content-grid"> {% if articles %} {% for article in articles_page.object_list %} {% if loop.length > 0 %} {% if loop.first %} {% endif %} <div class="content-grid-info"> {% if article.image or article.thumb %} <img src="{{ article.thumb|default(article.image) }}" alt="{{ article.title|striptags }}"/> {% endif %} <div class="post-info"> {% include 'article_infos.html' %} <div>{{ article.summary }}</div> <a href="{{ SITEURL }}/{{ article.url }}"><span></span>{{ READMORE_TEXT|default('read more...') }}</a> </div> </div> {% if loop.last %} {% include 'pagination.html' %} {% endif %} {% endif %} {% endfor %} {% else %} <section > <h2>Pages</h2> {% for page in PAGES %} <li><a href="{{ SITEURL }}/{{ page.url }}">{{ page.title }}</a></li> {% endfor %} </section> {% endif %} </div> {% endblock content %} {% block sidebar %} <div class="recent"> <h3>{{ CONTENT_TEXT|default('Content') }}</h3> <ul class="fa-ul"> <li><a href="{{ SITEURL }}/{{ CATEGORIES_SAVE_AS|default('categories.html') }}"><i class="fa-li fa fa-tags"></i> {{ CATEGORIES_TEXT|default('Categories') }}</a></li> <li><a href="{{ SITEURL }}/{{ ARCHIVES_SAVE_AS|default('archives.html') }}"><i class="fa-li fa fa-calendar"></i> {{ ARCHIVES_TEXT|default('Archives') }}</a></li> <li><a href="{{ SITEURL }}/{{ TAGS_SAVE_AS|default('tags.html') }}"><i class="fa-li fa fa-tag"></i> {{ TAGS_TEXT|default('Tags') }}</a></li> {% if TAG_FEED_ATOM and tag is defined %} <li><a href="{{ FEED_DOMAIN }}/{{ TAG_FEED_ATOM|format(tag.slug) }}"><i class="fa-li fa fa-rss"></i> {{ ATOM_FEED_TEXT|default('Feed Atom') }}</a></li> {% elif CATEGORY_FEED_ATOM and category is defined %} <li><a href="{{ FEED_DOMAIN }}/{{ CATEGORY_FEED_ATOM|format(category.slug) }}"><i class="fa-li fa fa-rss"></i> {{ ATOM_FEED_TEXT|default('Feed Atom') }}</a></li> {% elif FEED_ALL_ATOM %} <li><a href="{{ FEED_DOMAIN }}/{{ FEED_ALL_ATOM }}"><i class="fa-li fa fa-rss"></i> {{ ATOM_FEED_TEXT|default('Feed Atom') }}</a></li> {% endif %} {% if TAG_FEED_RSS and tag is defined %} <li><a href="{{ FEED_DOMAIN }}/{{ TAG_FEED_RSS|format(tag.slug) }}"><i class="fa-li fa fa-rss"></i> {{ RSS_FEED_TEXT|default('Feed RSS') }}</a></li> {% elif CATEGORY_FEED_RSS and category is defined %} <li><a href="{{ FEED_DOMAIN }}/{{ CATEGORY_FEED_RSS|format(category.slug) }}"><i class="fa-li fa fa-rss"></i> {{ RSS_FEED_TEXT|default('Feed RSS') }}</a></li> {% elif FEED_ALL_RSS %} <li><a href="{{ FEED_DOMAIN }}/{{ FEED_ALL_RSS }}"><i class="fa-li fa fa-rss"></i> {{ RSS_FEED_TEXT|default('Feed RSS') }}</a></li> {% endif %} </ul> </div> {% if LINKS %} <div class="side-links"> <h3>{{ LINKS_TEXT|default('Links') }}</h3> <ul class="fa-ul"> {% for name, link in LINKS %} <li><a href="{{ link }}"><i class="fa-li fa fa-external-link"></i> {{ name }}</a></li> {% endfor %} </ul> </div> {% endif %} {% if SOCIAL %} <div class="side-links"> <h3>{{ SOCIALLINKS_TEXT|default('Social links') }}</h3> <ul class="fa-ul"> {% for name, link in SOCIAL %} <li><a href="{{ link }}">{{ name }}</a></li> {% endfor %} </ul> </div> {% endif %} {% if TAG_CLOUD_STEPS %} <div class="categories"> <h3>{{ TAGS_TEXT|default('Tags') }}</h3> <ul id="cloud"> {% for tag in tag_cloud %} <li class="tag-{{ tag.1 }}"><a href="{{ SITEURL }}/{{ tag.0.url }}">{{ tag.0 }}</a></li> {% endfor %} </ul> </div> {% endif %} {% endblock %}
Samael500/w3-personal-blog
templates/index.html
HTML
gpl-2.0
4,584
#include "StdInc.h" #include <ShellAPI.h> unsigned int _gameFlags; typedef struct { const wchar_t* argument; unsigned int flag; } flagDef_t; flagDef_t flags[] = { { L"offline", GAME_FLAG_OFFLINE }, { L"console", GAME_FLAG_CONSOLE }, { 0, 0 } }; void DetermineGameFlags() { int numArgs; LPCWSTR commandLine = GetCommandLineW(); LPWSTR* argv = CommandLineToArgvW(commandLine, &numArgs); for (int i = 0; i < numArgs; i++) { if (argv[i][0] != L'-') continue; for (wchar_t* c = argv[i]; *c != L'\0'; c++) { if (*c != L'-') { for (flagDef_t* flag = flags; flag->argument; flag++) { if (!wcscmp(c, flag->argument)) { _gameFlags |= flag->flag; break; } } break; } } } }
Sofakante/iw4m-lan
steam_api/Flags.cpp
C++
gpl-2.0
740
/********************************************************************** Freeciv - Copyright (C) 1996 - A Kjeldberg, L Gregersen, P Unold This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. ***********************************************************************/ #ifdef HAVE_CONFIG_H #include <fc_config.h> #endif #include <stdarg.h> #include <stdio.h> #include <stdlib.h> #include <string.h> /* utility */ #include "bitvector.h" #include "fcintl.h" #include "log.h" #include "mem.h" #include "registry.h" #include "shared.h" #include "string_vector.h" #include "support.h" /* common */ #include "ai.h" #include "base.h" #include "capability.h" #include "city.h" #include "effects.h" #include "fc_types.h" #include "game.h" #include "government.h" #include "map.h" #include "movement.h" #include "name_translation.h" #include "nation.h" #include "packets.h" #include "player.h" #include "requirements.h" #include "rgbcolor.h" #include "specialist.h" #include "tech.h" #include "unit.h" #include "unittype.h" /* server */ #include "citytools.h" #include "plrhand.h" #include "settings.h" #include "srv_main.h" /* server/advisors */ #include "advruleset.h" /* server/scripting */ #include "script_server.h" #include "ruleset.h" #define RULESET_CAPABILITIES "+Freeciv-2.4-ruleset" /* * Ruleset capabilities acceptable to this program: * * +Freeciv-2.3-ruleset * - basic ruleset format for Freeciv versions 2.3.x; required * * +Freeciv-tilespec-Devel-YYYY.MMM.DD * - ruleset of the development version at the given data */ /* RULESET_SUFFIX already used, no leading dot here */ #define RULES_SUFFIX "ruleset" #define SCRIPT_SUFFIX "lua" #define ADVANCE_SECTION_PREFIX "advance_" #define BUILDING_SECTION_PREFIX "building_" #define CITYSTYLE_SECTION_PREFIX "citystyle_" #define EFFECT_SECTION_PREFIX "effect_" #define GOVERNMENT_SECTION_PREFIX "government_" #define NATION_GROUP_SECTION_PREFIX "ngroup" /* without underscore? */ #define NATION_SET_SECTION_PREFIX "nset" /* without underscore? */ #define NATION_SECTION_PREFIX "nation" /* without underscore? */ #define RESOURCE_SECTION_PREFIX "resource_" #define BASE_SECTION_PREFIX "base_" #define SPECIALIST_SECTION_PREFIX "specialist_" #define TERRAIN_SECTION_PREFIX "terrain_" #define UNIT_CLASS_SECTION_PREFIX "unitclass_" #define UNIT_SECTION_PREFIX "unit_" #define check_name(name) (check_strlen(name, MAX_LEN_NAME, NULL)) /* avoid re-reading files */ static const char name_too_long[] = "Name \"%s\" too long; truncating."; #define MAX_SECTION_LABEL 64 #define section_strlcpy(dst, src) \ (void) loud_strlcpy(dst, src, MAX_SECTION_LABEL, name_too_long) static char *resource_sections = NULL; static char *terrain_sections = NULL; static char *base_sections = NULL; static struct section_file *openload_ruleset_file(const char *whichset); static const char *check_ruleset_capabilities(struct section_file *file, const char *us_capstr, const char *filename); static void load_tech_names(struct section_file *file); static void load_unit_names(struct section_file *file); static void load_building_names(struct section_file *file); static void load_government_names(struct section_file *file); static void load_terrain_names(struct section_file *file); static void load_citystyle_names(struct section_file *file); static void load_nation_names(struct section_file *file); static void load_city_name_list(struct section_file *file, struct nation_type *pnation, const char *secfile_str1, const char *secfile_str2); static void load_ruleset_techs(struct section_file *file); static void load_ruleset_units(struct section_file *file); static void load_ruleset_buildings(struct section_file *file); static void load_ruleset_governments(struct section_file *file); static void load_ruleset_terrain(struct section_file *file); static void load_ruleset_cities(struct section_file *file); static void load_ruleset_effects(struct section_file *file); static void load_ruleset_game(void); static void send_ruleset_techs(struct conn_list *dest); static void send_ruleset_unit_classes(struct conn_list *dest); static void send_ruleset_units(struct conn_list *dest); static void send_ruleset_buildings(struct conn_list *dest); static void send_ruleset_terrain(struct conn_list *dest); static void send_ruleset_resources(struct conn_list *dest); static void send_ruleset_bases(struct conn_list *dest); static void send_ruleset_governments(struct conn_list *dest); static void send_ruleset_cities(struct conn_list *dest); static void send_ruleset_game(struct conn_list *dest); static void send_ruleset_team_names(struct conn_list *dest); static bool load_ruleset_veteran(struct section_file *file, const char *path, struct veteran_system **vsystem, char *err, size_t err_len); static bool nation_has_initial_tech(struct nation_type *pnation, struct advance *tech); static bool sanity_check_ruleset_data(void); static void ruleset_error_real(const char *file, const char *function, int line, enum log_level level, const char *format, ...) fc__attribute((__format__ (__printf__, 5, 6))); #define ruleset_error(level, format, ...) \ if (log_do_output_for_level(level)) { \ ruleset_error_real(__FILE__, __FUNCTION__, __FC_LINE__, \ level, format, ## __VA_ARGS__); \ } /************************************************************************** Notifications about ruleset errors to clients. Especially important in case of internal server crashing. **************************************************************************/ static void ruleset_error_real(const char *file, const char *function, int line, enum log_level level, const char *format, ...) { va_list args; va_start(args, format); vdo_log(file, function, line, FALSE, level, format, args); va_end(args); if (LOG_FATAL >= level) { exit(EXIT_FAILURE); } } /************************************************************************** datafilename() wrapper: tries to match in two ways. Returns NULL on failure, the (statically allocated) filename on success. **************************************************************************/ static const char *valid_ruleset_filename(const char *subdir, const char *name, const char *extension) { char filename[512]; const char *dfilename; fc_assert_ret_val(subdir && name && extension, NULL); fc_snprintf(filename, sizeof(filename), "%s/%s.%s", subdir, name, extension); log_verbose("Trying \"%s\".", filename); dfilename = fileinfoname(get_data_dirs(), filename); if (dfilename) { return dfilename; } fc_snprintf(filename, sizeof(filename), "default/%s.%s", name, extension); log_verbose("Trying \"%s\": default ruleset directory.", filename); dfilename = fileinfoname(get_data_dirs(), filename); if (dfilename) { return dfilename; } fc_snprintf(filename, sizeof(filename), "%s_%s.%s", subdir, name, extension); log_verbose("Trying \"%s\": alternative ruleset filename syntax.", filename); dfilename = fileinfoname(get_data_dirs(), filename); if (dfilename) { return dfilename; } else { ruleset_error(LOG_FATAL, /* TRANS: message about an installation error. */ _("Could not find a readable \"%s.%s\" ruleset file."), name, extension); } return(NULL); } /************************************************************************** Do initial section_file_load on a ruleset file. "whichset" = "techs", "units", "buildings", "terrain", ... **************************************************************************/ static struct section_file *openload_ruleset_file(const char *whichset) { char sfilename[512]; const char *dfilename = valid_ruleset_filename(game.server.rulesetdir, whichset, RULES_SUFFIX); struct section_file *secfile; /* Need to save a copy of the filename for following message, since section_file_load() may call datafilename() for includes. */ sz_strlcpy(sfilename, dfilename); if (!(secfile = secfile_load(sfilename, FALSE))) { ruleset_error(LOG_FATAL, "Could not load ruleset '%s':\n%s", sfilename, secfile_error()); } return secfile; } /************************************************************************** Parse script file. **************************************************************************/ static void openload_script_file(const char *whichset) { const char *dfilename = valid_ruleset_filename(game.server.rulesetdir, whichset, SCRIPT_SUFFIX); if (!script_server_do_file(NULL, dfilename)) { ruleset_error(LOG_FATAL, "\"%s\": could not load ruleset script.", dfilename); } } /************************************************************************** Ruleset files should have a capabilities string datafile.options This gets and returns that string, and checks that the required capabilities specified are satisified. **************************************************************************/ static const char *check_ruleset_capabilities(struct section_file *file, const char *us_capstr, const char *filename) { const char *datafile_options; if (!(datafile_options = secfile_lookup_str(file, "datafile.options"))) { log_fatal("\"%s\": ruleset capability problem:", filename); ruleset_error(LOG_FATAL, "%s", secfile_error()); } if (!has_capabilities(us_capstr, datafile_options)) { log_fatal("\"%s\": ruleset datafile appears incompatible:", filename); log_fatal(" datafile options: %s", datafile_options); log_fatal(" supported options: %s", us_capstr); ruleset_error(LOG_FATAL, "Capability problem"); } if (!has_capabilities(datafile_options, us_capstr)) { log_fatal("\"%s\": ruleset datafile claims required option(s)" " that we don't support:", filename); log_fatal(" datafile options: %s", datafile_options); log_fatal(" supported options: %s", us_capstr); ruleset_error(LOG_FATAL, "Capability problem"); } return datafile_options; } /************************************************************************** Load a requirement list. The list is returned as a static vector (callers need not worry about freeing anything). **************************************************************************/ static struct requirement_vector *lookup_req_list(struct section_file *file, const char *sec, const char *sub, const char *rfor) { const char *type, *name; int j; const char *filename; static struct requirement_vector list; filename = secfile_name(file); requirement_vector_reserve(&list, 0); for (j = 0; (type = secfile_lookup_str_default(file, NULL, "%s.%s%d.type", sec, sub, j)); j++) { char buf[MAX_LEN_NAME]; const char *range; bool survives, negated; struct entry *pentry; struct requirement req; if (!(pentry = secfile_entry_lookup(file, "%s.%s%d.name", sec, sub, j))) { ruleset_error(LOG_FATAL, "%s", secfile_error()); } name = NULL; switch (entry_type(pentry)) { case ENTRY_BOOL: { bool val; if (entry_bool_get(pentry, &val)) { fc_snprintf(buf, sizeof(buf), "%d", val); name = buf; } } break; case ENTRY_INT: { int val; if (entry_int_get(pentry, &val)) { fc_snprintf(buf, sizeof(buf), "%d", val); name = buf; } } break; case ENTRY_STR: (void) entry_str_get(pentry, &name); break; } if (NULL == name) { ruleset_error(LOG_FATAL, "\"%s\": error in handling requirement name for '%s.%s%d'.", filename, sec, sub, j); } if (!(range = secfile_lookup_str(file, "%s.%s%d.range", sec, sub, j))) { ruleset_error(LOG_FATAL, "%s", secfile_error()); } survives = secfile_lookup_bool_default(file, FALSE, "%s.%s%d.survives", sec, sub, j); negated = secfile_lookup_bool_default(file, FALSE, "%s.%s%d.negated", sec, sub, j); req = req_from_str(type, range, survives, negated, name); if (req.source.kind == universals_n_invalid()) { ruleset_error(LOG_FATAL, "\"%s\" [%s] has unknown req: \"%s\" \"%s\".", filename, sec, type, name); } requirement_vector_append(&list, req); } if (j > MAX_NUM_REQS) { ruleset_error(LOG_FATAL, "Too many (%d) requirements for %s. Max is %d", j, rfor, MAX_NUM_REQS); } return &list; } /************************************************************************** Lookup a string prefix.entry in the file and return the corresponding advances pointer. If (!required), return A_NEVER for match "Never" or can't match. If (required), die when can't match. Note the first tech should have name "None" so that will always match. If description is not NULL, it is used in the warning message instead of prefix (eg pass unit->name instead of prefix="units2.u27") **************************************************************************/ static struct advance *lookup_tech(struct section_file *file, const char *prefix, const char *entry, int loglevel, const char *filename, const char *description) { const char *sval; struct advance *padvance; sval = secfile_lookup_str_default(file, NULL, "%s.%s", prefix, entry); if (!sval || (LOG_FATAL < loglevel && strcmp(sval, "Never") == 0)) { padvance = A_NEVER; } else { padvance = advance_by_rule_name(sval); if (A_NEVER == padvance) { ruleset_error(loglevel, "\"%s\" %s %s: couldn't match \"%s\".", filename, (description ? description : prefix), entry, sval); /* ruleset_error returned only if error was not fatal. */ } } return padvance; } /************************************************************************** Lookup a string prefix.entry in the file and return the corresponding improvement pointer. If (!required), return B_NEVER for match "None" or can't match. If (required), die when can't match. If description is not NULL, it is used in the warning message instead of prefix (eg pass unit->name instead of prefix="units2.u27") **************************************************************************/ static struct impr_type *lookup_building(struct section_file *file, const char *prefix, const char *entry, int loglevel, const char *filename, const char *description) { const char *sval; struct impr_type *pimprove; sval = secfile_lookup_str_default(file, NULL, "%s.%s", prefix, entry); if (!sval || (LOG_FATAL < loglevel && strcmp(sval, "None") == 0)) { pimprove = B_NEVER; } else { pimprove = improvement_by_rule_name(sval); if (B_NEVER == pimprove) { ruleset_error(loglevel, "\"%s\" %s %s: couldn't match \"%s\".", filename, (description ? description : prefix), entry, sval); /* ruleset_error() returned only if error was not fatal */ } } return pimprove; } /************************************************************************** Lookup a prefix.entry string vector in the file and fill in the array, which should hold MAX_NUM_UNIT_LIST items. The output array is either U_LAST terminated or full (contains MAX_NUM_UNIT_LIST items). If the vector is not found and the required parameter is set, we report it as an error, otherwise we just punt. **************************************************************************/ static void lookup_unit_list(struct section_file *file, const char *prefix, const char *entry, int loglevel, struct unit_type **output, const char *filename) { const char **slist; size_t nval; int i; /* pre-fill with NULL: */ for(i = 0; i < MAX_NUM_UNIT_LIST; i++) { output[i] = NULL; } slist = secfile_lookup_str_vec(file, &nval, "%s.%s", prefix, entry); if (nval == 0) { if (LOG_FATAL >= loglevel) { ruleset_error(LOG_FATAL, "\"%s\": missing string vector %s.%s", filename, prefix, entry); } return; } if (nval > MAX_NUM_UNIT_LIST) { ruleset_error(LOG_FATAL, "\"%s\": string vector %s.%s too long (%d, max %d)", filename, prefix, entry, (int) nval, MAX_NUM_UNIT_LIST); } if (nval == 1 && strcmp(slist[0], "") == 0) { free(slist); return; } for (i = 0; i < nval; i++) { const char *sval = slist[i]; struct unit_type *punittype = unit_type_by_rule_name(sval); if (!punittype) { ruleset_error(LOG_FATAL, "\"%s\" %s.%s (%d): couldn't match \"%s\".", filename, prefix, entry, i, sval); } output[i] = punittype; log_debug("\"%s\" %s.%s (%d): %s (%d)", filename, prefix, entry, i, sval, utype_number(punittype)); } free(slist); return; } /************************************************************************** Lookup a prefix.entry string vector in the file and fill in the array, which should hold MAX_NUM_TECH_LIST items. The output array is either A_LAST terminated or full (contains MAX_NUM_TECH_LIST items). All valid entries of the output array are guaranteed to exist. There should be at least one value, but it may be "", meaning empty list. **************************************************************************/ static void lookup_tech_list(struct section_file *file, const char *prefix, const char *entry, int *output, const char *filename) { const char **slist; size_t nval; int i; /* pre-fill with A_LAST: */ for(i=0; i<MAX_NUM_TECH_LIST; i++) { output[i] = A_LAST; } slist = secfile_lookup_str_vec(file, &nval, "%s.%s", prefix, entry); if (nval==0) { ruleset_error(LOG_FATAL, "\"%s\": missing string vector %s.%s", filename, prefix, entry); } if (nval>MAX_NUM_TECH_LIST) { ruleset_error(LOG_FATAL, "\"%s\": string vector %s.%s too long (%d, max %d)", filename, prefix, entry, (int) nval, MAX_NUM_TECH_LIST); } if (nval==1 && strcmp(slist[0], "")==0) { free(slist); return; } for (i=0; i<nval; i++) { const char *sval = slist[i]; struct advance *padvance = advance_by_rule_name(sval); if (NULL == padvance) { ruleset_error(LOG_FATAL, "\"%s\" %s.%s (%d): couldn't match \"%s\".", filename, prefix, entry, i, sval); } if (!valid_advance(padvance)) { ruleset_error(LOG_FATAL, "\"%s\" %s.%s (%d): \"%s\" is removed.", filename, prefix, entry, i, sval); } output[i] = advance_number(padvance); log_debug("\"%s\" %s.%s (%d): %s (%d)", filename, prefix, entry, i, sval, advance_number(padvance)); } free(slist); return; } /************************************************************************** Lookup a prefix.entry string vector in the file and fill in the array, which should hold MAX_NUM_BUILDING_LIST items. The output array is either B_LAST terminated or full (contains MAX_NUM_BUILDING_LIST items). [All valid entries of the output array are guaranteed to pass improvement_exist()?] There should be at least one value, but it may be "", meaning an empty list. **************************************************************************/ static void lookup_building_list(struct section_file *file, const char *prefix, const char *entry, int *output, const char *filename) { const char **slist; size_t nval; int i; /* pre-fill with B_LAST: */ for (i = 0; i < MAX_NUM_BUILDING_LIST; i++) { output[i] = B_LAST; } slist = secfile_lookup_str_vec(file, &nval, "%s.%s", prefix, entry); if (nval == 0) { ruleset_error(LOG_FATAL, "\"%s\": missing string vector %s.%s", filename, prefix, entry); } if (nval > MAX_NUM_BUILDING_LIST) { ruleset_error(LOG_FATAL, "\"%s\": string vector %s.%s too long (%d, max %d)", filename, prefix, entry, (int) nval, MAX_NUM_BUILDING_LIST); } if (nval == 1 && strcmp(slist[0], "") == 0) { free(slist); return; } for (i = 0; i < nval; i++) { const char *sval = slist[i]; struct impr_type *pimprove = improvement_by_rule_name(sval); if (NULL == pimprove) { ruleset_error(LOG_FATAL, "\"%s\" %s.%s (%d): couldn't match \"%s\".", filename, prefix, entry, i, sval); } output[i] = improvement_number(pimprove); log_debug("%s.%s,%d %s %d", prefix, entry, i, sval, output[i]); } free(slist); } /************************************************************************** Lookup a string prefix.entry in the file and return the corresponding unit_type id. If (!required), return NULL if match "None" or can't match. If (required), die if can't match. If description is not NULL, it is used in the warning message instead of prefix (eg pass unit->name instead of prefix="units2.u27") **************************************************************************/ static struct unit_type *lookup_unit_type(struct section_file *file, const char *prefix, const char *entry, int loglevel, const char *filename, const char *description) { const char *sval; struct unit_type *punittype; if (LOG_FATAL >= loglevel) { sval = secfile_lookup_str(file, "%s.%s", prefix, entry); } else { sval = secfile_lookup_str_default(file, "None", "%s.%s", prefix, entry); } if (strcmp(sval, "None")==0) { punittype = NULL; } else { punittype = unit_type_by_rule_name(sval); if (!punittype) { ruleset_error(loglevel, "\"%s\" %s %s: couldn't match \"%s\".", filename, (description ? description : prefix), entry, sval); /* We continue if error was not fatal. */ punittype = NULL; } } return punittype; } /************************************************************************** Lookup entry in the file and return the corresponding government index; dies if can't find/match. filename is for error message. **************************************************************************/ static struct government *lookup_government(struct section_file *file, const char *entry, const char *filename, struct government *fallback) { const char *sval; struct government *gov; sval = secfile_lookup_str_default(file, NULL, "%s", entry); if (!sval) { gov = fallback; } else { gov = government_by_rule_name(sval); } if (!gov) { ruleset_error(LOG_FATAL, "\"%s\" %s: couldn't match \"%s\".", filename, entry, sval); } return gov; } /************************************************************************** Lookup entry in the file and return the corresponding move_type index; dies if can't find/match. filename is for error message. **************************************************************************/ static enum unit_move_type lookup_move_type(struct section_file *file, const char *entry, const char *filename) { const char *sval; enum unit_move_type mt; sval = secfile_lookup_str_default(file, NULL, "%s", entry); if (sval == NULL) { return unit_move_type_invalid(); } mt = unit_move_type_by_name(sval, fc_strcasecmp); if (!unit_move_type_is_valid(mt)) { ruleset_error(LOG_FATAL, "\"%s\" %s: couldn't match \"%s\".", filename, entry, sval); } return mt; } /**************************************************************************** Lookup optional string, returning allocated memory or NULL. ****************************************************************************/ static char *lookup_string(struct section_file *file, const char *prefix, const char *suffix) { const char *sval = secfile_lookup_str(file, "%s.%s", prefix, suffix); if (NULL != sval) { char copy[strlen(sval) + 1]; strcpy(copy, sval); remove_leading_trailing_spaces(copy); if (strlen(copy) > 0) { return fc_strdup(copy); } } return NULL; } /**************************************************************************** Lookup optional string vector, returning allocated memory or NULL. ****************************************************************************/ static struct strvec *lookup_strvec(struct section_file *file, const char *prefix, const char *suffix) { size_t dim; const char **vec = secfile_lookup_str_vec(file, &dim, "%s.%s", prefix, suffix); if (NULL != vec) { struct strvec *dest = strvec_new(); strvec_store(dest, vec, dim); free(vec); return dest; } return NULL; } /************************************************************************** Look up the resource section name and return its pointer. **************************************************************************/ static struct resource *lookup_resource(const char *filename, const char *name, const char *jsection) { resource_type_iterate(presource) { const int i = resource_index(presource); const char *isection = &resource_sections[i * MAX_SECTION_LABEL]; if (0 == fc_strcasecmp(isection, name)) { return presource; } } resource_type_iterate_end; ruleset_error(LOG_ERROR, "\"%s\" [%s] has unknown \"%s\".", filename, jsection, name); return NULL; } /************************************************************************** Look up the terrain section name and return its pointer. **************************************************************************/ static struct terrain *lookup_terrain(struct section_file *file, const char *item, struct terrain *pthis) { const int j = terrain_index(pthis); const char *jsection = &terrain_sections[j * MAX_SECTION_LABEL]; const char *name = secfile_lookup_str(file, "%s.%s", jsection, item); if (NULL == name || *name == '\0' || (0 == strcmp(name, "none")) || (0 == strcmp(name, "no"))) { return T_NONE; } if (0 == strcmp(name, "yes")) { return pthis; } terrain_type_iterate(pterrain) { const int i = terrain_index(pterrain); const char *isection = &terrain_sections[i * MAX_SECTION_LABEL]; if (0 == fc_strcasecmp(isection, name)) { return pterrain; } } terrain_type_iterate_end; ruleset_error(LOG_ERROR, "\"%s\" [%s] has unknown \"%s\".", secfile_name(file), jsection, name); return T_NONE; } /************************************************************************** Load "name" and (optionally) "rule_name" into a struct name_translation. **************************************************************************/ static void ruleset_load_names(struct name_translation *pname, struct section_file *file, const char *sec_name) { const char *name = secfile_lookup_str(file, "%s.name", sec_name); const char *rule_name = secfile_lookup_str(file, "%s.rule_name", sec_name); if (!name) { ruleset_error(LOG_FATAL, "\"%s\" [%s]: no \"name\" specified.", secfile_name(file), sec_name); } names_set(pname, name, rule_name); } /************************************************************************** Load names of technologies so other rulesets can refer to techs with their name. **************************************************************************/ static void load_tech_names(struct section_file *file) { struct section_list *sec; /* Number of techs in the ruleset (means without A_NONE). */ int num_techs = 0; int i; const char *filename = secfile_name(file); (void) secfile_entry_by_path(file, "datafile.description"); /* unused */ /* The names: */ sec = secfile_sections_by_name_prefix(file, ADVANCE_SECTION_PREFIX); if (NULL == sec || 0 == (num_techs = section_list_size(sec))) { ruleset_error(LOG_FATAL, "\"%s\": No Advances?!?", filename); } log_verbose("%d advances (including possibly unused)", num_techs); if(num_techs + A_FIRST > A_LAST_REAL) { ruleset_error(LOG_FATAL, "\"%s\": Too many advances (%d, max %d)", filename, num_techs, A_LAST_REAL-A_FIRST); } game.control.num_tech_types = num_techs + A_FIRST; /* includes A_NONE */ i = 0; advance_iterate(A_FIRST, a) { ruleset_load_names(&a->name, file, section_name(section_list_get(sec, i))); i++; } advance_iterate_end; section_list_destroy(sec); } /************************************************************************** Load technologies related ruleset data **************************************************************************/ static void load_ruleset_techs(struct section_file *file) { struct section_list *sec; int i; struct advance *a_none = advance_by_number(A_NONE); const char *filename = secfile_name(file); (void) check_ruleset_capabilities(file, RULESET_CAPABILITIES, filename); sec = secfile_sections_by_name_prefix(file, ADVANCE_SECTION_PREFIX); /* Initialize dummy tech A_NONE */ a_none->require[AR_ONE] = a_none; a_none->require[AR_TWO] = a_none; a_none->require[AR_ROOT] = A_NEVER; BV_CLR_ALL(a_none->flags); i = 0; advance_iterate(A_FIRST, a) { const char *sec_name = section_name(section_list_get(sec, i)); const char *sval, **slist; size_t nval; int j, ival; a->require[AR_ONE] = lookup_tech(file, sec_name, "req1", LOG_ERROR, filename, rule_name(&a->name)); a->require[AR_TWO] = lookup_tech(file, sec_name, "req2", LOG_ERROR, filename, rule_name(&a->name)); a->require[AR_ROOT] = lookup_tech(file, sec_name, "root_req", LOG_ERROR, filename, rule_name(&a->name)); if ((A_NEVER == a->require[AR_ONE] && A_NEVER != a->require[AR_TWO]) || (A_NEVER != a->require[AR_ONE] && A_NEVER == a->require[AR_TWO])) { log_error("\"%s\" [%s] \"%s\": \"Never\" with non-\"Never\".", filename, sec_name, rule_name(&a->name)); a->require[AR_ONE] = a->require[AR_TWO] = A_NEVER; } if (a_none == a->require[AR_ONE] && a_none != a->require[AR_TWO]) { log_error("\"%s\" [%s] \"%s\": should have \"None\" second.", filename, sec_name, rule_name(&a->name)); a->require[AR_ONE] = a->require[AR_TWO]; a->require[AR_TWO] = a_none; } BV_CLR_ALL(a->flags); slist = secfile_lookup_str_vec(file, &nval, "%s.flags", sec_name); for(j=0; j<nval; j++) { sval = slist[j]; if(strcmp(sval,"")==0) { continue; } ival = tech_flag_id_by_name(sval, fc_strcasecmp); if (!tech_flag_id_is_valid(ival)) { log_error("\"%s\" [%s] \"%s\": bad flag name \"%s\".", filename, sec_name, rule_name(&a->name), sval); } else { BV_SET(a->flags, ival); } } free(slist); sz_strlcpy(a->graphic_str, secfile_lookup_str_default(file, "-", "%s.graphic", sec_name)); sz_strlcpy(a->graphic_alt, secfile_lookup_str_default(file, "-", "%s.graphic_alt", sec_name)); a->helptext = lookup_strvec(file, sec_name, "helptext"); a->bonus_message = lookup_string(file, sec_name, "bonus_message"); a->preset_cost = secfile_lookup_int_default(file, -1, "%s.%s", sec_name, "cost"); a->num_reqs = 0; i++; } advance_iterate_end; /* Propagate a root tech up into the tech tree. Thus if a technology * X has Y has a root tech, then any technology requiring X also has * Y as a root tech. */ restart: advance_iterate(A_FIRST, a) { if (valid_advance(a) && A_NEVER != a->require[AR_ROOT]) { bool out_of_order = FALSE; /* Now find any tech depending on this technology and update its * root_req. */ advance_iterate(A_FIRST, b) { if (valid_advance(b) && A_NEVER == b->require[AR_ROOT] && (a == b->require[AR_ONE] || a == b->require[AR_TWO])) { b->require[AR_ROOT] = a->require[AR_ROOT]; if (b < a) { out_of_order = TRUE; } } } advance_iterate_end; if (out_of_order) { /* HACK: If we just changed the root_tech of a lower-numbered * technology, we need to go back so that we can propagate the * root_tech up to that technology's parents... */ goto restart; } } } advance_iterate_end; /* Now rename A_NEVER to A_NONE for consistency */ advance_iterate(A_NONE, a) { if (A_NEVER == a->require[AR_ROOT]) { a->require[AR_ROOT] = a_none; } } advance_iterate_end; /* Some more consistency checking: Non-removed techs depending on removed techs is too broken to fix by default, so die. */ advance_iterate(A_FIRST, a) { if (valid_advance(a)) { /* We check for recursive tech loops later, * in build_required_techs_helper. */ if (!valid_advance(a->require[AR_ONE])) { ruleset_error(LOG_FATAL, "\"%s\" tech \"%s\": req1 leads to removed tech.", filename, advance_rule_name(a)); } if (!valid_advance(a->require[AR_TWO])) { ruleset_error(LOG_FATAL, "\"%s\" tech \"%s\": req2 leads to removed tech.", filename, advance_rule_name(a)); } } } advance_iterate_end; section_list_destroy(sec); secfile_check_unused(file); secfile_destroy(file); } /************************************************************************** Load names of units so other rulesets can refer to units with their name. **************************************************************************/ static void load_unit_names(struct section_file *file) { struct section_list *sec; int nval = 0; size_t user_flags; const char **flaglist; int i; const char *filename = secfile_name(file); (void) secfile_entry_by_path(file, "datafile.description"); /* unused */ /* User unit flag names */ flaglist = secfile_lookup_str_vec(file, &user_flags, "flags.names"); if (user_flags > MAX_NUM_USER_UNIT_FLAGS) { ruleset_error(LOG_FATAL, "\"%s\": Too many user unit type flags!", filename); } for (i = 0; i < user_flags; i++) { set_user_unit_flag_name(F_USER_FLAG_1 + i, flaglist[i]); } for (; i < MAX_NUM_USER_UNIT_FLAGS; i++) { set_user_unit_flag_name(F_USER_FLAG_1 + i, NULL); } if (flaglist) { free(flaglist); } /* Unit classes */ sec = secfile_sections_by_name_prefix(file, UNIT_CLASS_SECTION_PREFIX); if (NULL == sec || 0 == (nval = section_list_size(sec))) { ruleset_error(LOG_FATAL, "\"%s\": No unit classes?!?", filename); } log_verbose("%d unit classes", nval); if(nval > UCL_LAST) { ruleset_error(LOG_FATAL, "\"%s\": Too many unit classes (%d, max %d)", filename, nval, UCL_LAST); } game.control.num_unit_classes = nval; unit_class_iterate(punitclass) { const int i = uclass_index(punitclass); ruleset_load_names(&punitclass->name, file, section_name(section_list_get(sec, i))); } unit_class_iterate_end; section_list_destroy(sec); /* The names: */ sec = secfile_sections_by_name_prefix(file, UNIT_SECTION_PREFIX); if (NULL == sec || 0 == (nval = section_list_size(sec))) { ruleset_error(LOG_FATAL, "\"%s\": No unit types?!?", filename); } log_verbose("%d unit types (including possibly unused)", nval); if(nval > U_LAST) { ruleset_error(LOG_FATAL, "\"%s\": Too many unit types (%d, max %d)", filename, nval, U_LAST); } game.control.num_unit_types = nval; unit_type_iterate(punittype) { const int i = utype_index(punittype); ruleset_load_names(&punittype->name, file, section_name(section_list_get(sec, i))); } unit_type_iterate_end; section_list_destroy(sec); } /************************************************************************** Load veteran levels. **************************************************************************/ static bool load_ruleset_veteran(struct section_file *file, const char *path, struct veteran_system **vsystem, char *err, size_t err_len) { const char **vlist_name; int *vlist_power, *vlist_raise, *vlist_wraise, *vlist_move; size_t count_name, count_power, count_raise, count_wraise, count_move; int i; bool ret = TRUE; /* The pointer should be uninitialised. */ if (*vsystem != NULL) { fc_snprintf(err, err_len, "Veteran system is defined?!"); return FALSE; } /* Load data. */ vlist_name = secfile_lookup_str_vec(file, &count_name, "%s.veteran_names", path); vlist_power = secfile_lookup_int_vec(file, &count_power, "%s.veteran_power_fact", path); vlist_raise = secfile_lookup_int_vec(file, &count_raise, "%s.veteran_raise_chance", path); vlist_wraise = secfile_lookup_int_vec(file, &count_wraise, "%s.veteran_work_raise_chance", path); vlist_move = secfile_lookup_int_vec(file, &count_move, "%s.veteran_move_bonus", path); if (count_name > MAX_VET_LEVELS) { ret = FALSE; fc_snprintf(err, err_len, "\"%s\": Too many veteran levels (section " "'%s': %lu, max %d)", secfile_name(file), path, (long unsigned)count_name, MAX_VET_LEVELS); } else if (count_name != count_power || count_name != count_raise || count_name != count_wraise || count_name != count_move) { ret = FALSE; fc_snprintf(err, err_len, "\"%s\": Different lengths for the veteran " "settings in section '%s'", secfile_name(file), path); } else if (count_name == 0) { /* Nothing defined. */ *vsystem = NULL; } else { /* Generate the veteran system. */ *vsystem = veteran_system_new((int)count_name); #define rs_sanity_veteran(_path, _entry, _i, _condition, _action) \ if (_condition) { \ log_error("Invalid veteran definition '%s.%s[%d]'!", \ _path, _entry, _i); \ log_debug("Failed check: '%s'. Update value: '%s'.", \ #_condition, #_action); \ _action; \ } for (i = 0; i < count_name; i++) { /* Some sanity checks. */ rs_sanity_veteran(path, "veteran_power_fact", i, (vlist_power[i] < 0), vlist_power[i] = 0); rs_sanity_veteran(path, "veteran_raise_chance", i, (vlist_raise[i] < 0), vlist_raise[i] = 0); rs_sanity_veteran(path, "veteran_work_raise_chance", i, (vlist_wraise[i] < 0), vlist_wraise[i] = 0); rs_sanity_veteran(path, "veteran_move_bonus", i, (vlist_move[i] < 0), vlist_move[i] = 0); if (i == 0) { /* First element.*/ rs_sanity_veteran(path, "veteran_power_fact", i, (vlist_power[i] != 100), vlist_power[i] = 100); } else if (i == count_name - 1) { /* Last element. */ rs_sanity_veteran(path, "veteran_power_fact", i, (vlist_power[i] < vlist_power[i - 1]), vlist_power[i] = vlist_power[i - 1]); rs_sanity_veteran(path, "veteran_raise_chance", i, (vlist_raise[i] != 0), vlist_raise[i] = 0); rs_sanity_veteran(path, "veteran_work_raise_chance", i, (vlist_wraise[i] != 0), vlist_wraise[i] = 0); } else { /* All elements inbetween. */ rs_sanity_veteran(path, "veteran_power_fact", i, (vlist_power[i] < vlist_power[i - 1]), vlist_power[i] = vlist_power[i - 1]); rs_sanity_veteran(path, "veteran_raise_chance", i, (vlist_raise[i] > 100), vlist_raise[i] = 100); rs_sanity_veteran(path, "veteran_work_raise_chance", i, (vlist_wraise[i] > 100), vlist_wraise[i] = 100); } veteran_system_definition(*vsystem, i, vlist_name[i], vlist_power[i], vlist_move[i], vlist_raise[i], vlist_wraise[i]); } #undef rs_sanity_veteran } if (vlist_name) { free(vlist_name); } if (vlist_power) { free(vlist_power); } if (vlist_raise) { free(vlist_raise); } if (vlist_wraise) { free(vlist_wraise); } if (vlist_move) { free(vlist_move); } return ret; } /************************************************************************** Load units related ruleset data. **************************************************************************/ static void load_ruleset_units(struct section_file *file) { struct unit_type *u; int j, ival; size_t nval; struct section_list *sec, *csec; const char *sval, **slist; const char *filename = secfile_name(file); char msg[MAX_LEN_MSG]; (void) check_ruleset_capabilities(file, RULESET_CAPABILITIES, filename); if (!load_ruleset_veteran(file, "veteran_system", &game.veteran, msg, sizeof(msg)) || game.veteran == NULL) { ruleset_error(LOG_FATAL, "Error loading the default veteran system: %s", msg); } sec = secfile_sections_by_name_prefix(file, UNIT_SECTION_PREFIX); nval = (NULL != sec ? section_list_size(sec) : 0); csec = secfile_sections_by_name_prefix(file, UNIT_CLASS_SECTION_PREFIX); nval = (NULL != csec ? section_list_size(csec) : 0); unit_class_iterate(uc) { int i = uclass_index(uc); char tmp[200] = "\0"; const char *hut_str; const char *sec_name = section_name(section_list_get(csec, i)); if (secfile_lookup_int(file, &uc->min_speed, "%s.min_speed", sec_name)) { uc->min_speed *= SINGLE_MOVE; } else { ruleset_error(LOG_FATAL, "%s", secfile_error()); } if (!secfile_lookup_int(file, &uc->hp_loss_pct, "%s.hp_loss_pct", sec_name)) { ruleset_error(LOG_FATAL, "%s", secfile_error()); } hut_str = secfile_lookup_str_default(file, "Normal", "%s.hut_behavior", sec_name); if (fc_strcasecmp(hut_str, "Normal") == 0) { uc->hut_behavior = HUT_NORMAL; } else if (fc_strcasecmp(hut_str, "Nothing") == 0) { uc->hut_behavior = HUT_NOTHING; } else if (fc_strcasecmp(hut_str, "Frighten") == 0) { uc->hut_behavior = HUT_FRIGHTEN; } else { ruleset_error(LOG_FATAL, "\"%s\" unit_class \"%s\":" " Illegal hut behavior \"%s\".", filename, uclass_rule_name(uc), hut_str); } BV_CLR_ALL(uc->flags); slist = secfile_lookup_str_vec(file, &nval, "%s.flags", sec_name); for(j = 0; j < nval; j++) { sval = slist[j]; if(strcmp(sval,"") == 0) { continue; } ival = unit_class_flag_id_by_name(sval, fc_strcasecmp); if (!unit_class_flag_id_is_valid(ival)) { ival = unit_flag_by_rule_name(sval); if (ival != F_LAST) { ruleset_error(LOG_FATAL, "\"%s\" unit_class \"%s\": unit_type flag!", filename, uclass_rule_name(uc)); } else { ruleset_error(LOG_FATAL, "\"%s\" unit_class \"%s\": bad flag name \"%s\".", filename, uclass_rule_name(uc), sval); } } else { BV_SET(uc->flags, ival); } } free(slist); fc_strlcat(tmp, sec_name, 200); fc_strlcat(tmp, ".move_type", 200); uc->move_type = lookup_move_type(file, tmp, filename); if (!unit_move_type_is_valid(uc->move_type)) { /* Not explicitly given, determine automatically */ bool land_moving = FALSE; bool sea_moving = FALSE; if (uclass_has_flag(uc, UCF_RIVER_NATIVE) || uclass_has_flag(uc, UCF_ROAD_NATIVE)) { land_moving = TRUE; } terrain_type_iterate(pterrain) { bv_special spe; bv_bases bases; BV_CLR_ALL(spe); BV_CLR_ALL(bases); if (is_native_to_class(uc, pterrain, spe, bases)) { if (is_ocean(pterrain)) { sea_moving = TRUE; } else { land_moving = TRUE; } } } terrain_type_iterate_end; if (land_moving && sea_moving) { uc->move_type = UMT_BOTH; } else if (sea_moving) { uc->move_type = UMT_SEA; } else { /* If unit has no native terrains, it is considered land moving */ uc->move_type = UMT_LAND; } } else if (uc->move_type == UMT_SEA) { /* Explicitly given SEA_MOVING */ if (uclass_has_flag(uc, UCF_RIVER_NATIVE)) { log_error("\"%s\" unit_class \"%s\": cannot give RiverNative " "flag to sea moving unit", filename, uclass_rule_name(uc)); BV_CLR(uc->flags, UCF_RIVER_NATIVE); } if (uclass_has_flag(uc, UCF_ROAD_NATIVE)) { log_error("\"%s\" unit_class \"%s\": cannot give RoadNative " "flag to sea moving unit", filename, uclass_rule_name(uc)); BV_CLR(uc->flags, UCF_ROAD_NATIVE); } } } unit_class_iterate_end; /* Tech and Gov requirements; per unit veteran system */ unit_type_iterate(u) { const int i = utype_index(u); const struct section *psection = section_list_get(sec, i); const char *sec_name = section_name(psection); u->require_advance = lookup_tech(file, sec_name, "tech_req", LOG_FATAL, filename, rule_name(&u->name)); if (NULL != section_entry_by_name(psection, "gov_req")) { char tmp[200] = "\0"; fc_strlcat(tmp, section_name(psection), sizeof(tmp)); fc_strlcat(tmp, ".gov_req", sizeof(tmp)); u->need_government = lookup_government(file, tmp, filename, NULL); } else { u->need_government = NULL; /* no requirement */ } if (!load_ruleset_veteran(file, sec_name, &u->veteran, msg, sizeof(msg))) { ruleset_error(LOG_NORMAL, "Error loading the veteran system: %s", msg); } u->obsoleted_by = lookup_unit_type(file, sec_name, "obsolete_by", LOG_ERROR, filename, rule_name(&u->name)); u->converted_to = lookup_unit_type(file, sec_name, "convert_to", LOG_ERROR, filename, rule_name(&u->name)); } unit_type_iterate_end; /* main stats: */ unit_type_iterate(u) { const int i = utype_index(u); struct unit_class *pclass; const char *sec_name = section_name(section_list_get(sec, i)); const char *string; u->need_improvement = lookup_building(file, sec_name, "impr_req", LOG_ERROR, filename, rule_name(&u->name)); sval = secfile_lookup_str(file, "%s.class", sec_name); pclass = unit_class_by_rule_name(sval); if (!pclass) { ruleset_error(LOG_FATAL, "\"%s\" unit_type \"%s\":" " bad class \"%s\".", filename, utype_rule_name(u), sval); } u->uclass = pclass; sz_strlcpy(u->sound_move, secfile_lookup_str_default(file, "-", "%s.sound_move", sec_name)); sz_strlcpy(u->sound_move_alt, secfile_lookup_str_default(file, "-", "%s.sound_move_alt", sec_name)); sz_strlcpy(u->sound_fight, secfile_lookup_str_default(file, "-", "%s.sound_fight", sec_name)); sz_strlcpy(u->sound_fight_alt, secfile_lookup_str_default(file, "-", "%s.sound_fight_alt", sec_name)); if ((string = secfile_lookup_str(file, "%s.graphic", sec_name))) { sz_strlcpy(u->graphic_str, string); } else { ruleset_error(LOG_FATAL, "%s", secfile_error()); } sz_strlcpy(u->graphic_alt, secfile_lookup_str_default(file, "-", "%s.graphic_alt", sec_name)); if (!secfile_lookup_int(file, &u->build_cost, "%s.build_cost", sec_name) || !secfile_lookup_int(file, &u->pop_cost, "%s.pop_cost", sec_name) || !secfile_lookup_int(file, &u->attack_strength, "%s.attack", sec_name) || !secfile_lookup_int(file, &u->defense_strength, "%s.defense", sec_name) || !secfile_lookup_int(file, &u->move_rate, "%s.move_rate", sec_name) || !secfile_lookup_int(file, &u->vision_radius_sq, "%s.vision_radius_sq", sec_name) || !secfile_lookup_int(file, &u->transport_capacity, "%s.transport_cap", sec_name) || !secfile_lookup_int(file, &u->hp, "%s.hitpoints", sec_name) || !secfile_lookup_int(file, &u->firepower, "%s.firepower", sec_name) || !secfile_lookup_int(file, &u->fuel, "%s.fuel", sec_name) || !secfile_lookup_int(file, &u->happy_cost, "%s.uk_happy", sec_name)) { ruleset_error(LOG_FATAL, "%s", secfile_error()); } u->move_rate *= SINGLE_MOVE; if (u->firepower <= 0) { ruleset_error(LOG_FATAL, "\"%s\" unit_type \"%s\":" " firepower is %d," " but must be at least 1. " " If you want no attack ability," " set the unit's attack strength to 0.", filename, utype_rule_name(u), u->firepower); } output_type_iterate(o) { u->upkeep[o] = secfile_lookup_int_default(file, 0, "%s.uk_%s", sec_name, get_output_identifier(o)); } output_type_iterate_end; slist = secfile_lookup_str_vec(file, &nval, "%s.cargo", sec_name); BV_CLR_ALL(u->cargo); for (j = 0; j < nval; j++) { struct unit_class *uclass = unit_class_by_rule_name(slist[j]); if (!uclass) { ruleset_error(LOG_FATAL, "\"%s\" unit_type \"%s\":" "has unknown unit class %s as cargo.", filename, utype_rule_name(u), slist[j]); } BV_SET(u->cargo, uclass_index(uclass)); } free(slist); slist = secfile_lookup_str_vec(file, &nval, "%s.targets", sec_name); BV_CLR_ALL(u->targets); for (j = 0; j < nval; j++) { struct unit_class *uclass = unit_class_by_rule_name(slist[j]); if (!uclass) { ruleset_error(LOG_FATAL, "\"%s\" unit_type \"%s\":" "has unknown unit class %s as target.", filename, utype_rule_name(u), slist[j]); } BV_SET(u->targets, uclass_index(uclass)); } free(slist); /* Set also all classes that are never unreachable as targets. */ unit_class_iterate(pclass) { if (!uclass_has_flag(pclass, UCF_UNREACHABLE)) { BV_SET(u->targets, uclass_index(pclass)); } } unit_class_iterate_end; u->helptext = lookup_strvec(file, sec_name, "helptext"); u->paratroopers_range = secfile_lookup_int_default(file, 0, "%s.paratroopers_range", sec_name); u->paratroopers_mr_req = SINGLE_MOVE * secfile_lookup_int_default(file, 0, "%s.paratroopers_mr_req", sec_name); u->paratroopers_mr_sub = SINGLE_MOVE * secfile_lookup_int_default(file, 0, "%s.paratroopers_mr_sub", sec_name); u->bombard_rate = secfile_lookup_int_default(file, 0, "%s.bombard_rate", sec_name); u->city_size = secfile_lookup_int_default(file, 1, "%s.city_size", sec_name); } unit_type_iterate_end; /* flags */ unit_type_iterate(u) { const int i = utype_index(u); BV_CLR_ALL(u->flags); fc_assert(!utype_has_flag(u, F_LAST - 1)); slist = secfile_lookup_str_vec(file, &nval, "%s.flags", section_name(section_list_get(sec, i))); for(j=0; j<nval; j++) { sval = slist[j]; if (0 == strcmp(sval, "")) { continue; } ival = unit_flag_by_rule_name(sval); if (F_LAST == ival) { log_error("\"%s\" unit_type \"%s\": bad flag name \"%s\".", filename, utype_rule_name(u), sval); ival = unit_class_flag_id_by_name(sval, fc_strcasecmp); if (unit_class_flag_id_is_valid(ival)) { ruleset_error(LOG_FATAL, "\"%s\" unit_type \"%s\": unit_class flag!", filename, utype_rule_name(u)); } else { ruleset_error(LOG_FATAL, "\"%s\" unit_type \"%s\": bad flag name \"%s\".", filename, utype_rule_name(u), sval); } } else { BV_SET(u->flags, ival); } fc_assert(utype_has_flag(u, ival)); } free(slist); } unit_type_iterate_end; /* roles */ unit_type_iterate(u) { const int i = utype_index(u); BV_CLR_ALL(u->roles); slist = secfile_lookup_str_vec(file, &nval, "%s.roles", section_name(section_list_get(sec, i))); for(j=0; j<nval; j++) { sval = slist[j]; if(strcmp(sval,"")==0) { continue; } ival = unit_role_by_rule_name(sval); if (ival==L_LAST) { log_error("\"%s\" unit_type \"%s\": bad role name \"%s\".", filename, utype_rule_name(u), sval); } else if ((ival == L_FERRYBOAT || ival == L_BARBARIAN_BOAT) && u->uclass->move_type == UMT_LAND) { log_error( "\"%s\" unit_type \"%s\": role \"%s\" " "for land moving unit.", filename, utype_rule_name(u), sval); } else { BV_SET(u->roles, ival - L_FIRST); } fc_assert(utype_has_role(u, ival)); } free(slist); } unit_type_iterate_end; /* Some more consistency checking: */ unit_type_iterate(u) { if (!valid_advance(u->require_advance)) { log_error("\"%s\" unit_type \"%s\": depends on removed tech \"%s\".", filename, utype_rule_name(u), advance_rule_name(u->require_advance)); u->require_advance = A_NEVER; } if (utype_has_flag(u, F_SETTLERS) && u->city_size <= 0) { ruleset_error(LOG_ERROR, "\"%s\": Unit %s would build size %d cities", filename, utype_rule_name(u), u->city_size); u->city_size = 1; } } unit_type_iterate_end; /* Setup roles and flags pre-calcs: */ role_unit_precalcs(); /* Check some required flags and roles etc: */ if(num_role_units(F_CITIES)==0) { ruleset_error(LOG_FATAL, "\"%s\": No flag=cities units?", filename); } if(num_role_units(F_SETTLERS)==0) { ruleset_error(LOG_FATAL, "\"%s\": No flag=settler units?", filename); } if(num_role_units(L_EXPLORER)==0) { ruleset_error(LOG_FATAL, "\"%s\": No role=explorer units?", filename); } if(num_role_units(L_FERRYBOAT)==0) { ruleset_error(LOG_FATAL, "\"%s\": No role=ferryboat units?", filename); } if(num_role_units(L_FIRSTBUILD)==0) { ruleset_error(LOG_FATAL, "\"%s\": No role=firstbuild units?", filename); } if (0 == num_role_units(L_BARBARIAN) && BARBS_DISABLED != game.server.barbarianrate) { ruleset_error(LOG_FATAL, "\"%s\": No role=barbarian units?", filename); } if (0 == num_role_units(L_BARBARIAN_LEADER) && BARBS_DISABLED != game.server.barbarianrate) { ruleset_error(LOG_FATAL, "\"%s\": No role=barbarian leader units?", filename); } if (0 == num_role_units(L_BARBARIAN_BUILD) && BARBS_DISABLED != game.server.barbarianrate) { ruleset_error(LOG_FATAL, "\"%s\": No role=barbarian build units?", filename); } if (0 == num_role_units(L_BARBARIAN_BOAT) && BARBS_DISABLED != game.server.barbarianrate) { ruleset_error(LOG_FATAL, "\"%s\": No role=barbarian ship units?", filename); } else if (num_role_units(L_BARBARIAN_BOAT) > 0) { u = get_role_unit(L_BARBARIAN_BOAT,0); if(utype_move_type(u) != UMT_SEA) { ruleset_error(LOG_FATAL, "\"%s\": Barbarian boat (%s) needs to be a sea unit.", filename, utype_rule_name(u)); } } if (0 == num_role_units(L_BARBARIAN_SEA) && BARBS_DISABLED != game.server.barbarianrate) { ruleset_error(LOG_FATAL, "\"%s\": No role=sea raider barbarian units?", filename); } section_list_destroy(csec); section_list_destroy(sec); secfile_check_unused(file); secfile_destroy(file); } /************************************************************************** Load names of buildings so other rulesets can refer to buildings with their name. **************************************************************************/ static void load_building_names(struct section_file *file) { struct section_list *sec; int i, nval = 0; const char *filename = secfile_name(file); (void) secfile_entry_by_path(file, "datafile.description"); /* unused */ /* The names: */ sec = secfile_sections_by_name_prefix(file, BUILDING_SECTION_PREFIX); if (NULL == sec || 0 == (nval = section_list_size(sec))) { ruleset_error(LOG_FATAL, "\"%s\": No improvements?!?", filename); } log_verbose("%d improvement types (including possibly unused)", nval); if (nval > B_LAST) { ruleset_error(LOG_FATAL, "\"%s\": Too many improvements (%d, max %d)", filename, nval, B_LAST); } game.control.num_impr_types = nval; for (i = 0; i < nval; i++) { struct impr_type *b = improvement_by_number(i); ruleset_load_names(&b->name, file, section_name(section_list_get(sec, i))); } section_list_destroy(sec); } /************************************************************************** Load buildings related ruleset data **************************************************************************/ static void load_ruleset_buildings(struct section_file *file) { struct section_list *sec; const char *item; int i, nval; const char *filename = secfile_name(file); (void) check_ruleset_capabilities(file, RULESET_CAPABILITIES, filename); sec = secfile_sections_by_name_prefix(file, BUILDING_SECTION_PREFIX); nval = (NULL != sec ? section_list_size(sec) : 0); for (i = 0; i < nval; i++) { struct impr_type *b = improvement_by_number(i); const char *sec_name = section_name(section_list_get(sec, i)); struct requirement_vector *reqs = lookup_req_list(file, sec_name, "reqs", improvement_rule_name(b)); const char *sval, **slist; int j, ival; size_t nflags; item = secfile_lookup_str(file, "%s.genus", sec_name); b->genus = impr_genus_id_by_name(item, fc_strcasecmp); if (!impr_genus_id_is_valid(b->genus)) { ruleset_error(LOG_FATAL, "\"%s\" improvement \"%s\": couldn't match " "genus \"%s\".", filename, improvement_rule_name(b), item); } slist = secfile_lookup_str_vec(file, &nflags, "%s.flags", sec_name); BV_CLR_ALL(b->flags); for(j=0; j<nflags; j++) { sval = slist[j]; if(strcmp(sval,"")==0) { continue; } ival = impr_flag_id_by_name(sval, fc_strcasecmp); if (!impr_flag_id_is_valid(ival)) { ruleset_error(LOG_FATAL, "\"%s\" improvement \"%s\": bad flag name \"%s\".", filename, improvement_rule_name(b), sval); } else { BV_SET(b->flags, ival); } } free(slist); requirement_vector_copy(&b->reqs, reqs); b->obsolete_by = lookup_tech(file, sec_name, "obsolete_by", LOG_ERROR, filename, rule_name(&b->name)); if (advance_by_number(A_NONE) == b->obsolete_by) { /* * The ruleset can specify "None" for a never-obsoleted * improvement. Currently this means A_NONE, which is an * unnecessary special-case. We use A_NEVER to flag a * never-obsoleted improvement in the code instead. * (Test for valid_advance() later.) */ b->obsolete_by = A_NEVER; } b->replaced_by = lookup_building(file, sec_name, "replaced_by", LOG_ERROR, filename, rule_name(&b->name)); if (!secfile_lookup_int(file, &b->build_cost, "%s.build_cost", sec_name) || !secfile_lookup_int(file, &b->upkeep, "%s.upkeep", sec_name) || !secfile_lookup_int(file, &b->sabotage, "%s.sabotage", sec_name)) { ruleset_error(LOG_FATAL, "%s", secfile_error()); } sz_strlcpy(b->graphic_str, secfile_lookup_str_default(file, "-", "%s.graphic", sec_name)); sz_strlcpy(b->graphic_alt, secfile_lookup_str_default(file, "-", "%s.graphic_alt", sec_name)); sz_strlcpy(b->soundtag, secfile_lookup_str_default(file, "-", "%s.sound", sec_name)); sz_strlcpy(b->soundtag_alt, secfile_lookup_str_default(file, "-", "%s.sound_alt", sec_name)); b->helptext = lookup_strvec(file, sec_name, "helptext"); b->allows_units = FALSE; unit_type_iterate(ut) { if (ut->need_improvement == b) { b->allows_units = TRUE; break; } } unit_type_iterate_end; } /* Some more consistency checking: */ improvement_iterate(b) { if (valid_improvement(b)) { if (A_NEVER != b->obsolete_by && !valid_advance(b->obsolete_by)) { log_error("\"%s\" improvement \"%s\": obsoleted by " "removed tech \"%s\".", filename, improvement_rule_name(b), advance_rule_name(b->obsolete_by)); b->obsolete_by = A_NEVER; } } } improvement_iterate_end; section_list_destroy(sec); secfile_check_unused(file); secfile_destroy(file); } /************************************************************************** Load names of terrain types so other rulesets can refer to terrains with their name. **************************************************************************/ static void load_terrain_names(struct section_file *file) { int nval = 0; struct section_list *sec; const char *filename = secfile_name(file); (void) secfile_entry_by_path(file, "datafile.description"); /* unused */ /* terrain names */ sec = secfile_sections_by_name_prefix(file, TERRAIN_SECTION_PREFIX); if (NULL == sec || 0 == (nval = section_list_size(sec))) { ruleset_error(LOG_FATAL, "\"%s\": ruleset doesn't have any terrains.", filename); } if (nval > MAX_NUM_TERRAINS) { ruleset_error(LOG_FATAL, "\"%s\": Too many terrains (%d, max %d)", filename, nval, MAX_NUM_TERRAINS); } game.control.terrain_count = nval; /* avoid re-reading files */ if (terrain_sections) { free(terrain_sections); } terrain_sections = fc_calloc(nval, MAX_SECTION_LABEL); terrain_type_iterate(pterrain) { const int i = terrain_index(pterrain); const char *sec_name = section_name(section_list_get(sec, i)); ruleset_load_names(&pterrain->name, file, sec_name); if (0 == strcmp(rule_name(&pterrain->name), "unused")) { name_set(&pterrain->name, ""); } section_strlcpy(&terrain_sections[i * MAX_SECTION_LABEL], sec_name); } terrain_type_iterate_end; section_list_destroy(sec); /* resource names */ sec = secfile_sections_by_name_prefix(file, RESOURCE_SECTION_PREFIX); nval = (NULL != sec ? section_list_size(sec) : 0); if (nval > MAX_NUM_RESOURCES) { ruleset_error(LOG_FATAL, "\"%s\": Too many resources (%d, max %d)", filename, nval, MAX_NUM_RESOURCES); } game.control.resource_count = nval; /* avoid re-reading files */ if (resource_sections) { free(resource_sections); } resource_sections = fc_calloc(nval, MAX_SECTION_LABEL); resource_type_iterate(presource) { const int i = resource_index(presource); const char *sec_name = section_name(section_list_get(sec, i)); ruleset_load_names(&presource->name, file, sec_name); if (0 == strcmp(rule_name(&presource->name), "unused")) { name_set(&presource->name, ""); } section_strlcpy(&resource_sections[i * MAX_SECTION_LABEL], sec_name); } resource_type_iterate_end; if (NULL != sec) { section_list_destroy(sec); } /* base names */ sec = secfile_sections_by_name_prefix(file, BASE_SECTION_PREFIX); nval = (NULL != sec ? section_list_size(sec) : 0); if (nval > MAX_BASE_TYPES) { ruleset_error(LOG_FATAL, "\"%s\": Too many base types (%d, max %d)", filename, nval, MAX_BASE_TYPES); } game.control.num_base_types = nval; if (base_sections) { free(base_sections); } base_sections = fc_calloc(nval, MAX_SECTION_LABEL); base_type_iterate(pbase) { const int i = base_index(pbase); const char *sec_name = section_name(section_list_get(sec, i)); ruleset_load_names(&pbase->name, file, sec_name); section_strlcpy(&base_sections[i * MAX_SECTION_LABEL], sec_name); } base_type_iterate_end; if (NULL != sec) { section_list_destroy(sec); } } /************************************************************************** Load terrain types related ruleset data **************************************************************************/ static void load_ruleset_terrain(struct section_file *file) { struct strvec *psv; size_t nval; int j; const char **res; const char *filename = secfile_name(file); /* char *datafile_options = */ (void) check_ruleset_capabilities(file, RULESET_CAPABILITIES, filename); /* options */ terrain_control.may_road = secfile_lookup_bool_default(file, TRUE, "options.may_road"); terrain_control.may_irrigate = secfile_lookup_bool_default(file, TRUE, "options.may_irrigate"); terrain_control.may_mine = secfile_lookup_bool_default(file, TRUE, "options.may_mine"); terrain_control.may_transform = secfile_lookup_bool_default(file, TRUE, "options.may_transform"); /* parameters */ terrain_control.ocean_reclaim_requirement_pct = secfile_lookup_int_default(file, 101, "parameters.ocean_reclaim_requirement"); terrain_control.land_channel_requirement_pct = secfile_lookup_int_default(file, 101, "parameters.land_channel_requirement"); terrain_control.lake_max_size = secfile_lookup_int_default(file, 0, "parameters.lake_max_size"); map.server.ocean_resources = secfile_lookup_bool_default(file, FALSE, "parameters.ocean_resources"); terrain_control.river_move_mode = secfile_lookup_int_default(file, RMV_FAST_STRICT, "parameters.river_move_mode"); terrain_control.river_defense_bonus = secfile_lookup_int_default(file, 50, "parameters.river_defense_bonus"); terrain_control.river_trade_incr = secfile_lookup_int_default(file, 1, "parameters.river_trade_incr"); psv = lookup_strvec(file, "parameters", "river_help_text"); PACKET_STRVEC_COMPUTE(terrain_control.river_help_text, psv); if (NULL != psv) { strvec_destroy(psv); } terrain_control.road_superhighway_trade_bonus = secfile_lookup_int_default(file, 50, "parameters.road_superhighway_trade_bonus"); output_type_iterate(o) { terrain_control.rail_tile_bonus[o] = secfile_lookup_int_default(file, 0, "parameters.rail_%s_bonus", get_output_identifier(o)); terrain_control.pollution_tile_penalty[o] = secfile_lookup_int_default(file, 50, "parameters.pollution_%s_penalty", get_output_identifier(o)); terrain_control.fallout_tile_penalty[o] = secfile_lookup_int_default(file, 50, "parameters.fallout_%s_penalty", get_output_identifier(o)); } output_type_iterate_end; /* terrain details */ terrain_type_iterate(pterrain) { const char **slist; const int i = terrain_index(pterrain); const char *tsection = &terrain_sections[i * MAX_SECTION_LABEL]; sz_strlcpy(pterrain->graphic_str, secfile_lookup_str(file,"%s.graphic", tsection)); sz_strlcpy(pterrain->graphic_alt, secfile_lookup_str(file,"%s.graphic_alt", tsection)); pterrain->identifier = secfile_lookup_str(file, "%s.identifier", tsection)[0]; if ('\0' == pterrain->identifier) { ruleset_error(LOG_FATAL, "\"%s\" [%s] identifier missing value.", filename, tsection); } if (TERRAIN_UNKNOWN_IDENTIFIER == pterrain->identifier) { ruleset_error(LOG_FATAL, "\"%s\" [%s] cannot use '%c' as an identifier;" " it is reserved for unknown terrain.", filename, tsection, pterrain->identifier); } for (j = T_FIRST; j < i; j++) { if (pterrain->identifier == terrain_by_number(j)->identifier) { ruleset_error(LOG_FATAL, "\"%s\" [%s] has the same identifier as [%s].", filename, tsection, &terrain_sections[j * MAX_SECTION_LABEL]); } } if (!secfile_lookup_int(file, &pterrain->movement_cost, "%s.movement_cost", tsection) || !secfile_lookup_int(file, &pterrain->defense_bonus, "%s.defense_bonus", tsection)) { ruleset_error(LOG_FATAL, "%s", secfile_error()); } output_type_iterate(o) { pterrain->output[o] = secfile_lookup_int_default(file, 0, "%s.%s", tsection, get_output_identifier(o)); } output_type_iterate_end; res = secfile_lookup_str_vec(file, &nval, "%s.resources", tsection); pterrain->resources = fc_calloc(nval + 1, sizeof(*pterrain->resources)); for (j = 0; j < nval; j++) { pterrain->resources[j] = lookup_resource(filename, res[j], tsection); } pterrain->resources[nval] = NULL; free(res); res = NULL; if (!secfile_lookup_int(file, &pterrain->road_trade_incr, "%s.road_trade_incr", tsection) || !secfile_lookup_int(file, &pterrain->road_time, "%s.road_time", tsection)) { ruleset_error(LOG_FATAL, "%s", secfile_error()); } pterrain->irrigation_result = lookup_terrain(file, "irrigation_result", pterrain); if (!secfile_lookup_int(file, &pterrain->irrigation_food_incr, "%s.irrigation_food_incr", tsection) || !secfile_lookup_int(file, &pterrain->irrigation_time, "%s.irrigation_time", tsection)) { ruleset_error(LOG_FATAL, "%s", secfile_error()); } pterrain->mining_result = lookup_terrain(file, "mining_result", pterrain); if (!secfile_lookup_int(file, &pterrain->mining_shield_incr, "%s.mining_shield_incr", tsection) || !secfile_lookup_int(file, &pterrain->mining_time, "%s.mining_time", tsection)) { ruleset_error(LOG_FATAL, "%s", secfile_error()); } pterrain->transform_result = lookup_terrain(file, "transform_result", pterrain); if (!secfile_lookup_int(file, &pterrain->transform_time, "%s.transform_time", tsection)) { ruleset_error(LOG_FATAL, "%s", secfile_error()); } pterrain->rail_time = secfile_lookup_int_default(file, 3, "%s.rail_time", tsection); pterrain->clean_pollution_time = secfile_lookup_int_default(file, 3, "%s.clean_pollution_time", tsection); pterrain->clean_fallout_time = secfile_lookup_int_default(file, 3, "%s.clean_fallout_time", tsection); pterrain->warmer_wetter_result = lookup_terrain(file, "warmer_wetter_result", pterrain); pterrain->warmer_drier_result = lookup_terrain(file, "warmer_drier_result", pterrain); pterrain->cooler_wetter_result = lookup_terrain(file, "cooler_wetter_result", pterrain); pterrain->cooler_drier_result = lookup_terrain(file, "cooler_drier_result", pterrain); slist = secfile_lookup_str_vec(file, &nval, "%s.flags", tsection); BV_CLR_ALL(pterrain->flags); for (j = 0; j < nval; j++) { const char *sval = slist[j]; enum terrain_flag_id flag = terrain_flag_id_by_name(sval, fc_strcasecmp); if (!terrain_flag_id_is_valid(flag)) { ruleset_error(LOG_FATAL, "\"%s\" [%s] has unknown flag \"%s\".", filename, tsection, sval); } else { BV_SET(pterrain->flags, flag); } } free(slist); { enum mapgen_terrain_property mtp; for (mtp = mapgen_terrain_property_begin(); mtp != mapgen_terrain_property_end(); mtp = mapgen_terrain_property_next(mtp)) { pterrain->property[mtp] = secfile_lookup_int_default(file, 0, "%s.property_%s", tsection, mapgen_terrain_property_name(mtp)); } } slist = secfile_lookup_str_vec(file, &nval, "%s.native_to", tsection); BV_CLR_ALL(pterrain->native_to); for (j = 0; j < nval; j++) { struct unit_class *class = unit_class_by_rule_name(slist[j]); if (!class) { ruleset_error(LOG_FATAL, "\"%s\" [%s] is native to unknown unit class \"%s\".", filename, tsection, slist[j]); } else { BV_SET(pterrain->native_to, uclass_index(class)); } } free(slist); /* get terrain color */ { fc_assert_ret(pterrain->rgb == NULL); if (!rgbcolor_load(file, &pterrain->rgb, "%s.color", tsection)) { ruleset_error(LOG_FATAL, "Missing terrain color definition: %s", secfile_error()); } } pterrain->helptext = lookup_strvec(file, tsection, "helptext"); } terrain_type_iterate_end; /* resource details */ resource_type_iterate(presource) { char identifier[MAX_LEN_NAME]; const int i = resource_index(presource); const char *rsection = &resource_sections[i * MAX_SECTION_LABEL]; output_type_iterate (o) { presource->output[o] = secfile_lookup_int_default(file, 0, "%s.%s", rsection, get_output_identifier(o)); } output_type_iterate_end; sz_strlcpy(presource->graphic_str, secfile_lookup_str(file,"%s.graphic", rsection)); sz_strlcpy(presource->graphic_alt, secfile_lookup_str(file,"%s.graphic_alt", rsection)); sz_strlcpy(identifier, secfile_lookup_str(file,"%s.identifier", rsection)); presource->identifier = identifier[0]; if (RESOURCE_NULL_IDENTIFIER == presource->identifier) { ruleset_error(LOG_FATAL, "\"%s\" [%s] identifier missing value.", filename, rsection); } if (RESOURCE_NONE_IDENTIFIER == presource->identifier) { ruleset_error(LOG_FATAL, "\"%s\" [%s] cannot use '%c' as an identifier;" " it is reserved.", filename, rsection, presource->identifier); } for (j = 0; j < i; j++) { if (presource->identifier == resource_by_number(j)->identifier) { ruleset_error(LOG_FATAL, "\"%s\" [%s] has the same identifier as [%s].", filename, rsection, &resource_sections[j * MAX_SECTION_LABEL]); } } } resource_type_iterate_end; /* base details */ base_type_iterate(pbase) { BV_CLR_ALL(pbase->conflicts); } base_type_iterate_end; base_type_iterate(pbase) { const char *section = &base_sections[base_index(pbase) * MAX_SECTION_LABEL]; int j; const char **slist; struct requirement_vector *reqs; const char *gui_str; pbase->buildable = secfile_lookup_bool_default(file, TRUE, "%s.buildable", section); pbase->pillageable = secfile_lookup_bool_default(file, TRUE, "%s.pillageable", section); sz_strlcpy(pbase->graphic_str, secfile_lookup_str_default(file, "-", "%s.graphic", section)); sz_strlcpy(pbase->graphic_alt, secfile_lookup_str_default(file, "-", "%s.graphic_alt", section)); sz_strlcpy(pbase->activity_gfx, secfile_lookup_str_default(file, "-", "%s.activity_gfx", section)); reqs = lookup_req_list(file, section, "reqs", base_rule_name(pbase)); requirement_vector_copy(&pbase->reqs, reqs); slist = secfile_lookup_str_vec(file, &nval, "%s.native_to", section); BV_CLR_ALL(pbase->native_to); for (j = 0; j < nval; j++) { struct unit_class *class = unit_class_by_rule_name(slist[j]); if (!class) { ruleset_error(LOG_FATAL, "\"%s\" base \"%s\" is native to unknown unit class \"%s\".", filename, base_rule_name(pbase), slist[j]); } else { BV_SET(pbase->native_to, uclass_index(class)); } } free(slist); gui_str = secfile_lookup_str(file,"%s.gui_type", section); pbase->gui_type = base_gui_type_by_name(gui_str, fc_strcasecmp); if (!base_gui_type_is_valid(pbase->gui_type)) { ruleset_error(LOG_FATAL, "\"%s\" base \"%s\": unknown gui_type \"%s\".", filename, base_rule_name(pbase), gui_str); } if (!secfile_lookup_int(file, &pbase->build_time, "%s.build_time", section)) { ruleset_error(LOG_FATAL, "%s", secfile_error()); } pbase->border_sq = secfile_lookup_int_default(file, -1, "%s.border_sq", section); pbase->vision_main_sq = secfile_lookup_int_default(file, -1, "%s.vision_main_sq", section); pbase->vision_invis_sq = secfile_lookup_int_default(file, -1, "%s.vision_invis_sq", section); pbase->defense_bonus = secfile_lookup_int_default(file, 0, "%s.defense_bonus", section); slist = secfile_lookup_str_vec(file, &nval, "%s.flags", section); BV_CLR_ALL(pbase->flags); for (j = 0; j < nval; j++) { const char *sval = slist[j]; enum base_flag_id flag = base_flag_id_by_name(sval, fc_strcasecmp); if (!base_flag_id_is_valid(flag)) { ruleset_error(LOG_FATAL, "\"%s\" base \"%s\": unknown flag \"%s\".", filename, base_rule_name(pbase), sval); } else { BV_SET(pbase->flags, flag); } } free(slist); slist = secfile_lookup_str_vec(file, &nval, "%s.conflicts", section); for (j = 0; j < nval; j++) { const char *sval = slist[j]; struct base_type *pbase2 = base_type_by_rule_name(sval); if (pbase2 == NULL) { ruleset_error(LOG_FATAL, "\"%s\" base \"%s\": unknown conflict base \"%s\".", filename, base_rule_name(pbase), sval); } else { BV_SET(pbase->conflicts, base_index(pbase2)); BV_SET(pbase2->conflicts, base_index(pbase)); } } free(slist); if (territory_claiming_base(pbase)) { base_type_iterate(pbase2) { if (pbase == pbase2) { /* End of the fully initialized bases iteration. */ break; } if (territory_claiming_base(pbase2)) { BV_SET(pbase->conflicts, base_index(pbase2)); BV_SET(pbase2->conflicts, base_index(pbase)); } } base_type_iterate_end; } pbase->helptext = lookup_strvec(file, section, "helptext"); } base_type_iterate_end; secfile_check_unused(file); secfile_destroy(file); } /************************************************************************** Load names of governments so other rulesets can refer to governments with their name. **************************************************************************/ static void load_government_names(struct section_file *file) { int nval = 0; struct section_list *sec; const char *filename = secfile_name(file); (void) secfile_entry_by_path(file, "datafile.description"); /* unused */ sec = secfile_sections_by_name_prefix(file, GOVERNMENT_SECTION_PREFIX); if (NULL == sec || 0 == (nval = section_list_size(sec))) { ruleset_error(LOG_FATAL, "\"%s\": No governments?!?", filename); } else if(nval > G_MAGIC) { /* upper limit is really about 255 for 8-bit id values, but use G_MAGIC elsewhere as a sanity check, and should be plenty big enough --dwp */ ruleset_error(LOG_FATAL, "\"%s\": Too many governments (%d, max %d)", filename, nval, G_MAGIC); } governments_alloc(nval); /* Government names are needed early so that get_government_by_name will * work. */ governments_iterate(gov) { const char *sec_name = section_name(section_list_get(sec, government_index(gov))); ruleset_load_names(&gov->name, file, sec_name); } governments_iterate_end; section_list_destroy(sec); } /************************************************************************** This loads information from given governments.ruleset **************************************************************************/ static void load_ruleset_governments(struct section_file *file) { struct section_list *sec; const char *filename = secfile_name(file); (void) check_ruleset_capabilities(file, RULESET_CAPABILITIES, filename); sec = secfile_sections_by_name_prefix(file, GOVERNMENT_SECTION_PREFIX); game.government_during_revolution = lookup_government(file, "governments.during_revolution", filename, NULL); game.info.government_during_revolution_id = government_number(game.government_during_revolution); /* easy ones: */ governments_iterate(g) { const int i = government_index(g); const char *sec_name = section_name(section_list_get(sec, i)); struct requirement_vector *reqs = lookup_req_list(file, sec_name, "reqs", government_rule_name(g)); if (NULL != secfile_entry_lookup(file, "%s.ai_better", sec_name)) { char entry[100]; fc_snprintf(entry, sizeof(entry), "%s.ai_better", sec_name); g->ai.better = lookup_government(file, entry, filename, NULL); } else { g->ai.better = NULL; } requirement_vector_copy(&g->reqs, reqs); sz_strlcpy(g->graphic_str, secfile_lookup_str(file, "%s.graphic", sec_name)); sz_strlcpy(g->graphic_alt, secfile_lookup_str(file, "%s.graphic_alt", sec_name)); g->helptext = lookup_strvec(file, sec_name, "helptext"); } governments_iterate_end; /* titles */ governments_iterate(g) { const char *sec_name = section_name(section_list_get(sec, government_index(g))); const char *male, *female; if (!(male = secfile_lookup_str(file, "%s.ruler_male_title", sec_name)) || !(female = secfile_lookup_str(file, "%s.ruler_female_title", sec_name))) { ruleset_error(LOG_FATAL, "Lack of default ruler titles for " "government \"%s\" (nb %d): %s", government_rule_name(g), government_number(g), secfile_error()); } else if (NULL == government_ruler_title_new(g, NULL, male, female)) { ruleset_error(LOG_FATAL, "Lack of default ruler titles for " "government \"%s\" (nb %d).", government_rule_name(g), government_number(g)); } } governments_iterate_end; section_list_destroy(sec); secfile_check_unused(file); secfile_destroy(file); } /************************************************************************** Send information in packet_ruleset_control (numbers of units etc, and other miscellany) to specified connections. The client assumes that exactly one ruleset control packet is sent as a part of each ruleset send. So after sending this packet we have to resend every other part of the rulesets (and none of them should be is-info in the network code!). The client frees ruleset data when receiving this packet and then re-initializes as it receives the individual ruleset packets. See packhand.c. **************************************************************************/ static void send_ruleset_control(struct conn_list *dest) { struct packet_ruleset_control packet; packet = game.control; lsend_packet_ruleset_control(dest, &packet); } /**************************************************************************** This checks if nations[pos] leader names are not already defined in any previous nation, or twice in its own leader name table. If not return NULL, if yes return pointer to name which is repeated and id of a conflicting nation as second parameter. ****************************************************************************/ static const char *check_leader_names(struct nation_type *pnation, struct nation_type **ppconflict_nation) { nation_leader_list_iterate(nation_leaders(pnation), pleader) { const char *name = nation_leader_name(pleader); nation_leader_list_iterate(nation_leaders(pnation), prev_leader) { if (prev_leader == pleader) { break; } else if (0 == fc_strcasecmp(name, nation_leader_name(prev_leader))) { *ppconflict_nation = pnation; return name; } } nation_leader_list_iterate_end; } nation_leader_list_iterate_end; nations_iterate(prev_nation) { if (prev_nation == pnation) { break; } nation_leader_list_iterate(nation_leaders(prev_nation), pleader) { const char *name = nation_leader_name(pleader); nation_leader_list_iterate(nation_leaders(prev_nation), prev_leader) { if (prev_leader == pleader) { break; } else if (0 == fc_strcasecmp(name, nation_leader_name(prev_leader))) { *ppconflict_nation = prev_nation; return name; } } nation_leader_list_iterate_end; } nation_leader_list_iterate_end; } nations_iterate_end; return NULL; } /************************************************************************** Load names of nations so other rulesets can refer to nations with their name. **************************************************************************/ static void load_nation_names(struct section_file *file) { struct section_list *sec; int j; (void) secfile_entry_by_path(file, "datafile.description"); /* unused */ sec = secfile_sections_by_name_prefix(file, NATION_SECTION_PREFIX); if (NULL == sec) { ruleset_error(LOG_FATAL, "No available nations in this ruleset!"); } game.control.nation_count = section_list_size(sec); nations_alloc(game.control.nation_count); nations_iterate(pl) { const int i = nation_index(pl); const char *sec_name = section_name(section_list_get(sec, i)); const char *noun_plural = secfile_lookup_str(file, "%s.plural", sec_name); ruleset_load_names(&pl->adjective, file, sec_name); name_set(&pl->noun_plural, noun_plural); /* Check if nation name is already defined. */ for(j = 0; j < i; j++) { struct nation_type *n2 = nation_by_number(j); /* Compare strings after stripping off qualifiers -- we don't want * two nations to end up with identical adjectives displayed to users. * (This check only catches English, not localisations, of course.) */ if (0 == strcmp(Qn_(untranslated_name(&n2->adjective)), Qn_(untranslated_name(&pl->adjective)))) { ruleset_error(LOG_FATAL, "Two nations defined with the same adjective \"%s\": " "in section \'%s\' and section \'%s\'", Qn_(untranslated_name(&pl->adjective)), section_name(section_list_get(sec, j)), sec_name); } else if (0 == strcmp(rule_name(&n2->adjective), rule_name(&pl->adjective))) { /* We cannot have the same rule name, as the game needs them to be * distinct. */ ruleset_error(LOG_FATAL, "Two nations defined with the same rule_name \"%s\": " "in section \'%s\' and section \'%s\'", rule_name(&pl->adjective), section_name(section_list_get(sec, j)), sec_name); } else if (0 == strcmp(Qn_(untranslated_name(&n2->noun_plural)), Qn_(untranslated_name(&pl->noun_plural)))) { /* We don't want identical English plural names either. */ ruleset_error(LOG_FATAL, "Two nations defined with the same plural name \"%s\": " "in section \'%s\' and section \'%s\'", Qn_(untranslated_name(&pl->noun_plural)), section_name(section_list_get(sec, j)), sec_name); } } } nations_iterate_end; section_list_destroy(sec); } /**************************************************************************** This function loads a city name list from a section file. The file and two section names (which will be concatenated) are passed in. The malloc'ed city name list (which is all filled out) will be returned. ****************************************************************************/ static void load_city_name_list(struct section_file *file, struct nation_type *pnation, const char *secfile_str1, const char *secfile_str2) { size_t dim, j; const char **cities = secfile_lookup_str_vec(file, &dim, "%s.%s", secfile_str1, secfile_str2); /* Each string will be of the form "<cityname> (<label>, <label>, ...)". * The cityname is just the name for this city, while each "label" matches * a terrain type for the city (or "river"), with a preceeding ! to negate * it. The parentheses are optional (but necessary to have the settings, * of course). Our job is now to parse it. */ for (j = 0; j < dim; j++) { size_t len = strlen(cities[j]); char city_name[len + 1], *p, *next, *end; struct nation_city *pncity; sz_strlcpy(city_name, cities[j]); /* Now we wish to determine values for all of the city labels. A value * of NCP_NONE means no preference (which is necessary so that the use * of this is optional); NCP_DISLIKE means the label is negated and * NCP_LIKE means it's labelled. Mostly the parsing just involves * a lot of ugly string handling... */ if ((p = strchr(city_name, '('))) { *p++ = '\0'; if (!(end = strchr(p, ')'))) { ruleset_error(LOG_ERROR, "\"%s\" [%s] %s: city name \"%s\" " "unmatched parenthesis.", secfile_name(file), secfile_str1, secfile_str2, cities[j]); } for (*end++ = '\0'; '\0' != *end; end++) { if (!fc_isspace(*end)) { ruleset_error(LOG_ERROR, "\"%s\" [%s] %s: city name \"%s\" " "contains characthers after last parenthesis, " "ignoring...", secfile_name(file), secfile_str1, secfile_str2, cities[j]); } } } /* Build the nation_city. */ remove_leading_trailing_spaces(city_name); if (check_name(city_name)) { /* The ruleset contains a name that is too long. This shouldn't * happen - if it does, the author should get immediate feedback. */ ruleset_error(LOG_ERROR, "\"%s\" [%s] %s: city name \"%s\" " "is too long; shortening it.", secfile_name(file), secfile_str1, secfile_str2, city_name); city_name[MAX_LEN_NAME - 1] = '\0'; } pncity = nation_city_new(pnation, city_name); if (NULL != p) { /* Handle the labels one at a time. */ do { enum nation_city_preference prefer; if ((next = strchr(p, ','))) { *next = '\0'; } remove_leading_trailing_spaces(p); /* The ! is used to mark a negative, which is recorded with * NCP_DISLIKE. Otherwise we use a NCP_LIKE. */ if (*p == '!') { p++; prefer = NCP_DISLIKE; } else { prefer = NCP_LIKE; } if (0 == fc_strcasecmp(p, "river")) { nation_city_set_river_preference(pncity, prefer); } else { const struct terrain *pterrain = terrain_by_rule_name(p); if (NULL == pterrain) { /* Try with removing frequent trailing 's'. */ size_t l = strlen(p); if (0 < l && 's' == fc_tolower(p[l - 1])) { p[l - 1] = '\0'; } pterrain = terrain_by_rule_name(p); } if (NULL != pterrain) { nation_city_set_terrain_preference(pncity, pterrain, prefer); } else { /* Nation authors may use terrains like "lake" that are * available in the default ruleset but not in civ1/civ2. * In normal use we should just ignore hints for unknown * terrains, but nation authors may want to know about this * to spot typos etc. */ log_verbose("\"%s\" [%s] %s: terrain \"%s\" not found;" " skipping it.", secfile_name(file), secfile_str1, secfile_str2, p); } } p = next ? next + 1 : NULL; } while (NULL != p && '\0' != *p); } } if (NULL != cities) { free(cities); } } /************************************************************************** Load nations.ruleset file **************************************************************************/ static void load_ruleset_nations(struct section_file *file) { struct government *gov; int j; size_t dim; char temp_name[MAX_LEN_NAME]; const char **vec; const char *name, *bad_leader; int barb_land_count = 0; int barb_sea_count = 0; bool warn_city_style; const char *sval; struct government *default_government = NULL; const char *filename = secfile_name(file); struct section_list *sec; (void) check_ruleset_capabilities(file, RULESET_CAPABILITIES, filename); warn_city_style = secfile_lookup_bool_default(file, TRUE, "compatibility.warn_city_style"); sval = secfile_lookup_str_default(file, NULL, "compatibility.default_government"); if (sval != NULL) { default_government = government_by_rule_name(sval); } set_allowed_nation_groups(NULL); sec = secfile_sections_by_name_prefix(file, NATION_SET_SECTION_PREFIX); if (sec) { section_list_iterate(sec, psection) { struct nation_group *pset; name = secfile_lookup_str(file, "%s.name", section_name(psection)); if (NULL == name) { ruleset_error(LOG_FATAL, "Error: %s", secfile_error()); } pset = nation_group_new(name); nation_group_set_set(pset, TRUE); } section_list_iterate_end; section_list_destroy(sec); } sec = secfile_sections_by_name_prefix(file, NATION_GROUP_SECTION_PREFIX); section_list_iterate(sec, psection) { struct nation_group *pgroup; name = secfile_lookup_str(file, "%s.name", section_name(psection)); if (NULL == name) { ruleset_error(LOG_FATAL, "Error: %s", secfile_error()); } pgroup = nation_group_new(name); if (!secfile_lookup_int(file, &j, "%s.match", section_name(psection))) { ruleset_error(LOG_FATAL, "Error: %s", secfile_error()); } nation_group_set_match(pgroup, j); } section_list_iterate_end; section_list_destroy(sec); sec = secfile_sections_by_name_prefix(file, NATION_SECTION_PREFIX); nations_iterate(pnation) { struct nation_type *pconflict; const int i = nation_index(pnation); char tmp[200] = "\0"; const char *barb_type; const char *sec_name = section_name(section_list_get(sec, i)); /* Nation groups. */ vec = secfile_lookup_str_vec(file, &dim, "%s.groups", sec_name); for (j = 0; j < dim; j++) { struct nation_group *pgroup = nation_group_by_rule_name(vec[j]); if (NULL != pgroup) { nation_group_list_append(pnation->groups, pgroup); } else { /* For nation authors, this would probably be considered an error. * But it can happen normally. The civ1 compatibility ruleset only * uses the nations that were in civ1, so not all of the links will * exist. */ log_verbose("Nation %s: Unknown group \"%s\".", nation_rule_name(pnation), vec[j]); } } if (NULL != vec) { free(vec); } /* Nation conflicts. */ vec = secfile_lookup_str_vec(file, &dim, "%s.conflicts_with", sec_name); for (j = 0; j < dim; j++) { pconflict = nation_by_rule_name(vec[j]); if (pnation == pconflict) { ruleset_error(LOG_ERROR, "Nation %s conflicts with itself", nation_rule_name(pnation)); } else if (NULL != pconflict) { nation_list_append(pnation->server.conflicts_with, pconflict); } else { /* For nation authors, this would probably be considered an error. * But it can happen normally. The civ1 compatibility ruleset only * uses the nations that were in civ1, so not all of the links will * exist. */ log_verbose("Nation %s: conflicts_with nation \"%s\" is unknown.", nation_rule_name(pnation), vec[j]); } } if (NULL != vec) { free(vec); } /* Nation leaders. */ for (j = 0; j < MAX_NUM_LEADERS; j++) { const char *sex; bool is_male = FALSE; name = secfile_lookup_str(file, "%s.leaders%d.name", sec_name, j); if (NULL == name) { /* No more to read. */ break; } if (check_name(name)) { /* The ruleset contains a name that is too long. This shouldn't * happen - if it does, the author should get immediate feedback */ sz_strlcpy(temp_name, name); ruleset_error(LOG_ERROR, "Nation %s: leader name \"%s\" " "is too long; shortening it to \"%s\".", nation_rule_name(pnation), name, temp_name); name = temp_name; } sex = secfile_lookup_str(file, "%s.leaders%d.sex", sec_name, j); if (NULL == sex) { ruleset_error(LOG_FATAL, "Nation %s: leader \"%s\": %s.", nation_rule_name(pnation), name, secfile_error()); } else if (0 == fc_strcasecmp("Male", sex)) { is_male = TRUE; } else if (0 != fc_strcasecmp("Female", sex)) { ruleset_error(LOG_FATAL, "Nation %s: leader \"%s\" has unsupported " "sex variant \"%s\".", nation_rule_name(pnation), name, sex); } (void) nation_leader_new(pnation, name, is_male); } /* Check the number of leaders. */ if (MAX_NUM_LEADERS == j) { /* Too much leaders, get the real number defined in the ruleset. */ while (NULL != secfile_entry_lookup(file, "%s.leaders%d.name", sec_name, j)) { j++; } log_error("Nation %s: Too many leaders; using %d of %d", nation_rule_name(pnation), MAX_NUM_LEADERS, j); } else if (0 == j) { ruleset_error(LOG_FATAL, "Nation %s: no leaders; at least one is required.", nation_rule_name(pnation)); } /* Check if leader name is not already defined */ if ((bad_leader = check_leader_names(pnation, &pconflict))) { if (pnation == pconflict) { ruleset_error(LOG_FATAL, "Nation %s: leader \"%s\" defined more than once.", nation_rule_name(pnation), bad_leader); } else { ruleset_error(LOG_FATAL, "Nations %s and %s share the same leader \"%s\".", nation_rule_name(pnation), nation_rule_name(pconflict), bad_leader); } } pnation->is_available = secfile_lookup_bool_default(file, TRUE, "%s.is_available", sec_name); pnation->is_playable = secfile_lookup_bool_default(file, TRUE, "%s.is_playable", sec_name); if (pnation->is_playable) { server.playable_nations++; } /* Check barbarian type. Default is "None" meaning not a barbarian */ barb_type = secfile_lookup_str_default(file, "None", "%s.barbarian_type", sec_name); if (fc_strcasecmp(barb_type, "None") == 0) { pnation->barb_type = NOT_A_BARBARIAN; } else if (fc_strcasecmp(barb_type, "Land") == 0) { if (pnation->is_playable) { /* We can't allow players to use barbarian nations, barbarians * may run out of nations */ ruleset_error(LOG_FATAL, "Nation %s marked both barbarian and playable.", nation_rule_name(pnation)); } pnation->barb_type = LAND_BARBARIAN; barb_land_count++; } else if (fc_strcasecmp(barb_type, "Sea") == 0) { if (pnation->is_playable) { /* We can't allow players to use barbarian nations, barbarians * may run out of nations */ ruleset_error(LOG_FATAL, "Nation %s marked both barbarian and playable.", nation_rule_name(pnation)); } pnation->barb_type = SEA_BARBARIAN; barb_sea_count++; } else { ruleset_error(LOG_FATAL, "Nation %s, barbarian_type is \"%s\". Must be " "\"None\" or \"Land\" or \"Sea\".", nation_rule_name(pnation), barb_type); } /* Flags */ sz_strlcpy(pnation->flag_graphic_str, secfile_lookup_str_default(file, "-", "%s.flag", sec_name)); sz_strlcpy(pnation->flag_graphic_alt, secfile_lookup_str_default(file, "-", "%s.flag_alt", sec_name)); /* Ruler titles */ for (j = 0;; j++) { const char *male, *female; name = secfile_lookup_str_default(file, NULL, "%s.ruler_titles%d.government", sec_name, j); if (NULL == name) { /* End of the list of ruler titles. */ break; } /* NB: even if the government doesn't exist, we load the entries for * the ruler titles to avoid warnings about unused entries. */ male = secfile_lookup_str(file, "%s.ruler_titles%d.male_title", sec_name, j); female = secfile_lookup_str(file, "%s.ruler_titles%d.female_title", sec_name, j); gov = government_by_rule_name(name); if (NULL == gov) { /* log_verbose() rather than log_error() so that can use single * nation ruleset file with variety of government ruleset files: */ log_verbose("Nation %s: government \"%s\" not found.", nation_rule_name(pnation), name); } else if (NULL != male && NULL != female) { (void) government_ruler_title_new(gov, pnation, male, female); } else { ruleset_error(LOG_ERROR, "%s", secfile_error()); } } /* City styles */ name = secfile_lookup_str(file, "%s.city_style", sec_name); pnation->city_style = city_style_by_rule_name(name); if (0 > pnation->city_style) { if (warn_city_style) { log_error("Nation %s: city style \"%s\" is unknown, using default.", nation_rule_name(pnation), name); } pnation->city_style = 0; } while (city_style_has_requirements(city_styles + pnation->city_style)) { if (pnation->city_style == 0) { ruleset_error(LOG_FATAL, "Nation %s: the default city style is not available " "from the beginning!", nation_rule_name(pnation)); /* Note that we can't use temp_name here. */ } log_error("Nation %s: city style \"%s\" is not available " "from beginning; using default.", nation_rule_name(pnation), name); pnation->city_style = 0; } /* Civilwar nations */ vec = secfile_lookup_str_vec(file, &dim, "%s.civilwar_nations", sec_name); for (j = 0; j < dim; j++) { pconflict = nation_by_rule_name(vec[j]); /* No test for duplicate nations is performed. If there is a duplicate * entry it will just cause that nation to have an increased * probability of being chosen. */ if (pconflict == pnation) { ruleset_error(LOG_ERROR, "Nation %s is its own civil war nation", nation_rule_name(pnation)); } else if (NULL != pconflict) { nation_list_append(pnation->server.civilwar_nations, pconflict); nation_list_append(pconflict->server.parent_nations, pnation); } else { /* For nation authors, this would probably be considered an error. * But it can happen normally. The civ1 compatability ruleset only * uses the nations that were in civ1, so not all of the links will * exist. */ log_verbose("Nation %s: civil war nation \"%s\" is unknown.", nation_rule_name(pnation), vec[j]); } } if (NULL != vec) { free(vec); } /* Load nation specific initial items */ lookup_tech_list(file, sec_name, "init_techs", pnation->init_techs, filename); lookup_building_list(file, sec_name, "init_buildings", pnation->init_buildings, filename); lookup_unit_list(file, sec_name, "init_units", LOG_ERROR, pnation->init_units, filename); fc_strlcat(tmp, sec_name, 200); fc_strlcat(tmp, ".init_government", 200); pnation->init_government = lookup_government(file, tmp, filename, default_government); /* Read default city names. */ load_city_name_list(file, pnation, sec_name, "cities"); pnation->legend = fc_strdup(secfile_lookup_str(file, "%s.legend", sec_name)); if (check_strlen(pnation->legend, MAX_LEN_MSG, NULL)) { ruleset_error(LOG_ERROR, "Nation %s: legend \"%s\" is too long;" " shortening it.", nation_rule_name(pnation), pnation->legend); pnation->legend[MAX_LEN_MSG - 1] = '\0'; } pnation->player = NULL; } nations_iterate_end; section_list_destroy(sec); secfile_check_unused(file); secfile_destroy(file); if (barb_land_count == 0) { ruleset_error(LOG_FATAL, "No land barbarian nation defined. At least one required!"); } if (barb_sea_count == 0) { ruleset_error(LOG_FATAL, "No sea barbarian nation defined. At least one required!"); } } /************************************************************************** Load names of city styles so other rulesets can refer to city styles with their name. **************************************************************************/ static void load_citystyle_names(struct section_file *file) { struct section_list *styles; int i = 0; (void) secfile_entry_by_path(file, "datafile.description"); /* unused */ /* The sections: */ styles = secfile_sections_by_name_prefix(file, CITYSTYLE_SECTION_PREFIX); if (NULL != styles) { city_styles_alloc(section_list_size(styles)); section_list_iterate(styles, style) { ruleset_load_names(&city_styles[i].name, file, section_name(style)); i++; } section_list_iterate_end; section_list_destroy(styles); } else { city_styles_alloc(0); } } /************************************************************************** Load cities.ruleset file **************************************************************************/ static void load_ruleset_cities(struct section_file *file) { const char *replacement; int i; const char *filename = secfile_name(file); const char *item; struct section_list *sec; (void) check_ruleset_capabilities(file, RULESET_CAPABILITIES, filename); /* Specialist options */ sec = secfile_sections_by_name_prefix(file, SPECIALIST_SECTION_PREFIX); if (section_list_size(sec) >= SP_MAX) { ruleset_error(LOG_FATAL, "\"%s\": Too many specialists (%d, max %d).", filename, section_list_size(sec), SP_MAX); } game.control.num_specialist_types = section_list_size(sec); i = 0; section_list_iterate(sec, psection) { struct specialist *s = specialist_by_number(i); struct requirement_vector *reqs; const char *sec_name = section_name(psection); ruleset_load_names(&s->name, file, sec_name); item = secfile_lookup_str_default(file, untranslated_name(&s->name), "%s.short_name", sec_name); name_set(&s->abbreviation, item); reqs = lookup_req_list(file, sec_name, "reqs", specialist_rule_name(s)); requirement_vector_copy(&s->reqs, reqs); s->helptext = lookup_strvec(file, sec_name, "helptext"); if (requirement_vector_size(&s->reqs) == 0 && DEFAULT_SPECIALIST == -1) { DEFAULT_SPECIALIST = i; } i++; } section_list_iterate_end; if (DEFAULT_SPECIALIST == -1) { ruleset_error(LOG_FATAL, "\"%s\": must give a min_size of 0 for at least one " "specialist type.", filename); } section_list_destroy(sec); /* City Parameters */ game.info.celebratesize = secfile_lookup_int_default(file, GAME_DEFAULT_CELEBRATESIZE, "parameters.celebrate_size_limit"); game.info.add_to_size_limit = secfile_lookup_int_default(file, 9, "parameters.add_to_size_limit"); game.info.angrycitizen = secfile_lookup_bool_default(file, GAME_DEFAULT_ANGRYCITIZEN, "parameters.angry_citizens"); game.info.changable_tax = secfile_lookup_bool_default(file, TRUE, "parameters.changable_tax"); game.info.forced_science = secfile_lookup_int_default(file, 0, "parameters.forced_science"); game.info.forced_luxury = secfile_lookup_int_default(file, 100, "parameters.forced_luxury"); game.info.forced_gold = secfile_lookup_int_default(file, 0, "parameters.forced_gold"); if (game.info.forced_science + game.info.forced_luxury + game.info.forced_gold != 100) { ruleset_error(LOG_FATAL, "\"%s\": Forced taxes do not add up in ruleset!", filename); } /* civ1 & 2 didn't reveal tiles */ game.server.vision_reveal_tiles = secfile_lookup_bool_default(file, FALSE, "parameters.vision_reveal_tiles"); /* Citizens configuration. */ game.info.citizen_nationality = secfile_lookup_bool_default(file, FALSE, "citizen.nationality"); /* City Styles ... */ sec = secfile_sections_by_name_prefix(file, CITYSTYLE_SECTION_PREFIX); /* Get rest: */ for (i = 0; i < game.control.styles_count; i++) { struct requirement_vector *reqs; const char *sec_name = section_name(section_list_get(sec, i)); sz_strlcpy(city_styles[i].graphic, secfile_lookup_str(file, "%s.graphic", sec_name)); sz_strlcpy(city_styles[i].graphic_alt, secfile_lookup_str(file, "%s.graphic_alt", sec_name)); sz_strlcpy(city_styles[i].oceanic_graphic, secfile_lookup_str_default(file, "", "%s.oceanic_graphic", sec_name)); sz_strlcpy(city_styles[i].oceanic_graphic_alt, secfile_lookup_str_default(file, "", "%s.oceanic_graphic_alt", sec_name)); sz_strlcpy(city_styles[i].citizens_graphic, secfile_lookup_str_default(file, "-", "%s.citizens_graphic", sec_name)); sz_strlcpy(city_styles[i].citizens_graphic_alt, secfile_lookup_str_default(file, "generic", "%s.citizens_graphic_alt", sec_name)); reqs = lookup_req_list(file, sec_name, "reqs", city_style_rule_name(i)); requirement_vector_copy(&city_styles[i].reqs, reqs); replacement = secfile_lookup_str(file, "%s.replaced_by", sec_name); if(0 == strcmp(replacement, "-")) { city_styles[i].replaced_by = -1; } else { city_styles[i].replaced_by = city_style_by_rule_name(replacement); if (city_styles[i].replaced_by < 0) { log_error("\"%s\": style \"%s\" replacement \"%s\" not found", filename, city_style_rule_name(i), replacement); } } } section_list_destroy(sec); secfile_check_unused(file); secfile_destroy(file); } /************************************************************************** Load effects.ruleset file **************************************************************************/ static void load_ruleset_effects(struct section_file *file) { struct section_list *sec; const char *type; const char *filename; filename = secfile_name(file); (void) check_ruleset_capabilities(file, RULESET_CAPABILITIES, filename); (void) secfile_entry_by_path(file, "datafile.description"); /* unused */ /* Parse effects and add them to the effects ruleset cache. */ sec = secfile_sections_by_name_prefix(file, EFFECT_SECTION_PREFIX); section_list_iterate(sec, psection) { enum effect_type eff; int value; struct effect *peffect; const char *sec_name = section_name(psection); type = secfile_lookup_str(file, "%s.name", sec_name); if (!type) { log_error("\"%s\" [%s] missing effect name.", filename, sec_name); continue; } eff = effect_type_by_name(type, fc_strcasecmp); if (!effect_type_is_valid(eff)) { log_error("\"%s\" [%s] lists unknown effect type \"%s\".", filename, sec_name, type); continue; } value = secfile_lookup_int_default(file, 1, "%s.value", sec_name); peffect = effect_new(eff, value); requirement_vector_iterate(lookup_req_list(file, sec_name, "reqs", type), req) { struct requirement *preq = fc_malloc(sizeof(*preq)); *preq = *req; effect_req_append(peffect, FALSE, preq); } requirement_vector_iterate_end; requirement_vector_iterate(lookup_req_list(file, sec_name, "nreqs", type), req) { struct requirement *preq = fc_malloc(sizeof(*preq)); *preq = *req; effect_req_append(peffect, TRUE, preq); } requirement_vector_iterate_end; } section_list_iterate_end; section_list_destroy(sec); secfile_check_unused(file); secfile_destroy(file); } /************************************************************************** Print an error message if the value is out of range. **************************************************************************/ static int secfile_lookup_int_default_min_max(struct section_file *file, int def, int min, int max, const char *path, ...) fc__attribute((__format__ (__printf__, 5, 6))); static int secfile_lookup_int_default_min_max(struct section_file *file, int def, int min, int max, const char *path, ...) { char fullpath[256]; int ival; va_list args; va_start(args, path); fc_vsnprintf(fullpath, sizeof(fullpath), path, args); va_end(args); if (!secfile_lookup_int(file, &ival, "%s", fullpath)) { ival = def; } if (ival < min) { ruleset_error(LOG_ERROR,"\"%s\" should be in the interval [%d, %d] " "but is %d; using the minimal value.", fullpath, min, max, ival); ival = min; } if (ival > max) { ruleset_error(LOG_ERROR,"\"%s\" should be in the interval [%d, %d] " "but is %d; using the maximal value.", fullpath, min, max, ival); ival = max; } return ival; } /************************************************************************** Load ruleset file. **************************************************************************/ static void load_ruleset_game(void) { struct section_file *file; const char *sval, **svec; const char *filename; int *food_ini; int i; size_t teams; const char *text; size_t gni_tmp; file = openload_ruleset_file("game"); filename = secfile_name(file); /* section: datafile */ (void) check_ruleset_capabilities(file, RULESET_CAPABILITIES, filename); (void) secfile_entry_by_path(file, "datafile.description"); /* unused */ /* section: tileset */ text = secfile_lookup_str_default(file, "", "tileset.prefered"); if (text[0] != '\0') { /* There was tileset suggestion */ sz_strlcpy(game.control.prefered_tileset, text); } else { /* No tileset suggestions */ game.control.prefered_tileset[0] = '\0'; } /* section: about */ text = secfile_lookup_str(file, "about.name"); /* Ruleset/modpack name found */ sz_strlcpy(game.control.name, text); text = secfile_lookup_str_default(file, "", "about.description"); if (text[0] != '\0') { /* Ruleset/modpack description found */ sz_strlcpy(game.control.description, text); } else { /* No description */ game.control.description[0] = '\0'; } /* section: options */ lookup_tech_list(file, "options", "global_init_techs", game.rgame.global_init_techs, filename); lookup_building_list(file, "options", "global_init_buildings", game.rgame.global_init_buildings, filename); /* section: civstyle */ game.info.base_pollution = secfile_lookup_int_default(file, RS_DEFAULT_BASE_POLLUTION, "civstyle.base_pollution"); game.info.happy_cost = secfile_lookup_int_def_min_max(file, RS_DEFAULT_HAPPY_COST, RS_MIN_HAPPY_COST, RS_MAX_HAPPY_COST, "civstyle.happy_cost"); game.info.food_cost = secfile_lookup_int_default_min_max(file, RS_DEFAULT_FOOD_COST, RS_MIN_FOOD_COST, RS_MAX_FOOD_COST, "civstyle.food_cost"); /* TODO: move to global_unit_options */ game.info.base_bribe_cost = secfile_lookup_int_default_min_max(file, RS_DEFAULT_BASE_BRIBE_COST, RS_MIN_BASE_BRIBE_COST, RS_MAX_BASE_BRIBE_COST, "civstyle.base_bribe_cost"); /* TODO: move to global_unit_options */ game.server.ransom_gold = secfile_lookup_int_default_min_max(file, RS_DEFAULT_RANSOM_GOLD, RS_MIN_RANSOM_GOLD, RS_MAX_RANSOM_GOLD, "civstyle.ransom_gold"); /* TODO: move to global_unit_options */ game.info.pillage_select = secfile_lookup_bool_default(file, RS_DEFAULT_PILLAGE_SELECT, "civstyle.pillage_select"); /* TODO: move to global_unit_options */ game.server.upgrade_veteran_loss = secfile_lookup_int_default_min_max(file, RS_DEFAULT_UPGRADE_VETERAN_LOSS, RS_MIN_UPGRADE_VETERAN_LOSS, RS_MAX_UPGRADE_VETERAN_LOSS, "civstyle.upgrade_veteran_loss"); /* TODO: move to global_unit_options */ game.server.autoupgrade_veteran_loss = secfile_lookup_int_default_min_max(file, RS_DEFAULT_UPGRADE_VETERAN_LOSS, RS_MIN_UPGRADE_VETERAN_LOSS, RS_MAX_UPGRADE_VETERAN_LOSS, "civstyle.autoupgrade_veteran_loss"); /* TODO: move to new section research */ game.info.base_tech_cost = secfile_lookup_int_default_min_max(file, RS_DEFAULT_BASE_TECH_COST, RS_MIN_BASE_TECH_COST, RS_MAX_BASE_TECH_COST, "civstyle.base_tech_cost"); food_ini = secfile_lookup_int_vec(file, &gni_tmp, "civstyle.granary_food_ini"); game.info.granary_num_inis = (int) gni_tmp; if (game.info.granary_num_inis > MAX_GRANARY_INIS) { ruleset_error(LOG_FATAL, "Too many granary_food_ini entries (%d, max %d)", game.info.granary_num_inis, MAX_GRANARY_INIS); } else if (game.info.granary_num_inis == 0) { log_error("No values for granary_food_ini. Using default " "value %d.", RS_DEFAULT_GRANARY_FOOD_INI); game.info.granary_num_inis = 1; game.info.granary_food_ini[0] = RS_DEFAULT_GRANARY_FOOD_INI; } else { int i; /* check for <= 0 entries */ for (i = 0; i < game.info.granary_num_inis; i++) { if (food_ini[i] <= 0) { if (i == 0) { food_ini[i] = RS_DEFAULT_GRANARY_FOOD_INI; } else { food_ini[i] = food_ini[i - 1]; } log_error("Bad value for granary_food_ini[%i]. Using %i.", i, food_ini[i]); } game.info.granary_food_ini[i] = food_ini[i]; } } free(food_ini); game.info.granary_food_inc = secfile_lookup_int_default_min_max(file, RS_DEFAULT_GRANARY_FOOD_INC, RS_MIN_GRANARY_FOOD_INC, RS_MAX_GRANARY_FOOD_INC, "civstyle.granary_food_inc"); output_type_iterate(o) { game.info.min_city_center_output[o] = secfile_lookup_int_default_min_max(file, RS_DEFAULT_CITY_CENTER_OUTPUT, RS_MIN_CITY_CENTER_OUTPUT, RS_MAX_CITY_CENTER_OUTPUT, "civstyle.min_city_center_%s", get_output_identifier(o)); } output_type_iterate_end; sval = secfile_lookup_str(file, "civstyle.nuke_contamination" ); if (fc_strcasecmp(sval, "Pollution") == 0) { game.server.nuke_contamination = CONTAMINATION_POLLUTION; } else if (fc_strcasecmp(sval, "Fallout") == 0) { game.server.nuke_contamination = CONTAMINATION_FALLOUT; } else { log_error("Bad value %s for nuke_contamination. Using " "\"Pollution\".", sval); game.server.nuke_contamination = CONTAMINATION_POLLUTION; } game.server.init_vis_radius_sq = secfile_lookup_int_default_min_max(file, RS_DEFAULT_VIS_RADIUS_SQ, RS_MIN_VIS_RADIUS_SQ, RS_MAX_VIS_RADIUS_SQ, "civstyle.init_vis_radius_sq"); game.info.init_city_radius_sq = secfile_lookup_int_default_min_max(file, RS_DEFAULT_CITY_RADIUS_SQ, RS_MIN_CITY_RADIUS_SQ, RS_MAX_CITY_RADIUS_SQ, "civstyle.init_city_radius_sq"); game.info.gold_upkeep_style = secfile_lookup_int_default_min_max(file, RS_DEFAULT_GOLD_UPKEEP_STYLE, RS_MIN_GOLD_UPKEEP_STYLE, RS_MAX_GOLD_UPKEEP_STYLE, "civstyle.gold_upkeep_style"); /* TODO: move to new section research */ game.info.tech_cost_style = secfile_lookup_int_default_min_max(file, RS_DEFAULT_TECH_COST_STYLE, RS_MIN_TECH_COST_STYLE, RS_MAX_TECH_COST_STYLE, "civstyle.tech_cost_style"); /* TODO: move to new section research */ game.info.tech_leakage = secfile_lookup_int_default_min_max(file, RS_DEFAULT_TECH_LEAKAGE, RS_MIN_TECH_LEAKAGE, RS_MAX_TECH_LEAKAGE, "civstyle.tech_leakage"); if (game.info.tech_cost_style == 0 && game.info.tech_leakage != 0) { log_error("Only tech_leakage 0 supported with tech_cost_style 0."); log_error("Switching to tech_leakage 0."); game.info.tech_leakage = 0; } /* section: illness */ game.info.illness_on = secfile_lookup_bool_default(file, RS_DEFAULT_ILLNESS_ON, "illness.illness_on"); game.info.illness_base_factor = secfile_lookup_int_default_min_max(file, RS_DEFAULT_ILLNESS_BASE_FACTOR, RS_MIN_ILLNESS_BASE_FACTOR, RS_MAX_ILLNESS_BASE_FACTOR, "illness.illness_base_factor"); game.info.illness_min_size = secfile_lookup_int_default_min_max(file, RS_DEFAULT_ILLNESS_MIN_SIZE, RS_MIN_ILLNESS_MIN_SIZE, RS_MAX_ILLNESS_MIN_SIZE, "illness.illness_min_size"); game.info.illness_trade_infection = secfile_lookup_int_default_min_max(file, RS_DEFAULT_ILLNESS_TRADE_INFECTION_PCT, RS_MIN_ILLNESS_TRADE_INFECTION_PCT, RS_MAX_ILLNESS_TRADE_INFECTION_PCT, "illness.illness_trade_infection"); game.info.illness_pollution_factor = secfile_lookup_int_default_min_max(file, RS_DEFAULT_ILLNESS_POLLUTION_PCT, RS_MIN_ILLNESS_POLLUTION_PCT, RS_MAX_ILLNESS_POLLUTION_PCT, "illness.illness_pollution_factor"); /* section: incite_cost */ game.server.base_incite_cost = secfile_lookup_int_default_min_max(file, RS_DEFAULT_INCITE_BASE_COST, RS_MIN_INCITE_BASE_COST, RS_MAX_INCITE_BASE_COST, "incite_cost.base_incite_cost"); game.server.incite_improvement_factor = secfile_lookup_int_default_min_max(file, RS_DEFAULT_INCITE_IMPROVEMENT_FCT, RS_MIN_INCITE_IMPROVEMENT_FCT, RS_MAX_INCITE_IMPROVEMENT_FCT, "incite_cost.improvement_factor"); game.server.incite_unit_factor = secfile_lookup_int_default_min_max(file, RS_DEFAULT_INCITE_UNIT_FCT, RS_MIN_INCITE_UNIT_FCT, RS_MAX_INCITE_UNIT_FCT, "incite_cost.unit_factor"); game.server.incite_total_factor = secfile_lookup_int_default_min_max(file, RS_DEFAULT_INCITE_TOTAL_FCT, RS_MIN_INCITE_TOTAL_FCT, RS_MAX_INCITE_TOTAL_FCT, "incite_cost.total_factor"); /* section: global_unit_options */ game.info.slow_invasions = secfile_lookup_bool_default(file, RS_DEFAULT_SLOW_INVASIONS, "global_unit_options.slow_invasions"); /* section: combat_rules */ game.info.killstack = secfile_lookup_bool_default(file, RS_DEFAULT_KILLSTACK, "combat_rules.killstack"); game.info.tired_attack = secfile_lookup_bool_default(file, RS_DEFAULT_TIRED_ATTACK, "combat_rules.tired_attack"); /* section: borders */ game.info.border_city_radius_sq = secfile_lookup_int_default_min_max(file, RS_DEFAULT_BORDER_RADIUS_SQ_CITY, RS_MIN_BORDER_RADIUS_SQ_CITY, RS_MAX_BORDER_RADIUS_SQ_CITY, "borders.radius_sq_city"); game.info.border_size_effect = secfile_lookup_int_default_min_max(file, RS_DEFAULT_BORDER_SIZE_EFFECT, RS_MIN_BORDER_SIZE_EFFECT, RS_MAX_BORDER_SIZE_EFFECT, "borders.size_effect"); /* section: research */ game.info.tech_upkeep_style = secfile_lookup_int_default_min_max(file, RS_DEFAULT_TECH_UPKEEP_STYLE, RS_MIN_TECH_UPKEEP_STYLE, RS_MAX_TECH_UPKEEP_STYLE, "research.tech_upkeep_style"); game.info.tech_upkeep_divider = secfile_lookup_int_default_min_max(file, RS_DEFAULT_TECH_UPKEEP_DIVIDER, RS_MIN_TECH_UPKEEP_DIVIDER, RS_MAX_TECH_UPKEEP_DIVIDER, "research.tech_upkeep_divider"); /* section: calendar */ game.info.calendar_skip_0 = secfile_lookup_bool_default(file, RS_DEFAULT_CALENDAR_SKIP_0, "calendar.skip_year_0"); game.server.start_year = secfile_lookup_int_default(file, GAME_START_YEAR, "calendar.start_year"); sz_strlcpy(game.info.positive_year_label, _(secfile_lookup_str_default(file, RS_DEFAULT_POS_YEAR_LABEL, "calendar.positive_label"))); sz_strlcpy(game.info.negative_year_label, _(secfile_lookup_str_default(file, RS_DEFAULT_NEG_YEAR_LABEL, "calendar.negative_label"))); /* section playercolors */ { struct rgbcolor *prgbcolor = NULL; bool read = TRUE; /* Check if the player list is defined and empty. */ fc_assert_ret(playercolor_count() == 0); i = 0; while (read) { prgbcolor = NULL; read = rgbcolor_load(file, &prgbcolor, "playercolors.colorlist%d", i); if (read) { playercolor_add(prgbcolor); } i++; } if (playercolor_count() == 0) { ruleset_error(LOG_FATAL, "No player colors defined!"); } if (game.plr_bg_color != NULL) { rgbcolor_destroy(game.plr_bg_color); game.plr_bg_color = NULL; } if (!rgbcolor_load(file, &game.plr_bg_color, "playercolors.background")) { ruleset_error(LOG_FATAL, "No background player color defined! (%s)", secfile_error()); } } /* section: teams */ svec = secfile_lookup_str_vec(file, &teams, "teams.names"); if (team_slot_count() < teams) { teams = team_slot_count(); } for (i = 0; i < teams; i++) { team_slot_set_defined_name(team_slot_by_number(i), svec[i]); } free(svec); settings_ruleset(file, "settings"); secfile_check_unused(file); secfile_destroy(file); } /************************************************************************** Send the units ruleset information (all individual unit classes) to the specified connections. **************************************************************************/ static void send_ruleset_unit_classes(struct conn_list *dest) { struct packet_ruleset_unit_class packet; unit_class_iterate(c) { packet.id = uclass_number(c); sz_strlcpy(packet.name, untranslated_name(&c->name)); sz_strlcpy(packet.rule_name, rule_name(&c->name)); packet.move_type = c->move_type; packet.min_speed = c->min_speed; packet.hp_loss_pct = c->hp_loss_pct; packet.hut_behavior = c->hut_behavior; packet.flags = c->flags; lsend_packet_ruleset_unit_class(dest, &packet); } unit_class_iterate_end; } /************************************************************************** Send the units ruleset information (all individual units) to the specified connections. **************************************************************************/ static void send_ruleset_units(struct conn_list *dest) { struct packet_ruleset_unit packet; int i; unit_type_iterate(u) { packet.id = utype_number(u); sz_strlcpy(packet.name, untranslated_name(&u->name)); sz_strlcpy(packet.rule_name, rule_name(&u->name)); sz_strlcpy(packet.sound_move, u->sound_move); sz_strlcpy(packet.sound_move_alt, u->sound_move_alt); sz_strlcpy(packet.sound_fight, u->sound_fight); sz_strlcpy(packet.sound_fight_alt, u->sound_fight_alt); sz_strlcpy(packet.graphic_str, u->graphic_str); sz_strlcpy(packet.graphic_alt, u->graphic_alt); packet.unit_class_id = uclass_number(utype_class(u)); packet.build_cost = u->build_cost; packet.pop_cost = u->pop_cost; packet.attack_strength = u->attack_strength; packet.defense_strength = u->defense_strength; packet.move_rate = u->move_rate; packet.tech_requirement = u->require_advance ? advance_number(u->require_advance) : -1; packet.impr_requirement = u->need_improvement ? improvement_number(u->need_improvement) : -1; packet.gov_requirement = u->need_government ? government_number(u->need_government) : -1; packet.vision_radius_sq = u->vision_radius_sq; packet.transport_capacity = u->transport_capacity; packet.hp = u->hp; packet.firepower = u->firepower; packet.obsoleted_by = u->obsoleted_by ? utype_number(u->obsoleted_by) : -1; packet.converted_to = u->converted_to ? utype_number(u->converted_to) : -1; packet.fuel = u->fuel; packet.flags = u->flags; packet.roles = u->roles; packet.happy_cost = u->happy_cost; output_type_iterate(o) { packet.upkeep[o] = u->upkeep[o]; } output_type_iterate_end; packet.paratroopers_range = u->paratroopers_range; packet.paratroopers_mr_req = u->paratroopers_mr_req; packet.paratroopers_mr_sub = u->paratroopers_mr_sub; packet.bombard_rate = u->bombard_rate; packet.city_size = u->city_size; packet.cargo = u->cargo; packet.targets = u->targets; if (u->veteran == NULL) { /* Use the default veteran system. */ packet.veteran_levels = 0; } else { /* Per unit veteran system definition. */ packet.veteran_levels = utype_veteran_levels(u); for (i = 0; i < packet.veteran_levels; i++) { const struct veteran_level *vlevel = utype_veteran_level(u, i); sz_strlcpy(packet.veteran_name[i], untranslated_name(&vlevel->name)); packet.power_fact[i] = vlevel->power_fact; packet.move_bonus[i] = vlevel->move_bonus; } } PACKET_STRVEC_COMPUTE(packet.helptext, u->helptext); lsend_packet_ruleset_unit(dest, &packet); } unit_type_iterate_end; } /************************************************************************** Send the specialists ruleset information (all individual specialist types) to the specified connections. **************************************************************************/ static void send_ruleset_specialists(struct conn_list *dest) { struct packet_ruleset_specialist packet; specialist_type_iterate(spec_id) { struct specialist *s = specialist_by_number(spec_id); int j; packet.id = spec_id; sz_strlcpy(packet.plural_name, untranslated_name(&s->name)); sz_strlcpy(packet.rule_name, rule_name(&s->name)); sz_strlcpy(packet.short_name, untranslated_name(&s->abbreviation)); j = 0; requirement_vector_iterate(&s->reqs, preq) { packet.reqs[j++] = *preq; } requirement_vector_iterate_end; packet.reqs_count = j; PACKET_STRVEC_COMPUTE(packet.helptext, s->helptext); lsend_packet_ruleset_specialist(dest, &packet); } specialist_type_iterate_end; } /************************************************************************** Send the techs ruleset information (all individual advances) to the specified connections. **************************************************************************/ static void send_ruleset_techs(struct conn_list *dest) { struct packet_ruleset_tech packet; advance_iterate(A_NONE, a) { packet.id = advance_number(a); sz_strlcpy(packet.name, untranslated_name(&a->name)); sz_strlcpy(packet.rule_name, rule_name(&a->name)); sz_strlcpy(packet.graphic_str, a->graphic_str); sz_strlcpy(packet.graphic_alt, a->graphic_alt); packet.req[AR_ONE] = a->require[AR_ONE] ? advance_number(a->require[AR_ONE]) : -1; packet.req[AR_TWO] = a->require[AR_TWO] ? advance_number(a->require[AR_TWO]) : -1; packet.root_req = a->require[AR_ROOT] ? advance_number(a->require[AR_ROOT]) : -1; packet.flags = a->flags; packet.preset_cost = a->preset_cost; packet.num_reqs = a->num_reqs; PACKET_STRVEC_COMPUTE(packet.helptext, a->helptext); lsend_packet_ruleset_tech(dest, &packet); } advance_iterate_end; } /************************************************************************** Send the buildings ruleset information (all individual improvements and wonders) to the specified connections. **************************************************************************/ static void send_ruleset_buildings(struct conn_list *dest) { improvement_iterate(b) { struct packet_ruleset_building packet; int j; packet.id = improvement_number(b); packet.genus = b->genus; sz_strlcpy(packet.name, untranslated_name(&b->name)); sz_strlcpy(packet.rule_name, rule_name(&b->name)); sz_strlcpy(packet.graphic_str, b->graphic_str); sz_strlcpy(packet.graphic_alt, b->graphic_alt); j = 0; requirement_vector_iterate(&b->reqs, preq) { packet.reqs[j++] = *preq; } requirement_vector_iterate_end; packet.reqs_count = j; packet.obsolete_by = b->obsolete_by ? advance_number(b->obsolete_by) : -1; packet.replaced_by = b->replaced_by ? improvement_number(b->replaced_by) : -1; packet.build_cost = b->build_cost; packet.upkeep = b->upkeep; packet.sabotage = b->sabotage; packet.flags = b->flags; sz_strlcpy(packet.soundtag, b->soundtag); sz_strlcpy(packet.soundtag_alt, b->soundtag_alt); PACKET_STRVEC_COMPUTE(packet.helptext, b->helptext); lsend_packet_ruleset_building(dest, &packet); } improvement_iterate_end; } /************************************************************************** Send the terrain ruleset information (terrain_control, and the individual terrain types) to the specified connections. **************************************************************************/ static void send_ruleset_terrain(struct conn_list *dest) { struct packet_ruleset_terrain packet; lsend_packet_ruleset_terrain_control(dest, &terrain_control); terrain_type_iterate(pterrain) { struct resource **r; packet.id = terrain_number(pterrain); packet.native_to = pterrain->native_to; sz_strlcpy(packet.name, untranslated_name(&pterrain->name)); sz_strlcpy(packet.rule_name, rule_name(&pterrain->name)); sz_strlcpy(packet.graphic_str, pterrain->graphic_str); sz_strlcpy(packet.graphic_alt, pterrain->graphic_alt); packet.movement_cost = pterrain->movement_cost; packet.defense_bonus = pterrain->defense_bonus; output_type_iterate(o) { packet.output[o] = pterrain->output[o]; } output_type_iterate_end; packet.num_resources = 0; for (r = pterrain->resources; *r; r++) { packet.resources[packet.num_resources++] = resource_number(*r); } packet.road_trade_incr = pterrain->road_trade_incr; packet.road_time = pterrain->road_time; packet.irrigation_result = (pterrain->irrigation_result ? terrain_number(pterrain->irrigation_result) : terrain_count()); packet.irrigation_food_incr = pterrain->irrigation_food_incr; packet.irrigation_time = pterrain->irrigation_time; packet.mining_result = (pterrain->mining_result ? terrain_number(pterrain->mining_result) : terrain_count()); packet.mining_shield_incr = pterrain->mining_shield_incr; packet.mining_time = pterrain->mining_time; packet.transform_result = (pterrain->transform_result ? terrain_number(pterrain->transform_result) : terrain_count()); packet.transform_time = pterrain->transform_time; packet.rail_time = pterrain->rail_time; packet.clean_pollution_time = pterrain->clean_pollution_time; packet.clean_fallout_time = pterrain->clean_fallout_time; packet.flags = pterrain->flags; packet.color_red = pterrain->rgb->r; packet.color_green = pterrain->rgb->g; packet.color_blue = pterrain->rgb->b; PACKET_STRVEC_COMPUTE(packet.helptext, pterrain->helptext); lsend_packet_ruleset_terrain(dest, &packet); } terrain_type_iterate_end; } /**************************************************************************** Send the resource ruleset information to the specified connections. ****************************************************************************/ static void send_ruleset_resources(struct conn_list *dest) { struct packet_ruleset_resource packet; resource_type_iterate (presource) { packet.id = resource_number(presource); sz_strlcpy(packet.name, untranslated_name(&presource->name)); sz_strlcpy(packet.rule_name, rule_name(&presource->name)); sz_strlcpy(packet.graphic_str, presource->graphic_str); sz_strlcpy(packet.graphic_alt, presource->graphic_alt); output_type_iterate(o) { packet.output[o] = presource->output[o]; } output_type_iterate_end; lsend_packet_ruleset_resource(dest, &packet); } resource_type_iterate_end; } /************************************************************************** Send the base ruleset information (all individual base types) to the specified connections. **************************************************************************/ static void send_ruleset_bases(struct conn_list *dest) { struct packet_ruleset_base packet; base_type_iterate(b) { int j; packet.id = base_number(b); sz_strlcpy(packet.name, untranslated_name(&b->name)); sz_strlcpy(packet.rule_name, rule_name(&b->name)); sz_strlcpy(packet.graphic_str, b->graphic_str); sz_strlcpy(packet.graphic_alt, b->graphic_alt); sz_strlcpy(packet.activity_gfx, b->activity_gfx); packet.buildable = b->buildable; packet.pillageable = b->pillageable; j = 0; requirement_vector_iterate(&b->reqs, preq) { packet.reqs[j++] = *preq; } requirement_vector_iterate_end; packet.reqs_count = j; packet.native_to = b->native_to; packet.gui_type = b->gui_type; packet.build_time = b->build_time; packet.defense_bonus = b->defense_bonus; packet.border_sq = b->border_sq; packet.vision_main_sq = b->vision_main_sq; packet.vision_invis_sq = b->vision_invis_sq; packet.flags = b->flags; packet.conflicts = b->conflicts; PACKET_STRVEC_COMPUTE(packet.helptext, b->helptext); lsend_packet_ruleset_base(dest, &packet); } base_type_iterate_end; } /************************************************************************** Send the government ruleset information to the specified connections. One packet per government type, and for each type one per ruler title. **************************************************************************/ static void send_ruleset_governments(struct conn_list *dest) { struct packet_ruleset_government gov; struct packet_ruleset_government_ruler_title title; int j; governments_iterate(g) { /* send one packet_government */ gov.id = government_number(g); j = 0; requirement_vector_iterate(&g->reqs, preq) { gov.reqs[j++] = *preq; } requirement_vector_iterate_end; gov.reqs_count = j; sz_strlcpy(gov.name, untranslated_name(&g->name)); sz_strlcpy(gov.rule_name, rule_name(&g->name)); sz_strlcpy(gov.graphic_str, g->graphic_str); sz_strlcpy(gov.graphic_alt, g->graphic_alt); PACKET_STRVEC_COMPUTE(gov.helptext, g->helptext); lsend_packet_ruleset_government(dest, &gov); /* Send one packet_government_ruler_title per ruler title. */ ruler_titles_iterate(government_ruler_titles(g), pruler_title) { const struct nation_type *pnation = ruler_title_nation(pruler_title); title.gov = government_number(g); title.nation = (NULL != pnation ? nation_number(pnation) : -1); sz_strlcpy(title.male_title, ruler_title_male_untranslated_name(pruler_title)); sz_strlcpy(title.female_title, ruler_title_female_untranslated_name(pruler_title)); lsend_packet_ruleset_government_ruler_title(dest, &title); } ruler_titles_iterate_end; } governments_iterate_end; } /************************************************************************** Send the nations ruleset information (info on each nation) to the specified connections. **************************************************************************/ static void send_ruleset_nations(struct conn_list *dest) { struct packet_ruleset_nation packet; struct packet_ruleset_nation_groups groups_packet; int i; groups_packet.ngroups = nation_group_count(); i = 0; nation_groups_iterate(pgroup) { sz_strlcpy(groups_packet.groups[i++], nation_group_untranslated_name(pgroup)); } nation_groups_iterate_end; lsend_packet_ruleset_nation_groups(dest, &groups_packet); nations_iterate(n) { packet.id = nation_number(n); sz_strlcpy(packet.adjective, untranslated_name(&n->adjective)); sz_strlcpy(packet.rule_name, rule_name(&n->adjective)); sz_strlcpy(packet.noun_plural, untranslated_name(&n->noun_plural)); sz_strlcpy(packet.graphic_str, n->flag_graphic_str); sz_strlcpy(packet.graphic_alt, n->flag_graphic_alt); i = 0; nation_leader_list_iterate(nation_leaders(n), pleader) { sz_strlcpy(packet.leader_name[i], nation_leader_name(pleader)); packet.leader_is_male[i] = nation_leader_is_male(pleader); i++; } nation_leader_list_iterate_end; packet.leader_count = i; packet.city_style = n->city_style; packet.is_playable = n->is_playable; packet.is_available = n->is_available; packet.barbarian_type = n->barb_type; sz_strlcpy(packet.legend, n->legend); i = 0; nation_group_list_iterate(n->groups, pgroup) { packet.groups[i++] = nation_group_number(pgroup); } nation_group_list_iterate_end; packet.ngroups = i; packet.init_government_id = government_number(n->init_government); fc_assert(ARRAY_SIZE(packet.init_techs) == ARRAY_SIZE(n->init_techs)); for (i = 0; i < MAX_NUM_TECH_LIST; i++) { packet.init_techs[i] = n->init_techs[i]; } fc_assert(ARRAY_SIZE(packet.init_units) == ARRAY_SIZE(n->init_units)); for (i = 0; i < MAX_NUM_UNIT_LIST; i++) { const struct unit_type *t = n->init_units[i]; packet.init_units[i] = t ? utype_number(t) : U_LAST; } fc_assert(ARRAY_SIZE(packet.init_buildings) == ARRAY_SIZE(n->init_buildings)); for (i = 0; i < MAX_NUM_BUILDING_LIST; i++) { /* Impr_type_id to int */ packet.init_buildings[i] = n->init_buildings[i]; } lsend_packet_ruleset_nation(dest, &packet); } nations_iterate_end; } /************************************************************************** Send the city-style ruleset information (each style) to the specified connections. **************************************************************************/ static void send_ruleset_cities(struct conn_list *dest) { struct packet_ruleset_city city_p; int k, j; for (k = 0; k < game.control.styles_count; k++) { city_p.style_id = k; city_p.replaced_by = city_styles[k].replaced_by; j = 0; requirement_vector_iterate(&city_styles[k].reqs, preq) { city_p.reqs[j++] = *preq; } requirement_vector_iterate_end; city_p.reqs_count = j; sz_strlcpy(city_p.name, untranslated_name(&city_styles[k].name)); sz_strlcpy(city_p.rule_name, rule_name(&city_styles[k].name)); sz_strlcpy(city_p.graphic, city_styles[k].graphic); sz_strlcpy(city_p.graphic_alt, city_styles[k].graphic_alt); sz_strlcpy(city_p.oceanic_graphic, city_styles[k].oceanic_graphic); sz_strlcpy(city_p.oceanic_graphic_alt, city_styles[k].oceanic_graphic_alt); sz_strlcpy(city_p.citizens_graphic, city_styles[k].citizens_graphic); sz_strlcpy(city_p.citizens_graphic_alt, city_styles[k].citizens_graphic_alt); lsend_packet_ruleset_city(dest, &city_p); } } /************************************************************************** Send information in packet_ruleset_game (miscellaneous rules) to the specified connections. **************************************************************************/ static void send_ruleset_game(struct conn_list *dest) { struct packet_ruleset_game misc_p; int i; fc_assert_ret(game.veteran != NULL); /* Per unit veteran system definition. */ misc_p.veteran_levels = game.veteran->levels; for (i = 0; i < misc_p.veteran_levels; i++) { const struct veteran_level *vlevel = game.veteran->definitions + i; sz_strlcpy(misc_p.veteran_name[i], untranslated_name(&vlevel->name)); misc_p.power_fact[i] = vlevel->power_fact; misc_p.move_bonus[i] = vlevel->move_bonus; } fc_assert(sizeof(misc_p.global_init_techs) == sizeof(game.rgame.global_init_techs)); fc_assert(ARRAY_SIZE(misc_p.global_init_techs) == ARRAY_SIZE(game.rgame.global_init_techs)); memcpy(misc_p.global_init_techs, game.rgame.global_init_techs, sizeof(misc_p.global_init_techs)); fc_assert(ARRAY_SIZE(misc_p.global_init_buildings) == ARRAY_SIZE(game.rgame.global_init_buildings)); for (i = 0; i < MAX_NUM_BUILDING_LIST; i++) { /* Impr_type_id to int */ misc_p.global_init_buildings[i] = game.rgame.global_init_buildings[i]; } misc_p.default_specialist = DEFAULT_SPECIALIST; fc_assert_ret(game.plr_bg_color != NULL); misc_p.background_red = game.plr_bg_color->r; misc_p.background_green = game.plr_bg_color->g; misc_p.background_blue = game.plr_bg_color->b; lsend_packet_ruleset_game(dest, &misc_p); } /************************************************************************** Send all team names defined in the ruleset file(s) to the specified connections. **************************************************************************/ static void send_ruleset_team_names(struct conn_list *dest) { struct packet_team_name_info team_name_info_p; team_slots_iterate(tslot) { const char *name = team_slot_defined_name(tslot); if (NULL == name) { /* End of defined names. */ break; } team_name_info_p.team_id = team_slot_index(tslot); sz_strlcpy(team_name_info_p.team_name, name); lsend_packet_team_name_info(dest, &team_name_info_p); } team_slots_iterate_end; } /************************************************************************** Loads the ruleset currently given in game.rulesetdir. This may be called more than once and it will free any stale data. **************************************************************************/ void load_rulesets(void) { struct section_file *techfile, *unitfile, *buildfile, *govfile, *terrfile; struct section_file *cityfile, *nationfile, *effectfile; log_normal(_("Loading rulesets.")); game_ruleset_free(); /* Reset the list of available player colors. */ playercolor_free(); playercolor_init(); game_ruleset_init(); server.playable_nations = 0; techfile = openload_ruleset_file("techs"); load_tech_names(techfile); buildfile = openload_ruleset_file("buildings"); load_building_names(buildfile); govfile = openload_ruleset_file("governments"); load_government_names(govfile); unitfile = openload_ruleset_file("units"); load_unit_names(unitfile); terrfile = openload_ruleset_file("terrain"); load_terrain_names(terrfile); cityfile = openload_ruleset_file("cities"); load_citystyle_names(cityfile); nationfile = openload_ruleset_file("nations"); load_nation_names(nationfile); effectfile = openload_ruleset_file("effects"); load_ruleset_techs(techfile); load_ruleset_cities(cityfile); load_ruleset_governments(govfile); load_ruleset_terrain(terrfile); /* terrain must precede nations and units */ load_ruleset_units(unitfile); load_ruleset_buildings(buildfile); load_ruleset_nations(nationfile); load_ruleset_effects(effectfile); load_ruleset_game(); /* Init nations we just loaded. */ init_available_nations(); sanity_check_ruleset_data(); precalc_tech_data(); if (base_sections) { free(base_sections); base_sections = NULL; } if (resource_sections) { free(resource_sections); resource_sections = NULL; } if (terrain_sections) { free(terrain_sections); terrain_sections = NULL; } script_server_free(); script_server_init(); openload_script_file("default"); openload_script_file("script"); /* Build advisors unit class cache corresponding to loaded rulesets */ adv_units_ruleset_init(); CALL_FUNC_EACH_AI(units_ruleset_init); /* We may need to adjust the number of AI players * if the number of available nations changed. */ if (game.info.aifill > server.playable_nations) { log_normal(_("Reducing aifill because there " "are not enough playable nations.")); game.info.aifill = server.playable_nations; aifill(game.info.aifill); } } /************************************************************************** Reload the game settings saved in the ruleset file. **************************************************************************/ void reload_rulesets_settings(void) { struct section_file *file; file = openload_ruleset_file("game"); settings_ruleset(file, "settings"); secfile_destroy(file); } /************************************************************************** Send all ruleset information to the specified connections. **************************************************************************/ void send_rulesets(struct conn_list *dest) { conn_list_compression_freeze(dest); /* ruleset_control also indicates to client that ruleset sending starts. */ send_ruleset_control(dest); send_ruleset_game(dest); send_ruleset_team_names(dest); send_ruleset_techs(dest); send_ruleset_governments(dest); send_ruleset_unit_classes(dest); send_ruleset_units(dest); send_ruleset_specialists(dest); send_ruleset_resources(dest); send_ruleset_terrain(dest); send_ruleset_bases(dest); send_ruleset_buildings(dest); send_ruleset_nations(dest); send_ruleset_cities(dest); send_ruleset_cache(dest); /* Indicate client that all rulesets have now been sent. */ conn_list_iterate(dest, pconn) { if (has_capability("rules_finished", pconn->capability)) { lsend_packet_rulesets_ready(pconn->self); } } conn_list_iterate_end; /* changed game settings will be send in * connecthand.c:establish_new_connection() */ conn_list_compression_thaw(dest); } /************************************************************************** Does nation have tech initially? **************************************************************************/ static bool nation_has_initial_tech(struct nation_type *pnation, struct advance *tech) { int i; /* See if it's given as global init tech */ for (i = 0; i < MAX_NUM_TECH_LIST && game.rgame.global_init_techs[i] != A_LAST; i++) { if (game.rgame.global_init_techs[i] == advance_number(tech)) { return TRUE; } } /* See if it's given as national init tech */ for (i = 0; i < MAX_NUM_TECH_LIST && pnation->init_techs[i] != A_LAST; i++) { if (pnation->init_techs[i] == advance_number(tech)) { return TRUE; } } return FALSE; } /************************************************************************** Helper function for sanity_check_req_list() and sanity_check_req_vec() **************************************************************************/ static bool sanity_check_req_set(int reqs_of_type[], int local_reqs_of_type[], struct requirement *preq, int max_tiles, const char *list_for) { int rc; fc_assert_ret_val(universals_n_is_valid(preq->source.kind), FALSE); /* Add to counter */ reqs_of_type[preq->source.kind]++; rc = reqs_of_type[preq->source.kind]; if (preq->range == REQ_RANGE_LOCAL) { local_reqs_of_type[preq->source.kind]++; switch (preq->source.kind) { case VUT_TERRAINCLASS: if (local_reqs_of_type[VUT_TERRAIN] > 0) { log_error("%s: Requirement list has both local terrain and terrainclass requirement", list_for); return FALSE; } break; case VUT_TERRAIN: if (local_reqs_of_type[VUT_TERRAINCLASS] > 0) { log_error("%s: Requirement list has both local terrain and terrainclass requirement", list_for); return FALSE; } break; default: break; } } if (rc > 1) { /* Multiple requirements of the same type */ switch (preq->source.kind) { case VUT_GOVERNMENT: case VUT_NATION: case VUT_UTYPE: case VUT_UCLASS: case VUT_OTYPE: case VUT_SPECIALIST: case VUT_MINSIZE: /* Breaks nothing, but has no sense either */ case VUT_MINYEAR: case VUT_AI_LEVEL: case VUT_TERRAINALTER: /* Local range only */ case VUT_CITYTILE: /* There can be only one requirement of these types (with current * range limitations) * Requirements might be identical, but we consider multiple * declarations error anyway. */ log_error("%s: Requirement list has multiple %s requirements", list_for, universal_type_rule_name(&preq->source)); return FALSE; break; case VUT_TERRAIN: /* There can be only up to max_tiles requirements of these types */ if (max_tiles != -1 && rc > max_tiles) { log_error("%s: Requirement list has more %s requirements than " "can ever be fullfilled.", list_for, universal_type_rule_name(&preq->source)); return FALSE; } break; case VUT_TERRAINCLASS: if (rc > 2 || (max_tiles != -1 && rc > max_tiles)) { log_error("%s: Requirement list has more %s requirements than " "can ever be fullfilled.", list_for, universal_type_rule_name(&preq->source)); return FALSE; } break; case VUT_SPECIAL: case VUT_BASE: /* Note that there can be more than 1 special or base / tile. */ case VUT_NONE: case VUT_ADVANCE: case VUT_IMPROVEMENT: case VUT_UTFLAG: case VUT_UCFLAG: /* Can have multiple requirements of these types */ break; case VUT_COUNT: /* Should never be in requirement vector */ fc_assert(FALSE); return FALSE; break; /* No default handling here, as we want compiler warning * if new requirement type is added to enum and it's not handled * here. */ } } return TRUE; } /************************************************************************** Check if requirement list is free of conflicting requirements. max_tiles is number of tiles that can provide requirement. Value -1 disables checking based on number of tiles. Returns TRUE iff everything ok. TODO: This is based on current hardcoded range limitations. - There should be method of automatically determining these limitations for each requirement type - This function should check also problems caused by defining range to less than hardcoded max for requirement type **************************************************************************/ static bool sanity_check_req_list(const struct requirement_list *preqs, int max_tiles, const char *list_for) { int reqs_of_type[VUT_COUNT]; int local_reqs_of_type[VUT_COUNT]; /* Initialize requirement counters */ memset(reqs_of_type, 0, sizeof(reqs_of_type)); memset(local_reqs_of_type, 0, sizeof(local_reqs_of_type)); requirement_list_iterate(preqs, preq) { if (!sanity_check_req_set(reqs_of_type, local_reqs_of_type, preq, max_tiles, list_for)) { return FALSE; } } requirement_list_iterate_end; return TRUE; } /************************************************************************** Requirement vector version of requirement sanity checking. See retuirement list version for comments. **************************************************************************/ static bool sanity_check_req_vec(const struct requirement_vector *preqs, int max_tiles, const char *list_for) { int reqs_of_type[VUT_COUNT]; int local_reqs_of_type[VUT_COUNT]; /* Initialize requirement counters */ memset(reqs_of_type, 0, sizeof(reqs_of_type)); memset(local_reqs_of_type, 0, sizeof(local_reqs_of_type)); requirement_vector_iterate(preqs, preq) { if (!sanity_check_req_set(reqs_of_type, local_reqs_of_type, preq, max_tiles, list_for)) { return FALSE; } } requirement_vector_iterate_end; return TRUE; } /************************************************************************** Check that requirement list and negated requirements list do not have confliciting requirements. Returns TRUE iff everything ok. **************************************************************************/ static bool sanity_check_req_nreq_list(const struct requirement_list *preqs, const struct requirement_list *pnreqs, int one_tile, const char *list_for) { /* Check internal sanity of requirement list */ if (!sanity_check_req_list(preqs, one_tile, list_for)) { return FALSE; } /* There is no pnreqs in all cases */ if (pnreqs != NULL) { /* Check sanity between reqs and nreqs */ requirement_list_iterate(preqs, preq) { requirement_list_iterate(pnreqs, pnreq) { if (are_requirements_equal(preq, pnreq)) { log_error("%s: Identical %s requirement in requirements and " "negated requirements.", list_for, universal_type_rule_name(&preq->source)); return FALSE; } } requirement_list_iterate_end; } requirement_list_iterate_end; } return TRUE; } /************************************************************************** Sanity check callback for iterating effects cache. **************************************************************************/ static bool effect_list_sanity_cb(const struct effect *peffect) { int one_tile = -1; /* TODO: Determine correct value from effect. * -1 disables checking */ return sanity_check_req_nreq_list(peffect->reqs, peffect->nreqs, one_tile, effect_type_name(peffect->type)); } /************************************************************************** Some more sanity checking once all rulesets are loaded. These check for some cross-referencing which was impossible to do while only one party was loaded in load_ruleset_xxx() Returns TRUE iff everything ok. **************************************************************************/ static bool sanity_check_ruleset_data(void) { int num_utypes; int i; bool ok = TRUE; /* Store failures to variable instead of returning * immediately so all errors get printed, not just first * one. */ /* Check that all players can have their initial techs */ nations_iterate(pnation) { int i; /* Check global initial techs */ for (i = 0; i < MAX_NUM_TECH_LIST && game.rgame.global_init_techs[i] != A_LAST; i++) { Tech_type_id tech = game.rgame.global_init_techs[i]; struct advance *a = valid_advance_by_number(tech); if (!a) { ruleset_error(LOG_FATAL, "Tech %s does not exist, but is initial " "tech for everyone.", advance_rule_name(advance_by_number(tech))); } if (advance_by_number(A_NONE) != a->require[AR_ROOT] && !nation_has_initial_tech(pnation, a->require[AR_ROOT])) { /* Nation has no root_req for tech */ ruleset_error(LOG_FATAL, "Tech %s is initial for everyone, but %s has " "no root_req for it.", advance_rule_name(a), nation_rule_name(pnation)); } } /* Check national initial techs */ for (i = 0; i < MAX_NUM_TECH_LIST && pnation->init_techs[i] != A_LAST; i++) { Tech_type_id tech = pnation->init_techs[i]; struct advance *a = valid_advance_by_number(tech); if (!a) { ruleset_error(LOG_FATAL, "Tech %s does not exist, but is tech for %s.", advance_rule_name(advance_by_number(tech)), nation_rule_name(pnation)); ok = FALSE; } if (advance_by_number(A_NONE) != a->require[AR_ROOT] && !nation_has_initial_tech(pnation, a->require[AR_ROOT])) { /* Nation has no root_req for tech */ ruleset_error(LOG_FATAL, "Tech %s is initial for %s, but they have " "no root_req for it.", advance_rule_name(a), nation_rule_name(pnation)); ok = FALSE; } } } nations_iterate_end; /* Check against unit upgrade loops */ num_utypes = game.control.num_unit_types; unit_type_iterate(putype) { int chain_length = 0; struct unit_type *upgraded = putype; while(upgraded != NULL) { upgraded = upgraded->obsoleted_by; chain_length++; if (chain_length > num_utypes) { ruleset_error(LOG_FATAL, "There seems to be obsoleted_by loop in update " "chain that starts from %s", utype_rule_name(putype)); ok = FALSE; } } } unit_type_iterate_end; /* Check requirement sets against conflicting requirements. * Effects use requirement lists */ if (!iterate_effect_cache(effect_list_sanity_cb)) { ruleset_error(LOG_FATAL, "Effects have conflicting requirements!"); ok = FALSE; } /* Others use requirement vectors * Buildings */ improvement_iterate(pimprove) { if (!sanity_check_req_vec(&pimprove->reqs, -1, improvement_rule_name(pimprove))) { ruleset_error(LOG_FATAL, "Buildings have conflicting requirements!"); ok = FALSE; } } improvement_iterate_end; /* Governments */ governments_iterate(pgov) { if (!sanity_check_req_vec(&pgov->reqs, -1, government_rule_name(pgov))) { ruleset_error(LOG_FATAL, "Governments have conflicting requirements!"); ok = FALSE; } } governments_iterate_end; /* Specialists */ specialist_type_iterate(sp) { struct specialist *psp = specialist_by_number(sp); if (!sanity_check_req_vec(&psp->reqs, -1, specialist_rule_name(psp))) { ruleset_error(LOG_FATAL, "Specialists have conflicting requirements!"); ok = FALSE; } } specialist_type_iterate_end; /* Bases */ base_type_iterate(pbase) { if (!sanity_check_req_vec(&pbase->reqs, -1, base_rule_name(pbase))) { ruleset_error(LOG_FATAL, "Bases have conflicting requirements!"); ok = FALSE; } } base_type_iterate_end /* City styles */ for (i = 0; i < game.control.styles_count; i++) { if (!sanity_check_req_vec(&city_styles[i].reqs, -1, city_style_rule_name(i))) { ruleset_error(LOG_FATAL, "City styles have conflicting requirements!"); ok = FALSE; } } terrain_type_iterate(pterr) { unit_class_iterate(uc) { if (BV_ISSET(pterr->native_to, uclass_index(uc))) { if (is_ocean(pterr) && uc->move_type == UMT_LAND) { ruleset_error(LOG_FATAL, "Oceanic %s is native to land units.", terrain_rule_name(pterr)); ok = FALSE; } else if (!is_ocean(pterr) && uc->move_type == UMT_SEA) { ruleset_error(LOG_FATAL, "Non-oceanic %s is native to sea units.", terrain_rule_name(pterr)); ok = FALSE; } } } unit_class_iterate_end; } terrain_type_iterate_end; return ok; }
jheusala/freeciv
server/ruleset.c
C
gpl-2.0
174,636
using System; using System.Collections.Generic; using System.Linq; using System.Web; using System.Web.UI; using System.Web.UI.WebControls; namespace WebMvc.App.Views.Default.Common.Public { public partial class Footer : System.Web.UI.UserControl { public App.Common.UserControl.Footer FooterViewBag { get; set; } protected void Page_Load(object sender, EventArgs e) { } } }
xiaolu6t6t/NFinal
WebMvc/App/Views/Default/Common/Public/Footer.ascx.cs
C#
gpl-2.0
422
<?php class UpdateCartAction extends Action{ public function execute() { $quantities = getParam('ProductQuantity'); $cart = new Cart(); foreach($quantities as $productId => $quantities){ if($quantities > 0){ $cart->updateQuantity($productId, $quantities); } } $this->getController()->redirect('view_cart.php'); } } ?>
viktortod/magtools-cart
html/modules/store/action/UpdateCartAction.php
PHP
gpl-2.0
409
# # Copyright (c) 2013 The Linux Foundation. All rights reserved. # Copyright (C) 2008-2011 OpenWrt.org # # This is free software, licensed under the GNU General Public License v2. # See /LICENSE for more information. # include $(TOPDIR)/rules.mk include $(INCLUDE_DIR)/image.mk JFFS2_BLOCKSIZE = 64k 128k 256k define imgname $(BIN_DIR)/$(IMG_PREFIX)-$(2)-$(patsubst jffs2-%,jffs2,$(patsubst squashfs-%,squashfs,$(1))) endef define rootfs_align $(patsubst %-256k,0x40000,$(patsubst %-128k,0x20000,$(patsubst %-64k,0x10000,$(patsubst squashfs-%,0x4,$(1))))) endef define sysupname $(call imgname,$(1),$(2))-sysupgrade.bin endef define factoryname $(call imgname,$(1),$(2))-factory.bin endef COMMA:=, define mkcmdline $(if $(1),board=$(1) )$(if $(2),console=$(2)$(COMMA)$(3))$(if $(4), fdt=$(4)) endef SINGLE_PROFILES:= define SingleProfile define Image/Build/Profile/$(3) $$(call Image/Build/Template/$(2)/$$(1),$(1),$(4),$$(call mkcmdline,$(5),$(6),$(7),$(13)),$(8),$(9),$(10),$(11),$(12)) endef SINGLE_PROFILES += $(3) endef define MultiProfile define Image/Build/Profile/$(1) $(foreach p,$(2), $$(call Image/Build/Profile/$p,$$(1)) ) endef endef LOADER_MAKE := $(NO_TRACE_MAKE) -C lzma-loader KDIR=$(KDIR) KDIR_TMP:=$(KDIR)/tmp VMLINUX:=$(BIN_DIR)/$(IMG_PREFIX)-vmlinux UIMAGE:=$(BIN_DIR)/$(IMG_PREFIX)-uImage fs_squash:=squashfs-only fs_64k:=64k fs_64kraw:=64kraw fs_128k:=128k fs_256k:=256k ifeq ($(CONFIG_TARGET_ROOTFS_INITRAMFS),y) fs_squash:=initramfs fs_64k:=initramfs fs_64kraw:=initramfs fs_128k:=initramfs fs_256k:=initramfs VMLINUX:=$(BIN_DIR)/$(IMG_PREFIX)-vmlinux-initramfs UIMAGE:=$(BIN_DIR)/$(IMG_PREFIX)-uImage-initramfs endif define CompressLzma $(STAGING_DIR_HOST)/bin/lzma e $(1) -lc1 -lp2 -pb2 $(3) $(2) endef define PatchKernelLzma cp $(KDIR)/vmlinux $(KDIR_TMP)/vmlinux-$(1) $(STAGING_DIR_HOST)/bin/patch-cmdline $(KDIR_TMP)/vmlinux-$(1) "$(strip $(2))" $(call CompressLzma,$(KDIR_TMP)/vmlinux-$(1),$(KDIR_TMP)/vmlinux-$(1).bin.lzma,$(3)) endef define PatchKernelGzip cp $(KDIR)/vmlinux $(KDIR_TMP)/vmlinux-$(1) $(STAGING_DIR_HOST)/bin/patch-cmdline $(KDIR_TMP)/vmlinux-$(1) "$(strip $(2))" gzip -9 -c $(KDIR_TMP)/vmlinux-$(1) > $(KDIR_TMP)/vmlinux-$(1).bin.gz endef define MkuImage mkimage -A mips -O linux -T multi -a 0x80060000 -C $(1) $(2) \ -e 0x80060000 -n 'MIPS OpenWrt Linux-$(LINUX_VERSION)' \ -d $(3) $(4) endef define MkuImageLzma $(call PatchKernelLzma,$(1),$(2),$(3)) $(call MkuImage,lzma,,$(KDIR_TMP)/vmlinux-$(1).bin.lzma,$(KDIR_TMP)/vmlinux-$(1).uImage) endef define MkuImageLzma/initramfs $(call PatchKernelLzma,$(1),$(2)) $(call MkuImage,lzma,,$(KDIR_TMP)/vmlinux-$(1).bin.lzma,$(call imgname,initramfs,$(1))-uImage.bin) endef define MkuImageGzip $(call PatchKernelGzip,$(1),$(2)) $(call MkuImage,gzip,,$(KDIR_TMP)/vmlinux-$(1).bin.gz,$(KDIR_TMP)/vmlinux-$(1).uImage) endef define MkuImageGzip/initramfs $(call PatchKernelGzip,$(1),$(2)) $(call MkuImage,gzip,,$(KDIR_TMP)/vmlinux-$(1).bin.gz,$(call imgname,initramfs,$(1))-uImage.bin) endef define MkuImageOKLI $(call MkuImage,lzma,-M 0x4f4b4c49,$(KDIR)/vmlinux.bin.lzma,$(KDIR_TMP)/vmlinux-$(1).okli) endef define CatFiles if [ `stat -c%s "$(1)"` -gt $(2) ]; then \ echo "Warning: $(1) is too big"; \ else if [ `stat -c%s $(3)` -gt $(4) ]; then \ echo "Warning: $(3) is too big"; \ else \ ( dd if=$(1) bs=$(2) conv=sync; dd if=$(3) ) > $(5); \ fi; fi endef define Sysupgrade/KR $(call CatFiles,$(2),$(3),$(KDIR)/root.$(1),$(4),$(call sysupname,$(1),$(5))) endef define Sysupgrade/KRuImage $(call CatFiles,$(KDIR_TMP)/vmlinux-$(2).uImage,$(3),$(KDIR)/root.$(1),$(4),$(call sysupname,$(1),$(2))) endef define Sysupgrade/RKuImage $(call CatFiles,$(KDIR)/root.$(1),$(4),$(KDIR_TMP)/vmlinux-$(2).uImage,$(3),$(call sysupname,$(1),$(2))) endef define Image/BuildLoader -rm -rf $(KDIR)/lzma-loader $(LOADER_MAKE) LOADER=loader-$(1).$(2) KERNEL_CMDLINE="$(3)"\ LZMA_TEXT_START=0x80a00000 LOADADDR=0x80060000 \ LOADER_DATA="$(KDIR)/vmlinux.bin.lzma" BOARD="$(1)" \ compile loader.$(2) endef define Image/BuildLoaderAlone -rm -rf $(KDIR)/lzma-loader $(LOADER_MAKE) LOADER=loader-$(1).$(2) KERNEL_CMDLINE="$(3)" \ LZMA_TEXT_START=0x80a00000 LOADADDR=0x80060000 \ BOARD="$(1)" FLASH_OFFS=$(4) FLASH_MAX=$(5) \ compile loader.$(2) endef define Build/Clean $(LOADER_MAKE) clean endef alfa_ap96_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,256k(u-boot-env)ro,13312k(rootfs),2048k(kernel),512k(caldata)ro,15360k@0x80000(firmware) alfa_mtdlayout_8M=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,6144k(rootfs),1600k(kernel),64k(nvram),64k(art)ro,7744k@0x50000(firmware) all0258n_mtdlayout=mtdparts=spi0.0:256k(u-boot),64k(u-boot-env),1024k(kernel),5248k(rootfs),1536k(failsafe),64k(art),6272k@0x50000(firmware) all0315n_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,256k(u-boot-env),1024k(kernel),12544k(rootfs),2048k(failsafe),256k(art)ro,13568k@0x80000(firmware) ap96_mtdlayout=mtdparts=spi0.0:192k(u-boot)ro,64k(u-boot-env)ro,6144k(rootfs),1728k(kernel),64k(art)ro,7872k@0x40000(firmware) ap113_mtd_layout=mtdparts=spi0.0:64k(u-boot),3008k(rootfs),896k(uImage),64k(NVRAM),64k(ART),3904k@0x10000(firmware) ap121_mtdlayout_2M=mtdparts=spi0.0:64k(u-boot)ro,1216k(rootfs),704k(kernel),64k(art)ro,1920k@0x10000(firmware) ap121_mtdlayout_4M=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,2752k(rootfs),896k(kernel),64k(nvram),64k(art)ro,3648k@0x50000(firmware) ap121_mtdlayout_8M=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env),6336k(rootfs),1408k(kernel),64k(mib0),64k(art)ro,7744k@0x50000(firmware) ap121_mtdlayout_16M=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env),14528k(rootfs),1472k(kernel),64k(art)ro,16000k@0x50000(firmware) ap135_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env),14528k(rootfs),1472k(kernel),64k(art)ro,16000k@0x50000(firmware) ap135dual_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,14528k(rootfs),1472k(kernel),64k(art)ro,15936k@0x50000(firmware);ath79-nand:256m(rootfs_data) rubberduck_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env),14528k(rootfs),1472k(kernel),64k(art)ro,16000k@0x50000(firmware) ap136_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,6336k(rootfs),1472k(kernel),64k(art)ro,7744k@0x50000(firmware) ap143_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,6336k(rootfs),1472k(kernel),64k(art)ro,7744k@0x50000(firmware) ap152_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,6336k(rootfs),1472k(kernel),64k(art)ro,7744k@0x50000(firmware) cameo7240_mtdlayout=mtdparts=spi0.0:192k(u-boot)ro,64k(nvram)ro,960k(kernel),2752k(rootfs),64k(mac)ro,64k(art)ro,3712k@0x40000(firmware) cameo913x_mtdlayout=mtdparts=spi0.0:128k(u-boot)ro,64k(config)ro,960k(kernel),2880k(rootfs),64k(art)ro,3840k@0x30000(firmware) cameo933x_mtdlayout=mtdparts=spi0.0:64k(u-boot)ro,64k(art)ro,64k(mac)ro,64k(nvram)ro,192k(language)ro,896k(kernel),2752k(rootfs),3648k@0x70000(firmware) cap4200ag_mtdlayout=mtdparts=spi0.0:256k(u-boot),64k(u-boot-env),320k(custom)ro,1536k(kernel),12096k(rootfs),2048k(failsafe),64k(art),13632k@0xa0000(firmware) db120_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,6336k(rootfs),1408k(kernel),64k(nvram),64k(art)ro,7744k@0x50000(firmware) dir825b1_mtdlayout=mtdparts=spi0.0:256k(uboot)ro,64k(config)ro,1024k(kernel),5184k(rootfs),64k(caldata)ro,1600k(unknown)ro,6208k@0x50000(firmware),64k@0x7f0000(caldata_copy) dir825b1_mtdlayout_fat=mtdparts=spi0.0:256k(uboot)ro,64k(config)ro,1024k(kernel),6784k(rootfs),64k(caldata)ro,7808k@0x50000(firmware),64k@0x660000(caldata_orig),6208k@0x50000(firmware_orig) ew-dorin_mtdlayout_4M=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env),1024k(kernel),2688k(rootfs),64k(art),3712k@0x50000(firmware) dlrtdev_mtdlayout=mtdparts=spi0.0:256k(uboot)ro,64k(config)ro,1024k(kernel),5184k(rootfs),64k(caldata)ro,640k(certs),960k(unknown)ro,6208k@0x50000(firmware),64k@0x7f0000(caldata_copy) dlrtdev_mtdlayout_fat=mtdparts=spi0.0:256k(uboot)ro,64k(config)ro,1024k(kernel),6544k(rootfs),640k(certs),64k(caldata)ro,7168k@0x50000(firmware),64k@0x660000(caldata_orig),6208k@0x50000(firmware_orig) pb92_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,2752k(rootfs),896k(kernel),64k(nvram),64k(art)ro,3648k@0x50000(firmware) planex_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,960k(kernel),6784k(rootfs),128k(art)ro,7744k@0x50000(firmware) ubntxm_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,1024k(kernel),6528k(rootfs),256k(cfg)ro,64k(EEPROM)ro,7552k@0x50000(firmware) ubdev_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,1024k(kernel),6464k(rootfs),64k(certs),256k(cfg)ro,64k(EEPROM)ro,7488k@0x50000(firmware) whrhpg300n_mtdlayout=mtdparts=spi0.0:248k(u-boot)ro,8k(u-boot-env)ro,960k(kernel),2816k(rootfs),64k(art)ro,3712k@0x40000(firmware) wndr3700_mtdlayout=mtdparts=spi0.0:320k(u-boot)ro,128k(u-boot-env)ro,1024k(kernel),6656k(rootfs),64k(art)ro,7680k@0x70000(firmware) wndr3700v2_mtdlayout=mtdparts=spi0.0:320k(u-boot)ro,128k(u-boot-env)ro,1024k(kernel),14848k(rootfs),64k(art)ro,15872k@0x70000(firmware) zcn1523h_mtdlayout=mtdparts=spi0.0:256k(u-boot)ro,64k(u-boot-env)ro,6208k(rootfs),1472k(kernel),64k(configure)ro,64k(mfg)ro,64k(art)ro,7680k@0x50000(firmware) define Image/BuildKernel cp $(KDIR)/vmlinux.elf $(VMLINUX).elf cp $(KDIR)/vmlinux $(VMLINUX).bin dd if=$(KDIR)/vmlinux.bin.lzma of=$(VMLINUX).lzma bs=65536 conv=sync dd if=$(KDIR)/vmlinux.bin.gz of=$(VMLINUX).gz bs=65536 conv=sync $(call MkuImage,gzip,,$(KDIR)/vmlinux.bin.gz,$(UIMAGE)-gzip.bin) $(call MkuImage,lzma,,$(KDIR)/vmlinux.bin.lzma,$(UIMAGE)-lzma.bin) cp $(KDIR)/loader-generic.elf $(VMLINUX)-lzma.elf -mkdir -p $(KDIR_TMP) $(call Image/Build/Initramfs) endef define Image/Build/WRT400N $(call MkuImageLzma,$(2),$(3)) $(call Sysupgrade/KRuImage,$(1),$(2),1310720,6488064) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ wrt400n $(KDIR_TMP)/vmlinux-$(2).uImage $(KDIR)/root.$(1) $(call factoryname,$(1),$(2)); \ fi endef define Image/Build/DIR825B1 $(call MkuImageLzma,$(2),$(3) $(dir825b1_mtdlayout)) $(call Sysupgrade/KRuImage,$(1),$(2),1048576,5308416) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ ( \ dd if=$(call sysupname,$(1),$(2)); \ echo -n "$(4)"; \ ) > $(call imgname,$(1),$(2))-backup-loader.bin; \ if [ `stat -c%s $(call sysupname,$(1),$(2))` -gt 4194304 ]; then \ echo "Warning: $(call sysupname,$(1),$(2)) is too big"; \ else \ ( \ dd if=$(call sysupname,$(1),$(2)) bs=4096k conv=sync; \ echo -n "$(5)"; \ ) > $(call factoryname,$(1),$(2)); \ fi; \ fi $(call MkuImageLzma,$(2)-fat,$(3) $(dir825b1_mtdlayout_fat)) $(call CatFiles,$(KDIR_TMP)/vmlinux-$(2)-fat.uImage,1048576,$(KDIR)/root.$(1),6946816,$(KDIR_TMP)/$(2)-fat.bin) if [ -e "$(KDIR_TMP)/$(2)-fat.bin" ]; then \ echo -n "" > $(KDIR_TMP)/$(2)-fat.dummy; \ sh $(TOPDIR)/scripts/combined-image.sh \ "$(KDIR_TMP)/$(2)-fat.bin" \ "$(KDIR_TMP)/$(2)-fat.dummy" \ $(call sysupname,$(1),$(2)-fat); \ fi endef define Image/Build/DLRTDEV $(call MkuImageLzma,$(2),$(3) $(dlrtdev_mtdlayout)) $(call Sysupgrade/KRuImage,$(1),$(2),1048576,5308416) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ ( \ dd if=$(call sysupname,$(1),$(2)); \ echo -n "$(4)"; \ ) > $(call imgname,$(1),$(2))-backup-loader.bin; \ if [ `stat -c%s $(call sysupname,$(1),$(2))` -gt 4194304 ]; then \ echo "Warning: $(call sysupname,$(1),$(2)) is too big"; \ else \ ( \ dd if=$(call sysupname,$(1),$(2)) bs=4096k conv=sync; \ echo -n "$(5)"; \ ) > $(call factoryname,$(1),$(2)); \ fi; \ fi $(call MkuImageLzma,$(2)-fat,$(3) $(dlrtdev_mtdlayout_fat)) $(call CatFiles,$(KDIR_TMP)/vmlinux-$(2)-fat.uImage,1048576,$(KDIR)/root.$(1),6946816,$(KDIR_TMP)/$(2)-fat.bin) if [ -e "$(KDIR_TMP)/$(2)-fat.bin" ]; then \ echo -n "" > $(KDIR_TMP)/$(2)-fat.dummy; \ sh $(TOPDIR)/scripts/combined-image.sh \ "$(KDIR_TMP)/$(2)-fat.bin" \ "$(KDIR_TMP)/$(2)-fat.dummy" \ $(call sysupname,$(1),$(2)-fat); \ fi endef define Image/Build/WZRHPG30XNH $(call MkuImageLzma,$(2),$(3)) $(call Sysupgrade/KRuImage,$(1),$(2),1048576,31850496) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ ( \ echo -n -e "# Airstation Public Fmt1\x00\x00\x00\x00\x00\x00\x00\x00"; \ dd if=$(call sysupname,$(1),$(2)); \ ) > $(call imgname,$(1),$(2))-tftp.bin; \ buffalo-enc -p $(4) -v 1.99 \ -i $(call sysupname,$(1),$(2)) \ -o $(KDIR_TMP)/$(2).enc; \ buffalo-tag -b $(4) -p $(4) -a ath -v 1.99 -m 1.01 -l mlang8 \ -w 3 -c 0x80041000 -d 0x801e8000 -f 1 -r M_ \ -i $(KDIR_TMP)/$(2).enc \ -o $(call factoryname,$(1),$(2)); \ fi endef define Image/Build/WZRHPG30XNH/initramfs $(call MkuImageLzma/initramfs,$(2),$(3) $(4)) endef define Image/Build/WHRHPG300N $(call MkuImageLzma,$(2),$(3) $(4)) $(call Sysupgrade/KRuImage,$(1),$(2),983040,2883584) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ ( \ echo -n -e "# Airstation Public Fmt1\x00\x00\x00\x00\x00\x00\x00\x00"; \ dd if=$(call sysupname,$(1),$(2)); \ ) > $(call imgname,$(1),$(2))-tftp.bin; \ buffalo-enc -p $(5) -v 1.99 \ -i $(call sysupname,$(1),$(2)) \ -o $(KDIR_TMP)/$(2).enc; \ buffalo-tag -b $(5) -p $(5) -a ath -v 1.99 -m 1.01 -l mlang8 \ -w 3 -c 0x80041000 -d 0x801e8000 -f 1 -r M_ \ -i $(KDIR_TMP)/$(2).enc \ -o $(call factoryname,$(1),$(2)); \ fi endef define Image/Build/WHRHPG300N/initramfs $(call MkuImageLzma/initramfs,$(2),$(3) $(4)) endef define Image/Build/Cameo $(call MkuImageLzma,$(2),$(3) $(4)) $(call Sysupgrade/KRuImage,$(1),$(2),$(5),$(6)) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ ( \ dd if=$(KDIR_TMP)/vmlinux-$(2).uImage bs=$(5) conv=sync; \ dd if=$(KDIR)/root.$(1) bs=$(6) conv=sync; \ echo -n $(7); \ ) > $(call factoryname,$(1),$(2)); \ fi endef define Image/Build/CameoHornet $(call MkuImageLzma,$(2),$(3) $(4)) $(call Sysupgrade/KRuImage,$(1),$(2),$(5),$(6)) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ mkcameofw -M HORNET -R "DEF" -S $(7) -V "1.99" \ -K $(5) -I $$$$(($(5)+$(6))) \ -k $(KDIR_TMP)/vmlinux-$(2).uImage \ -r $(BIN_DIR)/$(IMG_PREFIX)-root.$(1) \ -o $(call factoryname,$(1),$(2)); \ fi endef define Image/Build/Cameo913x $(call Image/Build/Cameo,$(1),$(2),$(3),$(cameo913x_mtdlayout),983040,2949120,$(4)) endef define Image/Build/Cameo913x/initramfs $(call MkuImageLzma/initramfs,$(2),$(3) $(cameo913x_mtdlayout)) endef define Image/Build/Cameo7240 $(call Image/Build/Cameo,$(1),$(2),$(3),$(cameo7240_mtdlayout),983040,2818048,$(4)) endef define Image/Build/Cameo7240/initramfs $(call MkuImageLzma/initramfs,$(2),$(3) $(cameo7240_mtdlayout)) endef define Image/Build/Cameo933x $(call Image/Build/CameoHornet,$(1),$(2),$(3),$(cameo933x_mtdlayout),917504,2818048,$(4)) endef define Image/Build/Cameo933x/initramfs $(call MkuImageLzma/initramfs,$(2),$(3) $(cameo933x_mtdlayout)) endef define Image/Build/Ath $(call Sysupgrade/$(7),$(1),$(2),$(5),$(6)) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ dd if=$(KDIR_TMP)/vmlinux-$(2).uImage \ of=$(call imgname,kernel,$(2)).bin bs=64k conv=sync; \ dd if=$(KDIR)/root.$(1) \ of=$(call imgname,$(1),$(2)-rootfs).bin bs=128k conv=sync; \ fi endef define Image/Build/AthGzip $(call MkuImageGzip,$(2),$(3) $(4)) $(call Image/Build/Ath,$(1),$(2),$(3),$(4),$(5),$(6),$(7)) endef define Image/Build/AthGzip/initramfs $(call MkuImageGzip/initramfs,$(2),$(3) $(4)) endef define Image/Build/AthLzma $(call MkuImageLzma,$(2),$(3) $(4)) $(call Image/Build/Ath,$(1),$(2),$(3),$(4),$(5),$(6),$(7)) endef define Image/Build/AthLzma/initramfs $(call MkuImageLzma/initramfs,$(2),$(3) $(4)) endef define Image/Build/PB4X $(call PatchKernelLzma,$(2),$(3)) dd if=$(KDIR_TMP)/vmlinux-$(2).bin.lzma \ of=$(call imgname,kernel,$(2)).bin bs=64k conv=sync dd if=$(KDIR)/root.$(1) \ of=$(call imgname,$(1),$(2)-rootfs).bin bs=128k conv=sync -sh $(TOPDIR)/scripts/combined-image.sh \ "$(call imgname,kernel,$(2)).bin" \ "$(call imgname,$(1),$(2)-rootfs).bin" \ $(call sysupname,$(1),$(2)) endef define Image/Build/MyLoader $(call PatchKernelLzma,$(2),$(3)) -$(STAGING_DIR_HOST)/bin/mkmylofw -B $(2) -s $(4) \ -p0x030000:0xe0000:al:0x80060000:kernel:$(KDIR_TMP)/vmlinux-$(2).bin.lzma \ -p0x110000:0:::rootfs:$(KDIR)/root.$(1) \ $(call imgname,$(1),$(2))-$(5)-factory.img endef define Image/Build/UBNTXM $(call MkuImageLzma,$(2),$(3) $(ubntxm_mtdlayout)) $(call Sysupgrade/KRuImage,$(1),$(2),1048576,6684672) dd if=$(KDIR_TMP)/vmlinux-$(2).uImage of=$(KDIR_TMP)/vmlinux-$(2).uImage.bin bs=1024k conv=sync -$(STAGING_DIR_HOST)/bin/mkfwimage \ -B $(4) -v $(5).$(6).v6.0.0-OpenWrt-$(REVISION) \ -k $(KDIR_TMP)/vmlinux-$(2).uImage.bin \ -r $(BIN_DIR)/$(IMG_PREFIX)-root.$(1) \ -o $(call factoryname,$(1),$(2)) endef define Image/Build/UBDEV $(call MkuImageLzma,$(2),$(3) $(ubdev_mtdlayout)) $(call Sysupgrade/KRuImage,$(1),$(2),1048576,6684672) dd if=$(KDIR_TMP)/vmlinux-$(2).uImage of=$(KDIR_TMP)/vmlinux-$(2).uImage.bin bs=1024k conv=sync -$(STAGING_DIR_HOST)/bin/mkfwimage \ -B $(4) -v $(5).$(6).v6.0.0-OpenWrt-$(REVISION) \ -k $(KDIR_TMP)/vmlinux-$(2).uImage.bin \ -r $(BIN_DIR)/$(IMG_PREFIX)-root.$(1) \ -o $(call factoryname,$(1),$(2)) endef define Image/Build/UBNT $(call PatchKernelLzma,$(2),$(3)) dd if=$(KDIR_TMP)/vmlinux-$(2).bin.lzma of=$(KDIR_TMP)/vmlinux-$(2).lzma bs=64k conv=sync -$(STAGING_DIR_HOST)/bin/mkfwimage \ -B $(4) -v $(5).$(6).OpenWrt.$(REVISION) \ -k $(KDIR_TMP)/vmlinux-$(2).lzma \ -r $(BIN_DIR)/$(IMG_PREFIX)-root.$(1) \ -o $(call factoryname,$(1),$(2)) -sh $(TOPDIR)/scripts/combined-image.sh \ "$(KDIR_TMP)/vmlinux-$(2).lzma" \ "$(BIN_DIR)/$(IMG_PREFIX)-root.$(1)" \ $(call sysupname,$(1),$(2)) endef define Image/Build/Planex/loader $(call Image/BuildLoaderAlone,$(1),gz,$(2) $(planex_mtdlayout),0x52000,0) endef define Image/Build/Planex [ -e "$(KDIR)/loader-$(2).gz" ] $(call MkuImage,gzip,,$(KDIR)/loader-$(2).gz,$(KDIR_TMP)/vmlinux-$(2).uImage) $(call MkuImageOKLI,$(2)) ( \ dd if=$(KDIR_TMP)/vmlinux-$(2).uImage bs=8k count=1 conv=sync; \ dd if=$(KDIR_TMP)/vmlinux-$(2).okli; \ ) > $(KDIR_TMP)/kernel-$(2).bin $(call Sysupgrade/KR,$(1),$(KDIR_TMP)/kernel-$(2).bin,983040,6815744,$(2)) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ $(STAGING_DIR_HOST)/bin/mkplanexfw \ -B $(2) \ -v 2.00.00 \ -i $(call sysupname,$(1),$(2)) \ -o $(call factoryname,$(1),$(2)); \ fi endef define Image/Build/ALFA $(call MkuImageLzma,$(2),$(3) $(4)) $(call Sysupgrade/RKuImage,$(1),$(2),$(5),$(6)) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ rm -rf $(KDIR)/$(1); \ mkdir -p $(KDIR)/$(1); \ cd $(KDIR)/$(1); \ cp $(KDIR_TMP)/vmlinux-$(2).uImage $(KDIR)/$(1)/$(7); \ cp $(KDIR)/root.$(1) $(KDIR)/$(1)/$(8); \ $(TAR) zcf $(call factoryname,$(1),$(2)) -C $(KDIR)/$(1) $(7) $(8); \ ( \ echo WRM7222C | dd bs=32 count=1 conv=sync; \ echo -ne '\xfe'; \ ) >> $(call factoryname,$(1),$(2)); \ fi endef define Image/Build/ALFA/initramfs $(call MkuImageLzma/initramfs,$(2),$(3) $(4)) endef define Image/Build/TPLINKOLD/loader $(call Image/BuildLoaderAlone,$(1),gz,$(2),0x22000,0) endef define Image/Build/TPLINKOLD [ -e "$(KDIR)/loader-$(2).gz" ] $(call MkuImageOKLI,$(2)) ( \ dd if=$(KDIR)/loader-$(2).gz bs=7680 count=1 conv=sync; \ dd if=$(KDIR_TMP)/vmlinux-$(2).okli conv=sync; \ ) > $(KDIR_TMP)/kernel-$(2).bin -$(STAGING_DIR_HOST)/bin/mktplinkfw \ -H $(4) -W $(5) -F $(6) -N OpenWrt -V $(REVISION)\ -k $(KDIR_TMP)/kernel-$(2).bin \ -r $(KDIR)/root.$(1) \ -o $(call factoryname,$(1),$(2)) -$(STAGING_DIR_HOST)/bin/mktplinkfw \ -H $(4) -W $(5) -F $(6) -N OpenWrt -V $(REVISION) -s\ -k $(KDIR_TMP)/kernel-$(2).bin \ -r $(KDIR)/root.$(1) \ -o $(call sysupname,$(1),$(2)) endef define Image/Build/TPLINKOLD/initramfs $(call Image/BuildLoader,$(2),gz,$(3),0x80060000) -$(STAGING_DIR_HOST)/bin/mktplinkfw -c \ -H $(4) -W $(5) -F $(6) -N OpenWrt -V $(REVISION) -s\ -k $(KDIR)/loader-$(2).gz \ -o $(call imgname,$(1),$(2))-uImage.bin endef define Image/Build/TPLINK/loader $(call Image/BuildLoaderAlone,$(1),gz,$(2),0x22000,0) endef define Image/Build/TPLINK [ -e "$(KDIR)/loader-$(2).gz" ] $(call MkuImageOKLI,$(2)) ( \ dd if=$(KDIR)/loader-$(2).gz bs=7680 count=1 conv=sync; \ dd if=$(KDIR_TMP)/vmlinux-$(2).okli conv=sync; \ ) > $(KDIR_TMP)/kernel-$(2).bin -$(STAGING_DIR_HOST)/bin/mktplinkfw \ -H $(4) -W $(5) -F $(6) -N OpenWrt -V $(REVISION)\ -k $(KDIR_TMP)/kernel-$(2).bin \ -r $(KDIR)/root.$(1) \ -a $(call rootfs_align,$(1)) -j \ -o $(call factoryname,$(1),$(2)) -$(STAGING_DIR_HOST)/bin/mktplinkfw \ -H $(4) -W $(5) -F $(6) -N OpenWrt -V $(REVISION) -s\ -k $(KDIR_TMP)/kernel-$(2).bin \ -r $(KDIR)/root.$(1) \ -a $(call rootfs_align,$(1)) -j \ -o $(call sysupname,$(1),$(2)) endef define Image/Build/TPLINK/initramfs $(call Image/BuildLoader,$(2),gz,$(3),0x80060000) -$(STAGING_DIR_HOST)/bin/mktplinkfw -c \ -H $(4) -W $(5) -F $(6) -N OpenWrt -V $(REVISION) -s\ -k $(KDIR)/loader-$(2).gz \ -o $(call imgname,$(1),$(2))-uImage.bin endef define Image/Build/TPLINK-LZMA $(call PatchKernelLzma,$(2),$(3)) -$(STAGING_DIR_HOST)/bin/mktplinkfw \ -H $(4) -W $(5) -F $(6) -N OpenWrt -V $(REVISION) $(7) \ -k $(KDIR_TMP)/vmlinux-$(2).bin.lzma \ -r $(KDIR)/root.$(1) \ -a $(call rootfs_align,$(1)) -j \ -o $(call factoryname,$(1),$(2)) -$(STAGING_DIR_HOST)/bin/mktplinkfw \ -H $(4) -W $(5) -F $(6) -N OpenWrt -V $(REVISION) $(7) -s \ -k $(KDIR_TMP)/vmlinux-$(2).bin.lzma \ -r $(KDIR)/root.$(1) \ -a $(call rootfs_align,$(1)) -j \ -o $(call sysupname,$(1),$(2)) endef define Image/Build/TPLINK-LZMA/initramfs $(call PatchKernelLzma,$(2),$(3)) -$(STAGING_DIR_HOST)/bin/mktplinkfw -c \ -H $(4) -W $(5) -F $(6) -N OpenWrt -V $(REVISION) $(7) -s \ -k $(KDIR_TMP)/vmlinux-$(2).bin.lzma \ -o $(call imgname,$(1),$(2))-uImage.bin endef define Image/Build/CyberTAN $(call MkuImageGzip,$(2),$(3)) $(STAGING_DIR_HOST)/bin/trx -o $(KDIR)/image.tmp -f $(KDIR_TMP)/vmlinux-$(2).uImage \ -x 32 -a 0x10000 -x -32 -f $(KDIR)/root.$(1) -$(STAGING_DIR_HOST)/bin/addpattern -B $(2) -v v$(4) \ -i $(KDIR)/image.tmp \ -o $(call sysupname,$(1),$(2)) -$(STAGING_DIR_HOST)/bin/addpattern -B $(2) -v v$(4) -g \ -i $(KDIR)/image.tmp \ -o $(call factoryname,$(1),$(2)) rm $(KDIR)/image.tmp endef define Image/Build/Netgear/Build_uImage $(call MkuImageLzma,$(1),$(2) $(3),-d20) -rm -rf $(KDIR)/$(1) mkdir -p $(KDIR)/$(1)/image $(STAGING_DIR_HOST)/bin/wndr3700 \ $(KDIR_TMP)/vmlinux-$(1).uImage \ $(KDIR)/$(1)/image/uImage \ $(4) $(STAGING_DIR_HOST)/bin/mksquashfs-lzma \ $(KDIR)/$(1) $(KDIR_TMP)/vmlinux-$(1).uImage.squashfs.tmp \ -nopad -noappend -root-owned -be -rm -rf $(KDIR)/$(1) mkimage -A mips -O linux -T filesystem -C none \ -a 0xbf070000 -e 0xbf070000 \ -n 'MIPS OpenWrt Linux-$(LINUX_VERSION)' \ -d $(KDIR_TMP)/vmlinux-$(1).uImage.squashfs.tmp \ $(KDIR_TMP)/vmlinux-$(1).uImage.squashfs.tmp2 $(STAGING_DIR_HOST)/bin/wndr3700 \ $(KDIR_TMP)/vmlinux-$(1).uImage.squashfs.tmp2 \ $(KDIR_TMP)/vmlinux-$(1).uImage.squashfs \ $(4) -rm -f $(KDIR_TMP)/vmlinux-$(1).uImage.squashfs.tmp* endef define Image/Build/Netgear/Estimate_uImage $(call Image/Build/Netgear/Build_uImage,$(1)_est,$(2),$(3),$(4)) ( \ set -e; \ kk=`echo '$(3)' | sed -e 's/.*[:,]\([0-9]*\)k(kernel).*/\1/'`; \ rk=`echo '$(3)' | sed -e 's/.*[:,]\([0-9]*\)k(rootfs).*/\1/'`; \ let 'tk = kk + rk'; \ s=`stat -c'%s' '$(KDIR_TMP)/vmlinux-$(1)_est.uImage.squashfs'`; \ c=`echo '$(3)' | wc -c`; \ let 'kk = (((s + c) / (64 * 1024) + 1) * 64)'; \ let 'rk = tk - kk'; \ echo '$(3)' | sed -e "s/[0-9]*k(kernel)/$$$${kk}k(kernel)/" \ -e "s/[0-9]*k(rootfs)/$$$${rk}k(rootfs)/" > \ '$(KDIR_TMP)/$(1)_mtdparts'; \ let 'k = kk * 1024'; \ echo "$$$${k}" > '$(KDIR_TMP)/$(1)_kernel_maxsize'; \ let 'r = rk * 1024'; \ echo "$$$${r}" > '$(KDIR_TMP)/$(1)_rootfs_maxsize'; \ ) -rm -f $(KDIR_TMP)/vmlinux-$(1)_est \ $(KDIR_TMP)/vmlinux-$(1)_est.bin.lzma \ $(KDIR_TMP)/vmlinux-$(1)_est.uImage \ $(KDIR_TMP)/vmlinux-$(1)_est.uImage.squashfs endef define Image/Build/Netgear $(call Image/Build/Netgear/Estimate_uImage,$(2),$(3),$(4),$(5)) $(call Image/Build/Netgear/Build_uImage,$(2),$(3),`cat $(KDIR_TMP)/$(2)_mtdparts`,$(5)) if [ `stat -c%s '$(KDIR_TMP)/vmlinux-$(2).uImage.squashfs'` -gt \ `cat '$(KDIR_TMP)/$(2)_kernel_maxsize'` ]; then \ echo "$(KDIR_TMP)/vmlinux-$(2).uImage.squashfs is too big" >& 2; \ else if [ `stat -c%s '$(KDIR)/root.$(1)'` -gt \ `cat '$(KDIR_TMP)/$(2)_rootfs_maxsize'` ]; then \ echo "$(KDIR)/root.$(1) is too big" >& 2; \ else \ ( \ set -e; \ dd if=$(KDIR_TMP)/vmlinux-$(2).uImage.squashfs \ bs=`cat '$(KDIR_TMP)/$(2)_kernel_maxsize'` conv=sync; \ dd if=$(KDIR)/root.$(1) bs=64k; \ ) > $(call sysupname,$(1),$(2)); \ for r in $(7) ; do \ [ -n "$$$$r" ] && dashr="-$$$$r" || dashr= ; \ $(STAGING_DIR_HOST)/bin/mkdniimg \ -B $(6) -v OpenWrt.$(REVISION) -r "$$$$r" $(8) \ -i $(call sysupname,$(1),$(2)) \ -o $(call imgname,$(1),$(2))-factory$$$$dashr.img; \ done; \ fi; fi endef define Image/Build/Netgear/initramfs $(call MkuImageLzma,$(2),$(3) $(4)) $(STAGING_DIR_HOST)/bin/wndr3700 \ $(KDIR_TMP)/vmlinux-$(2).uImage \ $(call imgname,$(1),$(2))-uImage.bin \ $(5) endef ifdef CONFIG_PACKAGE_uboot-ar71xx-nbg460n_550n_550nh define Image/Build/ZyXEL $(call MkuImageLzma,$(2),$(3)) $(call Sysupgrade/KRuImage,$(1),$(2),917504,2752512) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ if [ ! -f $(BIN_DIR)/$(IMG_PREFIX)-$(2)-u-boot.bin ]; then \ echo "Warning: $(IMG_PREFIX)-$(2)-u-boot.bin not found"; \ else \ $(STAGING_DIR_HOST)/bin/mkzynfw \ -B $(4) \ -b $(BIN_DIR)/$(IMG_PREFIX)-$(2)-u-boot.bin \ -r $(call sysupname,$(1),$(2)):0x10000 \ -o $(call factoryname,$(1),$(2)); \ fi; fi endef endif define Image/Build/OpenMesh $(call MkuImageLzma,$(2)) -sh $(TOPDIR)/scripts/om-fwupgradecfg-gen.sh \ "$(4)" \ "$(BUILD_DIR)/fwupgrade.cfg-$(4)" \ "$(KDIR_TMP)/vmlinux-$(2).uImage" \ "$(KDIR)/root.$(1)" -sh $(TOPDIR)/scripts/combined-ext-image.sh \ "$(4)" "$(call factoryname,$(1),$(2))" \ "$(BUILD_DIR)/fwupgrade.cfg-$(4)" "fwupgrade.cfg" \ "$(KDIR_TMP)/vmlinux-$(2).uImage" "kernel" \ "$(KDIR)/root.$(1)" "rootfs" endef define Image/Build/Zcomax $(call MkuImageLzma,$(2),$(3) $(4)) $(call Sysupgrade/RKuImage,$(1),$(2),1507328,6356992) if [ -e "$(call sysupname,$(1),$(2))" ]; then \ $(STAGING_DIR_HOST)/bin/mkzcfw \ -B $(2) \ -k $(KDIR_TMP)/vmlinux-$(2).uImage \ -r $(BIN_DIR)/$(IMG_PREFIX)-root.$(1) \ -o $(call imgname,$(1),$(2))-factory.img; \ fi endef define Image/Build/Zcomax/initramfs $(call MkuImageLzma/initramfs,$(2),$(3) $(4)) endef define Image/Build/Template/initramfs/initramfs $(call Image/Build/$(1)/initramfs,initramfs,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/all/squashfs $(call Image/Build/$(1),squashfs,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/all/jffs2-64k $(call Image/Build/$(1),jffs2-64k,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/all/jffs2-128k $(call Image/Build/$(1),jffs2-128k,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/all/jffs2-256k $(call Image/Build/$(1),jffs2-256k,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/squashfs-only/loader $(call Image/Build/$(1)/loader,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/squashfs-only/squashfs $(call Image/Build/$(1),squashfs,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/64k/loader $(call Image/Build/$(1)/loader,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/64k/squashfs $(call Image/Build/$(1),squashfs-64k,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/64k/jffs2-64k $(call Image/Build/$(1),jffs2-64k,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/64kraw/loader $(call Image/Build/$(1)/loader,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/64kraw/squashfs $(call Image/Build/$(1),squashfs-raw,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/64kraw/jffs2-64k $(call Image/Build/$(1),jffs2-64k,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/128k/squashfs $(call Image/Build/$(1),squashfs,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/128k/jffs2-128k $(call Image/Build/$(1),jffs2-128k,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/256k/squashfs $(call Image/Build/$(1),squashfs,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef define Image/Build/Template/256k/jffs2-256k $(call Image/Build/$(1),jffs2-256k,$(2),$(3),$(4),$(5),$(6),$(7),$(8)) endef $(eval $(call SingleProfile,ALFA,$(fs_64k),ALFANX,alfa-nx,ALFA-NX,ttyS0,115200,$$(alfa_mtdlayout_8M),1638400,6291456,vmlinux.gz.uImage,pb9x-2.6.31-jffs2)) $(eval $(call SingleProfile,ALFA,$(fs_64k),HORNETUB,hornet-ub,HORNET-UB,ttyATH0,115200,$$(alfa_mtdlayout_8M),1638400,6291456,kernel_image,rootfs_image)) $(eval $(call SingleProfile,AthGzip,$(fs_64k),AP81,ap81,AP81,ttyS0,115200,,1310720,6619136,KRuImage)) $(eval $(call SingleProfile,AthGzip,$(fs_64k),AP83,ap83,AP83,ttyS0,115200,,1310720,6619136,KRuImage)) $(eval $(call SingleProfile,AthGzip,$(fs_64k),AP96,ap96,AP96,ttyS0,115200,$$(ap96_mtdlayout),1769472,6291456,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),ALFAAP96,alfa-ap96,ALFA-AP96,ttyS0,115200,$$(alfa_ap96_mtdlayout),2097152,13631488,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),ALL0258N,all0258n,ALL0258N,ttyS0,115200,$$(all0258n_mtdlayout),1048576,5373952,KRuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_256k),ALL0315N,all0315n,ALL0315N,ttyS0,115200,$$(all0315n_mtdlayout),1048576,12845056,KRuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),AP113,ap113,AP113,ttyS0,115200,$$(ap113_mtd_layout),917504,3080192,RK)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),AP121_2M,ap121-2M,AP121,ttyATH0,115200,$$(ap121_mtdlayout_2M),720896,1245184,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),AP121_4M,ap121-4M,AP121,ttyATH0,115200,$$(ap121_mtdlayout_4M),917504,2818048,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),AP121_8M,ap121-8M,AP121,ttyATH0,115200,$$(ap121_mtdlayout_8M),1441792,6488064,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),AP121_16M,ap121-16M,AP121,ttyATH0,115200,$$(ap121_mtdlayout_16M),1507328,14876672,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),AP121MINI,ap121-mini,AP121-MINI,ttyATH0,115200,$$(ap121_mtdlayout_4M),917504,2818048,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),AP135,ap135,AP135,ttyS0,115200,$$(ap135_mtdlayout),1507328,14876672,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),AP135DUAL,ap135-dual,AP135-DUAL,ttyS0,115200,$$(ap135dual_mtdlayout),1507328,14876672,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),AP136,ap136,AP136,ttyS0,115200,$$(ap136_mtdlayout),1507328,6488064,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),AP143,ap143,AP143,ttyS0,115200,$$(ap143_mtdlayout),1507328,6488064,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),AP152,ap152,AP152,ttyS0,115200,$$(ap152_mtdlayout),1507328,6488064,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),RUBBERDUCK,rubberduck,RUBBERDUCK,ttyS0,115200,$$(rubberduck_mtdlayout),1507328,14876672,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),CAP4200AG,cap4200ag,CAP4200AG,ttyS0,115200,$$(cap4200ag_mtdlayout),1572864,12386304,KRuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),DB120,db120,DB120,ttyS0,115200,$$(db120_mtdlayout),1441792,6488064,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),DB120TB388,db120tb388,DB120TB388,ttyS0,115200,$$(db120_mtdlayout),1441792,6488064,RKuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),EWDORINAP,ew-dorin,EW-DORIN,ttyATH0,115200,$$(ew-dorin_mtdlayout_4M),1048576,2752512,KRuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),EWDORINRT,ew-dorin-router,EW-DORIN-ROUTER,ttyATH0,115200,$$(ew-dorin_mtdlayout_4M),1048576,2752512,KRuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),PB92,pb92,PB92,ttyS0,115200,$$(pb92_mtdlayout),917504,2818048,KRuImage)) $(eval $(call SingleProfile,AthLzma,$(fs_64k),DT,dt,GENERIC-DT,ttyS0,115200,,1507328,14876672,RKuImage,,0x81000000)) $(eval $(call SingleProfile,Cameo7240,$(fs_64k),DIR600A1,dir-600-a1,DIR-600-A1,ttyS0,115200,"AP91-AR7240-RT-090223-00")) $(eval $(call SingleProfile,Cameo7240,$(fs_64k),DIR601A1,dir-601-a1,DIR-600-A1,ttyS0,115200,"AP91-AR7240-RT-090223-02")) $(eval $(call SingleProfile,Cameo7240,$(fs_64k),DIR615E4,dir-615-e4,DIR-615-E4,ttyS0,115200,"AP99-AR7240-RT-091105-05")) $(eval $(call SingleProfile,Cameo7240,$(fs_64k),FR54RTR,fr-54rtr,DIR-600-A1,ttyS0,115200,"AP91-AR7240-RT-090223-01")) $(eval $(call SingleProfile,Cameo913x,$(fs_squash),A02RBW300N,a02-rb-w300n,TEW-632BRP,ttyS0,115200,"AP81-AR9130-RT-070614-03")) $(eval $(call SingleProfile,Cameo913x,$(fs_squash),DIR615C1,dir-615-c1,DIR-615-C1,ttyS0,115200,"AP81-AR9130-RT-070614-02")) $(eval $(call SingleProfile,Cameo913x,$(fs_squash),TEW632BRP,tew-632brp,TEW-632BRP,ttyS0,115200,"AP81-AR9130-RT-070614-00")) $(eval $(call SingleProfile,Cameo913x,$(fs_squash),TEW652BRP_FW,tew-652brp,TEW-632BRP,ttyS0,115200,"AP81-AR9130-RT-080609-05")) $(eval $(call SingleProfile,Cameo913x,$(fs_squash),TEW652BRP_RECOVERY,tew-652brp-recovery,TEW-632BRP,ttyS0,115200,"AP81-AR9130-RT-070614-02")) $(eval $(call SingleProfile,Cameo933x,$(fs_squash),TEW712BR,tew-712br,TEW-712BR,ttyATH0,115200,"HORNET-RT-TEW712BR-3")) $(eval $(call SingleProfile,CyberTAN,$(fs_64k),WRT160NL,wrt160nl,WRT160NL,ttyS0,115200,1.00.01)) $(eval $(call SingleProfile,DIR825B1,$(fs_64k),DIR825B1,dir-825-b1,DIR-825-B1,ttyS0,115200,01AP94-AR7161-RT-080619-00,00AP94-AR7161-RT-080619-00)) $(eval $(call SingleProfile,DIR825B1,$(fs_64k),TEW673GRU,tew-673gru,TEW-673GRU,ttyS0,115200,01AP94-AR7161-RT-080619-01,00AP94-AR7161-RT-080619-01)) $(eval $(call SingleProfile,DLRTDEV,$(fs_64k),DLRTDEV01,dlrtdev01,DIR-825-B1,ttyS0,115200,01AP94-AR7161-RT-080619-00,00AP94-AR7161-RT-080619-00)) $(eval $(call SingleProfile,MyLoader,$(fs_64k),WP543_2M,wp543,,ttyS0,115200,0x200000,2M)) $(eval $(call SingleProfile,MyLoader,$(fs_64k),WP543_4M,wp543,,ttyS0,115200,0x400000,4M)) $(eval $(call SingleProfile,MyLoader,$(fs_64k),WP543_8M,wp543,,ttyS0,115200,0x800000,8M)) $(eval $(call SingleProfile,MyLoader,$(fs_64k),WP543_16M,wp543,,ttyS0,115200,0x1000000,16M)) $(eval $(call SingleProfile,MyLoader,$(fs_64k),WPE72_4M,wpe72,,ttyS0,115200,0x400000,4M)) $(eval $(call SingleProfile,MyLoader,$(fs_64k),WPE72_8M,wpe72,,ttyS0,115200,0x800000,8M)) $(eval $(call SingleProfile,MyLoader,$(fs_64k),WPE72_16M,wpe72,,ttyS0,115200,0x1000000,16M)) $(eval $(call SingleProfile,Netgear,$(fs_64k),WNDR3700V1,wndr3700,WNDR3700,ttyS0,115200,$$(wndr3700_mtdlayout),3700,WNDR3700,"" NA,)) $(eval $(call SingleProfile,Netgear,$(fs_64k),WNDR3700V2,wndr3700v2,WNDR3700,ttyS0,115200,$$(wndr3700v2_mtdlayout),3701,WNDR3700v2,"",-H 29763654+16+64)) $(eval $(call SingleProfile,Netgear,$(fs_64k),WNDR3800,wndr3800,WNDR3700,ttyS0,115200,$$(wndr3700v2_mtdlayout),3701,WNDR3800,"",-H 29763654+16+128)) $(eval $(call SingleProfile,Netgear,$(fs_64k),WNDRMAC,wndrmac,WNDR3700,ttyS0,115200,$$(wndr3700v2_mtdlayout),3701,WNDRMAC,"",-H 29763654+16+64)) $(eval $(call SingleProfile,Netgear,$(fs_64k),WNDRMACV2,wndrmacv2,WNDR3700,ttyS0,115200,$$(wndr3700v2_mtdlayout),3701,WNDRMACv2,"",-H 29763654+16+128)) $(eval $(call SingleProfile,OpenMesh,$(fs_squash),OM2P,om2p,,,,OM2P)) $(eval $(call SingleProfile,OpenMesh,$(fs_squash),MR600,mr600,,,,MR600)) $(eval $(call SingleProfile,PB4X,$(fs_128k),ALL0305,all0305,ALL0305,ttyS0,115200)) $(eval $(call SingleProfile,PB4X,$(fs_128k),EAP7660D,eap7660d,EAP7660D,ttyS0,115200)) $(eval $(call SingleProfile,PB4X,$(fs_64k),JA76PF,ja76pf,JA76PF,ttyS0,115200)) $(eval $(call SingleProfile,PB4X,$(fs_64k),JA76PF2,ja76pf2,JA76PF2,ttyS0,115200)) $(eval $(call SingleProfile,PB4X,$(fs_64k),JWAP003,jwap003,JWAP003,ttyS0,115200)) $(eval $(call SingleProfile,PB4X,$(fs_64k),PB42,pb42,PB42,ttyS0,115200)) $(eval $(call SingleProfile,PB4X,$(fs_64k),PB44,pb44,PB44,ttyS0,115200)) $(eval $(call SingleProfile,Planex,$(fs_64k),MZKW04NU,mzk-w04nu,MZK-W04NU,ttyS0,115200)) $(eval $(call SingleProfile,Planex,$(fs_64k),MZKW300NH,mzk-w300nh,MZK-W300NH,ttyS0,115200)) $(eval $(call SingleProfile,TPLINKOLD,$(fs_squash),TLWR841NV15,tl-wr841nd-v1.5,TL-WR841N-v1.5,ttyS0,115200,0x08410002,2,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLMR3220,tl-mr3220-v1,TL-MR3220,ttyS0,115200,0x32200001,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLMR3420,tl-mr3420-v1,TL-MR3420,ttyS0,115200,0x34200001,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWA701,tl-wa701n-v1,TL-WA901ND,ttyS0,115200,0x07010001,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWA7510NV1,tl-wa7510n,TL-WA7510N,ttyS0,115200,0x75100001,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWA901NV1,tl-wa901nd-v1,TL-WA901ND,ttyS0,115200,0x09010001,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWA901NV2,tl-wa901nd-v2,TL-WA901ND-v2,ttyS0,115200,0x09010002,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR740NV1,tl-wr740n-v1,TL-WR741ND,ttyS0,115200,0x07400001,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR740NV3,tl-wr740n-v3,TL-WR741ND,ttyS0,115200,0x07400003,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR741NV1,tl-wr741nd-v1,TL-WR741ND,ttyS0,115200,0x07410001,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR741NV2,tl-wr741nd-v2,TL-WR741ND,ttyS0,115200,0x07410001,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR743,tl-wr743nd-v1,TL-WR741ND,ttyS0,115200,0x07430001,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR841NV3,tl-wr841nd-v3,TL-WR941ND,ttyS0,115200,0x08410003,3,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR841NV5,tl-wr841nd-v5,TL-WR741ND,ttyS0,115200,0x08410005,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR841NV7,tl-wr841nd-v7,TL-WR841N-v7,ttyS0,115200,0x08410007,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR842,tl-wr842n-v1,TL-MR3420,ttyS0,115200,0x08420001,1,8M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR941NV2,tl-wr941nd-v2,TL-WR941ND,ttyS0,115200,0x09410002,2,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR941NV3,tl-wr941nd-v3,TL-WR941ND,ttyS0,115200,0x09410002,2,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR941NV4,tl-wr941nd-v4,TL-WR741ND,ttyS0,115200,0x09410004,1,4M)) $(eval $(call SingleProfile,TPLINK,$(fs_64kraw),TLWR1043,tl-wr1043nd-v1,TL-WR1043ND,ttyS0,115200,0x10430001,1,8M)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLMR11U,tl-mr11u-v1,TL-MR11U,ttyATH0,115200,0x00110101,1,4Mlzma)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLMR3020,tl-mr3020-v1,TL-MR3020,ttyATH0,115200,0x30200001,1,4Mlzma)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLMR3040,tl-mr3040-v1,TL-MR3040,ttyATH0,115200,0x30400001,1,4Mlzma)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLWR703,tl-wr703n-v1,TL-WR703N,ttyATH0,115200,0x07030101,1,4Mlzma)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLWR740NV4,tl-wr740n-v4,TL-WR741ND-v4,ttyATH0,115200,0x07400004,1,4Mlzma)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLWR741NV4,tl-wr741nd-v4,TL-WR741ND-v4,ttyATH0,115200,0x07410004,1,4Mlzma)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLWR841NV8,tl-wr841n-v8,TL-WR841N-v8,ttyS0,115200,0x08410008,1,4Mlzma)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLWR1041,tl-wr1041n-v2,TL-WR1041N-v2,ttyS0,115200,0x10410002,1,4Mlzma)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLWR2543,tl-wr2543-v1,TL-WR2543N,ttyS0,115200,0x25430001,1,8Mlzma,-v 3.13.99)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLWDR3600V1,tl-wdr3600-v1,TL-WDR4300,ttyS0,115200,0x36000001,1,8Mlzma)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLWDR4300V1,tl-wdr4300-v1,TL-WDR4300,ttyS0,115200,0x43000001,1,8Mlzma)) $(eval $(call SingleProfile,TPLINK-LZMA,$(fs_64kraw),TLWDR4310V1,tl-wdr4310-v1,TL-WDR4300,ttyS0,115200,0x43100001,1,8Mlzma)) $(eval $(call SingleProfile,UBDEV,$(fs_64k),UBDEV01,ubdev01,UBNT-UF,ttyS0,115200,XM,XM,ar7240)) $(eval $(call SingleProfile,UBNT,$(fs_64k),UBNTRS,ubnt-rs,UBNT-RS,ttyS0,115200,RS,RSx,ar7100)) $(eval $(call SingleProfile,UBNT,$(fs_64k),UBNTRSPRO,ubnt-rspro,UBNT-RSPRO,ttyS0,115200,RSPRO,RSPRO,ar7100pro)) $(eval $(call SingleProfile,UBNT,$(fs_64k),UBNTLSSR71,ubnt-ls-sr71,UBNT-LS-SR71,ttyS0,115200,LS-SR71,LS-SR71,ar7100)) $(eval $(call SingleProfile,UBNTXM,$(fs_64k),RW2458N,rw2458n,RW2458N,ttyS0,115200,XM,XM,ar7240)) $(eval $(call SingleProfile,UBNTXM,$(fs_64k),UBNTAIRROUTER,ubnt-airrouter,UBNT-AR,ttyS0,115200,XM,XM,ar7240)) $(eval $(call SingleProfile,UBNTXM,$(fs_64k),UBNTBULLETM,ubnt-bullet-m,UBNT-BM,ttyS0,115200,XM,XM,ar7240)) $(eval $(call SingleProfile,UBNTXM,$(fs_64k),UBNTROCKETM,ubnt-rocket-m,UBNT-RM,ttyS0,115200,XM,XM,ar7240)) $(eval $(call SingleProfile,UBNTXM,$(fs_64k),UBNTNANOM,ubnt-nano-m,UBNT-NM,ttyS0,115200,XM,XM,ar7240)) $(eval $(call SingleProfile,UBNTXM,$(fs_64k),UBNTUNIFI,ubnt-unifi,UBNT-UF,ttyS0,115200,XM,XM,ar7240)) $(eval $(call SingleProfile,UBNTXM,$(fs_64k),UBNTUNIFIOUTDOOR,ubnt-unifi-outdoor,UBNT-U20,ttyS0,115200,XM,XM,ar7240)) $(eval $(call SingleProfile,WHRHPG300N,$(fs_64k),WHRG301N,whr-g301n,WHR-G301N,ttyS0,115200,$$(whrhpg300n_mtdlayout),WHR-G301N)) $(eval $(call SingleProfile,WHRHPG300N,$(fs_64k),WHRHPG300N,whr-hp-g300n,WHR-HP-G300N,ttyS0,115200,$$(whrhpg300n_mtdlayout),WHR-HP-G300N)) $(eval $(call SingleProfile,WHRHPG300N,$(fs_64k),WHRHPGN,whr-hp-gn,WHR-HP-GN,ttyS0,115200,$$(whrhpg300n_mtdlayout),WHR-HP-GN)) $(eval $(call SingleProfile,WHRHPG300N,$(fs_64k),WLAEAG300N,wlae-ag300n,WLAE-AG300N,ttyS0,115200,$$(whrhpg300n_mtdlayout),WLAE-AG300N)) $(eval $(call SingleProfile,WRT400N,$(fs_64k),WRT400N,wrt400n,WRT400N,ttyS0,115200)) $(eval $(call SingleProfile,WZRHPG30XNH,$(fs_128k),WZRHPG300NH,wzr-hp-g300nh,WZR-HP-G300NH,ttyS0,115200,WZR-HP-G300NH)) $(eval $(call SingleProfile,WZRHPG30XNH,$(fs_64k),WZRHPG300NH2,wzr-hp-g300nh2,WZR-HP-G300NH2,ttyS0,115200,WZR-HP-G300NH2)) $(eval $(call SingleProfile,WZRHPG30XNH,$(fs_64k),WZRHPAG300H,wzr-hp-ag300h,WZR-HP-AG300H,ttyS0,115200,WZR-HP-AG300H)) $(eval $(call SingleProfile,WZRHPG30XNH,$(fs_64k),WZRHPG450H,wzr-hp-g450h,WZR-HP-G450H,ttyS0,115200,WZR-HP-AG450H)) $(eval $(call SingleProfile,Zcomax,$(fs_64k),ZCN1523H28,zcn-1523h-2-8,ZCN-1523H-2,ttyS0,115200,$$(zcn1523h_mtdlayout))) $(eval $(call SingleProfile,Zcomax,$(fs_64k),ZCN1523H516,zcn-1523h-5-16,ZCN-1523H-5,ttyS0,115200,$$(zcn1523h_mtdlayout))) $(eval $(call SingleProfile,ZyXEL,$(fs_64k),NBG_460N_550N_550NH,nbg460n_550n_550nh,NBG460N,ttyS0,115200,NBG-460N)) $(eval $(call MultiProfile,AP121,AP121_2M AP121_4M)) $(eval $(call MultiProfile,EWDORIN, EWDORINAP EWDORINRT)) $(eval $(call MultiProfile,TEW652BRP,TEW652BRP_FW TEW652BRP_RECOVERY)) $(eval $(call MultiProfile,TLWA901,TLWA901NV1 TLWA901NV2)) $(eval $(call MultiProfile,TLWA7510,TLWA7510NV1)) $(eval $(call MultiProfile,TLWR740,TLWR740NV1 TLWR740NV3 TLWR740NV4)) $(eval $(call MultiProfile,TLWR741,TLWR741NV1 TLWR741NV2 TLWR741NV4)) $(eval $(call MultiProfile,TLWR841,TLWR841NV15 TLWR841NV3 TLWR841NV5 TLWR841NV7 TLWR841NV8)) $(eval $(call MultiProfile,TLWR941,TLWR941NV2 TLWR941NV3 TLWR941NV4)) $(eval $(call MultiProfile,TLWDR4300,TLWDR3600V1 TLWDR4300V1 TLWDR4310V1)) $(eval $(call MultiProfile,UBNT,UBNTAIRROUTER UBNTRS UBNTRSPRO UBNTLSSR71 UBNTBULLETM UBNTROCKETM UBNTNANOM UBNTUNIFI UBNTUNIFIOUTDOOR)) $(eval $(call MultiProfile,WNDR3700,WNDR3700V1 WNDR3700V2 WNDR3800 WNDRMAC WNDRMACV2)) $(eval $(call MultiProfile,WP543,WP543_2M WP543_4M WP543_8M WP543_16M)) $(eval $(call MultiProfile,WPE72,WPE72_4M WPE72_8M WPE72_16M)) $(eval $(call MultiProfile,Default,$(SINGLE_PROFILES))) $(eval $(call MultiProfile,Minimal,$(SINGLE_PROFILES))) $(eval $(call MultiProfile,Madwifi,EAP7660D UBNTRS UBNTRSPRO UBNTLSSR71 WP543)) define Image/Build/squashfs cp $(KDIR)/root.squashfs $(KDIR)/root.squashfs-raw cp $(KDIR)/root.squashfs $(KDIR)/root.squashfs-64k $(STAGING_DIR_HOST)/bin/padjffs2 $(KDIR)/root.squashfs-64k 64 cp $(KDIR)/root.squashfs-64k $(BIN_DIR)/$(IMG_PREFIX)-root.squashfs-64k $(call prepare_generic_squashfs,$(KDIR)/root.squashfs) endef define Image/Build/Initramfs $(call Image/Build/Profile/$(PROFILE),initramfs) endef define Image/Prepare gzip -9 -c $(KDIR)/vmlinux > $(KDIR)/vmlinux.bin.gz $(call CompressLzma,$(KDIR)/vmlinux,$(KDIR)/vmlinux.bin.lzma) $(call Image/BuildLoader,generic,elf) $(call Image/Build/Profile/$(if $(CONFIG_IB),Default,$(PROFILE)),loader) endef define Image/Build $(call Image/Build/$(1)) dd if=$(KDIR)/root.$(1) of=$(BIN_DIR)/$(IMG_PREFIX)-root.$(1) bs=128k conv=sync $(call Image/Build/Profile/$(PROFILE),$(1)) endef cus227_cmdline= cus227_mtdlayout= define Image/Build/Profile/CUS227/squashfs $(call PatchKernelLzma,cus227,$(cus227_cmdline) $(cus227_mtdlayout)) dd if=$(KDIR_TMP)/vmlinux-cus227.bin.lzma of=$(KDIR_TMP)/vmlinux-cus227.bin.lzma.tmp bs=1441716 conv=sync $(call MkuImage,lzma,,$(KDIR_TMP)/vmlinux-cus227.bin.lzma.tmp:$(KDIR)/root.squashfs-raw,image.release.tmp) dd if=image.release.tmp of=$(call imgname,firmware,cus227) bs=128k conv=sync rm image.release.tmp { \ md5sumstr=`dd if=$(call imgname,firmware,cus227) 2>/dev/null | md5sum - | cut -d ' ' -f 1 | sed -e 's/../\\\\x&/g'`; \ printf $$$${md5sumstr} | dd bs=512 conv=sync; \ cat $(call imgname,firmware,cus227); \ } > $(call sysupname,$(1),cus227).release mv $(call sysupname,$(1),cus227).release $(call sysupname,$(1),cus227) $(LINUX_DIR)/scripts/dtc/dtc -O dtb -o $(BIN_DIR)/cus227.dtb -I dts $(PLATFORM_DIR)/cus227.dts endef define Image/Build/Profile/CUS227 $(Image/Build/Profile/CUS227/$(1)) endef SINGLE_PROFILES += CUS227 define Image/Build/Profile/QSDK_Wired_Router $(call Image/Build/Profile/AP135,$(1)) $(call Image/Build/Profile/AP136,$(1)) $(call Image/Build/Profile/RUBBERDUCK,$(1)) endef define Image/Build/Profile/QSDK_Premium_Router $(call Image/Build/Profile/AP135,$(1)) $(call Image/Build/Profile/AP135DUAL,$(1)) endef define Image/Build/Profile/QSDK_Open_Router $(call Image/Build/Profile/AP121_16M,$(1)) endef $(eval $(call BuildImage))
qianguozheng/qsdk
target/linux/ar71xx/image/Makefile
Makefile
gpl-2.0
46,467
<?php /* * FileCtrl.class.php -- file system control * * Copyright 2011 World Three Technologies, Inc. * All Rights Reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * Written by Yaxing Chen <[email protected]> * */ class FileCtrl{ } ?>
World-Three-Technologies/Masxaro-Prototype
proj/php/class/control/FileCtrl.class.php
PHP
gpl-2.0
949
/* * Copyright 2006-2020 The MZmine Development Team * * This file is part of MZmine. * * MZmine is free software; you can redistribute it and/or modify it under the terms of the GNU * General Public License as published by the Free Software Foundation; either version 2 of the * License, or (at your option) any later version. * * MZmine is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even * the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General * Public License for more details. * * You should have received a copy of the GNU General Public License along with MZmine; if not, * write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 * USA */ package io.github.mzmine.parameters.parametertypes.ranges; import java.text.NumberFormat; import java.util.Collection; import org.w3c.dom.Document; import org.w3c.dom.Element; import org.w3c.dom.NodeList; import com.google.common.collect.Range; import io.github.mzmine.parameters.UserParameter; public class DoubleRangeParameter implements UserParameter<Range<Double>, DoubleRangeComponent> { private final String name, description; protected final boolean valueRequired; private final boolean nonEmptyRequired; private NumberFormat format; private Range<Double> value; private Range<Double> maxAllowedRange; public DoubleRangeParameter(String name, String description, NumberFormat format) { this(name, description, format, true, false, null); } public DoubleRangeParameter(String name, String description, NumberFormat format, Range<Double> defaultValue) { this(name, description, format, true, false, defaultValue); } public DoubleRangeParameter(String name, String description, NumberFormat format, boolean valueRequired, Range<Double> defaultValue) { this(name, description, format, valueRequired, false, defaultValue); } public DoubleRangeParameter(String name, String description, NumberFormat format, boolean valueRequired, boolean nonEmptyRequired, Range<Double> defaultValue) { this(name, description, format, valueRequired, nonEmptyRequired, defaultValue, null); } public DoubleRangeParameter(String name, String description, NumberFormat format, boolean valueRequired, boolean nonEmptyRequired, Range<Double> defaultValue, Range<Double> maxAllowedRange) { this.name = name; this.description = description; this.format = format; this.valueRequired = valueRequired; this.nonEmptyRequired = nonEmptyRequired; this.value = defaultValue; this.maxAllowedRange = maxAllowedRange; } /** * @see io.github.mzmine.data.Parameter#getName() */ @Override public String getName() { return name; } /** * @see io.github.mzmine.data.Parameter#getDescription() */ @Override public String getDescription() { return description; } public boolean isValueRequired() { return valueRequired; } @Override public DoubleRangeComponent createEditingComponent() { return new DoubleRangeComponent(format); } public Range<Double> getValue() { return value; } @Override public void setValue(Range<Double> value) { this.value = value; } @Override public DoubleRangeParameter cloneParameter() { DoubleRangeParameter copy = new DoubleRangeParameter(name, description, format); copy.setValue(this.getValue()); return copy; } @Override public void setValueFromComponent(DoubleRangeComponent component) { value = component.getValue(); } @Override public void setValueToComponent(DoubleRangeComponent component, Range<Double> newValue) { component.setValue(newValue); } @Override public void loadValueFromXML(Element xmlElement) { NodeList minNodes = xmlElement.getElementsByTagName("min"); if (minNodes.getLength() != 1) return; NodeList maxNodes = xmlElement.getElementsByTagName("max"); if (maxNodes.getLength() != 1) return; String minText = minNodes.item(0).getTextContent(); String maxText = maxNodes.item(0).getTextContent(); double min = Double.valueOf(minText); double max = Double.valueOf(maxText); value = Range.closed(min, max); } @Override public void saveValueToXML(Element xmlElement) { if (value == null) return; Document parentDocument = xmlElement.getOwnerDocument(); Element newElement = parentDocument.createElement("min"); newElement.setTextContent(String.valueOf(value.lowerEndpoint())); xmlElement.appendChild(newElement); newElement = parentDocument.createElement("max"); newElement.setTextContent(String.valueOf(value.upperEndpoint())); xmlElement.appendChild(newElement); } @Override public boolean checkValue(Collection<String> errorMessages) { if (valueRequired && (value == null)) { errorMessages.add(name + " is not set properly"); return false; } if (value != null) { if (!nonEmptyRequired && value.lowerEndpoint() > value.upperEndpoint()) { errorMessages.add(name + " range maximum must be higher than minimum, or equal"); return false; } if (nonEmptyRequired && value.lowerEndpoint() >= value.upperEndpoint()) { errorMessages.add(name + " range maximum must be higher than minimum"); return false; } } if (value != null && maxAllowedRange != null) { if (maxAllowedRange.intersection(value) != value) { errorMessages.add(name + " must be within " + maxAllowedRange.toString()); return false; } } return true; } }
tomas-pluskal/mzmine3
src/main/java/io/github/mzmine/parameters/parametertypes/ranges/DoubleRangeParameter.java
Java
gpl-2.0
5,669
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd"> <html xmlns="http://www.w3.org/1999/xhtml"> <head> <title>CRAN - Package PoiClaClu</title> <link rel="stylesheet" type="text/css" href="../../CRAN_web.css" /> <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> <style type="text/css"> table td { vertical-align: top; } </style> </head> <body> <h2>PoiClaClu: Classification and clustering of sequencing data based on a Poisson model</h2> <p>Implements the methods described in the paper, Witten (2011) Classification and Clustering of Sequencing Data using a Poisson Model, Annals of Applied Statistics 5(4) 2493-2518.</p> <table summary="Package PoiClaClu summary"> <tr> <td>Version:</td> <td>1.0.2</td> </tr> <tr> <td>Published:</td> <td>2013-12-02</td> </tr> <tr> <td>Author:</td> <td>Daniela Witten</td> </tr> <tr> <td>Maintainer:</td> <td>Daniela Witten &#x3c;&#x64;&#x77;&#x69;&#x74;&#x74;&#x65;&#x6e;&#x20;&#x61;&#x74;&#x20;&#x75;&#x2e;&#x77;&#x61;&#x73;&#x68;&#x69;&#x6e;&#x67;&#x74;&#x6f;&#x6e;&#x2e;&#x65;&#x64;&#x75;&#x3e;</td> </tr> <tr> <td>License:</td> <td><a href="../../licenses/GPL-2">GPL-2</a></td> </tr> <tr> <td>NeedsCompilation:</td> <td>no</td> </tr> <tr> <td>CRAN&nbsp;checks:</td> <td><a href="../../checks/check_results_PoiClaClu.html">PoiClaClu results</a></td> </tr> </table> <h4>Downloads:</h4> <table summary="Package PoiClaClu downloads"> <tr> <td> Reference&nbsp;manual: </td> <td> <a href="PoiClaClu.pdf"> PoiClaClu.pdf </a> </td> </tr> <tr> <td> Package&nbsp;source: </td> <td> <a href="../../../src/contrib/PoiClaClu_1.0.2.tar.gz"> PoiClaClu_1.0.2.tar.gz </a> </td> </tr> <tr> <td> Windows&nbsp;binaries: </td> <td> r-devel: <a href="../../../bin/windows/contrib/3.5/PoiClaClu_1.0.2.zip">PoiClaClu_1.0.2.zip</a>, r-release: <a href="../../../bin/windows/contrib/3.4/PoiClaClu_1.0.2.zip">PoiClaClu_1.0.2.zip</a>, r-oldrel: <a href="../../../bin/windows/contrib/3.3/PoiClaClu_1.0.2.zip">PoiClaClu_1.0.2.zip</a> </td> </tr> <tr> <td> OS&nbsp;X&nbsp;El&nbsp;Capitan&nbsp;binaries: </td> <td> r-release: <a href="../../../bin/macosx/el-capitan/contrib/3.4/PoiClaClu_1.0.2.tgz">PoiClaClu_1.0.2.tgz</a> </td> </tr> <tr> <td> OS&nbsp;X&nbsp;Mavericks&nbsp;binaries: </td> <td> r-oldrel: <a href="../../../bin/macosx/mavericks/contrib/3.3/PoiClaClu_1.0.2.tgz">PoiClaClu_1.0.2.tgz</a> </td> </tr> <tr> <td> Old&nbsp;sources: </td> <td> <a href="../../../src/contrib/Archive/PoiClaClu"> PoiClaClu archive </a> </td> </tr> </table> <h4>Reverse dependencies:</h4> <table summary="Package PoiClaClu reverse dependencies"> <tr> <td>Reverse&nbsp;imports:</td> <td><a href="../RNAseqNet/index.html">RNAseqNet</a></td> </tr> </table> <h4>Linking:</h4> <p>Please use the canonical form <a href="https://CRAN.R-project.org/package=PoiClaClu"><samp>https://CRAN.R-project.org/package=PoiClaClu</samp></a> to link to this page.</p> </body> </html>
esander91/NamespacePollution
Code/GetMetaDataFromCRAN/raw_html/PoiClaClu.html
HTML
gpl-2.0
2,941
//---------------------------------------------------------------------------- #pragma hdrstop #include <stdio.h> #include <memory> #include "uCM.h" //--------------------------------------------------------------------------- #pragma package(smart_init) #pragma classgroup "Vcl.Controls.TControl" #pragma resource "*.dfm" TCM *CM; //--------------------------------------------------------------------------- __fastcall TCM::TCM(TComponent* Owner) : TDataModule(Owner) { FInstanceOwner = true; } __fastcall TCM::~TCM() { delete FSMClient; } TSMClient* TCM::GetSMClient(void) { if (FSMClient == NULL) FSMClient= new TSMClient(DSRestConnection1, FInstanceOwner); return FSMClient; };
cassioferrazzo/fila.cliente.desktop
uCM.cpp
C++
gpl-2.0
695
# testrepository this is a test repository
mythicsr/testrepository
README.md
Markdown
gpl-2.0
43
package Lacuna::DB::Result::Building::SSLa; use Moose; use utf8; no warnings qw(uninitialized); extends 'Lacuna::DB::Result::Building'; use Lacuna::Constants qw(ORE_TYPES INFLATION); around 'build_tags' => sub { my ($orig, $class) = @_; return ($orig->($class), qw(Construction Ships)); }; use constant university_prereq => 20; use constant max_instances_per_planet => 1; use constant controller_class => 'Lacuna::RPC::Building::SSLa'; use constant image => 'ssla'; use constant name => 'Space Station Lab (A)'; use constant food_to_build => 230; use constant energy_to_build => 350; use constant ore_to_build => 370; use constant water_to_build => 260; use constant waste_to_build => 100; use constant time_to_build => 60 * 2; use constant food_consumption => 5; use constant energy_consumption => 20; use constant ore_consumption => 15; use constant water_consumption => 6; use constant waste_production => 20; before 'can_demolish' => sub { my $self = shift; my $sslb = $self->body->get_building_of_class('Lacuna::DB::Result::Building::SSLb'); if (defined $sslb) { confess [1013, 'You have to demolish your Space Station Lab (B) before you can demolish your Space Station Lab (A).']; } }; before can_build => sub { my $self = shift; if ($self->x == 5 || $self->y == -5 || (($self->y == 1 || $self->y == 0) && ($self->x == -1 || $self->x == 0))) { confess [1009, 'Space Station Lab cannot be placed in that location.']; } }; sub makeable_plans { return { command => 'Lacuna::DB::Result::Building::Module::StationCommand', ibs => 'Lacuna::DB::Result::Building::Module::IBS', art => 'Lacuna::DB::Result::Building::Module::ArtMuseum', opera => 'Lacuna::DB::Result::Building::Module::OperaHouse', food => 'Lacuna::DB::Result::Building::Module::CulinaryInstitute', parliament => 'Lacuna::DB::Result::Building::Module::Parliament', warehouse => 'Lacuna::DB::Result::Building::Module::Warehouse', policestation => 'Lacuna::DB::Result::Building::Module::PoliceStation', }; } sub makeable_plans_formatted { my $self = shift; my @out; my $makeable_plans = $self->makeable_plans; while (my ($type, $class) = each %{$makeable_plans}) { push @out, { image => $class->image, name => $class->name, url => $class->controller_class->app_url, type => $type, }; } return \@out; } sub level_costs_formatted { my $self = shift; my $max = $self->max_level; return [] if $max == 0; my @costs; my $resource_cost = $self->plan_resource_cost; my $time_cost = $self->plan_time_cost; foreach my $level (1..$max) { my $resource = $self->plan_cost_at_level($level, $resource_cost); push @costs, { level => $level, ore => $resource, water => $resource, energy => $resource, food => $resource, waste => sprintf('%.0f', $resource/4), time => $self->plan_time_at_level($level, $time_cost), }; } return \@costs; } has plan_resource_cost => ( is => 'rw', lazy => 1, default => sub { my $self = shift; return 40000 * ((100 - (5 * $self->body->empire->research_affinity)) / 100); } ); has plan_time_cost => ( is => 'rw', lazy => 1, default => sub { my $self = shift; return 1200 * ((100 - (5 * $self->body->empire->management_affinity)) / 100); } ); sub plan_time_at_level { my ($self, $level, $base) = @_; my $time_cost = sprintf('%.0f', $base * (INFLATION ** $level)); $time_cost = 15 if ($time_cost < 15); $time_cost = 5184000 if ($time_cost > 5184000); return $time_cost; } sub plan_cost_at_level { my ($self, $level, $base) = @_; my $cost = sprintf('%.0f', $base * (INFLATION ** $level)); return $cost; } has max_level => ( is => 'rw', lazy => 1, default => sub { my $self = shift; my $level = $self->level; my $body = $self->body; foreach my $part (qw(b c d)) { my $building = $body->get_building_of_class('Lacuna::DB::Result::Building::SSL'.$part); if (defined $building) { $level = ($level > $building->level) ? $building->level : $level; } else { $level = 0; last; } } return $level; }, ); sub can_make_plan { my ($self, $type, $level) = @_; if ($self->is_working) { confess [1010, 'The Space Station Lab is already making a plan.']; } $level ||= 1; if ($level > $self->max_level) { confess [1013, 'This Space Station Lab is not a high enough level to make that plan.']; } my $makeable = $self->makeable_plans; unless ($type ~~ [keys %{$makeable}]) { confess [1009, 'Cannot make that type of plan.']; } my $resource_cost = $self->plan_cost_at_level($level, $self->plan_resource_cost); my $fraction = sprintf('%.0f',$resource_cost * 0.01); my $body = $self->body; foreach my $ore (ORE_TYPES) { if ($body->type_stored($ore) < $fraction) { confess [1011, 'Not enough '.$ore.' in storage. You need at least '.$fraction.'.']; } } foreach my $resource (qw(ore water food energy)) { if ($body->type_stored($resource) < $resource_cost) { confess [1011, 'Not enough '.$resource.' in storage. You need at least '.$resource_cost.'.']; } } return 1; } sub make_plan { my ($self, $type, $level) = @_; $level ||= 1; my $makeable = $self->makeable_plans; my $resource_cost = $self->plan_cost_at_level($level, $self->plan_resource_cost); my $time_cost = $self->plan_time_at_level($level, $self->plan_time_cost); my $body = $self->body; $body->spend_ore($resource_cost); $body->spend_water($resource_cost); $body->spend_food($resource_cost, 0); $body->spend_energy($resource_cost); $body->add_waste($resource_cost/4); $body->update; $self->start_work({ class => $makeable->{$type}, level => $level, }, $time_cost)->update; } before finish_work => sub { my $self = shift; my $planet = $self->body; $planet->add_plan($self->work->{class}, $self->work->{level}); }; no Moose; __PACKAGE__->meta->make_immutable(inline_constructor => 0);
Imzogelmo/Lacuna-Server-Open
lib/Lacuna/DB/Result/Building/SSLa.pm
Perl
gpl-2.0
6,610
/* HexChat * Copyright (C) 1998-2010 Peter Zelezny. * Copyright (C) 2009-2013 Berke Viktor. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #ifndef HEXCHAT_ASCII_HPP #define HEXCHAT_ASCII_HPP void ascii_open (void); #endif
leeter/hexchat
src/fe-gtk/ascii.hpp
C++
gpl-2.0
900
<!DOCTYPE html> <html> <head> <meta charset="utf8"> <title>Local Test</title> </head> <body> <h2>Tutorial/Prototype</h2> <ol> <li><a href="minigames/tutorial/lock/index.html">Lock</a></li> <li><a href="minigames/tutorial/click_and_drag/index.html">Click and Drag</a></li> <li><a href="minigames/bioinfo/whereis/index.html">Where is ?</a></li> <li><a href="minigames/bioinfo/to/index.html">to</a></li> </ol> </body> </html>
crazybiocomputing/crazybioGame
index.html
HTML
gpl-2.0
423
<?php /******************************************************************************* Copyright 2021 Whole Foods Co-op This file is part of CORE-POS. IT CORE is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. IT CORE is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License in the file license.txt along with IT CORE; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA *********************************************************************************/ /** @class MercatoOrdersModel */ class MercatoNotesModel extends BasicModel { protected $name = "MercatoNotes"; protected $columns = array( 'mercatoNoteID' => array('type'=>'INT', 'primary_key'=>true, 'increment'=>true), 'name' => array('type'=>'VARCHAR(255)', 'index'=>true), 'modified' => array('type'=>'DATETIME'), 'note' => array('type'=>'TEXT'), ); }
CORE-POS/IS4C
fannie/modules/plugins2.0/Mercato/models/MercatoNotesModel.php
PHP
gpl-2.0
1,374
/* * RapidMiner * * Copyright (C) 2001-2008 by Rapid-I and the contributors * * Complete list of developers available at our web site: * * http://rapid-i.com * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see http://www.gnu.org/licenses/. */ package com.rapidminer.gui.tools; import java.awt.Component; import java.awt.Dialog; import java.awt.Frame; import java.awt.Window; import java.awt.event.ActionEvent; import java.awt.event.ActionListener; import javax.swing.SwingUtilities; import javax.swing.Timer; import javax.swing.event.ChangeEvent; import javax.swing.event.ChangeListener; /** * Some utils for the creation of a modal progress monitor dialog. * * @author Santhosh Kumar, Ingo Mierswa * @version $Id: ProgressUtils.java,v 1.3 2008/05/09 19:22:59 ingomierswa Exp $ */ public class ProgressUtils { static class MonitorListener implements ChangeListener, ActionListener { private ProgressMonitor monitor; private Window owner; private Timer timer; private boolean modal; public MonitorListener(Window owner, ProgressMonitor monitor, boolean modal) { this.owner = owner; this.monitor = monitor; this.modal = modal; } public void stateChanged(ChangeEvent ce) { ProgressMonitor monitor = (ProgressMonitor) ce.getSource(); if (monitor.getCurrent() != monitor.getTotal()) { if (timer == null) { timer = new Timer(monitor.getWaitingTime(), this); timer.setRepeats(false); timer.start(); } } else { if (timer != null && timer.isRunning()) timer.stop(); monitor.removeChangeListener(this); } } public void actionPerformed(ActionEvent e) { monitor.removeChangeListener(this); ProgressDialog dlg = owner instanceof Frame ? new ProgressDialog((Frame) owner, monitor, modal) : new ProgressDialog((Dialog) owner, monitor, modal); dlg.pack(); dlg.setLocationRelativeTo(null); dlg.setVisible(true); } } /** Create a new (modal) progress monitor dialog. Please note the the value for total (the maximum * number of possible steps) is greater then 0 even for indeterminate progresses. The value * of waitingTime is used before the dialog is actually created and shown. */ public static ProgressMonitor createModalProgressMonitor(Component owner, int total, boolean indeterminate, int waitingTimeBeforeDialogAppears, boolean modal) { ProgressMonitor monitor = new ProgressMonitor(total, indeterminate, waitingTimeBeforeDialogAppears); Window window = owner instanceof Window ? (Window) owner : SwingUtilities.getWindowAncestor(owner); monitor.addChangeListener(new MonitorListener(window, monitor, modal)); return monitor; } }
ntj/ComplexRapidMiner
src/com/rapidminer/gui/tools/ProgressUtils.java
Java
gpl-2.0
3,354
#pragma once // Description: // Notification interface for loading and saving configuration. // // Copyright (C) 2001 Frank Becker // // This program is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free Software // Foundation; either version 2 of the License, or (at your option) any later // version. // // This program is distributed in the hope that it will be useful, but WITHOUT // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS // FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details // #include <string> #include <fstream> class ConfigHandler { public: //when reading the config file, registered ConfigHandlers //will be notified for each line read. virtual void handleLine( const std::string line) = 0; //when writing the config file, registered ConfigHandlers //will be notified with the out file stream virtual void save( std::ofstream &of) = 0; virtual ~ConfigHandler() {} };
mooflu/critter
utils/ConfigHandler.hpp
C++
gpl-2.0
1,062
#include <filezilla.h> #include "directorycache.h" #include "list.h" enum listStates { list_init = 0, list_waitresolve, list_waitlock, list_list }; int CStorjListOpData::Send() { LogMessage(MessageType::Debug_Verbose, L"CStorjListOpData::Send() in state %d", opState); switch (opState) { case list_init: if (!subDir_.empty()) { LogMessage(MessageType::Error, _("Invalid path")); return FZ_REPLY_ERROR; } if (path_.empty()) { path_ = CServerPath(L"/"); } currentPath_ = path_; if (!currentServer_) { LogMessage(MessageType::Debug_Warning, L"CStorjControlSocket::List called with m_pCurrenServer == 0"); return FZ_REPLY_INTERNALERROR; } if (currentPath_.GetType() != ServerType::UNIX) { LogMessage(MessageType::Debug_Warning, L"CStorControlSocket::List called with incompatible server type %d in path", currentPath_.GetType()); return FZ_REPLY_INTERNALERROR; } opState = list_waitresolve; controlSocket_.Resolve(path_, std::wstring(), bucket_); return FZ_REPLY_CONTINUE; case list_waitlock: if (!holdsLock_) { LogMessage(MessageType::Debug_Warning, L"Not holding the lock as expected"); return FZ_REPLY_INTERNALERROR; } { // Check if we can use already existing listing CDirectoryListing listing; bool is_outdated = false; bool found = engine_.GetDirectoryCache().Lookup(listing, currentServer_, path_, false, is_outdated); if (found && !is_outdated && listing.m_firstListTime >= time_before_locking_) { controlSocket_.SendDirectoryListingNotification(listing.path, topLevel_, false); return FZ_REPLY_OK; } } opState = list_list; return FZ_REPLY_CONTINUE; case list_list: if (bucket_.empty()) { return controlSocket_.SendCommand(L"list-buckets"); } else { std::wstring path = path_.GetPath(); auto pos = path.find('/', 1); if (pos == std::string::npos) { path.clear(); } else { path = controlSocket_.QuoteFilename(path.substr(pos + 1) + L"/"); } return controlSocket_.SendCommand(L"list " + bucket_ + L" " + path); } } LogMessage(MessageType::Debug_Warning, L"Unknown opState in CStorjListOpData::ListSend()"); return FZ_REPLY_INTERNALERROR; } int CStorjListOpData::ParseResponse() { LogMessage(MessageType::Debug_Verbose, L"CStorjListOpData::ParseResponse() in state %d", opState); if (opState == list_list) { if (controlSocket_.result_ != FZ_REPLY_OK) { return controlSocket_.result_; } directoryListing_.path = path_; directoryListing_.m_firstListTime = fz::monotonic_clock::now(); engine_.GetDirectoryCache().Store(directoryListing_, currentServer_); controlSocket_.SendDirectoryListingNotification(directoryListing_.path, topLevel_, false); currentPath_ = path_; return FZ_REPLY_OK; } LogMessage(MessageType::Debug_Warning, L"ListParseResponse called at inproper time: %d", opState); return FZ_REPLY_INTERNALERROR; } int CStorjListOpData::SubcommandResult(int prevResult, COpData const&) { LogMessage(MessageType::Debug_Verbose, L"CStorjListOpData::SubcommandResult() in state %d", opState); if (prevResult != FZ_REPLY_OK) { return prevResult; } switch (opState) { case list_waitresolve: opState = list_waitlock; if (!controlSocket_.TryLockCache(CStorjControlSocket::lock_list, path_)) { time_before_locking_ = fz::monotonic_clock::now(); return FZ_REPLY_WOULDBLOCK; } opState = list_list; return FZ_REPLY_CONTINUE; } LogMessage(MessageType::Debug_Warning, L"Unknown opState in CStorjListOpData::SubcommandResult()"); return FZ_REPLY_INTERNALERROR; } int CStorjListOpData::ParseEntry(std::wstring && name, std::wstring const& size, std::wstring && id, std::wstring const& created) { if (opState != list_list) { LogMessage(MessageType::Debug_Warning, L"ListParseResponse called at inproper time: %d", opState); return FZ_REPLY_INTERNALERROR; } if (name == L".") { pathId_ = id; return FZ_REPLY_WOULDBLOCK; } CDirentry entry; entry.name = name; entry.ownerGroup.get() = id; if (bucket_.empty()) { entry.flags = CDirentry::flag_dir; } else { if (!entry.name.empty() && entry.name.back() == '/') { entry.flags = CDirentry::flag_dir; entry.name.pop_back(); } else { entry.flags = 0; } } if (entry.is_dir()) { entry.size = -1; } else { entry.size = fz::to_integral<int64_t>(size, -1); } entry.time.set(created, fz::datetime::utc); if (!entry.name.empty()) { directoryListing_.Append(std::move(entry)); } return FZ_REPLY_WOULDBLOCK; }
madnight/filezilla
src/engine/storj/list.cpp
C++
gpl-2.0
4,511
/* Copyright (c) 2011-2012, Code Aurora Forum. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * */ #include <linux/init.h> #include <linux/ioport.h> #include <linux/platform_device.h> #include <linux/bootmem.h> #include <asm/mach-types.h> #include <mach/msm_bus_board.h> #include <mach/msm_memtypes.h> #include <mach/board.h> #include <mach/gpio.h> #include <mach/gpiomux.h> #include <linux/ion.h> #include <mach/ion.h> #include "devices.h" #ifndef CONFIG_MACH_LGE #endif #include <linux/fb.h> #include "../../../../drivers/video/msm/msm_fb.h" #include "../../../../drivers/video/msm/msm_fb_def.h" #include "../../../../drivers/video/msm/mipi_dsi.h" #include <mach/board_lge.h> #include CONFIG_BOARD_HEADER_FILE #ifdef CONFIG_LGE_KCAL #ifdef CONFIG_LGE_QC_LCDC_LUT extern int set_qlut_kcal_values(int kcal_r, int kcal_g, int kcal_b); extern int refresh_qlut_display(void); #else #error only kcal by Qucalcomm LUT is supported now!!! #endif #endif #ifdef CONFIG_FB_MSM_TRIPLE_BUFFER #define MSM_FB_PRIM_BUF_SIZE (LCD_RESOLUTION_X * LCD_RESOLUTION_Y * 4 * 3) /* 4(bpp) x 3(pages) */ #else #define MSM_FB_PRIM_BUF_SIZE (LCD_RESOLUTION_X * LCD_RESOLUTION_Y * 4 * 2) /* 4(bpp) x 2(pages) */ #endif #ifdef CONFIG_FB_MSM_HDMI_MSM_PANEL #define MSM_FB_EXT_BUF_SIZE (1920 * 1088 * 2 * 1) /* 2 bpp x 1 page */ #elif defined(CONFIG_FB_MSM_TVOUT) #define MSM_FB_EXT_BUF_SIZE (720 * 576 * 2 * 2) /* 2 bpp x 2 pages */ #else #define MSM_FB_EXT_BUF_SIZE 0 #endif /* Note: must be multiple of 4096 */ #define MSM_FB_SIZE roundup(MSM_FB_PRIM_BUF_SIZE + MSM_FB_EXT_BUF_SIZE, 4096) #ifdef CONFIG_FB_MSM_OVERLAY0_WRITEBACK #define MSM_FB_OVERLAY0_WRITEBACK_SIZE roundup((LCD_RESOLUTION_X * LCD_RESOLUTION_Y * 3 * 2), 4096) #else #define MSM_FB_OVERLAY0_WRITEBACK_SIZE (0) #endif /* CONFIG_FB_MSM_OVERLAY0_WRITEBACK */ #ifdef CONFIG_FB_MSM_OVERLAY1_WRITEBACK #define MSM_FB_OVERLAY1_WRITEBACK_SIZE roundup((1920 * 1088 * 3 * 2), 4096) #else #define MSM_FB_OVERLAY1_WRITEBACK_SIZE (0) #endif /* CONFIG_FB_MSM_OVERLAY1_WRITEBACK */ #define MDP_VSYNC_GPIO 0 #define MIPI_CMD_NOVATEK_QHD_PANEL_NAME "mipi_cmd_novatek_qhd" #define MIPI_VIDEO_NOVATEK_QHD_PANEL_NAME "mipi_video_novatek_qhd" #define MIPI_VIDEO_TOSHIBA_WSVGA_PANEL_NAME "mipi_video_toshiba_wsvga" #define MIPI_VIDEO_TOSHIBA_WUXGA_PANEL_NAME "mipi_video_toshiba_wuxga" #define MIPI_VIDEO_CHIMEI_WXGA_PANEL_NAME "mipi_video_chimei_wxga" #define MIPI_VIDEO_SIMULATOR_VGA_PANEL_NAME "mipi_video_simulator_vga" #define MIPI_CMD_RENESAS_FWVGA_PANEL_NAME "mipi_cmd_renesas_fwvga" #define HDMI_PANEL_NAME "hdmi_msm" #define TVOUT_PANEL_NAME "tvout_msm" #ifdef CONFIG_FB_MSM_HDMI_AS_PRIMARY unsigned char hdmi_is_primary = 1; #else unsigned char hdmi_is_primary; #endif #define TUNING_BUFSIZE 4096 #define TUNING_REGSIZE 40 #define TUNING_REGNUM 10 #define LCD_GAMMA 0 #if defined(CONFIG_LGE_BACKLIGHT_CABC) #define CABC_POWERON_OFFSET 4 /* offset from lcd display on cmds */ #define CABC_OFF 0 #define CABC_ON 1 #define CABC_10 1 #define CABC_20 2 #define CABC_30 3 #define CABC_40 4 #define CABC_50 5 #define CABC_DEFAULT CABC_10 #if defined (CONFIG_LGE_BACKLIGHT_CABC_DEBUG) static int lgit_cabc_index = CABC_DEFAULT; #endif /* CONFIG_LGE_BACKLIGHT_CABC_DEBUG */ #endif /* CONFIG_LGE_BACKLIGHT_CABC */ static struct resource msm_fb_resources[] = { { .flags = IORESOURCE_DMA, } }; #ifndef CONFIG_MACH_LGE #ifndef CONFIG_FB_MSM_MIPI_PANEL_DETECT static void set_mdp_clocks_for_wuxga(void); #endif #endif static int msm_fb_detect_panel(const char *name) { return 0; } static struct msm_fb_platform_data msm_fb_pdata = { .detect_client = msm_fb_detect_panel, }; static struct platform_device msm_fb_device = { .name = "msm_fb", .id = 0, .num_resources = ARRAY_SIZE(msm_fb_resources), .resource = msm_fb_resources, .dev.platform_data = &msm_fb_pdata, }; #ifndef CONFIG_MACH_LGE static void mipi_dsi_panel_pwm_cfg(void) { int rc; static int mipi_dsi_panel_gpio_configured; static struct pm_gpio pwm_enable = { .direction = PM_GPIO_DIR_OUT, .output_buffer = PM_GPIO_OUT_BUF_CMOS, .output_value = 1, .pull = PM_GPIO_PULL_NO, .vin_sel = PM_GPIO_VIN_VPH, .out_strength = PM_GPIO_STRENGTH_HIGH, .function = PM_GPIO_FUNC_NORMAL, .inv_int_pol = 0, .disable_pin = 0, }; static struct pm_gpio pwm_mode = { .direction = PM_GPIO_DIR_OUT, .output_buffer = PM_GPIO_OUT_BUF_CMOS, .output_value = 0, .pull = PM_GPIO_PULL_NO, .vin_sel = PM_GPIO_VIN_S4, .out_strength = PM_GPIO_STRENGTH_HIGH, .function = PM_GPIO_FUNC_2, .inv_int_pol = 0, .disable_pin = 0, }; if (mipi_dsi_panel_gpio_configured == 0) { /* pm8xxx: gpio-21, Backlight Enable */ rc = pm8xxx_gpio_config(PM8921_GPIO_PM_TO_SYS(21), &pwm_enable); if (rc != 0) pr_err("%s: pwm_enabled failed\n", __func__); /* pm8xxx: gpio-24, Bl: Off, PWM mode */ rc = pm8xxx_gpio_config(PM8921_GPIO_PM_TO_SYS(24), &pwm_mode); if (rc != 0) pr_err("%s: pwm_mode failed\n", __func__); mipi_dsi_panel_gpio_configured++; } } #endif static bool dsi_power_on; /* LGE_CHANGE * LG Display 4.0' WVGA for l_dcm * [email protected] */ static int mipi_dsi_panel_power(int on) { static struct regulator *reg_l8, *reg_l2, *reg_lvs6; static int gpio43 = PM8921_GPIO_PM_TO_SYS(43); int rc; pr_debug("%s: state : %d\n", __func__, on); if (!dsi_power_on) { reg_l8 = regulator_get(&msm_mipi_dsi1_device.dev, "dsi_vdc"); if (IS_ERR(reg_l8)) { pr_err("could not get 8921_l8, rc = %ld\n", PTR_ERR(reg_l8)); return -ENODEV; } reg_lvs6 = regulator_get(&msm_mipi_dsi1_device.dev, "8921_lvs6"); if (IS_ERR(reg_lvs6)) { pr_err("could not get 8921_lvs6, rc = %ld\n", PTR_ERR(reg_lvs6)); return -ENODEV; } reg_l2 = regulator_get(&msm_mipi_dsi1_device.dev, "dsi_vdda"); if (IS_ERR(reg_l2)) { pr_err("could not get 8921_l2, rc = %ld\n", PTR_ERR(reg_l2)); return -ENODEV; } rc = regulator_set_voltage(reg_l8, 2800000, 2800000); if (rc) { pr_err("set_voltage l8 failed, rc=%d\n", rc); return -EINVAL; } rc = regulator_set_voltage(reg_l2, 1200000, 1200000); if (rc) { pr_err("set_voltage l2 failed, rc=%d\n", rc); return -EINVAL; } /* VREG_2P8_LCD_VCI enable - [email protected] */ rc = gpio_request(LCD_VCI_EN_GPIO, "LCD_VCI_EN_GPIO"); if (rc) { pr_err("'%s'(%d) gpio_request failed, rc=%d\n", "LCD_VCI_EN_GPIO", LCD_VCI_EN_GPIO, rc); } gpio_tlmm_config(GPIO_CFG(LCD_VCI_EN_GPIO, 0, GPIO_CFG_OUTPUT, GPIO_CFG_NO_PULL, GPIO_CFG_2MA), GPIO_CFG_ENABLE); rc = gpio_request(gpio43, "disp_rst_n"); if (rc) { pr_err("request gpio 43 failed, rc=%d\n", rc); return -ENODEV; } dsi_power_on = true; } if (on) { rc = regulator_set_optimum_mode(reg_l8, 100000); if (rc < 0) { pr_err("set_optimum_mode l8 failed, rc=%d\n", rc); return -EINVAL; } rc = regulator_set_optimum_mode(reg_l2, 100000); if (rc < 0) { pr_err("set_optimum_mode l2 failed, rc=%d\n", rc); return -EINVAL; } rc = regulator_enable(reg_l8); if (rc) { pr_err("enable l8 failed, rc=%d\n", rc); return -ENODEV; } rc = regulator_enable(reg_lvs6); if (rc) { pr_err("enable lvs6 failed, rc=%d\n", rc); return -ENODEV; } rc = gpio_direction_output(LCD_VCI_EN_GPIO, 1); mdelay(1); rc = regulator_enable(reg_l2); if (rc) { pr_err("enable l2 failed, rc=%d\n", rc); return -ENODEV; } } else { rc = regulator_disable(reg_l8); if (rc) { pr_err("disable reg_l8 failed, rc=%d\n", rc); return -ENODEV; } rc = regulator_disable(reg_lvs6); if (rc) { pr_err("disable reg_lvs6 failed, rc=%d\n", rc); return -ENODEV; } rc = regulator_disable(reg_l2); if (rc) { pr_err("enable l2 failed, rc=%d\n", rc); return -ENODEV; } /* LCD Reset LOW */ gpio_direction_output(gpio43, 0); /* LCD VCI EN LOW */ rc = gpio_direction_output(LCD_VCI_EN_GPIO, 0); rc = regulator_set_optimum_mode(reg_l8, 100); if (rc < 0) { pr_err("set_optimum_mode l8 failed, rc=%d\n", rc); return -EINVAL; } rc = regulator_set_optimum_mode(reg_l2, 100); if (rc < 0) { pr_err("set_optimum_mode l2 failed, rc=%d\n", rc); return -EINVAL; } } return 0; } static struct mipi_dsi_platform_data mipi_dsi_pdata = { .vsync_gpio = MDP_VSYNC_GPIO, .dsi_power_save = mipi_dsi_panel_power, }; #ifdef CONFIG_MSM_BUS_SCALING static struct msm_bus_vectors rotator_init_vectors[] = { { .src = MSM_BUS_MASTER_ROTATOR, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = 0, .ib = 0, }, }; static struct msm_bus_vectors rotator_ui_vectors[] = { { .src = MSM_BUS_MASTER_ROTATOR, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = (1024 * 600 * 4 * 2 * 60), .ib = (1024 * 600 * 4 * 2 * 60 * 1.5), }, }; static struct msm_bus_vectors rotator_vga_vectors[] = { { .src = MSM_BUS_MASTER_ROTATOR, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = (640 * 480 * 2 * 2 * 30), .ib = (640 * 480 * 2 * 2 * 30 * 1.5), }, }; static struct msm_bus_vectors rotator_720p_vectors[] = { { .src = MSM_BUS_MASTER_ROTATOR, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = (1280 * 736 * 2 * 2 * 30), .ib = (1280 * 736 * 2 * 2 * 30 * 1.5), }, }; static struct msm_bus_vectors rotator_1080p_vectors[] = { { .src = MSM_BUS_MASTER_ROTATOR, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = (1920 * 1088 * 2 * 2 * 30), .ib = (1920 * 1088 * 2 * 2 * 30 * 1.5), }, }; static struct msm_bus_paths rotator_bus_scale_usecases[] = { { ARRAY_SIZE(rotator_init_vectors), rotator_init_vectors, }, { ARRAY_SIZE(rotator_ui_vectors), rotator_ui_vectors, }, { ARRAY_SIZE(rotator_vga_vectors), rotator_vga_vectors, }, { ARRAY_SIZE(rotator_720p_vectors), rotator_720p_vectors, }, { ARRAY_SIZE(rotator_1080p_vectors), rotator_1080p_vectors, }, }; struct msm_bus_scale_pdata rotator_bus_scale_pdata = { rotator_bus_scale_usecases, ARRAY_SIZE(rotator_bus_scale_usecases), .name = "rotator", }; static struct msm_bus_vectors mdp_init_vectors[] = { { .src = MSM_BUS_MASTER_MDP_PORT0, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = 0, .ib = 0, }, }; #ifdef CONFIG_FB_MSM_HDMI_AS_PRIMARY static struct msm_bus_vectors hdmi_as_primary_vectors[] = { /* If HDMI is used as primary */ { .src = MSM_BUS_MASTER_MDP_PORT0, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = 2000000000, .ib = 2000000000, }, }; static struct msm_bus_paths mdp_bus_scale_usecases[] = { { ARRAY_SIZE(mdp_init_vectors), mdp_init_vectors, }, { ARRAY_SIZE(hdmi_as_primary_vectors), hdmi_as_primary_vectors, }, { ARRAY_SIZE(hdmi_as_primary_vectors), hdmi_as_primary_vectors, }, { ARRAY_SIZE(hdmi_as_primary_vectors), hdmi_as_primary_vectors, }, { ARRAY_SIZE(hdmi_as_primary_vectors), hdmi_as_primary_vectors, }, { ARRAY_SIZE(hdmi_as_primary_vectors), hdmi_as_primary_vectors, }, }; #else static struct msm_bus_vectors mdp_ui_vectors[] = { { .src = MSM_BUS_MASTER_MDP_PORT0, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = 216000000 * 2, .ib = 270000000 * 2, }, }; static struct msm_bus_vectors mdp_vga_vectors[] = { /* VGA and less video */ { .src = MSM_BUS_MASTER_MDP_PORT0, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = 216000000 * 2, .ib = 270000000 * 2, }, }; static struct msm_bus_vectors mdp_720p_vectors[] = { /* 720p and less video */ { .src = MSM_BUS_MASTER_MDP_PORT0, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = 230400000 * 2, .ib = 288000000 * 2, }, }; static struct msm_bus_vectors mdp_1080p_vectors[] = { /* 1080p and less video */ { .src = MSM_BUS_MASTER_MDP_PORT0, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = 334080000 * 2, .ib = 417600000 * 2, }, }; static struct msm_bus_paths mdp_bus_scale_usecases[] = { { ARRAY_SIZE(mdp_init_vectors), mdp_init_vectors, }, { ARRAY_SIZE(mdp_ui_vectors), mdp_ui_vectors, }, { ARRAY_SIZE(mdp_ui_vectors), mdp_ui_vectors, }, { ARRAY_SIZE(mdp_vga_vectors), mdp_vga_vectors, }, { ARRAY_SIZE(mdp_720p_vectors), mdp_720p_vectors, }, { ARRAY_SIZE(mdp_1080p_vectors), mdp_1080p_vectors, }, }; #endif static struct msm_bus_scale_pdata mdp_bus_scale_pdata = { mdp_bus_scale_usecases, ARRAY_SIZE(mdp_bus_scale_usecases), .name = "mdp", }; #endif static int mdp_core_clk_rate_table[] = { 128000000,/*85330000,*/ 128000000,/*85330000,*/ 160000000, 200000000, }; struct msm_fb_info_st { unsigned int width_mm; unsigned int height_mm; }; static struct msm_fb_info_st msm_fb_info_data = { .width_mm = MSM_FB_WIDTH_MM, .height_mm = MSM_FB_HEIGHT_MM }; static int msm_fb_event_notify(struct notifier_block *self, unsigned long action, void *data) { struct fb_event *event = data; struct fb_info *info = event->info; struct msm_fb_info_st *fb_info_mm = &msm_fb_info_data; int ret = 0; switch (action) { case FB_EVENT_FB_REGISTERED: info->var.width = fb_info_mm->width_mm; info->var.height = fb_info_mm->height_mm; break; } return ret; } static struct notifier_block msm_fb_event_notifier = { .notifier_call = msm_fb_event_notify, }; static struct msm_panel_common_pdata mdp_pdata = { .gpio = MDP_VSYNC_GPIO, .mdp_core_clk_rate = 128000000, /*85330000,*/ .mdp_core_clk_table = mdp_core_clk_rate_table, .num_mdp_clk = ARRAY_SIZE(mdp_core_clk_rate_table), #ifdef CONFIG_MSM_BUS_SCALING .mdp_bus_scale_table = &mdp_bus_scale_pdata, #endif .mdp_rev = MDP_REV_42, #ifdef CONFIG_MSM_MULTIMEDIA_USE_ION .mem_hid = ION_CP_MM_HEAP_ID, #else .mem_hid = MEMTYPE_EBI1, #endif .cont_splash_enabled = 0x00, }; #ifndef CONFIG_MACH_LGE #ifndef CONFIG_FB_MSM_MIPI_PANEL_DETECT /** * Set MDP clocks to high frequency to avoid DSI underflow * when using high resolution 1200x1920 WUXGA panels */ static void set_mdp_clocks_for_wuxga(void) { int i; mdp_ui_vectors[0].ab = 2000000000; mdp_ui_vectors[0].ib = 2000000000; mdp_vga_vectors[0].ab = 2000000000; mdp_vga_vectors[0].ib = 2000000000; mdp_720p_vectors[0].ab = 2000000000; mdp_720p_vectors[0].ib = 2000000000; mdp_1080p_vectors[0].ab = 2000000000; mdp_1080p_vectors[0].ib = 2000000000; mdp_pdata.mdp_core_clk_rate = 200000000; for (i = 0; i < ARRAY_SIZE(mdp_core_clk_rate_table); i++) mdp_core_clk_rate_table[i] = 200000000; } #endif #endif void __init msm8960_mdp_writeback(struct memtype_reserve* reserve_table) { mdp_pdata.ov0_wb_size = MSM_FB_OVERLAY0_WRITEBACK_SIZE; mdp_pdata.ov1_wb_size = MSM_FB_OVERLAY1_WRITEBACK_SIZE; #if defined(CONFIG_ANDROID_PMEM) && !defined(CONFIG_MSM_MULTIMEDIA_USE_ION) reserve_table[mdp_pdata.mem_hid].size += mdp_pdata.ov0_wb_size; reserve_table[mdp_pdata.mem_hid].size += mdp_pdata.ov1_wb_size; #endif } /* LGE_CHANGE * * LM3533TMX BL driver for l_dcm * 2011-11-23 [email protected] */ #ifdef CONFIG_LGE_BACKLIGHT_LM3533 extern void lm3533_lcd_backlight_set_level(int level); #ifdef CONFIG_FB_MSM_MIPI_DSI_LGIT static int mipi_lgit_backlight_level(int level, int max, int min) { lm3533_lcd_backlight_set_level(level); return 0; } #if defined(CONFIG_FB_MSM_MIPI_LGIT_CMD_WVGA_INVERSE_PT_PANEL) ||\ defined(CONFIG_FB_MSM_MIPI_LGIT_VIDEO_WVGA_INVERSE_PT_PANEL) /* LG Display 4.0" WVGA for l_dcm (CMD Mode) * Rotate Display output by l_dcm h/w implementation * 2011-11-24 [email protected] */ #if defined(CONFIG_FB_MSM_MIPI_LGIT_VIDEO_WVGA_INVERSE_PT_PANEL) static char video_switch[] = {0x01, 0x47}; #endif /* LG-4572B only for Rev.A and Rev.B */ static char hrx_to_old [ 2] = {0x03, 0x00}; static char inversion_off_old [ 2] = {0x20, 0x00}; static char tear_on_old [ 2] = {0x35, 0x00}; static char set_address_mode_old [ 2] = {0x36, 0x02}; /* Flip Horizontal Only (cause Tearing problem) - [email protected] */ static char if_pixel_format_old [ 2] = {0x3A, 0x77}; #if defined(CONFIG_FB_MSM_MIPI_LGIT_VIDEO_WVGA_INVERSE_PT_PANEL) static char rgb_interface_setting_old [ ] = {0xB1, 0x06, 0x43, 0x0A}; #endif static char page_address_set_old [ 5] = {0x2B, 0x00, 0x00, 0x03, 0x1F}; static char panel_char_setting_old [ 3] = {0xB2, 0x00, 0xC8}; static char panel_drive_setting_old [ 2] = {0xB3, 0x00}; static char display_mode_ctrl_old [ 2] = {0xB4, 0x04}; static char display_ctrl1_old [ 6] = {0xB5, 0x42, 0x10, 0x10, 0x00, 0x20}; static char display_ctrl2_old [ 7] = {0xB6, 0x0B, 0x0F, 0x02, 0x40, 0x10, 0xE8}; #if defined(CONFIG_FB_MSM_MIPI_LGIT_CMD_WVGA_INVERSE_PT_PANEL) static char display_ctrl3_old [ 6] = {0xB7, 0x48, 0x06, 0x2E, 0x00, 0x00}; #endif static char osc_setting_old [ 3] = {0xC0, 0x01, 0x15}; static char power_ctrl3_old [ 6] = {0xC3, 0x07, 0x03, 0x04, 0x04, 0x04}; static char power_ctrl4_old [ 7] = {0xC4, 0x12, 0x24, 0x18, 0x18, 0x05, 0x49}; static char power_ctrl5_old [ 2] = {0xC5, 0x69}; static char power_ctrl6_old [ 3] = {0xC6, 0x41, 0x63}; static char exit_sleep_old [ 2] = {0x11, 0x00}; static char display_on_old [ 2] = {0x29, 0x00}; static char enter_sleep_old [ 2] = {0x10, 0x00}; static char display_off_old [ 2] = {0x28, 0x00}; static char deep_standby_old [ 2] = {0xC1, 0x01}; /* LGE_CHANGE_S LG-4573B H/W Rev.C or upper revision, [email protected], 2011.02.27 */ static char hrx_to [ 2] = {0x03, 0x00}; static char inversion_off [ 1] = {0x20}; static char set_address_mode [ 2] = {0x36, 0x02}; /* Flip Horizontal Only (cause Tearing problem) - [email protected] */ static char if_pixel_format [ 2] = {0x3A, 0x70}; /* LGE_CHANGE_S, Add CABC Code, [email protected], 2012.03.30 */ #ifdef CONFIG_LGE_BACKLIGHT_CABC static char cabc_51 [ 2] = {0x51,0xE6}; /* LCD CABC CODE, Write Display Brightness */ static char cabc_53 [ 2] = {0x53,0x24}; /* LCD CABC CODE, Write Control Display */ static char cabc_55 [ 2] = {0x55,0x01}; /* LCD CABC CODE, Write Content Adaptive Brightness Control */ static char cabc_5e [ 2] = {0x5E,0x33}; /* LCD CABC CODE, Write CABC Minimum Brightness */ #ifdef CONFIG_LGE_BACKLIGHT_CABC_DEBUG /* Write Display Brightness */ static char config_cabc_51[6][2] = { {0x51, 0x00}, /* off */ {0x51, 0xE6}, /* 10%, 230 */ {0x51, 0xCC}, /* 20%, 204 */ {0x51, 0xB3}, /* 30%, 179 */ {0x51, 0x99}, /* 40%, 153 */ {0x51, 0x80} /* 50%, 128 */ }; /* Write Control Display */ static char config_cabc_53[2][2] = { {0x53, 0x00}, /* off */ {0x53, 0x24} /* on */ }; /* Write Content Adaptive Brightness Control */ static char config_cabc_55[2][2] = { {0x55, 0x00}, /* off */ {0x55, 0x01} /* on */ }; /* Write CABC Minimum Brightness */ static char config_cabc_5e[6][2] = { {0x5E, 0x00}, /* off */ {0x5E, 0x33}, /* 10% */ {0x5E, 0x33}, /* 20% */ {0x5E, 0x33}, /* 30% */ {0x5E, 0x33}, /* 40% */ {0x5E, 0x33} /* 50% */ }; #endif /* CONFIG_LGE_BACKLIGHT_CABC_DEBUG */ #endif /* CONFIG_LGE_BACKLIGHT_CABC */ /* LGE_CHANGE_E, Add CABC Code, [email protected], 2012.03.30 */ static char rgb_interface_setting [ 4] = {0xB1, 0x06, 0x43, 0x0A}; static char panel_char_setting [ 3] = {0xB2, 0x00, 0xC8}; static char panel_drive_setting [ 2] = {0xB3, 0x00}; static char display_mode_ctrl [ 2] = {0xB4, 0x04}; static char display_ctrl1 [ 6] = {0xB5, 0x40, 0x18, 0x02, 0x00, 0x01}; static char display_ctrl2 [ 7] = {0xB6, 0x0B, 0x0F, 0x02, 0x40, 0x10, 0xE8}; static char osc_setting [ 3] = {0xC0, 0x01, 0x18}; static char power_ctrl3 [ 6] = {0xC3, 0x07, 0x0A, 0x0A, 0x0A, 0x02}; static char power_ctrl4 [ 7] = {0xC4, 0x12, 0x24, 0x18, 0x18, 0x04, 0x49}; static char power_ctrl5 [ 2] = {0xC5, 0x6B}; static char power_ctrl6 [ 4] = {0xC6, 0x41, 0x63, 0x03}; static char p_gamma_r_setting [10] = {0xD0, 0x00, 0x01, 0x64, 0x25, 0x07, 0x02, 0x61, 0x13, 0x03}; static char n_gamma_r_setting [10] = {0xD1, 0x00, 0x01, 0x64, 0x25, 0x07, 0x02, 0x61, 0x13, 0x03}; static char p_gamma_g_setting [10] = {0xD2, 0x00, 0x01, 0x64, 0x25, 0x07, 0x02, 0x61, 0x13, 0x03}; static char n_gamma_g_setting [10] = {0xD3, 0x00, 0x01, 0x64, 0x25, 0x07, 0x02, 0x61, 0x13, 0x03}; static char p_gamma_b_setting [10] = {0xD4, 0x00, 0x01, 0x64, 0x25, 0x07, 0x02, 0x61, 0x13, 0x03}; static char n_gamma_b_setting [10] = {0xD5, 0x00, 0x01, 0x64, 0x25, 0x07, 0x02, 0x61, 0x13, 0x03}; static char exit_sleep [ 1] = {0x11}; static char display_on [ 1] = {0x29}; static char enter_sleep [ 1] = {0x10}; static char display_off [ 1] = {0x28}; /* LGE_CHANGE_E LG-4573B H/W Rev.C or upper revision, [email protected], 2011.02.27 */ /* LG-4572B only for Rev.A and Rev.B */ /* initialize device */ static struct dsi_cmd_desc lgit_power_on_set_old[] = { #if defined(CONFIG_FB_MSM_MIPI_LGIT_VIDEO_WVGA_INVERSE_PT_PANEL) {DTYPE_GEN_WRITE2, 1, 0, 0, 0, sizeof(video_switch), video_switch}, #endif {DTYPE_GEN_WRITE2, 1, 0, 0, 0, sizeof(hrx_to_old), hrx_to_old}, {DTYPE_DCS_WRITE, 1, 0, 0, 0, sizeof(inversion_off_old), inversion_off_old}, {DTYPE_DCS_WRITE, 1, 0, 0, 0, sizeof(tear_on_old), tear_on_old}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(set_address_mode_old), set_address_mode_old}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(if_pixel_format_old), if_pixel_format_old}, #if defined(CONFIG_FB_MSM_MIPI_LGIT_VIDEO_WVGA_INVERSE_PT_PANEL) {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(rgb_interface_setting_old), rgb_interface_setting_old}, #endif {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(page_address_set_old), page_address_set_old}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(panel_char_setting_old), panel_char_setting_old}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(panel_drive_setting_old), panel_drive_setting_old}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(display_mode_ctrl_old), display_mode_ctrl_old}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(display_ctrl1_old), display_ctrl1_old}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(display_ctrl2_old), display_ctrl2_old}, #if defined(CONFIG_FB_MSM_MIPI_LGIT_CMD_WVGA_INVERSE_PT_PANEL) {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(display_ctrl3_old), display_ctrl3_old}, #endif {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(osc_setting_old), osc_setting_old}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(power_ctrl3_old), power_ctrl3_old}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(power_ctrl4_old), power_ctrl4_old}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(power_ctrl5_old), power_ctrl5_old}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(power_ctrl6_old), power_ctrl6_old}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(p_gamma_r_setting), p_gamma_r_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(n_gamma_r_setting), n_gamma_r_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(p_gamma_g_setting), p_gamma_g_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(n_gamma_g_setting), n_gamma_g_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(p_gamma_b_setting), p_gamma_b_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(n_gamma_b_setting), n_gamma_b_setting}, {DTYPE_DCS_WRITE, 1, 0, 0, 100, sizeof(exit_sleep_old), exit_sleep_old}, {DTYPE_DCS_WRITE, 1, 0, 0, 100, sizeof(display_on_old), display_on_old}, }; static struct dsi_cmd_desc lgit_power_off_set_old[] = { {DTYPE_DCS_WRITE, 1, 0, 0, 0, sizeof(display_off_old), display_off_old}, {DTYPE_DCS_WRITE, 1, 0, 0, 60, sizeof(enter_sleep_old), enter_sleep_old}, {DTYPE_DCS_WRITE, 1, 0, 0, 0, sizeof(deep_standby_old), deep_standby_old}, }; /* LGE_CHANGE_S LG-4573B H/W Rev.C or upper revision, [email protected], 2011.02.27 */ /* initialize device */ static struct dsi_cmd_desc lgit_power_on_set[] = { {DTYPE_GEN_WRITE2, 1, 0, 0, 0, sizeof(hrx_to), hrx_to}, {DTYPE_DCS_WRITE, 1, 0, 0, 0, sizeof(inversion_off), inversion_off}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(set_address_mode), set_address_mode}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(if_pixel_format), if_pixel_format}, /* LGE_CHANGE_S, Add CABC Code, [email protected], 2012.03.30 */ #if defined(CONFIG_LGE_BACKLIGHT_CABC) {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(cabc_51), cabc_51}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(cabc_53), cabc_53}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(cabc_55), cabc_55}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(cabc_5e), cabc_5e}, #endif /* CONFIG_LGE_BACKLIGHT_CABC */ /* LGE_CHANGE_E, Add CABC Code, [email protected], 2012.03.30 */ {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(rgb_interface_setting), rgb_interface_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(panel_char_setting), panel_char_setting}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(panel_drive_setting), panel_drive_setting}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(display_mode_ctrl), display_mode_ctrl}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(display_ctrl1), display_ctrl1}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(display_ctrl2), display_ctrl2}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(osc_setting), osc_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(power_ctrl3), power_ctrl3}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(power_ctrl4), power_ctrl4}, {DTYPE_DCS_WRITE1, 1, 0, 0, 0, sizeof(power_ctrl5), power_ctrl5}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(power_ctrl6), power_ctrl6}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(p_gamma_r_setting), p_gamma_r_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(n_gamma_r_setting), n_gamma_r_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(p_gamma_g_setting), p_gamma_g_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(n_gamma_g_setting), n_gamma_g_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(p_gamma_b_setting), p_gamma_b_setting}, {DTYPE_DCS_LWRITE, 1, 0, 0, 0, sizeof(n_gamma_b_setting), n_gamma_b_setting}, {DTYPE_DCS_WRITE, 1, 0, 0, 120, sizeof(exit_sleep), exit_sleep}, {DTYPE_DCS_WRITE, 1, 0, 0, 40, sizeof(display_on), display_on}, }; /* LGE_CHANGE_E LG-4573B H/W Rev.C or upper revision, [email protected], 2011.02.27 */ static struct dsi_cmd_desc lgit_power_off_set[] = { {DTYPE_DCS_WRITE, 1, 0, 0, 40, sizeof(display_off), display_off}, {DTYPE_DCS_WRITE, 1, 0, 0, 10, sizeof(enter_sleep), enter_sleep}, }; #if defined(CONFIG_LGE_BACKLIGHT_CABC) && \ defined(CONFIG_LGE_BACKLIGHT_CABC_DEBUG) void set_lgit_cabc(int cabc_index) { pr_info("%s! cabc_index: %d\n", __func__, cabc_index); switch(cabc_index) { case 0: /* CABC OFF */ lgit_power_on_set[CABC_POWERON_OFFSET+2].payload = config_cabc_55[CABC_OFF]; break; case 1: /* 10% */ case 2: /* 20% */ case 3: /* 30% */ case 4: /* 40% */ case 5: /* 50% */ { /* CABC ON */ lgit_power_on_set[CABC_POWERON_OFFSET].payload = config_cabc_51[cabc_index]; lgit_power_on_set[CABC_POWERON_OFFSET+1].payload = config_cabc_53[CABC_ON]; lgit_power_on_set[CABC_POWERON_OFFSET+2].payload = config_cabc_55[CABC_ON]; lgit_power_on_set[CABC_POWERON_OFFSET+3].payload = config_cabc_5e[cabc_index]; } break; default: printk("out of range cabc_index %d", cabc_index); return; } lgit_cabc_index = cabc_index; return; } EXPORT_SYMBOL(set_lgit_cabc); int get_lgit_cabc(void) { return lgit_cabc_index; } EXPORT_SYMBOL(get_lgit_cabc); #endif /* CONFIG_LGE_BACKLIGHT_CABC && CONFIG_LGE_BACKLIGHT_CABC_DEBUG */ /* LG-4572B only for Rev.A and Rev.B */ static struct msm_panel_common_pdata mipi_lgit_pdata_old = { .backlight_level = mipi_lgit_backlight_level, #if defined(CONFIG_FB_MSM_MIPI_LGIT_CMD_WVGA_INVERSE_PT_PANEL) ||\ defined(CONFIG_FB_MSM_MIPI_LGIT_VIDEO_WVGA_INVERSE_PT_PANEL) .power_on_set = lgit_power_on_set_old, .power_off_set = lgit_power_off_set_old, .power_on_set_size = ARRAY_SIZE(lgit_power_on_set_old), .power_off_set_size = ARRAY_SIZE(lgit_power_off_set_old), .max_backlight_level = 0xFF, #endif #if defined (CONFIG_LGE_BACKLIGHT_LM3530) .max_backlight_level = 0x71, #elif defined (CONFIG_LGE_BACKLIGHT_LM3533) .max_backlight_level = 0xFF, #endif }; /* LGE_CHANGE_S LG-4573B H/W Rev.C or upper revision, [email protected], 2011.02.27 */ static struct msm_panel_common_pdata mipi_lgit_pdata = { .backlight_level = mipi_lgit_backlight_level, #if defined(CONFIG_FB_MSM_MIPI_LGIT_CMD_WVGA_INVERSE_PT_PANEL) ||\ defined(CONFIG_FB_MSM_MIPI_LGIT_VIDEO_WVGA_INVERSE_PT_PANEL) .power_on_set = lgit_power_on_set, .power_off_set = lgit_power_off_set, .power_on_set_size = ARRAY_SIZE(lgit_power_on_set), .power_off_set_size = ARRAY_SIZE(lgit_power_off_set), .max_backlight_level = 0xFF, #endif /* LGE_CHANGE_E LG-4573B H/W Rev.C or upper revision, [email protected], 2011.02.27 */ #if defined (CONFIG_LGE_BACKLIGHT_LM3530) .max_backlight_level = 0x71, #elif defined (CONFIG_LGE_BACKLIGHT_LM3533) .max_backlight_level = 0xFF, #endif }; static struct platform_device mipi_dsi_lgit_panel_device = { .name = "mipi_lgit", .id = 0, .dev = { .platform_data = &mipi_lgit_pdata, } }; #endif #endif #ifdef CONFIG_LGE_KCAL extern int set_kcal_values(int kcal_r, int kcal_g, int kcal_b); extern int refresh_kcal_display(void); extern int get_kcal_values(int *kcal_r, int *kcal_g, int *kcal_b); static struct kcal_platform_data kcal_pdata = { .set_values = set_kcal_values, .get_values = get_kcal_values, .refresh_display = refresh_kcal_display }; static struct platform_device kcal_platrom_device = { .name = "kcal_ctrl", .dev = { .platform_data = &kcal_pdata, } }; #endif #endif #ifdef CONFIG_FB_MSM_WRITEBACK_MSM_PANEL static struct platform_device wfd_panel_device = { .name = "wfd_panel", .id = 0, .dev.platform_data = NULL, }; static struct platform_device wfd_device = { .name = "msm_wfd", .id = -1, }; #endif #ifdef CONFIG_MSM_BUS_SCALING static struct msm_bus_vectors dtv_bus_init_vectors[] = { { .src = MSM_BUS_MASTER_MDP_PORT0, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = 0, .ib = 0, }, }; static struct msm_bus_vectors dtv_bus_def_vectors[] = { { .src = MSM_BUS_MASTER_MDP_PORT0, .dst = MSM_BUS_SLAVE_EBI_CH0, .ab = 566092800 * 2, .ib = 707616000 * 2, }, }; static struct msm_bus_paths dtv_bus_scale_usecases[] = { { ARRAY_SIZE(dtv_bus_init_vectors), dtv_bus_init_vectors, }, { ARRAY_SIZE(dtv_bus_def_vectors), dtv_bus_def_vectors, }, }; static struct msm_bus_scale_pdata dtv_bus_scale_pdata = { dtv_bus_scale_usecases, ARRAY_SIZE(dtv_bus_scale_usecases), .name = "dtv", }; static struct lcdc_platform_data dtv_pdata = { .bus_scale_table = &dtv_bus_scale_pdata, }; #endif static struct gpiomux_setting mdp_vsync_suspend_cfg = { .func = GPIOMUX_FUNC_GPIO, .drv = GPIOMUX_DRV_2MA, .pull = GPIOMUX_PULL_DOWN, }; static struct gpiomux_setting mdp_vsync_active_cfg = { .func = GPIOMUX_FUNC_1, .drv = GPIOMUX_DRV_2MA, .pull = GPIOMUX_PULL_DOWN, }; static struct msm_gpiomux_config msm8960_mdp_vsync_configs[] __initdata = { { .gpio = MDP_VSYNC_GPIO, .settings = { [GPIOMUX_ACTIVE] = &mdp_vsync_active_cfg, [GPIOMUX_SUSPENDED] = &mdp_vsync_suspend_cfg, }, } }; #ifdef CONFIG_LGE_HIDDEN_RESET int lge_get_fb_phys_info(unsigned long *start, unsigned long *size) { if (!start || !size) return -1; *start = (unsigned long)msm_fb_resources[0].start; *size = (unsigned long)(LCD_RESOLUTION_X * LCD_RESOLUTION_Y * 4); return 0; } void *lge_get_hreset_fb_phys_addr(void) { return (void *)0x88A00000; } #endif static void __init msm_fb_add_devices(void) { #ifdef CONFIG_FB_MSM_WRITEBACK_MSM_PANEL platform_device_register(&wfd_panel_device); platform_device_register(&wfd_device); #endif if (machine_is_msm8x60_rumi3()) { msm_fb_register_device("mdp", NULL); mipi_dsi_pdata.target_type = 1; } else msm_fb_register_device("mdp", &mdp_pdata); msm_fb_register_device("mipi_dsi", &mipi_dsi_pdata); #ifdef CONFIG_MSM_BUS_SCALING msm_fb_register_device("dtv", &dtv_pdata); #endif } void __init msm8960_allocate_fb_region(void) { void *addr; unsigned long size; size = MSM_FB_SIZE; addr = alloc_bootmem_align(size, 0x1000); msm_fb_resources[0].start = __pa(addr); msm_fb_resources[0].end = msm_fb_resources[0].start + size - 1; pr_info("allocating %lu bytes at %p (%lx physical) for fb\n", size, addr, __pa(addr)); } void __init msm8960_set_display_params(char *prim_panel, char *ext_panel) { if (strnlen(prim_panel, PANEL_NAME_MAX_LEN)) { strlcpy(msm_fb_pdata.prim_panel_name, prim_panel, PANEL_NAME_MAX_LEN); pr_debug("msm_fb_pdata.prim_panel_name %s\n", msm_fb_pdata.prim_panel_name); if (!strncmp((char *)msm_fb_pdata.prim_panel_name, HDMI_PANEL_NAME, strnlen(HDMI_PANEL_NAME, PANEL_NAME_MAX_LEN))) { pr_debug("HDMI is the primary display by" " boot parameter\n"); hdmi_is_primary = 1; } } if (strnlen(ext_panel, PANEL_NAME_MAX_LEN)) { strlcpy(msm_fb_pdata.ext_panel_name, ext_panel, PANEL_NAME_MAX_LEN); pr_debug("msm_fb_pdata.ext_panel_name %s\n", msm_fb_pdata.ext_panel_name); } } #ifdef CONFIG_I2C #ifdef CONFIG_LGE_BACKLIGHT_LM3533 #define LM3533_BACKLIGHT_ADDRESS 0x36 struct backlight_platform_data { void (*platform_init)(void); int gpio; unsigned int mode; int max_current; int init_on_boot; int min_brightness; int max_brightness; int default_brightness; int factory_brightness; }; #if defined(CONFIG_LGE_BACKLIGHT_CABC) #define PWM_SIMPLE_EN 0xA0 #endif static struct backlight_platform_data lm3533_data = { .gpio = PM8921_GPIO_PM_TO_SYS(24), .max_current = 0x13, .min_brightness = 0x05, .max_brightness = 0xFF, .default_brightness = 0x91, .factory_brightness = 0x64, }; static struct i2c_board_info msm_i2c_backlight_info[] = { { I2C_BOARD_INFO("lm3533", LM3533_BACKLIGHT_ADDRESS), .platform_data = &lm3533_data, } }; static struct i2c_registry l_dcm_i2c_backlight_device __initdata = { I2C_SURF | I2C_FFA | I2C_FLUID | I2C_RUMI, MSM_8960_GSBI2_QUP_I2C_BUS_ID, msm_i2c_backlight_info, ARRAY_SIZE(msm_i2c_backlight_info), }; #endif /* CONFIG_LGE_BACKLIGHT_LM3533 */ #endif /* CONFIG_I2C */ static int __init panel_gpiomux_init(void) { int rc; rc = msm_gpiomux_init(NR_GPIO_IRQS); if (rc == -EPERM) { pr_info("%s : msm_gpiomux_init is already initialized\n", __func__); } else if (rc) { pr_err(KERN_ERR "msm_gpiomux_init failed %d\n", rc); return rc; } msm_gpiomux_install(msm8960_mdp_vsync_configs, ARRAY_SIZE(msm8960_mdp_vsync_configs)); return 0; } static struct platform_device *l_dcm_panel_devices[] __initdata = { #ifdef CONFIG_FB_MSM_MIPI_DSI_LGIT &mipi_dsi_lgit_panel_device, #ifdef CONFIG_LGE_LCD_TUNING &lcd_misc_device, #endif #endif #ifdef CONFIG_LGE_KCAL &kcal_platrom_device, #endif }; void __init lge_add_lcd_devices(void) { panel_gpiomux_init(); fb_register_client(&msm_fb_event_notifier); /* LGE_CHANGE_S, Assign command set to panel info as H/W revision, [email protected], 2011.02.27 */ if(lge_get_board_revno() < HW_REV_C) mipi_dsi_lgit_panel_device.dev.platform_data = &mipi_lgit_pdata_old; /* LGE_CHANGE_E, Assign command set to panel info as H/W revision, [email protected], 2011.02.27 */ platform_add_devices(l_dcm_panel_devices, ARRAY_SIZE(l_dcm_panel_devices)); #ifdef CONFIG_LGE_BACKLIGHT_LM3533 lge_add_msm_i2c_device(&l_dcm_i2c_backlight_device); #endif msm_fb_add_devices(); platform_device_register(&msm_fb_device); }
jameskdev/lge-kernel-d1l_kr
arch/arm/mach-msm/lge/l_dcm/board-l_dcm-panel.c
C
gpl-2.0
35,276
<?php include(HTML_DIR . 'overall/header.php'); ?> <body> <section class="engine"><a rel="nofollow" href="#"><?php echo APP_TITLE ?></a></section> <?php include(HTML_DIR . '/overall/topnav.php'); ?> <section class="mbr-section mbr-after-navbar"> <div class="mbr-section__container container mbr-section__container--isolated"> <?php if(isset($_GET['success'])) { echo '<div class="alert alert-dismissible alert-success"> <strong>Completado!</strong> el producto ha sido subido</div>'; } if(isset($_GET['error'])) { if($_GET['error'] == 1) { echo '<div class="alert alert-dismissible alert-danger"> <strong>Error!</strong></strong> todos los campos deben estar llenos. </div>'; } else { echo '<div class="alert alert-dismissible alert-danger"> <strong>Error!</strong></strong> debe existir una categoría para asociar al foro. </div>'; } } ?> <div class="row container"> <div class="pull-right"> <div class="mbr-navbar__column"><ul class="mbr-navbar__items mbr-navbar__items--right mbr-buttons mbr-buttons--freeze mbr-buttons--right btn-inverse mbr-buttons--active"><li class="mbr-navbar__item"> <a class="mbr-buttons__btn btn btn-danger " href="?view=productos">Gestionar Productos</a> </li></ul></div> <div class="mbr-navbar__column"><ul class="mbr-navbar__items mbr-navbar__items--right mbr-buttons mbr-buttons--freeze mbr-buttons--right btn-inverse mbr-buttons--active"><li class="mbr-navbar__item"> <a class="mbr-buttons__btn btn btn-danger active" href="?view=productos&mode=add">Subir Producto</a> </li></ul></div> </div> <ol class="breadcrumb"> <li><a href="?view=index"><i class="fa fa-comments"></i> Productos</a></li> </ol> </div> <div class="row categorias_con_foros"> <div class="col-sm-12"> <div class="row titulo_categoria">Subir un producto</div> <div class="row cajas"> <div class="col-md-12"> <form class="form-horizontal" action="?view=productos&mode=add" method="POST" enctype="multipart/form-data"> <fieldset> <div class="form-group"> <label for="inputEmail" class="col-lg-2 control-label">Tipo de celular</label> <div class="col-lg-10"> <script> $(document).ready(function(){ $('#marca').change(function() { var id=$('#marca').val(); $('#modelo').load('?view=datos&mode=combo&id='+id); }); }); </script> <select class="form-control" name='marca' id='marca'> <?php if(false != $_tipos) { foreach($_tipos as $id_tipo => $array_tipo) { echo '<option value="'.$id_tipo.'">'.$_tipos[$id_tipo]['DES_TIPO'].'</option>'; } }else{ echo '<option value="0">No existen marcas</option>'; } ?> </select> </div> </div> <div class="form-group"> <label for="inputEmail" class="col-lg-2 control-label">Modelo</label> <div class="col-lg-10"> <select class='form-control' name='modelo' id='modelo'> <option value="OpModeloTodos">TODOS</option> </select> </div> </div> <div class="form-group"> <label for="inputEmail" class="col-lg-2 control-label">Precio</label> <div class="col-lg-10"> <input type="text" class="form-control" maxlength="250" name="precio" placeholder="Precio del celular"> </div> </div> <div class="form-group"> <label for="inputEmail" class="col-lg-2 control-label">Condicion</label> <div class="col-lg-10"> <select name="estado" class="form-control"> <option value="N">nuevo</option>'; <option value="U">usado</option> </select> </div> </div> <div class="form-group"> <label for="inputEmail" class="col-lg-2 control-label">Descripcion</label> <div class="col-lg-10"> <textarea class="form-control" name="descripcion" maxlength="100"></textarea> </div> </div> <div class="form-group"> <label for="inputEmail" class="col-lg-2 control-label"> Imagen</label> <div class="col-lg-10"> <input id="imagen" name="imagen" type="file" /> </div> </div> <div class="form-group"> <div class="col-lg-10 col-lg-offset-2"> <button type="reset" class="btn btn-default">Resetear</button> <button type="submit" class="btn btn-primary">Crear</button> </div> </div> </fieldset> </form> </div> </div> </div> </div> </div> </section> <?php include(HTML_DIR . 'overall/footer.php'); ?> </body> </html>
sofiaqsy/Opensale
html/productos/add_producto.php
PHP
gpl-2.0
5,407
/*************************************************************************** * Copyright (C) 2011 by Christoph Thelen * * [email protected] * * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the * * Free Software Foundation, Inc., * * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * ***************************************************************************/ #include "muhkuh_split_testdescription.h" #include <wx/filename.h> #include <wx/log.h> #include <wx/txtstrm.h> #include <wx/wfstream.h> muhkuh_split_testdescription::muhkuh_split_testdescription(void) { } muhkuh_split_testdescription::~muhkuh_split_testdescription(void) { } bool muhkuh_split_testdescription::split(wxString strWorkingFolder) { bool fResult; wxFileName tFileName; wxString strXmlFullPath; wxXmlNode *ptNodeTestDescription; size_t sizSubTestIndex; wxXmlNode *ptNode; /* Set the working folder. */ m_strWorkingFolder = strWorkingFolder; /* Create the full path to the test description. */ tFileName.AssignDir(strWorkingFolder); tFileName.SetFullName("test_description.xml"); strXmlFullPath = tFileName.GetFullPath(); /* Does the test description exist and is it readable? */ if( tFileName.FileExists()!=true ) { wxLogError(_("The file %s does not exist!"), strXmlFullPath); fResult = false; } else if( tFileName.IsFileReadable()!=true ) { wxLogError(_("The file %s can not be read!"), strXmlFullPath); fResult = false; } else { /* Ok, we can access the file -> parse the XML tree. */ fResult = m_tXmlDoc.Load(strXmlFullPath); if( fResult!=true ) { /* FIXME: How can I get more information what went wrong here? */ wxLogError(_("Failed to load the XML document!")); } else { /* Search the TestDescription node. */ ptNodeTestDescription = search_node(m_tXmlDoc.GetRoot(), "TestDescription"); if( ptNodeTestDescription==NULL ) { wxLogError(_("Can not find the TestDescription node!")); fResult = false; } else { fResult = generate_description(ptNodeTestDescription); if( fResult==true ) { sizSubTestIndex = 0; /* Add the init code block. */ fResult = subtests_read_test(ptNodeTestDescription, sizSubTestIndex); if( fResult==true ) { ++sizSubTestIndex; /* Search all subtests. */ ptNode = ptNodeTestDescription->GetChildren(); while( ptNode!=NULL ) { if( ptNode->GetType()==wxXML_ELEMENT_NODE && ptNode->GetName()=="Test" ) { fResult = subtests_read_test(ptNode, sizSubTestIndex); if( fResult!=true ) { break; } ++sizSubTestIndex; } ptNode = ptNode->GetNext(); } } } } } } return fResult; } bool muhkuh_split_testdescription::generate_description(wxXmlNode *ptNodeTestDescription) { wxArrayString astrTestNames; wxArrayString astrTestVersions; wxArrayString astrTestDescription; wxXmlNode *ptNode; size_t sizSubTestIndex; wxString strArg; bool fResult; /* Get the name and version attribute. */ astrTestNames.Add(ptNodeTestDescription->GetAttribute("name", wxEmptyString)); astrTestVersions.Add(ptNodeTestDescription->GetAttribute("version", wxEmptyString)); /* Search all subtests. */ ptNode = ptNodeTestDescription->GetChildren(); while( ptNode!=NULL ) { if( ptNode->GetType()==wxXML_ELEMENT_NODE && ptNode->GetName()=="Test" ) { astrTestNames.Add(ptNode->GetAttribute("name", wxEmptyString)); astrTestVersions.Add(ptNode->GetAttribute("version", wxEmptyString)); } ptNode = ptNode->GetNext(); } /* Write all test names and versions to the file "test_description.lua". */ astrTestDescription.Add("_G.__MUHKUH_ALL_TESTS = {\n"); for(sizSubTestIndex=0; sizSubTestIndex<astrTestNames.GetCount(); ++sizSubTestIndex) { strArg.Printf("\t[%d] = { [\"name\"]=\"%s\", [\"version\"]=\"%s\" },\n", sizSubTestIndex, astrTestNames.Item(sizSubTestIndex), astrTestVersions.Item(sizSubTestIndex)); astrTestDescription.Add(strArg); } astrTestDescription.Add("}\n"); /* Write this to a file. */ fResult = write_textfile(MUHKUH_TESTDESCRIPTION_TYP_DESCRIPTION, 0, astrTestDescription); return fResult; } bool muhkuh_split_testdescription::subtests_read_test(wxXmlNode *ptParent, size_t sizSubTestIndex) { bool fResult; wxXmlNode *ptNode; wxString strData; wxArrayString astrParameter; wxString strParameterName; wxString strParameterValue; /* Expect failure. */ fResult = false; /* Search the code node. */ ptNode = search_node(ptParent->GetChildren(), "Code"); if( ptNode!=NULL ) { /* Get the node contents. */ strData = ptNode->GetNodeContent(); fResult = write_textfile(MUHKUH_TESTDESCRIPTION_TYP_CODE, sizSubTestIndex, strData); if( fResult==true ) { /* Collect all parameters. */ ptNode = ptParent->GetChildren(); while( ptNode!=NULL ) { if( ptNode->GetType()==wxXML_ELEMENT_NODE && ptNode->GetName()=="Parameter" ) { /* Get the name parameter. */ if( ptNode->GetAttribute("name", &strParameterName)==false ) { wxLogError(_("The parameter has no name attribute.")); fResult = false; break; } /* Get the value parameter. */ strParameterValue = ptNode->GetNodeContent(); /* Combine the name and value. */ strData.Printf("_G.__MUHKUH_TEST_PARAMETER[\"%s\"] = \"%s\"\n", strParameterName, strParameterValue); astrParameter.Add(strData); } ptNode = ptNode->GetNext(); } /* Write all parameters to a file. */ fResult = write_textfile(MUHKUH_TESTDESCRIPTION_TYP_PARAMETER, sizSubTestIndex, astrParameter); } } return fResult; } wxXmlNode *muhkuh_split_testdescription::search_node(wxXmlNode *ptNode, wxString strName) { while( ptNode!=NULL ) { if( ptNode->GetType()==wxXML_ELEMENT_NODE && ptNode->GetName()==strName ) { break; } ptNode = ptNode->GetNext(); } return ptNode; } wxString muhkuh_split_testdescription::get_lua_filename(MUHKUH_TESTDESCRIPTION_TYP_T tTyp, size_t sizSubTextIndex) { wxFileName tFileName; wxString strFileName; /* Construct the name and extension part of the filename. */ switch( tTyp ) { case MUHKUH_TESTDESCRIPTION_TYP_DESCRIPTION: strFileName = "test_description.lua"; break; case MUHKUH_TESTDESCRIPTION_TYP_CODE: strFileName.Printf("test_description_%d_code.lua", sizSubTextIndex); break; case MUHKUH_TESTDESCRIPTION_TYP_PARAMETER: strFileName.Printf("test_description_%d_par.lua", sizSubTextIndex); break; } /* Construct the complete path. */ tFileName.AssignDir(m_strWorkingFolder); tFileName.SetFullName(strFileName); return tFileName.GetFullPath(); } bool muhkuh_split_testdescription::write_textfile(MUHKUH_TESTDESCRIPTION_TYP_T tTyp, size_t sizSubTextIndex, wxString strContents) { bool fResult; wxString strFileName; wxFFileOutputStream *ptOutputStream; wxTextOutputStream *ptTextOutputStream; /* Create a new file. */ strFileName = get_lua_filename(tTyp, sizSubTextIndex); ptOutputStream = new wxFFileOutputStream(strFileName, "w"); if( ptOutputStream->IsOk()!=true ) { wxLogError("Failed to create new file %s!", strFileName); fResult = false; } else { /* Create the text output stream. */ ptTextOutputStream = new wxTextOutputStream(*ptOutputStream); /* Write the complete data to the file. */ ptTextOutputStream->WriteString(strContents); delete ptTextOutputStream; ptOutputStream->Close(); fResult = true; } delete ptOutputStream; return fResult; } bool muhkuh_split_testdescription::write_textfile(MUHKUH_TESTDESCRIPTION_TYP_T tTyp, size_t sizSubTextIndex, wxArrayString &astrContents) { bool fResult; wxString strFileName; wxFFileOutputStream *ptOutputStream; wxTextOutputStream *ptTextOutputStream; size_t sizStringCnt; size_t sizStringEnd; /* Create a new file. */ strFileName = get_lua_filename(tTyp, sizSubTextIndex); ptOutputStream = new wxFFileOutputStream(strFileName, "w"); if( ptOutputStream->IsOk()!=true ) { wxLogError("Failed to create new file %s!", strFileName); fResult = false; } else { /* Create the text output stream. */ ptTextOutputStream = new wxTextOutputStream(*ptOutputStream); /* Write the complete data to the file. */ sizStringCnt = 0; sizStringEnd = astrContents.GetCount(); while( sizStringCnt<sizStringEnd ) { ptTextOutputStream->WriteString(astrContents.Item(sizStringCnt)); ++sizStringCnt; } delete ptTextOutputStream; ptOutputStream->Close(); fResult = true; } delete ptOutputStream; return fResult; }
muhkuh-sys/org.muhkuh.tools-muhkuh_gui
application/muhkuh_split_testdescription.cpp
C++
gpl-2.0
9,641
-- VirtueMart table SQL script -- This will install all the tables need to run VirtueMart -- -- Table structure for table `#__virtuemart_adminmenuentries` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_adminmenuentries` ( `id` tinyint(1) unsigned NOT NULL AUTO_INCREMENT, `module_id` tinyint(10) unsigned NOT NULL DEFAULT '0' COMMENT 'The ID of the VM Module, this Item is assigned to', `parent_id` tinyint(11) unsigned NOT NULL DEFAULT '0', `name` char(64) NOT NULL DEFAULT '0', `link` char(64) NOT NULL DEFAULT '0', `depends` char(64) NOT NULL DEFAULT '' COMMENT 'Names of the Parameters, this Item depends on', `icon_class` char(96), `ordering` int(2) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `tooltip` char(128), `view` char(32), `task` char(32), PRIMARY KEY (`id`), KEY `module_id` (`module_id`), KEY `published` (`published`), KEY `ordering` (`ordering`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='Administration Menu Items' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_calcs` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_calcs` ( `virtuemart_calc_id` smallint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(1) UNSIGNED NOT NULL DEFAULT '1' COMMENT 'Belongs to vendor', `calc_jplugin_id` int(11) NOT NULL DEFAULT '0', `calc_name` char(64) NOT NULL DEFAULT '' COMMENT 'Name of the rule', `calc_descr` char(128) NOT NULL DEFAULT '' COMMENT 'Description', `calc_kind` char(16) NOT NULL DEFAULT '' COMMENT 'Discount/Tax/Margin/Commission', `calc_value_mathop` char(8) NOT NULL DEFAULT '' COMMENT 'the mathematical operation like (+,-,+%,-%)', `calc_value` decimal(10,4) NOT NULL DEFAULT '0.0000' COMMENT 'The Amount', `calc_currency` smallint(1) UNSIGNED NOT NULL DEFAULT '0' COMMENT 'Currency of the Rule', `calc_shopper_published` tinyint(1) NOT NULL DEFAULT '0' COMMENT 'Visible for Shoppers', `calc_vendor_published` tinyint(1) NOT NULL DEFAULT '0' COMMENT 'Visible for Vendors', `publish_up` datetime NOT NULL DEFAULT '0000-00-00 00:00:00' COMMENT 'Startdate if nothing is set = permanent', `publish_down` datetime NOT NULL DEFAULT '0000-00-00 00:00:00' COMMENT 'Enddate if nothing is set = permanent', `for_override` tinyint(1) NOT NULL DEFAULT '0', `calc_params` varchar(18000), `ordering` int(2) NOT NULL DEFAULT '0', `shared` tinyint(1) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_calc_id`), KEY `i_virtuemart_vendor_id` (`virtuemart_vendor_id`), KEY `i_published` (`published`), KEY `idx_calc_kind` (`calc_kind`), KEY `i_shared` (`shared`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_calc_categories` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_calc_categories` ( `id` mediumint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_calc_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_category_id` mediumint(1) UNSIGNED NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_calc_id` (`virtuemart_calc_id`,`virtuemart_category_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 ; CREATE TABLE IF NOT EXISTS `#__virtuemart_calc_manufacturers` ( `id` mediumint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_calc_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_manufacturer_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_calc_id` (`virtuemart_calc_id`,`virtuemart_manufacturer_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_calc_shoppergroups` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_calc_shoppergroups` ( `id` mediumint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_calc_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_shoppergroup_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_calc_id` (`virtuemart_calc_id`,`virtuemart_shoppergroup_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_calc_countries` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_calc_countries` ( `id` mediumint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_calc_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_country_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_calc_id` (`virtuemart_calc_id`,`virtuemart_country_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_calc_states` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_calc_states` ( `id` mediumint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_calc_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_state_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_calc_id` (`virtuemart_calc_id`,`virtuemart_state_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_categories` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_categories` ( `virtuemart_category_id` mediumint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(1) UNSIGNED NOT NULL DEFAULT '1' COMMENT 'Belongs to vendor', `category_template` char(128), `category_layout` char(64), `category_product_layout` char(64), `products_per_row` tinyint(2), `limit_list_step` char(32), `limit_list_initial` smallint(1) UNSIGNED, `hits` int(1) unsigned NOT NULL DEFAULT '0', `metarobot` char(40) NOT NULL DEFAULT '', `metaauthor` char(64) NOT NULL DEFAULT '', `ordering` int(2) NOT NULL DEFAULT '0', `shared` tinyint(1) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_category_id`), KEY `idx_category_virtuemart_vendor_id` (`virtuemart_vendor_id`), KEY `i_published` (`published`), KEY `i_shared` (`shared`), KEY `i_ordering` (`ordering`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Product Categories are stored here' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_category_categories` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_category_categories` ( `id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `category_parent_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `category_child_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `ordering` int(2) NOT NULL DEFAULT '0', PRIMARY KEY (`id`), KEY (`category_child_id`), KEY `ordering` (`ordering`), UNIQUE KEY `i_category_parent_id` (`category_parent_id`,`category_child_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Category child-parent relation list'; -- -- Table structure for table `#__virtuemart_category_medias` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_category_medias` ( `id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_category_id` mediumint(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_media_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `ordering` int(2) NOT NULL DEFAULT '0', PRIMARY KEY (`id`), KEY `ordering` (`ordering`), UNIQUE KEY `i_virtuemart_category_id` (`virtuemart_category_id`,`virtuemart_media_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_countries` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_countries` ( `virtuemart_country_id` smallint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_worldzone_id` tinyint(11) NOT NULL DEFAULT '1', `country_name` char(64), `country_3_code` char(3), `country_2_code` char(2), `ordering` int(2) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_country_id`), KEY `idx_country_3_code` (`country_3_code`), KEY `idx_country_2_code` (`country_2_code`), KEY `ordering` (`ordering`), KEY `published` (`published`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Country records' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_coupons` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_coupons` ( `virtuemart_coupon_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `coupon_code` char(32) NOT NULL DEFAULT '', `percent_or_total` enum('percent','total') NOT NULL DEFAULT 'percent', `coupon_type` enum('gift','permanent') NOT NULL DEFAULT 'gift', `coupon_value` decimal(15,5) NOT NULL DEFAULT '0.00000', `coupon_start_date` datetime, `coupon_expiry_date` datetime, `coupon_value_valid` decimal(15,5) NOT NULL DEFAULT '0.00000', `coupon_used` varchar(200) NOT NULL DEFAULT '', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_coupon_id`), KEY `idx_coupon_code` (`coupon_code`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Used to store coupon codes' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_currencies` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_currencies` ( `virtuemart_currency_id` smallint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(1) UNSIGNED NOT NULL DEFAULT '1', `currency_name` char(64), `currency_code_2` char(2), `currency_code_3` char(3), `currency_numeric_code` int(4), `currency_exchange_rate` decimal(10,5), `currency_symbol` char(4), `currency_decimal_place` char(4), `currency_decimal_symbol` char(4), `currency_thousands` char(4), `currency_positive_style` char(64), `currency_negative_style` char(64), `ordering` int(2) NOT NULL DEFAULT '0', `shared` tinyint(1) NOT NULL DEFAULT '1', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_currency_id`), KEY `ordering` (`ordering`), KEY `published` (`published`), KEY `shared` (`shared`), KEY `virtuemart_vendor_id` (`virtuemart_vendor_id`), KEY `idx_currency_code_3` (`currency_code_3`), KEY `idx_currency_numeric_code` (`currency_numeric_code`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Used to store currencies'; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_customs` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_customs` ( `virtuemart_custom_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `custom_parent_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_vendor_id` smallint(1) NOT NULL DEFAULT '1', `custom_jplugin_id` int(11) NOT NULL DEFAULT '0', `custom_element` char(50) NOT NULL DEFAULT '', `admin_only` tinyint(1) NOT NULL DEFAULT '0' COMMENT '1:Display in admin only', `custom_title` char(255) NOT NULL DEFAULT '' COMMENT 'field title', `show_title` tinyint(1) NOT NULL DEFAULT '1', `custom_tip` char(255) NOT NULL DEFAULT '' COMMENT 'tip', `custom_value` text COMMENT 'defaut value', `custom_desc` char(255) COMMENT 'description or unit', `field_type` char(1) NOT NULL DEFAULT '0' COMMENT 'S:string,I:int,P:parent, B:bool,D:date,T:time,H:hidden', `is_list` tinyint(1) NOT NULL DEFAULT '0' COMMENT 'list of values', `is_hidden` tinyint(1) NOT NULL DEFAULT '0' COMMENT '1:hidden', `is_cart_attribute` tinyint(1) NOT NULL DEFAULT '0' COMMENT 'Add attributes to cart', `is_input` tinyint(1) NOT NULL DEFAULT '0' COMMENT 'Add input to cart', `layout_pos` char(24) COMMENT 'Layout Position', `custom_params` text, `shared` tinyint(1) NOT NULL DEFAULT '0' COMMENT 'valid for all vendors?', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `ordering` int(2) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_custom_id`), KEY `i_custom_parent_id` (`custom_parent_id`), KEY `i_virtuemart_vendor_id` (`virtuemart_vendor_id`), KEY `idx_custom_element` (`custom_element`), KEY `idx_field_type` (`field_type`), KEY `i_is_cart_attribute` (`is_cart_attribute`), KEY `i_is_input` (`is_input`), KEY `i_shared` (`shared`), KEY `i_published` (`published`), KEY `i_ordering` (`ordering`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='custom fields definition' AUTO_INCREMENT=1 ; CREATE TABLE IF NOT EXISTS `#__virtuemart_invoices` ( `virtuemart_invoice_id` INT(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(1) UNSIGNED NOT NULL DEFAULT '1', `virtuemart_order_id` int(1) UNSIGNED, `invoice_number` char(64), `order_status` char(2), `xhtml` text, `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_invoice_id`), UNIQUE KEY `idx_invoice_number` (`invoice_number`,`virtuemart_vendor_id`), KEY `idx_virtuemart_order_id` (`virtuemart_order_id`), KEY `i_virtuemart_vendor_id` (`virtuemart_vendor_id`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8 COMMENT='custom fields definition' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_manufacturers` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_manufacturers` ( `virtuemart_manufacturer_id` smallint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_manufacturercategories_id` int(11), `hits` int(11) unsigned NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_manufacturer_id`), KEY `published` (`published`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='Manufacturers are those who deliver products' AUTO_INCREMENT=1 ; -- -- Table structure for table `#__virtuemart_manufacturer_medias` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_manufacturer_medias` ( `id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_manufacturer_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_media_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `ordering` int(2) NOT NULL DEFAULT '0', PRIMARY KEY (`id`), KEY `ordering` (`ordering`), UNIQUE KEY `i_virtuemart_manufacturer_id` (`virtuemart_manufacturer_id`,`virtuemart_media_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_manufacturercategories` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_manufacturercategories` ( `virtuemart_manufacturercategories_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_manufacturercategories_id`), KEY `published` (`published`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='Manufacturers are assigned to these categories' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_medias` (was `#__virtuemart_product_files`) -- CREATE TABLE IF NOT EXISTS `#__virtuemart_medias` ( `virtuemart_media_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(1) NOT NULL DEFAULT '1', `file_title` char(126) NOT NULL DEFAULT '', `file_description` char(254) NOT NULL DEFAULT '', `file_meta` char(254) NOT NULL DEFAULT '', `file_mimetype` char(64) NOT NULL DEFAULT '', `file_type` char(32) NOT NULL DEFAULT '', `file_url` varchar(900) NOT NULL DEFAULT '', `file_url_thumb` varchar(900) NOT NULL DEFAULT '', `file_is_product_image` tinyint(1) NOT NULL DEFAULT '0', `file_is_downloadable` tinyint(1) NOT NULL DEFAULT '0', `file_is_forSale` tinyint(1) NOT NULL DEFAULT '0', `file_params` varchar(17500), `file_lang` varchar(500) NOT NULL, `shared` tinyint(1) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_media_id`), KEY `i_virtuemart_vendor_id` (`virtuemart_vendor_id`), KEY `i_published` (`published`), KEY `i_shared` (`shared`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='Additional Images and Files which are assigned to products' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_migration_oldtonew_ids` (only used for migration) -- CREATE TABLE IF NOT EXISTS `#__virtuemart_migration_oldtonew_ids` ( `id` smallint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `cats` longblob, `catsxref` blob, `manus` longblob, `mfcats` blob, `shoppergroups` longblob, `products` longblob, `products_start` int(1), `orderstates` blob, `orders` longblob, `attributes` longblob, `relatedproducts` longblob, `orders_start` int(1), PRIMARY KEY (`id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='xref table for vm1 ids to vm2 ids' ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_modules` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_modules` ( `module_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `module_name` char(255), `module_description` varchar(21000), `module_perms` char(255), `published` tinyint(1) NOT NULL DEFAULT '1', `is_admin` enum('0','1') NOT NULL DEFAULT '0', `ordering` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`module_id`), KEY `idx_module_name` (`module_name`), KEY `idx_module_ordering` (`ordering`), KEY `i_published` (`published`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='VirtueMart Core Modules, not: Joomla modules' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_orders` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_orders` ( `virtuemart_order_id` INT(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_user_id` int(1) UNSIGNED NOT NULL DEFAULT '1', `virtuemart_vendor_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `order_number` char(64), `customer_number` char(32), `order_pass` char(8), `order_total` decimal(15,5) NOT NULL DEFAULT '0.00000', `order_salesPrice` decimal(15,5) NOT NULL DEFAULT '0.00000', `order_billTaxAmount` decimal(15,5) NOT NULL DEFAULT '0.00000', `order_billTax` varchar(400), `order_billDiscountAmount` decimal(15,5) NOT NULL DEFAULT '0.00000', `order_discountAmount` decimal(15,5) NOT NULL DEFAULT '0.00000', `order_subtotal` decimal(15,5), `order_tax` decimal(10,5), `order_shipment` decimal(10,2), `order_shipment_tax` decimal(10,5), `order_payment` decimal(10,2), `order_payment_tax` decimal(10,5), `coupon_discount` decimal(12,2) NOT NULL DEFAULT '0.00', `coupon_code` char(32), `order_discount` decimal(12,2) NOT NULL DEFAULT '0.00', `order_currency` smallint(1), `order_status` char(1), `user_currency_id` smallint(1), `user_currency_rate` DECIMAL(10,5) NOT NULL DEFAULT '1.00000', `virtuemart_paymentmethod_id` mediumint(1) UNSIGNED, `virtuemart_shipmentmethod_id` mediumint(1) UNSIGNED, `customer_note` varchar(20000), `delivery_date` varchar(200), `order_language` char(7), `ip_address` char(15) NOT NULL DEFAULT '', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_order_id`), KEY `idx_orders_virtuemart_user_id` (`virtuemart_user_id`), KEY `idx_orders_virtuemart_vendor_id` (`virtuemart_vendor_id`), KEY `idx_orders_order_number` (`order_number`), KEY `idx_orders_virtuemart_paymentmethod_id` (`virtuemart_paymentmethod_id`), KEY `idx_orders_virtuemart_shipmentmethod_id` (`virtuemart_shipmentmethod_id`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8 COMMENT='Used to store all orders' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_order_histories` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_order_histories` ( `virtuemart_order_history_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_order_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `order_status_code` char(1) NOT NULL DEFAULT '0', `customer_notified` tinyint(1) NOT NULL DEFAULT '0', `comments` varchar(21000), `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_order_history_id`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8 COMMENT='Stores all actions and changes that occur to an order' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_order_items` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_order_items` ( `virtuemart_order_item_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_order_id` int(11), `virtuemart_vendor_id` smallint(11) NOT NULL DEFAULT '1', `virtuemart_product_id` int(11), `order_item_sku` char(64) NOT NULL DEFAULT '', `order_item_name` char(255) NOT NULL DEFAULT '', `product_quantity` int(11), `product_item_price` decimal(15,5), `product_priceWithoutTax` decimal(15,5), `product_tax` decimal(15,5), `product_basePriceWithTax` decimal(15,5), `product_discountedPriceWithoutTax` decimal(15,5), `product_final_price` decimal(15,5) NOT NULL DEFAULT '0.00000', `product_subtotal_discount` decimal(15,5) NOT NULL DEFAULT '0.00000', `product_subtotal_with_tax` decimal(15,5) NOT NULL DEFAULT '0.00000', `order_item_currency` INT(11), `order_status` char(1), `product_attribute` text, `delivery_date` varchar(200), `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_order_item_id`), KEY `virtuemart_product_id` (`virtuemart_product_id`), KEY `i_virtuemart_order_id` (`virtuemart_order_id`), KEY `i_virtuemart_vendor_id` (`virtuemart_vendor_id`), KEY `order_status` (`order_status`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8 COMMENT='Stores all items (products) which are part of an order' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_order_calc_rules` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_order_calc_rules` ( `virtuemart_order_calc_rule_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_calc_id` int(11), `virtuemart_order_id` int(11), `virtuemart_vendor_id` smallint(11) NOT NULL DEFAULT '1', `virtuemart_order_item_id` int(11), `calc_rule_name` char(64) NOT NULL DEFAULT '' COMMENT 'Name of the rule', `calc_kind` char(16) NOT NULL DEFAULT '' COMMENT 'Discount/Tax/Margin/Commission', `calc_mathop` char(16) NOT NULL DEFAULT '' COMMENT 'Discount/Tax/Margin/Commission', `calc_amount` decimal(15,5) NOT NULL DEFAULT '0.00000', `calc_result` decimal(15,5) NOT NULL DEFAULT '0.00000', `calc_value` decimal(15,5) NOT NULL DEFAULT '0.00000', `calc_currency` smallint(1), `calc_params` varchar(18000), `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_order_calc_rule_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='Stores all calculation rules which are part of an order' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_orderstates` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_orderstates` ( `virtuemart_orderstate_id` tinyint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(11) NOT NULL DEFAULT '1', `order_status_code` char(1) NOT NULL DEFAULT '', `order_status_name` char(64), `order_status_description` varchar(20000), `order_stock_handle` char(1) NOT NULL DEFAULT 'A', `ordering` int(2) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_orderstate_id`), KEY `idx_order_status_ordering` (`ordering`), KEY `idx_order_status_virtuemart_vendor_id` (`virtuemart_vendor_id`), KEY `i_published` (`published`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='All available order statuses' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_order_userinfos` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_order_userinfos` ( `virtuemart_order_userinfo_id` INT(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_order_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_user_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `address_type` char(2), `address_type_name` char(32), `company` char(64), `title` char(32), `last_name` char(48), `first_name` char(48), `middle_name` char(48), `phone_1` char(32), `phone_2` char(32), `fax` char(32), `address_1` char(64) NOT NULL DEFAULT '', `address_2` char(64) , `city` char(64) NOT NULL DEFAULT '', `virtuemart_state_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_country_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `zip` char(16) NOT NULL DEFAULT '', `email` char(128), `agreed` tinyint(1) NOT NULL DEFAULT '0', `tos` tinyint(1) NOT NULL DEFAULT '0', `customer_note` varchar(2500) NOT NULL DEFAULT '', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_order_userinfo_id`), KEY `i_virtuemart_order_id` (`virtuemart_order_id`), KEY `i_virtuemart_user_id` (`virtuemart_user_id`), KEY `idx_address_type` (`address_type`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8 COMMENT='Stores the BillTo and ShipTo Information at order time' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_paymentmethods` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_paymentmethods` ( `virtuemart_paymentmethod_id` mediumint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(11) NOT NULL DEFAULT '1', `payment_jplugin_id` int(11) NOT NULL DEFAULT '0', `payment_element` char(50) NOT NULL DEFAULT '', `payment_params` varchar(19000), `shared` tinyint(1) NOT NULL DEFAULT '0' COMMENT 'valide for all vendors?', `ordering` int(2) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_paymentmethod_id`), KEY `idx_payment_jplugin_id` (`payment_jplugin_id`), KEY `idx_payment_element` (payment_element,`virtuemart_vendor_id`), KEY `idx_payment_method_ordering` (`ordering`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='The payment methods of your store' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_paymentmethod_shoppergroups` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_paymentmethod_shoppergroups` ( `id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_paymentmethod_id` mediumint(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_shoppergroup_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_paymentmethod_id` (`virtuemart_paymentmethod_id`,`virtuemart_shoppergroup_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='xref table for paymentmethods to shoppergroup' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_products` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_products` ( `virtuemart_product_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(1) UNSIGNED NOT NULL DEFAULT '1', `product_parent_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `product_sku` char(64), `product_gtin` char(64), `product_mpn` char(64), `product_weight` decimal(10,4), `product_weight_uom` char(7), `product_length` decimal(10,4), `product_width` decimal(10,4), `product_height` decimal(10,4), `product_lwh_uom` char(7), `product_url` char(255), `product_in_stock` int(1) NOT NULL DEFAULT '0', `product_ordered` int(1) NOT NULL DEFAULT '0', `low_stock_notification` int(1) UNSIGNED NOT NULL DEFAULT '0', `product_available_date` datetime NOT NULL default '0000-00-00 00:00:00', `product_availability` char(32), `product_special` tinyint(1), `product_sales` int(1) UNSIGNED NOT NULL DEFAULT '0', `product_unit` varchar(8), `product_packaging` decimal(8,4) UNSIGNED, `product_params` varchar(2000), `hits` int(11) unsigned, `intnotes` varchar(18000), `metarobot` varchar(400), `metaauthor` varchar(400), `layout` char(16), `published` tinyint(1), `pordering` mediumint(2) UNSIGNED NOT NULL DEFAULT '0', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_product_id`), KEY `idx_product_virtuemart_vendor_id` (`virtuemart_vendor_id`), KEY `idx_product_product_parent_id` (`product_parent_id`), KEY `i_product_special` (`product_special`), KEY `i_published` (`published`), KEY `i_pordering` (`pordering`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='All products are stored here.' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_product_categories` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_product_categories` ( `id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_product_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_category_id` mediumint(1) UNSIGNED NOT NULL DEFAULT '0', `ordering` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_product_id` (`virtuemart_product_id`,`virtuemart_category_id`), KEY `i_ordering` (`ordering`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Maps Products to Categories'; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_product_shoppergroups` -- -- CREATE TABLE IF NOT EXISTS `#__virtuemart_product_shoppergroups` ( `id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_product_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_shoppergroup_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_product_id` (`virtuemart_product_id`,`virtuemart_shoppergroup_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Maps Products to Categories'; -- -------------------------------------------------------- -- -- Table structure `#__virtuemart_product_customfields` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_product_customfields` ( `virtuemart_customfield_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT COMMENT 'field id', `virtuemart_product_id` int(11) NOT NULL DEFAULT '0', `virtuemart_custom_id` int(11) NOT NULL DEFAULT '1' COMMENT 'custom group id', `customfield_value` text COMMENT 'field value', `customfield_price` decimal(15,6) COMMENT 'price', `disabler` INT(1) UNSIGNED NOT NULL DEFAULT '0', `override` INT(1) UNSIGNED NOT NULL DEFAULT '0', `customfield_params` text COMMENT 'Param for Plugins', `product_sku` char(64), `product_gtin` char(64), `product_mpn` char(64), `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `created_by` int(1) UNSIGNED NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(1) UNSIGNED NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(1) UNSIGNED NOT NULL DEFAULT '0', `ordering` int(2) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_customfield_id`), KEY `idx_virtuemart_product_id` (`virtuemart_product_id`), KEY `idx_virtuemart_custom_id` (`virtuemart_custom_id`), KEY `idx_published` (`published`), KEY `idx_ordering` (`ordering`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='custom fields' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_product_medias` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_product_medias` ( `id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_product_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_media_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `ordering` int(2) NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_product_id` (`virtuemart_product_id`,`virtuemart_media_id`), KEY `i_ordering` (`ordering`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_product_manufacturers` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_product_manufacturers` ( `id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_product_id` int(11), `virtuemart_manufacturer_id` smallint(1) UNSIGNED, PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_product_id` (`virtuemart_product_id`,`virtuemart_manufacturer_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Maps a product to a manufacturer'; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_product_prices` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_product_prices` ( `virtuemart_product_price_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_product_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_shoppergroup_id` int(11), `product_price` decimal(15,5), `override` tinyint(1), `product_override_price` decimal(15,5), `product_tax_id` int(11), `product_discount_id` int(11), `product_currency` smallint(1), `product_price_publish_up` datetime, `product_price_publish_down` datetime, `price_quantity_start` int(11) unsigned, `price_quantity_end` int(11) unsigned, `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_product_price_id`), KEY `i_product_id` (`virtuemart_product_id`), KEY `i_virtuemart_shoppergroup_id` (`virtuemart_shoppergroup_id`), KEY `dx_product_price_publish_up` (`product_price_publish_up`), KEY `dx_product_price_publish_down` (`product_price_publish_down`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='Holds price records for a product' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_rating_reviews` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_rating_reviews` ( `virtuemart_rating_review_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_product_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `comment` varchar(18000), `review_ok` tinyint(1) NOT NULL DEFAULT '0', `review_rates` int(1) UNSIGNED NOT NULL DEFAULT '0', `review_ratingcount` int(1) UNSIGNED NOT NULL DEFAULT '0', `review_rating` decimal(10,2) NOT NULL DEFAULT '0.00', `review_editable` tinyint(1) NOT NULL DEFAULT '1', `lastip` char(50) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_rating_review_id`), UNIQUE KEY `i_virtuemart_product_id` (`virtuemart_product_id`,`created_by`), KEY `i_published` (`published`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_ratings` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_ratings` ( `virtuemart_rating_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_product_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `rates` int(11) NOT NULL DEFAULT '0', `ratingcount` int(1) UNSIGNED NOT NULL DEFAULT '0', `rating` decimal(10,1) NOT NULL DEFAULT '0.0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_rating_id`), UNIQUE KEY `i_virtuemart_product_id` (`virtuemart_product_id`,`virtuemart_rating_id`), KEY `i_published` (`published`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Stores all ratings for a product'; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_rating_votes` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_rating_votes` ( `virtuemart_rating_vote_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_product_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `vote` int(11) NOT NULL DEFAULT '0', `lastip` char(50) NOT NULL DEFAULT '0', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_rating_vote_id`), UNIQUE KEY `i_virtuemart_product_id` (`virtuemart_product_id`,`created_by`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Stores all ratings for a product'; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_shipmentmethods` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_shipmentmethods` ( `virtuemart_shipmentmethod_id` mediumint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(11) NOT NULL DEFAULT '1', `shipment_jplugin_id` int(11) NOT NULL DEFAULT '0', `shipment_element` char(50) NOT NULL DEFAULT '', `shipment_params` varchar(19000), `ordering` int(2) NOT NULL DEFAULT '0', `shared` tinyint(1) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_shipmentmethod_id`), KEY `idx_shipment_jplugin_id` (`shipment_jplugin_id`), KEY `idx_shipment_element` (shipment_element,`virtuemart_vendor_id`), KEY `idx_shipment_method_ordering` (`ordering`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='Shipment created from the shipment plugins' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_shipmentmethods_shoppergroups` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_shipmentmethod_shoppergroups` ( `id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_shipmentmethod_id` mediumint(1) UNSIGNED, `virtuemart_shoppergroup_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_shipmentmethod_id` (`virtuemart_shipmentmethod_id`,`virtuemart_shoppergroup_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='xref table for shipment to shoppergroup' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_shoppergroups` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_shoppergroups` ( `virtuemart_shoppergroup_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(11) NOT NULL DEFAULT '1', `shopper_group_name` char(64), `shopper_group_desc` char(128), `custom_price_display` tinyint(1) NOT NULL DEFAULT '0', `price_display` blob, `default` tinyint(1) NOT NULL DEFAULT '0', `ordering` int(2) NOT NULL DEFAULT '0', `shared` tinyint(1) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_shoppergroup_id`), KEY `idx_shopper_group_virtuemart_vendor_id` (`virtuemart_vendor_id`), KEY `idx_shopper_group_name` (`shopper_group_name`), KEY `i_ordering` (`ordering`), KEY `i_shared` (`shared`), KEY `i_published` (`published`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='Shopper Groups that users can be assigned to' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_states` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_states` ( `virtuemart_state_id` smallint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(1) UNSIGNED NOT NULL DEFAULT '1', `virtuemart_country_id` smallint(1) UNSIGNED NOT NULL DEFAULT '1', `virtuemart_worldzone_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `state_name` char(64), `state_3_code` char(3), `state_2_code` char(2), `ordering` int(2) NOT NULL DEFAULT '0', `shared` tinyint(1) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_state_id`), KEY `i_virtuemart_vendor_id` (`virtuemart_vendor_id`), UNIQUE KEY `idx_state_3_code` (`virtuemart_vendor_id`,`virtuemart_country_id`,`state_3_code`), UNIQUE KEY `idx_state_2_code` (`virtuemart_vendor_id`,`virtuemart_country_id`,`state_2_code`), KEY `i_virtuemart_country_id` (`virtuemart_country_id`), KEY `i_ordering` (`ordering`), KEY `i_shared` (`shared`), KEY `i_published` (`published`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='States that are assigned to a country' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_vmusers` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_vmusers` ( `virtuemart_user_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `user_is_vendor` tinyint(1) NOT NULL DEFAULT '0', `customer_number` char(32), `virtuemart_paymentmethod_id` mediumint(1) UNSIGNED, `virtuemart_shipmentmethod_id` mediumint(1) UNSIGNED, `agreed` tinyint(1) NOT NULL DEFAULT '0', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_user_id`), KEY `i_virtuemart_vendor_id` (`virtuemart_vendor_id`), UNIQUE KEY `i_virtuemart_user_id` (`virtuemart_user_id`,`virtuemart_vendor_id`), KEY `i_user_is_vendor` (`user_is_vendor`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Holds the unique user data' ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_vmuser_shoppergroups` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_vmuser_shoppergroups` ( `id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_user_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_shoppergroup_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_user_id` (`virtuemart_user_id`,`virtuemart_shoppergroup_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='xref table for users to shopper group' ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_userfields` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_userfields` ( `virtuemart_userfield_id` smallint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(1) UNSIGNED NOT NULL DEFAULT '1', `userfield_jplugin_id` int(11) NOT NULL DEFAULT '0', `name` char(255) NOT NULL DEFAULT '', `title` char(255) NOT NULL DEFAULT '', `description` mediumtext, `type` char(70) NOT NULL DEFAULT '', `maxlength` int(11), `size` int(11), `required` tinyint(4) NOT NULL DEFAULT '0', `cols` int(11), `rows` int(11), `value` char(255), `default` char(255), `registration` tinyint(1) NOT NULL DEFAULT '0', `shipment` tinyint(1) NOT NULL DEFAULT '0', `account` tinyint(1) NOT NULL DEFAULT '1', `cart` tinyint(1) NOT NULL DEFAULT '0', `readonly` tinyint(1) NOT NULL DEFAULT '0', `calculated` tinyint(1) NOT NULL DEFAULT '0', `sys` tinyint(4) NOT NULL DEFAULT '0', `userfield_params` varchar(17500) NOT NULL DEFAULT '', `ordering` int(2) NOT NULL DEFAULT '0', `shared` tinyint(1) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_userfield_id`), KEY `i_virtuemart_vendor_id` (`virtuemart_vendor_id`), KEY `i_ordering` (`ordering`), KEY `i_shared` (`shared`), KEY `i_published` (`published`), KEY `i_account` (`account`), KEY `i_shipment` (`shipment`), KEY `i_cart` (`cart`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='Holds the fields for the user information' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_userfield_values` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_userfield_values` ( `virtuemart_userfield_value_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_userfield_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `fieldtitle` char(255) NOT NULL DEFAULT '', `fieldvalue` char(255) NOT NULL DEFAULT '', `sys` tinyint(4) NOT NULL DEFAULT '0', `ordering` int(2) NOT NULL DEFAULT '0', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_userfield_value_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='Holds the different values for dropdown and radio lists' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_userinfos` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_userinfos` ( `virtuemart_userinfo_id` int(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_user_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `address_type` char(2) NOT NULL DEFAULT '', `address_type_name` char(32) NOT NULL DEFAULT '', `name` char(64), `company` char(64), `title` char(32), `last_name` char(48), `first_name` char(48), `middle_name` char(48), `phone_1` char(32), `phone_2` char(32), `fax` char(32), `address_1` char(64) NOT NULL DEFAULT '', `address_2` char(64), `city` char(64) NOT NULL DEFAULT '', `virtuemart_state_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_country_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `zip` char(32) NOT NULL DEFAULT '', `agreed` tinyint(1) NOT NULL DEFAULT '0', `tos` tinyint(1) NOT NULL DEFAULT '0', `customer_note` varchar(2500) NOT NULL DEFAULT '', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_userinfo_id`), KEY `idx_userinfo_virtuemart_user_id` (`virtuemart_userinfo_id`,`virtuemart_user_id`), KEY `address_type` (`address_type`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 COMMENT='Customer Information, BT = BillTo and ST = ShipTo'; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_vendors` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_vendors` ( `virtuemart_vendor_id` smallint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `vendor_name` char(64), `vendor_currency` int(11), `vendor_accepted_currencies` varchar(1536) NOT NULL DEFAULT '', `vendor_params` varchar(17000), `metarobot` char(20), `metaauthor` char(64), `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_vendor_id`), KEY `idx_vendor_name` (`vendor_name`) -- KEY `idx_vendor_category_id` (`vendor_category_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='Vendors manage their products in your store' AUTO_INCREMENT=1 ; -- -- Table structure for table `#__virtuemart_vendor_medias` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_vendor_medias` ( `id` smallint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_media_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `ordering` int(2) NOT NULL DEFAULT '0', PRIMARY KEY (`id`), UNIQUE KEY `i_virtuemart_vendor_id` (`virtuemart_vendor_id`,`virtuemart_media_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_waitingusers` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_waitingusers` ( `virtuemart_waitinguser_id` INT(11) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_product_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `virtuemart_user_id` int(1) UNSIGNED NOT NULL DEFAULT '0', `notify_email` char(150) NOT NULL DEFAULT '', `notified` tinyint(1) NOT NULL DEFAULT '0', `notify_date` timestamp NOT NULL DEFAULT CURRENT_TIMESTAMP ON UPDATE CURRENT_TIMESTAMP, `ordering` int(2) NOT NULL DEFAULT '0', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_waitinguser_id`), KEY `virtuemart_product_id` (`virtuemart_product_id`), KEY `notify_email` (`notify_email`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8 COMMENT='Stores notifications, users waiting f. products out of stock' AUTO_INCREMENT=1 ; -- -------------------------------------------------------- -- -- Table structure for table `#__virtuemart_worldzones` -- CREATE TABLE IF NOT EXISTS `#__virtuemart_worldzones` ( `virtuemart_worldzone_id` smallint(1) UNSIGNED NOT NULL AUTO_INCREMENT, `virtuemart_vendor_id` smallint(1), `zone_name` char(255), `zone_cost` decimal(10,2), `zone_limit` decimal(10,2), `zone_description` varchar(18000), `zone_tax_rate` int(1) UNSIGNED NOT NULL DEFAULT '0', `ordering` int(2) NOT NULL DEFAULT '0', `shared` tinyint(1) NOT NULL DEFAULT '0', `published` tinyint(1) NOT NULL DEFAULT '1', `created_on` datetime NOT NULL default '0000-00-00 00:00:00', `created_by` int(11) NOT NULL DEFAULT '0', `modified_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `modified_by` int(11) NOT NULL DEFAULT '0', `locked_on` datetime NOT NULL DEFAULT '0000-00-00 00:00:00', `locked_by` int(11) NOT NULL DEFAULT '0', PRIMARY KEY (`virtuemart_worldzone_id`), KEY `i_virtuemart_vendor_id` (`virtuemart_vendor_id`) ) ENGINE=MyISAM DEFAULT CHARSET=utf8 COMMENT='The Zones managed by the Zone Shipment Module' AUTO_INCREMENT=1 ;
Jbouska419/craftsman
administrator/components/com_virtuemart/install/install.sql
SQL
gpl-2.0
57,936
#------------------------------------------------------------------------------- # Name: module1 # Purpose: # # Author: Eli # # Created: 06/04/2014 # Copyright: (c) Eli 2014 # Licence: <your licence> #------------------------------------------------------------------------------- def main(): pass if __name__ == '__main__': main() import sys #This script filters a data file by id's listed one per line in another file ids = open("C:/rnaseq/mirna_data/clusters/10rep_redo_deseq-edger/DEseq2_1cpm3redo_nopara2_logFCall.txt", "r") #Take header from ID file & initialize empty dict head_ids = ids.readline().strip("\n") idlist1 = {} #id_count = 0 #Make dict of ID's (key) & selected variables/annotations (values) for line in ids: name = line.strip('\n').split('\t')[0] #name = name[4:] #if len(name.split('-')) > 3: # name = '-'.join(name.split('-')[1:]) #arm = name.split('-')[-1] #name = '-'.join(['-'.join(name.split('-')[0:2]), arm]) name = name.strip('cin-') #print name #name = name[-5:] #values = '\t'.join(line.strip('\n').split('\t')[1:3]) values = '\t'.join(line.strip('\n').split('\t')[1:4]) #if "ENSCINP" in values: # values2 = values[7:] # values = "ENSCINT" + values2 #values = '\t'.join(line.strip('\n').split('\t')[2:]) #values = values[0:-3] if name in idlist1 and len(name) > 0: if values in idlist1[name]: continue else: idlist1[name].append(values) elif len(name) > 0: idlist1[name] = [values] #id_count+=1 #if id_count%1000==0: # print id_count ids.close #Debugging code below: #print 'idlist1:', len(idlist1) #sorted(idlist1) #print idlist1 idlist1 = ['miR-216'] data = open("C:/rnaseq/coexpression/mirna-mrna/logfc_pearson/1cpm3_5rpkm3_redo2_edger_logfcValues_pearson_targetscan_deseq2logfc_mirs2.txt", "r") #Output merged header & initialize retrieved list + row counter #sys.stdout.write("LogFC.consensus" + '\t' + data.readline()) #sys.stdout.write("LogFC.consensus" + '\t' + '\t'.join(data.readline().split('\t')[0:3]) + '\n') #sys.stdout.write(data.readline()) #data.readline() matched = 0 idlist2 = {} out = 0 #Match ID's between lists and return associated variables for line in data: #print line name = line.strip('\n').split('\t')[6] #print name #name = name.split('|')[3].split('.')[0] # for first ID from BLAST target #name = name[0:7] #if name[-1].isalpha(): # name = name[0:-1] #print name #variables = line.strip('\n').split('\t')[5,9,10] #idlist2[name] = line.split('\t')[1] descr = line.strip('\n').split('\t')[1] #if "," in descr: # descr = descr.split(',')[0] #name = line[1:20] # for trimmed encin gene name #kh = '.'.join(line.split('\t')[1].split(':')[1].split('.')[0:4]) #Loop through input dict ID's and search for "name" in associated variables #for item in idlist1: #Loop through keys (refseq) if name in idlist1: #match primary ID's #for item in idlist1[name].split(' '): sys.stdout.write('\t'.join(idlist1[0]) + '\t' + line) #EXCHANGE ID'S BUT KEEP REST OF LINE/DESCRIPTION # sys.stdout.write(descr + '\t' + '\t'.join(idlist1[name]) + '\n') #else: # sys.stdout.write(descr + '\t' + name + '\n') #print idlist1[name] #sys.stdout.write(line.strip('\n') + '\t' + '\t'.join(idlist1[name]) + '\n') #continue #matched +=1 else: sys.stdout.write(line) #if name in idlist1[item]: #Check for each ID in the name variable # idlist2[name] = variables # values = idlist1[item] # stop = 1 #while stop <= len(values): # if descr in idlist1[name]: # sys.stdout.write(line) # out+=1 #print out #Return items in matched list (idlist2) using associations from idlist1 #for mir in idlist1: # if mir in idlist2: # sys.stdout.write(mir + '\t' + '\t'.join(idlist2[mir]) + '\n') # for mrna in idlist1[mir]: # if mrna in idlist2: # sys.stdout.write(mrna+ '\t' + '\t'.join(idlist2[mrna]) + '\n') #if len(idlist1[name]) > 1: # for value in idlist1[name]: #Print all values on separate lines # sys.stdout.write(value + '\t' + line) #sys.stdout.write(descr + '\t' + value + '\t' + name + '\t' + '\t'.join(variables) + '\n') # sys.stdout.write(value + '\t' + '\t'.join(line.split('\t')[0:])) #sys.stdout.write(value + '\t' + '\t'.join(line.split('\t')[0:3]) + '\n') # out+=1 #else: # sys.stdout.write('\t'.join(idlist1[name]) + '\t' + line) #sys.stdout.write(descr + '\t' + ".\t".join(idlist1[name]) + '\t' + name + '\t' + '\t'.join(variables) + '\n') #print idlist1[name] # sys.stdout.write(('\t'.join(idlist1[name]) + '\t' + '\t'.join(line.split('\t')[0:]))) #sys.stdout.write(name + '\t' + '\t'.join(idlist1[name]) + '\t' + '\t'.join(line.split('\t')[2:])) # out+=1 #print matched, out #print gene #print idlist1[item] # sys.stdout.write(value + "\t" + name + '\t' + line)#'\t' + '\t'.join(line.split('\t')[2:])) # stop+=1 #continue #if name in idlist1: # if descr in idlist1[name]: # sys.stdout.write(line) # descr = idlist1[name] # sys.stdout.write('\t'.join(idlist1[name]) + '\t' + '\t'.join(line.split('\t')[2:])) #sys.stdout.write('\t'.join(line.split('\t')[0:2]) + '\t' + descr + '\n') #del idlist1[name] #else: # pass #sys.stdout.write(line + '\n') #if name in idlist2: # pass #else: #idlist2.append(name) #idlist1.remove(name) #print line #count+=1 #Code for checking remaining values in ID list #for item in idlist1: # print "bakow!" # sys.stdout.write(item + '\t' + idlist2[item] + '\t' + idlist1[item] + '\n') #else: # print line.split('\t')[0] #print len(idlist1), len(idlist2) #print len(idlist1)-len(idlist2) #print len(idlist1) #sorted(idlist2) #print idlist1 #for item in idlist2: # if item in idlist1: # idlist1.remove(item) #print 'idlist1-idlist2', len(idlist1) #for item in idlist1: # print item #cross check input and output lists #idlist3= [] #for thing in idlist1: # if thing in idlist2: # pass # else: # idlist3.append(thing) #print len(idlist3) #print len(idlist4) #idlist4 = [x for x in idlist1 if x not in idlist2]
ejspina/Gene_expression_tools
Python/FilterByID_dict_parse.py
Python
gpl-2.0
7,098
package org.mo.jfa.face.database.connector; import org.mo.web.core.container.AContainer; import org.mo.web.core.webform.IFormPage; import org.mo.web.protocol.context.IWebContext; public interface IConnectorAction { String catalog(IWebContext context, @AContainer(name = IFormPage.Page) FConnectorPage page); String list(IWebContext context, @AContainer(name = IFormPage.Page) FConnectorPage page); String sort(IWebContext context, @AContainer(name = IFormPage.Page) FConnectorPage page); String insert(IWebContext context, @AContainer(name = IFormPage.Page) FConnectorPage page); String update(IWebContext context, @AContainer(name = IFormPage.Page) FConnectorPage page); String delete(IWebContext context, @AContainer(name = IFormPage.Page) FConnectorPage page); }
favedit/MoPlatform
mo-4-web/src/web-face/org/mo/jfa/face/database/connector/IConnectorAction.java
Java
gpl-2.0
890
<?php /* * * Swift Page Builder - Default Shortcodes * ------------------------------------------------ * Swift Framework * Copyright Swift Ideas 2016 - http://www.swiftideas.com * */ /* TEXT BLOCK ASSET ================================================== */ class SwiftPageBuilderShortcode_spb_text_block extends SwiftPageBuilderShortcode { public function content( $atts, $content = null ) { $title = $el_class = $width = $el_position = $inline_style = $form_content = $custom_css = $bk_image_global = ''; extract( shortcode_atts( array( 'title' => '', 'icon' => '', 'padding_vertical' => '0', 'padding_horizontal' => '0', 'animation' => '', 'animation_delay' => '', 'el_class' => '', 'el_position' => '', 'form_content' => '', 'width' => '1/2', 'custom_css' => '', 'bk_image_global' => '', ), $atts ) ); if ( $form_content != '' ){ $content = html_entity_decode($form_content); } $output = ''; $el_class = $this->getExtraClass( $el_class ); $width = spb_translateColumnWidthToSpan( $width ); $el_class .= ' spb_text_column'; if( $custom_css != "" ){ $inline_style .= $custom_css; $img_url = wp_get_attachment_image_src( $bk_image_global, 'full' ); if( isset( $img_url ) && $img_url[0] != "" ) { $inline_style .= 'background-image: url(' . $img_url[0] . ');'; } }else{ if ( $padding_vertical != "" ) { $inline_style .= 'padding-top:' . $padding_vertical . '%;padding-bottom:' . $padding_vertical . '%;'; } if ( $padding_horizontal != "" ) { $inline_style .= 'padding-left:' . $padding_horizontal . '%;padding-right:' . $padding_horizontal . '%;'; } } $icon_output = ""; if ( $icon ) { $icon_output = '<i class="' . $icon . '"></i>'; } if ( $animation != "" && $animation != "none" ) { $output .= "\n\t" . '<div class="spb_content_element sf-animation ' . $width . $el_class . '" data-animation="' . $animation . '" data-delay="' . $animation_delay . '">'; } else { $output .= "\n\t" . '<div class="spb_content_element ' . $width . $el_class . '">'; } $output .= "\n\t\t" . '<div class="spb-asset-content" style="' . $inline_style . '">'; if ( $icon_output != "" ) { $output .= ( $title != '' ) ? "\n\t\t\t" . '<div class="title-wrap"><h3 class="spb-heading spb-icon-heading"><span>' . $icon_output . '' . $title . '</span></h3></div>' : ''; } else { $output .= ( $title != '' ) ? "\n\t\t\t" . $this->spb_title( $title, 'spb-text-heading' ) : ''; } $output .= "\n\t\t\t" . do_shortcode( $content ); $output .= "\n\t\t" . '</div>'; $output .= "\n\t" . '</div> ' . $this->endBlockComment( $width ); $output = $this->startRow( $el_position ) . $output . $this->endRow( $el_position ); return $output; } } SPBMap::map( 'spb_text_block', array( "name" => __( "Text Block", 'swift-framework-plugin' ), "base" => "spb_text_block", "class" => "spb_tab_media", "icon" => "icon-text-block", "wrapper_class" => "clearfix", "controls" => "full", "params" => array( array( "type" => "textfield", "holder" => "div", "heading" => __( "Widget title", 'swift-framework-plugin' ), "param_name" => "title", "value" => "", "description" => __( "Heading text. Leave it empty if not needed.", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Title icon", 'swift-framework-plugin' ), "param_name" => "icon", "value" => "", "description" => __( "Icon to the left of the title text. This is the class name for the icon, e.g. fa-cloud", 'swift-framework-plugin' ) ), array( "type" => "textarea_html", "holder" => "div", "class" => "", "heading" => __( "Text", 'swift-framework-plugin' ), "param_name" => "content", "value" => '', //"value" => __("<p>This is a text block. Click the edit button to change this text.</p>", 'swift-framework-plugin'), "description" => __( "Enter your content.", 'swift-framework-plugin' ) ), array( "type" => "section_tab", "param_name" => "animation_options_tab", "heading" => __( "Animation", 'swift-framework-plugin' ), ), array( "type" => "dropdown", "heading" => __( "Intro Animation", 'swift-framework-plugin' ), "param_name" => "animation", "value" => spb_animations_list(), "description" => __( "Select an intro animation for the text block that will show it when it appears within the viewport.", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Animation Delay", 'swift-framework-plugin' ), "param_name" => "animation_delay", "value" => "0", "description" => __( "If you wish to add a delay to the animation, then you can set it here (ms).", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Data Form Content", 'swift-framework-plugin' ), "param_name" => "form_content", "value" => "", "description" => __( "This is a hidden field that is used to save the content when using forms inside the content.", 'swift-framework-plugin' ) ) ) ) ); /* BOXED CONTENT ASSET ================================================== */ class SwiftPageBuilderShortcode_spb_boxed_content extends SwiftPageBuilderShortcode { public function content( $atts, $content = null ) { $title = $type = $bg_style = $inline_style = $custom_bg_colour = $custom_text_colour = $padding_vertical = $padding_horizontal = $el_class = $width = $el_position = ''; extract( shortcode_atts( array( 'title' => '', 'type' => '', 'custom_bg_colour' => '', 'custom_text_colour' => '', 'box_link' => '', 'box_link_target' => '_self', 'padding_vertical' => '0', 'padding_horizontal' => '0', 'el_class' => '', 'el_position' => '', 'width' => '1/2' ), $atts ) ); $output = ''; $el_class = $this->getExtraClass( $el_class ); $width = spb_translateColumnWidthToSpan( $width ); if ( $custom_bg_colour != "" ) { $bg_style .= 'background: ' . $custom_bg_colour . '!important;'; } if ( $custom_text_colour != "" ) { $inline_style .= 'color: ' . $custom_text_colour . '!important;'; } if ( $padding_vertical != "" ) { $inline_style .= 'padding-top:' . $padding_vertical . '%;padding-bottom:' . $padding_vertical . '%;'; } if ( $padding_horizontal != "" ) { $inline_style .= 'padding-left:' . $padding_horizontal . '%;padding-right:' . $padding_horizontal . '%;'; } $output .= "\n\t" . '<div class="spb_content_element spb_box_content ' . $width . $el_class . '">'; $output .= ( $title != '' ) ? "\n\t\t\t" . $this->spb_title( $title, '' ) : ''; $output .= "\n\t" . '<div class="spb-bg-color-wrap ' . $type . '" style="' . $bg_style . '">'; $output .= "\n\t\t" . '<div class="spb-asset-content">'; if ( $box_link != "" ) { $output .= '<a href="' . $box_link . '" target="' . $box_link_target . '" class="box-link"></a>'; } $output .= "\n\t\t"; if ( $inline_style != "" ) { $output .= '<div class="box-content-wrap" style="' . $inline_style . '">' . do_shortcode( $content ) . '</div>'; } else { $output .= '<div class="box-content-wrap">' . do_shortcode( $content ) . '</div>'; } $output .= "\n\t\t" . '</div>'; $output .= "\n\t\t" . '</div>'; $output .= "\n\t" . '</div> ' . $this->endBlockComment( $width ); $output = $this->startRow( $el_position ) . $output . $this->endRow( $el_position ); return $output; } } $target_arr = array( __( "Same window", 'swift-framework-plugin' ) => "_self", __( "New window", 'swift-framework-plugin' ) => "_blank" ); SPBMap::map( 'spb_boxed_content', array( "name" => __( "Boxed Content", 'swift-framework-plugin' ), "base" => "spb_boxed_content", "class" => "spb_tab_media", "icon" => "icon-boxed-content", "wrapper_class" => "clearfix", "controls" => "full", "params" => array( array( "type" => "textfield", "holder" => "div", "heading" => __( "Widget title", 'swift-framework-plugin' ), "param_name" => "title", "value" => "", "description" => __( "Heading text. Leave it empty if not needed.", 'swift-framework-plugin' ) ), array( "type" => "textarea_html", "holder" => "div", "class" => "", "heading" => __( "Text", 'swift-framework-plugin' ), "param_name" => "content", "value" => __( "<p>This is a boxed content block. Click the edit button to edit this text.</p>", 'swift-framework-plugin' ), "description" => __( "Enter your content.", 'swift-framework-plugin' ) ), array( "type" => "dropdown", "heading" => __( "Box type", 'swift-framework-plugin' ), "param_name" => "type", "value" => array( __( 'Coloured', 'swift-framework-plugin' ) => "coloured", __( 'White with stroke', 'swift-framework-plugin' ) => "whitestroke" ), "description" => __( "Choose the surrounding box type for this content", 'swift-framework-plugin' ) ), array( "type" => "colorpicker", "heading" => __( "Background color", 'swift-framework-plugin' ), "param_name" => "custom_bg_colour", "value" => "", "description" => __( "Provide a background colour here. If blank, your colour customisaer settings will be used.", 'swift-framework-plugin' ) ), array( "type" => "colorpicker", "heading" => __( "Text colour", 'swift-framework-plugin' ), "param_name" => "custom_text_colour", "value" => "", "description" => __( "Provide a text colour here. If blank, your colour customisaer settings will be used.", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Overlay Link", 'swift-framework-plugin' ), "param_name" => "box_link", "value" => "", "description" => __( "Optionally provide a link here. This will overlay the boxed content and make the asset a whole clickable link.", 'swift-framework-plugin' ) ), array( "type" => "dropdown", "heading" => __( "Overlay Link Target", 'swift-framework-plugin' ), "param_name" => "box_link_target", "value" => $target_arr ), array( "type" => "uislider", "heading" => __( "Padding - Vertical", 'swift-framework-plugin' ), "param_name" => "padding_vertical", "value" => "0", "step" => "1", "min" => "0", "max" => "20", "description" => __( "Adjust the vertical padding for the text block (percentage).", 'swift-framework-plugin' ) ), array( "type" => "uislider", "heading" => __( "Padding - Horizontal", 'swift-framework-plugin' ), "param_name" => "padding_horizontal", "value" => "0", "step" => "1", "min" => "0", "max" => "20", "description" => __( "Adjust the horizontal padding for the text block (percentage).", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Extra class", 'swift-framework-plugin' ), "param_name" => "el_class", "value" => "", "description" => __( "If you wish to style this particular content element differently, then use this field to add a class name and then refer to it in your css file.", 'swift-framework-plugin' ) ) ) ) ); /* DIVIDER ASSET ================================================== */ class SwiftPageBuilderShortcode_spb_divider extends SwiftPageBuilderShortcode { protected function content( $atts, $content = null ) { $with_line = $fullwidth = $type = $width = $el_class = $text = ''; extract( shortcode_atts( array( 'with_line' => '', 'type' => '', 'heading_text' => '', 'top_margin' => '0px', 'bottom_margin' => '30px', 'fullwidth' => '', 'text' => '', 'width' => '1/1', 'el_class' => '', 'el_position' => '' ), $atts ) ); $width = spb_translateColumnWidthToSpan( $width ); $up_icon = apply_filters( 'sf_up_icon' , '<i class="ss-up"></i>' ); $style = "margin-top: " . $top_margin . "; margin-bottom: " . $bottom_margin . ";"; $output = ''; $output .= '<div class="divider-wrap ' . $width . '">'; if ( $type == "heading" ) { $output .= '<div class="spb_divider ' . $el_class . '" style="' . $style . '">'; $output .= '<h3 class="divider-heading">' . $heading_text . '</h3>'; $output .= '</div>' . $this->endBlockComment( 'divider' ) . "\n"; } else { $output .= '<div class="spb_divider ' . $type . ' spb_content_element ' . $el_class . '" style="' . $style . '">'; if ( $type == "go_to_top" ) { $output .= '<a class="animate-top" href="#">' . $text . '</a>'; } else if ( $type == "go_to_top_icon1" ) { $output .= '<a class="animate-top" href="#">' . $up_icon . '</a>'; } else if ( $type == "go_to_top_icon2" ) { $output .= '<a class="animate-top" href="#">' . $text . $up_icon . '</a>'; } $output .= '</div>' . $this->endBlockComment( 'divider' ) . "\n"; } $output .= '</div>'; if ( $fullwidth == "yes" && $width == "col-sm-12" ) { $output = $this->startRow( $el_position, '', true ) . $output . $this->endRow( $el_position, '', true ); } else { $output = $this->startRow( $el_position ) . $output . $this->endRow( $el_position ); } return $output; } } SPBMap::map( 'spb_divider', array( "name" => __( "Divider", 'swift-framework-plugin' ), "base" => "spb_divider", "class" => "spb_divider", 'icon' => 'icon-divider', "controls" => '', "params" => array( array( "type" => "dropdown", "heading" => __( "Divider type", 'swift-framework-plugin' ), "param_name" => "type", "value" => array( __( 'Standard', 'swift-framework-plugin' ) => "standard", __( 'Thin', 'swift-framework-plugin' ) => "thin", __( 'Dotted', 'swift-framework-plugin' ) => "dotted", __( 'Heading', 'swift-framework-plugin' ) => "heading", __( 'Go to top (text)', 'swift-framework-plugin' ) => "go_to_top", __( 'Go to top (Icon 1)', 'swift-framework-plugin' ) => "go_to_top_icon1", __( 'Go to top (Icon 2)', 'swift-framework-plugin' ) => "go_to_top_icon2" ), "description" => __( "Select divider type.", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Divider Heading Text", 'swift-framework-plugin' ), "param_name" => "heading_text", "value" => '', "description" => __( "The text for the the 'Heading' divider type.", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Go to top text", 'swift-framework-plugin' ), "param_name" => "text", "value" => __( "Go to top", 'swift-framework-plugin' ), "required" => array("blog_type", "or", "go_to_top,go_to_top_icon1,go_to_top_icon2"), "description" => __( "The text for the 'Go to top (text)' divider type.", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Top Margin", 'swift-framework-plugin' ), "param_name" => "top_margin", "value" => __( "0px", 'swift-framework-plugin' ), "description" => __( "Set the margin above the divider (include px).", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Bottom Margin", 'swift-framework-plugin' ), "param_name" => "bottom_margin", "value" => __( "30px", 'swift-framework-plugin' ), "description" => __( "Set the margin below the divider (include px).", 'swift-framework-plugin' ) ), array( "type" => "buttonset", "heading" => __( "Full width", 'swift-framework-plugin' ), "param_name" => "fullwidth", "value" => array( __( 'No', 'swift-framework-plugin' ) => "no", __( 'Yes', 'swift-framework-plugin' ) => "yes" ), "buttonset_on" => "yes", "description" => __( "Select yes if you'd like the divider to be full width (only to be used with no sidebars, and with Standard/Thin/Dotted divider types).", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Extra class", 'swift-framework-plugin' ), "param_name" => "el_class", "value" => "", "description" => __( "If you wish to style this particular content element differently, then use this field to add a class name and then refer to it in your css file.", 'swift-framework-plugin' ) ) ), "js_callback" => array( "init" => "spbTextSeparatorInitCallBack" ) ) ); /* BLANK SPACER ASSET ================================================== */ class SwiftPageBuilderShortcode_spb_blank_spacer extends SwiftPageBuilderShortcode { protected function content( $atts, $content = null ) { $height = $el_class = ''; extract( shortcode_atts( array( 'height' => '', 'width' => '', 'responsive_vis' => '', 'el_position' => '', 'el_class' => '', ), $atts ) ); $responsive_vis = str_replace( "_", " ", $responsive_vis ); $width = spb_translateColumnWidthToSpan( $width ); $el_class = $this->getExtraClass( $el_class ) . ' ' . $responsive_vis; $output = ''; $output .= '<div class="blank_spacer ' . $width . ' ' . $el_class . '" style="height:' . $height . ';">'; $output .= '</div>' . $this->endBlockComment( 'divider' ) . "\n"; $output = $this->startRow( $el_position ) . $output . $this->endRow( $el_position ); return $output; } } SPBMap::map( 'spb_blank_spacer', array( "name" => __( "Blank Spacer", 'swift-framework-plugin' ), "base" => "spb_blank_spacer", "class" => "spb_blank_spacer", 'icon' => 'icon-blank-spacer', "params" => array( array( "type" => "textfield", "heading" => __( "Height", 'swift-framework-plugin' ), "param_name" => "height", "value" => __( "30px", 'swift-framework-plugin' ), "description" => __( "The height of the spacer, in px (required).", 'swift-framework-plugin' ) ), array( "type" => "dropdown", "heading" => __( "Responsive Visiblity", 'swift-framework-plugin' ), "param_name" => "responsive_vis", "holder" => 'indicator', "value" => spb_responsive_vis_list(), "description" => __( "Set the responsive visiblity for the row, if you would only like it to display on certain display sizes.", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Extra class", 'swift-framework-plugin' ), "param_name" => "el_class", "value" => "", "description" => __( "If you wish to style this particular content element differently, then use this field to add a class name and then refer to it in your css file.", 'swift-framework-plugin' ) ) ), ) ); /* MESSAGE BOX ASSET ================================================== */ class SwiftPageBuilderShortcode_spb_message extends SwiftPageBuilderShortcode { protected function content( $atts, $content = null ) { $color = ''; extract( shortcode_atts( array( 'color' => 'alert-info', 'el_position' => '' ), $atts ) ); $output = ''; if ( $color == "alert-block" ) { $color = ""; } $width = spb_translateColumnWidthToSpan( "1/1" ); $output .= '<div class="' . $width . '"><div class="alert spb_content_element ' . $color . '"><div class="messagebox_text">' . spb_format_content( $content ) . '</div></div></div>' . $this->endBlockComment( 'alert box' ) . "\n"; //$output .= '<div class="spb_messagebox message '.$color.'"><div class="messagebox_text">'.spb_format_content($content).'</div></div>'; $output = $this->startRow( $el_position ) . $output . $this->endRow( $el_position ); return $output; } } SPBMap::map( 'spb_message', array( "name" => __( "Message Box", 'swift-framework-plugin' ), "base" => "spb_message", "class" => "spb_messagebox spb_controls_top_right spb_tab_ui", "icon" => "icon-message-box", "wrapper_class" => "alert", "controls" => "edit_popup_delete", "params" => array( array( "type" => "dropdown", "heading" => __( "Message box type", 'swift-framework-plugin' ), "param_name" => "color", "value" => array( __( 'Informational', 'swift-framework-plugin' ) => "alert-info", __( 'Warning', 'swift-framework-plugin' ) => "alert-block", __( 'Success', 'swift-framework-plugin' ) => "alert-success", __( 'Error', 'swift-framework-plugin' ) => "alert-error" ), "description" => __( "Select message type.", 'swift-framework-plugin' ) ), array( "type" => "textarea_html", "holder" => "div", "class" => "messagebox_text", "heading" => __( "Message text", 'swift-framework-plugin' ), "param_name" => "content", "value" => __( "<p>This is a message box. Click the edit button to edit this text.</p>", 'swift-framework-plugin' ), "description" => __( "Message text.", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Extra class", 'swift-framework-plugin' ), "param_name" => "el_class", "value" => "", "description" => __( "If you wish to style this particular content element differently, then use this field to add a class name and then refer to it in your css file.", 'swift-framework-plugin' ) ) ), "js_callback" => array( "init" => "spbMessageInitCallBack" ) ) ); /* TOGGLE ASSET ================================================== */ class SwiftPageBuilderShortcode_spb_toggle extends SwiftPageBuilderShortcode { protected function content( $atts, $content = null ) { $title = $el_class = $open = null; extract( shortcode_atts( array( 'title' => __( "Click to toggle", 'swift-framework-plugin' ), 'el_class' => '', 'open' => 'false', 'el_position' => '', 'width' => '1/1' ), $atts ) ); $output = ''; $width = spb_translateColumnWidthToSpan( $width ); $el_class = $this->getExtraClass( $el_class ); $open = ( $open == 'true' ) ? ' spb_toggle_title_active' : ''; $el_class .= ( $open == ' spb_toggle_title_active' ) ? ' spb_toggle_open' : ''; $output .= '<div class="toggle-wrap ' . $width . '">'; $output .= '<h4 class="spb_toggle' . $open . '">' . $title . '</h4><div class="spb_toggle_content' . $el_class . '">' . spb_format_content( $content ) . '</div>' . $this->endBlockComment( 'toggle' ) . "\n"; $output .= '</div>'; $output = $this->startRow( $el_position ) . $output . $this->endRow( $el_position ); return $output; } } SPBMap::map( 'spb_toggle', array( "name" => __( "Toggle", 'swift-framework-plugin' ), "base" => "spb_toggle", "class" => "spb_faq spb_tab_ui", "icon" => "icon-toggle", "params" => array( array( "type" => "textfield", "class" => "toggle_title", "heading" => __( "Toggle title", 'swift-framework-plugin' ), "param_name" => "title", "value" => __( "Toggle title", 'swift-framework-plugin' ), "description" => __( "Toggle block title.", 'swift-framework-plugin' ) ), array( "type" => "textarea_html", "holder" => "div", "class" => "toggle_content", "heading" => __( "Toggle content", 'swift-framework-plugin' ), "param_name" => "content", "value" => __( "<p>The toggle content goes here, click the edit button to change this text.</p>", 'swift-framework-plugin' ), "description" => __( "Toggle block content.", 'swift-framework-plugin' ) ), array( "type" => "dropdown", "heading" => __( "Default state", 'swift-framework-plugin' ), "param_name" => "open", "value" => array( __( "Closed", 'swift-framework-plugin' ) => "false", __( "Open", 'swift-framework-plugin' ) => "true" ), "description" => __( "Select this if you want toggle to be open by default.", 'swift-framework-plugin' ) ), array( "type" => "textfield", "heading" => __( "Extra class", 'swift-framework-plugin' ), "param_name" => "el_class", "value" => "", "description" => __( "If you wish to style this particular content element differently, then use this field to add a class name and then refer to it in your css file.", 'swift-framework-plugin' ) ) ) ) );
tuffon/imaginewithus
wp-content/plugins/swift-framework/includes/page-builder/shortcodes/default.php
PHP
gpl-2.0
31,195
/* * ************************************************************************************* * Copyright (C) 2008 EsperTech, Inc. All rights reserved. * * http://esper.codehaus.org * * http://www.espertech.com * * ---------------------------------------------------------------------------------- * * The software in this package is published under the terms of the GPL license * * a copy of which has been included with this distribution in the license.txt file. * * ************************************************************************************* */ package com.espertech.esper.epl.join.rep; import com.espertech.esper.client.EventBean; import com.espertech.esper.support.epl.join.SupportJoinResultNodeFactory; import com.espertech.esper.support.event.SupportEventBeanFactory; import java.util.*; import junit.framework.TestCase; public class TestRepositoryImpl extends TestCase { private EventBean s0Event; private RepositoryImpl repository; public void setUp() { s0Event = SupportEventBeanFactory.createObject(new Object()); repository = new RepositoryImpl(0, s0Event, 6); } public void testGetCursors() { // get cursor for root stream lookup Iterator<Cursor> it = repository.getCursors(0); assertTrue(it.hasNext()); Cursor cursor = it.next(); assertSame(s0Event, cursor.getTheEvent()); assertSame(0, cursor.getStream()); assertFalse(it.hasNext()); tryIteratorEmpty(it); // try invalid get cursor for no results try { repository.getCursors(2); fail(); } catch (NullPointerException ex) { // expected } } public void testAddResult() { Set<EventBean> results = SupportJoinResultNodeFactory.makeEventSet(2); repository.addResult(repository.getCursors(0).next(), results, 1); assertEquals(1, repository.getNodesPerStream()[1].size()); try { repository.addResult(repository.getCursors(0).next(), new HashSet<EventBean>(), 1); fail(); } catch (IllegalArgumentException ex) { // expected } try { repository.addResult(repository.getCursors(0).next(), null, 1); fail(); } catch (NullPointerException ex) { // expected } } public void testFlow() { // Lookup from s0 Cursor cursors[] = read(repository.getCursors(0)); assertEquals(1, cursors.length); Set<EventBean> resultsS1 = SupportJoinResultNodeFactory.makeEventSet(2); repository.addResult(cursors[0], resultsS1, 1); // Lookup from s1 cursors = read(repository.getCursors(1)); assertEquals(2, cursors.length); Set<EventBean> resultsS2[] = SupportJoinResultNodeFactory.makeEventSets(new int[] {2, 3}); repository.addResult(cursors[0], resultsS2[0], 2); repository.addResult(cursors[1], resultsS2[1], 2); // Lookup from s2 cursors = read(repository.getCursors(2)); assertEquals(5, cursors.length); // 2 + 3 for s2 Set<EventBean> resultsS3[] = SupportJoinResultNodeFactory.makeEventSets(new int[] {2, 1, 3, 5, 1}); repository.addResult(cursors[0], resultsS3[0], 3); repository.addResult(cursors[1], resultsS3[1], 3); repository.addResult(cursors[2], resultsS3[2], 3); repository.addResult(cursors[3], resultsS3[3], 3); repository.addResult(cursors[4], resultsS3[4], 3); // Lookup from s3 cursors = read(repository.getCursors(3)); assertEquals(12, cursors.length); } private void tryIteratorEmpty(Iterator it) { try { it.next(); fail(); } catch (NoSuchElementException ex) { // expected } } private Cursor[] read(Iterator<Cursor> iterator) { List<Cursor> cursors = new ArrayList<Cursor>(); while (iterator.hasNext()) { Cursor cursor = iterator.next(); cursors.add(cursor); } return cursors.toArray(new Cursor[0]); } }
sungsoo/esper
esper/src/test/java/com/espertech/esper/epl/join/rep/TestRepositoryImpl.java
Java
gpl-2.0
4,571
/* * Copyright (c) 2009, Yauhen Kharuzhy <[email protected]> * * See file CREDITS for list of people who contributed to this * project. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA */ #include <common.h> #include <command.h> #include <mmc.h> #include <part.h> #include <fat.h> #include <firmware_update.h> #include <linux/mtd/mtd.h> #include <nand.h> #include <linux/mtd/partitions.h> #include <linux/list.h> #include <ubi_uboot.h> #include <jffs2/load_kernel.h> #include <i2c.h> #include <lcd.h> #include <linux/time.h> #ifdef crc32 #undef crc32 #endif #define N516_KEY_C 0x1d #define N516_KEY_MENU 0x0e #define N516_KEY_POWER 0x1c #define N516_KEY_1 0x04 #define KEY_RESERVED 0 #define KEY_ESC 1 #define KEY_1 2 #define KEY_2 3 #define KEY_3 4 #define KEY_4 5 #define KEY_5 6 #define KEY_6 7 #define KEY_7 8 #define KEY_8 9 #define KEY_9 10 #define KEY_0 11 #define KEY_ENTER 28 #define KEY_SPACE 57 #define KEY_UP 103 #define KEY_PAGEUP 104 #define KEY_LEFT 105 #define KEY_RIGHT 106 #define KEY_DOWN 108 #define KEY_PAGEDOWN 109 #define KEY_POWER 116 #define KEY_MENU 139 #define KEY_SLEEP 142 #define KEY_WAKEUP 143 #define KEY_DIRECTION 153 #define KEY_PLAYPAUSE 164 #define KEY_SEARCH 217 struct fw_update_head { char magic[4]; u32 header_size; } __attribute__((packed)); struct block_properties { unsigned int raw:1; u32 crc32; char *name; u64 offset; u64 size; }; static struct ubi_device *ubi; static u32 __get_unaligned_le32(unsigned char *p) { return (u32)p[0] | ((u32)p[1] << 8) | ((u32)p[2] << 16) | ((u32)p[3] << 24); } static u64 __get_unaligned_le64(unsigned char *p) { return (u64)p[0] | ((u64)p[1] << 8) | ((u64)p[2] << 16) | ((u64)p[3] << 24) | ((u64)p[4] << 32) | ((u64)p[5] << 40) | ((u64)p[6] << 48) | ((u64)p[7] << 56); } #define log(msg, args...) \ { \ eprintf(msg, ##args); \ printf(msg, ##args); \ } while (0) #define show_progress(msg, args...) \ { \ printf("\r" msg "\n", ##args); \ } while(0) static int ubi_initialize(void) { struct mtd_info *master; struct mtd_device *dev; struct mtd_partition mtd_part; struct part_info *part; char buffer[20]; u8 pnum; int err; if (ubi_devices[0]) { ubi = ubi_devices[0]; return 0; // ubi_exit(); // del_mtd_partitions(&nand_info[0]); } if (mtdparts_init() != 0) { printf("Error initializing mtdparts!\n"); return 1; } master = &nand_info[0]; if (find_dev_and_part(CONFIG_UBI_PARTITION, &dev, &pnum, &part) != 0) return 1; sprintf(buffer, "mtd=%d", pnum); memset(&mtd_part, 0, sizeof(mtd_part)); mtd_part.name = buffer; mtd_part.size = part->size; mtd_part.offset = part->offset; add_mtd_partitions(master, &mtd_part, 1); err = ubi_mtd_param_parse(buffer, NULL); if (err) { del_mtd_partitions(master); return err; } err = ubi_init(); if (err) { del_mtd_partitions(master); return err; } ubi = ubi_devices[0]; return 0; } static int init_fat(void) { block_dev_desc_t *dev_desc; int part = 1; struct mmc *mmc; mmc = find_mmc_device(0); if (!mmc) return -1; if (mmc_init(mmc)) return -1; dev_desc = get_dev("mmc", 0); if (dev_desc==NULL) { printf("\nERROR: Invalid mmc device. Please check your SD/MMC card.\n"); return -1; } if (fat_register_device(dev_desc, part)!=0) { printf("\nERROR: Unable to use %s %d:%d for update. Please check or replace your card.\n", "mmc", 0, part); return -1; } return 0; } static int fw_load(char *filename, unsigned char *buf, unsigned long size, unsigned long offset) { if (init_fat() < 0) return -1; printf("Reading file %s (0x%lx bytes from 0x%lx) offset\n", filename, size, offset); return file_fat_read(filename, buf, size, offset); } static int check_global_property(char *name, char *val, unsigned long len) { long t; char date[32]; if (!strcmp(name, "device")) { if (strcmp(val, CONFIG_BOARD_NAME)) return -1; } else if (!strcmp(name, "hwrev")) { if (strcmp(val, CONFIG_BOARD_HWREV)) return -1; } else if (!strcmp(name, "description")) { log("Description:\n %s\n", val); } else if (!strcmp(name, "date")) { t = simple_strtoul(val, NULL, 10); ctime_r(&t, date); log("Firmware date:\n %s\n", date); } else if (!strcmp(name, "epoch")) { if (strcmp(val, CONFIG_FIRMWARE_EPOCH)) return -1; } return 0; } static int check_block_property(char *block_name, char *name, char *val, unsigned long len, struct block_properties *block_prop) { if (!strcmp(name, "raw") && !strcmp(val, "yes")) block_prop->raw = 1; if (!strcmp(name, "crc32")) block_prop->crc32 = __get_unaligned_le32((unsigned char *)val); return 0; } static unsigned long process_all_properties(unsigned char *start, char *block_name, int dry_run, int *image_valid, struct block_properties *block_prop) { u32 property_name_len; u32 property_val_len; char *property_name, *property_val; unsigned char *buf = start; int res; property_name_len = __get_unaligned_le32(buf); buf += 4; property_val_len = __get_unaligned_le32(buf); buf += 4; while (property_name_len) { property_name = (char *)buf; buf += property_name_len; property_val = (char *)buf; buf += property_val_len; if ((property_name[property_name_len - 1] == '\0') && strncmp(property_name, "crc32", 5)) printf("%s: %s\n", property_name, property_val); else { int i; printf("%s:", property_name); for (i = 0; i < property_val_len; i++) printf(" %02x", (u8)property_val[i]); puts("\n"); } if (!block_name) res = check_global_property(property_name, property_val, property_val_len); else res = check_block_property(block_name, property_name, property_val, property_val_len, block_prop); if (res != 0) *image_valid = 0; property_name_len = __get_unaligned_le32(buf); buf += 4; property_val_len = __get_unaligned_le32(buf); buf += 4; } return buf - start; } static struct update_layout_entry *get_block_flash_layout(char *block_name) { int i; for (i = 0; i < ARRAY_SIZE(nand_layout); i++) { if (!strcmp(nand_layout[i].name, block_name)) return &nand_layout[i]; } return NULL; } static int flash_chunk(u64 offset, unsigned char *buf, size_t count) { nand_info_t *nand; #ifdef CONFIG_SYS_NAND_SELECT_DEVICE board_nand_select_device(nand_info[0].priv, 0); #endif nand = &nand_info[0]; count = roundup(count, nand->writesize); printf("Flashing chunk to offset 0x%08x, count 0x%x...\n", (u32)offset, count); return nand_write_skip_bad(nand, offset, &count, buf); } static int erase_flash(u64 offset, u64 size) { nand_erase_options_t opts; nand_info_t *nand; #ifdef CONFIG_SYS_NAND_SELECT_DEVICE board_nand_select_device(nand_info[0].priv, 0); #endif nand = &nand_info[0]; memset(&opts, 0, sizeof(opts)); opts.offset = offset; opts.length = size; opts.jffs2 = 0; opts.quiet = 0; opts.scrub = 0; return nand_erase_opts(nand, &opts); } static int process_block_raw(char *filename, struct block_properties *block_prop, int dry_run) { unsigned char *buf = (unsigned char *)CONFIG_UPDATE_TMPBUF; u64 bytes_read = 0, bytes_remain = block_prop->size; struct update_layout_entry *layout; u64 flash_address; u32 block_crc32; layout = get_block_flash_layout(block_prop->name); if (!layout) { log("Cannot find layout for block '%s', skipping it\n", block_prop->name); return 1; } log("Flashing `%s'", block_prop->name); show_progress("Erasing flash..."); if (!dry_run) erase_flash(layout->offset, layout->size); else printf("Not erasing flash (dry run)\n"); flash_address = layout->offset; block_crc32 = 0; while (bytes_remain) { unsigned long chunksize = min(CONFIG_UPDATE_CHUNKSIZE, bytes_remain); long res; if (bytes_remain < CONFIG_UPDATE_CHUNKSIZE) memset(buf, 0xff, CONFIG_UPDATE_CHUNKSIZE); show_progress("Reading...\t(%u%%)", (unsigned int)(bytes_read * 100 / block_prop->size)); res = fw_load(filename, buf, chunksize, block_prop->offset + bytes_read); if (res < 0) { log("\nFailed to read file %s\n", filename); return -1; } block_crc32 = crc32(block_crc32, buf, chunksize); bytes_read += res; bytes_remain -= res; show_progress("Flashing...\t(%u%%)", (unsigned int)(bytes_read * 100 / block_prop->size)); if (!dry_run) flash_chunk(flash_address, buf, res); else printf("Not flashing (dry run) chunk to offset 0x%08x...\n", (u32)flash_address); flash_address += res; } log("\n"); if (block_prop->crc32 != block_crc32) log("Invalid CRC for block %s\n", block_prop->name); return 0; } static int process_block_ubivol(char *filename, struct block_properties *block_prop, int dry_run) { unsigned char *buf = (unsigned char *)CONFIG_UPDATE_TMPBUF; u64 bytes_read = 0, bytes_remain = block_prop->size; int i = 0, err = 0; int rsvd_bytes = 0; int found = 0; struct ubi_volume *vol; u32 block_crc32; log("Flashing firmware part `%s':\n", block_prop->name); if (!ubi) { err = ubi_initialize(); if (err) { log("ERROR: UBI initialization failed\n"); return err; } } for (i = 0; i < ubi->vtbl_slots; i++) { vol = ubi->volumes[i]; if (vol && !strcmp(vol->name, block_prop->name)) { printf("Volume \"%s\" is found at volume id %d\n", block_prop->name, i); found = 1; break; } } if (!found) { log("ERROR: Volume \"%s\" is not found\n", block_prop->name); err = 1; goto out; } rsvd_bytes = vol->reserved_pebs * (ubi->leb_size - vol->data_pad); if (block_prop->size > rsvd_bytes) { printf("rsvd_bytes=%d vol->reserved_pebs=%d ubi->leb_size=%d\n", rsvd_bytes, vol->reserved_pebs, ubi->leb_size); printf("vol->data_pad=%d\n", vol->data_pad); log("ERROR: Size of block is greater than volume size.\n"); err = -1; goto out; } show_progress("Preparing..."); if (!dry_run) { err = ubi_start_update(ubi, vol, block_prop->size); if (err < 0) { log("Cannot start volume update\n"); goto out; } } block_crc32 = 0; while (bytes_remain) { unsigned long chunksize = min(CONFIG_UPDATE_CHUNKSIZE, bytes_remain); long res; show_progress("Reading...\t(%u%%)", (unsigned int)(bytes_read * 100 / block_prop->size)); res = fw_load(filename, buf, chunksize, block_prop->offset + bytes_read); if (res < 0) { log("\nERROR: Failed to read file %s\n", filename); return -1; } block_crc32 = crc32(block_crc32, buf, res); bytes_read += res; bytes_remain -= res; show_progress("Flashing...\t(%u%%)", (unsigned int)(bytes_read * 100 / block_prop->size)); if (!dry_run) { err = ubi_more_update_data(ubi, vol, buf, res); if (err < 0) { log("\nERROR: Failed to write data to UBI volume\n"); goto out; } } } log("\n"); if (block_prop->crc32 != block_crc32) log("ERROR: Invalid CRC for block %s\n", block_prop->name); if (err && !dry_run) { err = ubi_check_volume(ubi, vol->vol_id); if ( err < 0 ) goto out; if (err) { ubi_warn("volume %d on UBI device %d is corrupted", vol->vol_id, ubi->ubi_num); vol->corrupted = 1; } vol->checked = 1; ubi_gluebi_updated(vol); } out: return err; } static void ubi_cleanup(void) { ubi_exit(); del_mtd_partitions(&nand_info[0]); } static int process_update(char *filename, int dry_run) { struct fw_update_head fw_head; unsigned char *header; unsigned char *p; u32 block_name_len; u64 block_offset, block_size; char *block_name; int image_valid = 1; int ret = 0; if (fw_load(filename, (unsigned char *)&fw_head, sizeof(fw_head), 0) < 0) { log("Failed to load file %s\n", filename); return 1; } fw_head.header_size = __le32_to_cpu(fw_head.header_size); header = malloc(fw_head.header_size); if (!header) { puts("Failed to allocate memory for firmware update header\n"); return 1; } if (fw_load(filename, header, fw_head.header_size, 0) < 0) { log("Failed to load file %s\n", filename); return 1; } p = header + sizeof(fw_head); printf("Global properties:\n"); p += process_all_properties(p, NULL, dry_run, &image_valid, NULL); if (!image_valid) { log("Update image is not valid for this device\n"); ret = -1; goto out; } log("\n"); /* Empty line for better output */ while (p < header + fw_head.header_size) { struct block_properties block_prop; block_name_len = __get_unaligned_le32(p); p += 4; block_offset = __get_unaligned_le64(p); p += 8; block_size = __get_unaligned_le64(p); p += 8; if (!block_name_len) break; memset(&block_prop, 0x00, sizeof(block_prop)); block_name = (char *)p; p += block_name_len; printf("Block '%s', offset: %lu, size: %lu\n", block_name, (unsigned long)block_offset, (unsigned long)block_size); printf("Block properties:\n"); block_prop.name = block_name; block_prop.offset = block_offset; block_prop.size = block_size; p += process_all_properties(p, block_name, dry_run, &image_valid, &block_prop); if (image_valid) { if (block_prop.raw) ret = process_block_raw(filename, &block_prop, dry_run); else ret = process_block_ubivol(filename, &block_prop, dry_run); if (ret < 0) { log("Error occured during flashing block `%s'\n", block_name); goto out; } } else { printf("Block '%s' is not valid for this device, skipping it\n", block_name); image_valid = 1; } } out: // if (ubi) // ubi_cleanup(); // ubi = NULL; return ret; } int do_updatesim(cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { return process_update(CONFIG_UPDATE_FILENAME, 1); } U_BOOT_CMD( updatesim, 1, 0, do_updatesim, "Simulate firmware update (dry run)", " - load firmware update file from SD card and parse it without flashing\n" ); int do_update(cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { return process_update(CONFIG_UPDATE_FILENAME, 0); } U_BOOT_CMD( update, 1, 0, do_update, "Do firmware update", " - load firmware update file from SD card, parse and flash it\n" ); static const unsigned int keymap[][2] = { {0x05, KEY_0}, {0x04, KEY_1}, {0x03, KEY_2}, {0x02, KEY_3}, {0x01, KEY_4}, {0x0b, KEY_5}, {0x0a, KEY_6}, {0x09, KEY_7}, {0x08, KEY_8}, {0x07, KEY_9}, {0x1a, KEY_PAGEUP}, {0x19, KEY_PAGEDOWN}, {0x17, KEY_LEFT}, {0x16, KEY_RIGHT}, {0x14, KEY_UP}, {0x15, KEY_DOWN}, {0x13, KEY_ENTER}, {0x11, KEY_SPACE}, {0x0e, KEY_MENU}, {0x10, KEY_DIRECTION}, {0x0f, KEY_SEARCH}, {0x0d, KEY_PLAYPAUSE}, {0x1d, KEY_ESC}, {0x1c, KEY_POWER}, {0x1e, KEY_SLEEP}, {0x1f, KEY_WAKEUP}, }; static int find_key(unsigned char code) { int i; for (i = 0; i < ARRAY_SIZE(keymap); i++) { if (keymap[i][0] == code) { return keymap[i][1]; } } return -1; } static int key_to_number(int key) { if ((key >= KEY_1) && (key <= KEY_0)) return (key - KEY_1 + 1) % 10; else return -1; } #define KEYPRESS_TIMEOUT 5000000 #define BLINK_PERIOD 300000 #define I2C_DELAY 70000 static int check_for_menu_key(void) { uchar code; int key; unsigned int t; log(" Press any key to enter update mode\n"); /* Switch LPC to normal mode */ code = 0x02; i2c_write(CONFIG_LPC_I2C_ADDR, 0, 0, &code, 1); t = 0; while (t < KEYPRESS_TIMEOUT) { __gpio_clear_pin(GPIO_LED_EN); udelay(BLINK_PERIOD / 2); __gpio_set_pin(GPIO_LED_EN); udelay(BLINK_PERIOD / 2 - I2C_DELAY); t += BLINK_PERIOD; key = -1; do { char buf[30]; if (i2c_read(CONFIG_LPC_I2C_ADDR, 0, 0, &code, 1)) break; if ((code >= 0x81) && (code <= 0x87)) { sprintf(buf, "n516-lpc.batt_level=%d", code - 0x81); setenv("batt_level_param", buf); } key = find_key(code); } while ((key < 0) && code); if (key > 0) break; } if (key == KEY_POWER) { lcd_clear(); lcd_sync(); code = 0x01; __gpio_set_pin(GPIO_LED_EN); while (1) i2c_write(CONFIG_LPC_I2C_ADDR, 0, 0, &code, 1); } if (key > 0) return 0; else return -1; } extern void metronome_disable_sync(void); extern void metronome_enable_sync(void); static struct list_head found_files; struct file_entry { char filename[255]; struct list_head link; }; static void file_check(char *filename, struct file_stat *stat) { struct file_entry *f, *cur; char *c; if (stat->is_directory) return; c = strstr(filename, CONFIG_UPDATE_FILEEXT); if (c && *(c + sizeof(CONFIG_UPDATE_FILEEXT) - 1) == '\0') { f = malloc(sizeof(*f)); if (!f) { printf("Failed to allocate memory\n"); return; } strncpy(f->filename, filename, 254); if (!list_empty(&found_files)) { list_for_each_entry(cur, &found_files, link) { if (strcmp(cur->filename, f->filename) <= 0) break; } list_add_tail(&f->link, &cur->link); } else { list_add_tail(&f->link, &found_files); } } } static int ask_user(char *buf, unsigned int len) { uchar code; int i, n; int key, num; struct file_entry *cur; metronome_disable_sync(); lcd_clear(); eputs("Select firmware update file:\n\n"); n = 0; list_for_each_entry(cur, &found_files, link) { n++; log("%d. %s\n", n, cur->filename); if (n > 9) break; } log("\nC. Exit and continue booting\n"); metronome_enable_sync(); lcd_sync(); do { key = 0; num = -1; if (i2c_read(CONFIG_LPC_I2C_ADDR, 0, 0, &code, 1)) continue; key = find_key(code); num = key_to_number(key); } while ((key != KEY_ESC) && (num < 1)); if (num > 0) { i = 0; list_for_each_entry(cur, &found_files, link) { i++; if (i == num) { strncpy(buf, cur->filename, len - 1); break; } } if (i != num) return -1; } return num; } extern void _machine_restart(void); static int do_checkupdate(cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { int choice; int res; int dry_run = 0; char filename[255]; struct file_entry *cur, *tmp; if (!strcmp(argv[0], "check_and_updatesim")) { dry_run = 1; printf("Dry run mode\n"); } INIT_LIST_HEAD(&found_files); if (init_fat() < 0) return 0; dir_fat_read("/", file_check); if (list_empty(&found_files)) return 0; if (check_for_menu_key()) { res = 0; goto out; } choice = ask_user(filename, 255); if (choice < 0) { log("Continue booting...\n"); res = 0; goto out; } saveenv(); lcd_clear(); log("\tStarting update...\n\n"); res = process_update(filename, dry_run); if (!res) { log("\nUpdate completed succesfully.\nRebooting...\n"); _machine_restart(); } out: list_for_each_entry_safe(cur, tmp, &found_files, link) { list_del(&cur->link); free(cur); } return res; } U_BOOT_CMD( check_and_update, 1, 0, do_checkupdate, "Check for firmware update, ask user and start\n", NULL ); U_BOOT_CMD( check_and_updatesim, 1, 0, do_checkupdate, "Check for firmware update, ask user and start update simulation\n", NULL );
OpenInkpot-archive/uboot-n516
common/cmd_update.c
C
gpl-2.0
19,636
package doodle; import java.io.Serializable; import java.text.SimpleDateFormat; import java.util.Calendar; import java.util.Comparator; import java.util.Date; /** * A poll is made up of two or more time slots, which are voted on by poll * invitees. A time slot is defined by a start datetime and optionally an end * datetime. * * @author Jonas Michel * */ public class TimeSlot implements Serializable { private static final long serialVersionUID = -8690469227753138784L; /** The time slot's start time. */ private Date start = null; /** The time slot's end time (optional). */ private Date end = null; public TimeSlot(Date start, Date end) { this.start = start; this.end = end; } public TimeSlot(Date start) { this.start = start; } public TimeSlot(Date day, String timeStr) throws NumberFormatException { if (timeStr.contains("-")) initDoubleTime(day, timeStr); else initSingleTime(day, timeStr); } public Date getStart() { return start; } public Date getEnd() { return end; } private void initSingleTime(Date day, String timeStr) throws NumberFormatException { start = parseTimeString(day, timeStr); } private void initDoubleTime(Date day, String timeStr) throws NumberFormatException { String[] timeStrArr = timeStr.split("-"); start = parseTimeString(day, timeStrArr[0]); end = parseTimeString(day, timeStrArr[1]); } private Date parseTimeString(Date day, String timeStr) throws NumberFormatException { int hour = 0, minute = 0; if (timeStr.contains(":")) { hour = Integer.parseInt(timeStr.split(":")[0]); minute = Integer.parseInt(timeStr.split(":")[1]); } else { hour = Integer.parseInt(timeStr); } Calendar cal = Calendar.getInstance(); cal.setTime(day); cal.add(Calendar.HOUR_OF_DAY, hour); cal.add(Calendar.MINUTE, minute); return cal.getTime(); } public String toDayString() { SimpleDateFormat day = new SimpleDateFormat("MM/dd/yyyy"); return day.format(start); } public String toTimeString() { SimpleDateFormat time = new SimpleDateFormat("HH:mm"); StringBuilder sb = new StringBuilder(); sb.append(time.format(start)); if (end == null) return sb.toString(); sb.append("-" + time.format(end)); return sb.toString(); } @Override public String toString() { return toDayString() + " " + toTimeString(); } @Override public int hashCode() { final int prime = 31; int result = 1; result = prime * result + ((end == null) ? 0 : end.hashCode()); result = prime * result + ((start == null) ? 0 : start.hashCode()); return result; } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (!(obj instanceof TimeSlot)) return false; TimeSlot other = (TimeSlot) obj; if (end == null) { if (other.end != null) return false; } else if (!end.equals(other.end)) return false; if (start == null) { if (other.start != null) return false; } else if (!start.equals(other.start)) return false; return true; } public static class TimeSlotComparator implements Comparator<TimeSlot> { @Override public int compare(TimeSlot ts1, TimeSlot ts2) { if (ts1.getStart().before(ts2.getStart())) return -1; else if (ts1.getStart().after(ts2.getStart())) return 1; else return 0; } } }
jonasrmichel/jms-doodle-poll
joram-jms/samples/src/joram/doodle/TimeSlot.java
Java
gpl-2.0
3,355
<?php /* * Fixed blog_media hash column * Add "level" to blogs posts, which will be used as previous priority column */ sql_query('ALTER TABLE `blogs_media` CHANGE COLUMN `hash` `hash` VARCHAR(64) NOT NULL'); $medias = sql_query('SELECT `id`, `file` FROM `blogs_media`'); $update = sql_prepare('UPDATE `blogs_media` SET `hash` = :hash WHERE `id` = :id'); log_console(tr('Updating all blog media hash values. This might take a little while. NOTE: Each following dot represents one file')); while($media = sql_fetch($medias)){ if(empty($media['file'])) continue; cli_dot(1); $hash = ''; $file = ROOT.'data/content/photos/'.$media['file'].'-original.jpg'; if(file_exists($file)){ $hash = hash('sha256', $file); } if($hash){ $update->execute(array(':id' => $media['id'], ':hash' => $hash)); } } cli_dot(false); sql_column_exists('blogs_posts', 'level', '!ALTER TABLE `blogs_posts` ADD COLUMN `level` INT(11) NOT NULL AFTER `priority`'); sql_index_exists ('blogs_posts', 'level', '!ALTER TABLE `blogs_posts` ADD INDEX `level` (`level`)'); sql_query('ALTER TABLE `blogs_posts` CHANGE COLUMN `priority` `priority` INT(11) NOT NULL'); sql_index_exists ('blogs_posts', 'priority', 'ALTER TABLE `blogs_posts` DROP KEY `priority`'); sql_query('UPDATE `blogs_posts` SET `level` = `priority`'); /* * Ensure that all priorities are unique per blog */ $blogs = sql_query('SELECT `id`, `name` FROM `blogs`'); $update = sql_prepare('UPDATE `blogs_posts` SET `priority` = :priority WHERE `id` = :id'); while($blog = sql_fetch($blogs)){ log_console(tr('Updating priorities for blog ":blog"', array(':blog' => $blog['name']))); $priority = 1; $posts = sql_query('SELECT `id`, `name` FROM `blogs_posts` WHERE `blogs_id` = :blogs_id ORDER BY `createdon` ASC', array(':blogs_id' => $blog['id'])); while($post = sql_fetch($posts)){ cli_dot(1); $update->execute(array(':id' => $post['id'], ':priority' => $priority++)); } cli_dot(false); } sql_query('ALTER TABLE `blogs_posts` ADD UNIQUE KEY `priority` (`priority`, `blogs_id`)'); ?>
phoenixz/base
init/framework/0.47.4.php
PHP
gpl-2.0
2,194
/* Do not modify this file. Changes will be overwritten. */ /* Generated automatically by the ASN.1 to Wireshark dissector compiler */ /* packet-ranap.c */ /* ../../tools/asn2wrs.py -p ranap -c ./ranap.cnf -s ./packet-ranap-template -D . -O ../../epan/dissectors RANAP-CommonDataTypes.asn RANAP-Constants.asn RANAP-Containers.asn RANAP-IEs.asn RANAP-PDU-Contents.asn RANAP-PDU-Descriptions.asn */ /* Input file: packet-ranap-template.c */ #line 1 "../../asn1/ranap/packet-ranap-template.c" /* packet-ranap.c * Routines for UMTS Node B Application Part(RANAP) packet dissection * Copyright 2005 - 2010, Anders Broman <anders.broman[AT]ericsson.com> * * Wireshark - Network traffic analyzer * By Gerald Combs <[email protected]> * Copyright 1998 Gerald Combs * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * * References: 3GPP TS 25.413 version 10.4.0 Release 10 */ #include "config.h" #include <glib.h> #include <epan/packet.h> #include <epan/wmem/wmem.h> #include <epan/strutil.h> #include <epan/asn1.h> #include <epan/prefs.h> #include "packet-ber.h" #include "packet-per.h" #include "packet-gsm_map.h" #include "packet-ranap.h" #include "packet-e212.h" #include "packet-sccp.h" #include "packet-gsm_a_common.h" #include "packet-isup.h" #ifdef _MSC_VER /* disable: "warning C4146: unary minus operator applied to unsigned type, result still unsigned" */ #pragma warning(disable:4146) #endif #define SCCP_SSN_RANAP 142 #define PNAME "Radio Access Network Application Part" #define PSNAME "RANAP" #define PFNAME "ranap" /* Higest Ranap_ProcedureCode_value, use in heuristics */ #define RANAP_MAX_PC 45 /* id_RANAPenhancedRelocation = 45 */ /*--- Included file: packet-ranap-val.h ---*/ #line 1 "../../asn1/ranap/packet-ranap-val.h" #define maxPrivateIEs 65535 #define maxProtocolExtensions 65535 #define maxProtocolIEs 65535 #define maxNrOfDTs 15 #define maxNrOfErrors 256 #define maxNrOfIuSigConIds 250 #define maxNrOfPDPDirections 2 #define maxNrOfPoints 15 #define maxNrOfRABs 256 #define maxNrOfSeparateTrafficDirections 2 #define maxNrOfSRBs 8 #define maxNrOfVol 2 #define maxNrOfLevels 256 #define maxNrOfAltValues 16 #define maxNrOfPLMNsSN 32 #define maxNrOfLAs 65536 #define maxNrOfSNAs 65536 #define maxNrOfUEsToBeTraced 64 #define maxNrOfInterfaces 16 #define maxRAB_Subflows 7 #define maxRAB_SubflowCombination 64 #define maxSet 9 #define maxNrOfHSDSCHMACdFlows_1 7 #define maxnoofMulticastServicesPerUE 128 #define maxnoofMulticastServicesPerRNC 512 #define maxMBMSSA 256 #define maxMBMSRA 65536 #define maxNrOfEDCHMACdFlows_1 7 #define maxGANSSSet 9 #define maxNrOfCSGs 256 #define maxNrOfEUTRAFreqs 8 #define maxNrOfCellIds 32 #define maxNrOfRAIs 8 #define maxNrOfLAIs 8 typedef enum _ProcedureCode_enum { id_RAB_Assignment = 0, id_Iu_Release = 1, id_RelocationPreparation = 2, id_RelocationResourceAllocation = 3, id_RelocationCancel = 4, id_SRNS_ContextTransfer = 5, id_SecurityModeControl = 6, id_DataVolumeReport = 7, id_Not_Used_8 = 8, id_Reset = 9, id_RAB_ReleaseRequest = 10, id_Iu_ReleaseRequest = 11, id_RelocationDetect = 12, id_RelocationComplete = 13, id_Paging = 14, id_CommonID = 15, id_CN_InvokeTrace = 16, id_LocationReportingControl = 17, id_LocationReport = 18, id_InitialUE_Message = 19, id_DirectTransfer = 20, id_OverloadControl = 21, id_ErrorIndication = 22, id_SRNS_DataForward = 23, id_ForwardSRNS_Context = 24, id_privateMessage = 25, id_CN_DeactivateTrace = 26, id_ResetResource = 27, id_RANAP_Relocation = 28, id_RAB_ModifyRequest = 29, id_LocationRelatedData = 30, id_InformationTransfer = 31, id_UESpecificInformation = 32, id_UplinkInformationExchange = 33, id_DirectInformationTransfer = 34, id_MBMSSessionStart = 35, id_MBMSSessionUpdate = 36, id_MBMSSessionStop = 37, id_MBMSUELinking = 38, id_MBMSRegistration = 39, id_MBMSCNDe_Registration_Procedure = 40, id_MBMSRABEstablishmentIndication = 41, id_MBMSRABRelease = 42, id_enhancedRelocationComplete = 43, id_enhancedRelocationCompleteConfirm = 44, id_RANAPenhancedRelocation = 45, id_SRVCCPreparation = 46 } ProcedureCode_enum; typedef enum _ProtocolIE_ID_enum { id_AreaIdentity = 0, id_Not_Used_1 = 1, id_Not_Used_2 = 2, id_CN_DomainIndicator = 3, id_Cause = 4, id_ChosenEncryptionAlgorithm = 5, id_ChosenIntegrityProtectionAlgorithm = 6, id_ClassmarkInformation2 = 7, id_ClassmarkInformation3 = 8, id_CriticalityDiagnostics = 9, id_DL_GTP_PDU_SequenceNumber = 10, id_EncryptionInformation = 11, id_IntegrityProtectionInformation = 12, id_IuTransportAssociation = 13, id_L3_Information = 14, id_LAI = 15, id_NAS_PDU = 16, id_NonSearchingIndication = 17, id_NumberOfSteps = 18, id_OMC_ID = 19, id_OldBSS_ToNewBSS_Information = 20, id_PagingAreaID = 21, id_PagingCause = 22, id_PermanentNAS_UE_ID = 23, id_RAB_ContextItem = 24, id_RAB_ContextList = 25, id_RAB_DataForwardingItem = 26, id_RAB_DataForwardingItem_SRNS_CtxReq = 27, id_RAB_DataForwardingList = 28, id_RAB_DataForwardingList_SRNS_CtxReq = 29, id_RAB_DataVolumeReportItem = 30, id_RAB_DataVolumeReportList = 31, id_RAB_DataVolumeReportRequestItem = 32, id_RAB_DataVolumeReportRequestList = 33, id_RAB_FailedItem = 34, id_RAB_FailedList = 35, id_RAB_ID = 36, id_RAB_QueuedItem = 37, id_RAB_QueuedList = 38, id_RAB_ReleaseFailedList = 39, id_RAB_ReleaseItem = 40, id_RAB_ReleaseList = 41, id_RAB_ReleasedItem = 42, id_RAB_ReleasedList = 43, id_RAB_ReleasedList_IuRelComp = 44, id_RAB_RelocationReleaseItem = 45, id_RAB_RelocationReleaseList = 46, id_RAB_SetupItem_RelocReq = 47, id_RAB_SetupItem_RelocReqAck = 48, id_RAB_SetupList_RelocReq = 49, id_RAB_SetupList_RelocReqAck = 50, id_RAB_SetupOrModifiedItem = 51, id_RAB_SetupOrModifiedList = 52, id_RAB_SetupOrModifyItem = 53, id_RAB_SetupOrModifyList = 54, id_RAC = 55, id_RelocationType = 56, id_RequestType = 57, id_SAI = 58, id_SAPI = 59, id_SourceID = 60, id_Source_ToTarget_TransparentContainer = 61, id_TargetID = 62, id_Target_ToSource_TransparentContainer = 63, id_TemporaryUE_ID = 64, id_TraceReference = 65, id_TraceType = 66, id_TransportLayerAddress = 67, id_TriggerID = 68, id_UE_ID = 69, id_UL_GTP_PDU_SequenceNumber = 70, id_RAB_FailedtoReportItem = 71, id_RAB_FailedtoReportList = 72, id_Not_Used_73 = 73, id_Not_Used_74 = 74, id_KeyStatus = 75, id_DRX_CycleLengthCoefficient = 76, id_IuSigConIdList = 77, id_IuSigConIdItem = 78, id_IuSigConId = 79, id_DirectTransferInformationItem_RANAP_RelocInf = 80, id_DirectTransferInformationList_RANAP_RelocInf = 81, id_RAB_ContextItem_RANAP_RelocInf = 82, id_RAB_ContextList_RANAP_RelocInf = 83, id_RAB_ContextFailedtoTransferItem = 84, id_RAB_ContextFailedtoTransferList = 85, id_GlobalRNC_ID = 86, id_RAB_ReleasedItem_IuRelComp = 87, id_MessageStructure = 88, id_Alt_RAB_Parameters = 89, id_Ass_RAB_Parameters = 90, id_RAB_ModifyList = 91, id_RAB_ModifyItem = 92, id_TypeOfError = 93, id_BroadcastAssistanceDataDecipheringKeys = 94, id_LocationRelatedDataRequestType = 95, id_GlobalCN_ID = 96, id_LastKnownServiceArea = 97, id_SRB_TrCH_Mapping = 98, id_InterSystemInformation_TransparentContainer = 99, id_NewBSS_To_OldBSS_Information = 100, id_Not_Used_101 = 101, id_Not_Used_102 = 102, id_SourceRNC_PDCP_context_info = 103, id_InformationTransferID = 104, id_SNA_Access_Information = 105, id_ProvidedData = 106, id_GERAN_BSC_Container = 107, id_GERAN_Classmark = 108, id_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item = 109, id_GERAN_Iumode_RAB_FailedList_RABAssgntResponse = 110, id_VerticalAccuracyCode = 111, id_ResponseTime = 112, id_PositioningPriority = 113, id_ClientType = 114, id_LocationRelatedDataRequestTypeSpecificToGERANIuMode = 115, id_SignallingIndication = 116, id_hS_DSCH_MAC_d_Flow_ID = 117, id_UESBI_Iu = 118, id_PositionData = 119, id_PositionDataSpecificToGERANIuMode = 120, id_CellLoadInformationGroup = 121, id_AccuracyFulfilmentIndicator = 122, id_InformationTransferType = 123, id_TraceRecordingSessionInformation = 124, id_TracePropagationParameters = 125, id_InterSystemInformationTransferType = 126, id_SelectedPLMN_ID = 127, id_RedirectionCompleted = 128, id_RedirectionIndication = 129, id_NAS_SequenceNumber = 130, id_RejectCauseValue = 131, id_APN = 132, id_CNMBMSLinkingInformation = 133, id_DeltaRAListofIdleModeUEs = 134, id_FrequenceLayerConvergenceFlag = 135, id_InformationExchangeID = 136, id_InformationExchangeType = 137, id_InformationRequested = 138, id_InformationRequestType = 139, id_IPMulticastAddress = 140, id_JoinedMBMSBearerServicesList = 141, id_LeftMBMSBearerServicesList = 142, id_MBMSBearerServiceType = 143, id_MBMSCNDe_Registration = 144, id_MBMSServiceArea = 145, id_MBMSSessionDuration = 146, id_MBMSSessionIdentity = 147, id_PDP_TypeInformation = 148, id_RAB_Parameters = 149, id_RAListofIdleModeUEs = 150, id_MBMSRegistrationRequestType = 151, id_SessionUpdateID = 152, id_TMGI = 153, id_TransportLayerInformation = 154, id_UnsuccessfulLinkingList = 155, id_MBMSLinkingInformation = 156, id_MBMSSessionRepetitionNumber = 157, id_AlternativeRABConfiguration = 158, id_AlternativeRABConfigurationRequest = 159, id_E_DCH_MAC_d_Flow_ID = 160, id_SourceBSS_ToTargetBSS_TransparentContainer = 161, id_TargetBSS_ToSourceBSS_TransparentContainer = 162, id_TimeToMBMSDataTransfer = 163, id_IncludeVelocity = 164, id_VelocityEstimate = 165, id_RedirectAttemptFlag = 166, id_RAT_Type = 167, id_PeriodicLocationInfo = 168, id_MBMSCountingInformation = 169, id_170_not_to_be_used_for_IE_ids = 170, id_ExtendedRNC_ID = 171, id_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf = 172, id_Alt_RAB_Parameter_ExtendedMaxBitrateInf = 173, id_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList = 174, id_Ass_RAB_Parameter_ExtendedMaxBitrateList = 175, id_RAB_Parameter_ExtendedGuaranteedBitrateList = 176, id_RAB_Parameter_ExtendedMaxBitrateList = 177, id_Requested_RAB_Parameter_ExtendedMaxBitrateList = 178, id_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList = 179, id_LAofIdleModeUEs = 180, id_newLAListofIdleModeUEs = 181, id_LAListwithNoIdleModeUEsAnyMore = 182, id_183_not_to_be_used_for_IE_ids = 183, id_GANSS_PositioningDataSet = 184, id_RequestedGANSSAssistanceData = 185, id_BroadcastGANSSAssistanceDataDecipheringKeys = 186, id_d_RNTI_for_NoIuCSUP = 187, id_RAB_SetupList_EnhancedRelocCompleteReq = 188, id_RAB_SetupItem_EnhancedRelocCompleteReq = 189, id_RAB_SetupList_EnhancedRelocCompleteRes = 190, id_RAB_SetupItem_EnhancedRelocCompleteRes = 191, id_RAB_SetupList_EnhRelocInfoReq = 192, id_RAB_SetupItem_EnhRelocInfoReq = 193, id_RAB_SetupList_EnhRelocInfoRes = 194, id_RAB_SetupItem_EnhRelocInfoRes = 195, id_OldIuSigConId = 196, id_RAB_FailedList_EnhRelocInfoRes = 197, id_RAB_FailedItem_EnhRelocInfoRes = 198, id_Global_ENB_ID = 199, id_UE_History_Information = 200, id_MBMSSynchronisationInformation = 201, id_SubscriberProfileIDforRFP = 202, id_CSG_Id = 203, id_OldIuSigConIdCS = 204, id_OldIuSigConIdPS = 205, id_GlobalCN_IDCS = 206, id_GlobalCN_IDPS = 207, id_SourceExtendedRNC_ID = 208, id_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes = 209, id_RAB_ToBeReleasedList_EnhancedRelocCompleteRes = 210, id_SourceRNC_ID = 211, id_Relocation_TargetRNC_ID = 212, id_Relocation_TargetExtendedRNC_ID = 213, id_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf = 214, id_Alt_RAB_Parameter_SupportedMaxBitrateInf = 215, id_Ass_RAB_Parameter_SupportedGuaranteedBitrateList = 216, id_Ass_RAB_Parameter_SupportedMaxBitrateList = 217, id_RAB_Parameter_SupportedGuaranteedBitrateList = 218, id_RAB_Parameter_SupportedMaxBitrateList = 219, id_Requested_RAB_Parameter_SupportedMaxBitrateList = 220, id_Requested_RAB_Parameter_SupportedGuaranteedBitrateList = 221, id_Relocation_SourceRNC_ID = 222, id_Relocation_SourceExtendedRNC_ID = 223, id_EncryptionKey = 224, id_IntegrityProtectionKey = 225, id_SRVCC_HO_Indication = 226, id_SRVCC_Information = 227, id_SRVCC_Operation_Possible = 228, id_CSG_Id_List = 229, id_PSRABtobeReplaced = 230, id_E_UTRAN_Service_Handover = 231, id_Not_Used_232 = 232, id_UE_AggregateMaximumBitRate = 233, id_CSG_Membership_Status = 234, id_Cell_Access_Mode = 235, id_IP_Source_Address = 236, id_CSFB_Information = 237, id_PDP_TypeInformation_extension = 238, id_MSISDN = 239, id_Offload_RAB_Parameters = 240, id_LGW_TransportLayerAddress = 241, id_Correlation_ID = 242, id_IRAT_Measurement_Configuration = 243, id_MDT_Configuration = 244, id_Priority_Class_Indicator = 245, id_Not_Used_246 = 246, id_RNSAPRelocationParameters = 247, id_RABParametersList = 248, id_Management_Based_MDT_Allowed = 249, id_HigherBitratesThan16MbpsFlag = 250, id_Trace_Collection_Entity_IP_Addess = 251, id_End_Of_CSFB = 252 } ProtocolIE_ID_enum; /*--- End of included file: packet-ranap-val.h ---*/ #line 60 "../../asn1/ranap/packet-ranap-template.c" void proto_register_ranap(void); void proto_reg_handoff_ranap(void); /* Initialize the protocol and registered fields */ static int proto_ranap = -1; /* initialise sub-dissector handles */ static dissector_handle_t rrc_s_to_trnc_handle = NULL; static dissector_handle_t rrc_t_to_srnc_handle = NULL; static dissector_handle_t rrc_ho_to_utran_cmd = NULL; static int hf_ranap_imsi_digits = -1; static int hf_ranap_transportLayerAddress_ipv4 = -1; static int hf_ranap_transportLayerAddress_ipv6 = -1; static int hf_ranap_transportLayerAddress_nsap = -1; /*--- Included file: packet-ranap-hf.c ---*/ #line 1 "../../asn1/ranap/packet-ranap-hf.c" static int hf_ranap_AccuracyFulfilmentIndicator_PDU = -1; /* AccuracyFulfilmentIndicator */ static int hf_ranap_Alt_RAB_Parameters_PDU = -1; /* Alt_RAB_Parameters */ static int hf_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf_PDU = -1; /* Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf */ static int hf_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf_PDU = -1; /* Alt_RAB_Parameter_SupportedGuaranteedBitrateInf */ static int hf_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateInf_PDU = -1; /* Alt_RAB_Parameter_ExtendedMaxBitrateInf */ static int hf_ranap_Alt_RAB_Parameter_SupportedMaxBitrateInf_PDU = -1; /* Alt_RAB_Parameter_SupportedMaxBitrateInf */ static int hf_ranap_AlternativeRABConfigurationRequest_PDU = -1; /* AlternativeRABConfigurationRequest */ static int hf_ranap_APN_PDU = -1; /* APN */ static int hf_ranap_AreaIdentity_PDU = -1; /* AreaIdentity */ static int hf_ranap_Ass_RAB_Parameters_PDU = -1; /* Ass_RAB_Parameters */ static int hf_ranap_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU = -1; /* Ass_RAB_Parameter_ExtendedGuaranteedBitrateList */ static int hf_ranap_Ass_RAB_Parameter_ExtendedMaxBitrateList_PDU = -1; /* Ass_RAB_Parameter_ExtendedMaxBitrateList */ static int hf_ranap_BroadcastAssistanceDataDecipheringKeys_PDU = -1; /* BroadcastAssistanceDataDecipheringKeys */ static int hf_ranap_Cause_PDU = -1; /* Cause */ static int hf_ranap_Cell_Access_Mode_PDU = -1; /* Cell_Access_Mode */ static int hf_ranap_CellLoadInformationGroup_PDU = -1; /* CellLoadInformationGroup */ static int hf_ranap_ClientType_PDU = -1; /* ClientType */ static int hf_ranap_CriticalityDiagnostics_PDU = -1; /* CriticalityDiagnostics */ static int hf_ranap_MessageStructure_PDU = -1; /* MessageStructure */ static int hf_ranap_ChosenEncryptionAlgorithm_PDU = -1; /* ChosenEncryptionAlgorithm */ static int hf_ranap_ChosenIntegrityProtectionAlgorithm_PDU = -1; /* ChosenIntegrityProtectionAlgorithm */ static int hf_ranap_ClassmarkInformation2_PDU = -1; /* ClassmarkInformation2 */ static int hf_ranap_ClassmarkInformation3_PDU = -1; /* ClassmarkInformation3 */ static int hf_ranap_CN_DomainIndicator_PDU = -1; /* CN_DomainIndicator */ static int hf_ranap_Correlation_ID_PDU = -1; /* Correlation_ID */ static int hf_ranap_CSFB_Information_PDU = -1; /* CSFB_Information */ static int hf_ranap_CSG_Id_PDU = -1; /* CSG_Id */ static int hf_ranap_CSG_Id_List_PDU = -1; /* CSG_Id_List */ static int hf_ranap_CSG_Membership_Status_PDU = -1; /* CSG_Membership_Status */ static int hf_ranap_DeltaRAListofIdleModeUEs_PDU = -1; /* DeltaRAListofIdleModeUEs */ static int hf_ranap_DRX_CycleLengthCoefficient_PDU = -1; /* DRX_CycleLengthCoefficient */ static int hf_ranap_E_DCH_MAC_d_Flow_ID_PDU = -1; /* E_DCH_MAC_d_Flow_ID */ static int hf_ranap_EncryptionInformation_PDU = -1; /* EncryptionInformation */ static int hf_ranap_EncryptionKey_PDU = -1; /* EncryptionKey */ static int hf_ranap_End_Of_CSFB_PDU = -1; /* End_Of_CSFB */ static int hf_ranap_E_UTRAN_Service_Handover_PDU = -1; /* E_UTRAN_Service_Handover */ static int hf_ranap_ExtendedRNC_ID_PDU = -1; /* ExtendedRNC_ID */ static int hf_ranap_FrequenceLayerConvergenceFlag_PDU = -1; /* FrequenceLayerConvergenceFlag */ static int hf_ranap_GANSS_PositioningDataSet_PDU = -1; /* GANSS_PositioningDataSet */ static int hf_ranap_GERAN_BSC_Container_PDU = -1; /* GERAN_BSC_Container */ static int hf_ranap_GERAN_Classmark_PDU = -1; /* GERAN_Classmark */ static int hf_ranap_GlobalCN_ID_PDU = -1; /* GlobalCN_ID */ static int hf_ranap_GlobalRNC_ID_PDU = -1; /* GlobalRNC_ID */ static int hf_ranap_HigherBitratesThan16MbpsFlag_PDU = -1; /* HigherBitratesThan16MbpsFlag */ static int hf_ranap_HS_DSCH_MAC_d_Flow_ID_PDU = -1; /* HS_DSCH_MAC_d_Flow_ID */ static int hf_ranap_IncludeVelocity_PDU = -1; /* IncludeVelocity */ static int hf_ranap_InformationExchangeID_PDU = -1; /* InformationExchangeID */ static int hf_ranap_InformationExchangeType_PDU = -1; /* InformationExchangeType */ static int hf_ranap_InformationRequested_PDU = -1; /* InformationRequested */ static int hf_ranap_InformationRequestType_PDU = -1; /* InformationRequestType */ static int hf_ranap_InformationTransferID_PDU = -1; /* InformationTransferID */ static int hf_ranap_InformationTransferType_PDU = -1; /* InformationTransferType */ static int hf_ranap_IntegrityProtectionInformation_PDU = -1; /* IntegrityProtectionInformation */ static int hf_ranap_IntegrityProtectionKey_PDU = -1; /* IntegrityProtectionKey */ static int hf_ranap_InterSystemInformationTransferType_PDU = -1; /* InterSystemInformationTransferType */ static int hf_ranap_ranap_InterSystemInformation_TransparentContainer_PDU = -1; /* InterSystemInformation_TransparentContainer */ static int hf_ranap_IPMulticastAddress_PDU = -1; /* IPMulticastAddress */ static int hf_ranap_IuSignallingConnectionIdentifier_PDU = -1; /* IuSignallingConnectionIdentifier */ static int hf_ranap_IuTransportAssociation_PDU = -1; /* IuTransportAssociation */ static int hf_ranap_KeyStatus_PDU = -1; /* KeyStatus */ static int hf_ranap_LAI_PDU = -1; /* LAI */ static int hf_ranap_LastKnownServiceArea_PDU = -1; /* LastKnownServiceArea */ static int hf_ranap_LocationRelatedDataRequestType_PDU = -1; /* LocationRelatedDataRequestType */ static int hf_ranap_LocationRelatedDataRequestTypeSpecificToGERANIuMode_PDU = -1; /* LocationRelatedDataRequestTypeSpecificToGERANIuMode */ static int hf_ranap_L3_Information_PDU = -1; /* L3_Information */ static int hf_ranap_Management_Based_MDT_Allowed_PDU = -1; /* Management_Based_MDT_Allowed */ static int hf_ranap_MBMSBearerServiceType_PDU = -1; /* MBMSBearerServiceType */ static int hf_ranap_MBMSCNDe_Registration_PDU = -1; /* MBMSCNDe_Registration */ static int hf_ranap_MBMSCountingInformation_PDU = -1; /* MBMSCountingInformation */ static int hf_ranap_MBMSLinkingInformation_PDU = -1; /* MBMSLinkingInformation */ static int hf_ranap_MBMSRegistrationRequestType_PDU = -1; /* MBMSRegistrationRequestType */ static int hf_ranap_MBMSServiceArea_PDU = -1; /* MBMSServiceArea */ static int hf_ranap_MBMSSessionDuration_PDU = -1; /* MBMSSessionDuration */ static int hf_ranap_MBMSSessionIdentity_PDU = -1; /* MBMSSessionIdentity */ static int hf_ranap_MBMSSessionRepetitionNumber_PDU = -1; /* MBMSSessionRepetitionNumber */ static int hf_ranap_MDT_Configuration_PDU = -1; /* MDT_Configuration */ static int hf_ranap_MSISDN_PDU = -1; /* MSISDN */ static int hf_ranap_NAS_PDU_PDU = -1; /* NAS_PDU */ static int hf_ranap_NAS_SequenceNumber_PDU = -1; /* NAS_SequenceNumber */ static int hf_ranap_NewBSS_To_OldBSS_Information_PDU = -1; /* NewBSS_To_OldBSS_Information */ static int hf_ranap_NonSearchingIndication_PDU = -1; /* NonSearchingIndication */ static int hf_ranap_NumberOfSteps_PDU = -1; /* NumberOfSteps */ static int hf_ranap_Offload_RAB_Parameters_PDU = -1; /* Offload_RAB_Parameters */ static int hf_ranap_OldBSS_ToNewBSS_Information_PDU = -1; /* OldBSS_ToNewBSS_Information */ static int hf_ranap_OMC_ID_PDU = -1; /* OMC_ID */ static int hf_ranap_PagingAreaID_PDU = -1; /* PagingAreaID */ static int hf_ranap_PagingCause_PDU = -1; /* PagingCause */ static int hf_ranap_PDP_TypeInformation_PDU = -1; /* PDP_TypeInformation */ static int hf_ranap_PDP_TypeInformation_extension_PDU = -1; /* PDP_TypeInformation_extension */ static int hf_ranap_PeriodicLocationInfo_PDU = -1; /* PeriodicLocationInfo */ static int hf_ranap_PermanentNAS_UE_ID_PDU = -1; /* PermanentNAS_UE_ID */ static int hf_ranap_PLMNidentity_PDU = -1; /* PLMNidentity */ static int hf_ranap_PositioningPriority_PDU = -1; /* PositioningPriority */ static int hf_ranap_PositionData_PDU = -1; /* PositionData */ static int hf_ranap_PositionDataSpecificToGERANIuMode_PDU = -1; /* PositionDataSpecificToGERANIuMode */ static int hf_ranap_Priority_Class_Indicator_PDU = -1; /* Priority_Class_Indicator */ static int hf_ranap_ProvidedData_PDU = -1; /* ProvidedData */ static int hf_ranap_RAB_ID_PDU = -1; /* RAB_ID */ static int hf_ranap_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU = -1; /* RAB_Parameter_ExtendedGuaranteedBitrateList */ static int hf_ranap_RAB_Parameter_ExtendedMaxBitrateList_PDU = -1; /* RAB_Parameter_ExtendedMaxBitrateList */ static int hf_ranap_RAB_Parameters_PDU = -1; /* RAB_Parameters */ static int hf_ranap_RABParametersList_PDU = -1; /* RABParametersList */ static int hf_ranap_RAC_PDU = -1; /* RAC */ static int hf_ranap_RAListofIdleModeUEs_PDU = -1; /* RAListofIdleModeUEs */ static int hf_ranap_LAListofIdleModeUEs_PDU = -1; /* LAListofIdleModeUEs */ static int hf_ranap_RAT_Type_PDU = -1; /* RAT_Type */ static int hf_ranap_RedirectAttemptFlag_PDU = -1; /* RedirectAttemptFlag */ static int hf_ranap_RedirectionCompleted_PDU = -1; /* RedirectionCompleted */ static int hf_ranap_RejectCauseValue_PDU = -1; /* RejectCauseValue */ static int hf_ranap_RelocationType_PDU = -1; /* RelocationType */ static int hf_ranap_RequestedGANSSAssistanceData_PDU = -1; /* RequestedGANSSAssistanceData */ static int hf_ranap_Requested_RAB_Parameter_ExtendedMaxBitrateList_PDU = -1; /* Requested_RAB_Parameter_ExtendedMaxBitrateList */ static int hf_ranap_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU = -1; /* Requested_RAB_Parameter_ExtendedGuaranteedBitrateList */ static int hf_ranap_RequestType_PDU = -1; /* RequestType */ static int hf_ranap_ResponseTime_PDU = -1; /* ResponseTime */ static int hf_ranap_RNSAPRelocationParameters_PDU = -1; /* RNSAPRelocationParameters */ static int hf_ranap_RRC_Container_PDU = -1; /* RRC_Container */ static int hf_ranap_SAI_PDU = -1; /* SAI */ static int hf_ranap_SAPI_PDU = -1; /* SAPI */ static int hf_ranap_SessionUpdateID_PDU = -1; /* SessionUpdateID */ static int hf_ranap_SignallingIndication_PDU = -1; /* SignallingIndication */ static int hf_ranap_SNA_Access_Information_PDU = -1; /* SNA_Access_Information */ static int hf_ranap_Source_ToTarget_TransparentContainer_PDU = -1; /* Source_ToTarget_TransparentContainer */ static int hf_ranap_ranap_SourceCellID_PDU = -1; /* SourceCellID */ static int hf_ranap_SourceBSS_ToTargetBSS_TransparentContainer_PDU = -1; /* SourceBSS_ToTargetBSS_TransparentContainer */ static int hf_ranap_SourceID_PDU = -1; /* SourceID */ static int hf_ranap_ranap_SourceRNC_ToTargetRNC_TransparentContainer_PDU = -1; /* SourceRNC_ToTargetRNC_TransparentContainer */ static int hf_ranap_IRAT_Measurement_Configuration_PDU = -1; /* IRAT_Measurement_Configuration */ static int hf_ranap_SubscriberProfileIDforRFP_PDU = -1; /* SubscriberProfileIDforRFP */ static int hf_ranap_SupportedRAB_ParameterBitrateList_PDU = -1; /* SupportedRAB_ParameterBitrateList */ static int hf_ranap_SRB_TrCH_Mapping_PDU = -1; /* SRB_TrCH_Mapping */ static int hf_ranap_SRVCC_HO_Indication_PDU = -1; /* SRVCC_HO_Indication */ static int hf_ranap_SRVCC_Information_PDU = -1; /* SRVCC_Information */ static int hf_ranap_SRVCC_Operation_Possible_PDU = -1; /* SRVCC_Operation_Possible */ static int hf_ranap_Target_ToSource_TransparentContainer_PDU = -1; /* Target_ToSource_TransparentContainer */ static int hf_ranap_TargetBSS_ToSourceBSS_TransparentContainer_PDU = -1; /* TargetBSS_ToSourceBSS_TransparentContainer */ static int hf_ranap_TargetID_PDU = -1; /* TargetID */ static int hf_ranap_ranap_TargetRNC_ID_PDU = -1; /* TargetRNC_ID */ static int hf_ranap_ranap_TargetRNC_ToSourceRNC_TransparentContainer_PDU = -1; /* TargetRNC_ToSourceRNC_TransparentContainer */ static int hf_ranap_TemporaryUE_ID_PDU = -1; /* TemporaryUE_ID */ static int hf_ranap_TimeToMBMSDataTransfer_PDU = -1; /* TimeToMBMSDataTransfer */ static int hf_ranap_TMGI_PDU = -1; /* TMGI */ static int hf_ranap_TracePropagationParameters_PDU = -1; /* TracePropagationParameters */ static int hf_ranap_TraceRecordingSessionInformation_PDU = -1; /* TraceRecordingSessionInformation */ static int hf_ranap_TraceReference_PDU = -1; /* TraceReference */ static int hf_ranap_TraceType_PDU = -1; /* TraceType */ static int hf_ranap_TransportLayerAddress_PDU = -1; /* TransportLayerAddress */ static int hf_ranap_TriggerID_PDU = -1; /* TriggerID */ static int hf_ranap_TypeOfError_PDU = -1; /* TypeOfError */ static int hf_ranap_UE_AggregateMaximumBitRate_PDU = -1; /* UE_AggregateMaximumBitRate */ static int hf_ranap_UE_History_Information_PDU = -1; /* UE_History_Information */ static int hf_ranap_UE_ID_PDU = -1; /* UE_ID */ static int hf_ranap_UESBI_Iu_PDU = -1; /* UESBI_Iu */ static int hf_ranap_VelocityEstimate_PDU = -1; /* VelocityEstimate */ static int hf_ranap_VerticalAccuracyCode_PDU = -1; /* VerticalAccuracyCode */ static int hf_ranap_Iu_ReleaseCommand_PDU = -1; /* Iu_ReleaseCommand */ static int hf_ranap_Iu_ReleaseComplete_PDU = -1; /* Iu_ReleaseComplete */ static int hf_ranap_RAB_DataVolumeReportList_PDU = -1; /* RAB_DataVolumeReportList */ static int hf_ranap_RAB_DataVolumeReportItem_PDU = -1; /* RAB_DataVolumeReportItem */ static int hf_ranap_RAB_ReleasedList_IuRelComp_PDU = -1; /* RAB_ReleasedList_IuRelComp */ static int hf_ranap_RAB_ReleasedItem_IuRelComp_PDU = -1; /* RAB_ReleasedItem_IuRelComp */ static int hf_ranap_RelocationRequired_PDU = -1; /* RelocationRequired */ static int hf_ranap_RelocationCommand_PDU = -1; /* RelocationCommand */ static int hf_ranap_RAB_RelocationReleaseList_PDU = -1; /* RAB_RelocationReleaseList */ static int hf_ranap_RAB_RelocationReleaseItem_PDU = -1; /* RAB_RelocationReleaseItem */ static int hf_ranap_RAB_DataForwardingList_PDU = -1; /* RAB_DataForwardingList */ static int hf_ranap_RAB_DataForwardingItem_PDU = -1; /* RAB_DataForwardingItem */ static int hf_ranap_RelocationPreparationFailure_PDU = -1; /* RelocationPreparationFailure */ static int hf_ranap_RelocationRequest_PDU = -1; /* RelocationRequest */ static int hf_ranap_RAB_SetupList_RelocReq_PDU = -1; /* RAB_SetupList_RelocReq */ static int hf_ranap_RAB_SetupItem_RelocReq_PDU = -1; /* RAB_SetupItem_RelocReq */ static int hf_ranap_CNMBMSLinkingInformation_PDU = -1; /* CNMBMSLinkingInformation */ static int hf_ranap_JoinedMBMSBearerService_IEs_PDU = -1; /* JoinedMBMSBearerService_IEs */ static int hf_ranap_RelocationRequestAcknowledge_PDU = -1; /* RelocationRequestAcknowledge */ static int hf_ranap_RAB_SetupList_RelocReqAck_PDU = -1; /* RAB_SetupList_RelocReqAck */ static int hf_ranap_RAB_SetupItem_RelocReqAck_PDU = -1; /* RAB_SetupItem_RelocReqAck */ static int hf_ranap_RAB_FailedList_PDU = -1; /* RAB_FailedList */ static int hf_ranap_RAB_FailedItem_PDU = -1; /* RAB_FailedItem */ static int hf_ranap_RelocationFailure_PDU = -1; /* RelocationFailure */ static int hf_ranap_RelocationCancel_PDU = -1; /* RelocationCancel */ static int hf_ranap_RelocationCancelAcknowledge_PDU = -1; /* RelocationCancelAcknowledge */ static int hf_ranap_SRNS_ContextRequest_PDU = -1; /* SRNS_ContextRequest */ static int hf_ranap_RAB_DataForwardingList_SRNS_CtxReq_PDU = -1; /* RAB_DataForwardingList_SRNS_CtxReq */ static int hf_ranap_RAB_DataForwardingItem_SRNS_CtxReq_PDU = -1; /* RAB_DataForwardingItem_SRNS_CtxReq */ static int hf_ranap_SRNS_ContextResponse_PDU = -1; /* SRNS_ContextResponse */ static int hf_ranap_RAB_ContextList_PDU = -1; /* RAB_ContextList */ static int hf_ranap_RAB_ContextItem_PDU = -1; /* RAB_ContextItem */ static int hf_ranap_RAB_ContextFailedtoTransferList_PDU = -1; /* RAB_ContextFailedtoTransferList */ static int hf_ranap_RABs_ContextFailedtoTransferItem_PDU = -1; /* RABs_ContextFailedtoTransferItem */ static int hf_ranap_SecurityModeCommand_PDU = -1; /* SecurityModeCommand */ static int hf_ranap_SecurityModeComplete_PDU = -1; /* SecurityModeComplete */ static int hf_ranap_SecurityModeReject_PDU = -1; /* SecurityModeReject */ static int hf_ranap_DataVolumeReportRequest_PDU = -1; /* DataVolumeReportRequest */ static int hf_ranap_RAB_DataVolumeReportRequestList_PDU = -1; /* RAB_DataVolumeReportRequestList */ static int hf_ranap_RAB_DataVolumeReportRequestItem_PDU = -1; /* RAB_DataVolumeReportRequestItem */ static int hf_ranap_DataVolumeReport_PDU = -1; /* DataVolumeReport */ static int hf_ranap_RAB_FailedtoReportList_PDU = -1; /* RAB_FailedtoReportList */ static int hf_ranap_RABs_failed_to_reportItem_PDU = -1; /* RABs_failed_to_reportItem */ static int hf_ranap_Reset_PDU = -1; /* Reset */ static int hf_ranap_ResetAcknowledge_PDU = -1; /* ResetAcknowledge */ static int hf_ranap_ResetResource_PDU = -1; /* ResetResource */ static int hf_ranap_ResetResourceList_PDU = -1; /* ResetResourceList */ static int hf_ranap_ResetResourceItem_PDU = -1; /* ResetResourceItem */ static int hf_ranap_ResetResourceAcknowledge_PDU = -1; /* ResetResourceAcknowledge */ static int hf_ranap_ResetResourceAckList_PDU = -1; /* ResetResourceAckList */ static int hf_ranap_ResetResourceAckItem_PDU = -1; /* ResetResourceAckItem */ static int hf_ranap_RAB_ReleaseRequest_PDU = -1; /* RAB_ReleaseRequest */ static int hf_ranap_RAB_ReleaseList_PDU = -1; /* RAB_ReleaseList */ static int hf_ranap_RAB_ReleaseItem_PDU = -1; /* RAB_ReleaseItem */ static int hf_ranap_Iu_ReleaseRequest_PDU = -1; /* Iu_ReleaseRequest */ static int hf_ranap_RelocationDetect_PDU = -1; /* RelocationDetect */ static int hf_ranap_RelocationComplete_PDU = -1; /* RelocationComplete */ static int hf_ranap_EnhancedRelocationCompleteRequest_PDU = -1; /* EnhancedRelocationCompleteRequest */ static int hf_ranap_RAB_SetupList_EnhancedRelocCompleteReq_PDU = -1; /* RAB_SetupList_EnhancedRelocCompleteReq */ static int hf_ranap_RAB_SetupItem_EnhancedRelocCompleteReq_PDU = -1; /* RAB_SetupItem_EnhancedRelocCompleteReq */ static int hf_ranap_EnhancedRelocationCompleteResponse_PDU = -1; /* EnhancedRelocationCompleteResponse */ static int hf_ranap_RAB_SetupList_EnhancedRelocCompleteRes_PDU = -1; /* RAB_SetupList_EnhancedRelocCompleteRes */ static int hf_ranap_RAB_SetupItem_EnhancedRelocCompleteRes_PDU = -1; /* RAB_SetupItem_EnhancedRelocCompleteRes */ static int hf_ranap_RAB_ToBeReleasedList_EnhancedRelocCompleteRes_PDU = -1; /* RAB_ToBeReleasedList_EnhancedRelocCompleteRes */ static int hf_ranap_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes_PDU = -1; /* RAB_ToBeReleasedItem_EnhancedRelocCompleteRes */ static int hf_ranap_EnhancedRelocationCompleteFailure_PDU = -1; /* EnhancedRelocationCompleteFailure */ static int hf_ranap_EnhancedRelocationCompleteConfirm_PDU = -1; /* EnhancedRelocationCompleteConfirm */ static int hf_ranap_Paging_PDU = -1; /* Paging */ static int hf_ranap_CommonID_PDU = -1; /* CommonID */ static int hf_ranap_CN_InvokeTrace_PDU = -1; /* CN_InvokeTrace */ static int hf_ranap_CN_DeactivateTrace_PDU = -1; /* CN_DeactivateTrace */ static int hf_ranap_LocationReportingControl_PDU = -1; /* LocationReportingControl */ static int hf_ranap_LocationReport_PDU = -1; /* LocationReport */ static int hf_ranap_InitialUE_Message_PDU = -1; /* InitialUE_Message */ static int hf_ranap_DirectTransfer_PDU = -1; /* DirectTransfer */ static int hf_ranap_RedirectionIndication_PDU = -1; /* RedirectionIndication */ static int hf_ranap_Overload_PDU = -1; /* Overload */ static int hf_ranap_ErrorIndication_PDU = -1; /* ErrorIndication */ static int hf_ranap_SRNS_DataForwardCommand_PDU = -1; /* SRNS_DataForwardCommand */ static int hf_ranap_ForwardSRNS_Context_PDU = -1; /* ForwardSRNS_Context */ static int hf_ranap_RAB_AssignmentRequest_PDU = -1; /* RAB_AssignmentRequest */ static int hf_ranap_RAB_SetupOrModifyList_PDU = -1; /* RAB_SetupOrModifyList */ static int hf_ranap_RAB_SetupOrModifyItemFirst_PDU = -1; /* RAB_SetupOrModifyItemFirst */ static int hf_ranap_TransportLayerInformation_PDU = -1; /* TransportLayerInformation */ static int hf_ranap_RAB_SetupOrModifyItemSecond_PDU = -1; /* RAB_SetupOrModifyItemSecond */ static int hf_ranap_RAB_AssignmentResponse_PDU = -1; /* RAB_AssignmentResponse */ static int hf_ranap_RAB_SetupOrModifiedList_PDU = -1; /* RAB_SetupOrModifiedList */ static int hf_ranap_RAB_SetupOrModifiedItem_PDU = -1; /* RAB_SetupOrModifiedItem */ static int hf_ranap_RAB_ReleasedList_PDU = -1; /* RAB_ReleasedList */ static int hf_ranap_RAB_ReleasedItem_PDU = -1; /* RAB_ReleasedItem */ static int hf_ranap_RAB_QueuedList_PDU = -1; /* RAB_QueuedList */ static int hf_ranap_RAB_QueuedItem_PDU = -1; /* RAB_QueuedItem */ static int hf_ranap_RAB_ReleaseFailedList_PDU = -1; /* RAB_ReleaseFailedList */ static int hf_ranap_GERAN_Iumode_RAB_FailedList_RABAssgntResponse_PDU = -1; /* GERAN_Iumode_RAB_FailedList_RABAssgntResponse */ static int hf_ranap_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item_PDU = -1; /* GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item */ static int hf_ranap_PrivateMessage_PDU = -1; /* PrivateMessage */ static int hf_ranap_RANAP_RelocationInformation_PDU = -1; /* RANAP_RelocationInformation */ static int hf_ranap_DirectTransferInformationList_RANAP_RelocInf_PDU = -1; /* DirectTransferInformationList_RANAP_RelocInf */ static int hf_ranap_DirectTransferInformationItem_RANAP_RelocInf_PDU = -1; /* DirectTransferInformationItem_RANAP_RelocInf */ static int hf_ranap_RAB_ContextList_RANAP_RelocInf_PDU = -1; /* RAB_ContextList_RANAP_RelocInf */ static int hf_ranap_RAB_ContextItem_RANAP_RelocInf_PDU = -1; /* RAB_ContextItem_RANAP_RelocInf */ static int hf_ranap_RANAP_EnhancedRelocationInformationRequest_PDU = -1; /* RANAP_EnhancedRelocationInformationRequest */ static int hf_ranap_RAB_SetupList_EnhRelocInfoReq_PDU = -1; /* RAB_SetupList_EnhRelocInfoReq */ static int hf_ranap_RAB_SetupItem_EnhRelocInfoReq_PDU = -1; /* RAB_SetupItem_EnhRelocInfoReq */ static int hf_ranap_RANAP_EnhancedRelocationInformationResponse_PDU = -1; /* RANAP_EnhancedRelocationInformationResponse */ static int hf_ranap_RAB_SetupList_EnhRelocInfoRes_PDU = -1; /* RAB_SetupList_EnhRelocInfoRes */ static int hf_ranap_RAB_SetupItem_EnhRelocInfoRes_PDU = -1; /* RAB_SetupItem_EnhRelocInfoRes */ static int hf_ranap_RAB_FailedList_EnhRelocInfoRes_PDU = -1; /* RAB_FailedList_EnhRelocInfoRes */ static int hf_ranap_RAB_FailedItem_EnhRelocInfoRes_PDU = -1; /* RAB_FailedItem_EnhRelocInfoRes */ static int hf_ranap_RAB_ModifyRequest_PDU = -1; /* RAB_ModifyRequest */ static int hf_ranap_RAB_ModifyList_PDU = -1; /* RAB_ModifyList */ static int hf_ranap_RAB_ModifyItem_PDU = -1; /* RAB_ModifyItem */ static int hf_ranap_LocationRelatedDataRequest_PDU = -1; /* LocationRelatedDataRequest */ static int hf_ranap_LocationRelatedDataResponse_PDU = -1; /* LocationRelatedDataResponse */ static int hf_ranap_LocationRelatedDataFailure_PDU = -1; /* LocationRelatedDataFailure */ static int hf_ranap_InformationTransferIndication_PDU = -1; /* InformationTransferIndication */ static int hf_ranap_InformationTransferConfirmation_PDU = -1; /* InformationTransferConfirmation */ static int hf_ranap_InformationTransferFailure_PDU = -1; /* InformationTransferFailure */ static int hf_ranap_UESpecificInformationIndication_PDU = -1; /* UESpecificInformationIndication */ static int hf_ranap_DirectInformationTransfer_PDU = -1; /* DirectInformationTransfer */ static int hf_ranap_UplinkInformationExchangeRequest_PDU = -1; /* UplinkInformationExchangeRequest */ static int hf_ranap_UplinkInformationExchangeResponse_PDU = -1; /* UplinkInformationExchangeResponse */ static int hf_ranap_UplinkInformationExchangeFailure_PDU = -1; /* UplinkInformationExchangeFailure */ static int hf_ranap_MBMSSessionStart_PDU = -1; /* MBMSSessionStart */ static int hf_ranap_MBMSSynchronisationInformation_PDU = -1; /* MBMSSynchronisationInformation */ static int hf_ranap_MBMSSessionStartResponse_PDU = -1; /* MBMSSessionStartResponse */ static int hf_ranap_MBMSSessionStartFailure_PDU = -1; /* MBMSSessionStartFailure */ static int hf_ranap_MBMSSessionUpdate_PDU = -1; /* MBMSSessionUpdate */ static int hf_ranap_MBMSSessionUpdateResponse_PDU = -1; /* MBMSSessionUpdateResponse */ static int hf_ranap_MBMSSessionUpdateFailure_PDU = -1; /* MBMSSessionUpdateFailure */ static int hf_ranap_MBMSSessionStop_PDU = -1; /* MBMSSessionStop */ static int hf_ranap_MBMSSessionStopResponse_PDU = -1; /* MBMSSessionStopResponse */ static int hf_ranap_MBMSUELinkingRequest_PDU = -1; /* MBMSUELinkingRequest */ static int hf_ranap_LeftMBMSBearerService_IEs_PDU = -1; /* LeftMBMSBearerService_IEs */ static int hf_ranap_MBMSUELinkingResponse_PDU = -1; /* MBMSUELinkingResponse */ static int hf_ranap_UnsuccessfulLinking_IEs_PDU = -1; /* UnsuccessfulLinking_IEs */ static int hf_ranap_MBMSRegistrationRequest_PDU = -1; /* MBMSRegistrationRequest */ static int hf_ranap_MBMSRegistrationResponse_PDU = -1; /* MBMSRegistrationResponse */ static int hf_ranap_MBMSRegistrationFailure_PDU = -1; /* MBMSRegistrationFailure */ static int hf_ranap_MBMSCNDe_RegistrationRequest_PDU = -1; /* MBMSCNDe_RegistrationRequest */ static int hf_ranap_MBMSCNDe_RegistrationResponse_PDU = -1; /* MBMSCNDe_RegistrationResponse */ static int hf_ranap_MBMSRABEstablishmentIndication_PDU = -1; /* MBMSRABEstablishmentIndication */ static int hf_ranap_MBMSRABReleaseRequest_PDU = -1; /* MBMSRABReleaseRequest */ static int hf_ranap_MBMSRABRelease_PDU = -1; /* MBMSRABRelease */ static int hf_ranap_MBMSRABReleaseFailure_PDU = -1; /* MBMSRABReleaseFailure */ static int hf_ranap_SRVCC_CSKeysRequest_PDU = -1; /* SRVCC_CSKeysRequest */ static int hf_ranap_SRVCC_CSKeysResponse_PDU = -1; /* SRVCC_CSKeysResponse */ static int hf_ranap_RANAP_PDU_PDU = -1; /* RANAP_PDU */ static int hf_ranap_local = -1; /* INTEGER_0_65535 */ static int hf_ranap_global = -1; /* OBJECT_IDENTIFIER */ static int hf_ranap_ProtocolIE_Container_item = -1; /* ProtocolIE_Field */ static int hf_ranap_id = -1; /* ProtocolIE_ID */ static int hf_ranap_criticality = -1; /* Criticality */ static int hf_ranap_ie_field_value = -1; /* T_ie_field_value */ static int hf_ranap_ProtocolIE_ContainerPair_item = -1; /* ProtocolIE_FieldPair */ static int hf_ranap_firstCriticality = -1; /* Criticality */ static int hf_ranap_firstValue = -1; /* T_firstValue */ static int hf_ranap_secondCriticality = -1; /* Criticality */ static int hf_ranap_secondValue = -1; /* T_secondValue */ static int hf_ranap_ProtocolIE_ContainerList_item = -1; /* ProtocolIE_Container */ static int hf_ranap_ProtocolIE_ContainerPairList_item = -1; /* ProtocolIE_ContainerPair */ static int hf_ranap_ProtocolExtensionContainer_item = -1; /* ProtocolExtensionField */ static int hf_ranap_ext_id = -1; /* ProtocolExtensionID */ static int hf_ranap_extensionValue = -1; /* T_extensionValue */ static int hf_ranap_PrivateIE_Container_item = -1; /* PrivateIE_Field */ static int hf_ranap_private_id = -1; /* PrivateIE_ID */ static int hf_ranap_private_value = -1; /* T_private_value */ static int hf_ranap_priorityLevel = -1; /* PriorityLevel */ static int hf_ranap_pre_emptionCapability = -1; /* Pre_emptionCapability */ static int hf_ranap_pre_emptionVulnerability = -1; /* Pre_emptionVulnerability */ static int hf_ranap_queuingAllowed = -1; /* QueuingAllowed */ static int hf_ranap_iE_Extensions = -1; /* ProtocolExtensionContainer */ static int hf_ranap_altMaxBitrateInf = -1; /* Alt_RAB_Parameter_MaxBitrateInf */ static int hf_ranap_altGuaranteedBitRateInf = -1; /* Alt_RAB_Parameter_GuaranteedBitrateInf */ static int hf_ranap_altExtendedGuaranteedBitrateType = -1; /* Alt_RAB_Parameter_GuaranteedBitrateType */ static int hf_ranap_altExtendedGuaranteedBitrates = -1; /* Alt_RAB_Parameter_ExtendedGuaranteedBitrates */ static int hf_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrates_item = -1; /* Alt_RAB_Parameter_ExtendedGuaranteedBitrateList */ static int hf_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateList_item = -1; /* ExtendedGuaranteedBitrate */ static int hf_ranap_altGuaranteedBitrateType = -1; /* Alt_RAB_Parameter_GuaranteedBitrateType */ static int hf_ranap_altGuaranteedBitrates = -1; /* Alt_RAB_Parameter_GuaranteedBitrates */ static int hf_ranap_Alt_RAB_Parameter_GuaranteedBitrates_item = -1; /* Alt_RAB_Parameter_GuaranteedBitrateList */ static int hf_ranap_Alt_RAB_Parameter_GuaranteedBitrateList_item = -1; /* GuaranteedBitrate */ static int hf_ranap_altSupportedGuaranteedBitrateType = -1; /* Alt_RAB_Parameter_GuaranteedBitrateType */ static int hf_ranap_altSupportedGuaranteedBitrates = -1; /* Alt_RAB_Parameter_SupportedGuaranteedBitrates */ static int hf_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrates_item = -1; /* SupportedRAB_ParameterBitrateList */ static int hf_ranap_altExtendedMaxBitrateType = -1; /* Alt_RAB_Parameter_MaxBitrateType */ static int hf_ranap_altExtendedMaxBitrates = -1; /* Alt_RAB_Parameter_ExtendedMaxBitrates */ static int hf_ranap_Alt_RAB_Parameter_ExtendedMaxBitrates_item = -1; /* Alt_RAB_Parameter_ExtendedMaxBitrateList */ static int hf_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateList_item = -1; /* ExtendedMaxBitrate */ static int hf_ranap_altMaxBitrateType = -1; /* Alt_RAB_Parameter_MaxBitrateType */ static int hf_ranap_altMaxBitrates = -1; /* Alt_RAB_Parameter_MaxBitrates */ static int hf_ranap_Alt_RAB_Parameter_MaxBitrates_item = -1; /* Alt_RAB_Parameter_MaxBitrateList */ static int hf_ranap_Alt_RAB_Parameter_MaxBitrateList_item = -1; /* MaxBitrate */ static int hf_ranap_altSupportedMaxBitrateType = -1; /* Alt_RAB_Parameter_MaxBitrateType */ static int hf_ranap_altSupportedMaxBitrates = -1; /* Alt_RAB_Parameter_SupportedMaxBitrates */ static int hf_ranap_Alt_RAB_Parameter_SupportedMaxBitrates_item = -1; /* SupportedRAB_ParameterBitrateList */ static int hf_ranap_sAI = -1; /* SAI */ static int hf_ranap_geographicalArea = -1; /* GeographicalArea */ static int hf_ranap_assMaxBitrateInf = -1; /* Ass_RAB_Parameter_MaxBitrateList */ static int hf_ranap_assGuaranteedBitRateInf = -1; /* Ass_RAB_Parameter_GuaranteedBitrateList */ static int hf_ranap_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList_item = -1; /* ExtendedGuaranteedBitrate */ static int hf_ranap_Ass_RAB_Parameter_ExtendedMaxBitrateList_item = -1; /* ExtendedMaxBitrate */ static int hf_ranap_Ass_RAB_Parameter_GuaranteedBitrateList_item = -1; /* GuaranteedBitrate */ static int hf_ranap_Ass_RAB_Parameter_MaxBitrateList_item = -1; /* MaxBitrate */ static int hf_ranap_AuthorisedPLMNs_item = -1; /* AuthorisedPLMNs_item */ static int hf_ranap_pLMNidentity = -1; /* PLMNidentity */ static int hf_ranap_authorisedSNAsList = -1; /* AuthorisedSNAs */ static int hf_ranap_AuthorisedSNAs_item = -1; /* SNAC */ static int hf_ranap_cipheringKeyFlag = -1; /* BIT_STRING_SIZE_1 */ static int hf_ranap_currentDecipheringKey = -1; /* BIT_STRING_SIZE_56 */ static int hf_ranap_nextDecipheringKey = -1; /* BIT_STRING_SIZE_56 */ static int hf_ranap_radioNetwork = -1; /* CauseRadioNetwork */ static int hf_ranap_transmissionNetwork = -1; /* CauseTransmissionNetwork */ static int hf_ranap_nAS = -1; /* CauseNAS */ static int hf_ranap_protocol = -1; /* CauseProtocol */ static int hf_ranap_misc = -1; /* CauseMisc */ static int hf_ranap_non_Standard = -1; /* CauseNon_Standard */ static int hf_ranap_radioNetworkExtension = -1; /* CauseRadioNetworkExtension */ static int hf_ranap_cellIdList = -1; /* CellIdList */ static int hf_ranap_CellIdList_item = -1; /* Cell_Id */ static int hf_ranap_cell_Capacity_Class_Value = -1; /* Cell_Capacity_Class_Value */ static int hf_ranap_loadValue = -1; /* LoadValue */ static int hf_ranap_rTLoadValue = -1; /* RTLoadValue */ static int hf_ranap_nRTLoadInformationValue = -1; /* NRTLoadInformationValue */ static int hf_ranap_sourceCellID = -1; /* SourceCellID */ static int hf_ranap_uplinkCellLoadInformation = -1; /* CellLoadInformation */ static int hf_ranap_downlinkCellLoadInformation = -1; /* CellLoadInformation */ static int hf_ranap_procedureCode = -1; /* ProcedureCode */ static int hf_ranap_triggeringMessage = -1; /* TriggeringMessage */ static int hf_ranap_procedureCriticality = -1; /* Criticality */ static int hf_ranap_iEsCriticalityDiagnostics = -1; /* CriticalityDiagnostics_IE_List */ static int hf_ranap_CriticalityDiagnostics_IE_List_item = -1; /* CriticalityDiagnostics_IE_List_item */ static int hf_ranap_iECriticality = -1; /* Criticality */ static int hf_ranap_iE_ID = -1; /* ProtocolIE_ID */ static int hf_ranap_repetitionNumber = -1; /* RepetitionNumber0 */ static int hf_ranap_MessageStructure_item = -1; /* MessageStructure_item */ static int hf_ranap_item_repetitionNumber = -1; /* RepetitionNumber1 */ static int hf_ranap_lAC = -1; /* LAC */ static int hf_ranap_cI = -1; /* CI */ static int hf_ranap_CSG_Id_List_item = -1; /* CSG_Id */ static int hf_ranap_newRAListofIdleModeUEs = -1; /* NewRAListofIdleModeUEs */ static int hf_ranap_rAListwithNoIdleModeUEsAnyMore = -1; /* RAListwithNoIdleModeUEsAnyMore */ static int hf_ranap_NewRAListofIdleModeUEs_item = -1; /* RAC */ static int hf_ranap_RAListwithNoIdleModeUEsAnyMore_item = -1; /* RAC */ static int hf_ranap_macroENB_ID = -1; /* BIT_STRING_SIZE_20 */ static int hf_ranap_homeENB_ID = -1; /* BIT_STRING_SIZE_28 */ static int hf_ranap_permittedAlgorithms = -1; /* PermittedEncryptionAlgorithms */ static int hf_ranap_key = -1; /* EncryptionKey */ static int hf_ranap_iMEIlist = -1; /* IMEIList */ static int hf_ranap_iMEISVlist = -1; /* IMEISVList */ static int hf_ranap_iMEIgroup = -1; /* IMEIGroup */ static int hf_ranap_iMEISVgroup = -1; /* IMEISVGroup */ static int hf_ranap_measurementQuantity = -1; /* MeasurementQuantity */ static int hf_ranap_threshold = -1; /* INTEGER_M120_165 */ static int hf_ranap_threshold_01 = -1; /* INTEGER_M120_M25 */ static int hf_ranap_GANSS_PositioningDataSet_item = -1; /* GANSS_PositioningMethodAndUsage */ static int hf_ranap_point = -1; /* GA_Point */ static int hf_ranap_pointWithUnCertainty = -1; /* GA_PointWithUnCertainty */ static int hf_ranap_polygon = -1; /* GA_Polygon */ static int hf_ranap_pointWithUncertaintyEllipse = -1; /* GA_PointWithUnCertaintyEllipse */ static int hf_ranap_pointWithAltitude = -1; /* GA_PointWithAltitude */ static int hf_ranap_pointWithAltitudeAndUncertaintyEllipsoid = -1; /* GA_PointWithAltitudeAndUncertaintyEllipsoid */ static int hf_ranap_ellipsoidArc = -1; /* GA_EllipsoidArc */ static int hf_ranap_latitudeSign = -1; /* T_latitudeSign */ static int hf_ranap_latitude = -1; /* INTEGER_0_8388607 */ static int hf_ranap_longitude = -1; /* INTEGER_M8388608_8388607 */ static int hf_ranap_directionOfAltitude = -1; /* T_directionOfAltitude */ static int hf_ranap_altitude = -1; /* INTEGER_0_32767 */ static int hf_ranap_geographicalCoordinates = -1; /* GeographicalCoordinates */ static int hf_ranap_innerRadius = -1; /* INTEGER_0_65535 */ static int hf_ranap_uncertaintyRadius = -1; /* INTEGER_0_127 */ static int hf_ranap_offsetAngle = -1; /* INTEGER_0_179 */ static int hf_ranap_includedAngle = -1; /* INTEGER_0_179 */ static int hf_ranap_confidence = -1; /* INTEGER_0_127 */ static int hf_ranap_altitudeAndDirection = -1; /* GA_AltitudeAndDirection */ static int hf_ranap_uncertaintyEllipse = -1; /* GA_UncertaintyEllipse */ static int hf_ranap_uncertaintyAltitude = -1; /* INTEGER_0_127 */ static int hf_ranap_uncertaintyCode = -1; /* INTEGER_0_127 */ static int hf_ranap_GA_Polygon_item = -1; /* GA_Polygon_item */ static int hf_ranap_uncertaintySemi_major = -1; /* INTEGER_0_127 */ static int hf_ranap_uncertaintySemi_minor = -1; /* INTEGER_0_127 */ static int hf_ranap_orientationOfMajorAxis = -1; /* INTEGER_0_179 */ static int hf_ranap_lAI = -1; /* LAI */ static int hf_ranap_rAC = -1; /* RAC */ static int hf_ranap_cN_ID = -1; /* CN_ID */ static int hf_ranap_rNC_ID = -1; /* RNC_ID */ static int hf_ranap_iMEI = -1; /* IMEI */ static int hf_ranap_iMEIMask = -1; /* BIT_STRING_SIZE_7 */ static int hf_ranap_IMEIList_item = -1; /* IMEI */ static int hf_ranap_iMEISV = -1; /* IMEISV */ static int hf_ranap_iMEISVMask = -1; /* BIT_STRING_SIZE_7 */ static int hf_ranap_IMEISVList_item = -1; /* IMEISV */ static int hf_ranap_measurementsToActivate = -1; /* MeasurementsToActivate */ static int hf_ranap_m1report = -1; /* M1Report */ static int hf_ranap_m2report = -1; /* M2Report */ static int hf_ranap_requestedMBMSIPMulticastAddressandAPNRequest = -1; /* RequestedMBMSIPMulticastAddressandAPNRequest */ static int hf_ranap_requestedMulticastServiceList = -1; /* RequestedMulticastServiceList */ static int hf_ranap_mBMSIPMulticastAddressandAPNRequest = -1; /* MBMSIPMulticastAddressandAPNRequest */ static int hf_ranap_permanentNAS_UE_ID = -1; /* PermanentNAS_UE_ID */ static int hf_ranap_rNCTraceInformation = -1; /* RNCTraceInformation */ static int hf_ranap_permittedAlgorithms_01 = -1; /* PermittedIntegrityProtectionAlgorithms */ static int hf_ranap_key_01 = -1; /* IntegrityProtectionKey */ static int hf_ranap_rIM_Transfer = -1; /* RIM_Transfer */ static int hf_ranap_gTP_TEI = -1; /* GTP_TEI */ static int hf_ranap_bindingID = -1; /* BindingID */ static int hf_ranap_LA_LIST_item = -1; /* LA_LIST_item */ static int hf_ranap_listOF_SNAs = -1; /* ListOF_SNAs */ static int hf_ranap_ageOfSAI = -1; /* INTEGER_0_32767 */ static int hf_ranap_ListOF_SNAs_item = -1; /* SNAC */ static int hf_ranap_ListOfInterfacesToTrace_item = -1; /* InterfacesToTraceItem */ static int hf_ranap_interface = -1; /* T_interface */ static int hf_ranap_requestedLocationRelatedDataType = -1; /* RequestedLocationRelatedDataType */ static int hf_ranap_requestedGPSAssistanceData = -1; /* RequestedGPSAssistanceData */ static int hf_ranap_reportChangeOfSAI = -1; /* ReportChangeOfSAI */ static int hf_ranap_periodicReportingIndicator = -1; /* PeriodicReportingIndicator */ static int hf_ranap_directReportingIndicator = -1; /* DirectReportingIndicator */ static int hf_ranap_verticalAccuracyCode = -1; /* VerticalAccuracyCode */ static int hf_ranap_positioningPriorityChangeSAI = -1; /* PositioningPriority */ static int hf_ranap_positioningPriorityDirect = -1; /* PositioningPriority */ static int hf_ranap_clientTypePeriodic = -1; /* ClientType */ static int hf_ranap_clientTypeDirect = -1; /* ClientType */ static int hf_ranap_responseTime = -1; /* ResponseTime */ static int hf_ranap_includeVelocity = -1; /* IncludeVelocity */ static int hf_ranap_periodicLocationInfo = -1; /* PeriodicLocationInfo */ static int hf_ranap_periodic = -1; /* MDT_Report_Parameters */ static int hf_ranap_event1F = -1; /* Event1F_Parameters */ static int hf_ranap_event1I = -1; /* Event1I_Parameters */ static int hf_ranap_MBMSIPMulticastAddressandAPNRequest_item = -1; /* TMGI */ static int hf_ranap_cellbased = -1; /* CellBased */ static int hf_ranap_labased = -1; /* LABased */ static int hf_ranap_rabased = -1; /* RABased */ static int hf_ranap_plmn_area_based = -1; /* NULL */ static int hf_ranap_mdtActivation = -1; /* MDT_Activation */ static int hf_ranap_mdtAreaScope = -1; /* MDTAreaScope */ static int hf_ranap_mdtMode = -1; /* MDTMode */ static int hf_ranap_immediateMDT = -1; /* ImmediateMDT */ static int hf_ranap_loggedMDT = -1; /* LoggedMDT */ static int hf_ranap_reportInterval = -1; /* ReportInterval */ static int hf_ranap_reportAmount = -1; /* ReportAmount */ static int hf_ranap_accessPointName = -1; /* Offload_RAB_Parameters_APN */ static int hf_ranap_chargingCharacteristics = -1; /* Offload_RAB_Parameters_ChargingCharacteristics */ static int hf_ranap_rAI = -1; /* RAI */ static int hf_ranap_PDP_TypeInformation_item = -1; /* PDP_Type */ static int hf_ranap_PDP_TypeInformation_extension_item = -1; /* PDP_Type_extension */ static int hf_ranap_reportingAmount = -1; /* INTEGER_1_8639999_ */ static int hf_ranap_reportingInterval = -1; /* INTEGER_1_8639999_ */ static int hf_ranap_iMSI = -1; /* IMSI */ static int hf_ranap_PermittedEncryptionAlgorithms_item = -1; /* EncryptionAlgorithm */ static int hf_ranap_PermittedIntegrityProtectionAlgorithms_item = -1; /* IntegrityProtectionAlgorithm */ static int hf_ranap_laiList = -1; /* LAI_List */ static int hf_ranap_LAI_List_item = -1; /* LAI */ static int hf_ranap_loggingInterval = -1; /* LoggingInterval */ static int hf_ranap_loggingDuration = -1; /* LoggingDuration */ static int hf_ranap_PLMNs_in_shared_network_item = -1; /* PLMNs_in_shared_network_item */ static int hf_ranap_lA_LIST = -1; /* LA_LIST */ static int hf_ranap_PositioningDataSet_item = -1; /* PositioningMethodAndUsage */ static int hf_ranap_positioningDataDiscriminator = -1; /* PositioningDataDiscriminator */ static int hf_ranap_positioningDataSet = -1; /* PositioningDataSet */ static int hf_ranap_shared_network_information = -1; /* Shared_Network_Information */ static int hf_ranap_raiList = -1; /* RAI_List */ static int hf_ranap_RAI_List_item = -1; /* RAI */ static int hf_ranap_RABDataVolumeReport_item = -1; /* RABDataVolumeReport_item */ static int hf_ranap_dl_UnsuccessfullyTransmittedDataVolume = -1; /* UnsuccessfullyTransmittedDataVolume */ static int hf_ranap_dataVolumeReference = -1; /* DataVolumeReference */ static int hf_ranap_RAB_Parameter_ExtendedGuaranteedBitrateList_item = -1; /* ExtendedGuaranteedBitrate */ static int hf_ranap_RAB_Parameter_ExtendedMaxBitrateList_item = -1; /* ExtendedMaxBitrate */ static int hf_ranap_RAB_Parameter_GuaranteedBitrateList_item = -1; /* GuaranteedBitrate */ static int hf_ranap_RAB_Parameter_MaxBitrateList_item = -1; /* MaxBitrate */ static int hf_ranap_trafficClass = -1; /* TrafficClass */ static int hf_ranap_rAB_AsymmetryIndicator = -1; /* RAB_AsymmetryIndicator */ static int hf_ranap_maxBitrate = -1; /* RAB_Parameter_MaxBitrateList */ static int hf_ranap_guaranteedBitRate = -1; /* RAB_Parameter_GuaranteedBitrateList */ static int hf_ranap_deliveryOrder = -1; /* DeliveryOrder */ static int hf_ranap_maxSDU_Size = -1; /* MaxSDU_Size */ static int hf_ranap_sDU_Parameters = -1; /* SDU_Parameters */ static int hf_ranap_transferDelay = -1; /* TransferDelay */ static int hf_ranap_trafficHandlingPriority = -1; /* TrafficHandlingPriority */ static int hf_ranap_allocationOrRetentionPriority = -1; /* AllocationOrRetentionPriority */ static int hf_ranap_sourceStatisticsDescriptor = -1; /* SourceStatisticsDescriptor */ static int hf_ranap_relocationRequirement = -1; /* RelocationRequirement */ static int hf_ranap_RABParametersList_item = -1; /* RABParametersList_item */ static int hf_ranap_rab_Id = -1; /* RAB_ID */ static int hf_ranap_cn_domain = -1; /* CN_DomainIndicator */ static int hf_ranap_rabDataVolumeReport = -1; /* RABDataVolumeReport */ static int hf_ranap_upInformation = -1; /* UPInformation */ static int hf_ranap_RAB_TrCH_Mapping_item = -1; /* RAB_TrCH_MappingItem */ static int hf_ranap_rAB_ID = -1; /* RAB_ID */ static int hf_ranap_trCH_ID_List = -1; /* TrCH_ID_List */ static int hf_ranap_notEmptyRAListofIdleModeUEs = -1; /* NotEmptyRAListofIdleModeUEs */ static int hf_ranap_emptyFullRAListofIdleModeUEs = -1; /* T_emptyFullRAListofIdleModeUEs */ static int hf_ranap_rAofIdleModeUEs = -1; /* RAofIdleModeUEs */ static int hf_ranap_RAofIdleModeUEs_item = -1; /* RAC */ static int hf_ranap_LAListofIdleModeUEs_item = -1; /* LAI */ static int hf_ranap_RequestedMBMSIPMulticastAddressandAPNRequest_item = -1; /* MBMSIPMulticastAddressandAPNlist */ static int hf_ranap_tMGI = -1; /* TMGI */ static int hf_ranap_iPMulticastAddress = -1; /* IPMulticastAddress */ static int hf_ranap_aPN = -1; /* APN */ static int hf_ranap_RequestedMulticastServiceList_item = -1; /* TMGI */ static int hf_ranap_requestedMaxBitrates = -1; /* Requested_RAB_Parameter_MaxBitrateList */ static int hf_ranap_requestedGuaranteedBitrates = -1; /* Requested_RAB_Parameter_GuaranteedBitrateList */ static int hf_ranap_Requested_RAB_Parameter_ExtendedMaxBitrateList_item = -1; /* ExtendedMaxBitrate */ static int hf_ranap_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList_item = -1; /* ExtendedGuaranteedBitrate */ static int hf_ranap_Requested_RAB_Parameter_MaxBitrateList_item = -1; /* MaxBitrate */ static int hf_ranap_Requested_RAB_Parameter_GuaranteedBitrateList_item = -1; /* GuaranteedBitrate */ static int hf_ranap_event = -1; /* Event */ static int hf_ranap_reportArea = -1; /* ReportArea */ static int hf_ranap_accuracyCode = -1; /* INTEGER_0_127 */ static int hf_ranap_mantissa = -1; /* INTEGER_1_9 */ static int hf_ranap_exponent = -1; /* INTEGER_1_8 */ static int hf_ranap_rIMInformation = -1; /* RIMInformation */ static int hf_ranap_rIMRoutingAddress = -1; /* RIMRoutingAddress */ static int hf_ranap_targetRNC_ID = -1; /* TargetRNC_ID */ static int hf_ranap_gERAN_Cell_ID = -1; /* GERAN_Cell_ID */ static int hf_ranap_targeteNB_ID = -1; /* TargetENB_ID */ static int hf_ranap_traceReference = -1; /* TraceReference */ static int hf_ranap_traceActivationIndicator = -1; /* T_traceActivationIndicator */ static int hf_ranap_equipmentsToBeTraced = -1; /* EquipmentsToBeTraced */ static int hf_ranap_rabParmetersList = -1; /* RABParametersList */ static int hf_ranap_locationReporting = -1; /* LocationReportingTransferInformation */ static int hf_ranap_traceInformation = -1; /* TraceInformation */ static int hf_ranap_sourceSAI = -1; /* SAI */ static int hf_ranap_sAC = -1; /* SAC */ static int hf_ranap_pLMNs_in_shared_network = -1; /* PLMNs_in_shared_network */ static int hf_ranap_exponent_1_8 = -1; /* INTEGER_1_6 */ static int hf_ranap_SDU_FormatInformationParameters_item = -1; /* SDU_FormatInformationParameters_item */ static int hf_ranap_subflowSDU_Size = -1; /* SubflowSDU_Size */ static int hf_ranap_rAB_SubflowCombinationBitRate = -1; /* RAB_SubflowCombinationBitRate */ static int hf_ranap_SDU_Parameters_item = -1; /* SDU_Parameters_item */ static int hf_ranap_sDU_ErrorRatio = -1; /* SDU_ErrorRatio */ static int hf_ranap_residualBitErrorRatio = -1; /* ResidualBitErrorRatio */ static int hf_ranap_deliveryOfErroneousSDU = -1; /* DeliveryOfErroneousSDU */ static int hf_ranap_sDU_FormatInformationParameters = -1; /* SDU_FormatInformationParameters */ static int hf_ranap_authorisedPLMNs = -1; /* AuthorisedPLMNs */ static int hf_ranap_sourceUTRANCellID = -1; /* SourceUTRANCellID */ static int hf_ranap_sourceGERANCellID = -1; /* CGI */ static int hf_ranap_sourceRNC_ID = -1; /* SourceRNC_ID */ static int hf_ranap_rRC_Container = -1; /* RRC_Container */ static int hf_ranap_numberOfIuInstances = -1; /* NumberOfIuInstances */ static int hf_ranap_relocationType = -1; /* RelocationType */ static int hf_ranap_chosenIntegrityProtectionAlgorithm = -1; /* ChosenIntegrityProtectionAlgorithm */ static int hf_ranap_integrityProtectionKey = -1; /* IntegrityProtectionKey */ static int hf_ranap_chosenEncryptionAlgorithForSignalling = -1; /* ChosenEncryptionAlgorithm */ static int hf_ranap_cipheringKey = -1; /* EncryptionKey */ static int hf_ranap_chosenEncryptionAlgorithForCS = -1; /* ChosenEncryptionAlgorithm */ static int hf_ranap_chosenEncryptionAlgorithForPS = -1; /* ChosenEncryptionAlgorithm */ static int hf_ranap_d_RNTI = -1; /* D_RNTI */ static int hf_ranap_targetCellId = -1; /* TargetCellId */ static int hf_ranap_rAB_TrCH_Mapping = -1; /* RAB_TrCH_Mapping */ static int hf_ranap_rSRP = -1; /* INTEGER_0_97 */ static int hf_ranap_rSRQ = -1; /* INTEGER_0_34 */ static int hf_ranap_iRATmeasurementParameters = -1; /* IRATmeasurementParameters */ static int hf_ranap_measurementDuration = -1; /* INTEGER_1_100 */ static int hf_ranap_eUTRANFrequencies = -1; /* EUTRANFrequencies */ static int hf_ranap_EUTRANFrequencies_item = -1; /* EUTRANFrequencies_item */ static int hf_ranap_earfcn = -1; /* INTEGER_0_65535 */ static int hf_ranap_measBand = -1; /* MeasBand */ static int hf_ranap_SupportedRAB_ParameterBitrateList_item = -1; /* SupportedBitrate */ static int hf_ranap_uTRANcellID = -1; /* TargetCellId */ static int hf_ranap_SRB_TrCH_Mapping_item = -1; /* SRB_TrCH_MappingItem */ static int hf_ranap_sRB_ID = -1; /* SRB_ID */ static int hf_ranap_trCH_ID = -1; /* TrCH_ID */ static int hf_ranap_nonce = -1; /* BIT_STRING_SIZE_128 */ static int hf_ranap_tAC = -1; /* TAC */ static int hf_ranap_cGI = -1; /* CGI */ static int hf_ranap_eNB_ID = -1; /* ENB_ID */ static int hf_ranap_selectedTAI = -1; /* TAI */ static int hf_ranap_tMSI = -1; /* TMSI */ static int hf_ranap_p_TMSI = -1; /* P_TMSI */ static int hf_ranap_serviceID = -1; /* OCTET_STRING_SIZE_3 */ static int hf_ranap_ue_identity = -1; /* UE_ID */ static int hf_ranap_tracePropagationParameters = -1; /* TracePropagationParameters */ static int hf_ranap_traceRecordingSessionReference = -1; /* TraceRecordingSessionReference */ static int hf_ranap_traceDepth = -1; /* TraceDepth */ static int hf_ranap_listOfInterfacesToTrace = -1; /* ListOfInterfacesToTrace */ static int hf_ranap_dCH_ID = -1; /* DCH_ID */ static int hf_ranap_dSCH_ID = -1; /* DSCH_ID */ static int hf_ranap_uSCH_ID = -1; /* USCH_ID */ static int hf_ranap_TrCH_ID_List_item = -1; /* TrCH_ID */ static int hf_ranap_uE_AggregateMaximumBitRateDownlink = -1; /* UE_AggregateMaximumBitRateDownlink */ static int hf_ranap_uE_AggregateMaximumBitRateUplink = -1; /* UE_AggregateMaximumBitRateUplink */ static int hf_ranap_imsi = -1; /* IMSI */ static int hf_ranap_imei = -1; /* IMEI */ static int hf_ranap_imeisv = -1; /* IMEISV */ static int hf_ranap_uESBI_IuA = -1; /* UESBI_IuA */ static int hf_ranap_uESBI_IuB = -1; /* UESBI_IuB */ static int hf_ranap_frameSeqNoUL = -1; /* FrameSequenceNumber */ static int hf_ranap_frameSeqNoDL = -1; /* FrameSequenceNumber */ static int hf_ranap_pdu14FrameSeqNoUL = -1; /* PDUType14FrameSequenceNumber */ static int hf_ranap_pdu14FrameSeqNoDL = -1; /* PDUType14FrameSequenceNumber */ static int hf_ranap_dataPDUType = -1; /* DataPDUType */ static int hf_ranap_upinitialisationFrame = -1; /* UPInitialisationFrame */ static int hf_ranap_horizontalVelocity = -1; /* HorizontalVelocity */ static int hf_ranap_horizontalWithVerticalVelocity = -1; /* HorizontalWithVerticalVelocity */ static int hf_ranap_horizontalVelocityWithUncertainty = -1; /* HorizontalVelocityWithUncertainty */ static int hf_ranap_horizontalWithVeritcalVelocityAndUncertainty = -1; /* HorizontalWithVerticalVelocityAndUncertainty */ static int hf_ranap_horizontalSpeedAndBearing = -1; /* HorizontalSpeedAndBearing */ static int hf_ranap_veritcalVelocity = -1; /* VerticalVelocity */ static int hf_ranap_uncertaintySpeed = -1; /* INTEGER_0_255 */ static int hf_ranap_horizontalUncertaintySpeed = -1; /* INTEGER_0_255 */ static int hf_ranap_verticalUncertaintySpeed = -1; /* INTEGER_0_255 */ static int hf_ranap_bearing = -1; /* INTEGER_0_359 */ static int hf_ranap_horizontalSpeed = -1; /* INTEGER_0_2047 */ static int hf_ranap_veritcalSpeed = -1; /* INTEGER_0_255 */ static int hf_ranap_veritcalSpeedDirection = -1; /* VerticalSpeedDirection */ static int hf_ranap_protocolIEs = -1; /* ProtocolIE_Container */ static int hf_ranap_protocolExtensions = -1; /* ProtocolExtensionContainer */ static int hf_ranap_rab_dl_UnsuccessfullyTransmittedDataVolume = -1; /* DataVolumeList */ static int hf_ranap_dL_GTP_PDU_SequenceNumber = -1; /* DL_GTP_PDU_SequenceNumber */ static int hf_ranap_uL_GTP_PDU_SequenceNumber = -1; /* UL_GTP_PDU_SequenceNumber */ static int hf_ranap_transportLayerAddress = -1; /* TransportLayerAddress */ static int hf_ranap_iuTransportAssociation = -1; /* IuTransportAssociation */ static int hf_ranap_nAS_SynchronisationIndicator = -1; /* NAS_SynchronisationIndicator */ static int hf_ranap_rAB_Parameters = -1; /* RAB_Parameters */ static int hf_ranap_dataVolumeReportingIndication = -1; /* DataVolumeReportingIndication */ static int hf_ranap_pDP_TypeInformation = -1; /* PDP_TypeInformation */ static int hf_ranap_userPlaneInformation = -1; /* UserPlaneInformation */ static int hf_ranap_service_Handover = -1; /* Service_Handover */ static int hf_ranap_userPlaneMode = -1; /* UserPlaneMode */ static int hf_ranap_uP_ModeVersions = -1; /* UP_ModeVersions */ static int hf_ranap_joinedMBMSBearerService_IEs = -1; /* JoinedMBMSBearerService_IEs */ static int hf_ranap_JoinedMBMSBearerService_IEs_item = -1; /* JoinedMBMSBearerService_IEs_item */ static int hf_ranap_mBMS_PTP_RAB_ID = -1; /* MBMS_PTP_RAB_ID */ static int hf_ranap_cause = -1; /* Cause */ static int hf_ranap_dl_GTP_PDU_SequenceNumber = -1; /* DL_GTP_PDU_SequenceNumber */ static int hf_ranap_ul_GTP_PDU_SequenceNumber = -1; /* UL_GTP_PDU_SequenceNumber */ static int hf_ranap_dl_N_PDU_SequenceNumber = -1; /* DL_N_PDU_SequenceNumber */ static int hf_ranap_ul_N_PDU_SequenceNumber = -1; /* UL_N_PDU_SequenceNumber */ static int hf_ranap_iuSigConId = -1; /* IuSignallingConnectionIdentifier */ static int hf_ranap_transportLayerAddressReq1 = -1; /* TransportLayerAddress */ static int hf_ranap_iuTransportAssociationReq1 = -1; /* IuTransportAssociation */ static int hf_ranap_ass_RAB_Parameters = -1; /* Ass_RAB_Parameters */ static int hf_ranap_transportLayerAddressRes1 = -1; /* TransportLayerAddress */ static int hf_ranap_iuTransportAssociationRes1 = -1; /* IuTransportAssociation */ static int hf_ranap_rab2beReleasedList = -1; /* RAB_ToBeReleasedList_EnhancedRelocCompleteRes */ static int hf_ranap_transportLayerInformation = -1; /* TransportLayerInformation */ static int hf_ranap_dl_dataVolumes = -1; /* DataVolumeList */ static int hf_ranap_DataVolumeList_item = -1; /* DataVolumeList_item */ static int hf_ranap_gERAN_Classmark = -1; /* GERAN_Classmark */ static int hf_ranap_privateIEs = -1; /* PrivateIE_Container */ static int hf_ranap_nAS_PDU = -1; /* NAS_PDU */ static int hf_ranap_sAPI = -1; /* SAPI */ static int hf_ranap_cN_DomainIndicator = -1; /* CN_DomainIndicator */ static int hf_ranap_dataForwardingInformation = -1; /* TNLInformationEnhRelInfoReq */ static int hf_ranap_sourceSideIuULTNLInfo = -1; /* TNLInformationEnhRelInfoReq */ static int hf_ranap_alt_RAB_Parameters = -1; /* Alt_RAB_Parameters */ static int hf_ranap_dataForwardingInformation_01 = -1; /* TNLInformationEnhRelInfoRes */ static int hf_ranap_dl_forwardingTransportLayerAddress = -1; /* TransportLayerAddress */ static int hf_ranap_dl_forwardingTransportAssociation = -1; /* IuTransportAssociation */ static int hf_ranap_requested_RAB_Parameter_Values = -1; /* Requested_RAB_Parameter_Values */ static int hf_ranap_mBMSHCIndicator = -1; /* MBMSHCIndicator */ static int hf_ranap_gTPDLTEID = -1; /* GTP_TEI */ static int hf_ranap_LeftMBMSBearerService_IEs_item = -1; /* LeftMBMSBearerService_IEs_item */ static int hf_ranap_UnsuccessfulLinking_IEs_item = -1; /* UnsuccessfulLinking_IEs_item */ static int hf_ranap_initiatingMessage = -1; /* InitiatingMessage */ static int hf_ranap_successfulOutcome = -1; /* SuccessfulOutcome */ static int hf_ranap_unsuccessfulOutcome = -1; /* UnsuccessfulOutcome */ static int hf_ranap_outcome = -1; /* Outcome */ static int hf_ranap_initiatingMessagevalue = -1; /* InitiatingMessage_value */ static int hf_ranap_successfulOutcome_value = -1; /* SuccessfulOutcome_value */ static int hf_ranap_unsuccessfulOutcome_value = -1; /* UnsuccessfulOutcome_value */ static int hf_ranap_value = -1; /* T_value */ /*--- End of included file: packet-ranap-hf.c ---*/ #line 78 "../../asn1/ranap/packet-ranap-template.c" /* Initialize the subtree pointers */ static int ett_ranap = -1; static int ett_ranap_TransportLayerAddress = -1; static int ett_ranap_TransportLayerAddress_nsap = -1; /*--- Included file: packet-ranap-ett.c ---*/ #line 1 "../../asn1/ranap/packet-ranap-ett.c" static gint ett_ranap_PrivateIE_ID = -1; static gint ett_ranap_ProtocolIE_Container = -1; static gint ett_ranap_ProtocolIE_Field = -1; static gint ett_ranap_ProtocolIE_ContainerPair = -1; static gint ett_ranap_ProtocolIE_FieldPair = -1; static gint ett_ranap_ProtocolIE_ContainerList = -1; static gint ett_ranap_ProtocolIE_ContainerPairList = -1; static gint ett_ranap_ProtocolExtensionContainer = -1; static gint ett_ranap_ProtocolExtensionField = -1; static gint ett_ranap_PrivateIE_Container = -1; static gint ett_ranap_PrivateIE_Field = -1; static gint ett_ranap_AllocationOrRetentionPriority = -1; static gint ett_ranap_Alt_RAB_Parameters = -1; static gint ett_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf = -1; static gint ett_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrates = -1; static gint ett_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateList = -1; static gint ett_ranap_Alt_RAB_Parameter_GuaranteedBitrateInf = -1; static gint ett_ranap_Alt_RAB_Parameter_GuaranteedBitrates = -1; static gint ett_ranap_Alt_RAB_Parameter_GuaranteedBitrateList = -1; static gint ett_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf = -1; static gint ett_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrates = -1; static gint ett_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateInf = -1; static gint ett_ranap_Alt_RAB_Parameter_ExtendedMaxBitrates = -1; static gint ett_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateList = -1; static gint ett_ranap_Alt_RAB_Parameter_MaxBitrateInf = -1; static gint ett_ranap_Alt_RAB_Parameter_MaxBitrates = -1; static gint ett_ranap_Alt_RAB_Parameter_MaxBitrateList = -1; static gint ett_ranap_Alt_RAB_Parameter_SupportedMaxBitrateInf = -1; static gint ett_ranap_Alt_RAB_Parameter_SupportedMaxBitrates = -1; static gint ett_ranap_AreaIdentity = -1; static gint ett_ranap_Ass_RAB_Parameters = -1; static gint ett_ranap_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList = -1; static gint ett_ranap_Ass_RAB_Parameter_ExtendedMaxBitrateList = -1; static gint ett_ranap_Ass_RAB_Parameter_GuaranteedBitrateList = -1; static gint ett_ranap_Ass_RAB_Parameter_MaxBitrateList = -1; static gint ett_ranap_AuthorisedPLMNs = -1; static gint ett_ranap_AuthorisedPLMNs_item = -1; static gint ett_ranap_AuthorisedSNAs = -1; static gint ett_ranap_BroadcastAssistanceDataDecipheringKeys = -1; static gint ett_ranap_Cause = -1; static gint ett_ranap_CellBased = -1; static gint ett_ranap_CellIdList = -1; static gint ett_ranap_CellLoadInformation = -1; static gint ett_ranap_CellLoadInformationGroup = -1; static gint ett_ranap_CriticalityDiagnostics = -1; static gint ett_ranap_CriticalityDiagnostics_IE_List = -1; static gint ett_ranap_CriticalityDiagnostics_IE_List_item = -1; static gint ett_ranap_MessageStructure = -1; static gint ett_ranap_MessageStructure_item = -1; static gint ett_ranap_CGI = -1; static gint ett_ranap_CSG_Id_List = -1; static gint ett_ranap_DeltaRAListofIdleModeUEs = -1; static gint ett_ranap_NewRAListofIdleModeUEs = -1; static gint ett_ranap_RAListwithNoIdleModeUEsAnyMore = -1; static gint ett_ranap_ENB_ID = -1; static gint ett_ranap_EncryptionInformation = -1; static gint ett_ranap_EquipmentsToBeTraced = -1; static gint ett_ranap_Event1F_Parameters = -1; static gint ett_ranap_Event1I_Parameters = -1; static gint ett_ranap_GANSS_PositioningDataSet = -1; static gint ett_ranap_GeographicalArea = -1; static gint ett_ranap_GeographicalCoordinates = -1; static gint ett_ranap_GA_AltitudeAndDirection = -1; static gint ett_ranap_GA_EllipsoidArc = -1; static gint ett_ranap_GA_Point = -1; static gint ett_ranap_GA_PointWithAltitude = -1; static gint ett_ranap_GA_PointWithAltitudeAndUncertaintyEllipsoid = -1; static gint ett_ranap_GA_PointWithUnCertainty = -1; static gint ett_ranap_GA_PointWithUnCertaintyEllipse = -1; static gint ett_ranap_GA_Polygon = -1; static gint ett_ranap_GA_Polygon_item = -1; static gint ett_ranap_GA_UncertaintyEllipse = -1; static gint ett_ranap_GERAN_Cell_ID = -1; static gint ett_ranap_GlobalCN_ID = -1; static gint ett_ranap_GlobalRNC_ID = -1; static gint ett_ranap_IMEIGroup = -1; static gint ett_ranap_IMEIList = -1; static gint ett_ranap_IMEISVGroup = -1; static gint ett_ranap_IMEISVList = -1; static gint ett_ranap_ImmediateMDT = -1; static gint ett_ranap_InformationRequested = -1; static gint ett_ranap_InformationRequestType = -1; static gint ett_ranap_InformationTransferType = -1; static gint ett_ranap_IntegrityProtectionInformation = -1; static gint ett_ranap_InterSystemInformationTransferType = -1; static gint ett_ranap_InterSystemInformation_TransparentContainer = -1; static gint ett_ranap_IuTransportAssociation = -1; static gint ett_ranap_LA_LIST = -1; static gint ett_ranap_LA_LIST_item = -1; static gint ett_ranap_LAI = -1; static gint ett_ranap_LastKnownServiceArea = -1; static gint ett_ranap_ListOF_SNAs = -1; static gint ett_ranap_ListOfInterfacesToTrace = -1; static gint ett_ranap_InterfacesToTraceItem = -1; static gint ett_ranap_LocationRelatedDataRequestType = -1; static gint ett_ranap_LocationReportingTransferInformation = -1; static gint ett_ranap_M1Report = -1; static gint ett_ranap_M2Report = -1; static gint ett_ranap_MBMSIPMulticastAddressandAPNRequest = -1; static gint ett_ranap_MDTAreaScope = -1; static gint ett_ranap_MDT_Configuration = -1; static gint ett_ranap_MDTMode = -1; static gint ett_ranap_MDT_Report_Parameters = -1; static gint ett_ranap_Offload_RAB_Parameters = -1; static gint ett_ranap_PagingAreaID = -1; static gint ett_ranap_PDP_TypeInformation = -1; static gint ett_ranap_PDP_TypeInformation_extension = -1; static gint ett_ranap_PeriodicLocationInfo = -1; static gint ett_ranap_PermanentNAS_UE_ID = -1; static gint ett_ranap_PermittedEncryptionAlgorithms = -1; static gint ett_ranap_PermittedIntegrityProtectionAlgorithms = -1; static gint ett_ranap_LABased = -1; static gint ett_ranap_LAI_List = -1; static gint ett_ranap_LoggedMDT = -1; static gint ett_ranap_PLMNs_in_shared_network = -1; static gint ett_ranap_PLMNs_in_shared_network_item = -1; static gint ett_ranap_PositioningDataSet = -1; static gint ett_ranap_PositionData = -1; static gint ett_ranap_ProvidedData = -1; static gint ett_ranap_RABased = -1; static gint ett_ranap_RAI_List = -1; static gint ett_ranap_RABDataVolumeReport = -1; static gint ett_ranap_RABDataVolumeReport_item = -1; static gint ett_ranap_RAB_Parameter_ExtendedGuaranteedBitrateList = -1; static gint ett_ranap_RAB_Parameter_ExtendedMaxBitrateList = -1; static gint ett_ranap_RAB_Parameter_GuaranteedBitrateList = -1; static gint ett_ranap_RAB_Parameter_MaxBitrateList = -1; static gint ett_ranap_RAB_Parameters = -1; static gint ett_ranap_RABParametersList = -1; static gint ett_ranap_RABParametersList_item = -1; static gint ett_ranap_RAB_TrCH_Mapping = -1; static gint ett_ranap_RAB_TrCH_MappingItem = -1; static gint ett_ranap_RAI = -1; static gint ett_ranap_RAListofIdleModeUEs = -1; static gint ett_ranap_NotEmptyRAListofIdleModeUEs = -1; static gint ett_ranap_RAofIdleModeUEs = -1; static gint ett_ranap_LAListofIdleModeUEs = -1; static gint ett_ranap_RequestedMBMSIPMulticastAddressandAPNRequest = -1; static gint ett_ranap_MBMSIPMulticastAddressandAPNlist = -1; static gint ett_ranap_RequestedMulticastServiceList = -1; static gint ett_ranap_Requested_RAB_Parameter_Values = -1; static gint ett_ranap_Requested_RAB_Parameter_ExtendedMaxBitrateList = -1; static gint ett_ranap_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList = -1; static gint ett_ranap_Requested_RAB_Parameter_MaxBitrateList = -1; static gint ett_ranap_Requested_RAB_Parameter_GuaranteedBitrateList = -1; static gint ett_ranap_RequestType = -1; static gint ett_ranap_ResidualBitErrorRatio = -1; static gint ett_ranap_RIM_Transfer = -1; static gint ett_ranap_RIMRoutingAddress = -1; static gint ett_ranap_RNCTraceInformation = -1; static gint ett_ranap_RNSAPRelocationParameters = -1; static gint ett_ranap_SAI = -1; static gint ett_ranap_Shared_Network_Information = -1; static gint ett_ranap_SDU_ErrorRatio = -1; static gint ett_ranap_SDU_FormatInformationParameters = -1; static gint ett_ranap_SDU_FormatInformationParameters_item = -1; static gint ett_ranap_SDU_Parameters = -1; static gint ett_ranap_SDU_Parameters_item = -1; static gint ett_ranap_SNA_Access_Information = -1; static gint ett_ranap_SourceCellID = -1; static gint ett_ranap_SourceID = -1; static gint ett_ranap_SourceRNC_ID = -1; static gint ett_ranap_SourceRNC_ToTargetRNC_TransparentContainer = -1; static gint ett_ranap_IRAT_Measurement_Configuration = -1; static gint ett_ranap_IRATmeasurementParameters = -1; static gint ett_ranap_EUTRANFrequencies = -1; static gint ett_ranap_EUTRANFrequencies_item = -1; static gint ett_ranap_SupportedRAB_ParameterBitrateList = -1; static gint ett_ranap_SourceUTRANCellID = -1; static gint ett_ranap_SRB_TrCH_Mapping = -1; static gint ett_ranap_SRB_TrCH_MappingItem = -1; static gint ett_ranap_SRVCC_Information = -1; static gint ett_ranap_TAI = -1; static gint ett_ranap_TargetID = -1; static gint ett_ranap_TargetENB_ID = -1; static gint ett_ranap_TargetRNC_ID = -1; static gint ett_ranap_TargetRNC_ToSourceRNC_TransparentContainer = -1; static gint ett_ranap_TemporaryUE_ID = -1; static gint ett_ranap_TMGI = -1; static gint ett_ranap_TraceInformation = -1; static gint ett_ranap_TracePropagationParameters = -1; static gint ett_ranap_TraceRecordingSessionInformation = -1; static gint ett_ranap_TrCH_ID = -1; static gint ett_ranap_TrCH_ID_List = -1; static gint ett_ranap_UE_AggregateMaximumBitRate = -1; static gint ett_ranap_UE_ID = -1; static gint ett_ranap_UESBI_Iu = -1; static gint ett_ranap_UPInformation = -1; static gint ett_ranap_VelocityEstimate = -1; static gint ett_ranap_HorizontalVelocity = -1; static gint ett_ranap_HorizontalWithVerticalVelocity = -1; static gint ett_ranap_HorizontalVelocityWithUncertainty = -1; static gint ett_ranap_HorizontalWithVerticalVelocityAndUncertainty = -1; static gint ett_ranap_HorizontalSpeedAndBearing = -1; static gint ett_ranap_VerticalVelocity = -1; static gint ett_ranap_Iu_ReleaseCommand = -1; static gint ett_ranap_Iu_ReleaseComplete = -1; static gint ett_ranap_RAB_DataVolumeReportItem = -1; static gint ett_ranap_RAB_ReleasedItem_IuRelComp = -1; static gint ett_ranap_RelocationRequired = -1; static gint ett_ranap_RelocationCommand = -1; static gint ett_ranap_RAB_RelocationReleaseItem = -1; static gint ett_ranap_RAB_DataForwardingItem = -1; static gint ett_ranap_RelocationPreparationFailure = -1; static gint ett_ranap_RelocationRequest = -1; static gint ett_ranap_RAB_SetupItem_RelocReq = -1; static gint ett_ranap_UserPlaneInformation = -1; static gint ett_ranap_CNMBMSLinkingInformation = -1; static gint ett_ranap_JoinedMBMSBearerService_IEs = -1; static gint ett_ranap_JoinedMBMSBearerService_IEs_item = -1; static gint ett_ranap_RelocationRequestAcknowledge = -1; static gint ett_ranap_RAB_SetupItem_RelocReqAck = -1; static gint ett_ranap_RAB_FailedItem = -1; static gint ett_ranap_RelocationFailure = -1; static gint ett_ranap_RelocationCancel = -1; static gint ett_ranap_RelocationCancelAcknowledge = -1; static gint ett_ranap_SRNS_ContextRequest = -1; static gint ett_ranap_RAB_DataForwardingItem_SRNS_CtxReq = -1; static gint ett_ranap_SRNS_ContextResponse = -1; static gint ett_ranap_RAB_ContextItem = -1; static gint ett_ranap_RABs_ContextFailedtoTransferItem = -1; static gint ett_ranap_SecurityModeCommand = -1; static gint ett_ranap_SecurityModeComplete = -1; static gint ett_ranap_SecurityModeReject = -1; static gint ett_ranap_DataVolumeReportRequest = -1; static gint ett_ranap_RAB_DataVolumeReportRequestItem = -1; static gint ett_ranap_DataVolumeReport = -1; static gint ett_ranap_RABs_failed_to_reportItem = -1; static gint ett_ranap_Reset = -1; static gint ett_ranap_ResetAcknowledge = -1; static gint ett_ranap_ResetResource = -1; static gint ett_ranap_ResetResourceItem = -1; static gint ett_ranap_ResetResourceAcknowledge = -1; static gint ett_ranap_ResetResourceAckItem = -1; static gint ett_ranap_RAB_ReleaseRequest = -1; static gint ett_ranap_RAB_ReleaseItem = -1; static gint ett_ranap_Iu_ReleaseRequest = -1; static gint ett_ranap_RelocationDetect = -1; static gint ett_ranap_RelocationComplete = -1; static gint ett_ranap_EnhancedRelocationCompleteRequest = -1; static gint ett_ranap_RAB_SetupItem_EnhancedRelocCompleteReq = -1; static gint ett_ranap_EnhancedRelocationCompleteResponse = -1; static gint ett_ranap_RAB_SetupItem_EnhancedRelocCompleteRes = -1; static gint ett_ranap_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes = -1; static gint ett_ranap_EnhancedRelocationCompleteFailure = -1; static gint ett_ranap_EnhancedRelocationCompleteConfirm = -1; static gint ett_ranap_Paging = -1; static gint ett_ranap_CommonID = -1; static gint ett_ranap_CN_InvokeTrace = -1; static gint ett_ranap_CN_DeactivateTrace = -1; static gint ett_ranap_LocationReportingControl = -1; static gint ett_ranap_LocationReport = -1; static gint ett_ranap_InitialUE_Message = -1; static gint ett_ranap_DirectTransfer = -1; static gint ett_ranap_Overload = -1; static gint ett_ranap_ErrorIndication = -1; static gint ett_ranap_SRNS_DataForwardCommand = -1; static gint ett_ranap_ForwardSRNS_Context = -1; static gint ett_ranap_RAB_AssignmentRequest = -1; static gint ett_ranap_RAB_SetupOrModifyItemFirst = -1; static gint ett_ranap_TransportLayerInformation = -1; static gint ett_ranap_RAB_SetupOrModifyItemSecond = -1; static gint ett_ranap_RAB_AssignmentResponse = -1; static gint ett_ranap_RAB_SetupOrModifiedItem = -1; static gint ett_ranap_RAB_ReleasedItem = -1; static gint ett_ranap_DataVolumeList = -1; static gint ett_ranap_DataVolumeList_item = -1; static gint ett_ranap_RAB_QueuedItem = -1; static gint ett_ranap_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item = -1; static gint ett_ranap_PrivateMessage = -1; static gint ett_ranap_RANAP_RelocationInformation = -1; static gint ett_ranap_DirectTransferInformationItem_RANAP_RelocInf = -1; static gint ett_ranap_RAB_ContextItem_RANAP_RelocInf = -1; static gint ett_ranap_RANAP_EnhancedRelocationInformationRequest = -1; static gint ett_ranap_RAB_SetupItem_EnhRelocInfoReq = -1; static gint ett_ranap_TNLInformationEnhRelInfoReq = -1; static gint ett_ranap_RANAP_EnhancedRelocationInformationResponse = -1; static gint ett_ranap_RAB_SetupItem_EnhRelocInfoRes = -1; static gint ett_ranap_RAB_FailedItem_EnhRelocInfoRes = -1; static gint ett_ranap_TNLInformationEnhRelInfoRes = -1; static gint ett_ranap_RAB_ModifyRequest = -1; static gint ett_ranap_RAB_ModifyItem = -1; static gint ett_ranap_LocationRelatedDataRequest = -1; static gint ett_ranap_LocationRelatedDataResponse = -1; static gint ett_ranap_LocationRelatedDataFailure = -1; static gint ett_ranap_InformationTransferIndication = -1; static gint ett_ranap_InformationTransferConfirmation = -1; static gint ett_ranap_InformationTransferFailure = -1; static gint ett_ranap_UESpecificInformationIndication = -1; static gint ett_ranap_DirectInformationTransfer = -1; static gint ett_ranap_UplinkInformationExchangeRequest = -1; static gint ett_ranap_UplinkInformationExchangeResponse = -1; static gint ett_ranap_UplinkInformationExchangeFailure = -1; static gint ett_ranap_MBMSSessionStart = -1; static gint ett_ranap_MBMSSynchronisationInformation = -1; static gint ett_ranap_MBMSSessionStartResponse = -1; static gint ett_ranap_MBMSSessionStartFailure = -1; static gint ett_ranap_MBMSSessionUpdate = -1; static gint ett_ranap_MBMSSessionUpdateResponse = -1; static gint ett_ranap_MBMSSessionUpdateFailure = -1; static gint ett_ranap_MBMSSessionStop = -1; static gint ett_ranap_MBMSSessionStopResponse = -1; static gint ett_ranap_MBMSUELinkingRequest = -1; static gint ett_ranap_LeftMBMSBearerService_IEs = -1; static gint ett_ranap_LeftMBMSBearerService_IEs_item = -1; static gint ett_ranap_MBMSUELinkingResponse = -1; static gint ett_ranap_UnsuccessfulLinking_IEs = -1; static gint ett_ranap_UnsuccessfulLinking_IEs_item = -1; static gint ett_ranap_MBMSRegistrationRequest = -1; static gint ett_ranap_MBMSRegistrationResponse = -1; static gint ett_ranap_MBMSRegistrationFailure = -1; static gint ett_ranap_MBMSCNDe_RegistrationRequest = -1; static gint ett_ranap_MBMSCNDe_RegistrationResponse = -1; static gint ett_ranap_MBMSRABEstablishmentIndication = -1; static gint ett_ranap_MBMSRABReleaseRequest = -1; static gint ett_ranap_MBMSRABRelease = -1; static gint ett_ranap_MBMSRABReleaseFailure = -1; static gint ett_ranap_SRVCC_CSKeysRequest = -1; static gint ett_ranap_SRVCC_CSKeysResponse = -1; static gint ett_ranap_RANAP_PDU = -1; static gint ett_ranap_InitiatingMessage = -1; static gint ett_ranap_SuccessfulOutcome = -1; static gint ett_ranap_UnsuccessfulOutcome = -1; static gint ett_ranap_Outcome = -1; /*--- End of included file: packet-ranap-ett.c ---*/ #line 85 "../../asn1/ranap/packet-ranap-template.c" /* Global variables */ static guint32 ProcedureCode; static guint32 ProtocolIE_ID; static guint32 ProtocolExtensionID; static gboolean glbl_dissect_container = FALSE; /* Some IE:s identities uses the same value for different IE:s * depending on PDU type: * InitiatingMessage * SuccessfulOutcome * UnsuccessfulOutcome * Outcome * As a workarond a value is added to the IE:id in the .cnf file. * Example: * ResetResourceList N rnsap.ies IMSG||id-IuSigConIdList # no spaces are allowed in value as a space is delimiter * PDU type is stored in a global variable and can is used in the IE decoding section. */ /* * &InitiatingMessage , * &SuccessfulOutcome OPTIONAL, * &UnsuccessfulOutcome OPTIONAL, * &Outcome OPTIONAL, * * Only these two needed currently */ #define IMSG (1<<16) #define SOUT (2<<16) #define SPECIAL (4<<16) int pdu_type = 0; /* 0 means wildcard */ /* Initialise the Preferences */ static gint global_ranap_sccp_ssn = SCCP_SSN_RANAP; /* Dissector tables */ static dissector_table_t ranap_ies_dissector_table; static dissector_table_t ranap_ies_p1_dissector_table; static dissector_table_t ranap_ies_p2_dissector_table; static dissector_table_t ranap_extension_dissector_table; static dissector_table_t ranap_proc_imsg_dissector_table; static dissector_table_t ranap_proc_sout_dissector_table; static dissector_table_t ranap_proc_uout_dissector_table; static dissector_table_t ranap_proc_out_dissector_table; static dissector_table_t nas_pdu_dissector_table; static int dissect_ProtocolIEFieldValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *); static int dissect_ProtocolIEFieldPairFirstValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *); static int dissect_ProtocolIEFieldPairSecondValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *); static int dissect_ProtocolExtensionFieldExtensionValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *); static int dissect_InitiatingMessageValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *); static int dissect_SuccessfulOutcomeValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *); static int dissect_UnsuccessfulOutcomeValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *); static int dissect_OutcomeValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *); static int dissect_ranap_SourceRNC_ToTargetRNC_TransparentContainer(tvbuff_t *tvb, int offset, asn1_ctx_t *actx, proto_tree *tree, int hf_index); static int dissect_ranap_TargetRNC_ToSourceRNC_TransparentContainer(tvbuff_t *tvb, int offset, asn1_ctx_t *actx, proto_tree *tree, int hf_index); /*--- Included file: packet-ranap-fn.c ---*/ #line 1 "../../asn1/ranap/packet-ranap-fn.c" static const value_string ranap_Criticality_vals[] = { { 0, "reject" }, { 1, "ignore" }, { 2, "notify" }, { 0, NULL } }; static int dissect_ranap_Criticality(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 3, NULL, FALSE, 0, NULL); return offset; } static int dissect_ranap_INTEGER_0_65535(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 65535U, NULL, FALSE); return offset; } static int dissect_ranap_OBJECT_IDENTIFIER(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_object_identifier(tvb, offset, actx, tree, hf_index, NULL); return offset; } static const value_string ranap_PrivateIE_ID_vals[] = { { 0, "local" }, { 1, "global" }, { 0, NULL } }; static const per_choice_t PrivateIE_ID_choice[] = { { 0, &hf_ranap_local , ASN1_NO_EXTENSIONS , dissect_ranap_INTEGER_0_65535 }, { 1, &hf_ranap_global , ASN1_NO_EXTENSIONS , dissect_ranap_OBJECT_IDENTIFIER }, { 0, NULL, 0, NULL } }; static int dissect_ranap_PrivateIE_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_PrivateIE_ID, PrivateIE_ID_choice, NULL); return offset; } static const value_string ranap_ProcedureCode_vals[] = { { id_RAB_Assignment, "id-RAB-Assignment" }, { id_Iu_Release, "id-Iu-Release" }, { id_RelocationPreparation, "id-RelocationPreparation" }, { id_RelocationResourceAllocation, "id-RelocationResourceAllocation" }, { id_RelocationCancel, "id-RelocationCancel" }, { id_SRNS_ContextTransfer, "id-SRNS-ContextTransfer" }, { id_SecurityModeControl, "id-SecurityModeControl" }, { id_DataVolumeReport, "id-DataVolumeReport" }, { id_Not_Used_8, "id-Not-Used-8" }, { id_Reset, "id-Reset" }, { id_RAB_ReleaseRequest, "id-RAB-ReleaseRequest" }, { id_Iu_ReleaseRequest, "id-Iu-ReleaseRequest" }, { id_RelocationDetect, "id-RelocationDetect" }, { id_RelocationComplete, "id-RelocationComplete" }, { id_Paging, "id-Paging" }, { id_CommonID, "id-CommonID" }, { id_CN_InvokeTrace, "id-CN-InvokeTrace" }, { id_LocationReportingControl, "id-LocationReportingControl" }, { id_LocationReport, "id-LocationReport" }, { id_InitialUE_Message, "id-InitialUE-Message" }, { id_DirectTransfer, "id-DirectTransfer" }, { id_OverloadControl, "id-OverloadControl" }, { id_ErrorIndication, "id-ErrorIndication" }, { id_SRNS_DataForward, "id-SRNS-DataForward" }, { id_ForwardSRNS_Context, "id-ForwardSRNS-Context" }, { id_privateMessage, "id-privateMessage" }, { id_CN_DeactivateTrace, "id-CN-DeactivateTrace" }, { id_ResetResource, "id-ResetResource" }, { id_RANAP_Relocation, "id-RANAP-Relocation" }, { id_RAB_ModifyRequest, "id-RAB-ModifyRequest" }, { id_LocationRelatedData, "id-LocationRelatedData" }, { id_InformationTransfer, "id-InformationTransfer" }, { id_UESpecificInformation, "id-UESpecificInformation" }, { id_UplinkInformationExchange, "id-UplinkInformationExchange" }, { id_DirectInformationTransfer, "id-DirectInformationTransfer" }, { id_MBMSSessionStart, "id-MBMSSessionStart" }, { id_MBMSSessionUpdate, "id-MBMSSessionUpdate" }, { id_MBMSSessionStop, "id-MBMSSessionStop" }, { id_MBMSUELinking, "id-MBMSUELinking" }, { id_MBMSRegistration, "id-MBMSRegistration" }, { id_MBMSCNDe_Registration_Procedure, "id-MBMSCNDe-Registration-Procedure" }, { id_MBMSRABEstablishmentIndication, "id-MBMSRABEstablishmentIndication" }, { id_MBMSRABRelease, "id-MBMSRABRelease" }, { id_enhancedRelocationComplete, "id-enhancedRelocationComplete" }, { id_enhancedRelocationCompleteConfirm, "id-enhancedRelocationCompleteConfirm" }, { id_RANAPenhancedRelocation, "id-RANAPenhancedRelocation" }, { id_SRVCCPreparation, "id-SRVCCPreparation" }, { 0, NULL } }; static value_string_ext ranap_ProcedureCode_vals_ext = VALUE_STRING_EXT_INIT(ranap_ProcedureCode_vals); static int dissect_ranap_ProcedureCode(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 255U, &ProcedureCode, FALSE); #line 92 "../../asn1/ranap/ranap.cnf" col_add_fstr(actx->pinfo->cinfo, COL_INFO, "%s ", val_to_str_ext_const(ProcedureCode, &ranap_ProcedureCode_vals_ext, "unknown message")); return offset; } static int dissect_ranap_ProtocolExtensionID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 65535U, &ProtocolExtensionID, FALSE); return offset; } static const value_string ranap_ProtocolIE_ID_vals[] = { { id_AreaIdentity, "id-AreaIdentity" }, { id_Not_Used_1, "id-Not-Used-1" }, { id_Not_Used_2, "id-Not-Used-2" }, { id_CN_DomainIndicator, "id-CN-DomainIndicator" }, { id_Cause, "id-Cause" }, { id_ChosenEncryptionAlgorithm, "id-ChosenEncryptionAlgorithm" }, { id_ChosenIntegrityProtectionAlgorithm, "id-ChosenIntegrityProtectionAlgorithm" }, { id_ClassmarkInformation2, "id-ClassmarkInformation2" }, { id_ClassmarkInformation3, "id-ClassmarkInformation3" }, { id_CriticalityDiagnostics, "id-CriticalityDiagnostics" }, { id_DL_GTP_PDU_SequenceNumber, "id-DL-GTP-PDU-SequenceNumber" }, { id_EncryptionInformation, "id-EncryptionInformation" }, { id_IntegrityProtectionInformation, "id-IntegrityProtectionInformation" }, { id_IuTransportAssociation, "id-IuTransportAssociation" }, { id_L3_Information, "id-L3-Information" }, { id_LAI, "id-LAI" }, { id_NAS_PDU, "id-NAS-PDU" }, { id_NonSearchingIndication, "id-NonSearchingIndication" }, { id_NumberOfSteps, "id-NumberOfSteps" }, { id_OMC_ID, "id-OMC-ID" }, { id_OldBSS_ToNewBSS_Information, "id-OldBSS-ToNewBSS-Information" }, { id_PagingAreaID, "id-PagingAreaID" }, { id_PagingCause, "id-PagingCause" }, { id_PermanentNAS_UE_ID, "id-PermanentNAS-UE-ID" }, { id_RAB_ContextItem, "id-RAB-ContextItem" }, { id_RAB_ContextList, "id-RAB-ContextList" }, { id_RAB_DataForwardingItem, "id-RAB-DataForwardingItem" }, { id_RAB_DataForwardingItem_SRNS_CtxReq, "id-RAB-DataForwardingItem-SRNS-CtxReq" }, { id_RAB_DataForwardingList, "id-RAB-DataForwardingList" }, { id_RAB_DataForwardingList_SRNS_CtxReq, "id-RAB-DataForwardingList-SRNS-CtxReq" }, { id_RAB_DataVolumeReportItem, "id-RAB-DataVolumeReportItem" }, { id_RAB_DataVolumeReportList, "id-RAB-DataVolumeReportList" }, { id_RAB_DataVolumeReportRequestItem, "id-RAB-DataVolumeReportRequestItem" }, { id_RAB_DataVolumeReportRequestList, "id-RAB-DataVolumeReportRequestList" }, { id_RAB_FailedItem, "id-RAB-FailedItem" }, { id_RAB_FailedList, "id-RAB-FailedList" }, { id_RAB_ID, "id-RAB-ID" }, { id_RAB_QueuedItem, "id-RAB-QueuedItem" }, { id_RAB_QueuedList, "id-RAB-QueuedList" }, { id_RAB_ReleaseFailedList, "id-RAB-ReleaseFailedList" }, { id_RAB_ReleaseItem, "id-RAB-ReleaseItem" }, { id_RAB_ReleaseList, "id-RAB-ReleaseList" }, { id_RAB_ReleasedItem, "id-RAB-ReleasedItem" }, { id_RAB_ReleasedList, "id-RAB-ReleasedList" }, { id_RAB_ReleasedList_IuRelComp, "id-RAB-ReleasedList-IuRelComp" }, { id_RAB_RelocationReleaseItem, "id-RAB-RelocationReleaseItem" }, { id_RAB_RelocationReleaseList, "id-RAB-RelocationReleaseList" }, { id_RAB_SetupItem_RelocReq, "id-RAB-SetupItem-RelocReq" }, { id_RAB_SetupItem_RelocReqAck, "id-RAB-SetupItem-RelocReqAck" }, { id_RAB_SetupList_RelocReq, "id-RAB-SetupList-RelocReq" }, { id_RAB_SetupList_RelocReqAck, "id-RAB-SetupList-RelocReqAck" }, { id_RAB_SetupOrModifiedItem, "id-RAB-SetupOrModifiedItem" }, { id_RAB_SetupOrModifiedList, "id-RAB-SetupOrModifiedList" }, { id_RAB_SetupOrModifyItem, "id-RAB-SetupOrModifyItem" }, { id_RAB_SetupOrModifyList, "id-RAB-SetupOrModifyList" }, { id_RAC, "id-RAC" }, { id_RelocationType, "id-RelocationType" }, { id_RequestType, "id-RequestType" }, { id_SAI, "id-SAI" }, { id_SAPI, "id-SAPI" }, { id_SourceID, "id-SourceID" }, { id_Source_ToTarget_TransparentContainer, "id-Source-ToTarget-TransparentContainer" }, { id_TargetID, "id-TargetID" }, { id_Target_ToSource_TransparentContainer, "id-Target-ToSource-TransparentContainer" }, { id_TemporaryUE_ID, "id-TemporaryUE-ID" }, { id_TraceReference, "id-TraceReference" }, { id_TraceType, "id-TraceType" }, { id_TransportLayerAddress, "id-TransportLayerAddress" }, { id_TriggerID, "id-TriggerID" }, { id_UE_ID, "id-UE-ID" }, { id_UL_GTP_PDU_SequenceNumber, "id-UL-GTP-PDU-SequenceNumber" }, { id_RAB_FailedtoReportItem, "id-RAB-FailedtoReportItem" }, { id_RAB_FailedtoReportList, "id-RAB-FailedtoReportList" }, { id_Not_Used_73, "id-Not-Used-73" }, { id_Not_Used_74, "id-Not-Used-74" }, { id_KeyStatus, "id-KeyStatus" }, { id_DRX_CycleLengthCoefficient, "id-DRX-CycleLengthCoefficient" }, { id_IuSigConIdList, "id-IuSigConIdList" }, { id_IuSigConIdItem, "id-IuSigConIdItem" }, { id_IuSigConId, "id-IuSigConId" }, { id_DirectTransferInformationItem_RANAP_RelocInf, "id-DirectTransferInformationItem-RANAP-RelocInf" }, { id_DirectTransferInformationList_RANAP_RelocInf, "id-DirectTransferInformationList-RANAP-RelocInf" }, { id_RAB_ContextItem_RANAP_RelocInf, "id-RAB-ContextItem-RANAP-RelocInf" }, { id_RAB_ContextList_RANAP_RelocInf, "id-RAB-ContextList-RANAP-RelocInf" }, { id_RAB_ContextFailedtoTransferItem, "id-RAB-ContextFailedtoTransferItem" }, { id_RAB_ContextFailedtoTransferList, "id-RAB-ContextFailedtoTransferList" }, { id_GlobalRNC_ID, "id-GlobalRNC-ID" }, { id_RAB_ReleasedItem_IuRelComp, "id-RAB-ReleasedItem-IuRelComp" }, { id_MessageStructure, "id-MessageStructure" }, { id_Alt_RAB_Parameters, "id-Alt-RAB-Parameters" }, { id_Ass_RAB_Parameters, "id-Ass-RAB-Parameters" }, { id_RAB_ModifyList, "id-RAB-ModifyList" }, { id_RAB_ModifyItem, "id-RAB-ModifyItem" }, { id_TypeOfError, "id-TypeOfError" }, { id_BroadcastAssistanceDataDecipheringKeys, "id-BroadcastAssistanceDataDecipheringKeys" }, { id_LocationRelatedDataRequestType, "id-LocationRelatedDataRequestType" }, { id_GlobalCN_ID, "id-GlobalCN-ID" }, { id_LastKnownServiceArea, "id-LastKnownServiceArea" }, { id_SRB_TrCH_Mapping, "id-SRB-TrCH-Mapping" }, { id_InterSystemInformation_TransparentContainer, "id-InterSystemInformation-TransparentContainer" }, { id_NewBSS_To_OldBSS_Information, "id-NewBSS-To-OldBSS-Information" }, { id_Not_Used_101, "id-Not-Used-101" }, { id_Not_Used_102, "id-Not-Used-102" }, { id_SourceRNC_PDCP_context_info, "id-SourceRNC-PDCP-context-info" }, { id_InformationTransferID, "id-InformationTransferID" }, { id_SNA_Access_Information, "id-SNA-Access-Information" }, { id_ProvidedData, "id-ProvidedData" }, { id_GERAN_BSC_Container, "id-GERAN-BSC-Container" }, { id_GERAN_Classmark, "id-GERAN-Classmark" }, { id_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item, "id-GERAN-Iumode-RAB-Failed-RABAssgntResponse-Item" }, { id_GERAN_Iumode_RAB_FailedList_RABAssgntResponse, "id-GERAN-Iumode-RAB-FailedList-RABAssgntResponse" }, { id_VerticalAccuracyCode, "id-VerticalAccuracyCode" }, { id_ResponseTime, "id-ResponseTime" }, { id_PositioningPriority, "id-PositioningPriority" }, { id_ClientType, "id-ClientType" }, { id_LocationRelatedDataRequestTypeSpecificToGERANIuMode, "id-LocationRelatedDataRequestTypeSpecificToGERANIuMode" }, { id_SignallingIndication, "id-SignallingIndication" }, { id_hS_DSCH_MAC_d_Flow_ID, "id-hS-DSCH-MAC-d-Flow-ID" }, { id_UESBI_Iu, "id-UESBI-Iu" }, { id_PositionData, "id-PositionData" }, { id_PositionDataSpecificToGERANIuMode, "id-PositionDataSpecificToGERANIuMode" }, { id_CellLoadInformationGroup, "id-CellLoadInformationGroup" }, { id_AccuracyFulfilmentIndicator, "id-AccuracyFulfilmentIndicator" }, { id_InformationTransferType, "id-InformationTransferType" }, { id_TraceRecordingSessionInformation, "id-TraceRecordingSessionInformation" }, { id_TracePropagationParameters, "id-TracePropagationParameters" }, { id_InterSystemInformationTransferType, "id-InterSystemInformationTransferType" }, { id_SelectedPLMN_ID, "id-SelectedPLMN-ID" }, { id_RedirectionCompleted, "id-RedirectionCompleted" }, { id_RedirectionIndication, "id-RedirectionIndication" }, { id_NAS_SequenceNumber, "id-NAS-SequenceNumber" }, { id_RejectCauseValue, "id-RejectCauseValue" }, { id_APN, "id-APN" }, { id_CNMBMSLinkingInformation, "id-CNMBMSLinkingInformation" }, { id_DeltaRAListofIdleModeUEs, "id-DeltaRAListofIdleModeUEs" }, { id_FrequenceLayerConvergenceFlag, "id-FrequenceLayerConvergenceFlag" }, { id_InformationExchangeID, "id-InformationExchangeID" }, { id_InformationExchangeType, "id-InformationExchangeType" }, { id_InformationRequested, "id-InformationRequested" }, { id_InformationRequestType, "id-InformationRequestType" }, { id_IPMulticastAddress, "id-IPMulticastAddress" }, { id_JoinedMBMSBearerServicesList, "id-JoinedMBMSBearerServicesList" }, { id_LeftMBMSBearerServicesList, "id-LeftMBMSBearerServicesList" }, { id_MBMSBearerServiceType, "id-MBMSBearerServiceType" }, { id_MBMSCNDe_Registration, "id-MBMSCNDe-Registration" }, { id_MBMSServiceArea, "id-MBMSServiceArea" }, { id_MBMSSessionDuration, "id-MBMSSessionDuration" }, { id_MBMSSessionIdentity, "id-MBMSSessionIdentity" }, { id_PDP_TypeInformation, "id-PDP-TypeInformation" }, { id_RAB_Parameters, "id-RAB-Parameters" }, { id_RAListofIdleModeUEs, "id-RAListofIdleModeUEs" }, { id_MBMSRegistrationRequestType, "id-MBMSRegistrationRequestType" }, { id_SessionUpdateID, "id-SessionUpdateID" }, { id_TMGI, "id-TMGI" }, { id_TransportLayerInformation, "id-TransportLayerInformation" }, { id_UnsuccessfulLinkingList, "id-UnsuccessfulLinkingList" }, { id_MBMSLinkingInformation, "id-MBMSLinkingInformation" }, { id_MBMSSessionRepetitionNumber, "id-MBMSSessionRepetitionNumber" }, { id_AlternativeRABConfiguration, "id-AlternativeRABConfiguration" }, { id_AlternativeRABConfigurationRequest, "id-AlternativeRABConfigurationRequest" }, { id_E_DCH_MAC_d_Flow_ID, "id-E-DCH-MAC-d-Flow-ID" }, { id_SourceBSS_ToTargetBSS_TransparentContainer, "id-SourceBSS-ToTargetBSS-TransparentContainer" }, { id_TargetBSS_ToSourceBSS_TransparentContainer, "id-TargetBSS-ToSourceBSS-TransparentContainer" }, { id_TimeToMBMSDataTransfer, "id-TimeToMBMSDataTransfer" }, { id_IncludeVelocity, "id-IncludeVelocity" }, { id_VelocityEstimate, "id-VelocityEstimate" }, { id_RedirectAttemptFlag, "id-RedirectAttemptFlag" }, { id_RAT_Type, "id-RAT-Type" }, { id_PeriodicLocationInfo, "id-PeriodicLocationInfo" }, { id_MBMSCountingInformation, "id-MBMSCountingInformation" }, { id_170_not_to_be_used_for_IE_ids, "id-170-not-to-be-used-for-IE-ids" }, { id_ExtendedRNC_ID, "id-ExtendedRNC-ID" }, { id_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf, "id-Alt-RAB-Parameter-ExtendedGuaranteedBitrateInf" }, { id_Alt_RAB_Parameter_ExtendedMaxBitrateInf, "id-Alt-RAB-Parameter-ExtendedMaxBitrateInf" }, { id_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList, "id-Ass-RAB-Parameter-ExtendedGuaranteedBitrateList" }, { id_Ass_RAB_Parameter_ExtendedMaxBitrateList, "id-Ass-RAB-Parameter-ExtendedMaxBitrateList" }, { id_RAB_Parameter_ExtendedGuaranteedBitrateList, "id-RAB-Parameter-ExtendedGuaranteedBitrateList" }, { id_RAB_Parameter_ExtendedMaxBitrateList, "id-RAB-Parameter-ExtendedMaxBitrateList" }, { id_Requested_RAB_Parameter_ExtendedMaxBitrateList, "id-Requested-RAB-Parameter-ExtendedMaxBitrateList" }, { id_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList, "id-Requested-RAB-Parameter-ExtendedGuaranteedBitrateList" }, { id_LAofIdleModeUEs, "id-LAofIdleModeUEs" }, { id_newLAListofIdleModeUEs, "id-newLAListofIdleModeUEs" }, { id_LAListwithNoIdleModeUEsAnyMore, "id-LAListwithNoIdleModeUEsAnyMore" }, { id_183_not_to_be_used_for_IE_ids, "id-183-not-to-be-used-for-IE-ids" }, { id_GANSS_PositioningDataSet, "id-GANSS-PositioningDataSet" }, { id_RequestedGANSSAssistanceData, "id-RequestedGANSSAssistanceData" }, { id_BroadcastGANSSAssistanceDataDecipheringKeys, "id-BroadcastGANSSAssistanceDataDecipheringKeys" }, { id_d_RNTI_for_NoIuCSUP, "id-d-RNTI-for-NoIuCSUP" }, { id_RAB_SetupList_EnhancedRelocCompleteReq, "id-RAB-SetupList-EnhancedRelocCompleteReq" }, { id_RAB_SetupItem_EnhancedRelocCompleteReq, "id-RAB-SetupItem-EnhancedRelocCompleteReq" }, { id_RAB_SetupList_EnhancedRelocCompleteRes, "id-RAB-SetupList-EnhancedRelocCompleteRes" }, { id_RAB_SetupItem_EnhancedRelocCompleteRes, "id-RAB-SetupItem-EnhancedRelocCompleteRes" }, { id_RAB_SetupList_EnhRelocInfoReq, "id-RAB-SetupList-EnhRelocInfoReq" }, { id_RAB_SetupItem_EnhRelocInfoReq, "id-RAB-SetupItem-EnhRelocInfoReq" }, { id_RAB_SetupList_EnhRelocInfoRes, "id-RAB-SetupList-EnhRelocInfoRes" }, { id_RAB_SetupItem_EnhRelocInfoRes, "id-RAB-SetupItem-EnhRelocInfoRes" }, { id_OldIuSigConId, "id-OldIuSigConId" }, { id_RAB_FailedList_EnhRelocInfoRes, "id-RAB-FailedList-EnhRelocInfoRes" }, { id_RAB_FailedItem_EnhRelocInfoRes, "id-RAB-FailedItem-EnhRelocInfoRes" }, { id_Global_ENB_ID, "id-Global-ENB-ID" }, { id_UE_History_Information, "id-UE-History-Information" }, { id_MBMSSynchronisationInformation, "id-MBMSSynchronisationInformation" }, { id_SubscriberProfileIDforRFP, "id-SubscriberProfileIDforRFP" }, { id_CSG_Id, "id-CSG-Id" }, { id_OldIuSigConIdCS, "id-OldIuSigConIdCS" }, { id_OldIuSigConIdPS, "id-OldIuSigConIdPS" }, { id_GlobalCN_IDCS, "id-GlobalCN-IDCS" }, { id_GlobalCN_IDPS, "id-GlobalCN-IDPS" }, { id_SourceExtendedRNC_ID, "id-SourceExtendedRNC-ID" }, { id_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes, "id-RAB-ToBeReleasedItem-EnhancedRelocCompleteRes" }, { id_RAB_ToBeReleasedList_EnhancedRelocCompleteRes, "id-RAB-ToBeReleasedList-EnhancedRelocCompleteRes" }, { id_SourceRNC_ID, "id-SourceRNC-ID" }, { id_Relocation_TargetRNC_ID, "id-Relocation-TargetRNC-ID" }, { id_Relocation_TargetExtendedRNC_ID, "id-Relocation-TargetExtendedRNC-ID" }, { id_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf, "id-Alt-RAB-Parameter-SupportedGuaranteedBitrateInf" }, { id_Alt_RAB_Parameter_SupportedMaxBitrateInf, "id-Alt-RAB-Parameter-SupportedMaxBitrateInf" }, { id_Ass_RAB_Parameter_SupportedGuaranteedBitrateList, "id-Ass-RAB-Parameter-SupportedGuaranteedBitrateList" }, { id_Ass_RAB_Parameter_SupportedMaxBitrateList, "id-Ass-RAB-Parameter-SupportedMaxBitrateList" }, { id_RAB_Parameter_SupportedGuaranteedBitrateList, "id-RAB-Parameter-SupportedGuaranteedBitrateList" }, { id_RAB_Parameter_SupportedMaxBitrateList, "id-RAB-Parameter-SupportedMaxBitrateList" }, { id_Requested_RAB_Parameter_SupportedMaxBitrateList, "id-Requested-RAB-Parameter-SupportedMaxBitrateList" }, { id_Requested_RAB_Parameter_SupportedGuaranteedBitrateList, "id-Requested-RAB-Parameter-SupportedGuaranteedBitrateList" }, { id_Relocation_SourceRNC_ID, "id-Relocation-SourceRNC-ID" }, { id_Relocation_SourceExtendedRNC_ID, "id-Relocation-SourceExtendedRNC-ID" }, { id_EncryptionKey, "id-EncryptionKey" }, { id_IntegrityProtectionKey, "id-IntegrityProtectionKey" }, { id_SRVCC_HO_Indication, "id-SRVCC-HO-Indication" }, { id_SRVCC_Information, "id-SRVCC-Information" }, { id_SRVCC_Operation_Possible, "id-SRVCC-Operation-Possible" }, { id_CSG_Id_List, "id-CSG-Id-List" }, { id_PSRABtobeReplaced, "id-PSRABtobeReplaced" }, { id_E_UTRAN_Service_Handover, "id-E-UTRAN-Service-Handover" }, { id_Not_Used_232, "id-Not-Used-232" }, { id_UE_AggregateMaximumBitRate, "id-UE-AggregateMaximumBitRate" }, { id_CSG_Membership_Status, "id-CSG-Membership-Status" }, { id_Cell_Access_Mode, "id-Cell-Access-Mode" }, { id_IP_Source_Address, "id-IP-Source-Address" }, { id_CSFB_Information, "id-CSFB-Information" }, { id_PDP_TypeInformation_extension, "id-PDP-TypeInformation-extension" }, { id_MSISDN, "id-MSISDN" }, { id_Offload_RAB_Parameters, "id-Offload-RAB-Parameters" }, { id_LGW_TransportLayerAddress, "id-LGW-TransportLayerAddress" }, { id_Correlation_ID, "id-Correlation-ID" }, { id_IRAT_Measurement_Configuration, "id-IRAT-Measurement-Configuration" }, { id_MDT_Configuration, "id-MDT-Configuration" }, { id_Priority_Class_Indicator, "id-Priority-Class-Indicator" }, { id_Not_Used_246, "id-Not-Used-246" }, { id_RNSAPRelocationParameters, "id-RNSAPRelocationParameters" }, { id_RABParametersList, "id-RABParametersList" }, { id_Management_Based_MDT_Allowed, "id-Management-Based-MDT-Allowed" }, { id_HigherBitratesThan16MbpsFlag, "id-HigherBitratesThan16MbpsFlag" }, { id_Trace_Collection_Entity_IP_Addess, "id-Trace-Collection-Entity-IP-Addess" }, { id_End_Of_CSFB, "id-End-Of-CSFB" }, { 0, NULL } }; static value_string_ext ranap_ProtocolIE_ID_vals_ext = VALUE_STRING_EXT_INIT(ranap_ProtocolIE_ID_vals); static int dissect_ranap_ProtocolIE_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 65535U, &ProtocolIE_ID, FALSE); #line 76 "../../asn1/ranap/ranap.cnf" if (tree) { proto_item_append_text(proto_item_get_parent_nth(actx->created_item, 2), ": %s", val_to_str_ext(ProtocolIE_ID, &ranap_ProtocolIE_ID_vals_ext, "unknown (%d)")); } return offset; } static const value_string ranap_TriggeringMessage_vals[] = { { 0, "initiating-message" }, { 1, "successful-outcome" }, { 2, "unsuccessfull-outcome" }, { 3, "outcome" }, { 0, NULL } }; static int dissect_ranap_TriggeringMessage(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 4, NULL, FALSE, 0, NULL); return offset; } static int dissect_ranap_T_ie_field_value(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_open_type_pdu_new(tvb, offset, actx, tree, hf_index, dissect_ProtocolIEFieldValue); return offset; } static const per_sequence_t ProtocolIE_Field_sequence[] = { { &hf_ranap_id , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_ID }, { &hf_ranap_criticality , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Criticality }, { &hf_ranap_ie_field_value, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_T_ie_field_value }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ProtocolIE_Field(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ProtocolIE_Field, ProtocolIE_Field_sequence); return offset; } static const per_sequence_t ProtocolIE_Container_sequence_of[1] = { { &hf_ranap_ProtocolIE_Container_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Field }, }; static int dissect_ranap_ProtocolIE_Container(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_ProtocolIE_Container, ProtocolIE_Container_sequence_of, 0, maxProtocolIEs, FALSE); return offset; } static int dissect_ranap_T_firstValue(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_open_type_pdu_new(tvb, offset, actx, tree, hf_index, dissect_ProtocolIEFieldPairFirstValue); return offset; } static int dissect_ranap_T_secondValue(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_open_type_pdu_new(tvb, offset, actx, tree, hf_index, dissect_ProtocolIEFieldPairSecondValue); return offset; } static const per_sequence_t ProtocolIE_FieldPair_sequence[] = { { &hf_ranap_id , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_ID }, { &hf_ranap_firstCriticality, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Criticality }, { &hf_ranap_firstValue , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_T_firstValue }, { &hf_ranap_secondCriticality, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Criticality }, { &hf_ranap_secondValue , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_T_secondValue }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ProtocolIE_FieldPair(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ProtocolIE_FieldPair, ProtocolIE_FieldPair_sequence); return offset; } static const per_sequence_t ProtocolIE_ContainerPair_sequence_of[1] = { { &hf_ranap_ProtocolIE_ContainerPair_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_FieldPair }, }; static int dissect_ranap_ProtocolIE_ContainerPair(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_ProtocolIE_ContainerPair, ProtocolIE_ContainerPair_sequence_of, 0, maxProtocolIEs, FALSE); return offset; } static const per_sequence_t ProtocolIE_ContainerList_sequence_of[1] = { { &hf_ranap_ProtocolIE_ContainerList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, }; static int dissect_ranap_ProtocolIE_ContainerList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 116 "../../asn1/ranap/ranap.cnf" static const asn1_par_def_t ProtocolIE_ContainerList_pars[] = { { "lowerBound", ASN1_PAR_INTEGER }, { "upperBound", ASN1_PAR_INTEGER }, { NULL, (asn1_par_type)0 } }; asn1_stack_frame_check(actx, "ProtocolIE-ContainerList", ProtocolIE_ContainerList_pars); offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_ProtocolIE_ContainerList, ProtocolIE_ContainerList_sequence_of, asn1_param_get_integer(actx,"lowerBound"), asn1_param_get_integer(actx,"upperBound"), FALSE); return offset; } static const per_sequence_t ProtocolIE_ContainerPairList_sequence_of[1] = { { &hf_ranap_ProtocolIE_ContainerPairList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_ContainerPair }, }; static int dissect_ranap_ProtocolIE_ContainerPairList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 132 "../../asn1/ranap/ranap.cnf" static const asn1_par_def_t ProtocolIE_ContainerPairList_pars[] = { { "lowerBound", ASN1_PAR_INTEGER }, { "upperBound", ASN1_PAR_INTEGER }, { NULL, (asn1_par_type)0 } }; asn1_stack_frame_check(actx, "ProtocolIE-ContainerPairList", ProtocolIE_ContainerPairList_pars); offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_ProtocolIE_ContainerPairList, ProtocolIE_ContainerPairList_sequence_of, asn1_param_get_integer(actx,"lowerBound"), asn1_param_get_integer(actx,"upperBound"), FALSE); return offset; } static int dissect_ranap_T_extensionValue(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_open_type_pdu_new(tvb, offset, actx, tree, hf_index, dissect_ProtocolExtensionFieldExtensionValue); return offset; } static const per_sequence_t ProtocolExtensionField_sequence[] = { { &hf_ranap_ext_id , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolExtensionID }, { &hf_ranap_criticality , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Criticality }, { &hf_ranap_extensionValue, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_T_extensionValue }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ProtocolExtensionField(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ProtocolExtensionField, ProtocolExtensionField_sequence); return offset; } static const per_sequence_t ProtocolExtensionContainer_sequence_of[1] = { { &hf_ranap_ProtocolExtensionContainer_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolExtensionField }, }; static int dissect_ranap_ProtocolExtensionContainer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_ProtocolExtensionContainer, ProtocolExtensionContainer_sequence_of, 1, maxProtocolExtensions, FALSE); return offset; } static int dissect_ranap_T_private_value(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_open_type(tvb, offset, actx, tree, hf_index, NULL); return offset; } static const per_sequence_t PrivateIE_Field_sequence[] = { { &hf_ranap_private_id , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PrivateIE_ID }, { &hf_ranap_criticality , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Criticality }, { &hf_ranap_private_value , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_T_private_value }, { NULL, 0, 0, NULL } }; static int dissect_ranap_PrivateIE_Field(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_PrivateIE_Field, PrivateIE_Field_sequence); return offset; } static const per_sequence_t PrivateIE_Container_sequence_of[1] = { { &hf_ranap_PrivateIE_Container_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PrivateIE_Field }, }; static int dissect_ranap_PrivateIE_Container(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_PrivateIE_Container, PrivateIE_Container_sequence_of, 1, maxPrivateIEs, FALSE); return offset; } static const value_string ranap_AccuracyFulfilmentIndicator_vals[] = { { 0, "requested-Accuracy-Fulfilled" }, { 1, "requested-Accuracy-Not-Fulfilled" }, { 0, NULL } }; static int dissect_ranap_AccuracyFulfilmentIndicator(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_PriorityLevel_vals[] = { { 0, "spare" }, { 1, "highest" }, { 14, "lowest" }, { 15, "no-priority" }, { 0, NULL } }; static int dissect_ranap_PriorityLevel(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 15U, NULL, FALSE); return offset; } static const value_string ranap_Pre_emptionCapability_vals[] = { { 0, "shall-not-trigger-pre-emption" }, { 1, "may-trigger-pre-emption" }, { 0, NULL } }; static int dissect_ranap_Pre_emptionCapability(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, FALSE, 0, NULL); return offset; } static const value_string ranap_Pre_emptionVulnerability_vals[] = { { 0, "not-pre-emptable" }, { 1, "pre-emptable" }, { 0, NULL } }; static int dissect_ranap_Pre_emptionVulnerability(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, FALSE, 0, NULL); return offset; } static const value_string ranap_QueuingAllowed_vals[] = { { 0, "queueing-not-allowed" }, { 1, "queueing-allowed" }, { 0, NULL } }; static int dissect_ranap_QueuingAllowed(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, FALSE, 0, NULL); return offset; } static const per_sequence_t AllocationOrRetentionPriority_sequence[] = { { &hf_ranap_priorityLevel , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_PriorityLevel }, { &hf_ranap_pre_emptionCapability, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Pre_emptionCapability }, { &hf_ranap_pre_emptionVulnerability, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Pre_emptionVulnerability }, { &hf_ranap_queuingAllowed, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_QueuingAllowed }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_AllocationOrRetentionPriority(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_AllocationOrRetentionPriority, AllocationOrRetentionPriority_sequence); return offset; } static const value_string ranap_Alt_RAB_Parameter_MaxBitrateType_vals[] = { { 0, "unspecified" }, { 1, "value-range" }, { 2, "discrete-values" }, { 0, NULL } }; static int dissect_ranap_Alt_RAB_Parameter_MaxBitrateType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 3, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_MaxBitrate(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 16000000U, NULL, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_MaxBitrateList_sequence_of[1] = { { &hf_ranap_Alt_RAB_Parameter_MaxBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_MaxBitrate }, }; static int dissect_ranap_Alt_RAB_Parameter_MaxBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_MaxBitrateList, Alt_RAB_Parameter_MaxBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_MaxBitrates_sequence_of[1] = { { &hf_ranap_Alt_RAB_Parameter_MaxBitrates_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Alt_RAB_Parameter_MaxBitrateList }, }; static int dissect_ranap_Alt_RAB_Parameter_MaxBitrates(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_MaxBitrates, Alt_RAB_Parameter_MaxBitrates_sequence_of, 1, maxNrOfAltValues, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_MaxBitrateInf_sequence[] = { { &hf_ranap_altMaxBitrateType, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Alt_RAB_Parameter_MaxBitrateType }, { &hf_ranap_altMaxBitrates, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Alt_RAB_Parameter_MaxBitrates }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Alt_RAB_Parameter_MaxBitrateInf(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_MaxBitrateInf, Alt_RAB_Parameter_MaxBitrateInf_sequence); return offset; } static const value_string ranap_Alt_RAB_Parameter_GuaranteedBitrateType_vals[] = { { 0, "unspecified" }, { 1, "value-range" }, { 2, "discrete-values" }, { 0, NULL } }; static int dissect_ranap_Alt_RAB_Parameter_GuaranteedBitrateType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 3, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_GuaranteedBitrate(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 16000000U, NULL, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_GuaranteedBitrateList_sequence_of[1] = { { &hf_ranap_Alt_RAB_Parameter_GuaranteedBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_GuaranteedBitrate }, }; static int dissect_ranap_Alt_RAB_Parameter_GuaranteedBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_GuaranteedBitrateList, Alt_RAB_Parameter_GuaranteedBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_GuaranteedBitrates_sequence_of[1] = { { &hf_ranap_Alt_RAB_Parameter_GuaranteedBitrates_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Alt_RAB_Parameter_GuaranteedBitrateList }, }; static int dissect_ranap_Alt_RAB_Parameter_GuaranteedBitrates(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_GuaranteedBitrates, Alt_RAB_Parameter_GuaranteedBitrates_sequence_of, 1, maxNrOfAltValues, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_GuaranteedBitrateInf_sequence[] = { { &hf_ranap_altGuaranteedBitrateType, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Alt_RAB_Parameter_GuaranteedBitrateType }, { &hf_ranap_altGuaranteedBitrates, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Alt_RAB_Parameter_GuaranteedBitrates }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Alt_RAB_Parameter_GuaranteedBitrateInf(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_GuaranteedBitrateInf, Alt_RAB_Parameter_GuaranteedBitrateInf_sequence); return offset; } static const per_sequence_t Alt_RAB_Parameters_sequence[] = { { &hf_ranap_altMaxBitrateInf, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Alt_RAB_Parameter_MaxBitrateInf }, { &hf_ranap_altGuaranteedBitRateInf, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Alt_RAB_Parameter_GuaranteedBitrateInf }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Alt_RAB_Parameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameters, Alt_RAB_Parameters_sequence); return offset; } static int dissect_ranap_ExtendedGuaranteedBitrate(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 16000001U, 256000000U, NULL, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_ExtendedGuaranteedBitrateList_sequence_of[1] = { { &hf_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ExtendedGuaranteedBitrate }, }; static int dissect_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateList, Alt_RAB_Parameter_ExtendedGuaranteedBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_ExtendedGuaranteedBitrates_sequence_of[1] = { { &hf_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrates_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateList }, }; static int dissect_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrates(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrates, Alt_RAB_Parameter_ExtendedGuaranteedBitrates_sequence_of, 1, maxNrOfAltValues, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf_sequence[] = { { &hf_ranap_altExtendedGuaranteedBitrateType, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Alt_RAB_Parameter_GuaranteedBitrateType }, { &hf_ranap_altExtendedGuaranteedBitrates, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrates }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf, Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf_sequence); return offset; } static int dissect_ranap_SupportedBitrate(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 1000000000U, NULL, TRUE); return offset; } static const per_sequence_t SupportedRAB_ParameterBitrateList_sequence_of[1] = { { &hf_ranap_SupportedRAB_ParameterBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_SupportedBitrate }, }; static int dissect_ranap_SupportedRAB_ParameterBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_SupportedRAB_ParameterBitrateList, SupportedRAB_ParameterBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_SupportedGuaranteedBitrates_sequence_of[1] = { { &hf_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrates_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_SupportedRAB_ParameterBitrateList }, }; static int dissect_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrates(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrates, Alt_RAB_Parameter_SupportedGuaranteedBitrates_sequence_of, 1, maxNrOfAltValues, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_SupportedGuaranteedBitrateInf_sequence[] = { { &hf_ranap_altSupportedGuaranteedBitrateType, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Alt_RAB_Parameter_GuaranteedBitrateType }, { &hf_ranap_altSupportedGuaranteedBitrates, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrates }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf, Alt_RAB_Parameter_SupportedGuaranteedBitrateInf_sequence); return offset; } static int dissect_ranap_ExtendedMaxBitrate(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 16000001U, 256000000U, NULL, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_ExtendedMaxBitrateList_sequence_of[1] = { { &hf_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ExtendedMaxBitrate }, }; static int dissect_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateList, Alt_RAB_Parameter_ExtendedMaxBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_ExtendedMaxBitrates_sequence_of[1] = { { &hf_ranap_Alt_RAB_Parameter_ExtendedMaxBitrates_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateList }, }; static int dissect_ranap_Alt_RAB_Parameter_ExtendedMaxBitrates(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_ExtendedMaxBitrates, Alt_RAB_Parameter_ExtendedMaxBitrates_sequence_of, 1, maxNrOfAltValues, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_ExtendedMaxBitrateInf_sequence[] = { { &hf_ranap_altExtendedMaxBitrateType, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Alt_RAB_Parameter_MaxBitrateType }, { &hf_ranap_altExtendedMaxBitrates, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Alt_RAB_Parameter_ExtendedMaxBitrates }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateInf(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateInf, Alt_RAB_Parameter_ExtendedMaxBitrateInf_sequence); return offset; } static const per_sequence_t Alt_RAB_Parameter_SupportedMaxBitrates_sequence_of[1] = { { &hf_ranap_Alt_RAB_Parameter_SupportedMaxBitrates_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_SupportedRAB_ParameterBitrateList }, }; static int dissect_ranap_Alt_RAB_Parameter_SupportedMaxBitrates(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_SupportedMaxBitrates, Alt_RAB_Parameter_SupportedMaxBitrates_sequence_of, 1, maxNrOfAltValues, FALSE); return offset; } static const per_sequence_t Alt_RAB_Parameter_SupportedMaxBitrateInf_sequence[] = { { &hf_ranap_altSupportedMaxBitrateType, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Alt_RAB_Parameter_MaxBitrateType }, { &hf_ranap_altSupportedMaxBitrates, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Alt_RAB_Parameter_SupportedMaxBitrates }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Alt_RAB_Parameter_SupportedMaxBitrateInf(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Alt_RAB_Parameter_SupportedMaxBitrateInf, Alt_RAB_Parameter_SupportedMaxBitrateInf_sequence); return offset; } static const value_string ranap_AlternativeRABConfigurationRequest_vals[] = { { 0, "alternative-RAB-configuration-Requested" }, { 0, NULL } }; static int dissect_ranap_AlternativeRABConfigurationRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_APN(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 255, FALSE, NULL); return offset; } static int dissect_ranap_PLMNidentity(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 279 "../../asn1/ranap/ranap.cnf" tvbuff_t *parameter_tvb=NULL; offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 3, 3, FALSE, &parameter_tvb); if (!parameter_tvb) return offset; dissect_e212_mcc_mnc(parameter_tvb, actx->pinfo, tree, 0, FALSE); return offset; } static int dissect_ranap_LAC(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 2, 2, FALSE, NULL); return offset; } static int dissect_ranap_SAC(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 2, 2, FALSE, NULL); return offset; } static const per_sequence_t SAI_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_lAC , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_LAC }, { &hf_ranap_sAC , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_SAC }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SAI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SAI, SAI_sequence); return offset; } static const value_string ranap_T_latitudeSign_vals[] = { { 0, "north" }, { 1, "south" }, { 0, NULL } }; static int dissect_ranap_T_latitudeSign(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, FALSE, 0, NULL); return offset; } static int dissect_ranap_INTEGER_0_8388607(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 8388607U, NULL, FALSE); return offset; } static int dissect_ranap_INTEGER_M8388608_8388607(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, -8388608, 8388607U, NULL, FALSE); return offset; } static const per_sequence_t GeographicalCoordinates_sequence[] = { { &hf_ranap_latitudeSign , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_T_latitudeSign }, { &hf_ranap_latitude , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_8388607 }, { &hf_ranap_longitude , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_M8388608_8388607 }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GeographicalCoordinates(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GeographicalCoordinates, GeographicalCoordinates_sequence); return offset; } static const per_sequence_t GA_Point_sequence[] = { { &hf_ranap_geographicalCoordinates, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_GeographicalCoordinates }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GA_Point(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GA_Point, GA_Point_sequence); return offset; } static int dissect_ranap_INTEGER_0_127(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 127U, NULL, FALSE); return offset; } static const per_sequence_t GA_PointWithUnCertainty_sequence[] = { { &hf_ranap_geographicalCoordinates, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_GeographicalCoordinates }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { &hf_ranap_uncertaintyCode, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_127 }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GA_PointWithUnCertainty(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GA_PointWithUnCertainty, GA_PointWithUnCertainty_sequence); return offset; } static const per_sequence_t GA_Polygon_item_sequence[] = { { &hf_ranap_geographicalCoordinates, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_GeographicalCoordinates }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GA_Polygon_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GA_Polygon_item, GA_Polygon_item_sequence); return offset; } static const per_sequence_t GA_Polygon_sequence_of[1] = { { &hf_ranap_GA_Polygon_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_GA_Polygon_item }, }; static int dissect_ranap_GA_Polygon(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_GA_Polygon, GA_Polygon_sequence_of, 1, maxNrOfPoints, FALSE); return offset; } static int dissect_ranap_INTEGER_0_179(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 179U, NULL, FALSE); return offset; } static const per_sequence_t GA_UncertaintyEllipse_sequence[] = { { &hf_ranap_uncertaintySemi_major, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_127 }, { &hf_ranap_uncertaintySemi_minor, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_127 }, { &hf_ranap_orientationOfMajorAxis, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_179 }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GA_UncertaintyEllipse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GA_UncertaintyEllipse, GA_UncertaintyEllipse_sequence); return offset; } static const per_sequence_t GA_PointWithUnCertaintyEllipse_sequence[] = { { &hf_ranap_geographicalCoordinates, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_GeographicalCoordinates }, { &hf_ranap_uncertaintyEllipse, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_GA_UncertaintyEllipse }, { &hf_ranap_confidence , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_127 }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GA_PointWithUnCertaintyEllipse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GA_PointWithUnCertaintyEllipse, GA_PointWithUnCertaintyEllipse_sequence); return offset; } static const value_string ranap_T_directionOfAltitude_vals[] = { { 0, "height" }, { 1, "depth" }, { 0, NULL } }; static int dissect_ranap_T_directionOfAltitude(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, FALSE, 0, NULL); return offset; } static int dissect_ranap_INTEGER_0_32767(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 32767U, NULL, FALSE); return offset; } static const per_sequence_t GA_AltitudeAndDirection_sequence[] = { { &hf_ranap_directionOfAltitude, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_T_directionOfAltitude }, { &hf_ranap_altitude , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_32767 }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GA_AltitudeAndDirection(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GA_AltitudeAndDirection, GA_AltitudeAndDirection_sequence); return offset; } static const per_sequence_t GA_PointWithAltitude_sequence[] = { { &hf_ranap_geographicalCoordinates, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_GeographicalCoordinates }, { &hf_ranap_altitudeAndDirection, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_GA_AltitudeAndDirection }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GA_PointWithAltitude(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GA_PointWithAltitude, GA_PointWithAltitude_sequence); return offset; } static const per_sequence_t GA_PointWithAltitudeAndUncertaintyEllipsoid_sequence[] = { { &hf_ranap_geographicalCoordinates, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_GeographicalCoordinates }, { &hf_ranap_altitudeAndDirection, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_GA_AltitudeAndDirection }, { &hf_ranap_uncertaintyEllipse, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_GA_UncertaintyEllipse }, { &hf_ranap_uncertaintyAltitude, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_127 }, { &hf_ranap_confidence , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_127 }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GA_PointWithAltitudeAndUncertaintyEllipsoid(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GA_PointWithAltitudeAndUncertaintyEllipsoid, GA_PointWithAltitudeAndUncertaintyEllipsoid_sequence); return offset; } static const per_sequence_t GA_EllipsoidArc_sequence[] = { { &hf_ranap_geographicalCoordinates, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_GeographicalCoordinates }, { &hf_ranap_innerRadius , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_65535 }, { &hf_ranap_uncertaintyRadius, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_127 }, { &hf_ranap_offsetAngle , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_179 }, { &hf_ranap_includedAngle , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_179 }, { &hf_ranap_confidence , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_127 }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GA_EllipsoidArc(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GA_EllipsoidArc, GA_EllipsoidArc_sequence); return offset; } static const value_string ranap_GeographicalArea_vals[] = { { 0, "point" }, { 1, "pointWithUnCertainty" }, { 2, "polygon" }, { 3, "pointWithUncertaintyEllipse" }, { 4, "pointWithAltitude" }, { 5, "pointWithAltitudeAndUncertaintyEllipsoid" }, { 6, "ellipsoidArc" }, { 0, NULL } }; static const per_choice_t GeographicalArea_choice[] = { { 0, &hf_ranap_point , ASN1_EXTENSION_ROOT , dissect_ranap_GA_Point }, { 1, &hf_ranap_pointWithUnCertainty, ASN1_EXTENSION_ROOT , dissect_ranap_GA_PointWithUnCertainty }, { 2, &hf_ranap_polygon , ASN1_EXTENSION_ROOT , dissect_ranap_GA_Polygon }, { 3, &hf_ranap_pointWithUncertaintyEllipse, ASN1_NOT_EXTENSION_ROOT, dissect_ranap_GA_PointWithUnCertaintyEllipse }, { 4, &hf_ranap_pointWithAltitude, ASN1_NOT_EXTENSION_ROOT, dissect_ranap_GA_PointWithAltitude }, { 5, &hf_ranap_pointWithAltitudeAndUncertaintyEllipsoid, ASN1_NOT_EXTENSION_ROOT, dissect_ranap_GA_PointWithAltitudeAndUncertaintyEllipsoid }, { 6, &hf_ranap_ellipsoidArc , ASN1_NOT_EXTENSION_ROOT, dissect_ranap_GA_EllipsoidArc }, { 0, NULL, 0, NULL } }; static int dissect_ranap_GeographicalArea(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_GeographicalArea, GeographicalArea_choice, NULL); return offset; } static const value_string ranap_AreaIdentity_vals[] = { { 0, "sAI" }, { 1, "geographicalArea" }, { 0, NULL } }; static const per_choice_t AreaIdentity_choice[] = { { 0, &hf_ranap_sAI , ASN1_EXTENSION_ROOT , dissect_ranap_SAI }, { 1, &hf_ranap_geographicalArea, ASN1_EXTENSION_ROOT , dissect_ranap_GeographicalArea }, { 0, NULL, 0, NULL } }; static int dissect_ranap_AreaIdentity(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_AreaIdentity, AreaIdentity_choice, NULL); return offset; } static const per_sequence_t Ass_RAB_Parameter_MaxBitrateList_sequence_of[1] = { { &hf_ranap_Ass_RAB_Parameter_MaxBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_MaxBitrate }, }; static int dissect_ranap_Ass_RAB_Parameter_MaxBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Ass_RAB_Parameter_MaxBitrateList, Ass_RAB_Parameter_MaxBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t Ass_RAB_Parameter_GuaranteedBitrateList_sequence_of[1] = { { &hf_ranap_Ass_RAB_Parameter_GuaranteedBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_GuaranteedBitrate }, }; static int dissect_ranap_Ass_RAB_Parameter_GuaranteedBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Ass_RAB_Parameter_GuaranteedBitrateList, Ass_RAB_Parameter_GuaranteedBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t Ass_RAB_Parameters_sequence[] = { { &hf_ranap_assMaxBitrateInf, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Ass_RAB_Parameter_MaxBitrateList }, { &hf_ranap_assGuaranteedBitRateInf, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Ass_RAB_Parameter_GuaranteedBitrateList }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Ass_RAB_Parameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Ass_RAB_Parameters, Ass_RAB_Parameters_sequence); return offset; } static const per_sequence_t Ass_RAB_Parameter_ExtendedGuaranteedBitrateList_sequence_of[1] = { { &hf_ranap_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ExtendedGuaranteedBitrate }, }; static int dissect_ranap_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList, Ass_RAB_Parameter_ExtendedGuaranteedBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t Ass_RAB_Parameter_ExtendedMaxBitrateList_sequence_of[1] = { { &hf_ranap_Ass_RAB_Parameter_ExtendedMaxBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ExtendedMaxBitrate }, }; static int dissect_ranap_Ass_RAB_Parameter_ExtendedMaxBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Ass_RAB_Parameter_ExtendedMaxBitrateList, Ass_RAB_Parameter_ExtendedMaxBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static int dissect_ranap_SNAC(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 65535U, NULL, FALSE); return offset; } static const per_sequence_t AuthorisedSNAs_sequence_of[1] = { { &hf_ranap_AuthorisedSNAs_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_SNAC }, }; static int dissect_ranap_AuthorisedSNAs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_AuthorisedSNAs, AuthorisedSNAs_sequence_of, 1, maxNrOfSNAs, FALSE); return offset; } static const per_sequence_t AuthorisedPLMNs_item_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_authorisedSNAsList, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_AuthorisedSNAs }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_AuthorisedPLMNs_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_AuthorisedPLMNs_item, AuthorisedPLMNs_item_sequence); return offset; } static const per_sequence_t AuthorisedPLMNs_sequence_of[1] = { { &hf_ranap_AuthorisedPLMNs_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_AuthorisedPLMNs_item }, }; static int dissect_ranap_AuthorisedPLMNs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_AuthorisedPLMNs, AuthorisedPLMNs_sequence_of, 1, maxNrOfPLMNsSN, FALSE); return offset; } static int dissect_ranap_BindingID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 4, 4, FALSE, NULL); return offset; } static int dissect_ranap_BIT_STRING_SIZE_1(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 1, 1, FALSE, NULL, NULL); return offset; } static int dissect_ranap_BIT_STRING_SIZE_56(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 56, 56, FALSE, NULL, NULL); return offset; } static const per_sequence_t BroadcastAssistanceDataDecipheringKeys_sequence[] = { { &hf_ranap_cipheringKeyFlag, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_BIT_STRING_SIZE_1 }, { &hf_ranap_currentDecipheringKey, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_BIT_STRING_SIZE_56 }, { &hf_ranap_nextDecipheringKey, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_BIT_STRING_SIZE_56 }, { NULL, 0, 0, NULL } }; static int dissect_ranap_BroadcastAssistanceDataDecipheringKeys(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_BroadcastAssistanceDataDecipheringKeys, BroadcastAssistanceDataDecipheringKeys_sequence); return offset; } static const value_string ranap_CauseRadioNetwork_vals[] = { { 1, "rab-pre-empted" }, { 2, "trelocoverall-expiry" }, { 3, "trelocprep-expiry" }, { 4, "treloccomplete-expiry" }, { 5, "tqueing-expiry" }, { 6, "relocation-triggered" }, { 7, "trellocalloc-expiry" }, { 8, "unable-to-establish-during-relocation" }, { 9, "unknown-target-rnc" }, { 10, "relocation-cancelled" }, { 11, "successful-relocation" }, { 12, "requested-ciphering-and-or-integrity-protection-algorithms-not-supported" }, { 13, "conflict-with-already-existing-integrity-protection-and-or-ciphering-information" }, { 14, "failure-in-the-radio-interface-procedure" }, { 15, "release-due-to-utran-generated-reason" }, { 16, "user-inactivity" }, { 17, "time-critical-relocation" }, { 18, "requested-traffic-class-not-available" }, { 19, "invalid-rab-parameters-value" }, { 20, "requested-maximum-bit-rate-not-available" }, { 21, "requested-guaranteed-bit-rate-not-available" }, { 22, "requested-transfer-delay-not-achievable" }, { 23, "invalid-rab-parameters-combination" }, { 24, "condition-violation-for-sdu-parameters" }, { 25, "condition-violation-for-traffic-handling-priority" }, { 26, "condition-violation-for-guaranteed-bit-rate" }, { 27, "user-plane-versions-not-supported" }, { 28, "iu-up-failure" }, { 29, "relocation-failure-in-target-CN-RNC-or-target-system" }, { 30, "invalid-RAB-ID" }, { 31, "no-remaining-rab" }, { 32, "interaction-with-other-procedure" }, { 33, "requested-maximum-bit-rate-for-dl-not-available" }, { 34, "requested-maximum-bit-rate-for-ul-not-available" }, { 35, "requested-guaranteed-bit-rate-for-dl-not-available" }, { 36, "requested-guaranteed-bit-rate-for-ul-not-available" }, { 37, "repeated-integrity-checking-failure" }, { 38, "requested-request-type-not-supported" }, { 39, "request-superseded" }, { 40, "release-due-to-UE-generated-signalling-connection-release" }, { 41, "resource-optimisation-relocation" }, { 42, "requested-information-not-available" }, { 43, "relocation-desirable-for-radio-reasons" }, { 44, "relocation-not-supported-in-target-RNC-or-target-system" }, { 45, "directed-retry" }, { 46, "radio-connection-with-UE-Lost" }, { 47, "rNC-unable-to-establish-all-RFCs" }, { 48, "deciphering-keys-not-available" }, { 49, "dedicated-assistance-data-not-available" }, { 50, "relocation-target-not-allowed" }, { 51, "location-reporting-congestion" }, { 52, "reduce-load-in-serving-cell" }, { 53, "no-radio-resources-available-in-target-cell" }, { 54, "gERAN-Iumode-failure" }, { 55, "access-restricted-due-to-shared-networks" }, { 56, "incoming-relocation-not-supported-due-to-PUESBINE-feature" }, { 57, "traffic-load-in-the-target-cell-higher-than-in-the-source-cell" }, { 58, "mBMS-no-multicast-service-for-this-UE" }, { 59, "mBMS-unknown-UE-ID" }, { 60, "successful-MBMS-session-start-no-data-bearer-necessary" }, { 61, "mBMS-superseded-due-to-NNSF" }, { 62, "mBMS-UE-linking-already-done" }, { 63, "mBMS-UE-de-linking-failure-no-existing-UE-linking" }, { 64, "tMGI-unknown" }, { 0, NULL } }; static value_string_ext ranap_CauseRadioNetwork_vals_ext = VALUE_STRING_EXT_INIT(ranap_CauseRadioNetwork_vals); static int dissect_ranap_CauseRadioNetwork(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 64U, NULL, FALSE); return offset; } static const value_string ranap_CauseTransmissionNetwork_vals[] = { { 65, "signalling-transport-resource-failure" }, { 66, "iu-transport-connection-failed-to-establish" }, { 0, NULL } }; static int dissect_ranap_CauseTransmissionNetwork(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 65U, 80U, NULL, FALSE); return offset; } static const value_string ranap_CauseNAS_vals[] = { { 81, "user-restriction-start-indication" }, { 82, "user-restriction-end-indication" }, { 83, "normal-release" }, { 84, "csg-subscription-expiry" }, { 0, NULL } }; static int dissect_ranap_CauseNAS(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 81U, 96U, NULL, FALSE); return offset; } static const value_string ranap_CauseProtocol_vals[] = { { 97, "transfer-syntax-error" }, { 98, "semantic-error" }, { 99, "message-not-compatible-with-receiver-state" }, { 100, "abstract-syntax-error-reject" }, { 101, "abstract-syntax-error-ignore-and-notify" }, { 102, "abstract-syntax-error-falsely-constructed-message" }, { 0, NULL } }; static int dissect_ranap_CauseProtocol(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 97U, 112U, NULL, FALSE); return offset; } static const value_string ranap_CauseMisc_vals[] = { { 113, "om-intervention" }, { 114, "no-resource-available" }, { 115, "unspecified-failure" }, { 116, "network-optimisation" }, { 0, NULL } }; static int dissect_ranap_CauseMisc(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 113U, 128U, NULL, FALSE); return offset; } static int dissect_ranap_CauseNon_Standard(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 129U, 256U, NULL, FALSE); return offset; } static const value_string ranap_CauseRadioNetworkExtension_vals[] = { { 257, "iP-multicast-address-and-APN-not-valid" }, { 258, "mBMS-de-registration-rejected-due-to-implicit-registration" }, { 259, "mBMS-request-superseded" }, { 260, "mBMS-de-registration-during-session-not-allowed" }, { 261, "mBMS-no-data-bearer-necessary" }, { 262, "periodicLocationInformationNotAvailable" }, { 263, "gTP-Resources-Unavailable" }, { 264, "tMGI-inUse-overlapping-MBMS-service-area" }, { 265, "mBMS-no-cell-in-MBMS-service-area" }, { 266, "no-Iu-CS-UP-relocation" }, { 267, "successful-MBMS-Session-Start-IP-Multicast-Bearer-established" }, { 268, "cS-fallback-triggered" }, { 269, "invalid-CSG-Id" }, { 0, NULL } }; static int dissect_ranap_CauseRadioNetworkExtension(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 257U, 512U, NULL, FALSE); return offset; } static const value_string ranap_Cause_vals[] = { { 0, "radioNetwork" }, { 1, "transmissionNetwork" }, { 2, "nAS" }, { 3, "protocol" }, { 4, "misc" }, { 5, "non-Standard" }, { 6, "radioNetworkExtension" }, { 0, NULL } }; static const per_choice_t Cause_choice[] = { { 0, &hf_ranap_radioNetwork , ASN1_EXTENSION_ROOT , dissect_ranap_CauseRadioNetwork }, { 1, &hf_ranap_transmissionNetwork, ASN1_EXTENSION_ROOT , dissect_ranap_CauseTransmissionNetwork }, { 2, &hf_ranap_nAS , ASN1_EXTENSION_ROOT , dissect_ranap_CauseNAS }, { 3, &hf_ranap_protocol , ASN1_EXTENSION_ROOT , dissect_ranap_CauseProtocol }, { 4, &hf_ranap_misc , ASN1_EXTENSION_ROOT , dissect_ranap_CauseMisc }, { 5, &hf_ranap_non_Standard , ASN1_EXTENSION_ROOT , dissect_ranap_CauseNon_Standard }, { 6, &hf_ranap_radioNetworkExtension, ASN1_NOT_EXTENSION_ROOT, dissect_ranap_CauseRadioNetworkExtension }, { 0, NULL, 0, NULL } }; static int dissect_ranap_Cause(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_Cause, Cause_choice, NULL); return offset; } static const value_string ranap_Cell_Access_Mode_vals[] = { { 0, "hybrid" }, { 0, NULL } }; static int dissect_ranap_Cell_Access_Mode(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_Cell_Id(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 268435455U, NULL, FALSE); return offset; } static const per_sequence_t CellIdList_sequence_of[1] = { { &hf_ranap_CellIdList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Cell_Id }, }; static int dissect_ranap_CellIdList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_CellIdList, CellIdList_sequence_of, 1, maxNrOfCellIds, FALSE); return offset; } static const per_sequence_t CellBased_sequence[] = { { &hf_ranap_cellIdList , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_CellIdList }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_CellBased(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_CellBased, CellBased_sequence); return offset; } static int dissect_ranap_Cell_Capacity_Class_Value(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 100U, NULL, TRUE); return offset; } static int dissect_ranap_LoadValue(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 100U, NULL, FALSE); return offset; } static int dissect_ranap_RTLoadValue(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 100U, NULL, FALSE); return offset; } static int dissect_ranap_NRTLoadInformationValue(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 3U, NULL, FALSE); return offset; } static const per_sequence_t CellLoadInformation_sequence[] = { { &hf_ranap_cell_Capacity_Class_Value, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Cell_Capacity_Class_Value }, { &hf_ranap_loadValue , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_LoadValue }, { &hf_ranap_rTLoadValue , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RTLoadValue }, { &hf_ranap_nRTLoadInformationValue, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_NRTLoadInformationValue }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_CellLoadInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_CellLoadInformation, CellLoadInformation_sequence); return offset; } static int dissect_ranap_TargetCellId(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 268435455U, NULL, FALSE); return offset; } static const per_sequence_t SourceUTRANCellID_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_uTRANcellID , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_TargetCellId }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SourceUTRANCellID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SourceUTRANCellID, SourceUTRANCellID_sequence); return offset; } static int dissect_ranap_CI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 2, 2, FALSE, NULL); return offset; } static const per_sequence_t CGI_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_lAC , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_LAC }, { &hf_ranap_cI , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_CI }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_CGI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_CGI, CGI_sequence); return offset; } static const value_string ranap_SourceCellID_vals[] = { { 0, "sourceUTRANCellID" }, { 1, "sourceGERANCellID" }, { 0, NULL } }; static const per_choice_t SourceCellID_choice[] = { { 0, &hf_ranap_sourceUTRANCellID, ASN1_EXTENSION_ROOT , dissect_ranap_SourceUTRANCellID }, { 1, &hf_ranap_sourceGERANCellID, ASN1_EXTENSION_ROOT , dissect_ranap_CGI }, { 0, NULL, 0, NULL } }; static int dissect_ranap_SourceCellID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_SourceCellID, SourceCellID_choice, NULL); return offset; } static const per_sequence_t CellLoadInformationGroup_sequence[] = { { &hf_ranap_sourceCellID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_SourceCellID }, { &hf_ranap_uplinkCellLoadInformation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_CellLoadInformation }, { &hf_ranap_downlinkCellLoadInformation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_CellLoadInformation }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_CellLoadInformationGroup(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_CellLoadInformationGroup, CellLoadInformationGroup_sequence); return offset; } static const value_string ranap_ClientType_vals[] = { { 0, "emergency-Services" }, { 1, "value-Added-Services" }, { 2, "pLMN-Operator-Services" }, { 3, "lawful-Intercept-Services" }, { 4, "pLMN-Operator-Broadcast-Services" }, { 5, "pLMN-Operator-O-et-M" }, { 6, "pLMN-Operator-Anonymous-Statistics" }, { 7, "pLMN-Operator-Target-MS-Service-Support" }, { 0, NULL } }; static int dissect_ranap_ClientType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 8, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_RepetitionNumber0(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 255U, NULL, FALSE); return offset; } static const per_sequence_t CriticalityDiagnostics_IE_List_item_sequence[] = { { &hf_ranap_iECriticality , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Criticality }, { &hf_ranap_iE_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_ID }, { &hf_ranap_repetitionNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RepetitionNumber0 }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_CriticalityDiagnostics_IE_List_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_CriticalityDiagnostics_IE_List_item, CriticalityDiagnostics_IE_List_item_sequence); return offset; } static const per_sequence_t CriticalityDiagnostics_IE_List_sequence_of[1] = { { &hf_ranap_CriticalityDiagnostics_IE_List_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_CriticalityDiagnostics_IE_List_item }, }; static int dissect_ranap_CriticalityDiagnostics_IE_List(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_CriticalityDiagnostics_IE_List, CriticalityDiagnostics_IE_List_sequence_of, 1, maxNrOfErrors, FALSE); return offset; } static const per_sequence_t CriticalityDiagnostics_sequence[] = { { &hf_ranap_procedureCode , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProcedureCode }, { &hf_ranap_triggeringMessage, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TriggeringMessage }, { &hf_ranap_procedureCriticality, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Criticality }, { &hf_ranap_iEsCriticalityDiagnostics, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_CriticalityDiagnostics_IE_List }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_CriticalityDiagnostics(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_CriticalityDiagnostics, CriticalityDiagnostics_sequence); return offset; } static int dissect_ranap_RepetitionNumber1(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 256U, NULL, FALSE); return offset; } static const per_sequence_t MessageStructure_item_sequence[] = { { &hf_ranap_iE_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_ID }, { &hf_ranap_item_repetitionNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RepetitionNumber1 }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MessageStructure_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MessageStructure_item, MessageStructure_item_sequence); return offset; } static const per_sequence_t MessageStructure_sequence_of[1] = { { &hf_ranap_MessageStructure_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_MessageStructure_item }, }; static int dissect_ranap_MessageStructure(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_MessageStructure, MessageStructure_sequence_of, 1, maxNrOfLevels, FALSE); return offset; } static const value_string ranap_EncryptionAlgorithm_vals[] = { { 0, "no-encryption" }, { 1, "standard-UMTS-encryption-algorith-UEA1" }, { 2, "standard-UMTS-encryption-algorithm-UEA2" }, { 0, NULL } }; static int dissect_ranap_EncryptionAlgorithm(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 15U, NULL, FALSE); return offset; } static int dissect_ranap_ChosenEncryptionAlgorithm(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_EncryptionAlgorithm(tvb, offset, actx, tree, hf_index); return offset; } static const value_string ranap_IntegrityProtectionAlgorithm_vals[] = { { 0, "standard-UMTS-integrity-algorithm-UIA1" }, { 1, "standard-UMTS-integrity-algorithm-UIA2" }, { 15, "no-value" }, { 0, NULL } }; static int dissect_ranap_IntegrityProtectionAlgorithm(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 15U, NULL, FALSE); return offset; } static int dissect_ranap_ChosenIntegrityProtectionAlgorithm(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_IntegrityProtectionAlgorithm(tvb, offset, actx, tree, hf_index); return offset; } static int dissect_ranap_ClassmarkInformation2(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, NULL); return offset; } static int dissect_ranap_ClassmarkInformation3(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, NULL); return offset; } static const value_string ranap_CN_DomainIndicator_vals[] = { { 0, "cs-domain" }, { 1, "ps-domain" }, { 0, NULL } }; static int dissect_ranap_CN_DomainIndicator(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, FALSE, 0, NULL); return offset; } static int dissect_ranap_CN_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 4095U, NULL, FALSE); return offset; } static int dissect_ranap_Correlation_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 4, 4, FALSE, NULL); return offset; } static const value_string ranap_CSFB_Information_vals[] = { { 0, "csfb" }, { 1, "csfb-high-priority" }, { 0, NULL } }; static int dissect_ranap_CSFB_Information(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_CSG_Id(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 27, 27, FALSE, NULL, NULL); return offset; } static const per_sequence_t CSG_Id_List_sequence_of[1] = { { &hf_ranap_CSG_Id_List_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_CSG_Id }, }; static int dissect_ranap_CSG_Id_List(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_CSG_Id_List, CSG_Id_List_sequence_of, 1, maxNrOfCSGs, FALSE); return offset; } static const value_string ranap_CSG_Membership_Status_vals[] = { { 0, "member" }, { 1, "non-member" }, { 0, NULL } }; static int dissect_ranap_CSG_Membership_Status(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_DataPDUType_vals[] = { { 0, "pDUtype0" }, { 1, "pDUtype1" }, { 0, NULL } }; static int dissect_ranap_DataPDUType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_DataVolumeReference(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 255U, NULL, FALSE); return offset; } static const value_string ranap_DataVolumeReportingIndication_vals[] = { { 0, "do-report" }, { 1, "do-not-report" }, { 0, NULL } }; static int dissect_ranap_DataVolumeReportingIndication(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, FALSE, 0, NULL); return offset; } static int dissect_ranap_DCH_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 255U, NULL, FALSE); return offset; } static const value_string ranap_DeliveryOfErroneousSDU_vals[] = { { 0, "yes" }, { 1, "no" }, { 2, "no-error-detection-consideration" }, { 0, NULL } }; static int dissect_ranap_DeliveryOfErroneousSDU(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 3, NULL, FALSE, 0, NULL); return offset; } static const value_string ranap_DeliveryOrder_vals[] = { { 0, "delivery-order-requested" }, { 1, "delivery-order-not-requested" }, { 0, NULL } }; static int dissect_ranap_DeliveryOrder(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, FALSE, 0, NULL); return offset; } static int dissect_ranap_RAC(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 1, FALSE, NULL); return offset; } static const per_sequence_t NewRAListofIdleModeUEs_sequence_of[1] = { { &hf_ranap_NewRAListofIdleModeUEs_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RAC }, }; static int dissect_ranap_NewRAListofIdleModeUEs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_NewRAListofIdleModeUEs, NewRAListofIdleModeUEs_sequence_of, 1, maxMBMSRA, FALSE); return offset; } static const per_sequence_t RAListwithNoIdleModeUEsAnyMore_sequence_of[1] = { { &hf_ranap_RAListwithNoIdleModeUEsAnyMore_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RAC }, }; static int dissect_ranap_RAListwithNoIdleModeUEsAnyMore(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RAListwithNoIdleModeUEsAnyMore, RAListwithNoIdleModeUEsAnyMore_sequence_of, 1, maxMBMSRA, FALSE); return offset; } static const per_sequence_t DeltaRAListofIdleModeUEs_sequence[] = { { &hf_ranap_newRAListofIdleModeUEs, ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_NewRAListofIdleModeUEs }, { &hf_ranap_rAListwithNoIdleModeUEsAnyMore, ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_RAListwithNoIdleModeUEsAnyMore }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_DeltaRAListofIdleModeUEs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_DeltaRAListofIdleModeUEs, DeltaRAListofIdleModeUEs_sequence); return offset; } static int dissect_ranap_DL_GTP_PDU_SequenceNumber(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 65535U, NULL, FALSE); return offset; } static int dissect_ranap_DL_N_PDU_SequenceNumber(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 65535U, NULL, FALSE); return offset; } static int dissect_ranap_D_RNTI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 1048575U, NULL, FALSE); return offset; } static int dissect_ranap_DRX_CycleLengthCoefficient(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 6U, 9U, NULL, FALSE); return offset; } static int dissect_ranap_DSCH_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 255U, NULL, FALSE); return offset; } static int dissect_ranap_E_DCH_MAC_d_Flow_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, maxNrOfEDCHMACdFlows_1, NULL, FALSE); return offset; } static int dissect_ranap_BIT_STRING_SIZE_20(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 20, 20, FALSE, NULL, NULL); return offset; } static int dissect_ranap_BIT_STRING_SIZE_28(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 28, 28, FALSE, NULL, NULL); return offset; } static const value_string ranap_ENB_ID_vals[] = { { 0, "macroENB-ID" }, { 1, "homeENB-ID" }, { 0, NULL } }; static const per_choice_t ENB_ID_choice[] = { { 0, &hf_ranap_macroENB_ID , ASN1_EXTENSION_ROOT , dissect_ranap_BIT_STRING_SIZE_20 }, { 1, &hf_ranap_homeENB_ID , ASN1_EXTENSION_ROOT , dissect_ranap_BIT_STRING_SIZE_28 }, { 0, NULL, 0, NULL } }; static int dissect_ranap_ENB_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_ENB_ID, ENB_ID_choice, NULL); return offset; } static const per_sequence_t PermittedEncryptionAlgorithms_sequence_of[1] = { { &hf_ranap_PermittedEncryptionAlgorithms_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_EncryptionAlgorithm }, }; static int dissect_ranap_PermittedEncryptionAlgorithms(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_PermittedEncryptionAlgorithms, PermittedEncryptionAlgorithms_sequence_of, 1, 16, FALSE); return offset; } static int dissect_ranap_EncryptionKey(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 128, 128, FALSE, NULL, NULL); return offset; } static const per_sequence_t EncryptionInformation_sequence[] = { { &hf_ranap_permittedAlgorithms, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PermittedEncryptionAlgorithms }, { &hf_ranap_key , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_EncryptionKey }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; int dissect_ranap_EncryptionInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_EncryptionInformation, EncryptionInformation_sequence); return offset; } static const value_string ranap_End_Of_CSFB_vals[] = { { 0, "end-of-CSFB" }, { 0, NULL } }; static int dissect_ranap_End_Of_CSFB(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_IMEI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 8, 8, FALSE, NULL); return offset; } static const per_sequence_t IMEIList_sequence_of[1] = { { &hf_ranap_IMEIList_item , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_IMEI }, }; static int dissect_ranap_IMEIList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_IMEIList, IMEIList_sequence_of, 1, maxNrOfUEsToBeTraced, FALSE); return offset; } static int dissect_ranap_IMEISV(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 8, 8, FALSE, NULL); return offset; } static const per_sequence_t IMEISVList_sequence_of[1] = { { &hf_ranap_IMEISVList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_IMEISV }, }; static int dissect_ranap_IMEISVList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_IMEISVList, IMEISVList_sequence_of, 1, maxNrOfUEsToBeTraced, FALSE); return offset; } static int dissect_ranap_BIT_STRING_SIZE_7(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 7, 7, FALSE, NULL, NULL); return offset; } static const per_sequence_t IMEIGroup_sequence[] = { { &hf_ranap_iMEI , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_IMEI }, { &hf_ranap_iMEIMask , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_BIT_STRING_SIZE_7 }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_IMEIGroup(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_IMEIGroup, IMEIGroup_sequence); return offset; } static const per_sequence_t IMEISVGroup_sequence[] = { { &hf_ranap_iMEISV , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_IMEISV }, { &hf_ranap_iMEISVMask , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_BIT_STRING_SIZE_7 }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_IMEISVGroup(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_IMEISVGroup, IMEISVGroup_sequence); return offset; } static const value_string ranap_EquipmentsToBeTraced_vals[] = { { 0, "iMEIlist" }, { 1, "iMEISVlist" }, { 2, "iMEIgroup" }, { 3, "iMEISVgroup" }, { 0, NULL } }; static const per_choice_t EquipmentsToBeTraced_choice[] = { { 0, &hf_ranap_iMEIlist , ASN1_EXTENSION_ROOT , dissect_ranap_IMEIList }, { 1, &hf_ranap_iMEISVlist , ASN1_EXTENSION_ROOT , dissect_ranap_IMEISVList }, { 2, &hf_ranap_iMEIgroup , ASN1_EXTENSION_ROOT , dissect_ranap_IMEIGroup }, { 3, &hf_ranap_iMEISVgroup , ASN1_EXTENSION_ROOT , dissect_ranap_IMEISVGroup }, { 0, NULL, 0, NULL } }; static int dissect_ranap_EquipmentsToBeTraced(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_EquipmentsToBeTraced, EquipmentsToBeTraced_choice, NULL); return offset; } static const value_string ranap_E_UTRAN_Service_Handover_vals[] = { { 0, "handover-to-E-UTRAN-shall-not-be-performed" }, { 0, NULL } }; static int dissect_ranap_E_UTRAN_Service_Handover(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_Event_vals[] = { { 0, "stop-change-of-service-area" }, { 1, "direct" }, { 2, "change-of-servicearea" }, { 3, "stop-direct" }, { 4, "periodic" }, { 5, "stop-periodic" }, { 0, NULL } }; static int dissect_ranap_Event(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 3, NULL, TRUE, 3, NULL); return offset; } static const value_string ranap_MeasurementQuantity_vals[] = { { 0, "cpichEcNo" }, { 1, "cpichRSCP" }, { 2, "pathloss" }, { 0, NULL } }; static int dissect_ranap_MeasurementQuantity(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 3, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_INTEGER_M120_165(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, -120, 165U, NULL, FALSE); return offset; } static const per_sequence_t Event1F_Parameters_sequence[] = { { &hf_ranap_measurementQuantity, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_MeasurementQuantity }, { &hf_ranap_threshold , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_M120_165 }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Event1F_Parameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Event1F_Parameters, Event1F_Parameters_sequence); return offset; } static int dissect_ranap_INTEGER_M120_M25(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, -120, -25, NULL, FALSE); return offset; } static const per_sequence_t Event1I_Parameters_sequence[] = { { &hf_ranap_threshold_01 , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_M120_M25 }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Event1I_Parameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Event1I_Parameters, Event1I_Parameters_sequence); return offset; } static int dissect_ranap_ExtendedRNC_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 4096U, 65535U, NULL, FALSE); return offset; } static int dissect_ranap_FrameSequenceNumber(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 15U, NULL, FALSE); return offset; } static const value_string ranap_FrequenceLayerConvergenceFlag_vals[] = { { 0, "no-FLC-flag" }, { 0, NULL } }; static int dissect_ranap_FrequenceLayerConvergenceFlag(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_GANSS_PositioningMethodAndUsage(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 1, FALSE, NULL); return offset; } static const per_sequence_t GANSS_PositioningDataSet_sequence_of[1] = { { &hf_ranap_GANSS_PositioningDataSet_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_GANSS_PositioningMethodAndUsage }, }; static int dissect_ranap_GANSS_PositioningDataSet(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_GANSS_PositioningDataSet, GANSS_PositioningDataSet_sequence_of, 1, maxGANSSSet, FALSE); return offset; } static int dissect_ranap_GERAN_BSC_Container(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, NULL); return offset; } static const per_sequence_t LAI_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_lAC , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_LAC }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LAI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LAI, LAI_sequence); return offset; } static const per_sequence_t GERAN_Cell_ID_sequence[] = { { &hf_ranap_lAI , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_LAI }, { &hf_ranap_rAC , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RAC }, { &hf_ranap_cI , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_CI }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GERAN_Cell_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GERAN_Cell_ID, GERAN_Cell_ID_sequence); return offset; } static int dissect_ranap_GERAN_Classmark(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, NULL); return offset; } static const per_sequence_t GlobalCN_ID_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_cN_ID , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_CN_ID }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GlobalCN_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GlobalCN_ID, GlobalCN_ID_sequence); return offset; } static int dissect_ranap_RNC_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 4095U, NULL, FALSE); return offset; } static const per_sequence_t GlobalRNC_ID_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_rNC_ID , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RNC_ID }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GlobalRNC_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GlobalRNC_ID, GlobalRNC_ID_sequence); return offset; } static int dissect_ranap_GTP_TEI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 330 "../../asn1/ranap/ranap.cnf" tvbuff_t *parameter_tvb=NULL; int saved_hf; saved_hf = hf_index; hf_index = -1; offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 4, 4, FALSE, &parameter_tvb); if (!parameter_tvb) return offset; proto_tree_add_item(tree, saved_hf, parameter_tvb, 0, 4, ENC_BIG_ENDIAN); return offset; } static const value_string ranap_HigherBitratesThan16MbpsFlag_vals[] = { { 0, "allowed" }, { 1, "not-allowed" }, { 0, NULL } }; static int dissect_ranap_HigherBitratesThan16MbpsFlag(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_HS_DSCH_MAC_d_Flow_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, maxNrOfHSDSCHMACdFlows_1, NULL, FALSE); return offset; } static int dissect_ranap_MeasurementsToActivate(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 8, 8, FALSE, NULL, NULL); return offset; } static const value_string ranap_ReportInterval_vals[] = { { 0, "ms250" }, { 1, "ms500" }, { 2, "ms1000" }, { 3, "ms2000" }, { 4, "ms3000" }, { 5, "ms4000" }, { 6, "ms6000" }, { 7, "ms12000" }, { 8, "ms16000" }, { 9, "ms20000" }, { 10, "ms24000" }, { 11, "ms32000" }, { 12, "ms64000" }, { 0, NULL } }; static int dissect_ranap_ReportInterval(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 13, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_ReportAmount_vals[] = { { 0, "n1" }, { 1, "n2" }, { 2, "n4" }, { 3, "n8" }, { 4, "n16" }, { 5, "n32" }, { 6, "n64" }, { 7, "infinity" }, { 0, NULL } }; static int dissect_ranap_ReportAmount(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 8, NULL, TRUE, 0, NULL); return offset; } static const per_sequence_t MDT_Report_Parameters_sequence[] = { { &hf_ranap_reportInterval, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ReportInterval }, { &hf_ranap_reportAmount , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ReportAmount }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MDT_Report_Parameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MDT_Report_Parameters, MDT_Report_Parameters_sequence); return offset; } static const value_string ranap_M1Report_vals[] = { { 0, "periodic" }, { 1, "event1F" }, { 0, NULL } }; static const per_choice_t M1Report_choice[] = { { 0, &hf_ranap_periodic , ASN1_EXTENSION_ROOT , dissect_ranap_MDT_Report_Parameters }, { 1, &hf_ranap_event1F , ASN1_EXTENSION_ROOT , dissect_ranap_Event1F_Parameters }, { 0, NULL, 0, NULL } }; static int dissect_ranap_M1Report(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_M1Report, M1Report_choice, NULL); return offset; } static const value_string ranap_M2Report_vals[] = { { 0, "periodic" }, { 1, "event1I" }, { 0, NULL } }; static const per_choice_t M2Report_choice[] = { { 0, &hf_ranap_periodic , ASN1_EXTENSION_ROOT , dissect_ranap_MDT_Report_Parameters }, { 1, &hf_ranap_event1I , ASN1_EXTENSION_ROOT , dissect_ranap_Event1I_Parameters }, { 0, NULL, 0, NULL } }; static int dissect_ranap_M2Report(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_M2Report, M2Report_choice, NULL); return offset; } static const per_sequence_t ImmediateMDT_sequence[] = { { &hf_ranap_measurementsToActivate, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_MeasurementsToActivate }, { &hf_ranap_m1report , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_M1Report }, { &hf_ranap_m2report , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_M2Report }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ImmediateMDT(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ImmediateMDT, ImmediateMDT_sequence); return offset; } static int dissect_ranap_IMSI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 189 "../../asn1/ranap/ranap.cnf" tvbuff_t* imsi_tvb; const char *digit_str; offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 3, 8, FALSE, &imsi_tvb); if(!imsi_tvb) return offset; if ( actx->pinfo->sccp_info && actx->pinfo->sccp_info->data.co.assoc && ! actx->pinfo->sccp_info->data.co.assoc->calling_party ) { guint len = tvb_length(imsi_tvb); guint8* bytes = (guint8 *)tvb_memdup(wmem_packet_scope(),imsi_tvb,0,len); actx->pinfo->sccp_info->data.co.assoc->calling_party = wmem_strdup_printf(wmem_file_scope(), "IMSI: %s", bytes_to_ep_str(bytes, len) ); } digit_str = unpack_digits(imsi_tvb, 0); proto_tree_add_string(tree, hf_ranap_imsi_digits, imsi_tvb, 0, -1, digit_str); return offset; } static const value_string ranap_IncludeVelocity_vals[] = { { 0, "requested" }, { 0, NULL } }; static int dissect_ranap_IncludeVelocity(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, FALSE, 0, NULL); return offset; } static int dissect_ranap_InformationExchangeID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 1048575U, NULL, FALSE); return offset; } static const value_string ranap_InformationExchangeType_vals[] = { { 0, "transfer" }, { 1, "request" }, { 0, NULL } }; static int dissect_ranap_InformationExchangeType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_OCTET_STRING_SIZE_3(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 3, 3, FALSE, NULL); return offset; } static const per_sequence_t TMGI_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_serviceID , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_OCTET_STRING_SIZE_3 }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_TMGI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TMGI, TMGI_sequence); return offset; } static int dissect_ranap_IPMulticastAddress(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 4, 16, FALSE, NULL); return offset; } static const per_sequence_t MBMSIPMulticastAddressandAPNlist_sequence[] = { { &hf_ranap_tMGI , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TMGI }, { &hf_ranap_iPMulticastAddress, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_IPMulticastAddress }, { &hf_ranap_aPN , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_APN }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSIPMulticastAddressandAPNlist(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSIPMulticastAddressandAPNlist, MBMSIPMulticastAddressandAPNlist_sequence); return offset; } static const per_sequence_t RequestedMBMSIPMulticastAddressandAPNRequest_sequence_of[1] = { { &hf_ranap_RequestedMBMSIPMulticastAddressandAPNRequest_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_MBMSIPMulticastAddressandAPNlist }, }; static int dissect_ranap_RequestedMBMSIPMulticastAddressandAPNRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RequestedMBMSIPMulticastAddressandAPNRequest, RequestedMBMSIPMulticastAddressandAPNRequest_sequence_of, 1, maxnoofMulticastServicesPerRNC, FALSE); return offset; } static const per_sequence_t RequestedMulticastServiceList_sequence_of[1] = { { &hf_ranap_RequestedMulticastServiceList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_TMGI }, }; static int dissect_ranap_RequestedMulticastServiceList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RequestedMulticastServiceList, RequestedMulticastServiceList_sequence_of, 1, maxnoofMulticastServicesPerUE, FALSE); return offset; } static const value_string ranap_InformationRequested_vals[] = { { 0, "requestedMBMSIPMulticastAddressandAPNRequest" }, { 1, "requestedMulticastServiceList" }, { 0, NULL } }; static const per_choice_t InformationRequested_choice[] = { { 0, &hf_ranap_requestedMBMSIPMulticastAddressandAPNRequest, ASN1_EXTENSION_ROOT , dissect_ranap_RequestedMBMSIPMulticastAddressandAPNRequest }, { 1, &hf_ranap_requestedMulticastServiceList, ASN1_EXTENSION_ROOT , dissect_ranap_RequestedMulticastServiceList }, { 0, NULL, 0, NULL } }; static int dissect_ranap_InformationRequested(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_InformationRequested, InformationRequested_choice, NULL); return offset; } static const per_sequence_t MBMSIPMulticastAddressandAPNRequest_sequence_of[1] = { { &hf_ranap_MBMSIPMulticastAddressandAPNRequest_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_TMGI }, }; static int dissect_ranap_MBMSIPMulticastAddressandAPNRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSIPMulticastAddressandAPNRequest, MBMSIPMulticastAddressandAPNRequest_sequence_of, 1, maxnoofMulticastServicesPerRNC, FALSE); return offset; } static const value_string ranap_PermanentNAS_UE_ID_vals[] = { { 0, "iMSI" }, { 0, NULL } }; static const per_choice_t PermanentNAS_UE_ID_choice[] = { { 0, &hf_ranap_iMSI , ASN1_EXTENSION_ROOT , dissect_ranap_IMSI }, { 0, NULL, 0, NULL } }; static int dissect_ranap_PermanentNAS_UE_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_PermanentNAS_UE_ID, PermanentNAS_UE_ID_choice, NULL); return offset; } static const value_string ranap_InformationRequestType_vals[] = { { 0, "mBMSIPMulticastAddressandAPNRequest" }, { 1, "permanentNAS-UE-ID" }, { 0, NULL } }; static const per_choice_t InformationRequestType_choice[] = { { 0, &hf_ranap_mBMSIPMulticastAddressandAPNRequest, ASN1_EXTENSION_ROOT , dissect_ranap_MBMSIPMulticastAddressandAPNRequest }, { 1, &hf_ranap_permanentNAS_UE_ID, ASN1_EXTENSION_ROOT , dissect_ranap_PermanentNAS_UE_ID }, { 0, NULL, 0, NULL } }; static int dissect_ranap_InformationRequestType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_InformationRequestType, InformationRequestType_choice, NULL); return offset; } static int dissect_ranap_InformationTransferID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 1048575U, NULL, FALSE); return offset; } static int dissect_ranap_TraceReference(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 2, 3, FALSE, NULL); return offset; } static const value_string ranap_T_traceActivationIndicator_vals[] = { { 0, "activated" }, { 1, "deactivated" }, { 0, NULL } }; static int dissect_ranap_T_traceActivationIndicator(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, FALSE, 0, NULL); return offset; } static const per_sequence_t RNCTraceInformation_sequence[] = { { &hf_ranap_traceReference, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_TraceReference }, { &hf_ranap_traceActivationIndicator, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_T_traceActivationIndicator }, { &hf_ranap_equipmentsToBeTraced, ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_EquipmentsToBeTraced }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RNCTraceInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RNCTraceInformation, RNCTraceInformation_sequence); return offset; } static const value_string ranap_InformationTransferType_vals[] = { { 0, "rNCTraceInformation" }, { 0, NULL } }; static const per_choice_t InformationTransferType_choice[] = { { 0, &hf_ranap_rNCTraceInformation, ASN1_EXTENSION_ROOT , dissect_ranap_RNCTraceInformation }, { 0, NULL, 0, NULL } }; static int dissect_ranap_InformationTransferType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_InformationTransferType, InformationTransferType_choice, NULL); return offset; } static const per_sequence_t PermittedIntegrityProtectionAlgorithms_sequence_of[1] = { { &hf_ranap_PermittedIntegrityProtectionAlgorithms_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_IntegrityProtectionAlgorithm }, }; static int dissect_ranap_PermittedIntegrityProtectionAlgorithms(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_PermittedIntegrityProtectionAlgorithms, PermittedIntegrityProtectionAlgorithms_sequence_of, 1, 16, FALSE); return offset; } static int dissect_ranap_IntegrityProtectionKey(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 128, 128, FALSE, NULL, NULL); return offset; } static const per_sequence_t IntegrityProtectionInformation_sequence[] = { { &hf_ranap_permittedAlgorithms_01, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PermittedIntegrityProtectionAlgorithms }, { &hf_ranap_key_01 , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_IntegrityProtectionKey }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; int dissect_ranap_IntegrityProtectionInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_IntegrityProtectionInformation, IntegrityProtectionInformation_sequence); return offset; } static int dissect_ranap_RIMInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, NULL); return offset; } static const per_sequence_t TargetRNC_ID_sequence[] = { { &hf_ranap_lAI , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_LAI }, { &hf_ranap_rAC , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_RAC }, { &hf_ranap_rNC_ID , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RNC_ID }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; int dissect_ranap_TargetRNC_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TargetRNC_ID, TargetRNC_ID_sequence); return offset; } static int dissect_ranap_TAC(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 2, 2, FALSE, NULL); return offset; } static const per_sequence_t TAI_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_tAC , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_TAC }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_TAI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TAI, TAI_sequence); return offset; } static const per_sequence_t TargetENB_ID_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_eNB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ENB_ID }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { &hf_ranap_selectedTAI , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TAI }, { NULL, 0, 0, NULL } }; static int dissect_ranap_TargetENB_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TargetENB_ID, TargetENB_ID_sequence); return offset; } static const value_string ranap_RIMRoutingAddress_vals[] = { { 0, "targetRNC-ID" }, { 1, "gERAN-Cell-ID" }, { 2, "targeteNB-ID" }, { 0, NULL } }; static const per_choice_t RIMRoutingAddress_choice[] = { { 0, &hf_ranap_targetRNC_ID , ASN1_EXTENSION_ROOT , dissect_ranap_TargetRNC_ID }, { 1, &hf_ranap_gERAN_Cell_ID , ASN1_EXTENSION_ROOT , dissect_ranap_GERAN_Cell_ID }, { 2, &hf_ranap_targeteNB_ID , ASN1_NOT_EXTENSION_ROOT, dissect_ranap_TargetENB_ID }, { 0, NULL, 0, NULL } }; static int dissect_ranap_RIMRoutingAddress(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_RIMRoutingAddress, RIMRoutingAddress_choice, NULL); return offset; } static const per_sequence_t RIM_Transfer_sequence[] = { { &hf_ranap_rIMInformation, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RIMInformation }, { &hf_ranap_rIMRoutingAddress, ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_RIMRoutingAddress }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RIM_Transfer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RIM_Transfer, RIM_Transfer_sequence); return offset; } static const value_string ranap_InterSystemInformationTransferType_vals[] = { { 0, "rIM-Transfer" }, { 0, NULL } }; static const per_choice_t InterSystemInformationTransferType_choice[] = { { 0, &hf_ranap_rIM_Transfer , ASN1_EXTENSION_ROOT , dissect_ranap_RIM_Transfer }, { 0, NULL, 0, NULL } }; static int dissect_ranap_InterSystemInformationTransferType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_InterSystemInformationTransferType, InterSystemInformationTransferType_choice, NULL); return offset; } static const per_sequence_t InterSystemInformation_TransparentContainer_sequence[] = { { &hf_ranap_downlinkCellLoadInformation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_CellLoadInformation }, { &hf_ranap_uplinkCellLoadInformation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_CellLoadInformation }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_InterSystemInformation_TransparentContainer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_InterSystemInformation_TransparentContainer, InterSystemInformation_TransparentContainer_sequence); return offset; } static int dissect_ranap_IuSignallingConnectionIdentifier(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 24, 24, FALSE, NULL, NULL); return offset; } static const value_string ranap_IuTransportAssociation_vals[] = { { 0, "gTP-TEI" }, { 1, "bindingID" }, { 0, NULL } }; static const per_choice_t IuTransportAssociation_choice[] = { { 0, &hf_ranap_gTP_TEI , ASN1_EXTENSION_ROOT , dissect_ranap_GTP_TEI }, { 1, &hf_ranap_bindingID , ASN1_EXTENSION_ROOT , dissect_ranap_BindingID }, { 0, NULL, 0, NULL } }; static int dissect_ranap_IuTransportAssociation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_IuTransportAssociation, IuTransportAssociation_choice, NULL); return offset; } static const value_string ranap_KeyStatus_vals[] = { { 0, "old" }, { 1, "new" }, { 0, NULL } }; static int dissect_ranap_KeyStatus(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const per_sequence_t ListOF_SNAs_sequence_of[1] = { { &hf_ranap_ListOF_SNAs_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_SNAC }, }; static int dissect_ranap_ListOF_SNAs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_ListOF_SNAs, ListOF_SNAs_sequence_of, 1, maxNrOfSNAs, FALSE); return offset; } static const per_sequence_t LA_LIST_item_sequence[] = { { &hf_ranap_lAC , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_LAC }, { &hf_ranap_listOF_SNAs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ListOF_SNAs }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LA_LIST_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LA_LIST_item, LA_LIST_item_sequence); return offset; } static const per_sequence_t LA_LIST_sequence_of[1] = { { &hf_ranap_LA_LIST_item , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_LA_LIST_item }, }; static int dissect_ranap_LA_LIST(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_LA_LIST, LA_LIST_sequence_of, 1, maxNrOfLAs, FALSE); return offset; } static const per_sequence_t LastKnownServiceArea_sequence[] = { { &hf_ranap_sAI , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_SAI }, { &hf_ranap_ageOfSAI , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_32767 }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LastKnownServiceArea(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LastKnownServiceArea, LastKnownServiceArea_sequence); return offset; } static const value_string ranap_T_interface_vals[] = { { 0, "iu-cs" }, { 1, "iu-ps" }, { 2, "iur" }, { 3, "iub" }, { 4, "uu" }, { 0, NULL } }; static int dissect_ranap_T_interface(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 5, NULL, TRUE, 0, NULL); return offset; } static const per_sequence_t InterfacesToTraceItem_sequence[] = { { &hf_ranap_interface , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_T_interface }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_InterfacesToTraceItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_InterfacesToTraceItem, InterfacesToTraceItem_sequence); return offset; } static const per_sequence_t ListOfInterfacesToTrace_sequence_of[1] = { { &hf_ranap_ListOfInterfacesToTrace_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_InterfacesToTraceItem }, }; static int dissect_ranap_ListOfInterfacesToTrace(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_ListOfInterfacesToTrace, ListOfInterfacesToTrace_sequence_of, 1, maxNrOfInterfaces, FALSE); return offset; } static const value_string ranap_RequestedLocationRelatedDataType_vals[] = { { 0, "decipheringKeysUEBasedOTDOA" }, { 1, "decipheringKeysAssistedGPS" }, { 2, "dedicatedAssistanceDataUEBasedOTDOA" }, { 3, "dedicatedAssistanceDataAssistedGPS" }, { 4, "decipheringKeysAssistedGANSS" }, { 5, "dedicatedAssistanceDataAssistedGANSS" }, { 6, "decipheringKeysAssistedGPSandGANSS" }, { 7, "dedicatedAssistanceDataAssistedGPSandGANSS" }, { 0, NULL } }; static int dissect_ranap_RequestedLocationRelatedDataType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 4, NULL, TRUE, 4, NULL); return offset; } static int dissect_ranap_RequestedGPSAssistanceData(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 38, FALSE, NULL); return offset; } static const per_sequence_t LocationRelatedDataRequestType_sequence[] = { { &hf_ranap_requestedLocationRelatedDataType, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RequestedLocationRelatedDataType }, { &hf_ranap_requestedGPSAssistanceData, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RequestedGPSAssistanceData }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LocationRelatedDataRequestType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LocationRelatedDataRequestType, LocationRelatedDataRequestType_sequence); return offset; } static const value_string ranap_LocationRelatedDataRequestTypeSpecificToGERANIuMode_vals[] = { { 0, "decipheringKeysEOTD" }, { 1, "dedicatedMobileAssistedEOTDAssistanceData" }, { 2, "dedicatedMobileBasedEOTDAssistanceData" }, { 0, NULL } }; static int dissect_ranap_LocationRelatedDataRequestTypeSpecificToGERANIuMode(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 3, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_ReportChangeOfSAI_vals[] = { { 0, "requested" }, { 0, NULL } }; static int dissect_ranap_ReportChangeOfSAI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_PeriodicReportingIndicator_vals[] = { { 0, "periodicSAI" }, { 1, "periodicGeo" }, { 0, NULL } }; static int dissect_ranap_PeriodicReportingIndicator(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_DirectReportingIndicator_vals[] = { { 0, "directSAI" }, { 1, "directGeo" }, { 0, NULL } }; static int dissect_ranap_DirectReportingIndicator(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_VerticalAccuracyCode(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 127U, NULL, FALSE); return offset; } static const value_string ranap_PositioningPriority_vals[] = { { 0, "high-Priority" }, { 1, "normal-Priority" }, { 0, NULL } }; static int dissect_ranap_PositioningPriority(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_ResponseTime_vals[] = { { 0, "lowdelay" }, { 1, "delaytolerant" }, { 0, NULL } }; static int dissect_ranap_ResponseTime(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_INTEGER_1_8639999_(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 8639999U, NULL, TRUE); return offset; } static const per_sequence_t PeriodicLocationInfo_sequence[] = { { &hf_ranap_reportingAmount, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_1_8639999_ }, { &hf_ranap_reportingInterval, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_1_8639999_ }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_PeriodicLocationInfo(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_PeriodicLocationInfo, PeriodicLocationInfo_sequence); return offset; } static const per_sequence_t LocationReportingTransferInformation_sequence[] = { { &hf_ranap_reportChangeOfSAI, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ReportChangeOfSAI }, { &hf_ranap_periodicReportingIndicator, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_PeriodicReportingIndicator }, { &hf_ranap_directReportingIndicator, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DirectReportingIndicator }, { &hf_ranap_verticalAccuracyCode, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_VerticalAccuracyCode }, { &hf_ranap_positioningPriorityChangeSAI, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_PositioningPriority }, { &hf_ranap_positioningPriorityDirect, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_PositioningPriority }, { &hf_ranap_clientTypePeriodic, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ClientType }, { &hf_ranap_clientTypeDirect, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ClientType }, { &hf_ranap_responseTime , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ResponseTime }, { &hf_ranap_includeVelocity, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_IncludeVelocity }, { &hf_ranap_periodicLocationInfo, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_PeriodicLocationInfo }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LocationReportingTransferInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LocationReportingTransferInformation, LocationReportingTransferInformation_sequence); return offset; } static int dissect_ranap_L3_Information(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 267 "../../asn1/ranap/ranap.cnf" tvbuff_t *l3_info_tvb=NULL; offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, &l3_info_tvb); if (l3_info_tvb) dissector_try_uint(nas_pdu_dissector_table, 0x1, l3_info_tvb, actx->pinfo, proto_tree_get_root(tree)); return offset; } static const value_string ranap_Management_Based_MDT_Allowed_vals[] = { { 0, "allowed" }, { 0, NULL } }; static int dissect_ranap_Management_Based_MDT_Allowed(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_MaxSDU_Size(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 32768U, NULL, FALSE); return offset; } static int dissect_ranap_MBMS_PTP_RAB_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 8, 8, FALSE, NULL, NULL); return offset; } static const value_string ranap_MBMSBearerServiceType_vals[] = { { 0, "multicast" }, { 1, "broadcast" }, { 0, NULL } }; static int dissect_ranap_MBMSBearerServiceType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_MBMSCNDe_Registration_vals[] = { { 0, "normalsessionstop" }, { 1, "deregister" }, { 0, NULL } }; static int dissect_ranap_MBMSCNDe_Registration(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_MBMSCountingInformation_vals[] = { { 0, "counting" }, { 1, "notcounting" }, { 0, NULL } }; static int dissect_ranap_MBMSCountingInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_MBMSHCIndicator_vals[] = { { 0, "uncompressed-header" }, { 1, "compressed-header" }, { 0, NULL } }; static int dissect_ranap_MBMSHCIndicator(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_MBMSLinkingInformation_vals[] = { { 0, "uE-has-joined-multicast-services" }, { 0, NULL } }; static int dissect_ranap_MBMSLinkingInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_MBMSRegistrationRequestType_vals[] = { { 0, "register" }, { 1, "deregister" }, { 0, NULL } }; static int dissect_ranap_MBMSRegistrationRequestType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_MBMSServiceArea(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, NULL); return offset; } static int dissect_ranap_MBMSSessionDuration(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 3, 3, FALSE, NULL); return offset; } static int dissect_ranap_MBMSSessionIdentity(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 1, FALSE, NULL); return offset; } static int dissect_ranap_MBMSSessionRepetitionNumber(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 1, FALSE, NULL); return offset; } static const value_string ranap_MDT_Activation_vals[] = { { 0, "immediateMDTonly" }, { 1, "loggedMDTonly" }, { 2, "immediateMDTandTrace" }, { 0, NULL } }; static int dissect_ranap_MDT_Activation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 3, NULL, TRUE, 0, NULL); return offset; } static const per_sequence_t LAI_List_sequence_of[1] = { { &hf_ranap_LAI_List_item , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_LAI }, }; static int dissect_ranap_LAI_List(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_LAI_List, LAI_List_sequence_of, 1, maxNrOfLAIs, FALSE); return offset; } static const per_sequence_t LABased_sequence[] = { { &hf_ranap_laiList , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_LAI_List }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LABased(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LABased, LABased_sequence); return offset; } static const per_sequence_t RAI_sequence[] = { { &hf_ranap_lAI , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_LAI }, { &hf_ranap_rAC , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAC }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAI, RAI_sequence); return offset; } static const per_sequence_t RAI_List_sequence_of[1] = { { &hf_ranap_RAI_List_item , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RAI }, }; static int dissect_ranap_RAI_List(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RAI_List, RAI_List_sequence_of, 1, maxNrOfRAIs, FALSE); return offset; } static const per_sequence_t RABased_sequence[] = { { &hf_ranap_raiList , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAI_List }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RABased(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RABased, RABased_sequence); return offset; } static int dissect_ranap_NULL(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_null(tvb, offset, actx, tree, hf_index); return offset; } static const value_string ranap_MDTAreaScope_vals[] = { { 0, "cellbased" }, { 1, "labased" }, { 2, "rabased" }, { 3, "plmn-area-based" }, { 0, NULL } }; static const per_choice_t MDTAreaScope_choice[] = { { 0, &hf_ranap_cellbased , ASN1_EXTENSION_ROOT , dissect_ranap_CellBased }, { 1, &hf_ranap_labased , ASN1_EXTENSION_ROOT , dissect_ranap_LABased }, { 2, &hf_ranap_rabased , ASN1_EXTENSION_ROOT , dissect_ranap_RABased }, { 3, &hf_ranap_plmn_area_based, ASN1_EXTENSION_ROOT , dissect_ranap_NULL }, { 0, NULL, 0, NULL } }; static int dissect_ranap_MDTAreaScope(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_MDTAreaScope, MDTAreaScope_choice, NULL); return offset; } static const value_string ranap_LoggingInterval_vals[] = { { 0, "s1d28" }, { 1, "s2d56" }, { 2, "s5d12" }, { 3, "s10d24" }, { 4, "s20d48" }, { 5, "s30d72" }, { 6, "s40d96" }, { 7, "s61d44" }, { 0, NULL } }; static int dissect_ranap_LoggingInterval(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 8, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_LoggingDuration_vals[] = { { 0, "min10" }, { 1, "min20" }, { 2, "min40" }, { 3, "min60" }, { 4, "min90" }, { 5, "min120" }, { 0, NULL } }; static int dissect_ranap_LoggingDuration(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 6, NULL, TRUE, 0, NULL); return offset; } static const per_sequence_t LoggedMDT_sequence[] = { { &hf_ranap_loggingInterval, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_LoggingInterval }, { &hf_ranap_loggingDuration, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_LoggingDuration }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LoggedMDT(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LoggedMDT, LoggedMDT_sequence); return offset; } static const value_string ranap_MDTMode_vals[] = { { 0, "immediateMDT" }, { 1, "loggedMDT" }, { 0, NULL } }; static const per_choice_t MDTMode_choice[] = { { 0, &hf_ranap_immediateMDT , ASN1_EXTENSION_ROOT , dissect_ranap_ImmediateMDT }, { 1, &hf_ranap_loggedMDT , ASN1_EXTENSION_ROOT , dissect_ranap_LoggedMDT }, { 0, NULL, 0, NULL } }; static int dissect_ranap_MDTMode(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_MDTMode, MDTMode_choice, NULL); return offset; } static const per_sequence_t MDT_Configuration_sequence[] = { { &hf_ranap_mdtActivation , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_MDT_Activation }, { &hf_ranap_mdtAreaScope , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_MDTAreaScope }, { &hf_ranap_mdtMode , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_MDTMode }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MDT_Configuration(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MDT_Configuration, MDT_Configuration_sequence); return offset; } static int dissect_ranap_MSISDN(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 9, FALSE, NULL); return offset; } static int dissect_ranap_NAS_PDU(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 212 "../../asn1/ranap/ranap.cnf" tvbuff_t *nas_pdu_tvb=NULL; offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, &nas_pdu_tvb); if (nas_pdu_tvb) dissector_try_uint(nas_pdu_dissector_table, 0x1, nas_pdu_tvb, actx->pinfo, proto_tree_get_root(tree)); return offset; } static int dissect_ranap_NAS_SequenceNumber(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 2, 2, FALSE, NULL, NULL); return offset; } static int dissect_ranap_NAS_SynchronisationIndicator(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 4, 4, FALSE, NULL, NULL); return offset; } static int dissect_ranap_NewBSS_To_OldBSS_Information(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 259 "../../asn1/ranap/ranap.cnf" tvbuff_t *bss_info_tvb=NULL; offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, &bss_info_tvb); if (bss_info_tvb) bssmap_new_bss_to_old_bss_info(bss_info_tvb, tree, actx->pinfo); return offset; } static const value_string ranap_NonSearchingIndication_vals[] = { { 0, "non-searching" }, { 1, "searching" }, { 0, NULL } }; static int dissect_ranap_NonSearchingIndication(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, FALSE, 0, NULL); return offset; } static int dissect_ranap_NumberOfIuInstances(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 2U, NULL, FALSE); return offset; } static int dissect_ranap_NumberOfSteps(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 16U, NULL, FALSE); return offset; } static int dissect_ranap_Offload_RAB_Parameters_APN(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 255, FALSE, NULL); return offset; } static int dissect_ranap_Offload_RAB_Parameters_ChargingCharacteristics(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 2, 2, FALSE, NULL); return offset; } static const per_sequence_t Offload_RAB_Parameters_sequence[] = { { &hf_ranap_accessPointName, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Offload_RAB_Parameters_APN }, { &hf_ranap_chargingCharacteristics, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Offload_RAB_Parameters_ChargingCharacteristics }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Offload_RAB_Parameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Offload_RAB_Parameters, Offload_RAB_Parameters_sequence); return offset; } static int dissect_ranap_OldBSS_ToNewBSS_Information(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 251 "../../asn1/ranap/ranap.cnf" tvbuff_t *bss_info_tvb=NULL; offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, &bss_info_tvb); if (bss_info_tvb) bssmap_old_bss_to_new_bss_info(bss_info_tvb, tree, actx->pinfo); return offset; } static int dissect_ranap_OMC_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 3, 22, FALSE, NULL); return offset; } static const value_string ranap_PagingAreaID_vals[] = { { 0, "lAI" }, { 1, "rAI" }, { 0, NULL } }; static const per_choice_t PagingAreaID_choice[] = { { 0, &hf_ranap_lAI , ASN1_EXTENSION_ROOT , dissect_ranap_LAI }, { 1, &hf_ranap_rAI , ASN1_EXTENSION_ROOT , dissect_ranap_RAI }, { 0, NULL, 0, NULL } }; static int dissect_ranap_PagingAreaID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_PagingAreaID, PagingAreaID_choice, NULL); return offset; } static const value_string ranap_PagingCause_vals[] = { { 0, "terminating-conversational-call" }, { 1, "terminating-streaming-call" }, { 2, "terminating-interactive-call" }, { 3, "terminating-background-call" }, { 4, "terminating-low-priority-signalling" }, { 5, "terminating-high-priority-signalling" }, { 0, NULL } }; static int dissect_ranap_PagingCause(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 5, NULL, TRUE, 1, NULL); return offset; } static const value_string ranap_PDP_Type_vals[] = { { 0, "empty" }, { 1, "ppp" }, { 2, "osp-ihoss" }, { 3, "ipv4" }, { 4, "ipv6" }, { 0, NULL } }; static int dissect_ranap_PDP_Type(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 5, NULL, TRUE, 0, NULL); return offset; } static const per_sequence_t PDP_TypeInformation_sequence_of[1] = { { &hf_ranap_PDP_TypeInformation_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PDP_Type }, }; static int dissect_ranap_PDP_TypeInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_PDP_TypeInformation, PDP_TypeInformation_sequence_of, 1, maxNrOfPDPDirections, FALSE); return offset; } static const value_string ranap_PDP_Type_extension_vals[] = { { 0, "ipv4-and-ipv6" }, { 0, NULL } }; static int dissect_ranap_PDP_Type_extension(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static const per_sequence_t PDP_TypeInformation_extension_sequence_of[1] = { { &hf_ranap_PDP_TypeInformation_extension_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PDP_Type_extension }, }; static int dissect_ranap_PDP_TypeInformation_extension(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_PDP_TypeInformation_extension, PDP_TypeInformation_extension_sequence_of, 1, maxNrOfPDPDirections, FALSE); return offset; } static int dissect_ranap_PDUType14FrameSequenceNumber(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 3U, NULL, FALSE); return offset; } static const per_sequence_t PLMNs_in_shared_network_item_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_lA_LIST , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_LA_LIST }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_PLMNs_in_shared_network_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_PLMNs_in_shared_network_item, PLMNs_in_shared_network_item_sequence); return offset; } static const per_sequence_t PLMNs_in_shared_network_sequence_of[1] = { { &hf_ranap_PLMNs_in_shared_network_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNs_in_shared_network_item }, }; static int dissect_ranap_PLMNs_in_shared_network(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_PLMNs_in_shared_network, PLMNs_in_shared_network_sequence_of, 1, maxNrOfPLMNsSN, FALSE); return offset; } static int dissect_ranap_PositioningDataDiscriminator(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 4, 4, FALSE, NULL, NULL); return offset; } static int dissect_ranap_PositioningMethodAndUsage(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 1, FALSE, NULL); return offset; } static const per_sequence_t PositioningDataSet_sequence_of[1] = { { &hf_ranap_PositioningDataSet_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PositioningMethodAndUsage }, }; static int dissect_ranap_PositioningDataSet(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_PositioningDataSet, PositioningDataSet_sequence_of, 1, maxSet, FALSE); return offset; } static const per_sequence_t PositionData_sequence[] = { { &hf_ranap_positioningDataDiscriminator, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_PositioningDataDiscriminator }, { &hf_ranap_positioningDataSet, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_PositioningDataSet }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_PositionData(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_PositionData, PositionData_sequence); return offset; } static int dissect_ranap_PositionDataSpecificToGERANIuMode(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, NULL); return offset; } static int dissect_ranap_Priority_Class_Indicator(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 8, 8, FALSE, NULL, NULL); return offset; } static const per_sequence_t Shared_Network_Information_sequence[] = { { &hf_ranap_pLMNs_in_shared_network, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNs_in_shared_network }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Shared_Network_Information(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Shared_Network_Information, Shared_Network_Information_sequence); return offset; } static const value_string ranap_ProvidedData_vals[] = { { 0, "shared-network-information" }, { 0, NULL } }; static const per_choice_t ProvidedData_choice[] = { { 0, &hf_ranap_shared_network_information, ASN1_EXTENSION_ROOT , dissect_ranap_Shared_Network_Information }, { 0, NULL, 0, NULL } }; static int dissect_ranap_ProvidedData(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_ProvidedData, ProvidedData_choice, NULL); return offset; } static int dissect_ranap_P_TMSI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 4, 4, FALSE, NULL); return offset; } static const value_string ranap_RAB_AsymmetryIndicator_vals[] = { { 0, "symmetric-bidirectional" }, { 1, "asymmetric-unidirectional-downlink" }, { 2, "asymmetric-unidirectional-uplink" }, { 3, "asymmetric-bidirectional" }, { 0, NULL } }; static int dissect_ranap_RAB_AsymmetryIndicator(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 4, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_UnsuccessfullyTransmittedDataVolume(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 4294967295U, NULL, FALSE); return offset; } static const per_sequence_t RABDataVolumeReport_item_sequence[] = { { &hf_ranap_dl_UnsuccessfullyTransmittedDataVolume, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_UnsuccessfullyTransmittedDataVolume }, { &hf_ranap_dataVolumeReference, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DataVolumeReference }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RABDataVolumeReport_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RABDataVolumeReport_item, RABDataVolumeReport_item_sequence); return offset; } static const per_sequence_t RABDataVolumeReport_sequence_of[1] = { { &hf_ranap_RABDataVolumeReport_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RABDataVolumeReport_item }, }; static int dissect_ranap_RABDataVolumeReport(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RABDataVolumeReport, RABDataVolumeReport_sequence_of, 1, maxNrOfVol, FALSE); return offset; } static int dissect_ranap_RAB_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 8, 8, FALSE, NULL, NULL); return offset; } static const per_sequence_t RAB_Parameter_ExtendedGuaranteedBitrateList_sequence_of[1] = { { &hf_ranap_RAB_Parameter_ExtendedGuaranteedBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ExtendedGuaranteedBitrate }, }; static int dissect_ranap_RAB_Parameter_ExtendedGuaranteedBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_Parameter_ExtendedGuaranteedBitrateList, RAB_Parameter_ExtendedGuaranteedBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t RAB_Parameter_ExtendedMaxBitrateList_sequence_of[1] = { { &hf_ranap_RAB_Parameter_ExtendedMaxBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ExtendedMaxBitrate }, }; static int dissect_ranap_RAB_Parameter_ExtendedMaxBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_Parameter_ExtendedMaxBitrateList, RAB_Parameter_ExtendedMaxBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t RAB_Parameter_GuaranteedBitrateList_sequence_of[1] = { { &hf_ranap_RAB_Parameter_GuaranteedBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_GuaranteedBitrate }, }; static int dissect_ranap_RAB_Parameter_GuaranteedBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_Parameter_GuaranteedBitrateList, RAB_Parameter_GuaranteedBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t RAB_Parameter_MaxBitrateList_sequence_of[1] = { { &hf_ranap_RAB_Parameter_MaxBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_MaxBitrate }, }; static int dissect_ranap_RAB_Parameter_MaxBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_Parameter_MaxBitrateList, RAB_Parameter_MaxBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const value_string ranap_TrafficClass_vals[] = { { 0, "conversational" }, { 1, "streaming" }, { 2, "interactive" }, { 3, "background" }, { 0, NULL } }; static int dissect_ranap_TrafficClass(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 4, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_INTEGER_1_9(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 9U, NULL, FALSE); return offset; } static int dissect_ranap_INTEGER_1_6(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 6U, NULL, FALSE); return offset; } static const per_sequence_t SDU_ErrorRatio_sequence[] = { { &hf_ranap_mantissa , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_1_9 }, { &hf_ranap_exponent_1_8 , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_1_6 }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SDU_ErrorRatio(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SDU_ErrorRatio, SDU_ErrorRatio_sequence); return offset; } static int dissect_ranap_INTEGER_1_8(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 8U, NULL, FALSE); return offset; } static const per_sequence_t ResidualBitErrorRatio_sequence[] = { { &hf_ranap_mantissa , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_1_9 }, { &hf_ranap_exponent , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_1_8 }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ResidualBitErrorRatio(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ResidualBitErrorRatio, ResidualBitErrorRatio_sequence); return offset; } static int dissect_ranap_SubflowSDU_Size(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 4095U, NULL, FALSE); return offset; } static int dissect_ranap_RAB_SubflowCombinationBitRate(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 16000000U, NULL, FALSE); return offset; } static const per_sequence_t SDU_FormatInformationParameters_item_sequence[] = { { &hf_ranap_subflowSDU_Size, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_SubflowSDU_Size }, { &hf_ranap_rAB_SubflowCombinationBitRate, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RAB_SubflowCombinationBitRate }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SDU_FormatInformationParameters_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SDU_FormatInformationParameters_item, SDU_FormatInformationParameters_item_sequence); return offset; } static const per_sequence_t SDU_FormatInformationParameters_sequence_of[1] = { { &hf_ranap_SDU_FormatInformationParameters_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_SDU_FormatInformationParameters_item }, }; static int dissect_ranap_SDU_FormatInformationParameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_SDU_FormatInformationParameters, SDU_FormatInformationParameters_sequence_of, 1, maxRAB_SubflowCombination, FALSE); return offset; } static const per_sequence_t SDU_Parameters_item_sequence[] = { { &hf_ranap_sDU_ErrorRatio, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_SDU_ErrorRatio }, { &hf_ranap_residualBitErrorRatio, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ResidualBitErrorRatio }, { &hf_ranap_deliveryOfErroneousSDU, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_DeliveryOfErroneousSDU }, { &hf_ranap_sDU_FormatInformationParameters, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_SDU_FormatInformationParameters }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SDU_Parameters_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SDU_Parameters_item, SDU_Parameters_item_sequence); return offset; } static const per_sequence_t SDU_Parameters_sequence_of[1] = { { &hf_ranap_SDU_Parameters_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_SDU_Parameters_item }, }; static int dissect_ranap_SDU_Parameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_SDU_Parameters, SDU_Parameters_sequence_of, 1, maxRAB_Subflows, FALSE); return offset; } static int dissect_ranap_TransferDelay(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 65535U, NULL, FALSE); return offset; } static const value_string ranap_TrafficHandlingPriority_vals[] = { { 0, "spare" }, { 1, "highest" }, { 14, "lowest" }, { 15, "no-priority-used" }, { 0, NULL } }; static int dissect_ranap_TrafficHandlingPriority(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 15U, NULL, FALSE); return offset; } static const value_string ranap_SourceStatisticsDescriptor_vals[] = { { 0, "speech" }, { 1, "unknown" }, { 0, NULL } }; static int dissect_ranap_SourceStatisticsDescriptor(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_RelocationRequirement_vals[] = { { 0, "lossless" }, { 1, "none" }, { 2, "realtime" }, { 0, NULL } }; static int dissect_ranap_RelocationRequirement(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 1, NULL); return offset; } static const per_sequence_t RAB_Parameters_sequence[] = { { &hf_ranap_trafficClass , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TrafficClass }, { &hf_ranap_rAB_AsymmetryIndicator, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_AsymmetryIndicator }, { &hf_ranap_maxBitrate , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_Parameter_MaxBitrateList }, { &hf_ranap_guaranteedBitRate, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RAB_Parameter_GuaranteedBitrateList }, { &hf_ranap_deliveryOrder , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_DeliveryOrder }, { &hf_ranap_maxSDU_Size , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_MaxSDU_Size }, { &hf_ranap_sDU_Parameters, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_SDU_Parameters }, { &hf_ranap_transferDelay , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TransferDelay }, { &hf_ranap_trafficHandlingPriority, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TrafficHandlingPriority }, { &hf_ranap_allocationOrRetentionPriority, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_AllocationOrRetentionPriority }, { &hf_ranap_sourceStatisticsDescriptor, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_SourceStatisticsDescriptor }, { &hf_ranap_relocationRequirement, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RelocationRequirement }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_Parameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_Parameters, RAB_Parameters_sequence); return offset; } static int dissect_ranap_UPInitialisationFrame(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, NULL); return offset; } static const per_sequence_t UPInformation_sequence[] = { { &hf_ranap_frameSeqNoUL , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_FrameSequenceNumber }, { &hf_ranap_frameSeqNoDL , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_FrameSequenceNumber }, { &hf_ranap_pdu14FrameSeqNoUL, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_PDUType14FrameSequenceNumber }, { &hf_ranap_pdu14FrameSeqNoDL, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_PDUType14FrameSequenceNumber }, { &hf_ranap_dataPDUType , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_DataPDUType }, { &hf_ranap_upinitialisationFrame, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_UPInitialisationFrame }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_UPInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_UPInformation, UPInformation_sequence); return offset; } static const per_sequence_t RABParametersList_item_sequence[] = { { &hf_ranap_rab_Id , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_cn_domain , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_CN_DomainIndicator }, { &hf_ranap_rabDataVolumeReport, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RABDataVolumeReport }, { &hf_ranap_upInformation , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UPInformation }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RABParametersList_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RABParametersList_item, RABParametersList_item_sequence); return offset; } static const per_sequence_t RABParametersList_sequence_of[1] = { { &hf_ranap_RABParametersList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RABParametersList_item }, }; static int dissect_ranap_RABParametersList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RABParametersList, RABParametersList_sequence_of, 1, maxNrOfRABs, FALSE); return offset; } static int dissect_ranap_USCH_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 255U, NULL, FALSE); return offset; } static const per_sequence_t TrCH_ID_sequence[] = { { &hf_ranap_dCH_ID , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DCH_ID }, { &hf_ranap_dSCH_ID , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DSCH_ID }, { &hf_ranap_uSCH_ID , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_USCH_ID }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_TrCH_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TrCH_ID, TrCH_ID_sequence); return offset; } static const per_sequence_t TrCH_ID_List_sequence_of[1] = { { &hf_ranap_TrCH_ID_List_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_TrCH_ID }, }; static int dissect_ranap_TrCH_ID_List(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_TrCH_ID_List, TrCH_ID_List_sequence_of, 1, maxRAB_Subflows, FALSE); return offset; } static const per_sequence_t RAB_TrCH_MappingItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_trCH_ID_List , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TrCH_ID_List }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_TrCH_MappingItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_TrCH_MappingItem, RAB_TrCH_MappingItem_sequence); return offset; } static const per_sequence_t RAB_TrCH_Mapping_sequence_of[1] = { { &hf_ranap_RAB_TrCH_Mapping_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_TrCH_MappingItem }, }; static int dissect_ranap_RAB_TrCH_Mapping(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_TrCH_Mapping, RAB_TrCH_Mapping_sequence_of, 1, maxNrOfRABs, FALSE); return offset; } static const per_sequence_t RAofIdleModeUEs_sequence_of[1] = { { &hf_ranap_RAofIdleModeUEs_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RAC }, }; static int dissect_ranap_RAofIdleModeUEs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_RAofIdleModeUEs, RAofIdleModeUEs_sequence_of, 1, maxMBMSRA, FALSE); return offset; } static const per_sequence_t NotEmptyRAListofIdleModeUEs_sequence[] = { { &hf_ranap_rAofIdleModeUEs, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RAofIdleModeUEs }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_NotEmptyRAListofIdleModeUEs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_NotEmptyRAListofIdleModeUEs, NotEmptyRAListofIdleModeUEs_sequence); return offset; } static const value_string ranap_T_emptyFullRAListofIdleModeUEs_vals[] = { { 0, "emptylist" }, { 1, "fulllist" }, { 0, NULL } }; static int dissect_ranap_T_emptyFullRAListofIdleModeUEs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_RAListofIdleModeUEs_vals[] = { { 0, "notEmptyRAListofIdleModeUEs" }, { 1, "emptyFullRAListofIdleModeUEs" }, { 0, NULL } }; static const per_choice_t RAListofIdleModeUEs_choice[] = { { 0, &hf_ranap_notEmptyRAListofIdleModeUEs, ASN1_EXTENSION_ROOT , dissect_ranap_NotEmptyRAListofIdleModeUEs }, { 1, &hf_ranap_emptyFullRAListofIdleModeUEs, ASN1_EXTENSION_ROOT , dissect_ranap_T_emptyFullRAListofIdleModeUEs }, { 0, NULL, 0, NULL } }; static int dissect_ranap_RAListofIdleModeUEs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_RAListofIdleModeUEs, RAListofIdleModeUEs_choice, NULL); return offset; } static const per_sequence_t LAListofIdleModeUEs_sequence_of[1] = { { &hf_ranap_LAListofIdleModeUEs_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_LAI }, }; static int dissect_ranap_LAListofIdleModeUEs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_LAListofIdleModeUEs, LAListofIdleModeUEs_sequence_of, 1, maxMBMSRA, FALSE); return offset; } static const value_string ranap_RAT_Type_vals[] = { { 0, "utran" }, { 1, "geran" }, { 0, NULL } }; static int dissect_ranap_RAT_Type(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_RedirectAttemptFlag(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_null(tvb, offset, actx, tree, hf_index); return offset; } static const value_string ranap_RedirectionCompleted_vals[] = { { 0, "redirection-completed" }, { 0, NULL } }; static int dissect_ranap_RedirectionCompleted(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_RejectCauseValue_vals[] = { { 0, "pLMN-Not-Allowed" }, { 1, "location-Area-Not-Allowed" }, { 2, "roaming-Not-Allowed-In-This-Location-Area" }, { 3, "no-Suitable-Cell-In-Location-Area" }, { 4, "gPRS-Services-Not-Allowed-In-This-PLMN" }, { 5, "cS-PS-coordination-required" }, { 0, NULL } }; static int dissect_ranap_RejectCauseValue(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 6, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_RelocationType_vals[] = { { 0, "ue-not-involved" }, { 1, "ue-involved" }, { 0, NULL } }; static int dissect_ranap_RelocationType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static const value_string ranap_ReportArea_vals[] = { { 0, "service-area" }, { 1, "geographical-area" }, { 0, NULL } }; static int dissect_ranap_ReportArea(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_RequestedGANSSAssistanceData(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 201, FALSE, NULL); return offset; } static const per_sequence_t Requested_RAB_Parameter_MaxBitrateList_sequence_of[1] = { { &hf_ranap_Requested_RAB_Parameter_MaxBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_MaxBitrate }, }; static int dissect_ranap_Requested_RAB_Parameter_MaxBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Requested_RAB_Parameter_MaxBitrateList, Requested_RAB_Parameter_MaxBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t Requested_RAB_Parameter_GuaranteedBitrateList_sequence_of[1] = { { &hf_ranap_Requested_RAB_Parameter_GuaranteedBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_GuaranteedBitrate }, }; static int dissect_ranap_Requested_RAB_Parameter_GuaranteedBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Requested_RAB_Parameter_GuaranteedBitrateList, Requested_RAB_Parameter_GuaranteedBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t Requested_RAB_Parameter_Values_sequence[] = { { &hf_ranap_requestedMaxBitrates, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Requested_RAB_Parameter_MaxBitrateList }, { &hf_ranap_requestedGuaranteedBitrates, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Requested_RAB_Parameter_GuaranteedBitrateList }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Requested_RAB_Parameter_Values(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Requested_RAB_Parameter_Values, Requested_RAB_Parameter_Values_sequence); return offset; } static const per_sequence_t Requested_RAB_Parameter_ExtendedMaxBitrateList_sequence_of[1] = { { &hf_ranap_Requested_RAB_Parameter_ExtendedMaxBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ExtendedMaxBitrate }, }; static int dissect_ranap_Requested_RAB_Parameter_ExtendedMaxBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Requested_RAB_Parameter_ExtendedMaxBitrateList, Requested_RAB_Parameter_ExtendedMaxBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t Requested_RAB_Parameter_ExtendedGuaranteedBitrateList_sequence_of[1] = { { &hf_ranap_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ExtendedGuaranteedBitrate }, }; static int dissect_ranap_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList, Requested_RAB_Parameter_ExtendedGuaranteedBitrateList_sequence_of, 1, maxNrOfSeparateTrafficDirections, FALSE); return offset; } static const per_sequence_t RequestType_sequence[] = { { &hf_ranap_event , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Event }, { &hf_ranap_reportArea , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ReportArea }, { &hf_ranap_accuracyCode , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_INTEGER_0_127 }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RequestType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RequestType, RequestType_sequence); return offset; } static const value_string ranap_UE_ID_vals[] = { { 0, "imsi" }, { 1, "imei" }, { 2, "imeisv" }, { 0, NULL } }; static const per_choice_t UE_ID_choice[] = { { 0, &hf_ranap_imsi , ASN1_EXTENSION_ROOT , dissect_ranap_IMSI }, { 1, &hf_ranap_imei , ASN1_EXTENSION_ROOT , dissect_ranap_IMEI }, { 2, &hf_ranap_imeisv , ASN1_NOT_EXTENSION_ROOT, dissect_ranap_IMEISV }, { 0, NULL, 0, NULL } }; static int dissect_ranap_UE_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_UE_ID, UE_ID_choice, NULL); return offset; } static int dissect_ranap_TraceRecordingSessionReference(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 65535U, NULL, FALSE); return offset; } static const value_string ranap_TraceDepth_vals[] = { { 0, "minimum" }, { 1, "medium" }, { 2, "maximum" }, { 0, NULL } }; static int dissect_ranap_TraceDepth(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 3, NULL, TRUE, 0, NULL); return offset; } static const per_sequence_t TracePropagationParameters_sequence[] = { { &hf_ranap_traceRecordingSessionReference, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TraceRecordingSessionReference }, { &hf_ranap_traceDepth , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TraceDepth }, { &hf_ranap_listOfInterfacesToTrace, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ListOfInterfacesToTrace }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_TracePropagationParameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TracePropagationParameters, TracePropagationParameters_sequence); return offset; } static const per_sequence_t TraceInformation_sequence[] = { { &hf_ranap_traceReference, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TraceReference }, { &hf_ranap_ue_identity , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_UE_ID }, { &hf_ranap_tracePropagationParameters, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TracePropagationParameters }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_TraceInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TraceInformation, TraceInformation_sequence); return offset; } static const per_sequence_t RNSAPRelocationParameters_sequence[] = { { &hf_ranap_rabParmetersList, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RABParametersList }, { &hf_ranap_locationReporting, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_LocationReportingTransferInformation }, { &hf_ranap_traceInformation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TraceInformation }, { &hf_ranap_sourceSAI , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_SAI }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RNSAPRelocationParameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RNSAPRelocationParameters, RNSAPRelocationParameters_sequence); return offset; } static int dissect_ranap_RRC_Container(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 221 "../../asn1/ranap/ranap.cnf" tvbuff_t *rrc_message_tvb=NULL; offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, &rrc_message_tvb); if ((rrc_message_tvb)&&(tvb_length(rrc_message_tvb)!=0)&&(glbl_dissect_container)){ switch(ProtocolIE_ID){ case id_Source_ToTarget_TransparentContainer: /* INTEGER ::= 61 */ /* 9.2.1.30a Source to Target Transparent Container * Note: In the current version of this specification, this IE may * either carry the Source RNC to Target RNC Transparent Container * or the Source eNB to Target eNB Transparent Container IE as defined in [49]... */ call_dissector(rrc_s_to_trnc_handle,rrc_message_tvb,actx->pinfo, proto_tree_get_root(tree)); break; case id_Target_ToSource_TransparentContainer: /* INTEGER ::= 63 */ /* 9.2.1.30b Target to Source Transparent Container * In the current version of this specification, this IE may * either carry the Target RNC to Source RNC Transparent Container * or the Target eNB to Source eNB Transparent Container IE as defined in [49]... */ call_dissector(rrc_t_to_srnc_handle,rrc_message_tvb,actx->pinfo, proto_tree_get_root(tree)); break; default: break; } } return offset; } static const value_string ranap_SAPI_vals[] = { { 0, "sapi-0" }, { 1, "sapi-3" }, { 0, NULL } }; static int dissect_ranap_SAPI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_SessionUpdateID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 1048575U, NULL, FALSE); return offset; } static const value_string ranap_SignallingIndication_vals[] = { { 0, "signalling" }, { 0, NULL } }; static int dissect_ranap_SignallingIndication(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static const per_sequence_t SNA_Access_Information_sequence[] = { { &hf_ranap_authorisedPLMNs, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_AuthorisedPLMNs }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SNA_Access_Information(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SNA_Access_Information, SNA_Access_Information_sequence); return offset; } const value_string ranap_Service_Handover_vals[] = { { 0, "handover-to-GSM-should-be-performed" }, { 1, "handover-to-GSM-should-not-be-performed" }, { 2, "handover-to-GSM-shall-not-be-performed" }, { 0, NULL } }; int dissect_ranap_Service_Handover(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 3, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_Source_ToTarget_TransparentContainer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 356 "../../asn1/ranap/ranap.cnf" dissect_ranap_SourceRNC_ToTargetRNC_TransparentContainer(tvb , offset, actx ,tree , hf_ranap_ranap_SourceRNC_ToTargetRNC_TransparentContainer_PDU ); return offset; } static int dissect_ranap_SourceBSS_ToTargetBSS_TransparentContainer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, NULL); return offset; } static const per_sequence_t SourceRNC_ID_sequence[] = { { &hf_ranap_pLMNidentity , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_PLMNidentity }, { &hf_ranap_rNC_ID , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_RNC_ID }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SourceRNC_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SourceRNC_ID, SourceRNC_ID_sequence); return offset; } static const value_string ranap_SourceID_vals[] = { { 0, "sourceRNC-ID" }, { 1, "sAI" }, { 0, NULL } }; static const per_choice_t SourceID_choice[] = { { 0, &hf_ranap_sourceRNC_ID , ASN1_EXTENSION_ROOT , dissect_ranap_SourceRNC_ID }, { 1, &hf_ranap_sAI , ASN1_EXTENSION_ROOT , dissect_ranap_SAI }, { 0, NULL, 0, NULL } }; static int dissect_ranap_SourceID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_SourceID, SourceID_choice, NULL); return offset; } static const per_sequence_t SourceRNC_ToTargetRNC_TransparentContainer_sequence[] = { { &hf_ranap_rRC_Container , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RRC_Container }, { &hf_ranap_numberOfIuInstances, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_NumberOfIuInstances }, { &hf_ranap_relocationType, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RelocationType }, { &hf_ranap_chosenIntegrityProtectionAlgorithm, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ChosenIntegrityProtectionAlgorithm }, { &hf_ranap_integrityProtectionKey, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_IntegrityProtectionKey }, { &hf_ranap_chosenEncryptionAlgorithForSignalling, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ChosenEncryptionAlgorithm }, { &hf_ranap_cipheringKey , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_EncryptionKey }, { &hf_ranap_chosenEncryptionAlgorithForCS, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ChosenEncryptionAlgorithm }, { &hf_ranap_chosenEncryptionAlgorithForPS, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ChosenEncryptionAlgorithm }, { &hf_ranap_d_RNTI , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_D_RNTI }, { &hf_ranap_targetCellId , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TargetCellId }, { &hf_ranap_rAB_TrCH_Mapping, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RAB_TrCH_Mapping }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SourceRNC_ToTargetRNC_TransparentContainer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 342 "../../asn1/ranap/ranap.cnf" /* If SourceRNC-ToTargetRNC-TransparentContainer is called trough dissect_ranap_SourceRNC_ToTargetRNC_TransparentContainer_PDU ProtocolIE_ID may be unset */ ProtocolIE_ID = id_Source_ToTarget_TransparentContainer; offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SourceRNC_ToTargetRNC_TransparentContainer, SourceRNC_ToTargetRNC_TransparentContainer_sequence); return offset; } static int dissect_ranap_INTEGER_0_97(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 97U, NULL, FALSE); return offset; } static int dissect_ranap_INTEGER_0_34(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 34U, NULL, FALSE); return offset; } static int dissect_ranap_INTEGER_1_100(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 100U, NULL, FALSE); return offset; } static const value_string ranap_MeasBand_vals[] = { { 0, "v6" }, { 1, "v15" }, { 2, "v25" }, { 3, "v50" }, { 4, "v75" }, { 5, "v100" }, { 0, NULL } }; static int dissect_ranap_MeasBand(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 6, NULL, FALSE, 0, NULL); return offset; } static const per_sequence_t EUTRANFrequencies_item_sequence[] = { { &hf_ranap_earfcn , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_65535 }, { &hf_ranap_measBand , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_MeasBand }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_EUTRANFrequencies_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_EUTRANFrequencies_item, EUTRANFrequencies_item_sequence); return offset; } static const per_sequence_t EUTRANFrequencies_sequence_of[1] = { { &hf_ranap_EUTRANFrequencies_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_EUTRANFrequencies_item }, }; static int dissect_ranap_EUTRANFrequencies(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_EUTRANFrequencies, EUTRANFrequencies_sequence_of, 1, maxNrOfEUTRAFreqs, FALSE); return offset; } static const per_sequence_t IRATmeasurementParameters_sequence[] = { { &hf_ranap_measurementDuration, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_1_100 }, { &hf_ranap_eUTRANFrequencies, ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_EUTRANFrequencies }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_IRATmeasurementParameters(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_IRATmeasurementParameters, IRATmeasurementParameters_sequence); return offset; } static const per_sequence_t IRAT_Measurement_Configuration_sequence[] = { { &hf_ranap_rSRP , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_INTEGER_0_97 }, { &hf_ranap_rSRQ , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_INTEGER_0_34 }, { &hf_ranap_iRATmeasurementParameters, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_IRATmeasurementParameters }, { &hf_ranap_iE_Extensions , ASN1_NO_EXTENSIONS , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_IRAT_Measurement_Configuration(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_IRAT_Measurement_Configuration, IRAT_Measurement_Configuration_sequence); return offset; } static int dissect_ranap_SubscriberProfileIDforRFP(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 256U, NULL, FALSE); return offset; } static int dissect_ranap_SRB_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 32U, NULL, FALSE); return offset; } static const per_sequence_t SRB_TrCH_MappingItem_sequence[] = { { &hf_ranap_sRB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_SRB_ID }, { &hf_ranap_trCH_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TrCH_ID }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SRB_TrCH_MappingItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SRB_TrCH_MappingItem, SRB_TrCH_MappingItem_sequence); return offset; } static const per_sequence_t SRB_TrCH_Mapping_sequence_of[1] = { { &hf_ranap_SRB_TrCH_Mapping_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_SRB_TrCH_MappingItem }, }; static int dissect_ranap_SRB_TrCH_Mapping(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_SRB_TrCH_Mapping, SRB_TrCH_Mapping_sequence_of, 1, maxNrOfSRBs, FALSE); return offset; } static const value_string ranap_SRVCC_HO_Indication_vals[] = { { 0, "ps-and-cs" }, { 1, "cs-only" }, { 0, NULL } }; static int dissect_ranap_SRVCC_HO_Indication(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_BIT_STRING_SIZE_128(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 128, 128, FALSE, NULL, NULL); return offset; } static const per_sequence_t SRVCC_Information_sequence[] = { { &hf_ranap_nonce , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_BIT_STRING_SIZE_128 }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SRVCC_Information(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SRVCC_Information, SRVCC_Information_sequence); return offset; } static const value_string ranap_SRVCC_Operation_Possible_vals[] = { { 0, "srvcc-possible" }, { 0, NULL } }; static int dissect_ranap_SRVCC_Operation_Possible(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 1, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_Target_ToSource_TransparentContainer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 366 "../../asn1/ranap/ranap.cnf" dissect_ranap_TargetRNC_ToSourceRNC_TransparentContainer(tvb , offset, actx ,tree , hf_ranap_ranap_TargetRNC_ToSourceRNC_TransparentContainer_PDU ); return offset; } static int dissect_ranap_TargetBSS_ToSourceBSS_TransparentContainer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, NULL); return offset; } static const value_string ranap_TargetID_vals[] = { { 0, "targetRNC-ID" }, { 1, "cGI" }, { 2, "targeteNB-ID" }, { 0, NULL } }; static const per_choice_t TargetID_choice[] = { { 0, &hf_ranap_targetRNC_ID , ASN1_EXTENSION_ROOT , dissect_ranap_TargetRNC_ID }, { 1, &hf_ranap_cGI , ASN1_EXTENSION_ROOT , dissect_ranap_CGI }, { 2, &hf_ranap_targeteNB_ID , ASN1_NOT_EXTENSION_ROOT, dissect_ranap_TargetENB_ID }, { 0, NULL, 0, NULL } }; static int dissect_ranap_TargetID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_TargetID, TargetID_choice, NULL); return offset; } static const per_sequence_t TargetRNC_ToSourceRNC_TransparentContainer_sequence[] = { { &hf_ranap_rRC_Container , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RRC_Container }, { &hf_ranap_d_RNTI , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_D_RNTI }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_TargetRNC_ToSourceRNC_TransparentContainer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TargetRNC_ToSourceRNC_TransparentContainer, TargetRNC_ToSourceRNC_TransparentContainer_sequence); return offset; } static int dissect_ranap_TMSI(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 4, 4, FALSE, NULL); return offset; } static const value_string ranap_TemporaryUE_ID_vals[] = { { 0, "tMSI" }, { 1, "p-TMSI" }, { 0, NULL } }; static const per_choice_t TemporaryUE_ID_choice[] = { { 0, &hf_ranap_tMSI , ASN1_EXTENSION_ROOT , dissect_ranap_TMSI }, { 1, &hf_ranap_p_TMSI , ASN1_EXTENSION_ROOT , dissect_ranap_P_TMSI }, { 0, NULL, 0, NULL } }; static int dissect_ranap_TemporaryUE_ID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_TemporaryUE_ID, TemporaryUE_ID_choice, NULL); return offset; } static int dissect_ranap_TimeToMBMSDataTransfer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 1, FALSE, NULL); return offset; } static const per_sequence_t TraceRecordingSessionInformation_sequence[] = { { &hf_ranap_traceReference, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TraceReference }, { &hf_ranap_traceRecordingSessionReference, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TraceRecordingSessionReference }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_TraceRecordingSessionInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TraceRecordingSessionInformation, TraceRecordingSessionInformation_sequence); return offset; } static int dissect_ranap_TraceType(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 1, 1, FALSE, NULL); return offset; } static int dissect_ranap_TransportLayerAddress(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 302 "../../asn1/ranap/ranap.cnf" tvbuff_t *parameter_tvb=NULL; proto_item *item; proto_tree *subtree, *nsap_tree; gint tvb_len; offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 1, 160, TRUE, &parameter_tvb, NULL); if (!parameter_tvb) return offset; /* Get the length */ tvb_len = tvb_length(parameter_tvb); subtree = proto_item_add_subtree(actx->created_item, ett_ranap_TransportLayerAddress); if (tvb_len==4){ /* IPv4 */ proto_tree_add_item(subtree, hf_ranap_transportLayerAddress_ipv4, parameter_tvb, 0, tvb_len, ENC_BIG_ENDIAN); } if (tvb_len==16){ /* IPv6 */ proto_tree_add_item(subtree, hf_ranap_transportLayerAddress_ipv6, parameter_tvb, 0, tvb_len, ENC_NA); } if (tvb_len==20){ item = proto_tree_add_item(subtree, hf_ranap_transportLayerAddress_nsap, parameter_tvb, 0, tvb_len, ENC_NA); nsap_tree = proto_item_add_subtree(item, ett_ranap_TransportLayerAddress_nsap); dissect_nsap(parameter_tvb, 0, 20, nsap_tree); } return offset; } static int dissect_ranap_TriggerID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, 3, 22, FALSE, NULL); return offset; } static const value_string ranap_TypeOfError_vals[] = { { 0, "not-understood" }, { 1, "missing" }, { 0, NULL } }; static int dissect_ranap_TypeOfError(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_UE_AggregateMaximumBitRateDownlink(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 1000000000U, NULL, FALSE); return offset; } static int dissect_ranap_UE_AggregateMaximumBitRateUplink(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 1U, 1000000000U, NULL, FALSE); return offset; } static const per_sequence_t UE_AggregateMaximumBitRate_sequence[] = { { &hf_ranap_uE_AggregateMaximumBitRateDownlink, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UE_AggregateMaximumBitRateDownlink }, { &hf_ranap_uE_AggregateMaximumBitRateUplink, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UE_AggregateMaximumBitRateUplink }, { NULL, 0, 0, NULL } }; static int dissect_ranap_UE_AggregateMaximumBitRate(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_UE_AggregateMaximumBitRate, UE_AggregateMaximumBitRate_sequence); return offset; } static int dissect_ranap_UE_History_Information(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_octet_string(tvb, offset, actx, tree, hf_index, NO_BOUND, NO_BOUND, FALSE, NULL); return offset; } static int dissect_ranap_UESBI_IuA(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 1, 128, FALSE, NULL, NULL); return offset; } static int dissect_ranap_UESBI_IuB(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 1, 128, FALSE, NULL, NULL); return offset; } static const per_sequence_t UESBI_Iu_sequence[] = { { &hf_ranap_uESBI_IuA , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UESBI_IuA }, { &hf_ranap_uESBI_IuB , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UESBI_IuB }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_UESBI_Iu(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_UESBI_Iu, UESBI_Iu_sequence); return offset; } static int dissect_ranap_UL_GTP_PDU_SequenceNumber(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 65535U, NULL, FALSE); return offset; } static int dissect_ranap_UL_N_PDU_SequenceNumber(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 65535U, NULL, FALSE); return offset; } static int dissect_ranap_UP_ModeVersions(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_bit_string(tvb, offset, actx, tree, hf_index, 16, 16, FALSE, NULL, NULL); return offset; } static const value_string ranap_UserPlaneMode_vals[] = { { 0, "transparent-mode" }, { 1, "support-mode-for-predefined-SDU-sizes" }, { 0, NULL } }; static int dissect_ranap_UserPlaneMode(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, TRUE, 0, NULL); return offset; } static int dissect_ranap_INTEGER_0_359(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 359U, NULL, FALSE); return offset; } static int dissect_ranap_INTEGER_0_2047(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 2047U, NULL, FALSE); return offset; } static const per_sequence_t HorizontalSpeedAndBearing_sequence[] = { { &hf_ranap_bearing , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_359 }, { &hf_ranap_horizontalSpeed, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_2047 }, { NULL, 0, 0, NULL } }; static int dissect_ranap_HorizontalSpeedAndBearing(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_HorizontalSpeedAndBearing, HorizontalSpeedAndBearing_sequence); return offset; } static const per_sequence_t HorizontalVelocity_sequence[] = { { &hf_ranap_horizontalSpeedAndBearing, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_HorizontalSpeedAndBearing }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_HorizontalVelocity(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_HorizontalVelocity, HorizontalVelocity_sequence); return offset; } static int dissect_ranap_INTEGER_0_255(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_integer(tvb, offset, actx, tree, hf_index, 0U, 255U, NULL, FALSE); return offset; } static const value_string ranap_VerticalSpeedDirection_vals[] = { { 0, "upward" }, { 1, "downward" }, { 0, NULL } }; static int dissect_ranap_VerticalSpeedDirection(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_enumerated(tvb, offset, actx, tree, hf_index, 2, NULL, FALSE, 0, NULL); return offset; } static const per_sequence_t VerticalVelocity_sequence[] = { { &hf_ranap_veritcalSpeed , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_255 }, { &hf_ranap_veritcalSpeedDirection, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_VerticalSpeedDirection }, { NULL, 0, 0, NULL } }; static int dissect_ranap_VerticalVelocity(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_VerticalVelocity, VerticalVelocity_sequence); return offset; } static const per_sequence_t HorizontalWithVerticalVelocity_sequence[] = { { &hf_ranap_horizontalSpeedAndBearing, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_HorizontalSpeedAndBearing }, { &hf_ranap_veritcalVelocity, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_VerticalVelocity }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_HorizontalWithVerticalVelocity(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_HorizontalWithVerticalVelocity, HorizontalWithVerticalVelocity_sequence); return offset; } static const per_sequence_t HorizontalVelocityWithUncertainty_sequence[] = { { &hf_ranap_horizontalSpeedAndBearing, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_HorizontalSpeedAndBearing }, { &hf_ranap_uncertaintySpeed, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_255 }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_HorizontalVelocityWithUncertainty(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_HorizontalVelocityWithUncertainty, HorizontalVelocityWithUncertainty_sequence); return offset; } static const per_sequence_t HorizontalWithVerticalVelocityAndUncertainty_sequence[] = { { &hf_ranap_horizontalSpeedAndBearing, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_HorizontalSpeedAndBearing }, { &hf_ranap_veritcalVelocity, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_VerticalVelocity }, { &hf_ranap_horizontalUncertaintySpeed, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_255 }, { &hf_ranap_verticalUncertaintySpeed, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_INTEGER_0_255 }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_HorizontalWithVerticalVelocityAndUncertainty(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_HorizontalWithVerticalVelocityAndUncertainty, HorizontalWithVerticalVelocityAndUncertainty_sequence); return offset; } static const value_string ranap_VelocityEstimate_vals[] = { { 0, "horizontalVelocity" }, { 1, "horizontalWithVerticalVelocity" }, { 2, "horizontalVelocityWithUncertainty" }, { 3, "horizontalWithVeritcalVelocityAndUncertainty" }, { 0, NULL } }; static const per_choice_t VelocityEstimate_choice[] = { { 0, &hf_ranap_horizontalVelocity, ASN1_EXTENSION_ROOT , dissect_ranap_HorizontalVelocity }, { 1, &hf_ranap_horizontalWithVerticalVelocity, ASN1_EXTENSION_ROOT , dissect_ranap_HorizontalWithVerticalVelocity }, { 2, &hf_ranap_horizontalVelocityWithUncertainty, ASN1_EXTENSION_ROOT , dissect_ranap_HorizontalVelocityWithUncertainty }, { 3, &hf_ranap_horizontalWithVeritcalVelocityAndUncertainty, ASN1_EXTENSION_ROOT , dissect_ranap_HorizontalWithVerticalVelocityAndUncertainty }, { 0, NULL, 0, NULL } }; static int dissect_ranap_VelocityEstimate(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_VelocityEstimate, VelocityEstimate_choice, NULL); return offset; } static int dissect_ranap_RAB_IE_ContainerList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 142 "../../asn1/ranap/ranap.cnf" asn1_stack_frame_push(actx, "ProtocolIE-ContainerList"); asn1_param_push_integer(actx, 1); asn1_param_push_integer(actx, maxNrOfRABs); offset = dissect_ranap_ProtocolIE_ContainerList(tvb, offset, actx, tree, hf_index); asn1_stack_frame_pop(actx, "ProtocolIE-ContainerList"); return offset; } static int dissect_ranap_RAB_IE_ContainerPairList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 150 "../../asn1/ranap/ranap.cnf" asn1_stack_frame_push(actx, "ProtocolIE-ContainerPairList"); asn1_param_push_integer(actx, 1); asn1_param_push_integer(actx, maxNrOfRABs); offset = dissect_ranap_ProtocolIE_ContainerPairList(tvb, offset, actx, tree, hf_index); asn1_stack_frame_pop(actx, "ProtocolIE-ContainerPairList"); return offset; } static int dissect_ranap_IuSigConId_IE_ContainerList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 167 "../../asn1/ranap/ranap.cnf" asn1_stack_frame_push(actx, "ProtocolIE-ContainerList"); asn1_param_push_integer(actx, 1); asn1_param_push_integer(actx, maxNrOfIuSigConIds); offset = dissect_ranap_ProtocolIE_ContainerList(tvb, offset, actx, tree, hf_index); asn1_stack_frame_pop(actx, "ProtocolIE-ContainerList"); return offset; } static int dissect_ranap_DirectTransfer_IE_ContainerList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { #line 175 "../../asn1/ranap/ranap.cnf" asn1_stack_frame_push(actx, "ProtocolIE-ContainerList"); asn1_param_push_integer(actx, 1); asn1_param_push_integer(actx, maxNrOfDTs); offset = dissect_ranap_ProtocolIE_ContainerList(tvb, offset, actx, tree, hf_index); asn1_stack_frame_pop(actx, "ProtocolIE-ContainerList"); return offset; } static const per_sequence_t Iu_ReleaseCommand_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Iu_ReleaseCommand(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Iu_ReleaseCommand, Iu_ReleaseCommand_sequence); return offset; } static const per_sequence_t Iu_ReleaseComplete_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Iu_ReleaseComplete(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Iu_ReleaseComplete, Iu_ReleaseComplete_sequence); return offset; } static int dissect_ranap_RAB_DataVolumeReportList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t DataVolumeList_item_sequence[] = { { &hf_ranap_dl_UnsuccessfullyTransmittedDataVolume, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_UnsuccessfullyTransmittedDataVolume }, { &hf_ranap_dataVolumeReference, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DataVolumeReference }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_DataVolumeList_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_DataVolumeList_item, DataVolumeList_item_sequence); return offset; } static const per_sequence_t DataVolumeList_sequence_of[1] = { { &hf_ranap_DataVolumeList_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_DataVolumeList_item }, }; static int dissect_ranap_DataVolumeList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_DataVolumeList, DataVolumeList_sequence_of, 1, maxNrOfVol, FALSE); return offset; } static const per_sequence_t RAB_DataVolumeReportItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_rab_dl_UnsuccessfullyTransmittedDataVolume, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DataVolumeList }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_DataVolumeReportItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_DataVolumeReportItem, RAB_DataVolumeReportItem_sequence); return offset; } static int dissect_ranap_RAB_ReleasedList_IuRelComp(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_ReleasedItem_IuRelComp_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_dL_GTP_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DL_GTP_PDU_SequenceNumber }, { &hf_ranap_uL_GTP_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UL_GTP_PDU_SequenceNumber }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_ReleasedItem_IuRelComp(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_ReleasedItem_IuRelComp, RAB_ReleasedItem_IuRelComp_sequence); return offset; } static const per_sequence_t RelocationRequired_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RelocationRequired(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RelocationRequired, RelocationRequired_sequence); return offset; } static const per_sequence_t RelocationCommand_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RelocationCommand(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RelocationCommand, RelocationCommand_sequence); return offset; } static int dissect_ranap_RAB_RelocationReleaseList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_RelocationReleaseItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_RelocationReleaseItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_RelocationReleaseItem, RAB_RelocationReleaseItem_sequence); return offset; } static int dissect_ranap_RAB_DataForwardingList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_DataForwardingItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_transportLayerAddress, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TransportLayerAddress }, { &hf_ranap_iuTransportAssociation, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_IuTransportAssociation }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_DataForwardingItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_DataForwardingItem, RAB_DataForwardingItem_sequence); return offset; } static const per_sequence_t RelocationPreparationFailure_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RelocationPreparationFailure(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RelocationPreparationFailure, RelocationPreparationFailure_sequence); return offset; } static const per_sequence_t RelocationRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RelocationRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RelocationRequest, RelocationRequest_sequence); return offset; } static int dissect_ranap_RAB_SetupList_RelocReq(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t UserPlaneInformation_sequence[] = { { &hf_ranap_userPlaneMode , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_UserPlaneMode }, { &hf_ranap_uP_ModeVersions, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_UP_ModeVersions }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_UserPlaneInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_UserPlaneInformation, UserPlaneInformation_sequence); return offset; } static const per_sequence_t RAB_SetupItem_RelocReq_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_nAS_SynchronisationIndicator, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_NAS_SynchronisationIndicator }, { &hf_ranap_rAB_Parameters, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_Parameters }, { &hf_ranap_dataVolumeReportingIndication, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DataVolumeReportingIndication }, { &hf_ranap_pDP_TypeInformation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_PDP_TypeInformation }, { &hf_ranap_userPlaneInformation, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_UserPlaneInformation }, { &hf_ranap_transportLayerAddress, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TransportLayerAddress }, { &hf_ranap_iuTransportAssociation, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_IuTransportAssociation }, { &hf_ranap_service_Handover, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Service_Handover }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_SetupItem_RelocReq(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_SetupItem_RelocReq, RAB_SetupItem_RelocReq_sequence); return offset; } static const per_sequence_t JoinedMBMSBearerService_IEs_item_sequence[] = { { &hf_ranap_tMGI , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TMGI }, { &hf_ranap_mBMS_PTP_RAB_ID, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_MBMS_PTP_RAB_ID }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_JoinedMBMSBearerService_IEs_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_JoinedMBMSBearerService_IEs_item, JoinedMBMSBearerService_IEs_item_sequence); return offset; } static const per_sequence_t JoinedMBMSBearerService_IEs_sequence_of[1] = { { &hf_ranap_JoinedMBMSBearerService_IEs_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_JoinedMBMSBearerService_IEs_item }, }; static int dissect_ranap_JoinedMBMSBearerService_IEs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_JoinedMBMSBearerService_IEs, JoinedMBMSBearerService_IEs_sequence_of, 1, maxnoofMulticastServicesPerUE, FALSE); return offset; } static const per_sequence_t CNMBMSLinkingInformation_sequence[] = { { &hf_ranap_joinedMBMSBearerService_IEs, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_JoinedMBMSBearerService_IEs }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_CNMBMSLinkingInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_CNMBMSLinkingInformation, CNMBMSLinkingInformation_sequence); return offset; } static const per_sequence_t RelocationRequestAcknowledge_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RelocationRequestAcknowledge(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RelocationRequestAcknowledge, RelocationRequestAcknowledge_sequence); return offset; } static int dissect_ranap_RAB_SetupList_RelocReqAck(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_SetupItem_RelocReqAck_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_transportLayerAddress, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TransportLayerAddress }, { &hf_ranap_iuTransportAssociation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_IuTransportAssociation }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_SetupItem_RelocReqAck(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_SetupItem_RelocReqAck, RAB_SetupItem_RelocReqAck_sequence); return offset; } static int dissect_ranap_RAB_FailedList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_FailedItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_cause , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Cause }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_FailedItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_FailedItem, RAB_FailedItem_sequence); return offset; } static const per_sequence_t RelocationFailure_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RelocationFailure(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RelocationFailure, RelocationFailure_sequence); return offset; } static const per_sequence_t RelocationCancel_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RelocationCancel(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RelocationCancel, RelocationCancel_sequence); return offset; } static const per_sequence_t RelocationCancelAcknowledge_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RelocationCancelAcknowledge(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RelocationCancelAcknowledge, RelocationCancelAcknowledge_sequence); return offset; } static const per_sequence_t SRNS_ContextRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SRNS_ContextRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SRNS_ContextRequest, SRNS_ContextRequest_sequence); return offset; } static int dissect_ranap_RAB_DataForwardingList_SRNS_CtxReq(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_DataForwardingItem_SRNS_CtxReq_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_DataForwardingItem_SRNS_CtxReq(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_DataForwardingItem_SRNS_CtxReq, RAB_DataForwardingItem_SRNS_CtxReq_sequence); return offset; } static const per_sequence_t SRNS_ContextResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SRNS_ContextResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SRNS_ContextResponse, SRNS_ContextResponse_sequence); return offset; } static int dissect_ranap_RAB_ContextList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_ContextItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_dl_GTP_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DL_GTP_PDU_SequenceNumber }, { &hf_ranap_ul_GTP_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UL_GTP_PDU_SequenceNumber }, { &hf_ranap_dl_N_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DL_N_PDU_SequenceNumber }, { &hf_ranap_ul_N_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UL_N_PDU_SequenceNumber }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_ContextItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_ContextItem, RAB_ContextItem_sequence); return offset; } static int dissect_ranap_RAB_ContextFailedtoTransferList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RABs_ContextFailedtoTransferItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_cause , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Cause }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RABs_ContextFailedtoTransferItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RABs_ContextFailedtoTransferItem, RABs_ContextFailedtoTransferItem_sequence); return offset; } static const per_sequence_t SecurityModeCommand_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SecurityModeCommand(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SecurityModeCommand, SecurityModeCommand_sequence); return offset; } static const per_sequence_t SecurityModeComplete_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SecurityModeComplete(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SecurityModeComplete, SecurityModeComplete_sequence); return offset; } static const per_sequence_t SecurityModeReject_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SecurityModeReject(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SecurityModeReject, SecurityModeReject_sequence); return offset; } static const per_sequence_t DataVolumeReportRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_DataVolumeReportRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_DataVolumeReportRequest, DataVolumeReportRequest_sequence); return offset; } static int dissect_ranap_RAB_DataVolumeReportRequestList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_DataVolumeReportRequestItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_DataVolumeReportRequestItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_DataVolumeReportRequestItem, RAB_DataVolumeReportRequestItem_sequence); return offset; } static const per_sequence_t DataVolumeReport_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_DataVolumeReport(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_DataVolumeReport, DataVolumeReport_sequence); return offset; } static int dissect_ranap_RAB_FailedtoReportList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RABs_failed_to_reportItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_cause , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Cause }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RABs_failed_to_reportItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RABs_failed_to_reportItem, RABs_failed_to_reportItem_sequence); return offset; } static const per_sequence_t Reset_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Reset(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Reset, Reset_sequence); return offset; } static const per_sequence_t ResetAcknowledge_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ResetAcknowledge(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ResetAcknowledge, ResetAcknowledge_sequence); return offset; } static const per_sequence_t ResetResource_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ResetResource(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ResetResource, ResetResource_sequence); return offset; } static int dissect_ranap_ResetResourceList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_IuSigConId_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t ResetResourceItem_sequence[] = { { &hf_ranap_iuSigConId , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_IuSignallingConnectionIdentifier }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ResetResourceItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ResetResourceItem, ResetResourceItem_sequence); return offset; } static const per_sequence_t ResetResourceAcknowledge_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ResetResourceAcknowledge(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ResetResourceAcknowledge, ResetResourceAcknowledge_sequence); return offset; } static int dissect_ranap_ResetResourceAckList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_IuSigConId_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t ResetResourceAckItem_sequence[] = { { &hf_ranap_iuSigConId , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_IuSignallingConnectionIdentifier }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ResetResourceAckItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ResetResourceAckItem, ResetResourceAckItem_sequence); return offset; } static const per_sequence_t RAB_ReleaseRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_ReleaseRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_ReleaseRequest, RAB_ReleaseRequest_sequence); return offset; } static int dissect_ranap_RAB_ReleaseList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_ReleaseItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_cause , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Cause }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_ReleaseItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_ReleaseItem, RAB_ReleaseItem_sequence); return offset; } static const per_sequence_t Iu_ReleaseRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Iu_ReleaseRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Iu_ReleaseRequest, Iu_ReleaseRequest_sequence); return offset; } static const per_sequence_t RelocationDetect_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RelocationDetect(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RelocationDetect, RelocationDetect_sequence); return offset; } static const per_sequence_t RelocationComplete_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RelocationComplete(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RelocationComplete, RelocationComplete_sequence); return offset; } static const per_sequence_t EnhancedRelocationCompleteRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_EnhancedRelocationCompleteRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_EnhancedRelocationCompleteRequest, EnhancedRelocationCompleteRequest_sequence); return offset; } static int dissect_ranap_RAB_SetupList_EnhancedRelocCompleteReq(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_SetupItem_EnhancedRelocCompleteReq_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_transportLayerAddressReq1, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TransportLayerAddress }, { &hf_ranap_iuTransportAssociationReq1, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_IuTransportAssociation }, { &hf_ranap_ass_RAB_Parameters, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Ass_RAB_Parameters }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_SetupItem_EnhancedRelocCompleteReq(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_SetupItem_EnhancedRelocCompleteReq, RAB_SetupItem_EnhancedRelocCompleteReq_sequence); return offset; } static const per_sequence_t EnhancedRelocationCompleteResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_EnhancedRelocationCompleteResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_EnhancedRelocationCompleteResponse, EnhancedRelocationCompleteResponse_sequence); return offset; } static int dissect_ranap_RAB_SetupList_EnhancedRelocCompleteRes(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static int dissect_ranap_RAB_ToBeReleasedList_EnhancedRelocCompleteRes(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_SetupItem_EnhancedRelocCompleteRes_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_rAB_Parameters, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RAB_Parameters }, { &hf_ranap_userPlaneInformation, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_UserPlaneInformation }, { &hf_ranap_transportLayerAddressRes1, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TransportLayerAddress }, { &hf_ranap_iuTransportAssociationRes1, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_IuTransportAssociation }, { &hf_ranap_rab2beReleasedList, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RAB_ToBeReleasedList_EnhancedRelocCompleteRes }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_SetupItem_EnhancedRelocCompleteRes(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_SetupItem_EnhancedRelocCompleteRes, RAB_SetupItem_EnhancedRelocCompleteRes_sequence); return offset; } static const per_sequence_t RAB_ToBeReleasedItem_EnhancedRelocCompleteRes_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_cause , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Cause }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes, RAB_ToBeReleasedItem_EnhancedRelocCompleteRes_sequence); return offset; } static const per_sequence_t EnhancedRelocationCompleteFailure_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_EnhancedRelocationCompleteFailure(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_EnhancedRelocationCompleteFailure, EnhancedRelocationCompleteFailure_sequence); return offset; } static const per_sequence_t EnhancedRelocationCompleteConfirm_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_EnhancedRelocationCompleteConfirm(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_EnhancedRelocationCompleteConfirm, EnhancedRelocationCompleteConfirm_sequence); return offset; } static const per_sequence_t Paging_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Paging(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Paging, Paging_sequence); return offset; } static const per_sequence_t CommonID_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_CommonID(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_CommonID, CommonID_sequence); return offset; } static const per_sequence_t CN_InvokeTrace_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_CN_InvokeTrace(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_CN_InvokeTrace, CN_InvokeTrace_sequence); return offset; } static const per_sequence_t CN_DeactivateTrace_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_CN_DeactivateTrace(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_CN_DeactivateTrace, CN_DeactivateTrace_sequence); return offset; } static const per_sequence_t LocationReportingControl_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LocationReportingControl(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LocationReportingControl, LocationReportingControl_sequence); return offset; } static const per_sequence_t LocationReport_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LocationReport(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LocationReport, LocationReport_sequence); return offset; } static const per_sequence_t InitialUE_Message_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_InitialUE_Message(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_InitialUE_Message, InitialUE_Message_sequence); return offset; } static const per_sequence_t DirectTransfer_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_DirectTransfer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_DirectTransfer, DirectTransfer_sequence); return offset; } static int dissect_ranap_RedirectionIndication(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_ProtocolIE_Container(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t Overload_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Overload(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Overload, Overload_sequence); return offset; } static const per_sequence_t ErrorIndication_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ErrorIndication(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ErrorIndication, ErrorIndication_sequence); return offset; } static const per_sequence_t SRNS_DataForwardCommand_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SRNS_DataForwardCommand(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SRNS_DataForwardCommand, SRNS_DataForwardCommand_sequence); return offset; } static const per_sequence_t ForwardSRNS_Context_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_ForwardSRNS_Context(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_ForwardSRNS_Context, ForwardSRNS_Context_sequence); return offset; } static const per_sequence_t RAB_AssignmentRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_AssignmentRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_AssignmentRequest, RAB_AssignmentRequest_sequence); return offset; } static int dissect_ranap_RAB_SetupOrModifyList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerPairList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t TransportLayerInformation_sequence[] = { { &hf_ranap_transportLayerAddress, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TransportLayerAddress }, { &hf_ranap_iuTransportAssociation, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_IuTransportAssociation }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_TransportLayerInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TransportLayerInformation, TransportLayerInformation_sequence); return offset; } static const per_sequence_t RAB_SetupOrModifyItemFirst_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_nAS_SynchronisationIndicator, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_NAS_SynchronisationIndicator }, { &hf_ranap_rAB_Parameters, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_RAB_Parameters }, { &hf_ranap_userPlaneInformation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UserPlaneInformation }, { &hf_ranap_transportLayerInformation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TransportLayerInformation }, { &hf_ranap_service_Handover, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Service_Handover }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_SetupOrModifyItemFirst(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_SetupOrModifyItemFirst, RAB_SetupOrModifyItemFirst_sequence); return offset; } static const per_sequence_t RAB_SetupOrModifyItemSecond_sequence[] = { { &hf_ranap_pDP_TypeInformation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_PDP_TypeInformation }, { &hf_ranap_dataVolumeReportingIndication, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DataVolumeReportingIndication }, { &hf_ranap_dl_GTP_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DL_GTP_PDU_SequenceNumber }, { &hf_ranap_ul_GTP_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UL_GTP_PDU_SequenceNumber }, { &hf_ranap_dl_N_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DL_N_PDU_SequenceNumber }, { &hf_ranap_ul_N_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UL_N_PDU_SequenceNumber }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_SetupOrModifyItemSecond(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_SetupOrModifyItemSecond, RAB_SetupOrModifyItemSecond_sequence); return offset; } static const per_sequence_t RAB_AssignmentResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_AssignmentResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_AssignmentResponse, RAB_AssignmentResponse_sequence); return offset; } static int dissect_ranap_RAB_SetupOrModifiedList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_SetupOrModifiedItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_transportLayerAddress, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TransportLayerAddress }, { &hf_ranap_iuTransportAssociation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_IuTransportAssociation }, { &hf_ranap_dl_dataVolumes, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DataVolumeList }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_SetupOrModifiedItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_SetupOrModifiedItem, RAB_SetupOrModifiedItem_sequence); return offset; } static int dissect_ranap_RAB_ReleasedList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_ReleasedItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_dl_dataVolumes, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DataVolumeList }, { &hf_ranap_dL_GTP_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DL_GTP_PDU_SequenceNumber }, { &hf_ranap_uL_GTP_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UL_GTP_PDU_SequenceNumber }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_ReleasedItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_ReleasedItem, RAB_ReleasedItem_sequence); return offset; } static int dissect_ranap_RAB_QueuedList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_QueuedItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_QueuedItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_QueuedItem, RAB_QueuedItem_sequence); return offset; } static int dissect_ranap_RAB_ReleaseFailedList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_FailedList(tvb, offset, actx, tree, hf_index); return offset; } static int dissect_ranap_GERAN_Iumode_RAB_FailedList_RABAssgntResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_cause , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Cause }, { &hf_ranap_gERAN_Classmark, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_GERAN_Classmark }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item, GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item_sequence); return offset; } static const per_sequence_t PrivateMessage_sequence[] = { { &hf_ranap_privateIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_PrivateIE_Container }, { NULL, 0, 0, NULL } }; static int dissect_ranap_PrivateMessage(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_PrivateMessage, PrivateMessage_sequence); return offset; } static const per_sequence_t RANAP_RelocationInformation_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RANAP_RelocationInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RANAP_RelocationInformation, RANAP_RelocationInformation_sequence); return offset; } static int dissect_ranap_DirectTransferInformationList_RANAP_RelocInf(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_DirectTransfer_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t DirectTransferInformationItem_RANAP_RelocInf_sequence[] = { { &hf_ranap_nAS_PDU , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_NAS_PDU }, { &hf_ranap_sAPI , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_SAPI }, { &hf_ranap_cN_DomainIndicator, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_CN_DomainIndicator }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_DirectTransferInformationItem_RANAP_RelocInf(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_DirectTransferInformationItem_RANAP_RelocInf, DirectTransferInformationItem_RANAP_RelocInf_sequence); return offset; } static int dissect_ranap_RAB_ContextList_RANAP_RelocInf(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_ContextItem_RANAP_RelocInf_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_dl_GTP_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DL_GTP_PDU_SequenceNumber }, { &hf_ranap_ul_GTP_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UL_GTP_PDU_SequenceNumber }, { &hf_ranap_dl_N_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DL_N_PDU_SequenceNumber }, { &hf_ranap_ul_N_PDU_SequenceNumber, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_UL_N_PDU_SequenceNumber }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_ContextItem_RANAP_RelocInf(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_ContextItem_RANAP_RelocInf, RAB_ContextItem_RANAP_RelocInf_sequence); return offset; } static const per_sequence_t RANAP_EnhancedRelocationInformationRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RANAP_EnhancedRelocationInformationRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RANAP_EnhancedRelocationInformationRequest, RANAP_EnhancedRelocationInformationRequest_sequence); return offset; } static int dissect_ranap_RAB_SetupList_EnhRelocInfoReq(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t TNLInformationEnhRelInfoReq_sequence[] = { { &hf_ranap_transportLayerAddress, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TransportLayerAddress }, { &hf_ranap_iuTransportAssociation, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_IuTransportAssociation }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_TNLInformationEnhRelInfoReq(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TNLInformationEnhRelInfoReq, TNLInformationEnhRelInfoReq_sequence); return offset; } static const per_sequence_t RAB_SetupItem_EnhRelocInfoReq_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_cN_DomainIndicator, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_CN_DomainIndicator }, { &hf_ranap_rAB_Parameters, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_Parameters }, { &hf_ranap_dataVolumeReportingIndication, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_DataVolumeReportingIndication }, { &hf_ranap_pDP_TypeInformation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_PDP_TypeInformation }, { &hf_ranap_userPlaneInformation, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_UserPlaneInformation }, { &hf_ranap_dataForwardingInformation, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TNLInformationEnhRelInfoReq }, { &hf_ranap_sourceSideIuULTNLInfo, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TNLInformationEnhRelInfoReq }, { &hf_ranap_service_Handover, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Service_Handover }, { &hf_ranap_alt_RAB_Parameters, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Alt_RAB_Parameters }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_SetupItem_EnhRelocInfoReq(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_SetupItem_EnhRelocInfoReq, RAB_SetupItem_EnhRelocInfoReq_sequence); return offset; } static const per_sequence_t RANAP_EnhancedRelocationInformationResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RANAP_EnhancedRelocationInformationResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RANAP_EnhancedRelocationInformationResponse, RANAP_EnhancedRelocationInformationResponse_sequence); return offset; } static int dissect_ranap_RAB_SetupList_EnhRelocInfoRes(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t TNLInformationEnhRelInfoRes_sequence[] = { { &hf_ranap_dl_forwardingTransportLayerAddress, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TransportLayerAddress }, { &hf_ranap_dl_forwardingTransportAssociation, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_IuTransportAssociation }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_TNLInformationEnhRelInfoRes(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_TNLInformationEnhRelInfoRes, TNLInformationEnhRelInfoRes_sequence); return offset; } static const per_sequence_t RAB_SetupItem_EnhRelocInfoRes_sequence[] = { { &hf_ranap_cN_DomainIndicator, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_CN_DomainIndicator }, { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_dataForwardingInformation_01, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_TNLInformationEnhRelInfoRes }, { &hf_ranap_ass_RAB_Parameters, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_Ass_RAB_Parameters }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_SetupItem_EnhRelocInfoRes(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_SetupItem_EnhRelocInfoRes, RAB_SetupItem_EnhRelocInfoRes_sequence); return offset; } static int dissect_ranap_RAB_FailedList_EnhRelocInfoRes(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_FailedItem_EnhRelocInfoRes_sequence[] = { { &hf_ranap_cN_DomainIndicator, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_CN_DomainIndicator }, { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_cause , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Cause }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_FailedItem_EnhRelocInfoRes(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_FailedItem_EnhRelocInfoRes, RAB_FailedItem_EnhRelocInfoRes_sequence); return offset; } static const per_sequence_t RAB_ModifyRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_ModifyRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_ModifyRequest, RAB_ModifyRequest_sequence); return offset; } static int dissect_ranap_RAB_ModifyList(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_ranap_RAB_IE_ContainerList(tvb, offset, actx, tree, hf_index); return offset; } static const per_sequence_t RAB_ModifyItem_sequence[] = { { &hf_ranap_rAB_ID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_RAB_ID }, { &hf_ranap_requested_RAB_Parameter_Values, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Requested_RAB_Parameter_Values }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_RAB_ModifyItem(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_RAB_ModifyItem, RAB_ModifyItem_sequence); return offset; } static const per_sequence_t LocationRelatedDataRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LocationRelatedDataRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LocationRelatedDataRequest, LocationRelatedDataRequest_sequence); return offset; } static const per_sequence_t LocationRelatedDataResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LocationRelatedDataResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LocationRelatedDataResponse, LocationRelatedDataResponse_sequence); return offset; } static const per_sequence_t LocationRelatedDataFailure_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LocationRelatedDataFailure(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LocationRelatedDataFailure, LocationRelatedDataFailure_sequence); return offset; } static const per_sequence_t InformationTransferIndication_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_InformationTransferIndication(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_InformationTransferIndication, InformationTransferIndication_sequence); return offset; } static const per_sequence_t InformationTransferConfirmation_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_InformationTransferConfirmation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_InformationTransferConfirmation, InformationTransferConfirmation_sequence); return offset; } static const per_sequence_t InformationTransferFailure_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_InformationTransferFailure(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_InformationTransferFailure, InformationTransferFailure_sequence); return offset; } static const per_sequence_t UESpecificInformationIndication_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_UESpecificInformationIndication(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_UESpecificInformationIndication, UESpecificInformationIndication_sequence); return offset; } static const per_sequence_t DirectInformationTransfer_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_DirectInformationTransfer(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_DirectInformationTransfer, DirectInformationTransfer_sequence); return offset; } static const per_sequence_t UplinkInformationExchangeRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_UplinkInformationExchangeRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_UplinkInformationExchangeRequest, UplinkInformationExchangeRequest_sequence); return offset; } static const per_sequence_t UplinkInformationExchangeResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_UplinkInformationExchangeResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_UplinkInformationExchangeResponse, UplinkInformationExchangeResponse_sequence); return offset; } static const per_sequence_t UplinkInformationExchangeFailure_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_UplinkInformationExchangeFailure(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_UplinkInformationExchangeFailure, UplinkInformationExchangeFailure_sequence); return offset; } static const per_sequence_t MBMSSessionStart_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSSessionStart(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSSessionStart, MBMSSessionStart_sequence); return offset; } static const per_sequence_t MBMSSynchronisationInformation_sequence[] = { { &hf_ranap_mBMSHCIndicator, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_MBMSHCIndicator }, { &hf_ranap_iPMulticastAddress, ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_IPMulticastAddress }, { &hf_ranap_gTPDLTEID , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_GTP_TEI }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSSynchronisationInformation(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSSynchronisationInformation, MBMSSynchronisationInformation_sequence); return offset; } static const per_sequence_t MBMSSessionStartResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSSessionStartResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSSessionStartResponse, MBMSSessionStartResponse_sequence); return offset; } static const per_sequence_t MBMSSessionStartFailure_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSSessionStartFailure(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSSessionStartFailure, MBMSSessionStartFailure_sequence); return offset; } static const per_sequence_t MBMSSessionUpdate_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSSessionUpdate(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSSessionUpdate, MBMSSessionUpdate_sequence); return offset; } static const per_sequence_t MBMSSessionUpdateResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSSessionUpdateResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSSessionUpdateResponse, MBMSSessionUpdateResponse_sequence); return offset; } static const per_sequence_t MBMSSessionUpdateFailure_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSSessionUpdateFailure(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSSessionUpdateFailure, MBMSSessionUpdateFailure_sequence); return offset; } static const per_sequence_t MBMSSessionStop_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSSessionStop(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSSessionStop, MBMSSessionStop_sequence); return offset; } static const per_sequence_t MBMSSessionStopResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSSessionStopResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSSessionStopResponse, MBMSSessionStopResponse_sequence); return offset; } static const per_sequence_t MBMSUELinkingRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSUELinkingRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSUELinkingRequest, MBMSUELinkingRequest_sequence); return offset; } static const per_sequence_t LeftMBMSBearerService_IEs_item_sequence[] = { { &hf_ranap_tMGI , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TMGI }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_LeftMBMSBearerService_IEs_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_LeftMBMSBearerService_IEs_item, LeftMBMSBearerService_IEs_item_sequence); return offset; } static const per_sequence_t LeftMBMSBearerService_IEs_sequence_of[1] = { { &hf_ranap_LeftMBMSBearerService_IEs_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_LeftMBMSBearerService_IEs_item }, }; static int dissect_ranap_LeftMBMSBearerService_IEs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_LeftMBMSBearerService_IEs, LeftMBMSBearerService_IEs_sequence_of, 1, maxnoofMulticastServicesPerUE, FALSE); return offset; } static const per_sequence_t MBMSUELinkingResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSUELinkingResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSUELinkingResponse, MBMSUELinkingResponse_sequence); return offset; } static const per_sequence_t UnsuccessfulLinking_IEs_item_sequence[] = { { &hf_ranap_tMGI , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_TMGI }, { &hf_ranap_cause , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_Cause }, { &hf_ranap_iE_Extensions , ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_UnsuccessfulLinking_IEs_item(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_UnsuccessfulLinking_IEs_item, UnsuccessfulLinking_IEs_item_sequence); return offset; } static const per_sequence_t UnsuccessfulLinking_IEs_sequence_of[1] = { { &hf_ranap_UnsuccessfulLinking_IEs_item, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_UnsuccessfulLinking_IEs_item }, }; static int dissect_ranap_UnsuccessfulLinking_IEs(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_constrained_sequence_of(tvb, offset, actx, tree, hf_index, ett_ranap_UnsuccessfulLinking_IEs, UnsuccessfulLinking_IEs_sequence_of, 1, maxnoofMulticastServicesPerUE, FALSE); return offset; } static const per_sequence_t MBMSRegistrationRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSRegistrationRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSRegistrationRequest, MBMSRegistrationRequest_sequence); return offset; } static const per_sequence_t MBMSRegistrationResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSRegistrationResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSRegistrationResponse, MBMSRegistrationResponse_sequence); return offset; } static const per_sequence_t MBMSRegistrationFailure_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSRegistrationFailure(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSRegistrationFailure, MBMSRegistrationFailure_sequence); return offset; } static const per_sequence_t MBMSCNDe_RegistrationRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSCNDe_RegistrationRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSCNDe_RegistrationRequest, MBMSCNDe_RegistrationRequest_sequence); return offset; } static const per_sequence_t MBMSCNDe_RegistrationResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSCNDe_RegistrationResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSCNDe_RegistrationResponse, MBMSCNDe_RegistrationResponse_sequence); return offset; } static const per_sequence_t MBMSRABEstablishmentIndication_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSRABEstablishmentIndication(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSRABEstablishmentIndication, MBMSRABEstablishmentIndication_sequence); return offset; } static const per_sequence_t MBMSRABReleaseRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSRABReleaseRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSRABReleaseRequest, MBMSRABReleaseRequest_sequence); return offset; } static const per_sequence_t MBMSRABRelease_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSRABRelease(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSRABRelease, MBMSRABRelease_sequence); return offset; } static const per_sequence_t MBMSRABReleaseFailure_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_MBMSRABReleaseFailure(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_MBMSRABReleaseFailure, MBMSRABReleaseFailure_sequence); return offset; } static const per_sequence_t SRVCC_CSKeysRequest_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SRVCC_CSKeysRequest(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SRVCC_CSKeysRequest, SRVCC_CSKeysRequest_sequence); return offset; } static const per_sequence_t SRVCC_CSKeysResponse_sequence[] = { { &hf_ranap_protocolIEs , ASN1_EXTENSION_ROOT , ASN1_NOT_OPTIONAL, dissect_ranap_ProtocolIE_Container }, { &hf_ranap_protocolExtensions, ASN1_EXTENSION_ROOT , ASN1_OPTIONAL , dissect_ranap_ProtocolExtensionContainer }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SRVCC_CSKeysResponse(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SRVCC_CSKeysResponse, SRVCC_CSKeysResponse_sequence); return offset; } static int dissect_ranap_InitiatingMessage_value(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_open_type_pdu_new(tvb, offset, actx, tree, hf_index, dissect_InitiatingMessageValue); return offset; } static const per_sequence_t InitiatingMessage_sequence[] = { { &hf_ranap_procedureCode , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProcedureCode }, { &hf_ranap_criticality , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Criticality }, { &hf_ranap_initiatingMessagevalue, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_InitiatingMessage_value }, { NULL, 0, 0, NULL } }; static int dissect_ranap_InitiatingMessage(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_InitiatingMessage, InitiatingMessage_sequence); return offset; } static int dissect_ranap_SuccessfulOutcome_value(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_open_type_pdu_new(tvb, offset, actx, tree, hf_index, dissect_SuccessfulOutcomeValue); return offset; } static const per_sequence_t SuccessfulOutcome_sequence[] = { { &hf_ranap_procedureCode , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProcedureCode }, { &hf_ranap_criticality , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Criticality }, { &hf_ranap_successfulOutcome_value, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_SuccessfulOutcome_value }, { NULL, 0, 0, NULL } }; static int dissect_ranap_SuccessfulOutcome(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_SuccessfulOutcome, SuccessfulOutcome_sequence); return offset; } static int dissect_ranap_UnsuccessfulOutcome_value(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_open_type_pdu_new(tvb, offset, actx, tree, hf_index, dissect_UnsuccessfulOutcomeValue); return offset; } static const per_sequence_t UnsuccessfulOutcome_sequence[] = { { &hf_ranap_procedureCode , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProcedureCode }, { &hf_ranap_criticality , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Criticality }, { &hf_ranap_unsuccessfulOutcome_value, ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_UnsuccessfulOutcome_value }, { NULL, 0, 0, NULL } }; static int dissect_ranap_UnsuccessfulOutcome(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_UnsuccessfulOutcome, UnsuccessfulOutcome_sequence); return offset; } static int dissect_ranap_T_value(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_open_type_pdu_new(tvb, offset, actx, tree, hf_index, dissect_OutcomeValue); return offset; } static const per_sequence_t Outcome_sequence[] = { { &hf_ranap_procedureCode , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_ProcedureCode }, { &hf_ranap_criticality , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_Criticality }, { &hf_ranap_value , ASN1_NO_EXTENSIONS , ASN1_NOT_OPTIONAL, dissect_ranap_T_value }, { NULL, 0, 0, NULL } }; static int dissect_ranap_Outcome(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_sequence(tvb, offset, actx, tree, hf_index, ett_ranap_Outcome, Outcome_sequence); return offset; } static const value_string ranap_RANAP_PDU_vals[] = { { 0, "initiatingMessage" }, { 1, "successfulOutcome" }, { 2, "unsuccessfulOutcome" }, { 3, "outcome" }, { 0, NULL } }; static const per_choice_t RANAP_PDU_choice[] = { { 0, &hf_ranap_initiatingMessage, ASN1_EXTENSION_ROOT , dissect_ranap_InitiatingMessage }, { 1, &hf_ranap_successfulOutcome, ASN1_EXTENSION_ROOT , dissect_ranap_SuccessfulOutcome }, { 2, &hf_ranap_unsuccessfulOutcome, ASN1_EXTENSION_ROOT , dissect_ranap_UnsuccessfulOutcome }, { 3, &hf_ranap_outcome , ASN1_EXTENSION_ROOT , dissect_ranap_Outcome }, { 0, NULL, 0, NULL } }; static int dissect_ranap_RANAP_PDU(tvbuff_t *tvb _U_, int offset _U_, asn1_ctx_t *actx _U_, proto_tree *tree _U_, int hf_index _U_) { offset = dissect_per_choice(tvb, offset, actx, tree, hf_index, ett_ranap_RANAP_PDU, RANAP_PDU_choice, NULL); return offset; } /*--- PDUs ---*/ static int dissect_AccuracyFulfilmentIndicator_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_AccuracyFulfilmentIndicator(tvb, offset, &asn1_ctx, tree, hf_ranap_AccuracyFulfilmentIndicator_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Alt_RAB_Parameters_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Alt_RAB_Parameters(tvb, offset, &asn1_ctx, tree, hf_ranap_Alt_RAB_Parameters_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf(tvb, offset, &asn1_ctx, tree, hf_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf(tvb, offset, &asn1_ctx, tree, hf_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Alt_RAB_Parameter_ExtendedMaxBitrateInf_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateInf(tvb, offset, &asn1_ctx, tree, hf_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateInf_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Alt_RAB_Parameter_SupportedMaxBitrateInf_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Alt_RAB_Parameter_SupportedMaxBitrateInf(tvb, offset, &asn1_ctx, tree, hf_ranap_Alt_RAB_Parameter_SupportedMaxBitrateInf_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_AlternativeRABConfigurationRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_AlternativeRABConfigurationRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_AlternativeRABConfigurationRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_APN_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_APN(tvb, offset, &asn1_ctx, tree, hf_ranap_APN_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_AreaIdentity_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_AreaIdentity(tvb, offset, &asn1_ctx, tree, hf_ranap_AreaIdentity_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Ass_RAB_Parameters_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Ass_RAB_Parameters(tvb, offset, &asn1_ctx, tree, hf_ranap_Ass_RAB_Parameters_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList(tvb, offset, &asn1_ctx, tree, hf_ranap_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Ass_RAB_Parameter_ExtendedMaxBitrateList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Ass_RAB_Parameter_ExtendedMaxBitrateList(tvb, offset, &asn1_ctx, tree, hf_ranap_Ass_RAB_Parameter_ExtendedMaxBitrateList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_BroadcastAssistanceDataDecipheringKeys_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_BroadcastAssistanceDataDecipheringKeys(tvb, offset, &asn1_ctx, tree, hf_ranap_BroadcastAssistanceDataDecipheringKeys_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Cause_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Cause(tvb, offset, &asn1_ctx, tree, hf_ranap_Cause_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Cell_Access_Mode_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Cell_Access_Mode(tvb, offset, &asn1_ctx, tree, hf_ranap_Cell_Access_Mode_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_CellLoadInformationGroup_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_CellLoadInformationGroup(tvb, offset, &asn1_ctx, tree, hf_ranap_CellLoadInformationGroup_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ClientType_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ClientType(tvb, offset, &asn1_ctx, tree, hf_ranap_ClientType_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_CriticalityDiagnostics_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_CriticalityDiagnostics(tvb, offset, &asn1_ctx, tree, hf_ranap_CriticalityDiagnostics_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MessageStructure_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MessageStructure(tvb, offset, &asn1_ctx, tree, hf_ranap_MessageStructure_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ChosenEncryptionAlgorithm_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ChosenEncryptionAlgorithm(tvb, offset, &asn1_ctx, tree, hf_ranap_ChosenEncryptionAlgorithm_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ChosenIntegrityProtectionAlgorithm_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ChosenIntegrityProtectionAlgorithm(tvb, offset, &asn1_ctx, tree, hf_ranap_ChosenIntegrityProtectionAlgorithm_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ClassmarkInformation2_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ClassmarkInformation2(tvb, offset, &asn1_ctx, tree, hf_ranap_ClassmarkInformation2_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ClassmarkInformation3_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ClassmarkInformation3(tvb, offset, &asn1_ctx, tree, hf_ranap_ClassmarkInformation3_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_CN_DomainIndicator_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_CN_DomainIndicator(tvb, offset, &asn1_ctx, tree, hf_ranap_CN_DomainIndicator_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Correlation_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Correlation_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_Correlation_ID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_CSFB_Information_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_CSFB_Information(tvb, offset, &asn1_ctx, tree, hf_ranap_CSFB_Information_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_CSG_Id_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_CSG_Id(tvb, offset, &asn1_ctx, tree, hf_ranap_CSG_Id_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_CSG_Id_List_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_CSG_Id_List(tvb, offset, &asn1_ctx, tree, hf_ranap_CSG_Id_List_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_CSG_Membership_Status_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_CSG_Membership_Status(tvb, offset, &asn1_ctx, tree, hf_ranap_CSG_Membership_Status_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_DeltaRAListofIdleModeUEs_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_DeltaRAListofIdleModeUEs(tvb, offset, &asn1_ctx, tree, hf_ranap_DeltaRAListofIdleModeUEs_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_DRX_CycleLengthCoefficient_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_DRX_CycleLengthCoefficient(tvb, offset, &asn1_ctx, tree, hf_ranap_DRX_CycleLengthCoefficient_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_E_DCH_MAC_d_Flow_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_E_DCH_MAC_d_Flow_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_E_DCH_MAC_d_Flow_ID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_EncryptionInformation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_EncryptionInformation(tvb, offset, &asn1_ctx, tree, hf_ranap_EncryptionInformation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_EncryptionKey_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_EncryptionKey(tvb, offset, &asn1_ctx, tree, hf_ranap_EncryptionKey_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_End_Of_CSFB_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_End_Of_CSFB(tvb, offset, &asn1_ctx, tree, hf_ranap_End_Of_CSFB_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_E_UTRAN_Service_Handover_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_E_UTRAN_Service_Handover(tvb, offset, &asn1_ctx, tree, hf_ranap_E_UTRAN_Service_Handover_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ExtendedRNC_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ExtendedRNC_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_ExtendedRNC_ID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_FrequenceLayerConvergenceFlag_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_FrequenceLayerConvergenceFlag(tvb, offset, &asn1_ctx, tree, hf_ranap_FrequenceLayerConvergenceFlag_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_GANSS_PositioningDataSet_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_GANSS_PositioningDataSet(tvb, offset, &asn1_ctx, tree, hf_ranap_GANSS_PositioningDataSet_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_GERAN_BSC_Container_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_GERAN_BSC_Container(tvb, offset, &asn1_ctx, tree, hf_ranap_GERAN_BSC_Container_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_GERAN_Classmark_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_GERAN_Classmark(tvb, offset, &asn1_ctx, tree, hf_ranap_GERAN_Classmark_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_GlobalCN_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_GlobalCN_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_GlobalCN_ID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_GlobalRNC_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_GlobalRNC_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_GlobalRNC_ID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_HigherBitratesThan16MbpsFlag_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_HigherBitratesThan16MbpsFlag(tvb, offset, &asn1_ctx, tree, hf_ranap_HigherBitratesThan16MbpsFlag_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_HS_DSCH_MAC_d_Flow_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_HS_DSCH_MAC_d_Flow_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_HS_DSCH_MAC_d_Flow_ID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_IncludeVelocity_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_IncludeVelocity(tvb, offset, &asn1_ctx, tree, hf_ranap_IncludeVelocity_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_InformationExchangeID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InformationExchangeID(tvb, offset, &asn1_ctx, tree, hf_ranap_InformationExchangeID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_InformationExchangeType_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InformationExchangeType(tvb, offset, &asn1_ctx, tree, hf_ranap_InformationExchangeType_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_InformationRequested_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InformationRequested(tvb, offset, &asn1_ctx, tree, hf_ranap_InformationRequested_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_InformationRequestType_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InformationRequestType(tvb, offset, &asn1_ctx, tree, hf_ranap_InformationRequestType_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_InformationTransferID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InformationTransferID(tvb, offset, &asn1_ctx, tree, hf_ranap_InformationTransferID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_InformationTransferType_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InformationTransferType(tvb, offset, &asn1_ctx, tree, hf_ranap_InformationTransferType_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_IntegrityProtectionInformation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_IntegrityProtectionInformation(tvb, offset, &asn1_ctx, tree, hf_ranap_IntegrityProtectionInformation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_IntegrityProtectionKey_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_IntegrityProtectionKey(tvb, offset, &asn1_ctx, tree, hf_ranap_IntegrityProtectionKey_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_InterSystemInformationTransferType_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InterSystemInformationTransferType(tvb, offset, &asn1_ctx, tree, hf_ranap_InterSystemInformationTransferType_PDU); offset += 7; offset >>= 3; return offset; } int dissect_ranap_InterSystemInformation_TransparentContainer_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InterSystemInformation_TransparentContainer(tvb, offset, &asn1_ctx, tree, hf_ranap_ranap_InterSystemInformation_TransparentContainer_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_IPMulticastAddress_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_IPMulticastAddress(tvb, offset, &asn1_ctx, tree, hf_ranap_IPMulticastAddress_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_IuSignallingConnectionIdentifier_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_IuSignallingConnectionIdentifier(tvb, offset, &asn1_ctx, tree, hf_ranap_IuSignallingConnectionIdentifier_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_IuTransportAssociation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_IuTransportAssociation(tvb, offset, &asn1_ctx, tree, hf_ranap_IuTransportAssociation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_KeyStatus_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_KeyStatus(tvb, offset, &asn1_ctx, tree, hf_ranap_KeyStatus_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_LAI_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_LAI(tvb, offset, &asn1_ctx, tree, hf_ranap_LAI_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_LastKnownServiceArea_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_LastKnownServiceArea(tvb, offset, &asn1_ctx, tree, hf_ranap_LastKnownServiceArea_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_LocationRelatedDataRequestType_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_LocationRelatedDataRequestType(tvb, offset, &asn1_ctx, tree, hf_ranap_LocationRelatedDataRequestType_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_LocationRelatedDataRequestTypeSpecificToGERANIuMode_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_LocationRelatedDataRequestTypeSpecificToGERANIuMode(tvb, offset, &asn1_ctx, tree, hf_ranap_LocationRelatedDataRequestTypeSpecificToGERANIuMode_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_L3_Information_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_L3_Information(tvb, offset, &asn1_ctx, tree, hf_ranap_L3_Information_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Management_Based_MDT_Allowed_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Management_Based_MDT_Allowed(tvb, offset, &asn1_ctx, tree, hf_ranap_Management_Based_MDT_Allowed_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSBearerServiceType_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSBearerServiceType(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSBearerServiceType_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSCNDe_Registration_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSCNDe_Registration(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSCNDe_Registration_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSCountingInformation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSCountingInformation(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSCountingInformation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSLinkingInformation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSLinkingInformation(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSLinkingInformation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSRegistrationRequestType_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSRegistrationRequestType(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSRegistrationRequestType_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSServiceArea_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSServiceArea(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSServiceArea_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSessionDuration_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSessionDuration(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSessionDuration_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSessionIdentity_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSessionIdentity(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSessionIdentity_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSessionRepetitionNumber_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSessionRepetitionNumber(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSessionRepetitionNumber_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MDT_Configuration_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MDT_Configuration(tvb, offset, &asn1_ctx, tree, hf_ranap_MDT_Configuration_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MSISDN_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MSISDN(tvb, offset, &asn1_ctx, tree, hf_ranap_MSISDN_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_NAS_PDU_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_NAS_PDU(tvb, offset, &asn1_ctx, tree, hf_ranap_NAS_PDU_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_NAS_SequenceNumber_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_NAS_SequenceNumber(tvb, offset, &asn1_ctx, tree, hf_ranap_NAS_SequenceNumber_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_NewBSS_To_OldBSS_Information_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_NewBSS_To_OldBSS_Information(tvb, offset, &asn1_ctx, tree, hf_ranap_NewBSS_To_OldBSS_Information_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_NonSearchingIndication_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_NonSearchingIndication(tvb, offset, &asn1_ctx, tree, hf_ranap_NonSearchingIndication_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_NumberOfSteps_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_NumberOfSteps(tvb, offset, &asn1_ctx, tree, hf_ranap_NumberOfSteps_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Offload_RAB_Parameters_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Offload_RAB_Parameters(tvb, offset, &asn1_ctx, tree, hf_ranap_Offload_RAB_Parameters_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_OldBSS_ToNewBSS_Information_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_OldBSS_ToNewBSS_Information(tvb, offset, &asn1_ctx, tree, hf_ranap_OldBSS_ToNewBSS_Information_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_OMC_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_OMC_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_OMC_ID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_PagingAreaID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_PagingAreaID(tvb, offset, &asn1_ctx, tree, hf_ranap_PagingAreaID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_PagingCause_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_PagingCause(tvb, offset, &asn1_ctx, tree, hf_ranap_PagingCause_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_PDP_TypeInformation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_PDP_TypeInformation(tvb, offset, &asn1_ctx, tree, hf_ranap_PDP_TypeInformation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_PDP_TypeInformation_extension_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_PDP_TypeInformation_extension(tvb, offset, &asn1_ctx, tree, hf_ranap_PDP_TypeInformation_extension_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_PeriodicLocationInfo_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_PeriodicLocationInfo(tvb, offset, &asn1_ctx, tree, hf_ranap_PeriodicLocationInfo_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_PermanentNAS_UE_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_PermanentNAS_UE_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_PermanentNAS_UE_ID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_PLMNidentity_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_PLMNidentity(tvb, offset, &asn1_ctx, tree, hf_ranap_PLMNidentity_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_PositioningPriority_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_PositioningPriority(tvb, offset, &asn1_ctx, tree, hf_ranap_PositioningPriority_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_PositionData_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_PositionData(tvb, offset, &asn1_ctx, tree, hf_ranap_PositionData_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_PositionDataSpecificToGERANIuMode_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_PositionDataSpecificToGERANIuMode(tvb, offset, &asn1_ctx, tree, hf_ranap_PositionDataSpecificToGERANIuMode_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Priority_Class_Indicator_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Priority_Class_Indicator(tvb, offset, &asn1_ctx, tree, hf_ranap_Priority_Class_Indicator_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ProvidedData_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ProvidedData(tvb, offset, &asn1_ctx, tree, hf_ranap_ProvidedData_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_Parameter_ExtendedGuaranteedBitrateList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_Parameter_ExtendedMaxBitrateList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_Parameter_ExtendedMaxBitrateList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_Parameter_ExtendedMaxBitrateList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_Parameters_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_Parameters(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_Parameters_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RABParametersList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RABParametersList(tvb, offset, &asn1_ctx, tree, hf_ranap_RABParametersList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAC_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAC(tvb, offset, &asn1_ctx, tree, hf_ranap_RAC_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAListofIdleModeUEs_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAListofIdleModeUEs(tvb, offset, &asn1_ctx, tree, hf_ranap_RAListofIdleModeUEs_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_LAListofIdleModeUEs_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_LAListofIdleModeUEs(tvb, offset, &asn1_ctx, tree, hf_ranap_LAListofIdleModeUEs_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAT_Type_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAT_Type(tvb, offset, &asn1_ctx, tree, hf_ranap_RAT_Type_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RedirectAttemptFlag_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RedirectAttemptFlag(tvb, offset, &asn1_ctx, tree, hf_ranap_RedirectAttemptFlag_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RedirectionCompleted_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RedirectionCompleted(tvb, offset, &asn1_ctx, tree, hf_ranap_RedirectionCompleted_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RejectCauseValue_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RejectCauseValue(tvb, offset, &asn1_ctx, tree, hf_ranap_RejectCauseValue_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RelocationType_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RelocationType(tvb, offset, &asn1_ctx, tree, hf_ranap_RelocationType_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RequestedGANSSAssistanceData_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RequestedGANSSAssistanceData(tvb, offset, &asn1_ctx, tree, hf_ranap_RequestedGANSSAssistanceData_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Requested_RAB_Parameter_ExtendedMaxBitrateList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Requested_RAB_Parameter_ExtendedMaxBitrateList(tvb, offset, &asn1_ctx, tree, hf_ranap_Requested_RAB_Parameter_ExtendedMaxBitrateList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList(tvb, offset, &asn1_ctx, tree, hf_ranap_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RequestType_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RequestType(tvb, offset, &asn1_ctx, tree, hf_ranap_RequestType_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ResponseTime_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ResponseTime(tvb, offset, &asn1_ctx, tree, hf_ranap_ResponseTime_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RNSAPRelocationParameters_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RNSAPRelocationParameters(tvb, offset, &asn1_ctx, tree, hf_ranap_RNSAPRelocationParameters_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RRC_Container_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RRC_Container(tvb, offset, &asn1_ctx, tree, hf_ranap_RRC_Container_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SAI_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SAI(tvb, offset, &asn1_ctx, tree, hf_ranap_SAI_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SAPI_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SAPI(tvb, offset, &asn1_ctx, tree, hf_ranap_SAPI_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SessionUpdateID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SessionUpdateID(tvb, offset, &asn1_ctx, tree, hf_ranap_SessionUpdateID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SignallingIndication_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SignallingIndication(tvb, offset, &asn1_ctx, tree, hf_ranap_SignallingIndication_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SNA_Access_Information_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SNA_Access_Information(tvb, offset, &asn1_ctx, tree, hf_ranap_SNA_Access_Information_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Source_ToTarget_TransparentContainer_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Source_ToTarget_TransparentContainer(tvb, offset, &asn1_ctx, tree, hf_ranap_Source_ToTarget_TransparentContainer_PDU); offset += 7; offset >>= 3; return offset; } int dissect_ranap_SourceCellID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SourceCellID(tvb, offset, &asn1_ctx, tree, hf_ranap_ranap_SourceCellID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SourceBSS_ToTargetBSS_TransparentContainer_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SourceBSS_ToTargetBSS_TransparentContainer(tvb, offset, &asn1_ctx, tree, hf_ranap_SourceBSS_ToTargetBSS_TransparentContainer_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SourceID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SourceID(tvb, offset, &asn1_ctx, tree, hf_ranap_SourceID_PDU); offset += 7; offset >>= 3; return offset; } int dissect_ranap_SourceRNC_ToTargetRNC_TransparentContainer_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SourceRNC_ToTargetRNC_TransparentContainer(tvb, offset, &asn1_ctx, tree, hf_ranap_ranap_SourceRNC_ToTargetRNC_TransparentContainer_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_IRAT_Measurement_Configuration_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_IRAT_Measurement_Configuration(tvb, offset, &asn1_ctx, tree, hf_ranap_IRAT_Measurement_Configuration_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SubscriberProfileIDforRFP_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SubscriberProfileIDforRFP(tvb, offset, &asn1_ctx, tree, hf_ranap_SubscriberProfileIDforRFP_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SupportedRAB_ParameterBitrateList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SupportedRAB_ParameterBitrateList(tvb, offset, &asn1_ctx, tree, hf_ranap_SupportedRAB_ParameterBitrateList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SRB_TrCH_Mapping_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SRB_TrCH_Mapping(tvb, offset, &asn1_ctx, tree, hf_ranap_SRB_TrCH_Mapping_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SRVCC_HO_Indication_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SRVCC_HO_Indication(tvb, offset, &asn1_ctx, tree, hf_ranap_SRVCC_HO_Indication_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SRVCC_Information_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SRVCC_Information(tvb, offset, &asn1_ctx, tree, hf_ranap_SRVCC_Information_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SRVCC_Operation_Possible_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SRVCC_Operation_Possible(tvb, offset, &asn1_ctx, tree, hf_ranap_SRVCC_Operation_Possible_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Target_ToSource_TransparentContainer_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Target_ToSource_TransparentContainer(tvb, offset, &asn1_ctx, tree, hf_ranap_Target_ToSource_TransparentContainer_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TargetBSS_ToSourceBSS_TransparentContainer_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TargetBSS_ToSourceBSS_TransparentContainer(tvb, offset, &asn1_ctx, tree, hf_ranap_TargetBSS_ToSourceBSS_TransparentContainer_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TargetID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TargetID(tvb, offset, &asn1_ctx, tree, hf_ranap_TargetID_PDU); offset += 7; offset >>= 3; return offset; } int dissect_ranap_TargetRNC_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TargetRNC_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_ranap_TargetRNC_ID_PDU); offset += 7; offset >>= 3; return offset; } int dissect_ranap_TargetRNC_ToSourceRNC_TransparentContainer_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TargetRNC_ToSourceRNC_TransparentContainer(tvb, offset, &asn1_ctx, tree, hf_ranap_ranap_TargetRNC_ToSourceRNC_TransparentContainer_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TemporaryUE_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TemporaryUE_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_TemporaryUE_ID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TimeToMBMSDataTransfer_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TimeToMBMSDataTransfer(tvb, offset, &asn1_ctx, tree, hf_ranap_TimeToMBMSDataTransfer_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TMGI_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TMGI(tvb, offset, &asn1_ctx, tree, hf_ranap_TMGI_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TracePropagationParameters_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TracePropagationParameters(tvb, offset, &asn1_ctx, tree, hf_ranap_TracePropagationParameters_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TraceRecordingSessionInformation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TraceRecordingSessionInformation(tvb, offset, &asn1_ctx, tree, hf_ranap_TraceRecordingSessionInformation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TraceReference_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TraceReference(tvb, offset, &asn1_ctx, tree, hf_ranap_TraceReference_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TraceType_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TraceType(tvb, offset, &asn1_ctx, tree, hf_ranap_TraceType_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TransportLayerAddress_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TransportLayerAddress(tvb, offset, &asn1_ctx, tree, hf_ranap_TransportLayerAddress_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TriggerID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TriggerID(tvb, offset, &asn1_ctx, tree, hf_ranap_TriggerID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TypeOfError_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TypeOfError(tvb, offset, &asn1_ctx, tree, hf_ranap_TypeOfError_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_UE_AggregateMaximumBitRate_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_UE_AggregateMaximumBitRate(tvb, offset, &asn1_ctx, tree, hf_ranap_UE_AggregateMaximumBitRate_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_UE_History_Information_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_UE_History_Information(tvb, offset, &asn1_ctx, tree, hf_ranap_UE_History_Information_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_UE_ID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_UE_ID(tvb, offset, &asn1_ctx, tree, hf_ranap_UE_ID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_UESBI_Iu_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_UESBI_Iu(tvb, offset, &asn1_ctx, tree, hf_ranap_UESBI_Iu_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_VelocityEstimate_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_VelocityEstimate(tvb, offset, &asn1_ctx, tree, hf_ranap_VelocityEstimate_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_VerticalAccuracyCode_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_VerticalAccuracyCode(tvb, offset, &asn1_ctx, tree, hf_ranap_VerticalAccuracyCode_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Iu_ReleaseCommand_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Iu_ReleaseCommand(tvb, offset, &asn1_ctx, tree, hf_ranap_Iu_ReleaseCommand_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Iu_ReleaseComplete_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Iu_ReleaseComplete(tvb, offset, &asn1_ctx, tree, hf_ranap_Iu_ReleaseComplete_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_DataVolumeReportList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_DataVolumeReportList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_DataVolumeReportList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_DataVolumeReportItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_DataVolumeReportItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_DataVolumeReportItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ReleasedList_IuRelComp_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ReleasedList_IuRelComp(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ReleasedList_IuRelComp_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ReleasedItem_IuRelComp_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ReleasedItem_IuRelComp(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ReleasedItem_IuRelComp_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RelocationRequired_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RelocationRequired(tvb, offset, &asn1_ctx, tree, hf_ranap_RelocationRequired_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RelocationCommand_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RelocationCommand(tvb, offset, &asn1_ctx, tree, hf_ranap_RelocationCommand_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_RelocationReleaseList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_RelocationReleaseList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_RelocationReleaseList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_RelocationReleaseItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_RelocationReleaseItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_RelocationReleaseItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_DataForwardingList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_DataForwardingList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_DataForwardingList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_DataForwardingItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_DataForwardingItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_DataForwardingItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RelocationPreparationFailure_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RelocationPreparationFailure(tvb, offset, &asn1_ctx, tree, hf_ranap_RelocationPreparationFailure_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RelocationRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RelocationRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_RelocationRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupList_RelocReq_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupList_RelocReq(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupList_RelocReq_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupItem_RelocReq_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupItem_RelocReq(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupItem_RelocReq_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_CNMBMSLinkingInformation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_CNMBMSLinkingInformation(tvb, offset, &asn1_ctx, tree, hf_ranap_CNMBMSLinkingInformation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_JoinedMBMSBearerService_IEs_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_JoinedMBMSBearerService_IEs(tvb, offset, &asn1_ctx, tree, hf_ranap_JoinedMBMSBearerService_IEs_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RelocationRequestAcknowledge_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RelocationRequestAcknowledge(tvb, offset, &asn1_ctx, tree, hf_ranap_RelocationRequestAcknowledge_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupList_RelocReqAck_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupList_RelocReqAck(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupList_RelocReqAck_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupItem_RelocReqAck_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupItem_RelocReqAck(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupItem_RelocReqAck_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_FailedList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_FailedList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_FailedList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_FailedItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_FailedItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_FailedItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RelocationFailure_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RelocationFailure(tvb, offset, &asn1_ctx, tree, hf_ranap_RelocationFailure_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RelocationCancel_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RelocationCancel(tvb, offset, &asn1_ctx, tree, hf_ranap_RelocationCancel_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RelocationCancelAcknowledge_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RelocationCancelAcknowledge(tvb, offset, &asn1_ctx, tree, hf_ranap_RelocationCancelAcknowledge_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SRNS_ContextRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SRNS_ContextRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_SRNS_ContextRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_DataForwardingList_SRNS_CtxReq_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_DataForwardingList_SRNS_CtxReq(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_DataForwardingList_SRNS_CtxReq_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_DataForwardingItem_SRNS_CtxReq_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_DataForwardingItem_SRNS_CtxReq(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_DataForwardingItem_SRNS_CtxReq_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SRNS_ContextResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SRNS_ContextResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_SRNS_ContextResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ContextList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ContextList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ContextList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ContextItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ContextItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ContextItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ContextFailedtoTransferList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ContextFailedtoTransferList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ContextFailedtoTransferList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RABs_ContextFailedtoTransferItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RABs_ContextFailedtoTransferItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RABs_ContextFailedtoTransferItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SecurityModeCommand_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SecurityModeCommand(tvb, offset, &asn1_ctx, tree, hf_ranap_SecurityModeCommand_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SecurityModeComplete_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SecurityModeComplete(tvb, offset, &asn1_ctx, tree, hf_ranap_SecurityModeComplete_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SecurityModeReject_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SecurityModeReject(tvb, offset, &asn1_ctx, tree, hf_ranap_SecurityModeReject_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_DataVolumeReportRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_DataVolumeReportRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_DataVolumeReportRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_DataVolumeReportRequestList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_DataVolumeReportRequestList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_DataVolumeReportRequestList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_DataVolumeReportRequestItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_DataVolumeReportRequestItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_DataVolumeReportRequestItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_DataVolumeReport_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_DataVolumeReport(tvb, offset, &asn1_ctx, tree, hf_ranap_DataVolumeReport_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_FailedtoReportList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_FailedtoReportList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_FailedtoReportList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RABs_failed_to_reportItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RABs_failed_to_reportItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RABs_failed_to_reportItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Reset_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Reset(tvb, offset, &asn1_ctx, tree, hf_ranap_Reset_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ResetAcknowledge_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ResetAcknowledge(tvb, offset, &asn1_ctx, tree, hf_ranap_ResetAcknowledge_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ResetResource_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ResetResource(tvb, offset, &asn1_ctx, tree, hf_ranap_ResetResource_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ResetResourceList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ResetResourceList(tvb, offset, &asn1_ctx, tree, hf_ranap_ResetResourceList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ResetResourceItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ResetResourceItem(tvb, offset, &asn1_ctx, tree, hf_ranap_ResetResourceItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ResetResourceAcknowledge_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ResetResourceAcknowledge(tvb, offset, &asn1_ctx, tree, hf_ranap_ResetResourceAcknowledge_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ResetResourceAckList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ResetResourceAckList(tvb, offset, &asn1_ctx, tree, hf_ranap_ResetResourceAckList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ResetResourceAckItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ResetResourceAckItem(tvb, offset, &asn1_ctx, tree, hf_ranap_ResetResourceAckItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ReleaseRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ReleaseRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ReleaseRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ReleaseList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ReleaseList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ReleaseList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ReleaseItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ReleaseItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ReleaseItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Iu_ReleaseRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Iu_ReleaseRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_Iu_ReleaseRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RelocationDetect_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RelocationDetect(tvb, offset, &asn1_ctx, tree, hf_ranap_RelocationDetect_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RelocationComplete_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RelocationComplete(tvb, offset, &asn1_ctx, tree, hf_ranap_RelocationComplete_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_EnhancedRelocationCompleteRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_EnhancedRelocationCompleteRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_EnhancedRelocationCompleteRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupList_EnhancedRelocCompleteReq_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupList_EnhancedRelocCompleteReq(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupList_EnhancedRelocCompleteReq_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupItem_EnhancedRelocCompleteReq_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupItem_EnhancedRelocCompleteReq(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupItem_EnhancedRelocCompleteReq_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_EnhancedRelocationCompleteResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_EnhancedRelocationCompleteResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_EnhancedRelocationCompleteResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupList_EnhancedRelocCompleteRes_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupList_EnhancedRelocCompleteRes(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupList_EnhancedRelocCompleteRes_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupItem_EnhancedRelocCompleteRes_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupItem_EnhancedRelocCompleteRes(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupItem_EnhancedRelocCompleteRes_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ToBeReleasedList_EnhancedRelocCompleteRes_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ToBeReleasedList_EnhancedRelocCompleteRes(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ToBeReleasedList_EnhancedRelocCompleteRes_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_EnhancedRelocationCompleteFailure_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_EnhancedRelocationCompleteFailure(tvb, offset, &asn1_ctx, tree, hf_ranap_EnhancedRelocationCompleteFailure_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_EnhancedRelocationCompleteConfirm_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_EnhancedRelocationCompleteConfirm(tvb, offset, &asn1_ctx, tree, hf_ranap_EnhancedRelocationCompleteConfirm_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Paging_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Paging(tvb, offset, &asn1_ctx, tree, hf_ranap_Paging_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_CommonID_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_CommonID(tvb, offset, &asn1_ctx, tree, hf_ranap_CommonID_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_CN_InvokeTrace_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_CN_InvokeTrace(tvb, offset, &asn1_ctx, tree, hf_ranap_CN_InvokeTrace_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_CN_DeactivateTrace_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_CN_DeactivateTrace(tvb, offset, &asn1_ctx, tree, hf_ranap_CN_DeactivateTrace_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_LocationReportingControl_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_LocationReportingControl(tvb, offset, &asn1_ctx, tree, hf_ranap_LocationReportingControl_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_LocationReport_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_LocationReport(tvb, offset, &asn1_ctx, tree, hf_ranap_LocationReport_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_InitialUE_Message_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InitialUE_Message(tvb, offset, &asn1_ctx, tree, hf_ranap_InitialUE_Message_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_DirectTransfer_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_DirectTransfer(tvb, offset, &asn1_ctx, tree, hf_ranap_DirectTransfer_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RedirectionIndication_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RedirectionIndication(tvb, offset, &asn1_ctx, tree, hf_ranap_RedirectionIndication_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_Overload_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_Overload(tvb, offset, &asn1_ctx, tree, hf_ranap_Overload_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ErrorIndication_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ErrorIndication(tvb, offset, &asn1_ctx, tree, hf_ranap_ErrorIndication_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SRNS_DataForwardCommand_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SRNS_DataForwardCommand(tvb, offset, &asn1_ctx, tree, hf_ranap_SRNS_DataForwardCommand_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_ForwardSRNS_Context_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_ForwardSRNS_Context(tvb, offset, &asn1_ctx, tree, hf_ranap_ForwardSRNS_Context_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_AssignmentRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_AssignmentRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_AssignmentRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupOrModifyList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupOrModifyList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupOrModifyList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupOrModifyItemFirst_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupOrModifyItemFirst(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupOrModifyItemFirst_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_TransportLayerInformation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_TransportLayerInformation(tvb, offset, &asn1_ctx, tree, hf_ranap_TransportLayerInformation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupOrModifyItemSecond_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupOrModifyItemSecond(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupOrModifyItemSecond_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_AssignmentResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_AssignmentResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_AssignmentResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupOrModifiedList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupOrModifiedList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupOrModifiedList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupOrModifiedItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupOrModifiedItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupOrModifiedItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ReleasedList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ReleasedList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ReleasedList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ReleasedItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ReleasedItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ReleasedItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_QueuedList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_QueuedList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_QueuedList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_QueuedItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_QueuedItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_QueuedItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ReleaseFailedList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ReleaseFailedList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ReleaseFailedList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_GERAN_Iumode_RAB_FailedList_RABAssgntResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_GERAN_Iumode_RAB_FailedList_RABAssgntResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_GERAN_Iumode_RAB_FailedList_RABAssgntResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item(tvb, offset, &asn1_ctx, tree, hf_ranap_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_PrivateMessage_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_PrivateMessage(tvb, offset, &asn1_ctx, tree, hf_ranap_PrivateMessage_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RANAP_RelocationInformation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RANAP_RelocationInformation(tvb, offset, &asn1_ctx, tree, hf_ranap_RANAP_RelocationInformation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_DirectTransferInformationList_RANAP_RelocInf_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_DirectTransferInformationList_RANAP_RelocInf(tvb, offset, &asn1_ctx, tree, hf_ranap_DirectTransferInformationList_RANAP_RelocInf_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_DirectTransferInformationItem_RANAP_RelocInf_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_DirectTransferInformationItem_RANAP_RelocInf(tvb, offset, &asn1_ctx, tree, hf_ranap_DirectTransferInformationItem_RANAP_RelocInf_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ContextList_RANAP_RelocInf_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ContextList_RANAP_RelocInf(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ContextList_RANAP_RelocInf_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ContextItem_RANAP_RelocInf_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ContextItem_RANAP_RelocInf(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ContextItem_RANAP_RelocInf_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RANAP_EnhancedRelocationInformationRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RANAP_EnhancedRelocationInformationRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_RANAP_EnhancedRelocationInformationRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupList_EnhRelocInfoReq_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupList_EnhRelocInfoReq(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupList_EnhRelocInfoReq_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupItem_EnhRelocInfoReq_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupItem_EnhRelocInfoReq(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupItem_EnhRelocInfoReq_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RANAP_EnhancedRelocationInformationResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RANAP_EnhancedRelocationInformationResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_RANAP_EnhancedRelocationInformationResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupList_EnhRelocInfoRes_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupList_EnhRelocInfoRes(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupList_EnhRelocInfoRes_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_SetupItem_EnhRelocInfoRes_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_SetupItem_EnhRelocInfoRes(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_SetupItem_EnhRelocInfoRes_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_FailedList_EnhRelocInfoRes_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_FailedList_EnhRelocInfoRes(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_FailedList_EnhRelocInfoRes_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_FailedItem_EnhRelocInfoRes_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_FailedItem_EnhRelocInfoRes(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_FailedItem_EnhRelocInfoRes_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ModifyRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ModifyRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ModifyRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ModifyList_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ModifyList(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ModifyList_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RAB_ModifyItem_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RAB_ModifyItem(tvb, offset, &asn1_ctx, tree, hf_ranap_RAB_ModifyItem_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_LocationRelatedDataRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_LocationRelatedDataRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_LocationRelatedDataRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_LocationRelatedDataResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_LocationRelatedDataResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_LocationRelatedDataResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_LocationRelatedDataFailure_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_LocationRelatedDataFailure(tvb, offset, &asn1_ctx, tree, hf_ranap_LocationRelatedDataFailure_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_InformationTransferIndication_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InformationTransferIndication(tvb, offset, &asn1_ctx, tree, hf_ranap_InformationTransferIndication_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_InformationTransferConfirmation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InformationTransferConfirmation(tvb, offset, &asn1_ctx, tree, hf_ranap_InformationTransferConfirmation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_InformationTransferFailure_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_InformationTransferFailure(tvb, offset, &asn1_ctx, tree, hf_ranap_InformationTransferFailure_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_UESpecificInformationIndication_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_UESpecificInformationIndication(tvb, offset, &asn1_ctx, tree, hf_ranap_UESpecificInformationIndication_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_DirectInformationTransfer_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_DirectInformationTransfer(tvb, offset, &asn1_ctx, tree, hf_ranap_DirectInformationTransfer_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_UplinkInformationExchangeRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_UplinkInformationExchangeRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_UplinkInformationExchangeRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_UplinkInformationExchangeResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_UplinkInformationExchangeResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_UplinkInformationExchangeResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_UplinkInformationExchangeFailure_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_UplinkInformationExchangeFailure(tvb, offset, &asn1_ctx, tree, hf_ranap_UplinkInformationExchangeFailure_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSessionStart_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSessionStart(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSessionStart_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSynchronisationInformation_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSynchronisationInformation(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSynchronisationInformation_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSessionStartResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSessionStartResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSessionStartResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSessionStartFailure_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSessionStartFailure(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSessionStartFailure_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSessionUpdate_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSessionUpdate(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSessionUpdate_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSessionUpdateResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSessionUpdateResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSessionUpdateResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSessionUpdateFailure_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSessionUpdateFailure(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSessionUpdateFailure_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSessionStop_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSessionStop(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSessionStop_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSSessionStopResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSSessionStopResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSSessionStopResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSUELinkingRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSUELinkingRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSUELinkingRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_LeftMBMSBearerService_IEs_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_LeftMBMSBearerService_IEs(tvb, offset, &asn1_ctx, tree, hf_ranap_LeftMBMSBearerService_IEs_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSUELinkingResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSUELinkingResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSUELinkingResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_UnsuccessfulLinking_IEs_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_UnsuccessfulLinking_IEs(tvb, offset, &asn1_ctx, tree, hf_ranap_UnsuccessfulLinking_IEs_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSRegistrationRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSRegistrationRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSRegistrationRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSRegistrationResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSRegistrationResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSRegistrationResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSRegistrationFailure_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSRegistrationFailure(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSRegistrationFailure_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSCNDe_RegistrationRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSCNDe_RegistrationRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSCNDe_RegistrationRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSCNDe_RegistrationResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSCNDe_RegistrationResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSCNDe_RegistrationResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSRABEstablishmentIndication_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSRABEstablishmentIndication(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSRABEstablishmentIndication_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSRABReleaseRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSRABReleaseRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSRABReleaseRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSRABRelease_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSRABRelease(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSRABRelease_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_MBMSRABReleaseFailure_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_MBMSRABReleaseFailure(tvb, offset, &asn1_ctx, tree, hf_ranap_MBMSRABReleaseFailure_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SRVCC_CSKeysRequest_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SRVCC_CSKeysRequest(tvb, offset, &asn1_ctx, tree, hf_ranap_SRVCC_CSKeysRequest_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_SRVCC_CSKeysResponse_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_SRVCC_CSKeysResponse(tvb, offset, &asn1_ctx, tree, hf_ranap_SRVCC_CSKeysResponse_PDU); offset += 7; offset >>= 3; return offset; } static int dissect_RANAP_PDU_PDU(tvbuff_t *tvb _U_, packet_info *pinfo _U_, proto_tree *tree _U_, void *data _U_) { int offset = 0; asn1_ctx_t asn1_ctx; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); offset = dissect_ranap_RANAP_PDU(tvb, offset, &asn1_ctx, tree, hf_ranap_RANAP_PDU_PDU); offset += 7; offset >>= 3; return offset; } /*--- End of included file: packet-ranap-fn.c ---*/ #line 144 "../../asn1/ranap/packet-ranap-template.c" static int dissect_ProtocolIEFieldValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { int ret = 0; int key; /* Special handling, same ID used for different IE's depending on signal */ switch(ProcedureCode){ case id_RelocationPreparation: if((ProtocolIE_ID == id_Source_ToTarget_TransparentContainer)||(ProtocolIE_ID == id_Target_ToSource_TransparentContainer)){ key = SPECIAL | ProtocolIE_ID; ret = (dissector_try_uint_new(ranap_ies_dissector_table, key, tvb, pinfo, tree, FALSE, NULL)) ? tvb_length(tvb) : 0; break; } /* Fall trough */ default: /* no special handling */ ret = (dissector_try_uint_new(ranap_ies_dissector_table, ProtocolIE_ID, tvb, pinfo, tree, FALSE, NULL)) ? tvb_length(tvb) : 0; if (ret == 0) { key = pdu_type | ProtocolIE_ID; ret = (dissector_try_uint_new(ranap_ies_dissector_table, key, tvb, pinfo, tree, FALSE, NULL)) ? tvb_length(tvb) : 0; } break; } return ret; } static int dissect_ProtocolIEFieldPairFirstValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { return (dissector_try_uint_new(ranap_ies_p1_dissector_table, ProtocolIE_ID, tvb, pinfo, tree, FALSE, NULL)) ? tvb_length(tvb) : 0; } static int dissect_ProtocolIEFieldPairSecondValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { return (dissector_try_uint_new(ranap_ies_p2_dissector_table, ProtocolIE_ID, tvb, pinfo, tree, FALSE, NULL)) ? tvb_length(tvb) : 0; } static int dissect_ProtocolExtensionFieldExtensionValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { return (dissector_try_uint_new(ranap_extension_dissector_table, ProtocolExtensionID, tvb, pinfo, tree, FALSE, NULL)) ? tvb_length(tvb) : 0; } static int dissect_InitiatingMessageValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { gboolean ret; pdu_type = IMSG; ret = dissector_try_uint_new(ranap_proc_imsg_dissector_table, ProcedureCode, tvb, pinfo, tree, FALSE, NULL); pdu_type = 0; return ret ? tvb_length(tvb) : 0; } static int dissect_SuccessfulOutcomeValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { gboolean ret; pdu_type = SOUT; ret = dissector_try_uint_new(ranap_proc_sout_dissector_table, ProcedureCode, tvb, pinfo, tree, FALSE, NULL); pdu_type = 0; return ret ? tvb_length(tvb) : 0; } static int dissect_UnsuccessfulOutcomeValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { return (dissector_try_uint_new(ranap_proc_uout_dissector_table, ProcedureCode, tvb, pinfo, tree, FALSE, NULL)) ? tvb_length(tvb) : 0; } static int dissect_OutcomeValue(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { return (dissector_try_uint_new(ranap_proc_out_dissector_table, ProcedureCode, tvb, pinfo, tree, FALSE, NULL)) ? tvb_length(tvb) : 0; } static void dissect_ranap(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree) { proto_item *ranap_item = NULL; proto_tree *ranap_tree = NULL; pdu_type = 0; ProtocolIE_ID = 0; /* make entry in the Protocol column on summary display */ col_set_str(pinfo->cinfo, COL_PROTOCOL, "RANAP"); /* create the ranap protocol tree */ ranap_item = proto_tree_add_item(tree, proto_ranap, tvb, 0, -1, ENC_NA); ranap_tree = proto_item_add_subtree(ranap_item, ett_ranap); dissect_RANAP_PDU_PDU(tvb, pinfo, ranap_tree, NULL); if (pinfo->sccp_info) { sccp_msg_info_t* sccp_msg_lcl = pinfo->sccp_info; if (sccp_msg_lcl->data.co.assoc) sccp_msg_lcl->data.co.assoc->payload = SCCP_PLOAD_RANAP; if (! sccp_msg_lcl->data.co.label && ProcedureCode != 0xFFFFFFFF) { const gchar* str = val_to_str(ProcedureCode, ranap_ProcedureCode_vals,"Unknown RANAP"); sccp_msg_lcl->data.co.label = wmem_strdup(wmem_file_scope(), str); } } } static gboolean dissect_sccp_ranap_heur(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree, void *data _U_) { guint8 temp; asn1_ctx_t asn1_ctx; guint length; int offset; asn1_ctx_init(&asn1_ctx, ASN1_ENC_PER, TRUE, pinfo); /* Is it a ranap packet? * * 4th octet should be the length of the rest of the message. * 2nd octet is the message-type e Z[0, 28] * (obviously there must be at least four octets) * * If both hold true we'll assume its RANAP */ #define LENGTH_OFFSET 3 #define MSG_TYPE_OFFSET 1 if (tvb_length(tvb) < 4) { return FALSE; } /*if (tvb_get_guint8(tvb, LENGTH_OFFSET) != (tvb_length(tvb) - 4)) { return FALSE; }*/ /* Read the length NOTE offset in bits */ offset = dissect_per_length_determinant(tvb, LENGTH_OFFSET<<3, &asn1_ctx, tree, -1, &length); offset = offset>>3; if (length!= (tvb_length(tvb) - offset)){ return FALSE; } temp = tvb_get_guint8(tvb, MSG_TYPE_OFFSET); if (temp > RANAP_MAX_PC) { return FALSE; } dissect_ranap(tvb, pinfo, tree); return TRUE; } /*--- proto_register_ranap -------------------------------------------*/ void proto_register_ranap(void) { module_t *ranap_module; /* List of fields */ static hf_register_info hf[] = { { &hf_ranap_imsi_digits, { "IMSI digits", "ranap.imsi_digits", FT_STRING, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_transportLayerAddress_ipv4, { "transportLayerAddress IPv4", "ranap.transportLayerAddress_ipv4", FT_IPv4, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_transportLayerAddress_ipv6, { "transportLayerAddress IPv6", "ranap.transportLayerAddress_ipv6", FT_IPv6, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_transportLayerAddress_nsap, { "transportLayerAddress NSAP", "ranap.transportLayerAddress_NSAP", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, /*--- Included file: packet-ranap-hfarr.c ---*/ #line 1 "../../asn1/ranap/packet-ranap-hfarr.c" { &hf_ranap_AccuracyFulfilmentIndicator_PDU, { "AccuracyFulfilmentIndicator", "ranap.AccuracyFulfilmentIndicator", FT_UINT32, BASE_DEC, VALS(ranap_AccuracyFulfilmentIndicator_vals), 0, NULL, HFILL }}, { &hf_ranap_Alt_RAB_Parameters_PDU, { "Alt-RAB-Parameters", "ranap.Alt_RAB_Parameters_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf_PDU, { "Alt-RAB-Parameter-ExtendedGuaranteedBitrateInf", "ranap.Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf_PDU, { "Alt-RAB-Parameter-SupportedGuaranteedBitrateInf", "ranap.Alt_RAB_Parameter_SupportedGuaranteedBitrateInf_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateInf_PDU, { "Alt-RAB-Parameter-ExtendedMaxBitrateInf", "ranap.Alt_RAB_Parameter_ExtendedMaxBitrateInf_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Alt_RAB_Parameter_SupportedMaxBitrateInf_PDU, { "Alt-RAB-Parameter-SupportedMaxBitrateInf", "ranap.Alt_RAB_Parameter_SupportedMaxBitrateInf_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_AlternativeRABConfigurationRequest_PDU, { "AlternativeRABConfigurationRequest", "ranap.AlternativeRABConfigurationRequest", FT_UINT32, BASE_DEC, VALS(ranap_AlternativeRABConfigurationRequest_vals), 0, NULL, HFILL }}, { &hf_ranap_APN_PDU, { "APN", "ranap.APN", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_AreaIdentity_PDU, { "AreaIdentity", "ranap.AreaIdentity", FT_UINT32, BASE_DEC, VALS(ranap_AreaIdentity_vals), 0, NULL, HFILL }}, { &hf_ranap_Ass_RAB_Parameters_PDU, { "Ass-RAB-Parameters", "ranap.Ass_RAB_Parameters_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU, { "Ass-RAB-Parameter-ExtendedGuaranteedBitrateList", "ranap.Ass_RAB_Parameter_ExtendedGuaranteedBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Ass_RAB_Parameter_ExtendedMaxBitrateList_PDU, { "Ass-RAB-Parameter-ExtendedMaxBitrateList", "ranap.Ass_RAB_Parameter_ExtendedMaxBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_BroadcastAssistanceDataDecipheringKeys_PDU, { "BroadcastAssistanceDataDecipheringKeys", "ranap.BroadcastAssistanceDataDecipheringKeys_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Cause_PDU, { "Cause", "ranap.Cause", FT_UINT32, BASE_DEC, VALS(ranap_Cause_vals), 0, NULL, HFILL }}, { &hf_ranap_Cell_Access_Mode_PDU, { "Cell-Access-Mode", "ranap.Cell_Access_Mode", FT_UINT32, BASE_DEC, VALS(ranap_Cell_Access_Mode_vals), 0, NULL, HFILL }}, { &hf_ranap_CellLoadInformationGroup_PDU, { "CellLoadInformationGroup", "ranap.CellLoadInformationGroup_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ClientType_PDU, { "ClientType", "ranap.ClientType", FT_UINT32, BASE_DEC, VALS(ranap_ClientType_vals), 0, NULL, HFILL }}, { &hf_ranap_CriticalityDiagnostics_PDU, { "CriticalityDiagnostics", "ranap.CriticalityDiagnostics_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MessageStructure_PDU, { "MessageStructure", "ranap.MessageStructure", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_ChosenEncryptionAlgorithm_PDU, { "ChosenEncryptionAlgorithm", "ranap.ChosenEncryptionAlgorithm", FT_UINT32, BASE_DEC, VALS(ranap_EncryptionAlgorithm_vals), 0, NULL, HFILL }}, { &hf_ranap_ChosenIntegrityProtectionAlgorithm_PDU, { "ChosenIntegrityProtectionAlgorithm", "ranap.ChosenIntegrityProtectionAlgorithm", FT_UINT32, BASE_DEC, VALS(ranap_IntegrityProtectionAlgorithm_vals), 0, NULL, HFILL }}, { &hf_ranap_ClassmarkInformation2_PDU, { "ClassmarkInformation2", "ranap.ClassmarkInformation2", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ClassmarkInformation3_PDU, { "ClassmarkInformation3", "ranap.ClassmarkInformation3", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_CN_DomainIndicator_PDU, { "CN-DomainIndicator", "ranap.CN_DomainIndicator", FT_UINT32, BASE_DEC, VALS(ranap_CN_DomainIndicator_vals), 0, NULL, HFILL }}, { &hf_ranap_Correlation_ID_PDU, { "Correlation-ID", "ranap.Correlation_ID", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_CSFB_Information_PDU, { "CSFB-Information", "ranap.CSFB_Information", FT_UINT32, BASE_DEC, VALS(ranap_CSFB_Information_vals), 0, NULL, HFILL }}, { &hf_ranap_CSG_Id_PDU, { "CSG-Id", "ranap.CSG_Id", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_CSG_Id_List_PDU, { "CSG-Id-List", "ranap.CSG_Id_List", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_CSG_Membership_Status_PDU, { "CSG-Membership-Status", "ranap.CSG_Membership_Status", FT_UINT32, BASE_DEC, VALS(ranap_CSG_Membership_Status_vals), 0, NULL, HFILL }}, { &hf_ranap_DeltaRAListofIdleModeUEs_PDU, { "DeltaRAListofIdleModeUEs", "ranap.DeltaRAListofIdleModeUEs_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_DRX_CycleLengthCoefficient_PDU, { "DRX-CycleLengthCoefficient", "ranap.DRX_CycleLengthCoefficient", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_E_DCH_MAC_d_Flow_ID_PDU, { "E-DCH-MAC-d-Flow-ID", "ranap.E_DCH_MAC_d_Flow_ID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_EncryptionInformation_PDU, { "EncryptionInformation", "ranap.EncryptionInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_EncryptionKey_PDU, { "EncryptionKey", "ranap.EncryptionKey", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_End_Of_CSFB_PDU, { "End-Of-CSFB", "ranap.End_Of_CSFB", FT_UINT32, BASE_DEC, VALS(ranap_End_Of_CSFB_vals), 0, NULL, HFILL }}, { &hf_ranap_E_UTRAN_Service_Handover_PDU, { "E-UTRAN-Service-Handover", "ranap.E_UTRAN_Service_Handover", FT_UINT32, BASE_DEC, VALS(ranap_E_UTRAN_Service_Handover_vals), 0, NULL, HFILL }}, { &hf_ranap_ExtendedRNC_ID_PDU, { "ExtendedRNC-ID", "ranap.ExtendedRNC_ID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_FrequenceLayerConvergenceFlag_PDU, { "FrequenceLayerConvergenceFlag", "ranap.FrequenceLayerConvergenceFlag", FT_UINT32, BASE_DEC, VALS(ranap_FrequenceLayerConvergenceFlag_vals), 0, NULL, HFILL }}, { &hf_ranap_GANSS_PositioningDataSet_PDU, { "GANSS-PositioningDataSet", "ranap.GANSS_PositioningDataSet", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_GERAN_BSC_Container_PDU, { "GERAN-BSC-Container", "ranap.GERAN_BSC_Container", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_GERAN_Classmark_PDU, { "GERAN-Classmark", "ranap.GERAN_Classmark", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_GlobalCN_ID_PDU, { "GlobalCN-ID", "ranap.GlobalCN_ID_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_GlobalRNC_ID_PDU, { "GlobalRNC-ID", "ranap.GlobalRNC_ID_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_HigherBitratesThan16MbpsFlag_PDU, { "HigherBitratesThan16MbpsFlag", "ranap.HigherBitratesThan16MbpsFlag", FT_UINT32, BASE_DEC, VALS(ranap_HigherBitratesThan16MbpsFlag_vals), 0, NULL, HFILL }}, { &hf_ranap_HS_DSCH_MAC_d_Flow_ID_PDU, { "HS-DSCH-MAC-d-Flow-ID", "ranap.HS_DSCH_MAC_d_Flow_ID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_IncludeVelocity_PDU, { "IncludeVelocity", "ranap.IncludeVelocity", FT_UINT32, BASE_DEC, VALS(ranap_IncludeVelocity_vals), 0, NULL, HFILL }}, { &hf_ranap_InformationExchangeID_PDU, { "InformationExchangeID", "ranap.InformationExchangeID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_InformationExchangeType_PDU, { "InformationExchangeType", "ranap.InformationExchangeType", FT_UINT32, BASE_DEC, VALS(ranap_InformationExchangeType_vals), 0, NULL, HFILL }}, { &hf_ranap_InformationRequested_PDU, { "InformationRequested", "ranap.InformationRequested", FT_UINT32, BASE_DEC, VALS(ranap_InformationRequested_vals), 0, NULL, HFILL }}, { &hf_ranap_InformationRequestType_PDU, { "InformationRequestType", "ranap.InformationRequestType", FT_UINT32, BASE_DEC, VALS(ranap_InformationRequestType_vals), 0, NULL, HFILL }}, { &hf_ranap_InformationTransferID_PDU, { "InformationTransferID", "ranap.InformationTransferID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_InformationTransferType_PDU, { "InformationTransferType", "ranap.InformationTransferType", FT_UINT32, BASE_DEC, VALS(ranap_InformationTransferType_vals), 0, NULL, HFILL }}, { &hf_ranap_IntegrityProtectionInformation_PDU, { "IntegrityProtectionInformation", "ranap.IntegrityProtectionInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_IntegrityProtectionKey_PDU, { "IntegrityProtectionKey", "ranap.IntegrityProtectionKey", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_InterSystemInformationTransferType_PDU, { "InterSystemInformationTransferType", "ranap.InterSystemInformationTransferType", FT_UINT32, BASE_DEC, VALS(ranap_InterSystemInformationTransferType_vals), 0, NULL, HFILL }}, { &hf_ranap_ranap_InterSystemInformation_TransparentContainer_PDU, { "InterSystemInformation-TransparentContainer", "ranap.InterSystemInformation_TransparentContainer_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_IPMulticastAddress_PDU, { "IPMulticastAddress", "ranap.IPMulticastAddress", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_IuSignallingConnectionIdentifier_PDU, { "IuSignallingConnectionIdentifier", "ranap.IuSignallingConnectionIdentifier", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_IuTransportAssociation_PDU, { "IuTransportAssociation", "ranap.IuTransportAssociation", FT_UINT32, BASE_DEC, VALS(ranap_IuTransportAssociation_vals), 0, NULL, HFILL }}, { &hf_ranap_KeyStatus_PDU, { "KeyStatus", "ranap.KeyStatus", FT_UINT32, BASE_DEC, VALS(ranap_KeyStatus_vals), 0, NULL, HFILL }}, { &hf_ranap_LAI_PDU, { "LAI", "ranap.LAI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_LastKnownServiceArea_PDU, { "LastKnownServiceArea", "ranap.LastKnownServiceArea_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_LocationRelatedDataRequestType_PDU, { "LocationRelatedDataRequestType", "ranap.LocationRelatedDataRequestType_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_LocationRelatedDataRequestTypeSpecificToGERANIuMode_PDU, { "LocationRelatedDataRequestTypeSpecificToGERANIuMode", "ranap.LocationRelatedDataRequestTypeSpecificToGERANIuMode", FT_UINT32, BASE_DEC, VALS(ranap_LocationRelatedDataRequestTypeSpecificToGERANIuMode_vals), 0, NULL, HFILL }}, { &hf_ranap_L3_Information_PDU, { "L3-Information", "ranap.L3_Information", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Management_Based_MDT_Allowed_PDU, { "Management-Based-MDT-Allowed", "ranap.Management_Based_MDT_Allowed", FT_UINT32, BASE_DEC, VALS(ranap_Management_Based_MDT_Allowed_vals), 0, NULL, HFILL }}, { &hf_ranap_MBMSBearerServiceType_PDU, { "MBMSBearerServiceType", "ranap.MBMSBearerServiceType", FT_UINT32, BASE_DEC, VALS(ranap_MBMSBearerServiceType_vals), 0, NULL, HFILL }}, { &hf_ranap_MBMSCNDe_Registration_PDU, { "MBMSCNDe-Registration", "ranap.MBMSCNDe_Registration", FT_UINT32, BASE_DEC, VALS(ranap_MBMSCNDe_Registration_vals), 0, NULL, HFILL }}, { &hf_ranap_MBMSCountingInformation_PDU, { "MBMSCountingInformation", "ranap.MBMSCountingInformation", FT_UINT32, BASE_DEC, VALS(ranap_MBMSCountingInformation_vals), 0, NULL, HFILL }}, { &hf_ranap_MBMSLinkingInformation_PDU, { "MBMSLinkingInformation", "ranap.MBMSLinkingInformation", FT_UINT32, BASE_DEC, VALS(ranap_MBMSLinkingInformation_vals), 0, NULL, HFILL }}, { &hf_ranap_MBMSRegistrationRequestType_PDU, { "MBMSRegistrationRequestType", "ranap.MBMSRegistrationRequestType", FT_UINT32, BASE_DEC, VALS(ranap_MBMSRegistrationRequestType_vals), 0, NULL, HFILL }}, { &hf_ranap_MBMSServiceArea_PDU, { "MBMSServiceArea", "ranap.MBMSServiceArea", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSessionDuration_PDU, { "MBMSSessionDuration", "ranap.MBMSSessionDuration", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSessionIdentity_PDU, { "MBMSSessionIdentity", "ranap.MBMSSessionIdentity", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSessionRepetitionNumber_PDU, { "MBMSSessionRepetitionNumber", "ranap.MBMSSessionRepetitionNumber", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MDT_Configuration_PDU, { "MDT-Configuration", "ranap.MDT_Configuration_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MSISDN_PDU, { "MSISDN", "ranap.MSISDN", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_NAS_PDU_PDU, { "NAS-PDU", "ranap.NAS_PDU", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_NAS_SequenceNumber_PDU, { "NAS-SequenceNumber", "ranap.NAS_SequenceNumber", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_NewBSS_To_OldBSS_Information_PDU, { "NewBSS-To-OldBSS-Information", "ranap.NewBSS_To_OldBSS_Information", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_NonSearchingIndication_PDU, { "NonSearchingIndication", "ranap.NonSearchingIndication", FT_UINT32, BASE_DEC, VALS(ranap_NonSearchingIndication_vals), 0, NULL, HFILL }}, { &hf_ranap_NumberOfSteps_PDU, { "NumberOfSteps", "ranap.NumberOfSteps", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Offload_RAB_Parameters_PDU, { "Offload-RAB-Parameters", "ranap.Offload_RAB_Parameters_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_OldBSS_ToNewBSS_Information_PDU, { "OldBSS-ToNewBSS-Information", "ranap.OldBSS_ToNewBSS_Information", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_OMC_ID_PDU, { "OMC-ID", "ranap.OMC_ID", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_PagingAreaID_PDU, { "PagingAreaID", "ranap.PagingAreaID", FT_UINT32, BASE_DEC, VALS(ranap_PagingAreaID_vals), 0, NULL, HFILL }}, { &hf_ranap_PagingCause_PDU, { "PagingCause", "ranap.PagingCause", FT_UINT32, BASE_DEC, VALS(ranap_PagingCause_vals), 0, NULL, HFILL }}, { &hf_ranap_PDP_TypeInformation_PDU, { "PDP-TypeInformation", "ranap.PDP_TypeInformation", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_PDP_TypeInformation_extension_PDU, { "PDP-TypeInformation-extension", "ranap.PDP_TypeInformation_extension", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_PeriodicLocationInfo_PDU, { "PeriodicLocationInfo", "ranap.PeriodicLocationInfo_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_PermanentNAS_UE_ID_PDU, { "PermanentNAS-UE-ID", "ranap.PermanentNAS_UE_ID", FT_UINT32, BASE_DEC, VALS(ranap_PermanentNAS_UE_ID_vals), 0, NULL, HFILL }}, { &hf_ranap_PLMNidentity_PDU, { "PLMNidentity", "ranap.PLMNidentity", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_PositioningPriority_PDU, { "PositioningPriority", "ranap.PositioningPriority", FT_UINT32, BASE_DEC, VALS(ranap_PositioningPriority_vals), 0, NULL, HFILL }}, { &hf_ranap_PositionData_PDU, { "PositionData", "ranap.PositionData_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_PositionDataSpecificToGERANIuMode_PDU, { "PositionDataSpecificToGERANIuMode", "ranap.PositionDataSpecificToGERANIuMode", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Priority_Class_Indicator_PDU, { "Priority-Class-Indicator", "ranap.Priority_Class_Indicator", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ProvidedData_PDU, { "ProvidedData", "ranap.ProvidedData", FT_UINT32, BASE_DEC, VALS(ranap_ProvidedData_vals), 0, NULL, HFILL }}, { &hf_ranap_RAB_ID_PDU, { "RAB-ID", "ranap.RAB_ID", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU, { "RAB-Parameter-ExtendedGuaranteedBitrateList", "ranap.RAB_Parameter_ExtendedGuaranteedBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_Parameter_ExtendedMaxBitrateList_PDU, { "RAB-Parameter-ExtendedMaxBitrateList", "ranap.RAB_Parameter_ExtendedMaxBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_Parameters_PDU, { "RAB-Parameters", "ranap.RAB_Parameters_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RABParametersList_PDU, { "RABParametersList", "ranap.RABParametersList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAC_PDU, { "RAC", "ranap.RAC", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAListofIdleModeUEs_PDU, { "RAListofIdleModeUEs", "ranap.RAListofIdleModeUEs", FT_UINT32, BASE_DEC, VALS(ranap_RAListofIdleModeUEs_vals), 0, NULL, HFILL }}, { &hf_ranap_LAListofIdleModeUEs_PDU, { "LAListofIdleModeUEs", "ranap.LAListofIdleModeUEs", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAT_Type_PDU, { "RAT-Type", "ranap.RAT_Type", FT_UINT32, BASE_DEC, VALS(ranap_RAT_Type_vals), 0, NULL, HFILL }}, { &hf_ranap_RedirectAttemptFlag_PDU, { "RedirectAttemptFlag", "ranap.RedirectAttemptFlag_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RedirectionCompleted_PDU, { "RedirectionCompleted", "ranap.RedirectionCompleted", FT_UINT32, BASE_DEC, VALS(ranap_RedirectionCompleted_vals), 0, NULL, HFILL }}, { &hf_ranap_RejectCauseValue_PDU, { "RejectCauseValue", "ranap.RejectCauseValue", FT_UINT32, BASE_DEC, VALS(ranap_RejectCauseValue_vals), 0, NULL, HFILL }}, { &hf_ranap_RelocationType_PDU, { "RelocationType", "ranap.RelocationType", FT_UINT32, BASE_DEC, VALS(ranap_RelocationType_vals), 0, NULL, HFILL }}, { &hf_ranap_RequestedGANSSAssistanceData_PDU, { "RequestedGANSSAssistanceData", "ranap.RequestedGANSSAssistanceData", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Requested_RAB_Parameter_ExtendedMaxBitrateList_PDU, { "Requested-RAB-Parameter-ExtendedMaxBitrateList", "ranap.Requested_RAB_Parameter_ExtendedMaxBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU, { "Requested-RAB-Parameter-ExtendedGuaranteedBitrateList", "ranap.Requested_RAB_Parameter_ExtendedGuaranteedBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RequestType_PDU, { "RequestType", "ranap.RequestType_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ResponseTime_PDU, { "ResponseTime", "ranap.ResponseTime", FT_UINT32, BASE_DEC, VALS(ranap_ResponseTime_vals), 0, NULL, HFILL }}, { &hf_ranap_RNSAPRelocationParameters_PDU, { "RNSAPRelocationParameters", "ranap.RNSAPRelocationParameters_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RRC_Container_PDU, { "RRC-Container", "ranap.RRC_Container", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SAI_PDU, { "SAI", "ranap.SAI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SAPI_PDU, { "SAPI", "ranap.SAPI", FT_UINT32, BASE_DEC, VALS(ranap_SAPI_vals), 0, NULL, HFILL }}, { &hf_ranap_SessionUpdateID_PDU, { "SessionUpdateID", "ranap.SessionUpdateID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_SignallingIndication_PDU, { "SignallingIndication", "ranap.SignallingIndication", FT_UINT32, BASE_DEC, VALS(ranap_SignallingIndication_vals), 0, NULL, HFILL }}, { &hf_ranap_SNA_Access_Information_PDU, { "SNA-Access-Information", "ranap.SNA_Access_Information_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Source_ToTarget_TransparentContainer_PDU, { "Source-ToTarget-TransparentContainer", "ranap.Source_ToTarget_TransparentContainer", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ranap_SourceCellID_PDU, { "SourceCellID", "ranap.SourceCellID", FT_UINT32, BASE_DEC, VALS(ranap_SourceCellID_vals), 0, NULL, HFILL }}, { &hf_ranap_SourceBSS_ToTargetBSS_TransparentContainer_PDU, { "SourceBSS-ToTargetBSS-TransparentContainer", "ranap.SourceBSS_ToTargetBSS_TransparentContainer", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SourceID_PDU, { "SourceID", "ranap.SourceID", FT_UINT32, BASE_DEC, VALS(ranap_SourceID_vals), 0, NULL, HFILL }}, { &hf_ranap_ranap_SourceRNC_ToTargetRNC_TransparentContainer_PDU, { "SourceRNC-ToTargetRNC-TransparentContainer", "ranap.SourceRNC_ToTargetRNC_TransparentContainer_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_IRAT_Measurement_Configuration_PDU, { "IRAT-Measurement-Configuration", "ranap.IRAT_Measurement_Configuration_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SubscriberProfileIDforRFP_PDU, { "SubscriberProfileIDforRFP", "ranap.SubscriberProfileIDforRFP", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_SupportedRAB_ParameterBitrateList_PDU, { "SupportedRAB-ParameterBitrateList", "ranap.SupportedRAB_ParameterBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_SRB_TrCH_Mapping_PDU, { "SRB-TrCH-Mapping", "ranap.SRB_TrCH_Mapping", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_SRVCC_HO_Indication_PDU, { "SRVCC-HO-Indication", "ranap.SRVCC_HO_Indication", FT_UINT32, BASE_DEC, VALS(ranap_SRVCC_HO_Indication_vals), 0, NULL, HFILL }}, { &hf_ranap_SRVCC_Information_PDU, { "SRVCC-Information", "ranap.SRVCC_Information_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SRVCC_Operation_Possible_PDU, { "SRVCC-Operation-Possible", "ranap.SRVCC_Operation_Possible", FT_UINT32, BASE_DEC, VALS(ranap_SRVCC_Operation_Possible_vals), 0, NULL, HFILL }}, { &hf_ranap_Target_ToSource_TransparentContainer_PDU, { "Target-ToSource-TransparentContainer", "ranap.Target_ToSource_TransparentContainer", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TargetBSS_ToSourceBSS_TransparentContainer_PDU, { "TargetBSS-ToSourceBSS-TransparentContainer", "ranap.TargetBSS_ToSourceBSS_TransparentContainer", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TargetID_PDU, { "TargetID", "ranap.TargetID", FT_UINT32, BASE_DEC, VALS(ranap_TargetID_vals), 0, NULL, HFILL }}, { &hf_ranap_ranap_TargetRNC_ID_PDU, { "TargetRNC-ID", "ranap.TargetRNC_ID_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ranap_TargetRNC_ToSourceRNC_TransparentContainer_PDU, { "TargetRNC-ToSourceRNC-TransparentContainer", "ranap.TargetRNC_ToSourceRNC_TransparentContainer_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TemporaryUE_ID_PDU, { "TemporaryUE-ID", "ranap.TemporaryUE_ID", FT_UINT32, BASE_DEC, VALS(ranap_TemporaryUE_ID_vals), 0, NULL, HFILL }}, { &hf_ranap_TimeToMBMSDataTransfer_PDU, { "TimeToMBMSDataTransfer", "ranap.TimeToMBMSDataTransfer", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TMGI_PDU, { "TMGI", "ranap.TMGI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TracePropagationParameters_PDU, { "TracePropagationParameters", "ranap.TracePropagationParameters_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TraceRecordingSessionInformation_PDU, { "TraceRecordingSessionInformation", "ranap.TraceRecordingSessionInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TraceReference_PDU, { "TraceReference", "ranap.TraceReference", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TraceType_PDU, { "TraceType", "ranap.TraceType", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TransportLayerAddress_PDU, { "TransportLayerAddress", "ranap.TransportLayerAddress", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TriggerID_PDU, { "TriggerID", "ranap.TriggerID", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TypeOfError_PDU, { "TypeOfError", "ranap.TypeOfError", FT_UINT32, BASE_DEC, VALS(ranap_TypeOfError_vals), 0, NULL, HFILL }}, { &hf_ranap_UE_AggregateMaximumBitRate_PDU, { "UE-AggregateMaximumBitRate", "ranap.UE_AggregateMaximumBitRate_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_UE_History_Information_PDU, { "UE-History-Information", "ranap.UE_History_Information", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_UE_ID_PDU, { "UE-ID", "ranap.UE_ID", FT_UINT32, BASE_DEC, VALS(ranap_UE_ID_vals), 0, NULL, HFILL }}, { &hf_ranap_UESBI_Iu_PDU, { "UESBI-Iu", "ranap.UESBI_Iu_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_VelocityEstimate_PDU, { "VelocityEstimate", "ranap.VelocityEstimate", FT_UINT32, BASE_DEC, VALS(ranap_VelocityEstimate_vals), 0, NULL, HFILL }}, { &hf_ranap_VerticalAccuracyCode_PDU, { "VerticalAccuracyCode", "ranap.VerticalAccuracyCode", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Iu_ReleaseCommand_PDU, { "Iu-ReleaseCommand", "ranap.Iu_ReleaseCommand_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Iu_ReleaseComplete_PDU, { "Iu-ReleaseComplete", "ranap.Iu_ReleaseComplete_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_DataVolumeReportList_PDU, { "RAB-DataVolumeReportList", "ranap.RAB_DataVolumeReportList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_DataVolumeReportItem_PDU, { "RAB-DataVolumeReportItem", "ranap.RAB_DataVolumeReportItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ReleasedList_IuRelComp_PDU, { "RAB-ReleasedList-IuRelComp", "ranap.RAB_ReleasedList_IuRelComp", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ReleasedItem_IuRelComp_PDU, { "RAB-ReleasedItem-IuRelComp", "ranap.RAB_ReleasedItem_IuRelComp_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RelocationRequired_PDU, { "RelocationRequired", "ranap.RelocationRequired_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RelocationCommand_PDU, { "RelocationCommand", "ranap.RelocationCommand_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_RelocationReleaseList_PDU, { "RAB-RelocationReleaseList", "ranap.RAB_RelocationReleaseList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_RelocationReleaseItem_PDU, { "RAB-RelocationReleaseItem", "ranap.RAB_RelocationReleaseItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_DataForwardingList_PDU, { "RAB-DataForwardingList", "ranap.RAB_DataForwardingList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_DataForwardingItem_PDU, { "RAB-DataForwardingItem", "ranap.RAB_DataForwardingItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RelocationPreparationFailure_PDU, { "RelocationPreparationFailure", "ranap.RelocationPreparationFailure_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RelocationRequest_PDU, { "RelocationRequest", "ranap.RelocationRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupList_RelocReq_PDU, { "RAB-SetupList-RelocReq", "ranap.RAB_SetupList_RelocReq", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupItem_RelocReq_PDU, { "RAB-SetupItem-RelocReq", "ranap.RAB_SetupItem_RelocReq_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_CNMBMSLinkingInformation_PDU, { "CNMBMSLinkingInformation", "ranap.CNMBMSLinkingInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_JoinedMBMSBearerService_IEs_PDU, { "JoinedMBMSBearerService-IEs", "ranap.JoinedMBMSBearerService_IEs", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RelocationRequestAcknowledge_PDU, { "RelocationRequestAcknowledge", "ranap.RelocationRequestAcknowledge_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupList_RelocReqAck_PDU, { "RAB-SetupList-RelocReqAck", "ranap.RAB_SetupList_RelocReqAck", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupItem_RelocReqAck_PDU, { "RAB-SetupItem-RelocReqAck", "ranap.RAB_SetupItem_RelocReqAck_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_FailedList_PDU, { "RAB-FailedList", "ranap.RAB_FailedList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_FailedItem_PDU, { "RAB-FailedItem", "ranap.RAB_FailedItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RelocationFailure_PDU, { "RelocationFailure", "ranap.RelocationFailure_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RelocationCancel_PDU, { "RelocationCancel", "ranap.RelocationCancel_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RelocationCancelAcknowledge_PDU, { "RelocationCancelAcknowledge", "ranap.RelocationCancelAcknowledge_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SRNS_ContextRequest_PDU, { "SRNS-ContextRequest", "ranap.SRNS_ContextRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_DataForwardingList_SRNS_CtxReq_PDU, { "RAB-DataForwardingList-SRNS-CtxReq", "ranap.RAB_DataForwardingList_SRNS_CtxReq", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_DataForwardingItem_SRNS_CtxReq_PDU, { "RAB-DataForwardingItem-SRNS-CtxReq", "ranap.RAB_DataForwardingItem_SRNS_CtxReq_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SRNS_ContextResponse_PDU, { "SRNS-ContextResponse", "ranap.SRNS_ContextResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ContextList_PDU, { "RAB-ContextList", "ranap.RAB_ContextList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ContextItem_PDU, { "RAB-ContextItem", "ranap.RAB_ContextItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ContextFailedtoTransferList_PDU, { "RAB-ContextFailedtoTransferList", "ranap.RAB_ContextFailedtoTransferList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RABs_ContextFailedtoTransferItem_PDU, { "RABs-ContextFailedtoTransferItem", "ranap.RABs_ContextFailedtoTransferItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SecurityModeCommand_PDU, { "SecurityModeCommand", "ranap.SecurityModeCommand_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SecurityModeComplete_PDU, { "SecurityModeComplete", "ranap.SecurityModeComplete_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SecurityModeReject_PDU, { "SecurityModeReject", "ranap.SecurityModeReject_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_DataVolumeReportRequest_PDU, { "DataVolumeReportRequest", "ranap.DataVolumeReportRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_DataVolumeReportRequestList_PDU, { "RAB-DataVolumeReportRequestList", "ranap.RAB_DataVolumeReportRequestList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_DataVolumeReportRequestItem_PDU, { "RAB-DataVolumeReportRequestItem", "ranap.RAB_DataVolumeReportRequestItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_DataVolumeReport_PDU, { "DataVolumeReport", "ranap.DataVolumeReport_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_FailedtoReportList_PDU, { "RAB-FailedtoReportList", "ranap.RAB_FailedtoReportList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RABs_failed_to_reportItem_PDU, { "RABs-failed-to-reportItem", "ranap.RABs_failed_to_reportItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Reset_PDU, { "Reset", "ranap.Reset_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ResetAcknowledge_PDU, { "ResetAcknowledge", "ranap.ResetAcknowledge_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ResetResource_PDU, { "ResetResource", "ranap.ResetResource_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ResetResourceList_PDU, { "ResetResourceList", "ranap.ResetResourceList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_ResetResourceItem_PDU, { "ResetResourceItem", "ranap.ResetResourceItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ResetResourceAcknowledge_PDU, { "ResetResourceAcknowledge", "ranap.ResetResourceAcknowledge_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ResetResourceAckList_PDU, { "ResetResourceAckList", "ranap.ResetResourceAckList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_ResetResourceAckItem_PDU, { "ResetResourceAckItem", "ranap.ResetResourceAckItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ReleaseRequest_PDU, { "RAB-ReleaseRequest", "ranap.RAB_ReleaseRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ReleaseList_PDU, { "RAB-ReleaseList", "ranap.RAB_ReleaseList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ReleaseItem_PDU, { "RAB-ReleaseItem", "ranap.RAB_ReleaseItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Iu_ReleaseRequest_PDU, { "Iu-ReleaseRequest", "ranap.Iu_ReleaseRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RelocationDetect_PDU, { "RelocationDetect", "ranap.RelocationDetect_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RelocationComplete_PDU, { "RelocationComplete", "ranap.RelocationComplete_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_EnhancedRelocationCompleteRequest_PDU, { "EnhancedRelocationCompleteRequest", "ranap.EnhancedRelocationCompleteRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupList_EnhancedRelocCompleteReq_PDU, { "RAB-SetupList-EnhancedRelocCompleteReq", "ranap.RAB_SetupList_EnhancedRelocCompleteReq", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupItem_EnhancedRelocCompleteReq_PDU, { "RAB-SetupItem-EnhancedRelocCompleteReq", "ranap.RAB_SetupItem_EnhancedRelocCompleteReq_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_EnhancedRelocationCompleteResponse_PDU, { "EnhancedRelocationCompleteResponse", "ranap.EnhancedRelocationCompleteResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupList_EnhancedRelocCompleteRes_PDU, { "RAB-SetupList-EnhancedRelocCompleteRes", "ranap.RAB_SetupList_EnhancedRelocCompleteRes", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupItem_EnhancedRelocCompleteRes_PDU, { "RAB-SetupItem-EnhancedRelocCompleteRes", "ranap.RAB_SetupItem_EnhancedRelocCompleteRes_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ToBeReleasedList_EnhancedRelocCompleteRes_PDU, { "RAB-ToBeReleasedList-EnhancedRelocCompleteRes", "ranap.RAB_ToBeReleasedList_EnhancedRelocCompleteRes", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes_PDU, { "RAB-ToBeReleasedItem-EnhancedRelocCompleteRes", "ranap.RAB_ToBeReleasedItem_EnhancedRelocCompleteRes_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_EnhancedRelocationCompleteFailure_PDU, { "EnhancedRelocationCompleteFailure", "ranap.EnhancedRelocationCompleteFailure_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_EnhancedRelocationCompleteConfirm_PDU, { "EnhancedRelocationCompleteConfirm", "ranap.EnhancedRelocationCompleteConfirm_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_Paging_PDU, { "Paging", "ranap.Paging_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_CommonID_PDU, { "CommonID", "ranap.CommonID_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_CN_InvokeTrace_PDU, { "CN-InvokeTrace", "ranap.CN_InvokeTrace_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_CN_DeactivateTrace_PDU, { "CN-DeactivateTrace", "ranap.CN_DeactivateTrace_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_LocationReportingControl_PDU, { "LocationReportingControl", "ranap.LocationReportingControl_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_LocationReport_PDU, { "LocationReport", "ranap.LocationReport_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_InitialUE_Message_PDU, { "InitialUE-Message", "ranap.InitialUE_Message_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_DirectTransfer_PDU, { "DirectTransfer", "ranap.DirectTransfer_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RedirectionIndication_PDU, { "RedirectionIndication", "ranap.RedirectionIndication", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Overload_PDU, { "Overload", "ranap.Overload_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ErrorIndication_PDU, { "ErrorIndication", "ranap.ErrorIndication_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SRNS_DataForwardCommand_PDU, { "SRNS-DataForwardCommand", "ranap.SRNS_DataForwardCommand_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ForwardSRNS_Context_PDU, { "ForwardSRNS-Context", "ranap.ForwardSRNS_Context_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_AssignmentRequest_PDU, { "RAB-AssignmentRequest", "ranap.RAB_AssignmentRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupOrModifyList_PDU, { "RAB-SetupOrModifyList", "ranap.RAB_SetupOrModifyList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupOrModifyItemFirst_PDU, { "RAB-SetupOrModifyItemFirst", "ranap.RAB_SetupOrModifyItemFirst_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_TransportLayerInformation_PDU, { "TransportLayerInformation", "ranap.TransportLayerInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupOrModifyItemSecond_PDU, { "RAB-SetupOrModifyItemSecond", "ranap.RAB_SetupOrModifyItemSecond_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_AssignmentResponse_PDU, { "RAB-AssignmentResponse", "ranap.RAB_AssignmentResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupOrModifiedList_PDU, { "RAB-SetupOrModifiedList", "ranap.RAB_SetupOrModifiedList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupOrModifiedItem_PDU, { "RAB-SetupOrModifiedItem", "ranap.RAB_SetupOrModifiedItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ReleasedList_PDU, { "RAB-ReleasedList", "ranap.RAB_ReleasedList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ReleasedItem_PDU, { "RAB-ReleasedItem", "ranap.RAB_ReleasedItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_QueuedList_PDU, { "RAB-QueuedList", "ranap.RAB_QueuedList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_QueuedItem_PDU, { "RAB-QueuedItem", "ranap.RAB_QueuedItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ReleaseFailedList_PDU, { "RAB-ReleaseFailedList", "ranap.RAB_ReleaseFailedList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_GERAN_Iumode_RAB_FailedList_RABAssgntResponse_PDU, { "GERAN-Iumode-RAB-FailedList-RABAssgntResponse", "ranap.GERAN_Iumode_RAB_FailedList_RABAssgntResponse", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item_PDU, { "GERAN-Iumode-RAB-Failed-RABAssgntResponse-Item", "ranap.GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_PrivateMessage_PDU, { "PrivateMessage", "ranap.PrivateMessage_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RANAP_RelocationInformation_PDU, { "RANAP-RelocationInformation", "ranap.RANAP_RelocationInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_DirectTransferInformationList_RANAP_RelocInf_PDU, { "DirectTransferInformationList-RANAP-RelocInf", "ranap.DirectTransferInformationList_RANAP_RelocInf", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_DirectTransferInformationItem_RANAP_RelocInf_PDU, { "DirectTransferInformationItem-RANAP-RelocInf", "ranap.DirectTransferInformationItem_RANAP_RelocInf_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ContextList_RANAP_RelocInf_PDU, { "RAB-ContextList-RANAP-RelocInf", "ranap.RAB_ContextList_RANAP_RelocInf", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ContextItem_RANAP_RelocInf_PDU, { "RAB-ContextItem-RANAP-RelocInf", "ranap.RAB_ContextItem_RANAP_RelocInf_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RANAP_EnhancedRelocationInformationRequest_PDU, { "RANAP-EnhancedRelocationInformationRequest", "ranap.RANAP_EnhancedRelocationInformationRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupList_EnhRelocInfoReq_PDU, { "RAB-SetupList-EnhRelocInfoReq", "ranap.RAB_SetupList_EnhRelocInfoReq", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupItem_EnhRelocInfoReq_PDU, { "RAB-SetupItem-EnhRelocInfoReq", "ranap.RAB_SetupItem_EnhRelocInfoReq_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RANAP_EnhancedRelocationInformationResponse_PDU, { "RANAP-EnhancedRelocationInformationResponse", "ranap.RANAP_EnhancedRelocationInformationResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupList_EnhRelocInfoRes_PDU, { "RAB-SetupList-EnhRelocInfoRes", "ranap.RAB_SetupList_EnhRelocInfoRes", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_SetupItem_EnhRelocInfoRes_PDU, { "RAB-SetupItem-EnhRelocInfoRes", "ranap.RAB_SetupItem_EnhRelocInfoRes_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_FailedList_EnhRelocInfoRes_PDU, { "RAB-FailedList-EnhRelocInfoRes", "ranap.RAB_FailedList_EnhRelocInfoRes", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_FailedItem_EnhRelocInfoRes_PDU, { "RAB-FailedItem-EnhRelocInfoRes", "ranap.RAB_FailedItem_EnhRelocInfoRes_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ModifyRequest_PDU, { "RAB-ModifyRequest", "ranap.RAB_ModifyRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ModifyList_PDU, { "RAB-ModifyList", "ranap.RAB_ModifyList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_ModifyItem_PDU, { "RAB-ModifyItem", "ranap.RAB_ModifyItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_LocationRelatedDataRequest_PDU, { "LocationRelatedDataRequest", "ranap.LocationRelatedDataRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_LocationRelatedDataResponse_PDU, { "LocationRelatedDataResponse", "ranap.LocationRelatedDataResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_LocationRelatedDataFailure_PDU, { "LocationRelatedDataFailure", "ranap.LocationRelatedDataFailure_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_InformationTransferIndication_PDU, { "InformationTransferIndication", "ranap.InformationTransferIndication_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_InformationTransferConfirmation_PDU, { "InformationTransferConfirmation", "ranap.InformationTransferConfirmation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_InformationTransferFailure_PDU, { "InformationTransferFailure", "ranap.InformationTransferFailure_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_UESpecificInformationIndication_PDU, { "UESpecificInformationIndication", "ranap.UESpecificInformationIndication_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_DirectInformationTransfer_PDU, { "DirectInformationTransfer", "ranap.DirectInformationTransfer_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_UplinkInformationExchangeRequest_PDU, { "UplinkInformationExchangeRequest", "ranap.UplinkInformationExchangeRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_UplinkInformationExchangeResponse_PDU, { "UplinkInformationExchangeResponse", "ranap.UplinkInformationExchangeResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_UplinkInformationExchangeFailure_PDU, { "UplinkInformationExchangeFailure", "ranap.UplinkInformationExchangeFailure_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSessionStart_PDU, { "MBMSSessionStart", "ranap.MBMSSessionStart_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSynchronisationInformation_PDU, { "MBMSSynchronisationInformation", "ranap.MBMSSynchronisationInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSessionStartResponse_PDU, { "MBMSSessionStartResponse", "ranap.MBMSSessionStartResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSessionStartFailure_PDU, { "MBMSSessionStartFailure", "ranap.MBMSSessionStartFailure_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSessionUpdate_PDU, { "MBMSSessionUpdate", "ranap.MBMSSessionUpdate_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSessionUpdateResponse_PDU, { "MBMSSessionUpdateResponse", "ranap.MBMSSessionUpdateResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSessionUpdateFailure_PDU, { "MBMSSessionUpdateFailure", "ranap.MBMSSessionUpdateFailure_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSessionStop_PDU, { "MBMSSessionStop", "ranap.MBMSSessionStop_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSSessionStopResponse_PDU, { "MBMSSessionStopResponse", "ranap.MBMSSessionStopResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSUELinkingRequest_PDU, { "MBMSUELinkingRequest", "ranap.MBMSUELinkingRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_LeftMBMSBearerService_IEs_PDU, { "LeftMBMSBearerService-IEs", "ranap.LeftMBMSBearerService_IEs", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSUELinkingResponse_PDU, { "MBMSUELinkingResponse", "ranap.MBMSUELinkingResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_UnsuccessfulLinking_IEs_PDU, { "UnsuccessfulLinking-IEs", "ranap.UnsuccessfulLinking_IEs", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSRegistrationRequest_PDU, { "MBMSRegistrationRequest", "ranap.MBMSRegistrationRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSRegistrationResponse_PDU, { "MBMSRegistrationResponse", "ranap.MBMSRegistrationResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSRegistrationFailure_PDU, { "MBMSRegistrationFailure", "ranap.MBMSRegistrationFailure_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSCNDe_RegistrationRequest_PDU, { "MBMSCNDe-RegistrationRequest", "ranap.MBMSCNDe_RegistrationRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSCNDe_RegistrationResponse_PDU, { "MBMSCNDe-RegistrationResponse", "ranap.MBMSCNDe_RegistrationResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSRABEstablishmentIndication_PDU, { "MBMSRABEstablishmentIndication", "ranap.MBMSRABEstablishmentIndication_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSRABReleaseRequest_PDU, { "MBMSRABReleaseRequest", "ranap.MBMSRABReleaseRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSRABRelease_PDU, { "MBMSRABRelease", "ranap.MBMSRABRelease_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_MBMSRABReleaseFailure_PDU, { "MBMSRABReleaseFailure", "ranap.MBMSRABReleaseFailure_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SRVCC_CSKeysRequest_PDU, { "SRVCC-CSKeysRequest", "ranap.SRVCC_CSKeysRequest_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_SRVCC_CSKeysResponse_PDU, { "SRVCC-CSKeysResponse", "ranap.SRVCC_CSKeysResponse_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RANAP_PDU_PDU, { "RANAP-PDU", "ranap.RANAP_PDU", FT_UINT32, BASE_DEC, VALS(ranap_RANAP_PDU_vals), 0, NULL, HFILL }}, { &hf_ranap_local, { "local", "ranap.local", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_65535", HFILL }}, { &hf_ranap_global, { "global", "ranap.global", FT_OID, BASE_NONE, NULL, 0, "OBJECT_IDENTIFIER", HFILL }}, { &hf_ranap_ProtocolIE_Container_item, { "ProtocolIE-Field", "ranap.ProtocolIE_Field_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_id, { "id", "ranap.id", FT_UINT32, BASE_DEC|BASE_EXT_STRING, &ranap_ProtocolIE_ID_vals_ext, 0, "ProtocolIE_ID", HFILL }}, { &hf_ranap_criticality, { "criticality", "ranap.criticality", FT_UINT32, BASE_DEC, VALS(ranap_Criticality_vals), 0, NULL, HFILL }}, { &hf_ranap_ie_field_value, { "value", "ranap.value_element", FT_NONE, BASE_NONE, NULL, 0, "T_ie_field_value", HFILL }}, { &hf_ranap_ProtocolIE_ContainerPair_item, { "ProtocolIE-FieldPair", "ranap.ProtocolIE_FieldPair_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_firstCriticality, { "firstCriticality", "ranap.firstCriticality", FT_UINT32, BASE_DEC, VALS(ranap_Criticality_vals), 0, "Criticality", HFILL }}, { &hf_ranap_firstValue, { "firstValue", "ranap.firstValue_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_secondCriticality, { "secondCriticality", "ranap.secondCriticality", FT_UINT32, BASE_DEC, VALS(ranap_Criticality_vals), 0, "Criticality", HFILL }}, { &hf_ranap_secondValue, { "secondValue", "ranap.secondValue_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ProtocolIE_ContainerList_item, { "ProtocolIE-Container", "ranap.ProtocolIE_Container", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_ProtocolIE_ContainerPairList_item, { "ProtocolIE-ContainerPair", "ranap.ProtocolIE_ContainerPair", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_ProtocolExtensionContainer_item, { "ProtocolExtensionField", "ranap.ProtocolExtensionField_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_ext_id, { "id", "ranap.id", FT_UINT8, BASE_DEC|BASE_EXT_STRING, &ranap_ProtocolIE_ID_vals_ext, 0, "ProtocolExtensionID", HFILL }}, { &hf_ranap_extensionValue, { "extensionValue", "ranap.extensionValue_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_PrivateIE_Container_item, { "PrivateIE-Field", "ranap.PrivateIE_Field_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_private_id, { "id", "ranap.id", FT_UINT32, BASE_DEC, VALS(ranap_PrivateIE_ID_vals), 0, "PrivateIE_ID", HFILL }}, { &hf_ranap_private_value, { "value", "ranap.value_element", FT_NONE, BASE_NONE, NULL, 0, "T_private_value", HFILL }}, { &hf_ranap_priorityLevel, { "priorityLevel", "ranap.priorityLevel", FT_UINT32, BASE_DEC, VALS(ranap_PriorityLevel_vals), 0, NULL, HFILL }}, { &hf_ranap_pre_emptionCapability, { "pre-emptionCapability", "ranap.pre_emptionCapability", FT_UINT32, BASE_DEC, VALS(ranap_Pre_emptionCapability_vals), 0, NULL, HFILL }}, { &hf_ranap_pre_emptionVulnerability, { "pre-emptionVulnerability", "ranap.pre_emptionVulnerability", FT_UINT32, BASE_DEC, VALS(ranap_Pre_emptionVulnerability_vals), 0, NULL, HFILL }}, { &hf_ranap_queuingAllowed, { "queuingAllowed", "ranap.queuingAllowed", FT_UINT32, BASE_DEC, VALS(ranap_QueuingAllowed_vals), 0, NULL, HFILL }}, { &hf_ranap_iE_Extensions, { "iE-Extensions", "ranap.iE_Extensions", FT_UINT32, BASE_DEC, NULL, 0, "ProtocolExtensionContainer", HFILL }}, { &hf_ranap_altMaxBitrateInf, { "altMaxBitrateInf", "ranap.altMaxBitrateInf_element", FT_NONE, BASE_NONE, NULL, 0, "Alt_RAB_Parameter_MaxBitrateInf", HFILL }}, { &hf_ranap_altGuaranteedBitRateInf, { "altGuaranteedBitRateInf", "ranap.altGuaranteedBitRateInf_element", FT_NONE, BASE_NONE, NULL, 0, "Alt_RAB_Parameter_GuaranteedBitrateInf", HFILL }}, { &hf_ranap_altExtendedGuaranteedBitrateType, { "altExtendedGuaranteedBitrateType", "ranap.altExtendedGuaranteedBitrateType", FT_UINT32, BASE_DEC, VALS(ranap_Alt_RAB_Parameter_GuaranteedBitrateType_vals), 0, "Alt_RAB_Parameter_GuaranteedBitrateType", HFILL }}, { &hf_ranap_altExtendedGuaranteedBitrates, { "altExtendedGuaranteedBitrates", "ranap.altExtendedGuaranteedBitrates", FT_UINT32, BASE_DEC, NULL, 0, "Alt_RAB_Parameter_ExtendedGuaranteedBitrates", HFILL }}, { &hf_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrates_item, { "Alt-RAB-Parameter-ExtendedGuaranteedBitrateList", "ranap.Alt_RAB_Parameter_ExtendedGuaranteedBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateList_item, { "ExtendedGuaranteedBitrate", "ranap.ExtendedGuaranteedBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_altGuaranteedBitrateType, { "altGuaranteedBitrateType", "ranap.altGuaranteedBitrateType", FT_UINT32, BASE_DEC, VALS(ranap_Alt_RAB_Parameter_GuaranteedBitrateType_vals), 0, "Alt_RAB_Parameter_GuaranteedBitrateType", HFILL }}, { &hf_ranap_altGuaranteedBitrates, { "altGuaranteedBitrates", "ranap.altGuaranteedBitrates", FT_UINT32, BASE_DEC, NULL, 0, "Alt_RAB_Parameter_GuaranteedBitrates", HFILL }}, { &hf_ranap_Alt_RAB_Parameter_GuaranteedBitrates_item, { "Alt-RAB-Parameter-GuaranteedBitrateList", "ranap.Alt_RAB_Parameter_GuaranteedBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Alt_RAB_Parameter_GuaranteedBitrateList_item, { "GuaranteedBitrate", "ranap.GuaranteedBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_altSupportedGuaranteedBitrateType, { "altSupportedGuaranteedBitrateType", "ranap.altSupportedGuaranteedBitrateType", FT_UINT32, BASE_DEC, VALS(ranap_Alt_RAB_Parameter_GuaranteedBitrateType_vals), 0, "Alt_RAB_Parameter_GuaranteedBitrateType", HFILL }}, { &hf_ranap_altSupportedGuaranteedBitrates, { "altSupportedGuaranteedBitrates", "ranap.altSupportedGuaranteedBitrates", FT_UINT32, BASE_DEC, NULL, 0, "Alt_RAB_Parameter_SupportedGuaranteedBitrates", HFILL }}, { &hf_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrates_item, { "SupportedRAB-ParameterBitrateList", "ranap.SupportedRAB_ParameterBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_altExtendedMaxBitrateType, { "altExtendedMaxBitrateType", "ranap.altExtendedMaxBitrateType", FT_UINT32, BASE_DEC, VALS(ranap_Alt_RAB_Parameter_MaxBitrateType_vals), 0, "Alt_RAB_Parameter_MaxBitrateType", HFILL }}, { &hf_ranap_altExtendedMaxBitrates, { "altExtendedMaxBitrates", "ranap.altExtendedMaxBitrates", FT_UINT32, BASE_DEC, NULL, 0, "Alt_RAB_Parameter_ExtendedMaxBitrates", HFILL }}, { &hf_ranap_Alt_RAB_Parameter_ExtendedMaxBitrates_item, { "Alt-RAB-Parameter-ExtendedMaxBitrateList", "ranap.Alt_RAB_Parameter_ExtendedMaxBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateList_item, { "ExtendedMaxBitrate", "ranap.ExtendedMaxBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_altMaxBitrateType, { "altMaxBitrateType", "ranap.altMaxBitrateType", FT_UINT32, BASE_DEC, VALS(ranap_Alt_RAB_Parameter_MaxBitrateType_vals), 0, "Alt_RAB_Parameter_MaxBitrateType", HFILL }}, { &hf_ranap_altMaxBitrates, { "altMaxBitrates", "ranap.altMaxBitrates", FT_UINT32, BASE_DEC, NULL, 0, "Alt_RAB_Parameter_MaxBitrates", HFILL }}, { &hf_ranap_Alt_RAB_Parameter_MaxBitrates_item, { "Alt-RAB-Parameter-MaxBitrateList", "ranap.Alt_RAB_Parameter_MaxBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Alt_RAB_Parameter_MaxBitrateList_item, { "MaxBitrate", "ranap.MaxBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_altSupportedMaxBitrateType, { "altSupportedMaxBitrateType", "ranap.altSupportedMaxBitrateType", FT_UINT32, BASE_DEC, VALS(ranap_Alt_RAB_Parameter_MaxBitrateType_vals), 0, "Alt_RAB_Parameter_MaxBitrateType", HFILL }}, { &hf_ranap_altSupportedMaxBitrates, { "altSupportedMaxBitrates", "ranap.altSupportedMaxBitrates", FT_UINT32, BASE_DEC, NULL, 0, "Alt_RAB_Parameter_SupportedMaxBitrates", HFILL }}, { &hf_ranap_Alt_RAB_Parameter_SupportedMaxBitrates_item, { "SupportedRAB-ParameterBitrateList", "ranap.SupportedRAB_ParameterBitrateList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_sAI, { "sAI", "ranap.sAI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_geographicalArea, { "geographicalArea", "ranap.geographicalArea", FT_UINT32, BASE_DEC, VALS(ranap_GeographicalArea_vals), 0, NULL, HFILL }}, { &hf_ranap_assMaxBitrateInf, { "assMaxBitrateInf", "ranap.assMaxBitrateInf", FT_UINT32, BASE_DEC, NULL, 0, "Ass_RAB_Parameter_MaxBitrateList", HFILL }}, { &hf_ranap_assGuaranteedBitRateInf, { "assGuaranteedBitRateInf", "ranap.assGuaranteedBitRateInf", FT_UINT32, BASE_DEC, NULL, 0, "Ass_RAB_Parameter_GuaranteedBitrateList", HFILL }}, { &hf_ranap_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList_item, { "ExtendedGuaranteedBitrate", "ranap.ExtendedGuaranteedBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Ass_RAB_Parameter_ExtendedMaxBitrateList_item, { "ExtendedMaxBitrate", "ranap.ExtendedMaxBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Ass_RAB_Parameter_GuaranteedBitrateList_item, { "GuaranteedBitrate", "ranap.GuaranteedBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Ass_RAB_Parameter_MaxBitrateList_item, { "MaxBitrate", "ranap.MaxBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_AuthorisedPLMNs_item, { "AuthorisedPLMNs item", "ranap.AuthorisedPLMNs_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_pLMNidentity, { "pLMNidentity", "ranap.pLMNidentity", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_authorisedSNAsList, { "authorisedSNAsList", "ranap.authorisedSNAsList", FT_UINT32, BASE_DEC, NULL, 0, "AuthorisedSNAs", HFILL }}, { &hf_ranap_AuthorisedSNAs_item, { "SNAC", "ranap.SNAC", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_cipheringKeyFlag, { "cipheringKeyFlag", "ranap.cipheringKeyFlag", FT_BYTES, BASE_NONE, NULL, 0, "BIT_STRING_SIZE_1", HFILL }}, { &hf_ranap_currentDecipheringKey, { "currentDecipheringKey", "ranap.currentDecipheringKey", FT_BYTES, BASE_NONE, NULL, 0, "BIT_STRING_SIZE_56", HFILL }}, { &hf_ranap_nextDecipheringKey, { "nextDecipheringKey", "ranap.nextDecipheringKey", FT_BYTES, BASE_NONE, NULL, 0, "BIT_STRING_SIZE_56", HFILL }}, { &hf_ranap_radioNetwork, { "radioNetwork", "ranap.radioNetwork", FT_UINT32, BASE_DEC|BASE_EXT_STRING, &ranap_CauseRadioNetwork_vals_ext, 0, "CauseRadioNetwork", HFILL }}, { &hf_ranap_transmissionNetwork, { "transmissionNetwork", "ranap.transmissionNetwork", FT_UINT32, BASE_DEC, VALS(ranap_CauseTransmissionNetwork_vals), 0, "CauseTransmissionNetwork", HFILL }}, { &hf_ranap_nAS, { "nAS", "ranap.nAS", FT_UINT32, BASE_DEC, VALS(ranap_CauseNAS_vals), 0, "CauseNAS", HFILL }}, { &hf_ranap_protocol, { "protocol", "ranap.protocol", FT_UINT32, BASE_DEC, VALS(ranap_CauseProtocol_vals), 0, "CauseProtocol", HFILL }}, { &hf_ranap_misc, { "misc", "ranap.misc", FT_UINT32, BASE_DEC, VALS(ranap_CauseMisc_vals), 0, "CauseMisc", HFILL }}, { &hf_ranap_non_Standard, { "non-Standard", "ranap.non_Standard", FT_UINT32, BASE_DEC, NULL, 0, "CauseNon_Standard", HFILL }}, { &hf_ranap_radioNetworkExtension, { "radioNetworkExtension", "ranap.radioNetworkExtension", FT_UINT32, BASE_DEC, VALS(ranap_CauseRadioNetworkExtension_vals), 0, "CauseRadioNetworkExtension", HFILL }}, { &hf_ranap_cellIdList, { "cellIdList", "ranap.cellIdList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_CellIdList_item, { "Cell-Id", "ranap.Cell_Id", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_cell_Capacity_Class_Value, { "cell-Capacity-Class-Value", "ranap.cell_Capacity_Class_Value", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_loadValue, { "loadValue", "ranap.loadValue", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_rTLoadValue, { "rTLoadValue", "ranap.rTLoadValue", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_nRTLoadInformationValue, { "nRTLoadInformationValue", "ranap.nRTLoadInformationValue", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_sourceCellID, { "sourceCellID", "ranap.sourceCellID", FT_UINT32, BASE_DEC, VALS(ranap_SourceCellID_vals), 0, NULL, HFILL }}, { &hf_ranap_uplinkCellLoadInformation, { "uplinkCellLoadInformation", "ranap.uplinkCellLoadInformation_element", FT_NONE, BASE_NONE, NULL, 0, "CellLoadInformation", HFILL }}, { &hf_ranap_downlinkCellLoadInformation, { "downlinkCellLoadInformation", "ranap.downlinkCellLoadInformation_element", FT_NONE, BASE_NONE, NULL, 0, "CellLoadInformation", HFILL }}, { &hf_ranap_procedureCode, { "procedureCode", "ranap.procedureCode", FT_UINT32, BASE_DEC|BASE_EXT_STRING, &ranap_ProcedureCode_vals_ext, 0, NULL, HFILL }}, { &hf_ranap_triggeringMessage, { "triggeringMessage", "ranap.triggeringMessage", FT_UINT32, BASE_DEC, VALS(ranap_TriggeringMessage_vals), 0, NULL, HFILL }}, { &hf_ranap_procedureCriticality, { "procedureCriticality", "ranap.procedureCriticality", FT_UINT32, BASE_DEC, VALS(ranap_Criticality_vals), 0, "Criticality", HFILL }}, { &hf_ranap_iEsCriticalityDiagnostics, { "iEsCriticalityDiagnostics", "ranap.iEsCriticalityDiagnostics", FT_UINT32, BASE_DEC, NULL, 0, "CriticalityDiagnostics_IE_List", HFILL }}, { &hf_ranap_CriticalityDiagnostics_IE_List_item, { "CriticalityDiagnostics-IE-List item", "ranap.CriticalityDiagnostics_IE_List_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_iECriticality, { "iECriticality", "ranap.iECriticality", FT_UINT32, BASE_DEC, VALS(ranap_Criticality_vals), 0, "Criticality", HFILL }}, { &hf_ranap_iE_ID, { "iE-ID", "ranap.iE_ID", FT_UINT32, BASE_DEC|BASE_EXT_STRING, &ranap_ProtocolIE_ID_vals_ext, 0, "ProtocolIE_ID", HFILL }}, { &hf_ranap_repetitionNumber, { "repetitionNumber", "ranap.repetitionNumber", FT_UINT32, BASE_DEC, NULL, 0, "RepetitionNumber0", HFILL }}, { &hf_ranap_MessageStructure_item, { "MessageStructure item", "ranap.MessageStructure_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_item_repetitionNumber, { "repetitionNumber", "ranap.repetitionNumber", FT_UINT32, BASE_DEC, NULL, 0, "RepetitionNumber1", HFILL }}, { &hf_ranap_lAC, { "lAC", "ranap.lAC", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_cI, { "cI", "ranap.cI", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_CSG_Id_List_item, { "CSG-Id", "ranap.CSG_Id", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_newRAListofIdleModeUEs, { "newRAListofIdleModeUEs", "ranap.newRAListofIdleModeUEs", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_rAListwithNoIdleModeUEsAnyMore, { "rAListwithNoIdleModeUEsAnyMore", "ranap.rAListwithNoIdleModeUEsAnyMore", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_NewRAListofIdleModeUEs_item, { "RAC", "ranap.RAC", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAListwithNoIdleModeUEsAnyMore_item, { "RAC", "ranap.RAC", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_macroENB_ID, { "macroENB-ID", "ranap.macroENB_ID", FT_BYTES, BASE_NONE, NULL, 0, "BIT_STRING_SIZE_20", HFILL }}, { &hf_ranap_homeENB_ID, { "homeENB-ID", "ranap.homeENB_ID", FT_BYTES, BASE_NONE, NULL, 0, "BIT_STRING_SIZE_28", HFILL }}, { &hf_ranap_permittedAlgorithms, { "permittedAlgorithms", "ranap.permittedAlgorithms", FT_UINT32, BASE_DEC, NULL, 0, "PermittedEncryptionAlgorithms", HFILL }}, { &hf_ranap_key, { "key", "ranap.key", FT_BYTES, BASE_NONE, NULL, 0, "EncryptionKey", HFILL }}, { &hf_ranap_iMEIlist, { "iMEIlist", "ranap.iMEIlist", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_iMEISVlist, { "iMEISVlist", "ranap.iMEISVlist", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_iMEIgroup, { "iMEIgroup", "ranap.iMEIgroup_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_iMEISVgroup, { "iMEISVgroup", "ranap.iMEISVgroup_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_measurementQuantity, { "measurementQuantity", "ranap.measurementQuantity", FT_UINT32, BASE_DEC, VALS(ranap_MeasurementQuantity_vals), 0, NULL, HFILL }}, { &hf_ranap_threshold, { "threshold", "ranap.threshold", FT_INT32, BASE_DEC, NULL, 0, "INTEGER_M120_165", HFILL }}, { &hf_ranap_threshold_01, { "threshold", "ranap.threshold", FT_INT32, BASE_DEC, NULL, 0, "INTEGER_M120_M25", HFILL }}, { &hf_ranap_GANSS_PositioningDataSet_item, { "GANSS-PositioningMethodAndUsage", "ranap.GANSS_PositioningMethodAndUsage", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_point, { "point", "ranap.point_element", FT_NONE, BASE_NONE, NULL, 0, "GA_Point", HFILL }}, { &hf_ranap_pointWithUnCertainty, { "pointWithUnCertainty", "ranap.pointWithUnCertainty_element", FT_NONE, BASE_NONE, NULL, 0, "GA_PointWithUnCertainty", HFILL }}, { &hf_ranap_polygon, { "polygon", "ranap.polygon", FT_UINT32, BASE_DEC, NULL, 0, "GA_Polygon", HFILL }}, { &hf_ranap_pointWithUncertaintyEllipse, { "pointWithUncertaintyEllipse", "ranap.pointWithUncertaintyEllipse_element", FT_NONE, BASE_NONE, NULL, 0, "GA_PointWithUnCertaintyEllipse", HFILL }}, { &hf_ranap_pointWithAltitude, { "pointWithAltitude", "ranap.pointWithAltitude_element", FT_NONE, BASE_NONE, NULL, 0, "GA_PointWithAltitude", HFILL }}, { &hf_ranap_pointWithAltitudeAndUncertaintyEllipsoid, { "pointWithAltitudeAndUncertaintyEllipsoid", "ranap.pointWithAltitudeAndUncertaintyEllipsoid_element", FT_NONE, BASE_NONE, NULL, 0, "GA_PointWithAltitudeAndUncertaintyEllipsoid", HFILL }}, { &hf_ranap_ellipsoidArc, { "ellipsoidArc", "ranap.ellipsoidArc_element", FT_NONE, BASE_NONE, NULL, 0, "GA_EllipsoidArc", HFILL }}, { &hf_ranap_latitudeSign, { "latitudeSign", "ranap.latitudeSign", FT_UINT32, BASE_DEC, VALS(ranap_T_latitudeSign_vals), 0, NULL, HFILL }}, { &hf_ranap_latitude, { "latitude", "ranap.latitude", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_8388607", HFILL }}, { &hf_ranap_longitude, { "longitude", "ranap.longitude", FT_INT32, BASE_DEC, NULL, 0, "INTEGER_M8388608_8388607", HFILL }}, { &hf_ranap_directionOfAltitude, { "directionOfAltitude", "ranap.directionOfAltitude", FT_UINT32, BASE_DEC, VALS(ranap_T_directionOfAltitude_vals), 0, NULL, HFILL }}, { &hf_ranap_altitude, { "altitude", "ranap.altitude", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_32767", HFILL }}, { &hf_ranap_geographicalCoordinates, { "geographicalCoordinates", "ranap.geographicalCoordinates_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_innerRadius, { "innerRadius", "ranap.innerRadius", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_65535", HFILL }}, { &hf_ranap_uncertaintyRadius, { "uncertaintyRadius", "ranap.uncertaintyRadius", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_127", HFILL }}, { &hf_ranap_offsetAngle, { "offsetAngle", "ranap.offsetAngle", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_179", HFILL }}, { &hf_ranap_includedAngle, { "includedAngle", "ranap.includedAngle", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_179", HFILL }}, { &hf_ranap_confidence, { "confidence", "ranap.confidence", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_127", HFILL }}, { &hf_ranap_altitudeAndDirection, { "altitudeAndDirection", "ranap.altitudeAndDirection_element", FT_NONE, BASE_NONE, NULL, 0, "GA_AltitudeAndDirection", HFILL }}, { &hf_ranap_uncertaintyEllipse, { "uncertaintyEllipse", "ranap.uncertaintyEllipse_element", FT_NONE, BASE_NONE, NULL, 0, "GA_UncertaintyEllipse", HFILL }}, { &hf_ranap_uncertaintyAltitude, { "uncertaintyAltitude", "ranap.uncertaintyAltitude", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_127", HFILL }}, { &hf_ranap_uncertaintyCode, { "uncertaintyCode", "ranap.uncertaintyCode", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_127", HFILL }}, { &hf_ranap_GA_Polygon_item, { "GA-Polygon item", "ranap.GA_Polygon_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_uncertaintySemi_major, { "uncertaintySemi-major", "ranap.uncertaintySemi_major", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_127", HFILL }}, { &hf_ranap_uncertaintySemi_minor, { "uncertaintySemi-minor", "ranap.uncertaintySemi_minor", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_127", HFILL }}, { &hf_ranap_orientationOfMajorAxis, { "orientationOfMajorAxis", "ranap.orientationOfMajorAxis", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_179", HFILL }}, { &hf_ranap_lAI, { "lAI", "ranap.lAI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_rAC, { "rAC", "ranap.rAC", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_cN_ID, { "cN-ID", "ranap.cN_ID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_rNC_ID, { "rNC-ID", "ranap.rNC_ID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_iMEI, { "iMEI", "ranap.iMEI", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_iMEIMask, { "iMEIMask", "ranap.iMEIMask", FT_BYTES, BASE_NONE, NULL, 0, "BIT_STRING_SIZE_7", HFILL }}, { &hf_ranap_IMEIList_item, { "IMEI", "ranap.IMEI", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_iMEISV, { "iMEISV", "ranap.iMEISV", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_iMEISVMask, { "iMEISVMask", "ranap.iMEISVMask", FT_BYTES, BASE_NONE, NULL, 0, "BIT_STRING_SIZE_7", HFILL }}, { &hf_ranap_IMEISVList_item, { "IMEISV", "ranap.IMEISV", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_measurementsToActivate, { "measurementsToActivate", "ranap.measurementsToActivate", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_m1report, { "m1report", "ranap.m1report", FT_UINT32, BASE_DEC, VALS(ranap_M1Report_vals), 0, NULL, HFILL }}, { &hf_ranap_m2report, { "m2report", "ranap.m2report", FT_UINT32, BASE_DEC, VALS(ranap_M2Report_vals), 0, NULL, HFILL }}, { &hf_ranap_requestedMBMSIPMulticastAddressandAPNRequest, { "requestedMBMSIPMulticastAddressandAPNRequest", "ranap.requestedMBMSIPMulticastAddressandAPNRequest", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_requestedMulticastServiceList, { "requestedMulticastServiceList", "ranap.requestedMulticastServiceList", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_mBMSIPMulticastAddressandAPNRequest, { "mBMSIPMulticastAddressandAPNRequest", "ranap.mBMSIPMulticastAddressandAPNRequest", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_permanentNAS_UE_ID, { "permanentNAS-UE-ID", "ranap.permanentNAS_UE_ID", FT_UINT32, BASE_DEC, VALS(ranap_PermanentNAS_UE_ID_vals), 0, NULL, HFILL }}, { &hf_ranap_rNCTraceInformation, { "rNCTraceInformation", "ranap.rNCTraceInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_permittedAlgorithms_01, { "permittedAlgorithms", "ranap.permittedAlgorithms", FT_UINT32, BASE_DEC, NULL, 0, "PermittedIntegrityProtectionAlgorithms", HFILL }}, { &hf_ranap_key_01, { "key", "ranap.key", FT_BYTES, BASE_NONE, NULL, 0, "IntegrityProtectionKey", HFILL }}, { &hf_ranap_rIM_Transfer, { "rIM-Transfer", "ranap.rIM_Transfer_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_gTP_TEI, { "gTP-TEI", "ranap.gTP_TEI", FT_UINT32, BASE_HEX_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_bindingID, { "bindingID", "ranap.bindingID", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_LA_LIST_item, { "LA-LIST item", "ranap.LA_LIST_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_listOF_SNAs, { "listOF-SNAs", "ranap.listOF_SNAs", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_ageOfSAI, { "ageOfSAI", "ranap.ageOfSAI", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_32767", HFILL }}, { &hf_ranap_ListOF_SNAs_item, { "SNAC", "ranap.SNAC", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_ListOfInterfacesToTrace_item, { "InterfacesToTraceItem", "ranap.InterfacesToTraceItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_interface, { "interface", "ranap.interface", FT_UINT32, BASE_DEC, VALS(ranap_T_interface_vals), 0, NULL, HFILL }}, { &hf_ranap_requestedLocationRelatedDataType, { "requestedLocationRelatedDataType", "ranap.requestedLocationRelatedDataType", FT_UINT32, BASE_DEC, VALS(ranap_RequestedLocationRelatedDataType_vals), 0, NULL, HFILL }}, { &hf_ranap_requestedGPSAssistanceData, { "requestedGPSAssistanceData", "ranap.requestedGPSAssistanceData", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_reportChangeOfSAI, { "reportChangeOfSAI", "ranap.reportChangeOfSAI", FT_UINT32, BASE_DEC, VALS(ranap_ReportChangeOfSAI_vals), 0, NULL, HFILL }}, { &hf_ranap_periodicReportingIndicator, { "periodicReportingIndicator", "ranap.periodicReportingIndicator", FT_UINT32, BASE_DEC, VALS(ranap_PeriodicReportingIndicator_vals), 0, NULL, HFILL }}, { &hf_ranap_directReportingIndicator, { "directReportingIndicator", "ranap.directReportingIndicator", FT_UINT32, BASE_DEC, VALS(ranap_DirectReportingIndicator_vals), 0, NULL, HFILL }}, { &hf_ranap_verticalAccuracyCode, { "verticalAccuracyCode", "ranap.verticalAccuracyCode", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_positioningPriorityChangeSAI, { "positioningPriorityChangeSAI", "ranap.positioningPriorityChangeSAI", FT_UINT32, BASE_DEC, VALS(ranap_PositioningPriority_vals), 0, "PositioningPriority", HFILL }}, { &hf_ranap_positioningPriorityDirect, { "positioningPriorityDirect", "ranap.positioningPriorityDirect", FT_UINT32, BASE_DEC, VALS(ranap_PositioningPriority_vals), 0, "PositioningPriority", HFILL }}, { &hf_ranap_clientTypePeriodic, { "clientTypePeriodic", "ranap.clientTypePeriodic", FT_UINT32, BASE_DEC, VALS(ranap_ClientType_vals), 0, "ClientType", HFILL }}, { &hf_ranap_clientTypeDirect, { "clientTypeDirect", "ranap.clientTypeDirect", FT_UINT32, BASE_DEC, VALS(ranap_ClientType_vals), 0, "ClientType", HFILL }}, { &hf_ranap_responseTime, { "responseTime", "ranap.responseTime", FT_UINT32, BASE_DEC, VALS(ranap_ResponseTime_vals), 0, NULL, HFILL }}, { &hf_ranap_includeVelocity, { "includeVelocity", "ranap.includeVelocity", FT_UINT32, BASE_DEC, VALS(ranap_IncludeVelocity_vals), 0, NULL, HFILL }}, { &hf_ranap_periodicLocationInfo, { "periodicLocationInfo", "ranap.periodicLocationInfo_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_periodic, { "periodic", "ranap.periodic_element", FT_NONE, BASE_NONE, NULL, 0, "MDT_Report_Parameters", HFILL }}, { &hf_ranap_event1F, { "event1F", "ranap.event1F_element", FT_NONE, BASE_NONE, NULL, 0, "Event1F_Parameters", HFILL }}, { &hf_ranap_event1I, { "event1I", "ranap.event1I_element", FT_NONE, BASE_NONE, NULL, 0, "Event1I_Parameters", HFILL }}, { &hf_ranap_MBMSIPMulticastAddressandAPNRequest_item, { "TMGI", "ranap.TMGI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_cellbased, { "cellbased", "ranap.cellbased_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_labased, { "labased", "ranap.labased_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_rabased, { "rabased", "ranap.rabased_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_plmn_area_based, { "plmn-area-based", "ranap.plmn_area_based_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_mdtActivation, { "mdtActivation", "ranap.mdtActivation", FT_UINT32, BASE_DEC, VALS(ranap_MDT_Activation_vals), 0, "MDT_Activation", HFILL }}, { &hf_ranap_mdtAreaScope, { "mdtAreaScope", "ranap.mdtAreaScope", FT_UINT32, BASE_DEC, VALS(ranap_MDTAreaScope_vals), 0, NULL, HFILL }}, { &hf_ranap_mdtMode, { "mdtMode", "ranap.mdtMode", FT_UINT32, BASE_DEC, VALS(ranap_MDTMode_vals), 0, NULL, HFILL }}, { &hf_ranap_immediateMDT, { "immediateMDT", "ranap.immediateMDT_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_loggedMDT, { "loggedMDT", "ranap.loggedMDT_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_reportInterval, { "reportInterval", "ranap.reportInterval", FT_UINT32, BASE_DEC, VALS(ranap_ReportInterval_vals), 0, NULL, HFILL }}, { &hf_ranap_reportAmount, { "reportAmount", "ranap.reportAmount", FT_UINT32, BASE_DEC, VALS(ranap_ReportAmount_vals), 0, NULL, HFILL }}, { &hf_ranap_accessPointName, { "accessPointName", "ranap.accessPointName", FT_BYTES, BASE_NONE, NULL, 0, "Offload_RAB_Parameters_APN", HFILL }}, { &hf_ranap_chargingCharacteristics, { "chargingCharacteristics", "ranap.chargingCharacteristics", FT_BYTES, BASE_NONE, NULL, 0, "Offload_RAB_Parameters_ChargingCharacteristics", HFILL }}, { &hf_ranap_rAI, { "rAI", "ranap.rAI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_PDP_TypeInformation_item, { "PDP-Type", "ranap.PDP_Type", FT_UINT32, BASE_DEC, VALS(ranap_PDP_Type_vals), 0, NULL, HFILL }}, { &hf_ranap_PDP_TypeInformation_extension_item, { "PDP-Type-extension", "ranap.PDP_Type_extension", FT_UINT32, BASE_DEC, VALS(ranap_PDP_Type_extension_vals), 0, NULL, HFILL }}, { &hf_ranap_reportingAmount, { "reportingAmount", "ranap.reportingAmount", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_1_8639999_", HFILL }}, { &hf_ranap_reportingInterval, { "reportingInterval", "ranap.reportingInterval", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_1_8639999_", HFILL }}, { &hf_ranap_iMSI, { "iMSI", "ranap.iMSI", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_PermittedEncryptionAlgorithms_item, { "EncryptionAlgorithm", "ranap.EncryptionAlgorithm", FT_UINT32, BASE_DEC, VALS(ranap_EncryptionAlgorithm_vals), 0, NULL, HFILL }}, { &hf_ranap_PermittedIntegrityProtectionAlgorithms_item, { "IntegrityProtectionAlgorithm", "ranap.IntegrityProtectionAlgorithm", FT_UINT32, BASE_DEC, VALS(ranap_IntegrityProtectionAlgorithm_vals), 0, NULL, HFILL }}, { &hf_ranap_laiList, { "laiList", "ranap.laiList", FT_UINT32, BASE_DEC, NULL, 0, "LAI_List", HFILL }}, { &hf_ranap_LAI_List_item, { "LAI", "ranap.LAI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_loggingInterval, { "loggingInterval", "ranap.loggingInterval", FT_UINT32, BASE_DEC, VALS(ranap_LoggingInterval_vals), 0, NULL, HFILL }}, { &hf_ranap_loggingDuration, { "loggingDuration", "ranap.loggingDuration", FT_UINT32, BASE_DEC, VALS(ranap_LoggingDuration_vals), 0, NULL, HFILL }}, { &hf_ranap_PLMNs_in_shared_network_item, { "PLMNs-in-shared-network item", "ranap.PLMNs_in_shared_network_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_lA_LIST, { "lA-LIST", "ranap.lA_LIST", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_PositioningDataSet_item, { "PositioningMethodAndUsage", "ranap.PositioningMethodAndUsage", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_positioningDataDiscriminator, { "positioningDataDiscriminator", "ranap.positioningDataDiscriminator", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_positioningDataSet, { "positioningDataSet", "ranap.positioningDataSet", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_shared_network_information, { "shared-network-information", "ranap.shared_network_information_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_raiList, { "raiList", "ranap.raiList", FT_UINT32, BASE_DEC, NULL, 0, "RAI_List", HFILL }}, { &hf_ranap_RAI_List_item, { "RAI", "ranap.RAI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RABDataVolumeReport_item, { "RABDataVolumeReport item", "ranap.RABDataVolumeReport_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_dl_UnsuccessfullyTransmittedDataVolume, { "dl-UnsuccessfullyTransmittedDataVolume", "ranap.dl_UnsuccessfullyTransmittedDataVolume", FT_UINT32, BASE_DEC, NULL, 0, "UnsuccessfullyTransmittedDataVolume", HFILL }}, { &hf_ranap_dataVolumeReference, { "dataVolumeReference", "ranap.dataVolumeReference", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_Parameter_ExtendedGuaranteedBitrateList_item, { "ExtendedGuaranteedBitrate", "ranap.ExtendedGuaranteedBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_Parameter_ExtendedMaxBitrateList_item, { "ExtendedMaxBitrate", "ranap.ExtendedMaxBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_Parameter_GuaranteedBitrateList_item, { "GuaranteedBitrate", "ranap.GuaranteedBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_Parameter_MaxBitrateList_item, { "MaxBitrate", "ranap.MaxBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_trafficClass, { "trafficClass", "ranap.trafficClass", FT_UINT32, BASE_DEC, VALS(ranap_TrafficClass_vals), 0, NULL, HFILL }}, { &hf_ranap_rAB_AsymmetryIndicator, { "rAB-AsymmetryIndicator", "ranap.rAB_AsymmetryIndicator", FT_UINT32, BASE_DEC, VALS(ranap_RAB_AsymmetryIndicator_vals), 0, NULL, HFILL }}, { &hf_ranap_maxBitrate, { "maxBitrate", "ranap.maxBitrate", FT_UINT32, BASE_DEC, NULL, 0, "RAB_Parameter_MaxBitrateList", HFILL }}, { &hf_ranap_guaranteedBitRate, { "guaranteedBitRate", "ranap.guaranteedBitRate", FT_UINT32, BASE_DEC, NULL, 0, "RAB_Parameter_GuaranteedBitrateList", HFILL }}, { &hf_ranap_deliveryOrder, { "deliveryOrder", "ranap.deliveryOrder", FT_UINT32, BASE_DEC, VALS(ranap_DeliveryOrder_vals), 0, NULL, HFILL }}, { &hf_ranap_maxSDU_Size, { "maxSDU-Size", "ranap.maxSDU_Size", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_sDU_Parameters, { "sDU-Parameters", "ranap.sDU_Parameters", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_transferDelay, { "transferDelay", "ranap.transferDelay", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_trafficHandlingPriority, { "trafficHandlingPriority", "ranap.trafficHandlingPriority", FT_UINT32, BASE_DEC, VALS(ranap_TrafficHandlingPriority_vals), 0, NULL, HFILL }}, { &hf_ranap_allocationOrRetentionPriority, { "allocationOrRetentionPriority", "ranap.allocationOrRetentionPriority_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_sourceStatisticsDescriptor, { "sourceStatisticsDescriptor", "ranap.sourceStatisticsDescriptor", FT_UINT32, BASE_DEC, VALS(ranap_SourceStatisticsDescriptor_vals), 0, NULL, HFILL }}, { &hf_ranap_relocationRequirement, { "relocationRequirement", "ranap.relocationRequirement", FT_UINT32, BASE_DEC, VALS(ranap_RelocationRequirement_vals), 0, NULL, HFILL }}, { &hf_ranap_RABParametersList_item, { "RABParametersList item", "ranap.RABParametersList_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_rab_Id, { "rab-Id", "ranap.rab_Id", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_cn_domain, { "cn-domain", "ranap.cn_domain", FT_UINT32, BASE_DEC, VALS(ranap_CN_DomainIndicator_vals), 0, "CN_DomainIndicator", HFILL }}, { &hf_ranap_rabDataVolumeReport, { "rabDataVolumeReport", "ranap.rabDataVolumeReport", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_upInformation, { "upInformation", "ranap.upInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAB_TrCH_Mapping_item, { "RAB-TrCH-MappingItem", "ranap.RAB_TrCH_MappingItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_rAB_ID, { "rAB-ID", "ranap.rAB_ID", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_trCH_ID_List, { "trCH-ID-List", "ranap.trCH_ID_List", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_notEmptyRAListofIdleModeUEs, { "notEmptyRAListofIdleModeUEs", "ranap.notEmptyRAListofIdleModeUEs_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_emptyFullRAListofIdleModeUEs, { "emptyFullRAListofIdleModeUEs", "ranap.emptyFullRAListofIdleModeUEs", FT_UINT32, BASE_DEC, VALS(ranap_T_emptyFullRAListofIdleModeUEs_vals), 0, NULL, HFILL }}, { &hf_ranap_rAofIdleModeUEs, { "rAofIdleModeUEs", "ranap.rAofIdleModeUEs", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_RAofIdleModeUEs_item, { "RAC", "ranap.RAC", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_LAListofIdleModeUEs_item, { "LAI", "ranap.LAI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RequestedMBMSIPMulticastAddressandAPNRequest_item, { "MBMSIPMulticastAddressandAPNlist", "ranap.MBMSIPMulticastAddressandAPNlist_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_tMGI, { "tMGI", "ranap.tMGI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_iPMulticastAddress, { "iPMulticastAddress", "ranap.iPMulticastAddress", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_aPN, { "aPN", "ranap.aPN", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_RequestedMulticastServiceList_item, { "TMGI", "ranap.TMGI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_requestedMaxBitrates, { "requestedMaxBitrates", "ranap.requestedMaxBitrates", FT_UINT32, BASE_DEC, NULL, 0, "Requested_RAB_Parameter_MaxBitrateList", HFILL }}, { &hf_ranap_requestedGuaranteedBitrates, { "requestedGuaranteedBitrates", "ranap.requestedGuaranteedBitrates", FT_UINT32, BASE_DEC, NULL, 0, "Requested_RAB_Parameter_GuaranteedBitrateList", HFILL }}, { &hf_ranap_Requested_RAB_Parameter_ExtendedMaxBitrateList_item, { "ExtendedMaxBitrate", "ranap.ExtendedMaxBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList_item, { "ExtendedGuaranteedBitrate", "ranap.ExtendedGuaranteedBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Requested_RAB_Parameter_MaxBitrateList_item, { "MaxBitrate", "ranap.MaxBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_Requested_RAB_Parameter_GuaranteedBitrateList_item, { "GuaranteedBitrate", "ranap.GuaranteedBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_event, { "event", "ranap.event", FT_UINT32, BASE_DEC, VALS(ranap_Event_vals), 0, NULL, HFILL }}, { &hf_ranap_reportArea, { "reportArea", "ranap.reportArea", FT_UINT32, BASE_DEC, VALS(ranap_ReportArea_vals), 0, NULL, HFILL }}, { &hf_ranap_accuracyCode, { "accuracyCode", "ranap.accuracyCode", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_127", HFILL }}, { &hf_ranap_mantissa, { "mantissa", "ranap.mantissa", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_1_9", HFILL }}, { &hf_ranap_exponent, { "exponent", "ranap.exponent", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_1_8", HFILL }}, { &hf_ranap_rIMInformation, { "rIMInformation", "ranap.rIMInformation", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_rIMRoutingAddress, { "rIMRoutingAddress", "ranap.rIMRoutingAddress", FT_UINT32, BASE_DEC, VALS(ranap_RIMRoutingAddress_vals), 0, NULL, HFILL }}, { &hf_ranap_targetRNC_ID, { "targetRNC-ID", "ranap.targetRNC_ID_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_gERAN_Cell_ID, { "gERAN-Cell-ID", "ranap.gERAN_Cell_ID_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_targeteNB_ID, { "targeteNB-ID", "ranap.targeteNB_ID_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_traceReference, { "traceReference", "ranap.traceReference", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_traceActivationIndicator, { "traceActivationIndicator", "ranap.traceActivationIndicator", FT_UINT32, BASE_DEC, VALS(ranap_T_traceActivationIndicator_vals), 0, NULL, HFILL }}, { &hf_ranap_equipmentsToBeTraced, { "equipmentsToBeTraced", "ranap.equipmentsToBeTraced", FT_UINT32, BASE_DEC, VALS(ranap_EquipmentsToBeTraced_vals), 0, NULL, HFILL }}, { &hf_ranap_rabParmetersList, { "rabParmetersList", "ranap.rabParmetersList", FT_UINT32, BASE_DEC, NULL, 0, "RABParametersList", HFILL }}, { &hf_ranap_locationReporting, { "locationReporting", "ranap.locationReporting_element", FT_NONE, BASE_NONE, NULL, 0, "LocationReportingTransferInformation", HFILL }}, { &hf_ranap_traceInformation, { "traceInformation", "ranap.traceInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_sourceSAI, { "sourceSAI", "ranap.sourceSAI_element", FT_NONE, BASE_NONE, NULL, 0, "SAI", HFILL }}, { &hf_ranap_sAC, { "sAC", "ranap.sAC", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_pLMNs_in_shared_network, { "pLMNs-in-shared-network", "ranap.pLMNs_in_shared_network", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_exponent_1_8, { "exponent", "ranap.exponent", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_1_6", HFILL }}, { &hf_ranap_SDU_FormatInformationParameters_item, { "SDU-FormatInformationParameters item", "ranap.SDU_FormatInformationParameters_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_subflowSDU_Size, { "subflowSDU-Size", "ranap.subflowSDU_Size", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_rAB_SubflowCombinationBitRate, { "rAB-SubflowCombinationBitRate", "ranap.rAB_SubflowCombinationBitRate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_SDU_Parameters_item, { "SDU-Parameters item", "ranap.SDU_Parameters_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_sDU_ErrorRatio, { "sDU-ErrorRatio", "ranap.sDU_ErrorRatio_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_residualBitErrorRatio, { "residualBitErrorRatio", "ranap.residualBitErrorRatio_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_deliveryOfErroneousSDU, { "deliveryOfErroneousSDU", "ranap.deliveryOfErroneousSDU", FT_UINT32, BASE_DEC, VALS(ranap_DeliveryOfErroneousSDU_vals), 0, NULL, HFILL }}, { &hf_ranap_sDU_FormatInformationParameters, { "sDU-FormatInformationParameters", "ranap.sDU_FormatInformationParameters", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_authorisedPLMNs, { "authorisedPLMNs", "ranap.authorisedPLMNs", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_sourceUTRANCellID, { "sourceUTRANCellID", "ranap.sourceUTRANCellID_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_sourceGERANCellID, { "sourceGERANCellID", "ranap.sourceGERANCellID_element", FT_NONE, BASE_NONE, NULL, 0, "CGI", HFILL }}, { &hf_ranap_sourceRNC_ID, { "sourceRNC-ID", "ranap.sourceRNC_ID_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_rRC_Container, { "rRC-Container", "ranap.rRC_Container", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_numberOfIuInstances, { "numberOfIuInstances", "ranap.numberOfIuInstances", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_relocationType, { "relocationType", "ranap.relocationType", FT_UINT32, BASE_DEC, VALS(ranap_RelocationType_vals), 0, NULL, HFILL }}, { &hf_ranap_chosenIntegrityProtectionAlgorithm, { "chosenIntegrityProtectionAlgorithm", "ranap.chosenIntegrityProtectionAlgorithm", FT_UINT32, BASE_DEC, VALS(ranap_IntegrityProtectionAlgorithm_vals), 0, NULL, HFILL }}, { &hf_ranap_integrityProtectionKey, { "integrityProtectionKey", "ranap.integrityProtectionKey", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_chosenEncryptionAlgorithForSignalling, { "chosenEncryptionAlgorithForSignalling", "ranap.chosenEncryptionAlgorithForSignalling", FT_UINT32, BASE_DEC, VALS(ranap_EncryptionAlgorithm_vals), 0, "ChosenEncryptionAlgorithm", HFILL }}, { &hf_ranap_cipheringKey, { "cipheringKey", "ranap.cipheringKey", FT_BYTES, BASE_NONE, NULL, 0, "EncryptionKey", HFILL }}, { &hf_ranap_chosenEncryptionAlgorithForCS, { "chosenEncryptionAlgorithForCS", "ranap.chosenEncryptionAlgorithForCS", FT_UINT32, BASE_DEC, VALS(ranap_EncryptionAlgorithm_vals), 0, "ChosenEncryptionAlgorithm", HFILL }}, { &hf_ranap_chosenEncryptionAlgorithForPS, { "chosenEncryptionAlgorithForPS", "ranap.chosenEncryptionAlgorithForPS", FT_UINT32, BASE_DEC, VALS(ranap_EncryptionAlgorithm_vals), 0, "ChosenEncryptionAlgorithm", HFILL }}, { &hf_ranap_d_RNTI, { "d-RNTI", "ranap.d_RNTI", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_targetCellId, { "targetCellId", "ranap.targetCellId", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_rAB_TrCH_Mapping, { "rAB-TrCH-Mapping", "ranap.rAB_TrCH_Mapping", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_rSRP, { "rSRP", "ranap.rSRP", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_97", HFILL }}, { &hf_ranap_rSRQ, { "rSRQ", "ranap.rSRQ", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_34", HFILL }}, { &hf_ranap_iRATmeasurementParameters, { "iRATmeasurementParameters", "ranap.iRATmeasurementParameters_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_measurementDuration, { "measurementDuration", "ranap.measurementDuration", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_1_100", HFILL }}, { &hf_ranap_eUTRANFrequencies, { "eUTRANFrequencies", "ranap.eUTRANFrequencies", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_EUTRANFrequencies_item, { "EUTRANFrequencies item", "ranap.EUTRANFrequencies_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_earfcn, { "earfcn", "ranap.earfcn", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_65535", HFILL }}, { &hf_ranap_measBand, { "measBand", "ranap.measBand", FT_UINT32, BASE_DEC, VALS(ranap_MeasBand_vals), 0, NULL, HFILL }}, { &hf_ranap_SupportedRAB_ParameterBitrateList_item, { "SupportedBitrate", "ranap.SupportedBitrate", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_uTRANcellID, { "uTRANcellID", "ranap.uTRANcellID", FT_UINT32, BASE_DEC, NULL, 0, "TargetCellId", HFILL }}, { &hf_ranap_SRB_TrCH_Mapping_item, { "SRB-TrCH-MappingItem", "ranap.SRB_TrCH_MappingItem_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_sRB_ID, { "sRB-ID", "ranap.sRB_ID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_trCH_ID, { "trCH-ID", "ranap.trCH_ID_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_nonce, { "nonce", "ranap.nonce", FT_BYTES, BASE_NONE, NULL, 0, "BIT_STRING_SIZE_128", HFILL }}, { &hf_ranap_tAC, { "tAC", "ranap.tAC", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_cGI, { "cGI", "ranap.cGI_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_eNB_ID, { "eNB-ID", "ranap.eNB_ID", FT_UINT32, BASE_DEC, VALS(ranap_ENB_ID_vals), 0, NULL, HFILL }}, { &hf_ranap_selectedTAI, { "selectedTAI", "ranap.selectedTAI_element", FT_NONE, BASE_NONE, NULL, 0, "TAI", HFILL }}, { &hf_ranap_tMSI, { "tMSI", "ranap.tMSI", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_p_TMSI, { "p-TMSI", "ranap.p_TMSI", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_serviceID, { "serviceID", "ranap.serviceID", FT_BYTES, BASE_NONE, NULL, 0, "OCTET_STRING_SIZE_3", HFILL }}, { &hf_ranap_ue_identity, { "ue-identity", "ranap.ue_identity", FT_UINT32, BASE_DEC, VALS(ranap_UE_ID_vals), 0, "UE_ID", HFILL }}, { &hf_ranap_tracePropagationParameters, { "tracePropagationParameters", "ranap.tracePropagationParameters_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_traceRecordingSessionReference, { "traceRecordingSessionReference", "ranap.traceRecordingSessionReference", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_traceDepth, { "traceDepth", "ranap.traceDepth", FT_UINT32, BASE_DEC, VALS(ranap_TraceDepth_vals), 0, NULL, HFILL }}, { &hf_ranap_listOfInterfacesToTrace, { "listOfInterfacesToTrace", "ranap.listOfInterfacesToTrace", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_dCH_ID, { "dCH-ID", "ranap.dCH_ID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_dSCH_ID, { "dSCH-ID", "ranap.dSCH_ID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_uSCH_ID, { "uSCH-ID", "ranap.uSCH_ID", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_TrCH_ID_List_item, { "TrCH-ID", "ranap.TrCH_ID_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_uE_AggregateMaximumBitRateDownlink, { "uE-AggregateMaximumBitRateDownlink", "ranap.uE_AggregateMaximumBitRateDownlink", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_uE_AggregateMaximumBitRateUplink, { "uE-AggregateMaximumBitRateUplink", "ranap.uE_AggregateMaximumBitRateUplink", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_imsi, { "imsi", "ranap.imsi", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_imei, { "imei", "ranap.imei", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_imeisv, { "imeisv", "ranap.imeisv", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_uESBI_IuA, { "uESBI-IuA", "ranap.uESBI_IuA", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_uESBI_IuB, { "uESBI-IuB", "ranap.uESBI_IuB", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_frameSeqNoUL, { "frameSeqNoUL", "ranap.frameSeqNoUL", FT_UINT32, BASE_DEC, NULL, 0, "FrameSequenceNumber", HFILL }}, { &hf_ranap_frameSeqNoDL, { "frameSeqNoDL", "ranap.frameSeqNoDL", FT_UINT32, BASE_DEC, NULL, 0, "FrameSequenceNumber", HFILL }}, { &hf_ranap_pdu14FrameSeqNoUL, { "pdu14FrameSeqNoUL", "ranap.pdu14FrameSeqNoUL", FT_UINT32, BASE_DEC, NULL, 0, "PDUType14FrameSequenceNumber", HFILL }}, { &hf_ranap_pdu14FrameSeqNoDL, { "pdu14FrameSeqNoDL", "ranap.pdu14FrameSeqNoDL", FT_UINT32, BASE_DEC, NULL, 0, "PDUType14FrameSequenceNumber", HFILL }}, { &hf_ranap_dataPDUType, { "dataPDUType", "ranap.dataPDUType", FT_UINT32, BASE_DEC, VALS(ranap_DataPDUType_vals), 0, NULL, HFILL }}, { &hf_ranap_upinitialisationFrame, { "upinitialisationFrame", "ranap.upinitialisationFrame", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_horizontalVelocity, { "horizontalVelocity", "ranap.horizontalVelocity_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_horizontalWithVerticalVelocity, { "horizontalWithVerticalVelocity", "ranap.horizontalWithVerticalVelocity_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_horizontalVelocityWithUncertainty, { "horizontalVelocityWithUncertainty", "ranap.horizontalVelocityWithUncertainty_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_horizontalWithVeritcalVelocityAndUncertainty, { "horizontalWithVeritcalVelocityAndUncertainty", "ranap.horizontalWithVeritcalVelocityAndUncertainty_element", FT_NONE, BASE_NONE, NULL, 0, "HorizontalWithVerticalVelocityAndUncertainty", HFILL }}, { &hf_ranap_horizontalSpeedAndBearing, { "horizontalSpeedAndBearing", "ranap.horizontalSpeedAndBearing_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_veritcalVelocity, { "veritcalVelocity", "ranap.veritcalVelocity_element", FT_NONE, BASE_NONE, NULL, 0, "VerticalVelocity", HFILL }}, { &hf_ranap_uncertaintySpeed, { "uncertaintySpeed", "ranap.uncertaintySpeed", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_255", HFILL }}, { &hf_ranap_horizontalUncertaintySpeed, { "horizontalUncertaintySpeed", "ranap.horizontalUncertaintySpeed", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_255", HFILL }}, { &hf_ranap_verticalUncertaintySpeed, { "verticalUncertaintySpeed", "ranap.verticalUncertaintySpeed", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_255", HFILL }}, { &hf_ranap_bearing, { "bearing", "ranap.bearing", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_359", HFILL }}, { &hf_ranap_horizontalSpeed, { "horizontalSpeed", "ranap.horizontalSpeed", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_2047", HFILL }}, { &hf_ranap_veritcalSpeed, { "veritcalSpeed", "ranap.veritcalSpeed", FT_UINT32, BASE_DEC, NULL, 0, "INTEGER_0_255", HFILL }}, { &hf_ranap_veritcalSpeedDirection, { "veritcalSpeedDirection", "ranap.veritcalSpeedDirection", FT_UINT32, BASE_DEC, VALS(ranap_VerticalSpeedDirection_vals), 0, "VerticalSpeedDirection", HFILL }}, { &hf_ranap_protocolIEs, { "protocolIEs", "ranap.protocolIEs", FT_UINT32, BASE_DEC, NULL, 0, "ProtocolIE_Container", HFILL }}, { &hf_ranap_protocolExtensions, { "protocolExtensions", "ranap.protocolExtensions", FT_UINT32, BASE_DEC, NULL, 0, "ProtocolExtensionContainer", HFILL }}, { &hf_ranap_rab_dl_UnsuccessfullyTransmittedDataVolume, { "dl-UnsuccessfullyTransmittedDataVolume", "ranap.dl_UnsuccessfullyTransmittedDataVolume", FT_UINT32, BASE_DEC, NULL, 0, "DataVolumeList", HFILL }}, { &hf_ranap_dL_GTP_PDU_SequenceNumber, { "dL-GTP-PDU-SequenceNumber", "ranap.dL_GTP_PDU_SequenceNumber", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_uL_GTP_PDU_SequenceNumber, { "uL-GTP-PDU-SequenceNumber", "ranap.uL_GTP_PDU_SequenceNumber", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_transportLayerAddress, { "transportLayerAddress", "ranap.transportLayerAddress", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_iuTransportAssociation, { "iuTransportAssociation", "ranap.iuTransportAssociation", FT_UINT32, BASE_DEC, VALS(ranap_IuTransportAssociation_vals), 0, NULL, HFILL }}, { &hf_ranap_nAS_SynchronisationIndicator, { "nAS-SynchronisationIndicator", "ranap.nAS_SynchronisationIndicator", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_rAB_Parameters, { "rAB-Parameters", "ranap.rAB_Parameters_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_dataVolumeReportingIndication, { "dataVolumeReportingIndication", "ranap.dataVolumeReportingIndication", FT_UINT32, BASE_DEC, VALS(ranap_DataVolumeReportingIndication_vals), 0, NULL, HFILL }}, { &hf_ranap_pDP_TypeInformation, { "pDP-TypeInformation", "ranap.pDP_TypeInformation", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_userPlaneInformation, { "userPlaneInformation", "ranap.userPlaneInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_service_Handover, { "service-Handover", "ranap.service_Handover", FT_UINT32, BASE_DEC, VALS(ranap_Service_Handover_vals), 0, NULL, HFILL }}, { &hf_ranap_userPlaneMode, { "userPlaneMode", "ranap.userPlaneMode", FT_UINT32, BASE_DEC, VALS(ranap_UserPlaneMode_vals), 0, NULL, HFILL }}, { &hf_ranap_uP_ModeVersions, { "uP-ModeVersions", "ranap.uP_ModeVersions", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_joinedMBMSBearerService_IEs, { "joinedMBMSBearerService-IEs", "ranap.joinedMBMSBearerService_IEs", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_JoinedMBMSBearerService_IEs_item, { "JoinedMBMSBearerService-IEs item", "ranap.JoinedMBMSBearerService_IEs_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_mBMS_PTP_RAB_ID, { "mBMS-PTP-RAB-ID", "ranap.mBMS_PTP_RAB_ID", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_cause, { "cause", "ranap.cause", FT_UINT32, BASE_DEC, VALS(ranap_Cause_vals), 0, NULL, HFILL }}, { &hf_ranap_dl_GTP_PDU_SequenceNumber, { "dl-GTP-PDU-SequenceNumber", "ranap.dl_GTP_PDU_SequenceNumber", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_ul_GTP_PDU_SequenceNumber, { "ul-GTP-PDU-SequenceNumber", "ranap.ul_GTP_PDU_SequenceNumber", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_dl_N_PDU_SequenceNumber, { "dl-N-PDU-SequenceNumber", "ranap.dl_N_PDU_SequenceNumber", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_ul_N_PDU_SequenceNumber, { "ul-N-PDU-SequenceNumber", "ranap.ul_N_PDU_SequenceNumber", FT_UINT32, BASE_DEC, NULL, 0, NULL, HFILL }}, { &hf_ranap_iuSigConId, { "iuSigConId", "ranap.iuSigConId", FT_BYTES, BASE_NONE, NULL, 0, "IuSignallingConnectionIdentifier", HFILL }}, { &hf_ranap_transportLayerAddressReq1, { "transportLayerAddressReq1", "ranap.transportLayerAddressReq1", FT_BYTES, BASE_NONE, NULL, 0, "TransportLayerAddress", HFILL }}, { &hf_ranap_iuTransportAssociationReq1, { "iuTransportAssociationReq1", "ranap.iuTransportAssociationReq1", FT_UINT32, BASE_DEC, VALS(ranap_IuTransportAssociation_vals), 0, "IuTransportAssociation", HFILL }}, { &hf_ranap_ass_RAB_Parameters, { "ass-RAB-Parameters", "ranap.ass_RAB_Parameters_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_transportLayerAddressRes1, { "transportLayerAddressRes1", "ranap.transportLayerAddressRes1", FT_BYTES, BASE_NONE, NULL, 0, "TransportLayerAddress", HFILL }}, { &hf_ranap_iuTransportAssociationRes1, { "iuTransportAssociationRes1", "ranap.iuTransportAssociationRes1", FT_UINT32, BASE_DEC, VALS(ranap_IuTransportAssociation_vals), 0, "IuTransportAssociation", HFILL }}, { &hf_ranap_rab2beReleasedList, { "rab2beReleasedList", "ranap.rab2beReleasedList", FT_UINT32, BASE_DEC, NULL, 0, "RAB_ToBeReleasedList_EnhancedRelocCompleteRes", HFILL }}, { &hf_ranap_transportLayerInformation, { "transportLayerInformation", "ranap.transportLayerInformation_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_dl_dataVolumes, { "dl-dataVolumes", "ranap.dl_dataVolumes", FT_UINT32, BASE_DEC, NULL, 0, "DataVolumeList", HFILL }}, { &hf_ranap_DataVolumeList_item, { "DataVolumeList item", "ranap.DataVolumeList_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_gERAN_Classmark, { "gERAN-Classmark", "ranap.gERAN_Classmark", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_privateIEs, { "privateIEs", "ranap.privateIEs", FT_UINT32, BASE_DEC, NULL, 0, "PrivateIE_Container", HFILL }}, { &hf_ranap_nAS_PDU, { "nAS-PDU", "ranap.nAS_PDU", FT_BYTES, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_sAPI, { "sAPI", "ranap.sAPI", FT_UINT32, BASE_DEC, VALS(ranap_SAPI_vals), 0, NULL, HFILL }}, { &hf_ranap_cN_DomainIndicator, { "cN-DomainIndicator", "ranap.cN_DomainIndicator", FT_UINT32, BASE_DEC, VALS(ranap_CN_DomainIndicator_vals), 0, NULL, HFILL }}, { &hf_ranap_dataForwardingInformation, { "dataForwardingInformation", "ranap.dataForwardingInformation_element", FT_NONE, BASE_NONE, NULL, 0, "TNLInformationEnhRelInfoReq", HFILL }}, { &hf_ranap_sourceSideIuULTNLInfo, { "sourceSideIuULTNLInfo", "ranap.sourceSideIuULTNLInfo_element", FT_NONE, BASE_NONE, NULL, 0, "TNLInformationEnhRelInfoReq", HFILL }}, { &hf_ranap_alt_RAB_Parameters, { "alt-RAB-Parameters", "ranap.alt_RAB_Parameters_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_dataForwardingInformation_01, { "dataForwardingInformation", "ranap.dataForwardingInformation_element", FT_NONE, BASE_NONE, NULL, 0, "TNLInformationEnhRelInfoRes", HFILL }}, { &hf_ranap_dl_forwardingTransportLayerAddress, { "dl-forwardingTransportLayerAddress", "ranap.dl_forwardingTransportLayerAddress", FT_BYTES, BASE_NONE, NULL, 0, "TransportLayerAddress", HFILL }}, { &hf_ranap_dl_forwardingTransportAssociation, { "dl-forwardingTransportAssociation", "ranap.dl_forwardingTransportAssociation", FT_UINT32, BASE_DEC, VALS(ranap_IuTransportAssociation_vals), 0, "IuTransportAssociation", HFILL }}, { &hf_ranap_requested_RAB_Parameter_Values, { "requested-RAB-Parameter-Values", "ranap.requested_RAB_Parameter_Values_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_mBMSHCIndicator, { "mBMSHCIndicator", "ranap.mBMSHCIndicator", FT_UINT32, BASE_DEC, VALS(ranap_MBMSHCIndicator_vals), 0, NULL, HFILL }}, { &hf_ranap_gTPDLTEID, { "gTPDLTEID", "ranap.gTPDLTEID", FT_UINT32, BASE_HEX_DEC, NULL, 0, "GTP_TEI", HFILL }}, { &hf_ranap_LeftMBMSBearerService_IEs_item, { "LeftMBMSBearerService-IEs item", "ranap.LeftMBMSBearerService_IEs_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_UnsuccessfulLinking_IEs_item, { "UnsuccessfulLinking-IEs item", "ranap.UnsuccessfulLinking_IEs_item_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_initiatingMessage, { "initiatingMessage", "ranap.initiatingMessage_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_successfulOutcome, { "successfulOutcome", "ranap.successfulOutcome_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_unsuccessfulOutcome, { "unsuccessfulOutcome", "ranap.unsuccessfulOutcome_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_outcome, { "outcome", "ranap.outcome_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, { &hf_ranap_initiatingMessagevalue, { "value", "ranap.value_element", FT_NONE, BASE_NONE, NULL, 0, "InitiatingMessage_value", HFILL }}, { &hf_ranap_successfulOutcome_value, { "value", "ranap.value_element", FT_NONE, BASE_NONE, NULL, 0, "SuccessfulOutcome_value", HFILL }}, { &hf_ranap_unsuccessfulOutcome_value, { "value", "ranap.value_element", FT_NONE, BASE_NONE, NULL, 0, "UnsuccessfulOutcome_value", HFILL }}, { &hf_ranap_value, { "value", "ranap.value_element", FT_NONE, BASE_NONE, NULL, 0, NULL, HFILL }}, /*--- End of included file: packet-ranap-hfarr.c ---*/ #line 319 "../../asn1/ranap/packet-ranap-template.c" }; /* List of subtrees */ static gint *ett[] = { &ett_ranap, &ett_ranap_TransportLayerAddress, &ett_ranap_TransportLayerAddress_nsap, /*--- Included file: packet-ranap-ettarr.c ---*/ #line 1 "../../asn1/ranap/packet-ranap-ettarr.c" &ett_ranap_PrivateIE_ID, &ett_ranap_ProtocolIE_Container, &ett_ranap_ProtocolIE_Field, &ett_ranap_ProtocolIE_ContainerPair, &ett_ranap_ProtocolIE_FieldPair, &ett_ranap_ProtocolIE_ContainerList, &ett_ranap_ProtocolIE_ContainerPairList, &ett_ranap_ProtocolExtensionContainer, &ett_ranap_ProtocolExtensionField, &ett_ranap_PrivateIE_Container, &ett_ranap_PrivateIE_Field, &ett_ranap_AllocationOrRetentionPriority, &ett_ranap_Alt_RAB_Parameters, &ett_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf, &ett_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrates, &ett_ranap_Alt_RAB_Parameter_ExtendedGuaranteedBitrateList, &ett_ranap_Alt_RAB_Parameter_GuaranteedBitrateInf, &ett_ranap_Alt_RAB_Parameter_GuaranteedBitrates, &ett_ranap_Alt_RAB_Parameter_GuaranteedBitrateList, &ett_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf, &ett_ranap_Alt_RAB_Parameter_SupportedGuaranteedBitrates, &ett_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateInf, &ett_ranap_Alt_RAB_Parameter_ExtendedMaxBitrates, &ett_ranap_Alt_RAB_Parameter_ExtendedMaxBitrateList, &ett_ranap_Alt_RAB_Parameter_MaxBitrateInf, &ett_ranap_Alt_RAB_Parameter_MaxBitrates, &ett_ranap_Alt_RAB_Parameter_MaxBitrateList, &ett_ranap_Alt_RAB_Parameter_SupportedMaxBitrateInf, &ett_ranap_Alt_RAB_Parameter_SupportedMaxBitrates, &ett_ranap_AreaIdentity, &ett_ranap_Ass_RAB_Parameters, &ett_ranap_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList, &ett_ranap_Ass_RAB_Parameter_ExtendedMaxBitrateList, &ett_ranap_Ass_RAB_Parameter_GuaranteedBitrateList, &ett_ranap_Ass_RAB_Parameter_MaxBitrateList, &ett_ranap_AuthorisedPLMNs, &ett_ranap_AuthorisedPLMNs_item, &ett_ranap_AuthorisedSNAs, &ett_ranap_BroadcastAssistanceDataDecipheringKeys, &ett_ranap_Cause, &ett_ranap_CellBased, &ett_ranap_CellIdList, &ett_ranap_CellLoadInformation, &ett_ranap_CellLoadInformationGroup, &ett_ranap_CriticalityDiagnostics, &ett_ranap_CriticalityDiagnostics_IE_List, &ett_ranap_CriticalityDiagnostics_IE_List_item, &ett_ranap_MessageStructure, &ett_ranap_MessageStructure_item, &ett_ranap_CGI, &ett_ranap_CSG_Id_List, &ett_ranap_DeltaRAListofIdleModeUEs, &ett_ranap_NewRAListofIdleModeUEs, &ett_ranap_RAListwithNoIdleModeUEsAnyMore, &ett_ranap_ENB_ID, &ett_ranap_EncryptionInformation, &ett_ranap_EquipmentsToBeTraced, &ett_ranap_Event1F_Parameters, &ett_ranap_Event1I_Parameters, &ett_ranap_GANSS_PositioningDataSet, &ett_ranap_GeographicalArea, &ett_ranap_GeographicalCoordinates, &ett_ranap_GA_AltitudeAndDirection, &ett_ranap_GA_EllipsoidArc, &ett_ranap_GA_Point, &ett_ranap_GA_PointWithAltitude, &ett_ranap_GA_PointWithAltitudeAndUncertaintyEllipsoid, &ett_ranap_GA_PointWithUnCertainty, &ett_ranap_GA_PointWithUnCertaintyEllipse, &ett_ranap_GA_Polygon, &ett_ranap_GA_Polygon_item, &ett_ranap_GA_UncertaintyEllipse, &ett_ranap_GERAN_Cell_ID, &ett_ranap_GlobalCN_ID, &ett_ranap_GlobalRNC_ID, &ett_ranap_IMEIGroup, &ett_ranap_IMEIList, &ett_ranap_IMEISVGroup, &ett_ranap_IMEISVList, &ett_ranap_ImmediateMDT, &ett_ranap_InformationRequested, &ett_ranap_InformationRequestType, &ett_ranap_InformationTransferType, &ett_ranap_IntegrityProtectionInformation, &ett_ranap_InterSystemInformationTransferType, &ett_ranap_InterSystemInformation_TransparentContainer, &ett_ranap_IuTransportAssociation, &ett_ranap_LA_LIST, &ett_ranap_LA_LIST_item, &ett_ranap_LAI, &ett_ranap_LastKnownServiceArea, &ett_ranap_ListOF_SNAs, &ett_ranap_ListOfInterfacesToTrace, &ett_ranap_InterfacesToTraceItem, &ett_ranap_LocationRelatedDataRequestType, &ett_ranap_LocationReportingTransferInformation, &ett_ranap_M1Report, &ett_ranap_M2Report, &ett_ranap_MBMSIPMulticastAddressandAPNRequest, &ett_ranap_MDTAreaScope, &ett_ranap_MDT_Configuration, &ett_ranap_MDTMode, &ett_ranap_MDT_Report_Parameters, &ett_ranap_Offload_RAB_Parameters, &ett_ranap_PagingAreaID, &ett_ranap_PDP_TypeInformation, &ett_ranap_PDP_TypeInformation_extension, &ett_ranap_PeriodicLocationInfo, &ett_ranap_PermanentNAS_UE_ID, &ett_ranap_PermittedEncryptionAlgorithms, &ett_ranap_PermittedIntegrityProtectionAlgorithms, &ett_ranap_LABased, &ett_ranap_LAI_List, &ett_ranap_LoggedMDT, &ett_ranap_PLMNs_in_shared_network, &ett_ranap_PLMNs_in_shared_network_item, &ett_ranap_PositioningDataSet, &ett_ranap_PositionData, &ett_ranap_ProvidedData, &ett_ranap_RABased, &ett_ranap_RAI_List, &ett_ranap_RABDataVolumeReport, &ett_ranap_RABDataVolumeReport_item, &ett_ranap_RAB_Parameter_ExtendedGuaranteedBitrateList, &ett_ranap_RAB_Parameter_ExtendedMaxBitrateList, &ett_ranap_RAB_Parameter_GuaranteedBitrateList, &ett_ranap_RAB_Parameter_MaxBitrateList, &ett_ranap_RAB_Parameters, &ett_ranap_RABParametersList, &ett_ranap_RABParametersList_item, &ett_ranap_RAB_TrCH_Mapping, &ett_ranap_RAB_TrCH_MappingItem, &ett_ranap_RAI, &ett_ranap_RAListofIdleModeUEs, &ett_ranap_NotEmptyRAListofIdleModeUEs, &ett_ranap_RAofIdleModeUEs, &ett_ranap_LAListofIdleModeUEs, &ett_ranap_RequestedMBMSIPMulticastAddressandAPNRequest, &ett_ranap_MBMSIPMulticastAddressandAPNlist, &ett_ranap_RequestedMulticastServiceList, &ett_ranap_Requested_RAB_Parameter_Values, &ett_ranap_Requested_RAB_Parameter_ExtendedMaxBitrateList, &ett_ranap_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList, &ett_ranap_Requested_RAB_Parameter_MaxBitrateList, &ett_ranap_Requested_RAB_Parameter_GuaranteedBitrateList, &ett_ranap_RequestType, &ett_ranap_ResidualBitErrorRatio, &ett_ranap_RIM_Transfer, &ett_ranap_RIMRoutingAddress, &ett_ranap_RNCTraceInformation, &ett_ranap_RNSAPRelocationParameters, &ett_ranap_SAI, &ett_ranap_Shared_Network_Information, &ett_ranap_SDU_ErrorRatio, &ett_ranap_SDU_FormatInformationParameters, &ett_ranap_SDU_FormatInformationParameters_item, &ett_ranap_SDU_Parameters, &ett_ranap_SDU_Parameters_item, &ett_ranap_SNA_Access_Information, &ett_ranap_SourceCellID, &ett_ranap_SourceID, &ett_ranap_SourceRNC_ID, &ett_ranap_SourceRNC_ToTargetRNC_TransparentContainer, &ett_ranap_IRAT_Measurement_Configuration, &ett_ranap_IRATmeasurementParameters, &ett_ranap_EUTRANFrequencies, &ett_ranap_EUTRANFrequencies_item, &ett_ranap_SupportedRAB_ParameterBitrateList, &ett_ranap_SourceUTRANCellID, &ett_ranap_SRB_TrCH_Mapping, &ett_ranap_SRB_TrCH_MappingItem, &ett_ranap_SRVCC_Information, &ett_ranap_TAI, &ett_ranap_TargetID, &ett_ranap_TargetENB_ID, &ett_ranap_TargetRNC_ID, &ett_ranap_TargetRNC_ToSourceRNC_TransparentContainer, &ett_ranap_TemporaryUE_ID, &ett_ranap_TMGI, &ett_ranap_TraceInformation, &ett_ranap_TracePropagationParameters, &ett_ranap_TraceRecordingSessionInformation, &ett_ranap_TrCH_ID, &ett_ranap_TrCH_ID_List, &ett_ranap_UE_AggregateMaximumBitRate, &ett_ranap_UE_ID, &ett_ranap_UESBI_Iu, &ett_ranap_UPInformation, &ett_ranap_VelocityEstimate, &ett_ranap_HorizontalVelocity, &ett_ranap_HorizontalWithVerticalVelocity, &ett_ranap_HorizontalVelocityWithUncertainty, &ett_ranap_HorizontalWithVerticalVelocityAndUncertainty, &ett_ranap_HorizontalSpeedAndBearing, &ett_ranap_VerticalVelocity, &ett_ranap_Iu_ReleaseCommand, &ett_ranap_Iu_ReleaseComplete, &ett_ranap_RAB_DataVolumeReportItem, &ett_ranap_RAB_ReleasedItem_IuRelComp, &ett_ranap_RelocationRequired, &ett_ranap_RelocationCommand, &ett_ranap_RAB_RelocationReleaseItem, &ett_ranap_RAB_DataForwardingItem, &ett_ranap_RelocationPreparationFailure, &ett_ranap_RelocationRequest, &ett_ranap_RAB_SetupItem_RelocReq, &ett_ranap_UserPlaneInformation, &ett_ranap_CNMBMSLinkingInformation, &ett_ranap_JoinedMBMSBearerService_IEs, &ett_ranap_JoinedMBMSBearerService_IEs_item, &ett_ranap_RelocationRequestAcknowledge, &ett_ranap_RAB_SetupItem_RelocReqAck, &ett_ranap_RAB_FailedItem, &ett_ranap_RelocationFailure, &ett_ranap_RelocationCancel, &ett_ranap_RelocationCancelAcknowledge, &ett_ranap_SRNS_ContextRequest, &ett_ranap_RAB_DataForwardingItem_SRNS_CtxReq, &ett_ranap_SRNS_ContextResponse, &ett_ranap_RAB_ContextItem, &ett_ranap_RABs_ContextFailedtoTransferItem, &ett_ranap_SecurityModeCommand, &ett_ranap_SecurityModeComplete, &ett_ranap_SecurityModeReject, &ett_ranap_DataVolumeReportRequest, &ett_ranap_RAB_DataVolumeReportRequestItem, &ett_ranap_DataVolumeReport, &ett_ranap_RABs_failed_to_reportItem, &ett_ranap_Reset, &ett_ranap_ResetAcknowledge, &ett_ranap_ResetResource, &ett_ranap_ResetResourceItem, &ett_ranap_ResetResourceAcknowledge, &ett_ranap_ResetResourceAckItem, &ett_ranap_RAB_ReleaseRequest, &ett_ranap_RAB_ReleaseItem, &ett_ranap_Iu_ReleaseRequest, &ett_ranap_RelocationDetect, &ett_ranap_RelocationComplete, &ett_ranap_EnhancedRelocationCompleteRequest, &ett_ranap_RAB_SetupItem_EnhancedRelocCompleteReq, &ett_ranap_EnhancedRelocationCompleteResponse, &ett_ranap_RAB_SetupItem_EnhancedRelocCompleteRes, &ett_ranap_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes, &ett_ranap_EnhancedRelocationCompleteFailure, &ett_ranap_EnhancedRelocationCompleteConfirm, &ett_ranap_Paging, &ett_ranap_CommonID, &ett_ranap_CN_InvokeTrace, &ett_ranap_CN_DeactivateTrace, &ett_ranap_LocationReportingControl, &ett_ranap_LocationReport, &ett_ranap_InitialUE_Message, &ett_ranap_DirectTransfer, &ett_ranap_Overload, &ett_ranap_ErrorIndication, &ett_ranap_SRNS_DataForwardCommand, &ett_ranap_ForwardSRNS_Context, &ett_ranap_RAB_AssignmentRequest, &ett_ranap_RAB_SetupOrModifyItemFirst, &ett_ranap_TransportLayerInformation, &ett_ranap_RAB_SetupOrModifyItemSecond, &ett_ranap_RAB_AssignmentResponse, &ett_ranap_RAB_SetupOrModifiedItem, &ett_ranap_RAB_ReleasedItem, &ett_ranap_DataVolumeList, &ett_ranap_DataVolumeList_item, &ett_ranap_RAB_QueuedItem, &ett_ranap_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item, &ett_ranap_PrivateMessage, &ett_ranap_RANAP_RelocationInformation, &ett_ranap_DirectTransferInformationItem_RANAP_RelocInf, &ett_ranap_RAB_ContextItem_RANAP_RelocInf, &ett_ranap_RANAP_EnhancedRelocationInformationRequest, &ett_ranap_RAB_SetupItem_EnhRelocInfoReq, &ett_ranap_TNLInformationEnhRelInfoReq, &ett_ranap_RANAP_EnhancedRelocationInformationResponse, &ett_ranap_RAB_SetupItem_EnhRelocInfoRes, &ett_ranap_RAB_FailedItem_EnhRelocInfoRes, &ett_ranap_TNLInformationEnhRelInfoRes, &ett_ranap_RAB_ModifyRequest, &ett_ranap_RAB_ModifyItem, &ett_ranap_LocationRelatedDataRequest, &ett_ranap_LocationRelatedDataResponse, &ett_ranap_LocationRelatedDataFailure, &ett_ranap_InformationTransferIndication, &ett_ranap_InformationTransferConfirmation, &ett_ranap_InformationTransferFailure, &ett_ranap_UESpecificInformationIndication, &ett_ranap_DirectInformationTransfer, &ett_ranap_UplinkInformationExchangeRequest, &ett_ranap_UplinkInformationExchangeResponse, &ett_ranap_UplinkInformationExchangeFailure, &ett_ranap_MBMSSessionStart, &ett_ranap_MBMSSynchronisationInformation, &ett_ranap_MBMSSessionStartResponse, &ett_ranap_MBMSSessionStartFailure, &ett_ranap_MBMSSessionUpdate, &ett_ranap_MBMSSessionUpdateResponse, &ett_ranap_MBMSSessionUpdateFailure, &ett_ranap_MBMSSessionStop, &ett_ranap_MBMSSessionStopResponse, &ett_ranap_MBMSUELinkingRequest, &ett_ranap_LeftMBMSBearerService_IEs, &ett_ranap_LeftMBMSBearerService_IEs_item, &ett_ranap_MBMSUELinkingResponse, &ett_ranap_UnsuccessfulLinking_IEs, &ett_ranap_UnsuccessfulLinking_IEs_item, &ett_ranap_MBMSRegistrationRequest, &ett_ranap_MBMSRegistrationResponse, &ett_ranap_MBMSRegistrationFailure, &ett_ranap_MBMSCNDe_RegistrationRequest, &ett_ranap_MBMSCNDe_RegistrationResponse, &ett_ranap_MBMSRABEstablishmentIndication, &ett_ranap_MBMSRABReleaseRequest, &ett_ranap_MBMSRABRelease, &ett_ranap_MBMSRABReleaseFailure, &ett_ranap_SRVCC_CSKeysRequest, &ett_ranap_SRVCC_CSKeysResponse, &ett_ranap_RANAP_PDU, &ett_ranap_InitiatingMessage, &ett_ranap_SuccessfulOutcome, &ett_ranap_UnsuccessfulOutcome, &ett_ranap_Outcome, /*--- End of included file: packet-ranap-ettarr.c ---*/ #line 327 "../../asn1/ranap/packet-ranap-template.c" }; /* Register protocol */ proto_ranap = proto_register_protocol(PNAME, PSNAME, PFNAME); /* Register fields and subtrees */ proto_register_field_array(proto_ranap, hf, array_length(hf)); proto_register_subtree_array(ett, array_length(ett)); /* Register dissector */ register_dissector("ranap", dissect_ranap, proto_ranap); /* Register dissector tables */ ranap_ies_dissector_table = register_dissector_table("ranap.ies", "RANAP-PROTOCOL-IES", FT_UINT32, BASE_DEC); ranap_ies_p1_dissector_table = register_dissector_table("ranap.ies.pair.first", "RANAP-PROTOCOL-IES-PAIR FirstValue", FT_UINT32, BASE_DEC); ranap_ies_p2_dissector_table = register_dissector_table("ranap.ies.pair.second", "RANAP-PROTOCOL-IES-PAIR SecondValue", FT_UINT32, BASE_DEC); ranap_extension_dissector_table = register_dissector_table("ranap.extension", "RANAP-PROTOCOL-EXTENSION", FT_UINT32, BASE_DEC); ranap_proc_imsg_dissector_table = register_dissector_table("ranap.proc.imsg", "RANAP-ELEMENTARY-PROCEDURE InitiatingMessage", FT_UINT32, BASE_DEC); ranap_proc_sout_dissector_table = register_dissector_table("ranap.proc.sout", "RANAP-ELEMENTARY-PROCEDURE SuccessfulOutcome", FT_UINT32, BASE_DEC); ranap_proc_uout_dissector_table = register_dissector_table("ranap.proc.uout", "RANAP-ELEMENTARY-PROCEDURE UnsuccessfulOutcome", FT_UINT32, BASE_DEC); ranap_proc_out_dissector_table = register_dissector_table("ranap.proc.out", "RANAP-ELEMENTARY-PROCEDURE Outcome", FT_UINT32, BASE_DEC); nas_pdu_dissector_table = register_dissector_table("ranap.nas_pdu", "RANAP NAS PDU", FT_UINT8, BASE_DEC); ranap_module = prefs_register_protocol(proto_ranap, proto_reg_handoff_ranap); prefs_register_uint_preference(ranap_module, "sccp_ssn", "SCCP SSN for RANAP", "The SCCP SubSystem Number for RANAP (default 142)", 10, &global_ranap_sccp_ssn); prefs_register_bool_preference(ranap_module, "dissect_rrc_container", "Attempt to dissect RRC-Container", "Attempt to dissect RRC message embedded in RRC-Container IE", &glbl_dissect_container); } /*--- proto_reg_handoff_ranap ---------------------------------------*/ void proto_reg_handoff_ranap(void) { static gboolean initialized = FALSE; static dissector_handle_t ranap_handle; static gint local_ranap_sccp_ssn; if (!initialized) { ranap_handle = find_dissector("ranap"); rrc_s_to_trnc_handle = find_dissector("rrc.s_to_trnc_cont"); rrc_t_to_srnc_handle = find_dissector("rrc.t_to_srnc_cont"); rrc_ho_to_utran_cmd = find_dissector("rrc.irat.ho_to_utran_cmd"); initialized = TRUE; /*--- Included file: packet-ranap-dis-tab.c ---*/ #line 1 "../../asn1/ranap/packet-ranap-dis-tab.c" dissector_add_uint("ranap.ies", id_Cause, new_create_dissector_handle(dissect_Cause_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_DataVolumeReportList, new_create_dissector_handle(dissect_RAB_DataVolumeReportList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ReleasedList_IuRelComp, new_create_dissector_handle(dissect_RAB_ReleasedList_IuRelComp_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_CriticalityDiagnostics, new_create_dissector_handle(dissect_CriticalityDiagnostics_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_DataVolumeReportItem, new_create_dissector_handle(dissect_RAB_DataVolumeReportItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ReleasedItem_IuRelComp, new_create_dissector_handle(dissect_RAB_ReleasedItem_IuRelComp_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RelocationType, new_create_dissector_handle(dissect_RelocationType_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_SourceID, new_create_dissector_handle(dissect_SourceID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_Source_ToTarget_TransparentContainer, new_create_dissector_handle(dissect_ranap_SourceRNC_ToTargetRNC_TransparentContainer_PDU, proto_ranap)); dissector_add_uint("ranap.ies", SPECIAL|id_Source_ToTarget_TransparentContainer, new_create_dissector_handle(dissect_Source_ToTarget_TransparentContainer_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_TargetID, new_create_dissector_handle(dissect_TargetID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_Target_ToSource_TransparentContainer, new_create_dissector_handle(dissect_ranap_TargetRNC_ToSourceRNC_TransparentContainer_PDU, proto_ranap)); dissector_add_uint("ranap.ies", SPECIAL|id_Target_ToSource_TransparentContainer, new_create_dissector_handle(dissect_Target_ToSource_TransparentContainer_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_ClassmarkInformation2, new_create_dissector_handle(dissect_ClassmarkInformation2_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_ClassmarkInformation3, new_create_dissector_handle(dissect_ClassmarkInformation3_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_OldBSS_ToNewBSS_Information, new_create_dissector_handle(dissect_OldBSS_ToNewBSS_Information_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_L3_Information, new_create_dissector_handle(dissect_L3_Information_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_RelocationReleaseList, new_create_dissector_handle(dissect_RAB_RelocationReleaseList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_DataForwardingList, new_create_dissector_handle(dissect_RAB_DataForwardingList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_RelocationReleaseItem, new_create_dissector_handle(dissect_RAB_RelocationReleaseItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_DataForwardingItem, new_create_dissector_handle(dissect_RAB_DataForwardingItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_PermanentNAS_UE_ID, new_create_dissector_handle(dissect_PermanentNAS_UE_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_CN_DomainIndicator, new_create_dissector_handle(dissect_CN_DomainIndicator_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupList_RelocReq, new_create_dissector_handle(dissect_RAB_SetupList_RelocReq_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_IntegrityProtectionInformation, new_create_dissector_handle(dissect_IntegrityProtectionInformation_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_EncryptionInformation, new_create_dissector_handle(dissect_EncryptionInformation_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_IuSigConId, new_create_dissector_handle(dissect_IuSignallingConnectionIdentifier_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_DirectTransferInformationList_RANAP_RelocInf, new_create_dissector_handle(dissect_DirectTransferInformationList_RANAP_RelocInf_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_DirectTransferInformationItem_RANAP_RelocInf, new_create_dissector_handle(dissect_DirectTransferInformationItem_RANAP_RelocInf_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupItem_RelocReq, new_create_dissector_handle(dissect_RAB_SetupItem_RelocReq_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupList_RelocReqAck, new_create_dissector_handle(dissect_RAB_SetupList_RelocReqAck_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_FailedList, new_create_dissector_handle(dissect_RAB_FailedList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_ChosenIntegrityProtectionAlgorithm, new_create_dissector_handle(dissect_ChosenIntegrityProtectionAlgorithm_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_ChosenEncryptionAlgorithm, new_create_dissector_handle(dissect_ChosenEncryptionAlgorithm_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupItem_RelocReqAck, new_create_dissector_handle(dissect_RAB_SetupItem_RelocReqAck_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_FailedItem, new_create_dissector_handle(dissect_RAB_FailedItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_DataForwardingList_SRNS_CtxReq, new_create_dissector_handle(dissect_RAB_DataForwardingList_SRNS_CtxReq_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_DataForwardingItem_SRNS_CtxReq, new_create_dissector_handle(dissect_RAB_DataForwardingItem_SRNS_CtxReq_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ContextList, new_create_dissector_handle(dissect_RAB_ContextList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ContextFailedtoTransferList, new_create_dissector_handle(dissect_RAB_ContextFailedtoTransferList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ContextItem, new_create_dissector_handle(dissect_RAB_ContextItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ContextFailedtoTransferItem, new_create_dissector_handle(dissect_RABs_ContextFailedtoTransferItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_KeyStatus, new_create_dissector_handle(dissect_KeyStatus_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_DataVolumeReportRequestList, new_create_dissector_handle(dissect_RAB_DataVolumeReportRequestList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_DataVolumeReportRequestItem, new_create_dissector_handle(dissect_RAB_DataVolumeReportRequestItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_FailedtoReportList, new_create_dissector_handle(dissect_RAB_FailedtoReportList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_FailedtoReportItem, new_create_dissector_handle(dissect_RABs_failed_to_reportItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_GlobalRNC_ID, new_create_dissector_handle(dissect_GlobalRNC_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", IMSG|id_IuSigConIdList, new_create_dissector_handle(dissect_ResetResourceList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", IMSG|id_IuSigConIdItem, new_create_dissector_handle(dissect_ResetResourceItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", SOUT|id_IuSigConIdList, new_create_dissector_handle(dissect_ResetResourceAckList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", SOUT|id_IuSigConIdItem, new_create_dissector_handle(dissect_ResetResourceAckItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ReleaseList, new_create_dissector_handle(dissect_RAB_ReleaseList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ReleaseItem, new_create_dissector_handle(dissect_RAB_ReleaseItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_TemporaryUE_ID, new_create_dissector_handle(dissect_TemporaryUE_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_PagingAreaID, new_create_dissector_handle(dissect_PagingAreaID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_PagingCause, new_create_dissector_handle(dissect_PagingCause_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_NonSearchingIndication, new_create_dissector_handle(dissect_NonSearchingIndication_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_DRX_CycleLengthCoefficient, new_create_dissector_handle(dissect_DRX_CycleLengthCoefficient_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_TraceType, new_create_dissector_handle(dissect_TraceType_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_TraceReference, new_create_dissector_handle(dissect_TraceReference_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_TriggerID, new_create_dissector_handle(dissect_TriggerID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_UE_ID, new_create_dissector_handle(dissect_UE_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_OMC_ID, new_create_dissector_handle(dissect_OMC_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RequestType, new_create_dissector_handle(dissect_RequestType_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_AreaIdentity, new_create_dissector_handle(dissect_AreaIdentity_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_LAI, new_create_dissector_handle(dissect_LAI_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAC, new_create_dissector_handle(dissect_RAC_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_SAI, new_create_dissector_handle(dissect_SAI_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_NAS_PDU, new_create_dissector_handle(dissect_NAS_PDU_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_SAPI, new_create_dissector_handle(dissect_SAPI_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RejectCauseValue, new_create_dissector_handle(dissect_RejectCauseValue_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_NAS_SequenceNumber, new_create_dissector_handle(dissect_NAS_SequenceNumber_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_NumberOfSteps, new_create_dissector_handle(dissect_NumberOfSteps_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupOrModifyList, new_create_dissector_handle(dissect_RAB_SetupOrModifyList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupOrModifiedList, new_create_dissector_handle(dissect_RAB_SetupOrModifiedList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ReleasedList, new_create_dissector_handle(dissect_RAB_ReleasedList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_QueuedList, new_create_dissector_handle(dissect_RAB_QueuedList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ReleaseFailedList, new_create_dissector_handle(dissect_RAB_ReleaseFailedList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupOrModifiedItem, new_create_dissector_handle(dissect_RAB_SetupOrModifiedItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ReleasedItem, new_create_dissector_handle(dissect_RAB_ReleasedItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_QueuedItem, new_create_dissector_handle(dissect_RAB_QueuedItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item, new_create_dissector_handle(dissect_GERAN_Iumode_RAB_Failed_RABAssgntResponse_Item_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ContextList_RANAP_RelocInf, new_create_dissector_handle(dissect_RAB_ContextList_RANAP_RelocInf_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ContextItem_RANAP_RelocInf, new_create_dissector_handle(dissect_RAB_ContextItem_RANAP_RelocInf_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ModifyList, new_create_dissector_handle(dissect_RAB_ModifyList_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ModifyItem, new_create_dissector_handle(dissect_RAB_ModifyItem_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_LocationRelatedDataRequestType, new_create_dissector_handle(dissect_LocationRelatedDataRequestType_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_BroadcastAssistanceDataDecipheringKeys, new_create_dissector_handle(dissect_BroadcastAssistanceDataDecipheringKeys_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_InformationTransferID, new_create_dissector_handle(dissect_InformationTransferID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_ProvidedData, new_create_dissector_handle(dissect_ProvidedData_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_GlobalCN_ID, new_create_dissector_handle(dissect_GlobalCN_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_UESBI_Iu, new_create_dissector_handle(dissect_UESBI_Iu_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_InterSystemInformationTransferType, new_create_dissector_handle(dissect_InterSystemInformationTransferType_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_InformationExchangeID, new_create_dissector_handle(dissect_InformationExchangeID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_InformationExchangeType, new_create_dissector_handle(dissect_InformationExchangeType_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_InformationTransferType, new_create_dissector_handle(dissect_InformationTransferType_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_InformationRequestType, new_create_dissector_handle(dissect_InformationRequestType_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_InformationRequested, new_create_dissector_handle(dissect_InformationRequested_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_TMGI, new_create_dissector_handle(dissect_TMGI_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_MBMSSessionIdentity, new_create_dissector_handle(dissect_MBMSSessionIdentity_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_MBMSBearerServiceType, new_create_dissector_handle(dissect_MBMSBearerServiceType_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_Parameters, new_create_dissector_handle(dissect_RAB_Parameters_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_PDP_TypeInformation, new_create_dissector_handle(dissect_PDP_TypeInformation_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_MBMSSessionDuration, new_create_dissector_handle(dissect_MBMSSessionDuration_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_MBMSServiceArea, new_create_dissector_handle(dissect_MBMSServiceArea_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_FrequenceLayerConvergenceFlag, new_create_dissector_handle(dissect_FrequenceLayerConvergenceFlag_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAListofIdleModeUEs, new_create_dissector_handle(dissect_RAListofIdleModeUEs_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_MBMSSessionRepetitionNumber, new_create_dissector_handle(dissect_MBMSSessionRepetitionNumber_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_TimeToMBMSDataTransfer, new_create_dissector_handle(dissect_TimeToMBMSDataTransfer_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_TransportLayerInformation, new_create_dissector_handle(dissect_TransportLayerInformation_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_SessionUpdateID, new_create_dissector_handle(dissect_SessionUpdateID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_DeltaRAListofIdleModeUEs, new_create_dissector_handle(dissect_DeltaRAListofIdleModeUEs_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_MBMSCNDe_Registration, new_create_dissector_handle(dissect_MBMSCNDe_Registration_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_JoinedMBMSBearerServicesList, new_create_dissector_handle(dissect_JoinedMBMSBearerService_IEs_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_LeftMBMSBearerServicesList, new_create_dissector_handle(dissect_LeftMBMSBearerService_IEs_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_UnsuccessfulLinkingList, new_create_dissector_handle(dissect_UnsuccessfulLinking_IEs_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_MBMSRegistrationRequestType, new_create_dissector_handle(dissect_MBMSRegistrationRequestType_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_IPMulticastAddress, new_create_dissector_handle(dissect_IPMulticastAddress_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_APN, new_create_dissector_handle(dissect_APN_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupList_EnhancedRelocCompleteReq, new_create_dissector_handle(dissect_RAB_SetupList_EnhancedRelocCompleteReq_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupItem_EnhancedRelocCompleteReq, new_create_dissector_handle(dissect_RAB_SetupItem_EnhancedRelocCompleteReq_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupList_EnhancedRelocCompleteRes, new_create_dissector_handle(dissect_RAB_SetupList_EnhancedRelocCompleteRes_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupItem_EnhancedRelocCompleteRes, new_create_dissector_handle(dissect_RAB_SetupItem_EnhancedRelocCompleteRes_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupList_EnhRelocInfoReq, new_create_dissector_handle(dissect_RAB_SetupList_EnhRelocInfoReq_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupItem_EnhRelocInfoReq, new_create_dissector_handle(dissect_RAB_SetupItem_EnhRelocInfoReq_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupList_EnhRelocInfoRes, new_create_dissector_handle(dissect_RAB_SetupList_EnhRelocInfoRes_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_SetupItem_EnhRelocInfoRes, new_create_dissector_handle(dissect_RAB_SetupItem_EnhRelocInfoRes_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_OldIuSigConId, new_create_dissector_handle(dissect_IuSignallingConnectionIdentifier_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_FailedList_EnhRelocInfoRes, new_create_dissector_handle(dissect_RAB_FailedList_EnhRelocInfoRes_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_FailedItem_EnhRelocInfoRes, new_create_dissector_handle(dissect_RAB_FailedItem_EnhRelocInfoRes_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_OldIuSigConIdCS, new_create_dissector_handle(dissect_IuSignallingConnectionIdentifier_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_OldIuSigConIdPS, new_create_dissector_handle(dissect_IuSignallingConnectionIdentifier_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_GlobalCN_IDCS, new_create_dissector_handle(dissect_GlobalCN_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes, new_create_dissector_handle(dissect_RAB_ToBeReleasedItem_EnhancedRelocCompleteRes_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_RAB_ToBeReleasedList_EnhancedRelocCompleteRes, new_create_dissector_handle(dissect_RAB_ToBeReleasedList_EnhancedRelocCompleteRes_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_Relocation_TargetRNC_ID, new_create_dissector_handle(dissect_GlobalRNC_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_Relocation_TargetExtendedRNC_ID, new_create_dissector_handle(dissect_ExtendedRNC_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf, new_create_dissector_handle(dissect_Alt_RAB_Parameter_SupportedGuaranteedBitrateInf_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_Alt_RAB_Parameter_SupportedMaxBitrateInf, new_create_dissector_handle(dissect_Alt_RAB_Parameter_SupportedMaxBitrateInf_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_Relocation_SourceRNC_ID, new_create_dissector_handle(dissect_GlobalRNC_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_Relocation_SourceExtendedRNC_ID, new_create_dissector_handle(dissect_ExtendedRNC_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_EncryptionKey, new_create_dissector_handle(dissect_EncryptionKey_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_IntegrityProtectionKey, new_create_dissector_handle(dissect_IntegrityProtectionKey_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_SRVCC_Information, new_create_dissector_handle(dissect_SRVCC_Information_PDU, proto_ranap)); dissector_add_uint("ranap.ies", id_GlobalCN_IDPS, new_create_dissector_handle(dissect_GlobalCN_ID_PDU, proto_ranap)); dissector_add_uint("ranap.ies.pair.first", id_RAB_SetupOrModifyItem, new_create_dissector_handle(dissect_RAB_SetupOrModifyItemFirst_PDU, proto_ranap)); dissector_add_uint("ranap.ies.pair.second", id_RAB_SetupOrModifyItem, new_create_dissector_handle(dissect_RAB_SetupOrModifyItemSecond_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_AlternativeRABConfiguration, new_create_dissector_handle(dissect_RAB_Parameters_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf, new_create_dissector_handle(dissect_Alt_RAB_Parameter_ExtendedGuaranteedBitrateInf_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Alt_RAB_Parameter_ExtendedMaxBitrateInf, new_create_dissector_handle(dissect_Alt_RAB_Parameter_ExtendedMaxBitrateInf_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList, new_create_dissector_handle(dissect_Ass_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Ass_RAB_Parameter_ExtendedMaxBitrateList, new_create_dissector_handle(dissect_Ass_RAB_Parameter_ExtendedMaxBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_MessageStructure, new_create_dissector_handle(dissect_MessageStructure_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_TypeOfError, new_create_dissector_handle(dissect_TypeOfError_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RAC, new_create_dissector_handle(dissect_RAC_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_newLAListofIdleModeUEs, new_create_dissector_handle(dissect_LAListofIdleModeUEs_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_LAListwithNoIdleModeUEsAnyMore, new_create_dissector_handle(dissect_LAListofIdleModeUEs_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_GANSS_PositioningDataSet, new_create_dissector_handle(dissect_GANSS_PositioningDataSet_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_SignallingIndication, new_create_dissector_handle(dissect_SignallingIndication_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RAB_Parameter_ExtendedGuaranteedBitrateList, new_create_dissector_handle(dissect_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RAB_Parameter_ExtendedMaxBitrateList, new_create_dissector_handle(dissect_RAB_Parameter_ExtendedMaxBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_CN_DomainIndicator, new_create_dissector_handle(dissect_CN_DomainIndicator_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_LAofIdleModeUEs, new_create_dissector_handle(dissect_LAListofIdleModeUEs_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_AlternativeRABConfigurationRequest, new_create_dissector_handle(dissect_AlternativeRABConfigurationRequest_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Requested_RAB_Parameter_ExtendedMaxBitrateList, new_create_dissector_handle(dissect_Requested_RAB_Parameter_ExtendedMaxBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList, new_create_dissector_handle(dissect_Requested_RAB_Parameter_ExtendedGuaranteedBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_ExtendedRNC_ID, new_create_dissector_handle(dissect_ExtendedRNC_ID_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_SRB_TrCH_Mapping, new_create_dissector_handle(dissect_SRB_TrCH_Mapping_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_CellLoadInformationGroup, new_create_dissector_handle(dissect_CellLoadInformationGroup_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_TraceRecordingSessionInformation, new_create_dissector_handle(dissect_TraceRecordingSessionInformation_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_MBMSLinkingInformation, new_create_dissector_handle(dissect_MBMSLinkingInformation_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_hS_DSCH_MAC_d_Flow_ID, new_create_dissector_handle(dissect_HS_DSCH_MAC_d_Flow_ID_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_E_DCH_MAC_d_Flow_ID, new_create_dissector_handle(dissect_E_DCH_MAC_d_Flow_ID_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_GERAN_Classmark, new_create_dissector_handle(dissect_GERAN_Classmark_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_SourceBSS_ToTargetBSS_TransparentContainer, new_create_dissector_handle(dissect_SourceBSS_ToTargetBSS_TransparentContainer_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_TransportLayerAddress, new_create_dissector_handle(dissect_TransportLayerAddress_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_IuTransportAssociation, new_create_dissector_handle(dissect_IuTransportAssociation_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_InterSystemInformation_TransparentContainer, new_create_dissector_handle(dissect_ranap_InterSystemInformation_TransparentContainer_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_TargetBSS_ToSourceBSS_TransparentContainer, new_create_dissector_handle(dissect_TargetBSS_ToSourceBSS_TransparentContainer_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Alt_RAB_Parameters, new_create_dissector_handle(dissect_Alt_RAB_Parameters_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_GERAN_BSC_Container, new_create_dissector_handle(dissect_GERAN_BSC_Container_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_GlobalCN_ID, new_create_dissector_handle(dissect_GlobalCN_ID_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_SNA_Access_Information, new_create_dissector_handle(dissect_SNA_Access_Information_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_UESBI_Iu, new_create_dissector_handle(dissect_UESBI_Iu_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_SelectedPLMN_ID, new_create_dissector_handle(dissect_PLMNidentity_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_CNMBMSLinkingInformation, new_create_dissector_handle(dissect_CNMBMSLinkingInformation_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Ass_RAB_Parameters, new_create_dissector_handle(dissect_Ass_RAB_Parameters_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_NewBSS_To_OldBSS_Information, new_create_dissector_handle(dissect_NewBSS_To_OldBSS_Information_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RAT_Type, new_create_dissector_handle(dissect_RAT_Type_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_TracePropagationParameters, new_create_dissector_handle(dissect_TracePropagationParameters_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_VerticalAccuracyCode, new_create_dissector_handle(dissect_VerticalAccuracyCode_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_ResponseTime, new_create_dissector_handle(dissect_ResponseTime_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_PositioningPriority, new_create_dissector_handle(dissect_PositioningPriority_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_ClientType, new_create_dissector_handle(dissect_ClientType_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_IncludeVelocity, new_create_dissector_handle(dissect_IncludeVelocity_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_PeriodicLocationInfo, new_create_dissector_handle(dissect_PeriodicLocationInfo_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_LastKnownServiceArea, new_create_dissector_handle(dissect_LastKnownServiceArea_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_PositionData, new_create_dissector_handle(dissect_PositionData_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_PositionDataSpecificToGERANIuMode, new_create_dissector_handle(dissect_PositionDataSpecificToGERANIuMode_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_AccuracyFulfilmentIndicator, new_create_dissector_handle(dissect_AccuracyFulfilmentIndicator_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_VelocityEstimate, new_create_dissector_handle(dissect_VelocityEstimate_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_PermanentNAS_UE_ID, new_create_dissector_handle(dissect_PermanentNAS_UE_ID_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_NAS_SequenceNumber, new_create_dissector_handle(dissect_NAS_SequenceNumber_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RedirectAttemptFlag, new_create_dissector_handle(dissect_RedirectAttemptFlag_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RedirectionIndication, new_create_dissector_handle(dissect_RedirectionIndication_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RedirectionCompleted, new_create_dissector_handle(dissect_RedirectionCompleted_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_SourceRNC_PDCP_context_info, new_create_dissector_handle(dissect_RRC_Container_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_GERAN_Iumode_RAB_FailedList_RABAssgntResponse, new_create_dissector_handle(dissect_GERAN_Iumode_RAB_FailedList_RABAssgntResponse_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_LocationRelatedDataRequestTypeSpecificToGERANIuMode, new_create_dissector_handle(dissect_LocationRelatedDataRequestTypeSpecificToGERANIuMode_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RequestedGANSSAssistanceData, new_create_dissector_handle(dissect_RequestedGANSSAssistanceData_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_CriticalityDiagnostics, new_create_dissector_handle(dissect_CriticalityDiagnostics_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_MBMSCountingInformation, new_create_dissector_handle(dissect_MBMSCountingInformation_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_UE_History_Information, new_create_dissector_handle(dissect_UE_History_Information_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_MBMSSynchronisationInformation, new_create_dissector_handle(dissect_MBMSSynchronisationInformation_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_SubscriberProfileIDforRFP, new_create_dissector_handle(dissect_SubscriberProfileIDforRFP_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_CSG_Id, new_create_dissector_handle(dissect_CSG_Id_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Ass_RAB_Parameter_SupportedGuaranteedBitrateList, new_create_dissector_handle(dissect_SupportedRAB_ParameterBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Ass_RAB_Parameter_SupportedMaxBitrateList, new_create_dissector_handle(dissect_SupportedRAB_ParameterBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RAB_Parameter_SupportedGuaranteedBitrateList, new_create_dissector_handle(dissect_SupportedRAB_ParameterBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RAB_Parameter_SupportedMaxBitrateList, new_create_dissector_handle(dissect_SupportedRAB_ParameterBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Requested_RAB_Parameter_SupportedMaxBitrateList, new_create_dissector_handle(dissect_SupportedRAB_ParameterBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Requested_RAB_Parameter_SupportedGuaranteedBitrateList, new_create_dissector_handle(dissect_SupportedRAB_ParameterBitrateList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_SRVCC_HO_Indication, new_create_dissector_handle(dissect_SRVCC_HO_Indication_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_SRVCC_Operation_Possible, new_create_dissector_handle(dissect_SRVCC_Operation_Possible_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_CSG_Id_List, new_create_dissector_handle(dissect_CSG_Id_List_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_PSRABtobeReplaced, new_create_dissector_handle(dissect_RAB_ID_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_E_UTRAN_Service_Handover, new_create_dissector_handle(dissect_E_UTRAN_Service_Handover_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_UE_AggregateMaximumBitRate, new_create_dissector_handle(dissect_UE_AggregateMaximumBitRate_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_CSG_Membership_Status, new_create_dissector_handle(dissect_CSG_Membership_Status_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Cell_Access_Mode, new_create_dissector_handle(dissect_Cell_Access_Mode_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_IP_Source_Address, new_create_dissector_handle(dissect_IPMulticastAddress_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_CSFB_Information, new_create_dissector_handle(dissect_CSFB_Information_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_PDP_TypeInformation_extension, new_create_dissector_handle(dissect_PDP_TypeInformation_extension_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_MSISDN, new_create_dissector_handle(dissect_MSISDN_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Offload_RAB_Parameters, new_create_dissector_handle(dissect_Offload_RAB_Parameters_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_LGW_TransportLayerAddress, new_create_dissector_handle(dissect_TransportLayerAddress_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Correlation_ID, new_create_dissector_handle(dissect_Correlation_ID_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_IRAT_Measurement_Configuration, new_create_dissector_handle(dissect_IRAT_Measurement_Configuration_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_MDT_Configuration, new_create_dissector_handle(dissect_MDT_Configuration_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Priority_Class_Indicator, new_create_dissector_handle(dissect_Priority_Class_Indicator_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RNSAPRelocationParameters, new_create_dissector_handle(dissect_RNSAPRelocationParameters_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_RABParametersList, new_create_dissector_handle(dissect_RABParametersList_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Management_Based_MDT_Allowed, new_create_dissector_handle(dissect_Management_Based_MDT_Allowed_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_HigherBitratesThan16MbpsFlag, new_create_dissector_handle(dissect_HigherBitratesThan16MbpsFlag_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_Trace_Collection_Entity_IP_Addess, new_create_dissector_handle(dissect_TransportLayerAddress_PDU, proto_ranap)); dissector_add_uint("ranap.extension", id_End_Of_CSFB, new_create_dissector_handle(dissect_End_Of_CSFB_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_Iu_Release, new_create_dissector_handle(dissect_Iu_ReleaseCommand_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_Iu_Release, new_create_dissector_handle(dissect_Iu_ReleaseComplete_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_RelocationPreparation, new_create_dissector_handle(dissect_RelocationRequired_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_RelocationPreparation, new_create_dissector_handle(dissect_RelocationCommand_PDU, proto_ranap)); dissector_add_uint("ranap.proc.uout", id_RelocationPreparation, new_create_dissector_handle(dissect_RelocationPreparationFailure_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_RelocationResourceAllocation, new_create_dissector_handle(dissect_RelocationRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_RelocationResourceAllocation, new_create_dissector_handle(dissect_RelocationRequestAcknowledge_PDU, proto_ranap)); dissector_add_uint("ranap.proc.uout", id_RelocationResourceAllocation, new_create_dissector_handle(dissect_RelocationFailure_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_RelocationCancel, new_create_dissector_handle(dissect_RelocationCancel_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_RelocationCancel, new_create_dissector_handle(dissect_RelocationCancelAcknowledge_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_SRNS_ContextTransfer, new_create_dissector_handle(dissect_SRNS_ContextRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_SRNS_ContextTransfer, new_create_dissector_handle(dissect_SRNS_ContextResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_SecurityModeControl, new_create_dissector_handle(dissect_SecurityModeCommand_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_SecurityModeControl, new_create_dissector_handle(dissect_SecurityModeComplete_PDU, proto_ranap)); dissector_add_uint("ranap.proc.uout", id_SecurityModeControl, new_create_dissector_handle(dissect_SecurityModeReject_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_DataVolumeReport, new_create_dissector_handle(dissect_DataVolumeReportRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_DataVolumeReport, new_create_dissector_handle(dissect_DataVolumeReport_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_Reset, new_create_dissector_handle(dissect_Reset_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_Reset, new_create_dissector_handle(dissect_ResetAcknowledge_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_RAB_ReleaseRequest, new_create_dissector_handle(dissect_RAB_ReleaseRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_Iu_ReleaseRequest, new_create_dissector_handle(dissect_Iu_ReleaseRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_RelocationDetect, new_create_dissector_handle(dissect_RelocationDetect_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_RelocationComplete, new_create_dissector_handle(dissect_RelocationComplete_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_Paging, new_create_dissector_handle(dissect_Paging_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_CommonID, new_create_dissector_handle(dissect_CommonID_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_CN_InvokeTrace, new_create_dissector_handle(dissect_CN_InvokeTrace_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_CN_DeactivateTrace, new_create_dissector_handle(dissect_CN_DeactivateTrace_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_LocationReportingControl, new_create_dissector_handle(dissect_LocationReportingControl_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_LocationReport, new_create_dissector_handle(dissect_LocationReport_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_InitialUE_Message, new_create_dissector_handle(dissect_InitialUE_Message_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_DirectTransfer, new_create_dissector_handle(dissect_DirectTransfer_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_OverloadControl, new_create_dissector_handle(dissect_Overload_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_ErrorIndication, new_create_dissector_handle(dissect_ErrorIndication_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_SRNS_DataForward, new_create_dissector_handle(dissect_SRNS_DataForwardCommand_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_ForwardSRNS_Context, new_create_dissector_handle(dissect_ForwardSRNS_Context_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_RAB_Assignment, new_create_dissector_handle(dissect_RAB_AssignmentRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.out", id_RAB_Assignment, new_create_dissector_handle(dissect_RAB_AssignmentResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_privateMessage, new_create_dissector_handle(dissect_PrivateMessage_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_ResetResource, new_create_dissector_handle(dissect_ResetResource_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_ResetResource, new_create_dissector_handle(dissect_ResetResourceAcknowledge_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_RANAP_Relocation, new_create_dissector_handle(dissect_RANAP_RelocationInformation_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_RAB_ModifyRequest, new_create_dissector_handle(dissect_RAB_ModifyRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_LocationRelatedData, new_create_dissector_handle(dissect_LocationRelatedDataRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_LocationRelatedData, new_create_dissector_handle(dissect_LocationRelatedDataResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.uout", id_LocationRelatedData, new_create_dissector_handle(dissect_LocationRelatedDataFailure_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_InformationTransfer, new_create_dissector_handle(dissect_InformationTransferIndication_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_InformationTransfer, new_create_dissector_handle(dissect_InformationTransferConfirmation_PDU, proto_ranap)); dissector_add_uint("ranap.proc.uout", id_InformationTransfer, new_create_dissector_handle(dissect_InformationTransferFailure_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_UESpecificInformation, new_create_dissector_handle(dissect_UESpecificInformationIndication_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_DirectInformationTransfer, new_create_dissector_handle(dissect_DirectInformationTransfer_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_UplinkInformationExchange, new_create_dissector_handle(dissect_UplinkInformationExchangeRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_UplinkInformationExchange, new_create_dissector_handle(dissect_UplinkInformationExchangeResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.uout", id_UplinkInformationExchange, new_create_dissector_handle(dissect_UplinkInformationExchangeFailure_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_MBMSSessionStart, new_create_dissector_handle(dissect_MBMSSessionStart_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_MBMSSessionStart, new_create_dissector_handle(dissect_MBMSSessionStartResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.uout", id_MBMSSessionStart, new_create_dissector_handle(dissect_MBMSSessionStartFailure_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_MBMSSessionUpdate, new_create_dissector_handle(dissect_MBMSSessionUpdate_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_MBMSSessionUpdate, new_create_dissector_handle(dissect_MBMSSessionUpdateResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.uout", id_MBMSSessionUpdate, new_create_dissector_handle(dissect_MBMSSessionUpdateFailure_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_MBMSSessionStop, new_create_dissector_handle(dissect_MBMSSessionStop_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_MBMSSessionStop, new_create_dissector_handle(dissect_MBMSSessionStopResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_MBMSUELinking, new_create_dissector_handle(dissect_MBMSUELinkingRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.out", id_MBMSUELinking, new_create_dissector_handle(dissect_MBMSUELinkingResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_MBMSRegistration, new_create_dissector_handle(dissect_MBMSRegistrationRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_MBMSRegistration, new_create_dissector_handle(dissect_MBMSRegistrationResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.uout", id_MBMSRegistration, new_create_dissector_handle(dissect_MBMSRegistrationFailure_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_MBMSCNDe_Registration_Procedure, new_create_dissector_handle(dissect_MBMSCNDe_RegistrationRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_MBMSCNDe_Registration_Procedure, new_create_dissector_handle(dissect_MBMSCNDe_RegistrationResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_MBMSRABEstablishmentIndication, new_create_dissector_handle(dissect_MBMSRABEstablishmentIndication_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_MBMSRABRelease, new_create_dissector_handle(dissect_MBMSRABReleaseRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_MBMSRABRelease, new_create_dissector_handle(dissect_MBMSRABRelease_PDU, proto_ranap)); dissector_add_uint("ranap.proc.uout", id_MBMSRABRelease, new_create_dissector_handle(dissect_MBMSRABReleaseFailure_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_enhancedRelocationComplete, new_create_dissector_handle(dissect_EnhancedRelocationCompleteRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_enhancedRelocationComplete, new_create_dissector_handle(dissect_EnhancedRelocationCompleteResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.uout", id_enhancedRelocationComplete, new_create_dissector_handle(dissect_EnhancedRelocationCompleteFailure_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_enhancedRelocationCompleteConfirm, new_create_dissector_handle(dissect_EnhancedRelocationCompleteConfirm_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_RANAPenhancedRelocation, new_create_dissector_handle(dissect_RANAP_EnhancedRelocationInformationRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.sout", id_RANAPenhancedRelocation, new_create_dissector_handle(dissect_RANAP_EnhancedRelocationInformationResponse_PDU, proto_ranap)); dissector_add_uint("ranap.proc.imsg", id_SRVCCPreparation, new_create_dissector_handle(dissect_SRVCC_CSKeysRequest_PDU, proto_ranap)); dissector_add_uint("ranap.proc.out", id_SRVCCPreparation, new_create_dissector_handle(dissect_SRVCC_CSKeysResponse_PDU, proto_ranap)); /*--- End of included file: packet-ranap-dis-tab.c ---*/ #line 377 "../../asn1/ranap/packet-ranap-template.c" } else { dissector_delete_uint("sccp.ssn", local_ranap_sccp_ssn, ranap_handle); } dissector_add_uint("sccp.ssn", global_ranap_sccp_ssn, ranap_handle); local_ranap_sccp_ssn = global_ranap_sccp_ssn; /* Add heuristic dissector * Perhaps we want a preference whether the heuristic dissector * is or isn't enabled */ heur_dissector_add("sccp", dissect_sccp_ranap_heur, proto_ranap); heur_dissector_add("sua", dissect_sccp_ranap_heur, proto_ranap); }
arowser/wireshark-xcoin
epan/dissectors/packet-ranap.c
C
gpl-2.0
778,112
/* $Id: views.css,v 1.11.2.3 2010/03/12 00:25:33 merlinofchaos Exp $ */ .asce-mod-1 { position: relative; } .views-field-image-image { float: left; } .asce-mod-1 .views-field-title { font-size: 160%; line-height: 130%; } /* From ASCE website */ .ImgCaptMain{ width: 1150; position:relative; } .ImgCaptDescBox{ position:absolute; bottom:0px; /* since it's positioned absolutely it will need a width, but not height, that would fill the entire box covering the image */ width:100%; } .ImgCaptDescBg{ background:#333333; filter:alpha(opacity=70); -moz-opacity:0.7; -khtml-opacity: 0.7; opacity: 0.9; width:100%; } .ImgCaptDesc{ padding:5px; color:#fff; font-weight:normal; font-family:Arial; font-size: 12px; text-align:left; } .ImgCaptDesc h2 { font-size:16px; font-weight:bold; padding: 0px; margin: 5px 0px; vertical-align:middle; } .ImgCaptDesc a { color:#fff; font-weight:bold; } .ImgCaptDesc a:hover { text-decoration:underline; } .program-border { padding: 1em .25em .25em .25em; margin-top: .25em; border-collapse: separate; border-spacing: .25em; border-style: solid; border-width: thin; } .views-field-title { margin-bottom: 1em; } .views-field-picture { clear: right; float: right; padding-left: 1em; } .views-field-name { clear: right; float: right; padding-left: 1em; } .views-field-field-event-author-title-value { clear: right; float: right; padding-left: 1em; margin-bottom: .25em; } .views-field-title-1 { clear: right; float: right; padding-left: 1em; margin-bottom: .25em; } .picture-box { clear: right; float: right; padding-left: 1em; margin-bottom: .25em; } .picture-box .picture { clear: right; float: right; padding-left: 1em; margin-right: 0em; }
marvoey/live-web
sites/all/themes/copriMobileGarland/asce-back.css
CSS
gpl-2.0
1,828
package tim.prune.threedee; import java.awt.event.InputEvent; /* * Copyright (c) 2007 Sun Microsystems, Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistribution of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * - Redistribution in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * Neither the name of Sun Microsystems, Inc. or the names of * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * This software is provided "AS IS," without a warranty of any * kind. ALL EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND * WARRANTIES, INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY * EXCLUDED. SUN MICROSYSTEMS, INC. ("SUN") AND ITS LICENSORS SHALL * NOT BE LIABLE FOR ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF * USING, MODIFYING OR DISTRIBUTING THIS SOFTWARE OR ITS * DERIVATIVES. IN NO EVENT WILL SUN OR ITS LICENSORS BE LIABLE FOR * ANY LOST REVENUE, PROFIT OR DATA, OR FOR DIRECT, INDIRECT, SPECIAL, * CONSEQUENTIAL, INCIDENTAL OR PUNITIVE DAMAGES, HOWEVER CAUSED AND * REGARDLESS OF THE THEORY OF LIABILITY, ARISING OUT OF THE USE OF OR * INABILITY TO USE THIS SOFTWARE, EVEN IF SUN HAS BEEN ADVISED OF THE * POSSIBILITY OF SUCH DAMAGES. * * You acknowledge that this software is not designed, licensed or * intended for use in the design, construction, operation or * maintenance of any nuclear facility. * * Copyright (c) 2021 ActivityWorkshop simplifications and renamings, * and restriction to upright orientations. */ import java.awt.event.MouseEvent; import java.awt.AWTEvent; import javax.media.j3d.Transform3D; import javax.media.j3d.Canvas3D; import javax.vecmath.Vector3d; import javax.vecmath.Point3d; import javax.vecmath.Matrix3d; import com.sun.j3d.utils.behaviors.vp.ViewPlatformAWTBehavior; import com.sun.j3d.utils.universe.ViewingPlatform; /** * Moves the View around a point of interest when the mouse is dragged with * a mouse button pressed. Includes rotation, zoom, and translation * actions. Zooming can also be obtained by using mouse wheel. * <p> * The rotate action rotates the ViewPlatform around the point of interest * when the mouse is moved with the main mouse button pressed. The * rotation is in the direction of the mouse movement, with a default * rotation of 0.01 radians for each pixel of mouse movement. * <p> * The zoom action moves the ViewPlatform closer to or further from the * point of interest when the mouse is moved with the middle mouse button * pressed (or Alt-main mouse button on systems without a middle mouse button). * The default zoom action is to translate the ViewPlatform 0.01 units for each * pixel of mouse movement. Moving the mouse up moves the ViewPlatform closer, * moving the mouse down moves the ViewPlatform further away. * <p> * The translate action translates the ViewPlatform when the mouse is moved * with the right mouse button pressed. The translation is in the direction * of the mouse movement, with a default translation of 0.01 units for each * pixel of mouse movement. * <p> * The actions can be reversed using the <code>REVERSE_</code><i>ACTION</i> * constructor flags. The default action moves the ViewPlatform around the * objects in the scene. The <code>REVERSE_</code><i>ACTION</i> flags can * make the objects in the scene appear to be moving in the direction * of the mouse movement. */ public class UprightOrbiter extends ViewPlatformAWTBehavior { private Transform3D _longitudeTransform = new Transform3D(); private Transform3D _latitudeTransform = new Transform3D(); private Transform3D _rotateTransform = new Transform3D(); // needed for integrateTransforms but don't want to new every time private Transform3D _temp1 = new Transform3D(); private Transform3D _temp2 = new Transform3D(); private Transform3D _translation = new Transform3D(); private Vector3d _transVector = new Vector3d(); private Vector3d _distanceVector = new Vector3d(); private Vector3d _centerVector = new Vector3d(); private Vector3d _invertCenterVector = new Vector3d(); private double _deltaYaw = 0.0, _deltaPitch = 0.0; private double _startDistanceFromCenter = 20.0; private double _distanceFromCenter = 20.0; private Point3d _rotationCenter = new Point3d(); private Matrix3d _rotMatrix = new Matrix3d(); private int _mouseX = 0, _mouseY = 0; private double _xtrans = 0.0, _ytrans = 0.0, _ztrans = 0.0; private static final double MIN_RADIUS = 0.0; // the factor to be applied to wheel zooming so that it does not // look much different with mouse movement zooming. private static final float wheelZoomFactor = 50.0f; private static final double NOMINAL_ZOOM_FACTOR = .01; private static final double NOMINAL_ROT_FACTOR = .008; private static final double NOMINAL_TRANS_FACTOR = .003; private double _pitchAngle = 0.0; /** * Creates a new OrbitBehaviour * @param inCanvas The Canvas3D to add the behaviour to * @param inInitialPitch pitch angle in degrees */ public UprightOrbiter(Canvas3D inCanvas, double inInitialPitch) { super(inCanvas, MOUSE_LISTENER | MOUSE_MOTION_LISTENER | MOUSE_WHEEL_LISTENER ); _pitchAngle = Math.toRadians(inInitialPitch); } protected synchronized void processAWTEvents( final AWTEvent[] events ) { motion = false; for (AWTEvent event : events) { if (event instanceof MouseEvent) { processMouseEvent((MouseEvent) event); } } } protected void processMouseEvent( final MouseEvent evt ) { if (evt.getID() == MouseEvent.MOUSE_PRESSED) { _mouseX = evt.getX(); _mouseY = evt.getY(); motion = true; } else if (evt.getID() == MouseEvent.MOUSE_DRAGGED) { int xchange = evt.getX() - _mouseX; int ychange = evt.getY() - _mouseY; // rotate if (isRotateEvent(evt)) { _deltaYaw -= xchange * NOMINAL_ROT_FACTOR; _deltaPitch -= ychange * NOMINAL_ROT_FACTOR; } // translate else if (isTranslateEvent(evt)) { _xtrans -= xchange * NOMINAL_TRANS_FACTOR; _ytrans += ychange * NOMINAL_TRANS_FACTOR; } // zoom else if (isZoomEvent(evt)) { doZoomOperations( ychange ); } _mouseX = evt.getX(); _mouseY = evt.getY(); motion = true; } else if (evt.getID() == MouseEvent.MOUSE_WHEEL ) { if (isZoomEvent(evt)) { // if zooming is done through mouse wheel, the number of wheel increments // is multiplied by the wheelZoomFactor, to make zoom speed look natural if ( evt instanceof java.awt.event.MouseWheelEvent) { int zoom = ((int)(((java.awt.event.MouseWheelEvent)evt).getWheelRotation() * wheelZoomFactor)); doZoomOperations( zoom ); motion = true; } } } } /* * zoom but stop at MIN_RADIUS */ private void doZoomOperations( int ychange ) { if ((_distanceFromCenter - ychange * NOMINAL_ZOOM_FACTOR) > MIN_RADIUS) { _distanceFromCenter -= ychange * NOMINAL_ZOOM_FACTOR; } else { _distanceFromCenter = MIN_RADIUS; } } /** * Sets the ViewingPlatform for this behaviour. This method is * called by the ViewingPlatform. * If a sub-calls overrides this method, it must call * super.setViewingPlatform(vp). * NOTE: Applications should <i>not</i> call this method. */ @Override public void setViewingPlatform(ViewingPlatform vp) { super.setViewingPlatform( vp ); if (vp != null) { resetView(); integrateTransforms(); } } /** * Reset the orientation and distance of this behaviour to the current * values in the ViewPlatform Transform Group */ private void resetView() { Vector3d centerToView = new Vector3d(); targetTG.getTransform( targetTransform ); targetTransform.get( _rotMatrix, _transVector ); centerToView.sub( _transVector, _rotationCenter ); _distanceFromCenter = centerToView.length(); _startDistanceFromCenter = _distanceFromCenter; targetTransform.get( _rotMatrix ); _rotateTransform.set( _rotMatrix ); // compute the initial x/y/z offset _temp1.set(centerToView); _rotateTransform.invert(); _rotateTransform.mul(_temp1); _rotateTransform.get(centerToView); _xtrans = centerToView.x; _ytrans = centerToView.y; _ztrans = centerToView.z; // reset rotMatrix _rotateTransform.set( _rotMatrix ); } protected synchronized void integrateTransforms() { // Check if the transform has been changed by another behaviour Transform3D currentXfm = new Transform3D(); targetTG.getTransform(currentXfm); if (! targetTransform.equals(currentXfm)) resetView(); // Three-step rotation process, firstly undo the pitch and apply the delta yaw _latitudeTransform.rotX(_pitchAngle); _rotateTransform.mul(_rotateTransform, _latitudeTransform); _longitudeTransform.rotY( _deltaYaw ); _rotateTransform.mul(_rotateTransform, _longitudeTransform); // Now update pitch angle according to delta and apply _pitchAngle = Math.min(Math.max(0.0, _pitchAngle - _deltaPitch), Math.PI/2.0); _latitudeTransform.rotX(-_pitchAngle); _rotateTransform.mul(_rotateTransform, _latitudeTransform); _distanceVector.z = _distanceFromCenter - _startDistanceFromCenter; _temp1.set(_distanceVector); _temp1.mul(_rotateTransform, _temp1); // want to look at rotationCenter _transVector.x = _rotationCenter.x + _xtrans; _transVector.y = _rotationCenter.y + _ytrans; _transVector.z = _rotationCenter.z + _ztrans; _translation.set(_transVector); targetTransform.mul(_temp1, _translation); // handle rotationCenter _temp1.set(_centerVector); _temp1.mul(targetTransform); _invertCenterVector.x = -_centerVector.x; _invertCenterVector.y = -_centerVector.y; _invertCenterVector.z = -_centerVector.z; _temp2.set(_invertCenterVector); targetTransform.mul(_temp1, _temp2); Vector3d finalTranslation = new Vector3d(); targetTransform.get(finalTranslation); targetTG.setTransform(targetTransform); // reset yaw and pitch deltas _deltaYaw = 0.0; _deltaPitch = 0.0; } private boolean isRotateEvent(MouseEvent evt) { final boolean isRightDrag = (evt.getModifiersEx() & InputEvent.BUTTON3_DOWN_MASK) > 0; return !evt.isAltDown() && !isRightDrag; } private boolean isZoomEvent(MouseEvent evt) { if (evt instanceof java.awt.event.MouseWheelEvent) { return true; } return evt.isAltDown() && !evt.isMetaDown(); } private boolean isTranslateEvent(MouseEvent evt) { final boolean isRightDrag = (evt.getModifiersEx() & InputEvent.BUTTON3_DOWN_MASK) > 0; return !evt.isAltDown() && isRightDrag; } }
activityworkshop/GpsPrune
src/tim/prune/threedee/UprightOrbiter.java
Java
gpl-2.0
10,939
/* mkvtoolnix - A set of programs for manipulating Matroska files Distributed under the GPL see the file COPYING for details or visit http://www.gnu.org/copyleft/gpl.html Cross platform compatibility definitions Written by Moritz Bunkus <[email protected]>. */ #ifndef MTX_COMMON_OS_H #define MTX_COMMON_OS_H #undef __STRICT_ANSI__ #include "config.h" // For PRId64 and PRIu64: #define __STDC_FORMAT_MACROS #if defined(HAVE_COREC_H) #include "corec.h" #if defined(TARGET_WIN) # define SYS_WINDOWS #elif defined(TARGET_OSX) # define SYS_APPLE #elif defined(TARGET_LINUX) # define SYS_UNIX # if defined(__sun) && defined(__SVR4) # define SYS_SOLARIS # else # define SYS_LINUX # endif #endif #else // HAVE_COREC_H #if defined(_WIN32) || defined(WIN32) || defined(__CYGWIN__) || defined(__MINGW32__) # define SYS_WINDOWS #elif defined(__APPLE__) # define SYS_APPLE #else # define COMP_GCC # define SYS_UNIX # if defined(__bsdi__) || defined(__FreeBSD__) # define SYS_BSD # elif defined(__sun) && defined(__SUNPRO_CC) # undef COMP_GCC # define COMP_SUNPRO # define SYS_SOLARIS # elif defined(__sun) && defined(__SVR4) # define SYS_SOLARIS # else # define SYS_LINUX # endif #endif #endif // HAVE_COREC_H #if defined(SYS_WINDOWS) # if defined __MINGW32__ # define COMP_MINGW # elif defined __CYGWIN__ # define COMP_CYGWIN # else # define COMP_MSC # define NOMINMAX # endif #endif #if (defined(SYS_WINDOWS) && defined(_WIN64)) || (!defined(SYS_WINDOWS) && (defined(__x86_64__) || defined(__ppc64__))) # define ARCH_64BIT #else # define ARCH_32BIT #endif #if defined(COMP_MSC) #if !defined(HAVE_COREC_H) # define strncasecmp _strnicmp # define strcasecmp _stricmp typedef __int64 int64_t; typedef __int32 int32_t; typedef __int16 int16_t; typedef __int8 int8_t; typedef unsigned __int64 uint64_t; typedef unsigned __int32 uint32_t; typedef unsigned __int16 uint16_t; typedef unsigned __int8 uint8_t; #endif // HAVE_COREC_H # define nice(a) #include <io.h> typedef _fsize_t ssize_t; #define PACKED_STRUCTURE #else // COMP_MSC #define PACKED_STRUCTURE __attribute__((__packed__)) #endif // COMP_MSC #if defined(COMP_MINGW) || defined(COMP_MSC) # if defined(COMP_MINGW) // mingw is a special case. It does have inttypes.h declaring // PRId64 to be I64d, but it warns about "int type format, different // type argument" if %I64d is used with a int64_t. The mx* functions // convert %lld to %I64d on mingw/msvc anyway. # undef PRId64 # define PRId64 "lld" # undef PRIu64 # define PRIu64 "llu" # undef PRIx64 # define PRIx64 "llx" # else // MSVC doesn't have inttypes, nor the PRI?64 defines. # define PRId64 "I64d" # define PRIu64 "I64u" # define PRIx64 "I64x" # endif // defined(COMP_MINGW) #endif // COMP_MINGW || COMP_MSC #define LLD "%" PRId64 #define LLU "%" PRIu64 #if defined(HAVE_NO_INT64_T) typedef INT64_TYPE int64_t; #endif #if defined(HAVE_NO_UINT64_T) typedef UINT64_TYPE uint64_t; #endif #if defined(SYS_WINDOWS) # define PATHSEP '\\' #else # define PATHSEP '/' #endif #if defined(WORDS_BIGENDIAN) && (WORDS_BIGENDIAN == 1) # define ARCH_BIGENDIAN #else # define ARCH_LITTLEENDIAN #endif #endif
UbiCastTeam/mkvtoolnix-ubicast
src/common/os.h
C
gpl-2.0
3,162
/* * A framebuffer driver for VBE 2.0+ compliant video cards * * (c) 2007 Michal Januszewski <[email protected]> * Loosely based upon the vesafb driver. * */ #include <linux/init.h> #include <linux/module.h> #include <linux/moduleparam.h> #include <linux/skbuff.h> #include <linux/timer.h> #include <linux/completion.h> #include <linux/connector.h> #include <linux/random.h> #include <linux/platform_device.h> #include <linux/limits.h> #include <linux/fb.h> #include <linux/io.h> #include <linux/mutex.h> #include <linux/slab.h> #include <video/edid.h> #include <video/uvesafb.h> #ifdef CONFIG_X86 #include <video/vga.h> #include <linux/pci.h> #endif #ifdef CONFIG_MTRR #include <asm/mtrr.h> #endif #include "edid.h" static struct cb_id uvesafb_cn_id = { .idx = CN_IDX_V86D, .val = CN_VAL_V86D_UVESAFB }; static char v86d_path[PATH_MAX] = "/sbin/v86d"; static char v86d_started; /* has v86d been started by uvesafb? */ static struct fb_fix_screeninfo uvesafb_fix __devinitdata = { .id = "VESA VGA", .type = FB_TYPE_PACKED_PIXELS, .accel = FB_ACCEL_NONE, .visual = FB_VISUAL_TRUECOLOR, }; static int mtrr __devinitdata = 3; /* enable mtrr by default */ static int blank = 1; /* enable blanking by default */ static int ypan = 1; /* 0: scroll, 1: ypan, 2: ywrap */ static bool pmi_setpal __devinitdata = true; /* use PMI for palette changes */ static int nocrtc __devinitdata; /* ignore CRTC settings */ static int noedid __devinitdata; /* don't try DDC transfers */ static int vram_remap __devinitdata; /* set amt. of memory to be used */ static int vram_total __devinitdata; /* set total amount of memory */ static u16 maxclk __devinitdata; /* maximum pixel clock */ static u16 maxvf __devinitdata; /* maximum vertical frequency */ static u16 maxhf __devinitdata; /* maximum horizontal frequency */ static u16 vbemode __devinitdata; /* force use of a specific VBE mode */ static char *mode_option __devinitdata; static u8 dac_width = 6; static struct uvesafb_ktask *uvfb_tasks[UVESAFB_TASKS_MAX]; static DEFINE_MUTEX(uvfb_lock); /* * A handler for replies from userspace. * * Make sure each message passes consistency checks and if it does, * find the kernel part of the task struct, copy the registers and * the buffer contents and then complete the task. */ static void uvesafb_cn_callback(struct cn_msg *msg, struct netlink_skb_parms *nsp) { struct uvesafb_task *utask; struct uvesafb_ktask *task; if (!cap_raised(current_cap(), CAP_SYS_ADMIN)) return; if (msg->seq >= UVESAFB_TASKS_MAX) return; mutex_lock(&uvfb_lock); task = uvfb_tasks[msg->seq]; if (!task || msg->ack != task->ack) { mutex_unlock(&uvfb_lock); return; } utask = (struct uvesafb_task *)msg->data; /* Sanity checks for the buffer length. */ if (task->t.buf_len < utask->buf_len || utask->buf_len > msg->len - sizeof(*utask)) { mutex_unlock(&uvfb_lock); return; } uvfb_tasks[msg->seq] = NULL; mutex_unlock(&uvfb_lock); memcpy(&task->t, utask, sizeof(*utask)); if (task->t.buf_len && task->buf) memcpy(task->buf, utask + 1, task->t.buf_len); complete(task->done); return; } static int uvesafb_helper_start(void) { char *envp[] = { "HOME=/", "PATH=/sbin:/bin", NULL, }; char *argv[] = { v86d_path, NULL, }; return call_usermodehelper(v86d_path, argv, envp, 1); } /* * Execute a uvesafb task. * * Returns 0 if the task is executed successfully. * * A message sent to the userspace consists of the uvesafb_task * struct and (optionally) a buffer. The uvesafb_task struct is * a simplified version of uvesafb_ktask (its kernel counterpart) * containing only the register values, flags and the length of * the buffer. * * Each message is assigned a sequence number (increased linearly) * and a random ack number. The sequence number is used as a key * for the uvfb_tasks array which holds pointers to uvesafb_ktask * structs for all requests. */ static int uvesafb_exec(struct uvesafb_ktask *task) { static int seq; struct cn_msg *m; int err; int len = sizeof(task->t) + task->t.buf_len; /* * Check whether the message isn't longer than the maximum * allowed by connector. */ if (sizeof(*m) + len > CONNECTOR_MAX_MSG_SIZE) { printk(KERN_WARNING "uvesafb: message too long (%d), " "can't execute task\n", (int)(sizeof(*m) + len)); return -E2BIG; } m = kzalloc(sizeof(*m) + len, GFP_KERNEL); if (!m) return -ENOMEM; init_completion(task->done); memcpy(&m->id, &uvesafb_cn_id, sizeof(m->id)); m->seq = seq; m->len = len; m->ack = random32(); /* uvesafb_task structure */ memcpy(m + 1, &task->t, sizeof(task->t)); /* Buffer */ memcpy((u8 *)(m + 1) + sizeof(task->t), task->buf, task->t.buf_len); /* * Save the message ack number so that we can find the kernel * part of this task when a reply is received from userspace. */ task->ack = m->ack; mutex_lock(&uvfb_lock); /* If all slots are taken -- bail out. */ if (uvfb_tasks[seq]) { mutex_unlock(&uvfb_lock); err = -EBUSY; goto out; } /* Save a pointer to the kernel part of the task struct. */ uvfb_tasks[seq] = task; mutex_unlock(&uvfb_lock); err = cn_netlink_send(m, 0, GFP_KERNEL); if (err == -ESRCH) { /* * Try to start the userspace helper if sending * the request failed the first time. */ err = uvesafb_helper_start(); if (err) { printk(KERN_ERR "uvesafb: failed to execute %s\n", v86d_path); printk(KERN_ERR "uvesafb: make sure that the v86d " "helper is installed and executable\n"); } else { v86d_started = 1; err = cn_netlink_send(m, 0, gfp_any()); if (err == -ENOBUFS) err = 0; } } else if (err == -ENOBUFS) err = 0; if (!err && !(task->t.flags & TF_EXIT)) err = !wait_for_completion_timeout(task->done, msecs_to_jiffies(UVESAFB_TIMEOUT)); mutex_lock(&uvfb_lock); uvfb_tasks[seq] = NULL; mutex_unlock(&uvfb_lock); seq++; if (seq >= UVESAFB_TASKS_MAX) seq = 0; out: kfree(m); return err; } /* * Free a uvesafb_ktask struct. */ static void uvesafb_free(struct uvesafb_ktask *task) { if (task) { if (task->done) kfree(task->done); kfree(task); } } /* * Prepare a uvesafb_ktask struct to be used again. */ static void uvesafb_reset(struct uvesafb_ktask *task) { struct completion *cpl = task->done; memset(task, 0, sizeof(*task)); task->done = cpl; } /* * Allocate and prepare a uvesafb_ktask struct. */ static struct uvesafb_ktask *uvesafb_prep(void) { struct uvesafb_ktask *task; task = kzalloc(sizeof(*task), GFP_KERNEL); if (task) { task->done = kzalloc(sizeof(*task->done), GFP_KERNEL); if (!task->done) { kfree(task); task = NULL; } } return task; } static void uvesafb_setup_var(struct fb_var_screeninfo *var, struct fb_info *info, struct vbe_mode_ib *mode) { struct uvesafb_par *par = info->par; var->vmode = FB_VMODE_NONINTERLACED; var->sync = FB_SYNC_VERT_HIGH_ACT; var->xres = mode->x_res; var->yres = mode->y_res; var->xres_virtual = mode->x_res; var->yres_virtual = (par->ypan) ? info->fix.smem_len / mode->bytes_per_scan_line : mode->y_res; var->xoffset = 0; var->yoffset = 0; var->bits_per_pixel = mode->bits_per_pixel; if (var->bits_per_pixel == 15) var->bits_per_pixel = 16; if (var->bits_per_pixel > 8) { var->red.offset = mode->red_off; var->red.length = mode->red_len; var->green.offset = mode->green_off; var->green.length = mode->green_len; var->blue.offset = mode->blue_off; var->blue.length = mode->blue_len; var->transp.offset = mode->rsvd_off; var->transp.length = mode->rsvd_len; } else { var->red.offset = 0; var->green.offset = 0; var->blue.offset = 0; var->transp.offset = 0; var->red.length = 8; var->green.length = 8; var->blue.length = 8; var->transp.length = 0; } } static int uvesafb_vbe_find_mode(struct uvesafb_par *par, int xres, int yres, int depth, unsigned char flags) { int i, match = -1, h = 0, d = 0x7fffffff; for (i = 0; i < par->vbe_modes_cnt; i++) { h = abs(par->vbe_modes[i].x_res - xres) + abs(par->vbe_modes[i].y_res - yres) + abs(depth - par->vbe_modes[i].depth); /* * We have an exact match in terms of resolution * and depth. */ if (h == 0) return i; if (h < d || (h == d && par->vbe_modes[i].depth > depth)) { d = h; match = i; } } i = 1; if (flags & UVESAFB_EXACT_DEPTH && par->vbe_modes[match].depth != depth) i = 0; if (flags & UVESAFB_EXACT_RES && d > 24) i = 0; if (i != 0) return match; else return -1; } static u8 *uvesafb_vbe_state_save(struct uvesafb_par *par) { struct uvesafb_ktask *task; u8 *state; int err; if (!par->vbe_state_size) return NULL; state = kmalloc(par->vbe_state_size, GFP_KERNEL); if (!state) return NULL; task = uvesafb_prep(); if (!task) { kfree(state); return NULL; } task->t.regs.eax = 0x4f04; task->t.regs.ecx = 0x000f; task->t.regs.edx = 0x0001; task->t.flags = TF_BUF_RET | TF_BUF_ESBX; task->t.buf_len = par->vbe_state_size; task->buf = state; err = uvesafb_exec(task); if (err || (task->t.regs.eax & 0xffff) != 0x004f) { printk(KERN_WARNING "uvesafb: VBE get state call " "failed (eax=0x%x, err=%d)\n", task->t.regs.eax, err); kfree(state); state = NULL; } uvesafb_free(task); return state; } static void uvesafb_vbe_state_restore(struct uvesafb_par *par, u8 *state_buf) { struct uvesafb_ktask *task; int err; if (!state_buf) return; task = uvesafb_prep(); if (!task) return; task->t.regs.eax = 0x4f04; task->t.regs.ecx = 0x000f; task->t.regs.edx = 0x0002; task->t.buf_len = par->vbe_state_size; task->t.flags = TF_BUF_ESBX; task->buf = state_buf; err = uvesafb_exec(task); if (err || (task->t.regs.eax & 0xffff) != 0x004f) printk(KERN_WARNING "uvesafb: VBE state restore call " "failed (eax=0x%x, err=%d)\n", task->t.regs.eax, err); uvesafb_free(task); } static int __devinit uvesafb_vbe_getinfo(struct uvesafb_ktask *task, struct uvesafb_par *par) { int err; task->t.regs.eax = 0x4f00; task->t.flags = TF_VBEIB; task->t.buf_len = sizeof(struct vbe_ib); task->buf = &par->vbe_ib; strncpy(par->vbe_ib.vbe_signature, "VBE2", 4); err = uvesafb_exec(task); if (err || (task->t.regs.eax & 0xffff) != 0x004f) { printk(KERN_ERR "uvesafb: Getting VBE info block failed " "(eax=0x%x, err=%d)\n", (u32)task->t.regs.eax, err); return -EINVAL; } if (par->vbe_ib.vbe_version < 0x0200) { printk(KERN_ERR "uvesafb: Sorry, pre-VBE 2.0 cards are " "not supported.\n"); return -EINVAL; } if (!par->vbe_ib.mode_list_ptr) { printk(KERN_ERR "uvesafb: Missing mode list!\n"); return -EINVAL; } printk(KERN_INFO "uvesafb: "); /* * Convert string pointers and the mode list pointer into * usable addresses. Print informational messages about the * video adapter and its vendor. */ if (par->vbe_ib.oem_vendor_name_ptr) printk("%s, ", ((char *)task->buf) + par->vbe_ib.oem_vendor_name_ptr); if (par->vbe_ib.oem_product_name_ptr) printk("%s, ", ((char *)task->buf) + par->vbe_ib.oem_product_name_ptr); if (par->vbe_ib.oem_product_rev_ptr) printk("%s, ", ((char *)task->buf) + par->vbe_ib.oem_product_rev_ptr); if (par->vbe_ib.oem_string_ptr) printk("OEM: %s, ", ((char *)task->buf) + par->vbe_ib.oem_string_ptr); printk("VBE v%d.%d\n", ((par->vbe_ib.vbe_version & 0xff00) >> 8), par->vbe_ib.vbe_version & 0xff); return 0; } static int __devinit uvesafb_vbe_getmodes(struct uvesafb_ktask *task, struct uvesafb_par *par) { int off = 0, err; u16 *mode; par->vbe_modes_cnt = 0; /* Count available modes. */ mode = (u16 *) (((u8 *)&par->vbe_ib) + par->vbe_ib.mode_list_ptr); while (*mode != 0xffff) { par->vbe_modes_cnt++; mode++; } par->vbe_modes = kzalloc(sizeof(struct vbe_mode_ib) * par->vbe_modes_cnt, GFP_KERNEL); if (!par->vbe_modes) return -ENOMEM; /* Get info about all available modes. */ mode = (u16 *) (((u8 *)&par->vbe_ib) + par->vbe_ib.mode_list_ptr); while (*mode != 0xffff) { struct vbe_mode_ib *mib; uvesafb_reset(task); task->t.regs.eax = 0x4f01; task->t.regs.ecx = (u32) *mode; task->t.flags = TF_BUF_RET | TF_BUF_ESDI; task->t.buf_len = sizeof(struct vbe_mode_ib); task->buf = par->vbe_modes + off; err = uvesafb_exec(task); if (err || (task->t.regs.eax & 0xffff) != 0x004f) { printk(KERN_WARNING "uvesafb: Getting mode info block " "for mode 0x%x failed (eax=0x%x, err=%d)\n", *mode, (u32)task->t.regs.eax, err); mode++; par->vbe_modes_cnt--; continue; } mib = task->buf; mib->mode_id = *mode; /* * We only want modes that are supported with the current * hardware configuration, color, graphics and that have * support for the LFB. */ if ((mib->mode_attr & VBE_MODE_MASK) == VBE_MODE_MASK && mib->bits_per_pixel >= 8) off++; else par->vbe_modes_cnt--; mode++; mib->depth = mib->red_len + mib->green_len + mib->blue_len; /* * Handle 8bpp modes and modes with broken color component * lengths. */ if (mib->depth == 0 || (mib->depth == 24 && mib->bits_per_pixel == 32)) mib->depth = mib->bits_per_pixel; } if (par->vbe_modes_cnt > 0) return 0; else return -EINVAL; } /* * The Protected Mode Interface is 32-bit x86 code, so we only run it on * x86 and not x86_64. */ #ifdef CONFIG_X86_32 static int __devinit uvesafb_vbe_getpmi(struct uvesafb_ktask *task, struct uvesafb_par *par) { int i, err; uvesafb_reset(task); task->t.regs.eax = 0x4f0a; task->t.regs.ebx = 0x0; err = uvesafb_exec(task); if ((task->t.regs.eax & 0xffff) != 0x4f || task->t.regs.es < 0xc000) { par->pmi_setpal = par->ypan = 0; } else { par->pmi_base = (u16 *)phys_to_virt(((u32)task->t.regs.es << 4) + task->t.regs.edi); par->pmi_start = (u8 *)par->pmi_base + par->pmi_base[1]; par->pmi_pal = (u8 *)par->pmi_base + par->pmi_base[2]; printk(KERN_INFO "uvesafb: protected mode interface info at " "%04x:%04x\n", (u16)task->t.regs.es, (u16)task->t.regs.edi); printk(KERN_INFO "uvesafb: pmi: set display start = %p, " "set palette = %p\n", par->pmi_start, par->pmi_pal); if (par->pmi_base[3]) { printk(KERN_INFO "uvesafb: pmi: ports = "); for (i = par->pmi_base[3]/2; par->pmi_base[i] != 0xffff; i++) printk("%x ", par->pmi_base[i]); printk("\n"); if (par->pmi_base[i] != 0xffff) { printk(KERN_INFO "uvesafb: can't handle memory" " requests, pmi disabled\n"); par->ypan = par->pmi_setpal = 0; } } } return 0; } #endif /* CONFIG_X86_32 */ /* * Check whether a video mode is supported by the Video BIOS and is * compatible with the monitor limits. */ static int __devinit uvesafb_is_valid_mode(struct fb_videomode *mode, struct fb_info *info) { if (info->monspecs.gtf) { fb_videomode_to_var(&info->var, mode); if (fb_validate_mode(&info->var, info)) return 0; } if (uvesafb_vbe_find_mode(info->par, mode->xres, mode->yres, 8, UVESAFB_EXACT_RES) == -1) return 0; return 1; } static int __devinit uvesafb_vbe_getedid(struct uvesafb_ktask *task, struct fb_info *info) { struct uvesafb_par *par = info->par; int err = 0; if (noedid || par->vbe_ib.vbe_version < 0x0300) return -EINVAL; task->t.regs.eax = 0x4f15; task->t.regs.ebx = 0; task->t.regs.ecx = 0; task->t.buf_len = 0; task->t.flags = 0; err = uvesafb_exec(task); if ((task->t.regs.eax & 0xffff) != 0x004f || err) return -EINVAL; if ((task->t.regs.ebx & 0x3) == 3) { printk(KERN_INFO "uvesafb: VBIOS/hardware supports both " "DDC1 and DDC2 transfers\n"); } else if ((task->t.regs.ebx & 0x3) == 2) { printk(KERN_INFO "uvesafb: VBIOS/hardware supports DDC2 " "transfers\n"); } else if ((task->t.regs.ebx & 0x3) == 1) { printk(KERN_INFO "uvesafb: VBIOS/hardware supports DDC1 " "transfers\n"); } else { printk(KERN_INFO "uvesafb: VBIOS/hardware doesn't support " "DDC transfers\n"); return -EINVAL; } task->t.regs.eax = 0x4f15; task->t.regs.ebx = 1; task->t.regs.ecx = task->t.regs.edx = 0; task->t.flags = TF_BUF_RET | TF_BUF_ESDI; task->t.buf_len = EDID_LENGTH; task->buf = kzalloc(EDID_LENGTH, GFP_KERNEL); err = uvesafb_exec(task); if ((task->t.regs.eax & 0xffff) == 0x004f && !err) { fb_edid_to_monspecs(task->buf, &info->monspecs); if (info->monspecs.vfmax && info->monspecs.hfmax) { /* * If the maximum pixel clock wasn't specified in * the EDID block, set it to 300 MHz. */ if (info->monspecs.dclkmax == 0) info->monspecs.dclkmax = 300 * 1000000; info->monspecs.gtf = 1; } } else { err = -EINVAL; } kfree(task->buf); return err; } static void __devinit uvesafb_vbe_getmonspecs(struct uvesafb_ktask *task, struct fb_info *info) { struct uvesafb_par *par = info->par; int i; memset(&info->monspecs, 0, sizeof(info->monspecs)); /* * If we don't get all necessary data from the EDID block, * mark it as incompatible with the GTF and set nocrtc so * that we always use the default BIOS refresh rate. */ if (uvesafb_vbe_getedid(task, info)) { info->monspecs.gtf = 0; par->nocrtc = 1; } /* Kernel command line overrides. */ if (maxclk) info->monspecs.dclkmax = maxclk * 1000000; if (maxvf) info->monspecs.vfmax = maxvf; if (maxhf) info->monspecs.hfmax = maxhf * 1000; /* * In case DDC transfers are not supported, the user can provide * monitor limits manually. Lower limits are set to "safe" values. */ if (info->monspecs.gtf == 0 && maxclk && maxvf && maxhf) { info->monspecs.dclkmin = 0; info->monspecs.vfmin = 60; info->monspecs.hfmin = 29000; info->monspecs.gtf = 1; par->nocrtc = 0; } if (info->monspecs.gtf) printk(KERN_INFO "uvesafb: monitor limits: vf = %d Hz, hf = %d kHz, " "clk = %d MHz\n", info->monspecs.vfmax, (int)(info->monspecs.hfmax / 1000), (int)(info->monspecs.dclkmax / 1000000)); else printk(KERN_INFO "uvesafb: no monitor limits have been set, " "default refresh rate will be used\n"); /* Add VBE modes to the modelist. */ for (i = 0; i < par->vbe_modes_cnt; i++) { struct fb_var_screeninfo var; struct vbe_mode_ib *mode; struct fb_videomode vmode; mode = &par->vbe_modes[i]; memset(&var, 0, sizeof(var)); var.xres = mode->x_res; var.yres = mode->y_res; fb_get_mode(FB_VSYNCTIMINGS | FB_IGNOREMON, 60, &var, info); fb_var_to_videomode(&vmode, &var); fb_add_videomode(&vmode, &info->modelist); } /* Add valid VESA modes to our modelist. */ for (i = 0; i < VESA_MODEDB_SIZE; i++) { if (uvesafb_is_valid_mode((struct fb_videomode *) &vesa_modes[i], info)) fb_add_videomode(&vesa_modes[i], &info->modelist); } for (i = 0; i < info->monspecs.modedb_len; i++) { if (uvesafb_is_valid_mode(&info->monspecs.modedb[i], info)) fb_add_videomode(&info->monspecs.modedb[i], &info->modelist); } return; } static void __devinit uvesafb_vbe_getstatesize(struct uvesafb_ktask *task, struct uvesafb_par *par) { int err; uvesafb_reset(task); /* * Get the VBE state buffer size. We want all available * hardware state data (CL = 0x0f). */ task->t.regs.eax = 0x4f04; task->t.regs.ecx = 0x000f; task->t.regs.edx = 0x0000; task->t.flags = 0; err = uvesafb_exec(task); if (err || (task->t.regs.eax & 0xffff) != 0x004f) { printk(KERN_WARNING "uvesafb: VBE state buffer size " "cannot be determined (eax=0x%x, err=%d)\n", task->t.regs.eax, err); par->vbe_state_size = 0; return; } par->vbe_state_size = 64 * (task->t.regs.ebx & 0xffff); } static int __devinit uvesafb_vbe_init(struct fb_info *info) { struct uvesafb_ktask *task = NULL; struct uvesafb_par *par = info->par; int err; task = uvesafb_prep(); if (!task) return -ENOMEM; err = uvesafb_vbe_getinfo(task, par); if (err) goto out; err = uvesafb_vbe_getmodes(task, par); if (err) goto out; par->nocrtc = nocrtc; #ifdef CONFIG_X86_32 par->pmi_setpal = pmi_setpal; par->ypan = ypan; if (par->pmi_setpal || par->ypan) { if (__supported_pte_mask & _PAGE_NX) { par->pmi_setpal = par->ypan = 0; printk(KERN_WARNING "uvesafb: NX protection is actively." "We have better not to use the PMI.\n"); } else { uvesafb_vbe_getpmi(task, par); } } #else /* The protected mode interface is not available on non-x86. */ par->pmi_setpal = par->ypan = 0; #endif INIT_LIST_HEAD(&info->modelist); uvesafb_vbe_getmonspecs(task, info); uvesafb_vbe_getstatesize(task, par); out: uvesafb_free(task); return err; } static int __devinit uvesafb_vbe_init_mode(struct fb_info *info) { struct list_head *pos; struct fb_modelist *modelist; struct fb_videomode *mode; struct uvesafb_par *par = info->par; int i, modeid; /* Has the user requested a specific VESA mode? */ if (vbemode) { for (i = 0; i < par->vbe_modes_cnt; i++) { if (par->vbe_modes[i].mode_id == vbemode) { modeid = i; uvesafb_setup_var(&info->var, info, &par->vbe_modes[modeid]); fb_get_mode(FB_VSYNCTIMINGS | FB_IGNOREMON, 60, &info->var, info); /* * With pixclock set to 0, the default BIOS * timings will be used in set_par(). */ info->var.pixclock = 0; goto gotmode; } } printk(KERN_INFO "uvesafb: requested VBE mode 0x%x is " "unavailable\n", vbemode); vbemode = 0; } /* Count the modes in the modelist */ i = 0; list_for_each(pos, &info->modelist) i++; /* * Convert the modelist into a modedb so that we can use it with * fb_find_mode(). */ mode = kzalloc(i * sizeof(*mode), GFP_KERNEL); if (mode) { i = 0; list_for_each(pos, &info->modelist) { modelist = list_entry(pos, struct fb_modelist, list); mode[i] = modelist->mode; i++; } if (!mode_option) mode_option = UVESAFB_DEFAULT_MODE; i = fb_find_mode(&info->var, info, mode_option, mode, i, NULL, 8); kfree(mode); } /* fb_find_mode() failed */ if (i == 0) { info->var.xres = 640; info->var.yres = 480; mode = (struct fb_videomode *) fb_find_best_mode(&info->var, &info->modelist); if (mode) { fb_videomode_to_var(&info->var, mode); } else { modeid = par->vbe_modes[0].mode_id; uvesafb_setup_var(&info->var, info, &par->vbe_modes[modeid]); fb_get_mode(FB_VSYNCTIMINGS | FB_IGNOREMON, 60, &info->var, info); goto gotmode; } } /* Look for a matching VBE mode. */ modeid = uvesafb_vbe_find_mode(par, info->var.xres, info->var.yres, info->var.bits_per_pixel, UVESAFB_EXACT_RES); if (modeid == -1) return -EINVAL; uvesafb_setup_var(&info->var, info, &par->vbe_modes[modeid]); gotmode: /* * If we are not VBE3.0+ compliant, we're done -- the BIOS will * ignore our timings anyway. */ if (par->vbe_ib.vbe_version < 0x0300 || par->nocrtc) fb_get_mode(FB_VSYNCTIMINGS | FB_IGNOREMON, 60, &info->var, info); return modeid; } static int uvesafb_setpalette(struct uvesafb_pal_entry *entries, int count, int start, struct fb_info *info) { struct uvesafb_ktask *task; #ifdef CONFIG_X86 struct uvesafb_par *par = info->par; int i = par->mode_idx; #endif int err = 0; /* * We support palette modifications for 8 bpp modes only, so * there can never be more than 256 entries. */ if (start + count > 256) return -EINVAL; #ifdef CONFIG_X86 /* Use VGA registers if mode is VGA-compatible. */ if (i >= 0 && i < par->vbe_modes_cnt && par->vbe_modes[i].mode_attr & VBE_MODE_VGACOMPAT) { for (i = 0; i < count; i++) { outb_p(start + i, dac_reg); outb_p(entries[i].red, dac_val); outb_p(entries[i].green, dac_val); outb_p(entries[i].blue, dac_val); } } #ifdef CONFIG_X86_32 else if (par->pmi_setpal) { __asm__ __volatile__( "call *(%%esi)" : /* no return value */ : "a" (0x4f09), /* EAX */ "b" (0), /* EBX */ "c" (count), /* ECX */ "d" (start), /* EDX */ "D" (entries), /* EDI */ "S" (&par->pmi_pal)); /* ESI */ } #endif /* CONFIG_X86_32 */ else #endif /* CONFIG_X86 */ { task = uvesafb_prep(); if (!task) return -ENOMEM; task->t.regs.eax = 0x4f09; task->t.regs.ebx = 0x0; task->t.regs.ecx = count; task->t.regs.edx = start; task->t.flags = TF_BUF_ESDI; task->t.buf_len = sizeof(struct uvesafb_pal_entry) * count; task->buf = entries; err = uvesafb_exec(task); if ((task->t.regs.eax & 0xffff) != 0x004f) err = 1; uvesafb_free(task); } return err; } static int uvesafb_setcolreg(unsigned regno, unsigned red, unsigned green, unsigned blue, unsigned transp, struct fb_info *info) { struct uvesafb_pal_entry entry; int shift = 16 - dac_width; int err = 0; if (regno >= info->cmap.len) return -EINVAL; if (info->var.bits_per_pixel == 8) { entry.red = red >> shift; entry.green = green >> shift; entry.blue = blue >> shift; entry.pad = 0; err = uvesafb_setpalette(&entry, 1, regno, info); } else if (regno < 16) { switch (info->var.bits_per_pixel) { case 16: if (info->var.red.offset == 10) { /* 1:5:5:5 */ ((u32 *) (info->pseudo_palette))[regno] = ((red & 0xf800) >> 1) | ((green & 0xf800) >> 6) | ((blue & 0xf800) >> 11); } else { /* 0:5:6:5 */ ((u32 *) (info->pseudo_palette))[regno] = ((red & 0xf800) ) | ((green & 0xfc00) >> 5) | ((blue & 0xf800) >> 11); } break; case 24: case 32: red >>= 8; green >>= 8; blue >>= 8; ((u32 *)(info->pseudo_palette))[regno] = (red << info->var.red.offset) | (green << info->var.green.offset) | (blue << info->var.blue.offset); break; } } return err; } static int uvesafb_setcmap(struct fb_cmap *cmap, struct fb_info *info) { struct uvesafb_pal_entry *entries; int shift = 16 - dac_width; int i, err = 0; if (info->var.bits_per_pixel == 8) { if (cmap->start + cmap->len > info->cmap.start + info->cmap.len || cmap->start < info->cmap.start) return -EINVAL; entries = kmalloc(sizeof(*entries) * cmap->len, GFP_KERNEL); if (!entries) return -ENOMEM; for (i = 0; i < cmap->len; i++) { entries[i].red = cmap->red[i] >> shift; entries[i].green = cmap->green[i] >> shift; entries[i].blue = cmap->blue[i] >> shift; entries[i].pad = 0; } err = uvesafb_setpalette(entries, cmap->len, cmap->start, info); kfree(entries); } else { /* * For modes with bpp > 8, we only set the pseudo palette in * the fb_info struct. We rely on uvesafb_setcolreg to do all * sanity checking. */ for (i = 0; i < cmap->len; i++) { err |= uvesafb_setcolreg(cmap->start + i, cmap->red[i], cmap->green[i], cmap->blue[i], 0, info); } } return err; } static int uvesafb_pan_display(struct fb_var_screeninfo *var, struct fb_info *info) { #ifdef CONFIG_X86_32 int offset; struct uvesafb_par *par = info->par; offset = (var->yoffset * info->fix.line_length + var->xoffset) / 4; /* * It turns out it's not the best idea to do panning via vm86, * so we only allow it if we have a PMI. */ if (par->pmi_start) { __asm__ __volatile__( "call *(%%edi)" : /* no return value */ : "a" (0x4f07), /* EAX */ "b" (0), /* EBX */ "c" (offset), /* ECX */ "d" (offset >> 16), /* EDX */ "D" (&par->pmi_start)); /* EDI */ } #endif return 0; } static int uvesafb_blank(int blank, struct fb_info *info) { struct uvesafb_ktask *task; int err = 1; #ifdef CONFIG_X86 struct uvesafb_par *par = info->par; if (par->vbe_ib.capabilities & VBE_CAP_VGACOMPAT) { int loop = 10000; u8 seq = 0, crtc17 = 0; if (blank == FB_BLANK_POWERDOWN) { seq = 0x20; crtc17 = 0x00; err = 0; } else { seq = 0x00; crtc17 = 0x80; err = (blank == FB_BLANK_UNBLANK) ? 0 : -EINVAL; } vga_wseq(NULL, 0x00, 0x01); seq |= vga_rseq(NULL, 0x01) & ~0x20; vga_wseq(NULL, 0x00, seq); crtc17 |= vga_rcrt(NULL, 0x17) & ~0x80; while (loop--); vga_wcrt(NULL, 0x17, crtc17); vga_wseq(NULL, 0x00, 0x03); } else #endif /* CONFIG_X86 */ { task = uvesafb_prep(); if (!task) return -ENOMEM; task->t.regs.eax = 0x4f10; switch (blank) { case FB_BLANK_UNBLANK: task->t.regs.ebx = 0x0001; break; case FB_BLANK_NORMAL: task->t.regs.ebx = 0x0101; /* standby */ break; case FB_BLANK_POWERDOWN: task->t.regs.ebx = 0x0401; /* powerdown */ break; default: goto out; } err = uvesafb_exec(task); if (err || (task->t.regs.eax & 0xffff) != 0x004f) err = 1; out: uvesafb_free(task); } return err; } static int uvesafb_open(struct fb_info *info, int user) { struct uvesafb_par *par = info->par; int cnt = atomic_read(&par->ref_count); if (!cnt && par->vbe_state_size) par->vbe_state_orig = uvesafb_vbe_state_save(par); atomic_inc(&par->ref_count); return 0; } static int uvesafb_release(struct fb_info *info, int user) { struct uvesafb_ktask *task = NULL; struct uvesafb_par *par = info->par; int cnt = atomic_read(&par->ref_count); if (!cnt) return -EINVAL; if (cnt != 1) goto out; task = uvesafb_prep(); if (!task) goto out; /* First, try to set the standard 80x25 text mode. */ task->t.regs.eax = 0x0003; uvesafb_exec(task); /* * Now try to restore whatever hardware state we might have * saved when the fb device was first opened. */ uvesafb_vbe_state_restore(par, par->vbe_state_orig); out: atomic_dec(&par->ref_count); if (task) uvesafb_free(task); return 0; } static int uvesafb_set_par(struct fb_info *info) { struct uvesafb_par *par = info->par; struct uvesafb_ktask *task = NULL; struct vbe_crtc_ib *crtc = NULL; struct vbe_mode_ib *mode = NULL; int i, err = 0, depth = info->var.bits_per_pixel; if (depth > 8 && depth != 32) depth = info->var.red.length + info->var.green.length + info->var.blue.length; i = uvesafb_vbe_find_mode(par, info->var.xres, info->var.yres, depth, UVESAFB_EXACT_RES | UVESAFB_EXACT_DEPTH); if (i >= 0) mode = &par->vbe_modes[i]; else return -EINVAL; task = uvesafb_prep(); if (!task) return -ENOMEM; setmode: task->t.regs.eax = 0x4f02; task->t.regs.ebx = mode->mode_id | 0x4000; /* use LFB */ if (par->vbe_ib.vbe_version >= 0x0300 && !par->nocrtc && info->var.pixclock != 0) { task->t.regs.ebx |= 0x0800; /* use CRTC data */ task->t.flags = TF_BUF_ESDI; crtc = kzalloc(sizeof(struct vbe_crtc_ib), GFP_KERNEL); if (!crtc) { err = -ENOMEM; goto out; } crtc->horiz_start = info->var.xres + info->var.right_margin; crtc->horiz_end = crtc->horiz_start + info->var.hsync_len; crtc->horiz_total = crtc->horiz_end + info->var.left_margin; crtc->vert_start = info->var.yres + info->var.lower_margin; crtc->vert_end = crtc->vert_start + info->var.vsync_len; crtc->vert_total = crtc->vert_end + info->var.upper_margin; crtc->pixel_clock = PICOS2KHZ(info->var.pixclock) * 1000; crtc->refresh_rate = (u16)(100 * (crtc->pixel_clock / (crtc->vert_total * crtc->horiz_total))); if (info->var.vmode & FB_VMODE_DOUBLE) crtc->flags |= 0x1; if (info->var.vmode & FB_VMODE_INTERLACED) crtc->flags |= 0x2; if (!(info->var.sync & FB_SYNC_HOR_HIGH_ACT)) crtc->flags |= 0x4; if (!(info->var.sync & FB_SYNC_VERT_HIGH_ACT)) crtc->flags |= 0x8; memcpy(&par->crtc, crtc, sizeof(*crtc)); } else { memset(&par->crtc, 0, sizeof(*crtc)); } task->t.buf_len = sizeof(struct vbe_crtc_ib); task->buf = &par->crtc; err = uvesafb_exec(task); if (err || (task->t.regs.eax & 0xffff) != 0x004f) { /* * The mode switch might have failed because we tried to * use our own timings. Try again with the default timings. */ if (crtc != NULL) { printk(KERN_WARNING "uvesafb: mode switch failed " "(eax=0x%x, err=%d). Trying again with " "default timings.\n", task->t.regs.eax, err); uvesafb_reset(task); kfree(crtc); crtc = NULL; info->var.pixclock = 0; goto setmode; } else { printk(KERN_ERR "uvesafb: mode switch failed (eax=" "0x%x, err=%d)\n", task->t.regs.eax, err); err = -EINVAL; goto out; } } par->mode_idx = i; /* For 8bpp modes, always try to set the DAC to 8 bits. */ if (par->vbe_ib.capabilities & VBE_CAP_CAN_SWITCH_DAC && mode->bits_per_pixel <= 8) { uvesafb_reset(task); task->t.regs.eax = 0x4f08; task->t.regs.ebx = 0x0800; err = uvesafb_exec(task); if (err || (task->t.regs.eax & 0xffff) != 0x004f || ((task->t.regs.ebx & 0xff00) >> 8) != 8) { dac_width = 6; } else { dac_width = 8; } } info->fix.visual = (info->var.bits_per_pixel == 8) ? FB_VISUAL_PSEUDOCOLOR : FB_VISUAL_TRUECOLOR; info->fix.line_length = mode->bytes_per_scan_line; out: if (crtc != NULL) kfree(crtc); uvesafb_free(task); return err; } static void uvesafb_check_limits(struct fb_var_screeninfo *var, struct fb_info *info) { const struct fb_videomode *mode; struct uvesafb_par *par = info->par; /* * If pixclock is set to 0, then we're using default BIOS timings * and thus don't have to perform any checks here. */ if (!var->pixclock) return; if (par->vbe_ib.vbe_version < 0x0300) { fb_get_mode(FB_VSYNCTIMINGS | FB_IGNOREMON, 60, var, info); return; } if (!fb_validate_mode(var, info)) return; mode = fb_find_best_mode(var, &info->modelist); if (mode) { if (mode->xres == var->xres && mode->yres == var->yres && !(mode->vmode & (FB_VMODE_INTERLACED | FB_VMODE_DOUBLE))) { fb_videomode_to_var(var, mode); return; } } if (info->monspecs.gtf && !fb_get_mode(FB_MAXTIMINGS, 0, var, info)) return; /* Use default refresh rate */ var->pixclock = 0; } static int uvesafb_check_var(struct fb_var_screeninfo *var, struct fb_info *info) { struct uvesafb_par *par = info->par; struct vbe_mode_ib *mode = NULL; int match = -1; int depth = var->red.length + var->green.length + var->blue.length; /* * Various apps will use bits_per_pixel to set the color depth, * which is theoretically incorrect, but which we'll try to handle * here. */ if (depth == 0 || abs(depth - var->bits_per_pixel) >= 8) depth = var->bits_per_pixel; match = uvesafb_vbe_find_mode(par, var->xres, var->yres, depth, UVESAFB_EXACT_RES); if (match == -1) return -EINVAL; mode = &par->vbe_modes[match]; uvesafb_setup_var(var, info, mode); /* * Check whether we have remapped enough memory for this mode. * We might be called at an early stage, when we haven't remapped * any memory yet, in which case we simply skip the check. */ if (var->yres * mode->bytes_per_scan_line > info->fix.smem_len && info->fix.smem_len) return -EINVAL; if ((var->vmode & FB_VMODE_DOUBLE) && !(par->vbe_modes[match].mode_attr & 0x100)) var->vmode &= ~FB_VMODE_DOUBLE; if ((var->vmode & FB_VMODE_INTERLACED) && !(par->vbe_modes[match].mode_attr & 0x200)) var->vmode &= ~FB_VMODE_INTERLACED; uvesafb_check_limits(var, info); var->xres_virtual = var->xres; var->yres_virtual = (par->ypan) ? info->fix.smem_len / mode->bytes_per_scan_line : var->yres; return 0; } static struct fb_ops uvesafb_ops = { .owner = THIS_MODULE, .fb_open = uvesafb_open, .fb_release = uvesafb_release, .fb_setcolreg = uvesafb_setcolreg, .fb_setcmap = uvesafb_setcmap, .fb_pan_display = uvesafb_pan_display, .fb_blank = uvesafb_blank, .fb_fillrect = cfb_fillrect, .fb_copyarea = cfb_copyarea, .fb_imageblit = cfb_imageblit, .fb_check_var = uvesafb_check_var, .fb_set_par = uvesafb_set_par, }; static void __devinit uvesafb_init_info(struct fb_info *info, struct vbe_mode_ib *mode) { unsigned int size_vmode; unsigned int size_remap; unsigned int size_total; struct uvesafb_par *par = info->par; int i, h; info->pseudo_palette = ((u8 *)info->par + sizeof(struct uvesafb_par)); info->fix = uvesafb_fix; info->fix.ypanstep = par->ypan ? 1 : 0; info->fix.ywrapstep = (par->ypan > 1) ? 1 : 0; /* Disable blanking if the user requested so. */ if (!blank) info->fbops->fb_blank = NULL; /* * Find out how much IO memory is required for the mode with * the highest resolution. */ size_remap = 0; for (i = 0; i < par->vbe_modes_cnt; i++) { h = par->vbe_modes[i].bytes_per_scan_line * par->vbe_modes[i].y_res; if (h > size_remap) size_remap = h; } size_remap *= 2; /* * size_vmode -- that is the amount of memory needed for the * used video mode, i.e. the minimum amount of * memory we need. */ if (mode != NULL) { size_vmode = info->var.yres * mode->bytes_per_scan_line; } else { size_vmode = info->var.yres * info->var.xres * ((info->var.bits_per_pixel + 7) >> 3); } /* * size_total -- all video memory we have. Used for mtrr * entries, resource allocation and bounds * checking. */ size_total = par->vbe_ib.total_memory * 65536; if (vram_total) size_total = vram_total * 1024 * 1024; if (size_total < size_vmode) size_total = size_vmode; /* * size_remap -- the amount of video memory we are going to * use for vesafb. With modern cards it is no * option to simply use size_total as th * wastes plenty of kernel address space. */ if (vram_remap) size_remap = vram_remap * 1024 * 1024; if (size_remap < size_vmode) size_remap = size_vmode; if (size_remap > size_total) size_remap = size_total; info->fix.smem_len = size_remap; info->fix.smem_start = mode->phys_base_ptr; /* * We have to set yres_virtual here because when setup_var() was * called, smem_len wasn't defined yet. */ info->var.yres_virtual = info->fix.smem_len / mode->bytes_per_scan_line; if (par->ypan && info->var.yres_virtual > info->var.yres) { printk(KERN_INFO "uvesafb: scrolling: %s " "using protected mode interface, " "yres_virtual=%d\n", (par->ypan > 1) ? "ywrap" : "ypan", info->var.yres_virtual); } else { printk(KERN_INFO "uvesafb: scrolling: redraw\n"); info->var.yres_virtual = info->var.yres; par->ypan = 0; } info->flags = FBINFO_FLAG_DEFAULT | (par->ypan ? FBINFO_HWACCEL_YPAN : 0); if (!par->ypan) info->fbops->fb_pan_display = NULL; } static void __devinit uvesafb_init_mtrr(struct fb_info *info) { #ifdef CONFIG_MTRR if (mtrr && !(info->fix.smem_start & (PAGE_SIZE - 1))) { int temp_size = info->fix.smem_len; unsigned int type = 0; switch (mtrr) { case 1: type = MTRR_TYPE_UNCACHABLE; break; case 2: type = MTRR_TYPE_WRBACK; break; case 3: type = MTRR_TYPE_WRCOMB; break; case 4: type = MTRR_TYPE_WRTHROUGH; break; default: type = 0; break; } if (type) { int rc; /* Find the largest power-of-two */ temp_size = roundup_pow_of_two(temp_size); /* Try and find a power of two to add */ do { rc = mtrr_add(info->fix.smem_start, temp_size, type, 1); temp_size >>= 1; } while (temp_size >= PAGE_SIZE && rc == -EINVAL); } } #endif /* CONFIG_MTRR */ } static void __devinit uvesafb_ioremap(struct fb_info *info) { #ifdef CONFIG_X86 switch (mtrr) { case 1: /* uncachable */ info->screen_base = ioremap_nocache(info->fix.smem_start, info->fix.smem_len); break; case 2: /* write-back */ info->screen_base = ioremap_cache(info->fix.smem_start, info->fix.smem_len); break; case 3: /* write-combining */ info->screen_base = ioremap_wc(info->fix.smem_start, info->fix.smem_len); break; case 4: /* write-through */ default: info->screen_base = ioremap(info->fix.smem_start, info->fix.smem_len); break; } #else info->screen_base = ioremap(info->fix.smem_start, info->fix.smem_len); #endif /* CONFIG_X86 */ } static ssize_t uvesafb_show_vbe_ver(struct device *dev, struct device_attribute *attr, char *buf) { struct fb_info *info = platform_get_drvdata(to_platform_device(dev)); struct uvesafb_par *par = info->par; return snprintf(buf, PAGE_SIZE, "%.4x\n", par->vbe_ib.vbe_version); } static DEVICE_ATTR(vbe_version, S_IRUGO, uvesafb_show_vbe_ver, NULL); static ssize_t uvesafb_show_vbe_modes(struct device *dev, struct device_attribute *attr, char *buf) { struct fb_info *info = platform_get_drvdata(to_platform_device(dev)); struct uvesafb_par *par = info->par; int ret = 0, i; for (i = 0; i < par->vbe_modes_cnt && ret < PAGE_SIZE; i++) { ret += snprintf(buf + ret, PAGE_SIZE - ret, "%dx%d-%d, 0x%.4x\n", par->vbe_modes[i].x_res, par->vbe_modes[i].y_res, par->vbe_modes[i].depth, par->vbe_modes[i].mode_id); } return ret; } static DEVICE_ATTR(vbe_modes, S_IRUGO, uvesafb_show_vbe_modes, NULL); static ssize_t uvesafb_show_vendor(struct device *dev, struct device_attribute *attr, char *buf) { struct fb_info *info = platform_get_drvdata(to_platform_device(dev)); struct uvesafb_par *par = info->par; if (par->vbe_ib.oem_vendor_name_ptr) return snprintf(buf, PAGE_SIZE, "%s\n", (char *) (&par->vbe_ib) + par->vbe_ib.oem_vendor_name_ptr); else return 0; } static DEVICE_ATTR(oem_vendor, S_IRUGO, uvesafb_show_vendor, NULL); static ssize_t uvesafb_show_product_name(struct device *dev, struct device_attribute *attr, char *buf) { struct fb_info *info = platform_get_drvdata(to_platform_device(dev)); struct uvesafb_par *par = info->par; if (par->vbe_ib.oem_product_name_ptr) return snprintf(buf, PAGE_SIZE, "%s\n", (char *) (&par->vbe_ib) + par->vbe_ib.oem_product_name_ptr); else return 0; } static DEVICE_ATTR(oem_product_name, S_IRUGO, uvesafb_show_product_name, NULL); static ssize_t uvesafb_show_product_rev(struct device *dev, struct device_attribute *attr, char *buf) { struct fb_info *info = platform_get_drvdata(to_platform_device(dev)); struct uvesafb_par *par = info->par; if (par->vbe_ib.oem_product_rev_ptr) return snprintf(buf, PAGE_SIZE, "%s\n", (char *) (&par->vbe_ib) + par->vbe_ib.oem_product_rev_ptr); else return 0; } static DEVICE_ATTR(oem_product_rev, S_IRUGO, uvesafb_show_product_rev, NULL); static ssize_t uvesafb_show_oem_string(struct device *dev, struct device_attribute *attr, char *buf) { struct fb_info *info = platform_get_drvdata(to_platform_device(dev)); struct uvesafb_par *par = info->par; if (par->vbe_ib.oem_string_ptr) return snprintf(buf, PAGE_SIZE, "%s\n", (char *)(&par->vbe_ib) + par->vbe_ib.oem_string_ptr); else return 0; } static DEVICE_ATTR(oem_string, S_IRUGO, uvesafb_show_oem_string, NULL); static ssize_t uvesafb_show_nocrtc(struct device *dev, struct device_attribute *attr, char *buf) { struct fb_info *info = platform_get_drvdata(to_platform_device(dev)); struct uvesafb_par *par = info->par; return snprintf(buf, PAGE_SIZE, "%d\n", par->nocrtc); } static ssize_t uvesafb_store_nocrtc(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { struct fb_info *info = platform_get_drvdata(to_platform_device(dev)); struct uvesafb_par *par = info->par; if (count > 0) { if (buf[0] == '0') par->nocrtc = 0; else par->nocrtc = 1; } return count; } static DEVICE_ATTR(nocrtc, S_IRUGO | S_IWUSR, uvesafb_show_nocrtc, uvesafb_store_nocrtc); static struct attribute *uvesafb_dev_attrs[] = { &dev_attr_vbe_version.attr, &dev_attr_vbe_modes.attr, &dev_attr_oem_vendor.attr, &dev_attr_oem_product_name.attr, &dev_attr_oem_product_rev.attr, &dev_attr_oem_string.attr, &dev_attr_nocrtc.attr, NULL, }; static struct attribute_group uvesafb_dev_attgrp = { .name = NULL, .attrs = uvesafb_dev_attrs, }; static int __devinit uvesafb_probe(struct platform_device *dev) { struct fb_info *info; struct vbe_mode_ib *mode = NULL; struct uvesafb_par *par; int err = 0, i; info = framebuffer_alloc(sizeof(*par) + sizeof(u32) * 256, &dev->dev); if (!info) return -ENOMEM; par = info->par; err = uvesafb_vbe_init(info); if (err) { printk(KERN_ERR "uvesafb: vbe_init() failed with %d\n", err); goto out; } info->fbops = &uvesafb_ops; i = uvesafb_vbe_init_mode(info); if (i < 0) { err = -EINVAL; goto out; } else { mode = &par->vbe_modes[i]; } if (fb_alloc_cmap(&info->cmap, 256, 0) < 0) { err = -ENXIO; goto out; } uvesafb_init_info(info, mode); if (!request_region(0x3c0, 32, "uvesafb")) { printk(KERN_ERR "uvesafb: request region 0x3c0-0x3e0 failed\n"); err = -EIO; goto out_mode; } if (!request_mem_region(info->fix.smem_start, info->fix.smem_len, "uvesafb")) { printk(KERN_ERR "uvesafb: cannot reserve video memory at " "0x%lx\n", info->fix.smem_start); err = -EIO; goto out_reg; } uvesafb_init_mtrr(info); uvesafb_ioremap(info); if (!info->screen_base) { printk(KERN_ERR "uvesafb: abort, cannot ioremap 0x%x bytes of video " "memory at 0x%lx\n", info->fix.smem_len, info->fix.smem_start); err = -EIO; goto out_mem; } platform_set_drvdata(dev, info); if (register_framebuffer(info) < 0) { printk(KERN_ERR "uvesafb: failed to register framebuffer device\n"); err = -EINVAL; goto out_unmap; } printk(KERN_INFO "uvesafb: framebuffer at 0x%lx, mapped to 0x%p, " "using %dk, total %dk\n", info->fix.smem_start, info->screen_base, info->fix.smem_len/1024, par->vbe_ib.total_memory * 64); printk(KERN_INFO "fb%d: %s frame buffer device\n", info->node, info->fix.id); err = sysfs_create_group(&dev->dev.kobj, &uvesafb_dev_attgrp); if (err != 0) printk(KERN_WARNING "fb%d: failed to register attributes\n", info->node); return 0; out_unmap: iounmap(info->screen_base); out_mem: release_mem_region(info->fix.smem_start, info->fix.smem_len); out_reg: release_region(0x3c0, 32); out_mode: if (!list_empty(&info->modelist)) fb_destroy_modelist(&info->modelist); fb_destroy_modedb(info->monspecs.modedb); fb_dealloc_cmap(&info->cmap); out: if (par->vbe_modes) kfree(par->vbe_modes); framebuffer_release(info); return err; } static int uvesafb_remove(struct platform_device *dev) { struct fb_info *info = platform_get_drvdata(dev); if (info) { struct uvesafb_par *par = info->par; sysfs_remove_group(&dev->dev.kobj, &uvesafb_dev_attgrp); unregister_framebuffer(info); release_region(0x3c0, 32); iounmap(info->screen_base); release_mem_region(info->fix.smem_start, info->fix.smem_len); fb_destroy_modedb(info->monspecs.modedb); fb_dealloc_cmap(&info->cmap); if (par) { if (par->vbe_modes) kfree(par->vbe_modes); if (par->vbe_state_orig) kfree(par->vbe_state_orig); if (par->vbe_state_saved) kfree(par->vbe_state_saved); } framebuffer_release(info); } return 0; } static struct platform_driver uvesafb_driver = { .probe = uvesafb_probe, .remove = uvesafb_remove, .driver = { .name = "uvesafb", }, }; static struct platform_device *uvesafb_device; #ifndef MODULE static int __devinit uvesafb_setup(char *options) { char *this_opt; if (!options || !*options) return 0; while ((this_opt = strsep(&options, ",")) != NULL) { if (!*this_opt) continue; if (!strcmp(this_opt, "redraw")) ypan = 0; else if (!strcmp(this_opt, "ypan")) ypan = 1; else if (!strcmp(this_opt, "ywrap")) ypan = 2; else if (!strcmp(this_opt, "vgapal")) pmi_setpal = 0; else if (!strcmp(this_opt, "pmipal")) pmi_setpal = 1; else if (!strncmp(this_opt, "mtrr:", 5)) mtrr = simple_strtoul(this_opt+5, NULL, 0); else if (!strcmp(this_opt, "nomtrr")) mtrr = 0; else if (!strcmp(this_opt, "nocrtc")) nocrtc = 1; else if (!strcmp(this_opt, "noedid")) noedid = 1; else if (!strcmp(this_opt, "noblank")) blank = 0; else if (!strncmp(this_opt, "vtotal:", 7)) vram_total = simple_strtoul(this_opt + 7, NULL, 0); else if (!strncmp(this_opt, "vremap:", 7)) vram_remap = simple_strtoul(this_opt + 7, NULL, 0); else if (!strncmp(this_opt, "maxhf:", 6)) maxhf = simple_strtoul(this_opt + 6, NULL, 0); else if (!strncmp(this_opt, "maxvf:", 6)) maxvf = simple_strtoul(this_opt + 6, NULL, 0); else if (!strncmp(this_opt, "maxclk:", 7)) maxclk = simple_strtoul(this_opt + 7, NULL, 0); else if (!strncmp(this_opt, "vbemode:", 8)) vbemode = simple_strtoul(this_opt + 8, NULL, 0); else if (this_opt[0] >= '0' && this_opt[0] <= '9') { mode_option = this_opt; } else { printk(KERN_WARNING "uvesafb: unrecognized option %s\n", this_opt); } } return 0; } #endif /* !MODULE */ static ssize_t show_v86d(struct device_driver *dev, char *buf) { return snprintf(buf, PAGE_SIZE, "%s\n", v86d_path); } static ssize_t store_v86d(struct device_driver *dev, const char *buf, size_t count) { strncpy(v86d_path, buf, PATH_MAX); return count; } static DRIVER_ATTR(v86d, S_IRUGO | S_IWUSR, show_v86d, store_v86d); static int __devinit uvesafb_init(void) { int err; #ifndef MODULE char *option = NULL; if (fb_get_options("uvesafb", &option)) return -ENODEV; uvesafb_setup(option); #endif err = cn_add_callback(&uvesafb_cn_id, "uvesafb", uvesafb_cn_callback); if (err) return err; err = platform_driver_register(&uvesafb_driver); if (!err) { uvesafb_device = platform_device_alloc("uvesafb", 0); if (uvesafb_device) err = platform_device_add(uvesafb_device); else err = -ENOMEM; if (err) { platform_device_put(uvesafb_device); platform_driver_unregister(&uvesafb_driver); cn_del_callback(&uvesafb_cn_id); return err; } err = driver_create_file(&uvesafb_driver.driver, &driver_attr_v86d); if (err) { printk(KERN_WARNING "uvesafb: failed to register " "attributes\n"); err = 0; } } return err; } module_init(uvesafb_init); static void __devexit uvesafb_exit(void) { struct uvesafb_ktask *task; if (v86d_started) { task = uvesafb_prep(); if (task) { task->t.flags = TF_EXIT; uvesafb_exec(task); uvesafb_free(task); } } cn_del_callback(&uvesafb_cn_id); driver_remove_file(&uvesafb_driver.driver, &driver_attr_v86d); platform_device_unregister(uvesafb_device); platform_driver_unregister(&uvesafb_driver); } module_exit(uvesafb_exit); static int param_set_scroll(const char *val, const struct kernel_param *kp) { ypan = 0; if (!strcmp(val, "redraw")) ypan = 0; else if (!strcmp(val, "ypan")) ypan = 1; else if (!strcmp(val, "ywrap")) ypan = 2; else return -EINVAL; return 0; } static struct kernel_param_ops param_ops_scroll = { .set = param_set_scroll, }; #define param_check_scroll(name, p) __param_check(name, p, void) module_param_named(scroll, ypan, scroll, 0); MODULE_PARM_DESC(scroll, "Scrolling mode, set to 'redraw', 'ypan', or 'ywrap'"); module_param_named(vgapal, pmi_setpal, invbool, 0); MODULE_PARM_DESC(vgapal, "Set palette using VGA registers"); module_param_named(pmipal, pmi_setpal, bool, 0); MODULE_PARM_DESC(pmipal, "Set palette using PMI calls"); module_param(mtrr, uint, 0); MODULE_PARM_DESC(mtrr, "Memory Type Range Registers setting. Use 0 to disable."); module_param(blank, bool, 0); MODULE_PARM_DESC(blank, "Enable hardware blanking"); module_param(nocrtc, bool, 0); MODULE_PARM_DESC(nocrtc, "Ignore CRTC timings when setting modes"); module_param(noedid, bool, 0); MODULE_PARM_DESC(noedid, "Ignore EDID-provided monitor limits when setting modes"); module_param(vram_remap, uint, 0); MODULE_PARM_DESC(vram_remap, "Set amount of video memory to be used [MiB]"); module_param(vram_total, uint, 0); MODULE_PARM_DESC(vram_total, "Set total amount of video memoery [MiB]"); module_param(maxclk, ushort, 0); MODULE_PARM_DESC(maxclk, "Maximum pixelclock [MHz], overrides EDID data"); module_param(maxhf, ushort, 0); MODULE_PARM_DESC(maxhf, "Maximum horizontal frequency [kHz], overrides EDID data"); module_param(maxvf, ushort, 0); MODULE_PARM_DESC(maxvf, "Maximum vertical frequency [Hz], overrides EDID data"); module_param(mode_option, charp, 0); MODULE_PARM_DESC(mode_option, "Specify initial video mode as \"<xres>x<yres>[-<bpp>][@<refresh>]\""); module_param(vbemode, ushort, 0); MODULE_PARM_DESC(vbemode, "VBE mode number to set, overrides the 'mode' option"); module_param_string(v86d, v86d_path, PATH_MAX, 0660); MODULE_PARM_DESC(v86d, "Path to the v86d userspace helper."); MODULE_LICENSE("GPL"); MODULE_AUTHOR("Michal Januszewski <[email protected]>"); MODULE_DESCRIPTION("Framebuffer driver for VBE2.0+ compliant graphics boards");
manveru0/FeaCore_Phoenix_S3
drivers/video/uvesafb.c
C
gpl-2.0
52,031
/** * 对公众平台发送给公众账号的消息加解密示例代码. * * @copyright Copyright (c) 1998-2014 Tencent Inc. */ // ------------------------------------------------------------------------ package com.weixin.sdk.encrypt; import java.security.MessageDigest; import java.util.Arrays; /** * SHA1 class * * 计算公众平台的消息签名接口. */ class SHA1 { /** * 用SHA1算法生成安全签名 * @param token 票据 * @param timestamp 时间戳 * @param nonce 随机字符串 * @param encrypt 密文 * @return 安全签名 * @throws AesException */ public static String getSHA1(String token, String timestamp, String nonce, String encrypt) throws AesException { try { String[] array = new String[] { token, timestamp, nonce, encrypt }; StringBuffer sb = new StringBuffer(); // 字符串排序 Arrays.sort(array); for (int i = 0; i < 4; i++) { sb.append(array[i]); } String str = sb.toString(); // SHA1签名生成 MessageDigest md = MessageDigest.getInstance("SHA-1"); md.update(str.getBytes()); byte[] digest = md.digest(); StringBuffer hexstr = new StringBuffer(); String shaHex = ""; for (int i = 0; i < digest.length; i++) { shaHex = Integer.toHexString(digest[i] & 0xFF); if (shaHex.length() < 2) { hexstr.append(0); } hexstr.append(shaHex); } return hexstr.toString(); } catch (Exception e) { e.printStackTrace(); throw new AesException(AesException.ComputeSignatureError); } } }
teabo/wholly-framework
wholly-demo/wholly_weixin/src/main/java/com/weixin/sdk/encrypt/SHA1.java
Java
gpl-2.0
1,592
/* Copyright (C) 2015 Panagiotis Roubatsis This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ /* * Created by Panagiotis Roubatsis * * Description: A single adjacency for the adjacency list. */ using System; using System.Collections.Generic; using System.Linq; using System.Text; namespace Map_Creator { class MapAdjacency { public int destIndex; public int cost; public bool invisible; public MapAdjacency(int dest, int cost, bool invisible) { this.destIndex = dest; this.cost = cost; this.invisible = invisible; } } }
proubatsis/Map-Creator
Map Creator/MapAdjacency.cs
C#
gpl-2.0
1,312
set term ^; CREATE OR ALTER PROCEDURE RELDRE( PDTA1 DATE , PDTA2 DATE, PCC INTEGER ) -- ATS Soluções 11/03/2009 RETURNS ( CONTA VARCHAR( 30 ) , DESC_CONTA VARCHAR( 80 ) , CREDITO DOUBLE PRECISION , TOTAL DOUBLE PRECISION , ACUMULA DOUBLE PRECISION , TOT CHAR( 1 ) ) AS DECLARE VARIABLE CODREC INTEGER; DECLARE VARIABLE CODP INTEGER; DECLARE VARIABLE CENTROPERDA INTEGER; DECLARE VARIABLE CONTAJURO VARCHAR(60); DECLARE VARIABLE CONTAPASSIVO VARCHAR(60); DECLARE VARIABLE CONTACOMISSAO integer; -- Codigo da Conta DECLARE VARIABLE CONTAIMPOSTOVENDA integer; -- Codigo da Conta DECLARE VARIABLE TOTALIZA Double precision; DECLARE VARIABLE TOTALREC Double precision = 0; DECLARE VARIABLE TOTAL Double precision = 0; DECLARE VARIABLE custoMatPrima Double precision = 0; DECLARE VARIABLE QTDE Double precision = 0; DECLARE VARIABLE produt VARCHAR(300); DECLARE VARIABLE linha VARCHAR(60); DECLARE VARIABLE jaPassou CHAR(1); DECLARE VARIABLE CONTAPAI VARCHAR(15); DECLARE VARIABLE EstoqueIni Double precision = 0; DECLARE VARIABLE EstoqueFim Double precision = 0; DECLARE VARIABLE Compras Double precision = 0; DECLARE VARIABLE Desconto Double precision = 0; BEGIN -- TOT -----> A = Negrito / Valor Null, S = Negrito com Valor, N = Normal sem valor linha = 'nada'; jaPassou = 'N'; /* Busca o CENTRO DE CUSTO usado para Lixo e Descartes */ SELECT DADOS FROM PARAMETRO WHERE PARAMETRO = 'CENTRO PERDA' INTO :CENTROPERDA; IF (CENTROPERDA IS NULL) THEN CENTROPERDA = 0; /* Busca a Conta Principal de lançamento Desp. Juros. */ CONTAJURO = '4.1.1.01'; SELECT DADOS FROM PARAMETRO WHERE PARAMETRO = 'CONTASDESPESAJUROS' INTO :CONTAJURO; /* Busca a Conta Principal de lançamento Desp. COMISSAO. */ contaComissao = null; SELECT CAST(DADOS as INTEGER) FROM PARAMETRO WHERE PARAMETRO = 'CONTACOMISSAO' INTO :CONTACOMISSAO; IF (CONTACOMISSAO IS NULL) THEN CONTACOMISSAO = 0; /* Busca a Conta PASSIVO. */ contaPassivo = null; SELECT CAST(DADOS as INTEGER) FROM PARAMETRO WHERE PARAMETRO = 'CONTASPASSIVO' INTO :CONTAPASSIVO; IF (CONTAPASSIVO IS NULL) THEN CONTAPASSIVO = 0; /* Busca a Conta Principal de lançamento Impostos Sobre Venda*/ contaImpostoVenda = null; SELECT CAST(DADOS as INTEGER) FROM PARAMETRO WHERE PARAMETRO = 'CONTAIMPOSTOVENDA' INTO :CONTAIMPOSTOVENDA; /* ########### Gerando a Receita ############*/ /* Receitas Vendas OS */ DESC_CONTA = 'Receitas operacionais'; CONTA = null; CREDITO = null; SUSPEND; TOTALIZA = 0; TOTAL = 0; select sum(md.valTotal) FROM MOVIMENTO mov inner join MOVIMENTODETALHE md on md.CODMOVIMENTO = mov.CODMOVIMENTO inner join VENDA ven on ven.CODMOVIMENTO = mov.CODMOVIMENTO inner join PRODUTOS prod on prod.CODPRODUTO = md.CODPRODUTO where (mov.codnatureza = 3) and (ven.DATAVENDA between :PDTA1 AND :PDTA2) and ((PROD.TIPO <> 'SERV') OR (PROD.TIPO IS NULL)) and ((ven.CODCCUSTO = :PCC) OR (:PCC = 0)) INTO :CREDITO; select sum(md.valTotal*((case when md.qtde_alt is null then 0 else md.qtde_alt end)/100)) FROM MOVIMENTO mov inner join MOVIMENTODETALHE md on md.CODMOVIMENTO = mov.CODMOVIMENTO inner join VENDA ven on ven.CODMOVIMENTO = mov.CODMOVIMENTO inner join PRODUTOS prod on prod.CODPRODUTO = md.CODPRODUTO where (mov.codnatureza = 3) and (ven.DATAVENDA between :PDTA1 AND :PDTA2) and ((PROD.TIPO <> 'SERV') OR (PROD.TIPO IS NULL)) and ((ven.CODCCUSTO = :PCC) OR (:PCC = 0)) INTO :desconto; if (desconto is null) then desconto = 0; IF (CREDITO IS NULL) THEN CREDITO = 0; CREDITO = CREDITO-desconto; DESC_CONTA = ' Faturamento do Mês'; TOTALIZA = TOTALIZA + CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; SUSPEND; TOTALIZA = 0; /* Receitas Servicos OS */ CONTA = null; CREDITO = null; TOTALIZA = 0; FOR select sum(md.valTotal) FROM MOVIMENTO mov inner join MOVIMENTODETALHE md on md.CODMOVIMENTO = mov.CODMOVIMENTO inner join VENDA ven on ven.CODMOVIMENTO = mov.CODMOVIMENTO inner join PRODUTOS prod on prod.CODPRODUTO = md.CODPRODUTO where (mov.codnatureza = 3) and (ven.DATAVENDA between :PDTA1 AND :PDTA2) and PROD.TIPO = 'SERV' and ((ven.CODCCUSTO = :PCC) OR (:PCC = 0)) INTO :CREDITO do begin IF (CREDITO IS NULL) THEN CREDITO = 0; DESC_CONTA = ' Receitas de Serviços '; TOTALIZA = TOTALIZA + CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; if (CREDITO > 0) THEN SUSPEND; end /* Receitas Vendas OS */ DESC_CONTA = 'Receitas não operacionais'; CONTA = null; CREDITO = null; TOT = 'A'; SUSPEND; /* Receitas JUROS e CORRECAO MONETARIA*/ CONTA = null; CREDITO = null; TOTALIZA = 0; FOR select sum(JUROS + FUNRURAL) FROM RECEBIMENTO rec where (rec.DATARECEBIMENTO between :PDTA1 AND :PDTA2) and rec.STATUS = '7-' INTO :CREDITO do begin IF (CREDITO IS NULL) THEN CREDITO = 0; DESC_CONTA = ' Receitas de Juros e Corr. Monetária '; TOTALIZA = TOTALIZA + CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; if (CREDITO > 0) THEN SUSPEND; end TOTALIZA = 0; -- Outras Receitas de Vendas (FRETE , SEGUROS, etc ) FOR select sum(v.VALOR_FRETE + v.VALOR_SEGURO + v.OUTRAS_DESP + v.VALOR_IPI) FROM VENDA v where (v.DATAVENDA between :PDTA1 AND :PDTA2) INTO :CREDITO do begin IF (CREDITO IS NULL) THEN CREDITO = 0; DESC_CONTA = ' Outros receitas (FRETE, SEGURO) '; TOTALIZA = TOTALIZA + CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; if (CREDITO > 0) THEN SUSPEND; end TOTALIZA = 0; -- Receitas Diversas FOR select sum(r.VALOR_RESTO), p.NOME FROM RECEBIMENTO r inner join plano p on p.CODIGO = r.CONTACREDITO where (r.EMISSAO between :PDTA1 AND :PDTA2) And (r.CODVENDA is null) group by p.NOME INTO :CREDITO, :DESC_CONTA do begin DESC_CONTA = ' ' || :DESC_CONTA; IF (CREDITO IS NULL) THEN CREDITO = 0; TOTALIZA = TOTALIZA + CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; if (CREDITO > 0) THEN SUSPEND; TOTALIZA = 0; end DESC_CONTA = '= Total de Receitas '; CONTA = null; CREDITO = null; --TOTAL = NULL; TOT = 'S'; SUSPEND; TOTALIZA = 0; /* Gerando Total Receita */ DESC_CONTA = '(-) Deduções das Receitas'; CONTA = null; CREDITO = null; ACUMULA = TOTAL; TOTAL = 0; TOT = 'A'; SUSPEND; /* COMISSAO DE VENDAS */ IF (CONTACOMISSAO IS NOT NULL) THEN begin For Select sum(pag.VALOR_RESTO), pl.NOME FROM PAGAMENTO pag , plano pl where (pag.EMISSAO between :PDTA1 AND :PDTA2) and pl.CODIGO = pag.CONTACREDITO and (pag.CONTACREDITO = :CONTACOMISSAO) group by pl.NOME INTO :CREDITO, :DESC_CONTA do begin desc_conta = ' ' || :DESC_CONTA; IF (CREDITO IS NULL) THEN CREDITO = 0; TOTALIZA = TOTALIZA - CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; if (CREDITO > 0) THEN SUSPEND; end end /* Deducoes das Receitas*/ CONTA = null; CREDITO = null; TOTALIZA = 0; TOTAL = ACUMULA; -- Desconto concedido na venda FOR select sum(ven.DESCONTO) FROM VENDA ven where (ven.DATAVENDA between :PDTA1 AND :PDTA2) and ((ven.CODCCUSTO = :PCC) OR (:PCC = 0)) INTO :CREDITO do begin IF (CREDITO IS NULL) THEN CREDITO = 0; TOTALIZA = TOTALIZA - CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; IF (CREDITO > 0) then SUSPEND; end /* PERDAS E DESCARTES*/ CONTA = null; CREDITO = null; TOTALIZA = 0; TOTAL = ACUMULA; FOR select sum(md.VLRESTOQUE) FROM MOVIMENTO mov inner join MOVIMENTODETALHE md on md.CODMOVIMENTO = mov.CODMOVIMENTO inner join PRODUTOS prod on prod.CODPRODUTO = md.CODPRODUTO where (mov.codnatureza = 2) and (mov.DATAMOVIMENTO between :PDTA1 AND :PDTA2) and ((mov.CODALMOXARIFADO = :CENTROPERDA)) INTO :CREDITO do begin IF (CREDITO IS NULL) THEN CREDITO = 0; DESC_CONTA = ' Perdas e Descartes'; TOTALIZA = TOTALIZA - CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; IF (CREDITO > 0) then SUSPEND; end /* Impostos sobre Venda */ IF (CONTAIMPOSTOVENDA IS NOT NULL) THEN begin For Select sum(pag.VALOR_RESTO), pl.NOME FROM PAGAMENTO pag , plano pl where (pag.EMISSAO between :PDTA1 AND :PDTA2) and pl.CODIGO = pag.CONTACREDITO and (pag.CONTACREDITO = :CONTAIMPOSTOVENDA) group by pl.NOME INTO :CREDITO, :DESC_CONTA do begin desc_conta = ' ' || :DESC_CONTA; IF (CREDITO IS NULL) THEN CREDITO = 0; TOTALIZA = TOTALIZA - CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; if (CREDITO > 0) THEN SUSPEND; end end DESC_CONTA = '= Receitas Líquidas'; CONTA = null; CREDITO = null; TOTAL = ACUMULA; --TOTAL = NULL; TOT = 'S'; SUSPEND; /* ########### FIM Receita ############*/ /* ########### Gerando a Despesas ############*/ DESC_CONTA = '(-) Custo das Vendas'; CONTA = null; CREDITO = null; TOT = 'N'; SUSPEND; TOTALIZA = 0; Select sum(VALORCUSTO*SALDOFIM) from SPESTOQUEPRODUTO((:PDTA1-30), (:PDTA1-1),0,500000, 'TODOS OS GRUPOS CADASTRADOS', 'TODOS SUBGRUPOS DO CADASTRO', 'TODAS AS MARCAS CADASTRADAS', 0) INTO :EstoqueIni; TOTALIZA = EstoqueFim; Select sum(VALORCUSTO*SALDOFIM) from SPESTOQUEPRODUTO(:PDTA1, :PDTA2,0,500000, 'TODOS OS GRUPOS CADASTRADOS', 'TODOS SUBGRUPOS DO CADASTRO', 'TODAS AS MARCAS CADASTRADAS', 0) INTO :EstoqueFim; TOTALIZA = TOTALIZA + EstoqueFim; EstoqueFim = TOTALIZA; TOTALIZA = 0; /* Valor que Entrou durante o Mês por Compras*/ For select SUM(rec.VALOR) from COMPRA rec where rec.DATACOMPRA between :PDTA1 and :PDTA2 and rec.codFORNECEDOR > 0 and ((rec.CODCCUSTO = :PCC) OR (:PCC = 0)) INTO :Compras do begin end EstoqueFim = EstoqueIni + Compras; DESC_CONTA = ' Custo dos Produtos Vendidos'; CREDITO = EstoqueIni + Compras - EstoqueFim; TOTALIZA = TOTALIZA - CREDITO; --TOTAL = TOTAL + TOTALIZA; ############# Aqui esta pegando algum valor NULL ACUMULA = TOTAL; TOT = 'N'; if (CREDITO > 0) then SUSPEND; TOTALIZA = 0; DESC_CONTA = ' Estoque Inicial'; CREDITO = estoqueIni; TOT = 'N'; --if (CREDITO > 0) then -- SUSPEND; DESC_CONTA = ' Compras'; if (compras is null) then compras = 0; CREDITO = Compras; TOTALIZA = TOTALIZA - CREDITO; TOTAL = TOTAL + TOTALIZA; TOT = 'N'; if (CREDITO > 0) then SUSPEND; compras = 0; TOTALIZA = 0; DESC_CONTA = ' Estoque Final'; CREDITO = EstoqueFim; TOT = 'N'; --if (CREDITO > 0) then -- SUSPEND; TOTALIZA = 0; CONTA = null; CREDITO = null; TOTALIZA = 0; -- Serviços FOR select sum(md.QUANTIDADE * prod.PRECOMEDIO) FROM MOVIMENTO mov inner join MOVIMENTODETALHE md on md.CODMOVIMENTO = mov.CODMOVIMENTO inner join VENDA ven on ven.CODMOVIMENTO = mov.CODMOVIMENTO inner join PRODUTOS prod on prod.CODPRODUTO = md.CODPRODUTO inner join NATUREZAOPERACAO natu on natu.CODNATUREZA = mov.CODNATUREZA where (natu.TIPOMOVIMENTO = 3) and (ven.DATAVENDA between :PDTA1 AND :PDTA2) and prod.TIPO = 'SERV' and ((ven.CODCCUSTO = :PCC) OR (:PCC = 0)) INTO :CREDITO do begin IF (CREDITO IS NULL) THEN CREDITO = 0; DESC_CONTA = ' Custo dos Serviços Vendidos'; TOTALIZA = TOTALIZA - CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; if (CREDITO > 0) then SUSPEND; end TOTALIZA = 0; -- ##################### Busca as contas que estão marcadas para reduzir da Receita FOR select distinct pl.contapai FROM PAGAMENTO pag left outer join COMPRA cp on cp.CODCOMPRA = pag.CODCOMPRA inner join plano pl on pl.CODIGO = pag.CONTACREDITO where (pl.REDUZRECEITA = 'S') and (pag.EMISSAO between :PDTA1 AND :PDTA2) and ((pag.CODALMOXARIFADO = :PCC) OR (:PCC = 0)) and (pl.CODIGO <> :CONTACOMISSAO) and (pl.CONTAPAI <> '') and (plnCtaRoot(pl.CONTAPAI) <> 2) group by pl.contapai INTO :CONTAPAI do begin TOT = 'G'; /*Para nao imprimir a linha*/ TOTAL = 0; CONTA = null; CREDITO = null; SELECT NOME FROM PLANO WHERE CONTA = :CONTAPAI INTO :DESC_CONTA; -- SUSPEND; -- Nao imprimi esse grupos , aparecem tudo em Custos de Vendas TOTAL = ACUMULA; /* A maioria das despesas nao tem produto, sao compras ligado ao plano de contas */ FOR select sum(pag.VALOR_RESTO), pl.NOME FROM PAGAMENTO pag left outer join COMPRA cp on cp.CODCOMPRA = pag.CODCOMPRA inner join plano pl on pl.CODIGO = pag.CONTACREDITO where (pl.REDUZRECEITA = 'S') and (pag.EMISSAO between :PDTA1 AND :PDTA2) and pl.contapai = :CONTAPAI and ((pag.CODALMOXARIFADO = :PCC) OR (:PCC = 0)) and (plnCtaRoot(pl.CONTAPAI) <> 2) group by pl.NOME INTO :CREDITO, :produt do begin if (credito is null) then credito = 0; DESC_CONTA = ' ' || produt; TOTALIZA = TOTALIZA - CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; SUSPEND; TOTALIZA = 0; end end -- ########################## Fim do REDUZ RECEITA DESC_CONTA = '= Resultado Bruto'; CONTA = null; CREDITO = null; TOTALIZA = 0; --TOTAL = 0; TOT = 'S'; TOTAL = ACUMULA; SUSPEND; ACUMULA = TOTAL; DESC_CONTA = '(-) Despesas Operacionais'; CONTA = null; CREDITO = null; TOT = 'N'; SUSPEND; /* PEGO A CONTA PAI PARA IMPRIMIR POR GRUPO */ FOR select distinct pl.contapai FROM PAGAMENTO pag left outer join COMPRA cp on cp.CODCOMPRA = pag.CODCOMPRA inner join plano pl on pl.CODIGO = pag.CONTACREDITO where ((REDUZRECEITA IS NULL) OR (REDUZRECEITA = 'N')) and (pag.EMISSAO between :PDTA1 AND :PDTA2) and ((pag.CODALMOXARIFADO = :PCC) OR (:PCC = 0)) and (plnCtaRoot(pl.CONTAPAI) <> 2) and (pl.CODIGO <> :CONTACOMISSAO) and (pl.CONTAPAI <> '') group by pl.contapai INTO :CONTAPAI do begin TOT = 'G'; /*Para nao imprimir a linha*/ TOTAL = 0; CONTA = null; CREDITO = null; SELECT NOME FROM PLANO WHERE CONTA = :CONTAPAI INTO :DESC_CONTA; if (plnctaRoot(:contaPai) <> contaPassivo ) then begin SUSPEND; end if (jaPassou = 'N') then begin IF (CONTAPAI = CONTAJURO) THEN begin --desc_conta = :CONTAPAI || ' - ' || :CONTAJURO; --suspend; For Select sum(pag.JUROS + pag.FUNRURAL) FROM PAGAMENTO pag where (pag.DATAPAGAMENTO between :PDTA1 AND :PDTA2) and pag.STATUS = '7-' and ((pag.CODALMOXARIFADO = :PCC) OR (:PCC = 0)) INTO :CREDITO do begin IF (CREDITO IS NULL) THEN CREDITO = 0; DESC_CONTA = ' Despesas Juros e Corr. Monetária '; TOTALIZA = TOTALIZA - CREDITO; TOTAL = ACUMULA; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; if (credito > 0) then SUSPEND; end jaPassou = 'S'; end end TOTAL = ACUMULA; ACUMULA = 0; if (plnctaRoot(:contaPai) <> contaPassivo ) then begin /* A maioria das despesas nao tem produto, sao compras ligado ao plano de contas */ FOR select sum(pag.VALOR_RESTO), pl.NOME FROM PAGAMENTO pag left outer join COMPRA cp on cp.CODCOMPRA = pag.CODCOMPRA inner join plano pl on pl.CODIGO = pag.CONTACREDITO where ((REDUZRECEITA IS NULL) OR (REDUZRECEITA = 'N')) and (pag.EMISSAO between :PDTA1 AND :PDTA2) and pl.contapai = :CONTAPAI and ((pag.CODALMOXARIFADO = :PCC) OR (:PCC = 0)) and (plnCtaRoot(pl.CONTAPAI) <> 2) group by pl.NOME INTO :CREDITO, :produt do begin if (credito is null) then credito = 0; DESC_CONTA = ' ' || produt; TOTALIZA = TOTALIZA - CREDITO; TOTAL = TOTAL + TOTALIZA; ACUMULA = TOTAL; TOT = 'N'; SUSPEND; TOTALIZA = 0; end end TOTALIZA = 0; end /* Gerando Total Receita */ DESC_CONTA = '= Resultado Liquido '; CONTA = null; CREDITO = null; --TOTAL = TOTALIZA; TOT = 'S'; SUSPEND; --TOTAL = ACUMULA + TOTALIZA; /* Resultado Geral do Período */ DESC_CONTA = ' Resultado Geral no período : '; CONTA = null; CREDITO = null; --TOTAL = TOTALREC - TOTALIZA; SUSPEND; TOTAL = null; end
ATSTI/administra
script/relDre_warong107.sql
SQL
gpl-2.0
18,336
package com.rockey.emonitor.jms.controller; import java.util.Enumeration; import java.util.HashMap; import java.util.List; import java.util.Map; import javax.servlet.http.HttpServletRequest; import javax.servlet.http.HttpServletResponse; import org.apache.commons.logging.Log; import org.apache.commons.logging.LogFactory; import org.springframework.beans.factory.annotation.Autowired; import org.springframework.web.servlet.ModelAndView; import org.springframework.web.servlet.mvc.AbstractController; import com.rockey.emonitor.jms.component.AppList; import com.rockey.emonitor.jms.component.EmonitorContext; import com.rockey.emonitor.jms.component.FilterList; import com.rockey.emonitor.jms.model.LogMessage; import com.rockey.emonitor.jms.service.MessageService; import com.rockey.emonitor.jms.util.Base64; import com.rockey.emonitor.jms.util.Util; import com.rockey.emonitor.model.AppFilter; public class MessageController extends AbstractController{ private static final Log log = LogFactory.getLog(MessageController.class); @Autowired private MessageService messageService; @Autowired private EmonitorContext runtimeContext; @Autowired private AppList appListComponent; @Autowired private FilterList filterListComponent; private String key; public String getKey() { return key; } public void setKey(String key) { this.key = key; } @Override protected ModelAndView handleRequestInternal(HttpServletRequest request, HttpServletResponse response) throws Exception { request.setCharacterEncoding("utf-8"); log.info("requestURL =[ " + request.getRequestURI() + "?" + request.getQueryString() + " ]"); if (!runtimeContext.isReadyProcess()) { log.error("EmonitorContext not init complete ! please wait..."); return null; } try { List<String> appList = appListComponent.getAppList(); Map<String, List<AppFilter>> filterMap = filterListComponent.getFilterMap(); Map<String,String> params = new HashMap<String,String>(); // 打印参数列表 @SuppressWarnings("unchecked") Enumeration<String> names = request.getParameterNames(); if(names.hasMoreElements()) { while (names.hasMoreElements()) { String paramName = (String) names.nextElement(); String paramValue = request.getParameter(paramName); //将所有参数转为大写 params.put(paramName.toUpperCase(), paramValue); log.info("Request Parameter:" + paramName + "=" + paramValue); } } //获取消息 String message = params.get("MESSAGE"); if (message!= null && !message.isEmpty()) { message = new String(Base64.decode(message.getBytes("UTF-8")),"UTF-8"); } log.info("client IP :" + request.getRemoteAddr() + ", message = " + message); LogMessage logMessage = Util.createMessageFromXml(message); //密钥检测 String sign = Util.ComputeHash(logMessage, this.key); if (logMessage.getSign().equals(sign)) { if (!appList.isEmpty() && appList.contains(logMessage.getApplicationID())) {//应用合法检测 if (!filterMap.isEmpty() && filterMap.containsKey(logMessage.getApplicationID())) {//过滤器检测 List<AppFilter> fiterList = filterMap.get(logMessage.getApplicationID()); for (AppFilter filter : fiterList) { if (logMessage.getTitle().contains(filter.getContent())) { log.info("告警标题包含过滤信息[" + filter.getContent() + "],信息将会被过滤。"); return null; } if (logMessage.getBody().contains(filter.getContent())) { log.info("告警内容包含过滤信息[" + filter.getContent() + "],信息将会被过滤。"); return null; } } } messageService.sendAlertMessage(logMessage); } else { log.error("invalid applicationId (" + logMessage.getApplicationID() + ") ...."); } } } catch (Exception e) { log.error("MessageController err", e); } return null; } }
RockeyHoo/icheck
emonitor/src/main/java/com/rockey/emonitor/jms/controller/MessageController.java
Java
gpl-2.0
4,087
#!/usr/bin/perl use strict; use lib "$ENV{'LJHOME'}/cgi-bin"; use LJ; my $dbh = LJ::get_dbh("master"); my $sth; $sth = $dbh->prepare("SELECT spid FROM support WHERE timelasthelp IS NULL"); $sth->execute; while (my ($spid) = $sth->fetchrow_array) { print "Fixing $spid...\n"; my $st2 = $dbh->prepare("SELECT MAX(timelogged) FROM supportlog WHERE spid=$spid AND type='answer'"); $st2->execute; my ($max) = $st2->fetchrow_array; $max = $max + 0; # turn undef -> 0 print " time = $max\n"; $dbh->do("UPDATE support SET timelasthelp=$max WHERE spid=$spid"); }
apparentlymart/livejournal
bin/upgrading/support-upgrade.pl
Perl
gpl-2.0
589
//------------------------------------------------------------------------------ // <自动生成> // 此代码由工具生成。 // // 对此文件的更改可能会导致不正确的行为,并且如果 // 重新生成代码,这些更改将会丢失。 // </自动生成> //------------------------------------------------------------------------------ namespace FormsAuthWeb { public partial class MyInfo { } }
cbfjay/Aspnet.Login
FormsAuthWeb/MyInfo.aspx.designer.cs
C#
gpl-2.0
452
<?php if ( ! defined( 'ABSPATH' ) ) { exit; // disable direct access } if ( ! class_exists( 'Mega_Menu_Nav_Menus' ) ) : /** * Handles all admin related functionality. */ class Mega_Menu_Nav_Menus { /** * Return the default settings for each menu item * * @since 1.5 */ public static function get_menu_item_defaults() { $defaults = array( 'type' => 'flyout', 'align' => 'bottom-left', 'icon' => 'disabled', 'hide_text' => 'false', 'disable_link' => 'false', 'hide_arrow' => 'false', 'item_align' => 'left', 'panel_columns' => 6, // total number of columns displayed in the panel 'mega_menu_columns' => 1 // for sub menu items, how many columns to span in the panel ); return apply_filters( "megamenu_menu_item_defaults", $defaults ); } /** * Constructor * * @since 1.0 */ public function __construct() { add_action( 'admin_init', array( $this, 'register_nav_meta_box' ), 11 ); add_action( 'admin_enqueue_scripts', array( $this, 'enqueue_menu_page_scripts' ) ); add_action( 'megamenu_save_settings', array($this, 'save') ); add_filter( 'hidden_meta_boxes', array( $this, 'show_mega_menu_metabox' ) ); } /** * By default the mega menu meta box is hidden - show it. * * @since 1.0 * @param array $hidden * @return array */ public function show_mega_menu_metabox( $hidden ) { if ( is_array( $hidden ) && count( $hidden ) > 0 ) { foreach ( $hidden as $key => $value ) { if ( $value == 'mega_menu_meta_box' ) { unset( $hidden[$key] ); } } } return $hidden; } /** * Adds the meta box container * * @since 1.0 */ public function register_nav_meta_box() { global $pagenow; if ( 'nav-menus.php' == $pagenow ) { add_meta_box( 'mega_menu_meta_box', __("Mega Menu Settings", "megamenu"), array( $this, 'metabox_contents' ), 'nav-menus', 'side', 'high' ); } } /** * Enqueue required CSS and JS for Mega Menu * * @since 1.0 */ public function enqueue_menu_page_scripts($hook) { if( 'nav-menus.php' != $hook ) return; // http://wordpress.org/plugins/image-widget/ if ( class_exists( 'Tribe_Image_Widget' ) ) { $image_widget = new Tribe_Image_Widget; $image_widget->admin_setup(); } wp_enqueue_style( 'colorbox', MEGAMENU_BASE_URL . 'js/colorbox/colorbox.css', false, MEGAMENU_VERSION ); wp_enqueue_style( 'mega-menu', MEGAMENU_BASE_URL . 'css/admin-menus.css', false, MEGAMENU_VERSION ); wp_enqueue_script( 'mega-menu', MEGAMENU_BASE_URL . 'js/admin.js', array( 'jquery', 'jquery-ui-core', 'jquery-ui-sortable', 'jquery-ui-accordion'), MEGAMENU_VERSION ); wp_enqueue_script( 'colorbox', MEGAMENU_BASE_URL . 'js/colorbox/jquery.colorbox-min.js', array( 'jquery' ), MEGAMENU_VERSION ); wp_localize_script( 'mega-menu', 'megamenu', array( 'debug_launched' => __("Launched for Menu ID", "megamenu"), 'launch_lightbox' => __("Mega Menu", "megamenu"), 'saving' => __("Saving", "megamenu"), 'nonce' => wp_create_nonce('megamenu_edit'), 'nonce_check_failed' => __("Oops. Something went wrong. Please reload the page.", "megamenu") ) ); do_action("megamenu_enqueue_admin_scripts"); } /** * Show the Meta Menu settings * * @since 1.0 */ public function metabox_contents() { $menu_id = $this->get_selected_menu_id(); do_action("megamenu_save_settings"); $this->print_enable_megamenu_options( $menu_id ); } /** * Save the mega menu settings (submitted from Menus Page Meta Box) * * @since 1.0 */ public function save() { if ( isset( $_POST['menu'] ) && $_POST['menu'] > 0 && is_nav_menu( $_POST['menu'] ) && isset( $_POST['megamenu_meta'] ) ) { $submitted_settings = $_POST['megamenu_meta']; if ( ! get_site_option( 'megamenu_settings' ) ) { add_site_option( 'megamenu_settings', $submitted_settings ); } else { $existing_settings = get_site_option( 'megamenu_settings' ); $new_settings = array_merge( $existing_settings, $submitted_settings ); update_site_option( 'megamenu_settings', $new_settings ); } do_action( "megamenu_after_save_settings" ); } } /** * Print the custom Meta Box settings * * @param int $menu_id * @since 1.0 */ public function print_enable_megamenu_options( $menu_id ) { $tagged_menu_locations = $this->get_tagged_theme_locations_for_menu_id( $menu_id ); $theme_locations = get_registered_nav_menus(); $saved_settings = get_site_option( 'megamenu_settings' ); if ( ! count( $theme_locations ) ) { echo "<p>" . __("This theme does not have any menu locations.", "megamenu") . "</p>"; } else if ( ! count ( $tagged_menu_locations ) ) { echo "<p>" . __("This menu is not tagged to a location. Please tag a location to enable the Mega Menu settings.", "megamenu") . "</p>"; } else { ?> <?php if ( count( $tagged_menu_locations ) == 1 ) : ?> <?php $locations = array_keys( $tagged_menu_locations ); $location = $locations[0]; if (isset( $tagged_menu_locations[ $location ] ) ) { $this->settings_table( $location, $saved_settings ); } ?> <?php else: ?> <div id='megamenu_accordion'> <?php foreach ( $theme_locations as $location => $name ) : ?> <?php if ( isset( $tagged_menu_locations[ $location ] ) ): ?> <h3 class='theme_settings'><?php echo esc_html( $name ); ?></h3> <div class='accordion_content' style='display: none;'> <?php $this->settings_table( $location, $saved_settings ); ?> </div> <?php endif; ?> <?php endforeach;?> </div> <?php endif; ?> <?php submit_button( __( 'Save' ), 'button-primary alignright'); } } /** * Print the list of Mega Menu settings * * @since 1.0 */ public function settings_table( $location, $settings ) { ?> <table> <tr> <td><?php _e("Enable", "megamenu") ?></td> <td> <input type='checkbox' name='megamenu_meta[<?php echo $location ?>][enabled]' value='1' <?php checked( isset( $settings[$location]['enabled'] ) ); ?> /> </td> </tr> <tr> <td><?php _e("Event", "megamenu") ?></td> <td> <select name='megamenu_meta[<?php echo $location ?>][event]'> <option value='hover' <?php selected( isset( $settings[$location]['event'] ) && $settings[$location]['event'] == 'hover'); ?>><?php _e("Hover", "megamenu"); ?></option> <option value='click' <?php selected( isset( $settings[$location]['event'] ) && $settings[$location]['event'] == 'click'); ?>><?php _e("Click", "megamenu"); ?></option> </select> </td> </tr> <tr> <td><?php _e("Effect", "megamenu") ?></td> <td> <select name='megamenu_meta[<?php echo $location ?>][effect]'> <?php $selected = isset( $settings[$location]['effect'] ) ? $settings[$location]['effect'] : 'disabled'; $options = apply_filters("megamenu_effects", array( "disabled" => array( 'label' => __("None", "megamenu"), 'selected' => $selected == 'disabled', ), "fade" => array( 'label' => __("Fade", "megamenu"), 'selected' => $selected == 'fade', ), "slide" => array( 'label' => __("Slide", "megamenu"), 'selected' => $selected == 'slide', ) ), $selected ); foreach ( $options as $key => $value ) { ?><option value='<?php echo $key ?>' <?php selected( $value['selected'] ); ?>><?php echo $value['label'] ?></option><?php } ?> </select> </td> </tr> <tr> <td><?php _e("Theme", "megamenu"); ?></td> <td> <select name='megamenu_meta[<?php echo $location ?>][theme]'> <?php $style_manager = new Mega_Menu_Style_Manager(); $themes = $style_manager->get_themes(); foreach ( $themes as $key => $theme ) { echo "<option value='{$key}' " . selected( $settings[$location]['theme'], $key ) . ">{$theme['title']}</option>"; } ?> </select> </td> </tr> <?php do_action('megamenu_settings_table', $location, $settings); ?> </table> <?php } /** * Return the locations that a specific menu ID has been tagged to. * * @param $menu_id int * @return array */ public function get_tagged_theme_locations_for_menu_id( $menu_id ) { $locations = array(); $nav_menu_locations = get_nav_menu_locations(); foreach ( get_registered_nav_menus() as $id => $name ) { if ( isset( $nav_menu_locations[ $id ] ) && $nav_menu_locations[$id] == $menu_id ) $locations[$id] = $name; } return $locations; } /** * Get the current menu ID. * * Most of this taken from wp-admin/nav-menus.php (no built in functions to do this) * * @since 1.0 * @return int */ public function get_selected_menu_id() { $nav_menus = wp_get_nav_menus( array('orderby' => 'name') ); $menu_count = count( $nav_menus ); $nav_menu_selected_id = isset( $_REQUEST['menu'] ) ? (int) $_REQUEST['menu'] : 0; $add_new_screen = ( isset( $_GET['menu'] ) && 0 == $_GET['menu'] ) ? true : false; // If we have one theme location, and zero menus, we take them right into editing their first menu $page_count = wp_count_posts( 'page' ); $one_theme_location_no_menus = ( 1 == count( get_registered_nav_menus() ) && ! $add_new_screen && empty( $nav_menus ) && ! empty( $page_count->publish ) ) ? true : false; // Get recently edited nav menu $recently_edited = absint( get_user_option( 'nav_menu_recently_edited' ) ); if ( empty( $recently_edited ) && is_nav_menu( $nav_menu_selected_id ) ) $recently_edited = $nav_menu_selected_id; // Use $recently_edited if none are selected if ( empty( $nav_menu_selected_id ) && ! isset( $_GET['menu'] ) && is_nav_menu( $recently_edited ) ) $nav_menu_selected_id = $recently_edited; // On deletion of menu, if another menu exists, show it if ( ! $add_new_screen && 0 < $menu_count && isset( $_GET['action'] ) && 'delete' == $_GET['action'] ) $nav_menu_selected_id = $nav_menus[0]->term_id; // Set $nav_menu_selected_id to 0 if no menus if ( $one_theme_location_no_menus ) { $nav_menu_selected_id = 0; } elseif ( empty( $nav_menu_selected_id ) && ! empty( $nav_menus ) && ! $add_new_screen ) { // if we have no selection yet, and we have menus, set to the first one in the list $nav_menu_selected_id = $nav_menus[0]->term_id; } return $nav_menu_selected_id; } } endif;
Metrashev/Obuhte
wp-content/plugins/megamenu/classes/nav-menus.class.php
PHP
gpl-2.0
12,985
using System; namespace Player.Model { /// <remarks> /// A button can only be rectangular, if there should be other forms, you have to use more buttons which reference each other. /// </remarks> public interface ButtonPosition { int X { get; } int Y { get; } /// <summary>The dimension in x coordinates, i.e. how many columns are allocated.</summary> int DimX { get; } /// <summary>The dimension in y coordinates, i.e. how many rows are allocated.</summary> int DimY { get; } } }
asterics/KeyboardX
Player/Model/ButtonPosition.cs
C#
gpl-2.0
579
/* * Copyright (C) 2011-2021 Project SkyFire <https://www.projectskyfire.org/> * Copyright (C) 2008-2021 TrinityCore <http://www.trinitycore.org/> * Copyright (C) 2005-2021 MaNGOS <https://www.getmangos.eu/> * Copyright (C) 2006-2014 ScriptDev2 <https://github.com/scriptdev2/scriptdev2/> * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 3 of the License, or (at your * option) any later version. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see <http://www.gnu.org/licenses/>. */ /* ScriptData SDName: Shattrath_City SD%Complete: 100 SDComment: Quest support: 10004, 10009, 10211. Flask vendors, Teleport to Caverns of Time SDCategory: Shattrath City EndScriptData */ /* ContentData npc_raliq_the_drunk npc_salsalabim npc_shattrathflaskvendors npc_zephyr npc_kservant npc_ishanah npc_khadgar EndContentData */ #include "ScriptMgr.h" #include "ScriptedCreature.h" #include "ScriptedGossip.h" #include "ScriptedEscortAI.h" #include "Player.h" #include "WorldSession.h" /*###### ## npc_raliq_the_drunk ######*/ #define GOSSIP_RALIQ "You owe Sim'salabim money. Hand them over or die!" enum Raliq { SPELL_UPPERCUT = 10966, QUEST_CRACK_SKULLS = 10009, FACTION_HOSTILE_RD = 45 }; class npc_raliq_the_drunk : public CreatureScript { public: npc_raliq_the_drunk() : CreatureScript("npc_raliq_the_drunk") { } bool OnGossipSelect(Player* player, Creature* creature, uint32 /*sender*/, uint32 action) OVERRIDE { player->PlayerTalkClass->ClearMenus(); if (action == GOSSIP_ACTION_INFO_DEF+1) { player->CLOSE_GOSSIP_MENU(); creature->setFaction(FACTION_HOSTILE_RD); creature->AI()->AttackStart(player); } return true; } bool OnGossipHello(Player* player, Creature* creature) OVERRIDE { if (player->GetQuestStatus(QUEST_CRACK_SKULLS) == QUEST_STATUS_INCOMPLETE) player->ADD_GOSSIP_ITEM(GOSSIP_ICON_VENDOR, GOSSIP_RALIQ, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF+1); player->SEND_GOSSIP_MENU(9440, creature->GetGUID()); return true; } CreatureAI* GetAI(Creature* creature) const OVERRIDE { return new npc_raliq_the_drunkAI(creature); } struct npc_raliq_the_drunkAI : public ScriptedAI { npc_raliq_the_drunkAI(Creature* creature) : ScriptedAI(creature) { m_uiNormFaction = creature->getFaction(); } uint32 m_uiNormFaction; uint32 Uppercut_Timer; void Reset() OVERRIDE { Uppercut_Timer = 5000; me->RestoreFaction(); } void UpdateAI(uint32 diff) OVERRIDE { if (!UpdateVictim()) return; if (Uppercut_Timer <= diff) { DoCastVictim(SPELL_UPPERCUT); Uppercut_Timer = 15000; } else Uppercut_Timer -= diff; DoMeleeAttackIfReady(); } }; }; /*###### # npc_salsalabim ######*/ enum Salsalabim { // Factions FACTION_HOSTILE_SA = 90, FACTION_FRIENDLY_SA = 35, // Quests QUEST_10004 = 10004, // Spells SPELL_MAGNETIC_PULL = 31705 }; class npc_salsalabim : public CreatureScript { public: npc_salsalabim() : CreatureScript("npc_salsalabim") { } bool OnGossipHello(Player* player, Creature* creature) OVERRIDE { if (player->GetQuestStatus(QUEST_10004) == QUEST_STATUS_INCOMPLETE) { creature->setFaction(FACTION_HOSTILE_SA); creature->AI()->AttackStart(player); } else { if (creature->IsQuestGiver()) player->PrepareQuestMenu(creature->GetGUID()); player->SEND_GOSSIP_MENU(player->GetGossipTextId(creature), creature->GetGUID()); } return true; } CreatureAI* GetAI(Creature* creature) const OVERRIDE { return new npc_salsalabimAI(creature); } struct npc_salsalabimAI : public ScriptedAI { npc_salsalabimAI(Creature* creature) : ScriptedAI(creature) { } uint32 MagneticPull_Timer; void Reset() OVERRIDE { MagneticPull_Timer = 15000; me->RestoreFaction(); } void DamageTaken(Unit* done_by, uint32 &damage) OVERRIDE { if (done_by->GetTypeId() == TypeID::TYPEID_PLAYER && me->HealthBelowPctDamaged(20, damage)) { done_by->ToPlayer()->GroupEventHappens(QUEST_10004, me); damage = 0; EnterEvadeMode(); } } void UpdateAI(uint32 diff) OVERRIDE { if (!UpdateVictim()) return; if (MagneticPull_Timer <= diff) { DoCastVictim(SPELL_MAGNETIC_PULL); MagneticPull_Timer = 15000; } else MagneticPull_Timer -= diff; DoMeleeAttackIfReady(); } }; }; /* ################################################## Shattrath City Flask Vendors provides flasks to people exalted with 3 fActions: Haldor the Compulsive Arcanist Xorith Both sell special flasks for use in Outlands 25man raids only, purchasable for one Mark of Illidari each Purchase requires exalted reputation with Scryers/Aldor, Cenarion Expedition and The Sha'tar ################################################## */ class npc_shattrathflaskvendors : public CreatureScript { public: npc_shattrathflaskvendors() : CreatureScript("npc_shattrathflaskvendors") { } bool OnGossipSelect(Player* player, Creature* creature, uint32 /*sender*/, uint32 action) OVERRIDE { player->PlayerTalkClass->ClearMenus(); if (action == GOSSIP_ACTION_TRADE) player->GetSession()->SendListInventory(creature->GetGUID()); return true; } bool OnGossipHello(Player* player, Creature* creature) OVERRIDE { if (creature->GetEntry() == 23484) { // Aldor vendor if (creature->IsVendor() && (player->GetReputationRank(932) == REP_EXALTED) && (player->GetReputationRank(935) == REP_EXALTED) && (player->GetReputationRank(942) == REP_EXALTED)) { player->ADD_GOSSIP_ITEM(GOSSIP_ICON_VENDOR, GOSSIP_TEXT_BROWSE_GOODS, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_TRADE); player->SEND_GOSSIP_MENU(11085, creature->GetGUID()); } else { player->SEND_GOSSIP_MENU(11083, creature->GetGUID()); } } if (creature->GetEntry() == 23483) { // Scryers vendor if (creature->IsVendor() && (player->GetReputationRank(934) == REP_EXALTED) && (player->GetReputationRank(935) == REP_EXALTED) && (player->GetReputationRank(942) == REP_EXALTED)) { player->ADD_GOSSIP_ITEM(GOSSIP_ICON_VENDOR, GOSSIP_TEXT_BROWSE_GOODS, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_TRADE); player->SEND_GOSSIP_MENU(11085, creature->GetGUID()); } else { player->SEND_GOSSIP_MENU(11084, creature->GetGUID()); } } return true; } }; /*###### # npc_zephyr ######*/ #define GOSSIP_HZ "Take me to the Caverns of Time." class npc_zephyr : public CreatureScript { public: npc_zephyr() : CreatureScript("npc_zephyr") { } bool OnGossipSelect(Player* player, Creature* /*creature*/, uint32 /*sender*/, uint32 action) OVERRIDE { player->PlayerTalkClass->ClearMenus(); if (action == GOSSIP_ACTION_INFO_DEF+1) player->CastSpell(player, 37778, false); return true; } bool OnGossipHello(Player* player, Creature* creature) OVERRIDE { if (player->GetReputationRank(989) >= REP_REVERED) player->ADD_GOSSIP_ITEM(GOSSIP_ICON_CHAT, GOSSIP_HZ, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF+1); player->SEND_GOSSIP_MENU(player->GetGossipTextId(creature), creature->GetGUID()); return true; } }; /*###### # npc_kservant ######*/ enum KServant { SAY1 = 0, WHISP1 = 1, WHISP2 = 2, WHISP3 = 3, WHISP4 = 4, WHISP5 = 5, WHISP6 = 6, WHISP7 = 7, WHISP8 = 8, WHISP9 = 9, WHISP10 = 10, WHISP11 = 11, WHISP12 = 12, WHISP13 = 13, WHISP14 = 14, WHISP15 = 15, WHISP16 = 16, WHISP17 = 17, WHISP18 = 18, WHISP19 = 19, WHISP20 = 20, WHISP21 = 21 }; class npc_kservant : public CreatureScript { public: npc_kservant() : CreatureScript("npc_kservant") { } CreatureAI* GetAI(Creature* creature) const OVERRIDE { return new npc_kservantAI(creature); } struct npc_kservantAI : public npc_escortAI { public: npc_kservantAI(Creature* creature) : npc_escortAI(creature) { } void WaypointReached(uint32 waypointId) OVERRIDE { Player* player = GetPlayerForEscort(); if (!player) return; switch (waypointId) { case 0: Talk(SAY1, player); break; case 4: Talk(WHISP1, player); break; case 6: Talk(WHISP2, player); break; case 7: Talk(WHISP3, player); break; case 8: Talk(WHISP4, player); break; case 17: Talk(WHISP5, player); break; case 18: Talk(WHISP6, player); break; case 19: Talk(WHISP7, player); break; case 33: Talk(WHISP8, player); break; case 34: Talk(WHISP9, player); break; case 35: Talk(WHISP10, player); break; case 36: Talk(WHISP11, player); break; case 43: Talk(WHISP12, player); break; case 44: Talk(WHISP13, player); break; case 49: Talk(WHISP14, player); break; case 50: Talk(WHISP15, player); break; case 51: Talk(WHISP16, player); break; case 52: Talk(WHISP17, player); break; case 53: Talk(WHISP18, player); break; case 54: Talk(WHISP19, player); break; case 55: Talk(WHISP20, player); break; case 56: Talk(WHISP21, player); player->GroupEventHappens(10211, me); break; } } void MoveInLineOfSight(Unit* who) OVERRIDE { if (HasEscortState(STATE_ESCORT_ESCORTING)) return; Player* player = who->ToPlayer(); if (player && player->GetQuestStatus(10211) == QUEST_STATUS_INCOMPLETE) { float Radius = 10.0f; if (me->IsWithinDistInMap(who, Radius)) { Start(false, false, who->GetGUID()); } } } void Reset() OVERRIDE { } }; }; /*###### # npc_ishanah ######*/ #define ISANAH_GOSSIP_1 "Who are the Sha'tar?" #define ISANAH_GOSSIP_2 "Isn't Shattrath a draenei city? Why do you allow others here?" class npc_ishanah : public CreatureScript { public: npc_ishanah() : CreatureScript("npc_ishanah") { } bool OnGossipSelect(Player* player, Creature* creature, uint32 /*sender*/, uint32 action) OVERRIDE { player->PlayerTalkClass->ClearMenus(); if (action == GOSSIP_ACTION_INFO_DEF+1) player->SEND_GOSSIP_MENU(9458, creature->GetGUID()); else if (action == GOSSIP_ACTION_INFO_DEF+2) player->SEND_GOSSIP_MENU(9459, creature->GetGUID()); return true; } bool OnGossipHello(Player* player, Creature* creature) OVERRIDE { if (creature->IsQuestGiver()) player->PrepareQuestMenu(creature->GetGUID()); player->ADD_GOSSIP_ITEM(GOSSIP_ICON_CHAT, ISANAH_GOSSIP_1, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF+1); player->ADD_GOSSIP_ITEM(GOSSIP_ICON_CHAT, ISANAH_GOSSIP_2, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF+2); player->SEND_GOSSIP_MENU(player->GetGossipTextId(creature), creature->GetGUID()); return true; } }; /*###### # npc_khadgar ######*/ #define KHADGAR_GOSSIP_1 "I've heard your name spoken only in whispers, mage. Who are you?" #define KHADGAR_GOSSIP_2 "Go on, please." #define KHADGAR_GOSSIP_3 "I see." //6th too this #define KHADGAR_GOSSIP_4 "What did you do then?" #define KHADGAR_GOSSIP_5 "What happened next?" #define KHADGAR_GOSSIP_7 "There was something else I wanted to ask you." class npc_khadgar : public CreatureScript { public: npc_khadgar() : CreatureScript("npc_khadgar") { } bool OnGossipSelect(Player* player, Creature* creature, uint32 /*sender*/, uint32 action) OVERRIDE { player->PlayerTalkClass->ClearMenus(); switch (action) { case GOSSIP_ACTION_INFO_DEF+1: player->ADD_GOSSIP_ITEM(GOSSIP_ICON_CHAT, KHADGAR_GOSSIP_2, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF+2); player->SEND_GOSSIP_MENU(9876, creature->GetGUID()); break; case GOSSIP_ACTION_INFO_DEF+2: player->ADD_GOSSIP_ITEM(GOSSIP_ICON_CHAT, KHADGAR_GOSSIP_3, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF+3); player->SEND_GOSSIP_MENU(9877, creature->GetGUID()); break; case GOSSIP_ACTION_INFO_DEF+3: player->ADD_GOSSIP_ITEM(GOSSIP_ICON_CHAT, KHADGAR_GOSSIP_4, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF+4); player->SEND_GOSSIP_MENU(9878, creature->GetGUID()); break; case GOSSIP_ACTION_INFO_DEF+4: player->ADD_GOSSIP_ITEM(GOSSIP_ICON_CHAT, KHADGAR_GOSSIP_5, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF+5); player->SEND_GOSSIP_MENU(9879, creature->GetGUID()); break; case GOSSIP_ACTION_INFO_DEF+5: player->ADD_GOSSIP_ITEM(GOSSIP_ICON_CHAT, KHADGAR_GOSSIP_3, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF+6); player->SEND_GOSSIP_MENU(9880, creature->GetGUID()); break; case GOSSIP_ACTION_INFO_DEF+6: player->ADD_GOSSIP_ITEM(GOSSIP_ICON_CHAT, KHADGAR_GOSSIP_7, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF+7); player->SEND_GOSSIP_MENU(9881, creature->GetGUID()); break; case GOSSIP_ACTION_INFO_DEF+7: player->ADD_GOSSIP_ITEM(GOSSIP_ICON_CHAT, KHADGAR_GOSSIP_1, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF+1); player->SEND_GOSSIP_MENU(9243, creature->GetGUID()); break; } return true; } bool OnGossipHello(Player* player, Creature* creature) OVERRIDE { if (creature->IsQuestGiver()) player->PrepareQuestMenu(creature->GetGUID()); if (player->GetQuestStatus(10211) != QUEST_STATUS_INCOMPLETE) player->ADD_GOSSIP_ITEM(GOSSIP_ICON_CHAT, KHADGAR_GOSSIP_1, GOSSIP_SENDER_MAIN, GOSSIP_ACTION_INFO_DEF + 1); player->SEND_GOSSIP_MENU(9243, creature->GetGUID()); return true; } }; void AddSC_shattrath_city() { new npc_raliq_the_drunk(); new npc_salsalabim(); new npc_shattrathflaskvendors(); new npc_zephyr(); new npc_kservant(); new npc_ishanah(); new npc_khadgar(); }
ProjectSkyfire/SkyFire.548
src/server/scripts/Outland/zone_shattrath_city.cpp
C++
gpl-2.0
16,677
<?php /** * Template Name: Sidebar Left Template * * @package WordPress * @subpackage Invictus * @since Invictus 1.0 */ get_header(); ?> <div id="single-page" class="clearfix left-sidebar"> <div id="primary"> <div id="content" role="main"> <?php the_post(); ?> <?php get_template_part( 'content', 'page' ); ?> </div><!-- #content --> </div><!-- #primary --> <div id="sidebar"> <?php /* Widgetised Area */ if ( !function_exists( 'dynamic_sidebar' ) || !dynamic_sidebar('sidebar-main') ) ?> </div> </div> <?php get_footer(); ?>
iTTemple/html
wp-content/themes/invictus_2.6.2/template-sidebar-left.php
PHP
gpl-2.0
568
// // CRTDispatchConnection.cpp // dyncRTConnector // // Created by hp on 12/8/15. // Copyright (c) 2015 hp. All rights reserved. // #include "CRTDispatchConnection.h" #include "CRTConnManager.h" #include "CRTConnection.h" #include "CRTConnectionTcp.h" #include "rtklog.h" void CRTDispatchConnection::DispatchMsg(const std::string& uid, pms::RelayMsg& r_msg) { //find connector CRTConnManager::ConnectionInfo* pci = CRTConnManager::Instance().findConnectionInfoById(uid); if (!pci) { LE("CRTDispatchConnection::DispatchMsg not find user:%s connection\n", uid.c_str()); LI("CRTDispatchConnection::DispatchMsg handle_cmd:%s, handle_mtype:%s, handle_data:%s\n", r_msg.handle_cmd().c_str(), r_msg.handle_mtype().c_str(), r_msg.handle_data().c_str()); // not set push in this msg if (r_msg.handle_cmd().length()==0 \ || r_msg.handle_cmd().compare("push")!=0 \ || r_msg.handle_data().length()==0 \ || r_msg.handle_data().compare("1")!=0) { LE("CRTDispatchConnection::DispatchMsg this type of message is no need to push, so return\n"); return; } LI("CRTDispatchConnection::DispatchMsg userid:%s, r_msg.cont_module:%d\n\n", uid.c_str(), r_msg.cont_module()); // user set not accept push // user set mute notification if (!CRTConnManager::Instance().CouldPush(uid, r_msg.cont_module())) { LE("CRTDispatchConnection::DispatchMsg user set do not accept push or mute notify, so return\n"); return; } // get redis setting enablepush // find pusher module and sent to pusher CRTConnManager::ModuleInfo* pmodule = CRTConnManager::Instance().findModuleInfo("", pms::ETransferModule::MPUSHER); if (pmodule && pmodule->pModule && pmodule->pModule->IsLiveSession()) { pms::TransferMsg t_msg; //r_msg.set_svr_cmds(cmd); r_msg.set_tr_module(pms::ETransferModule::MCONNECTOR); r_msg.set_connector(CRTConnManager::Instance().ConnectorId()); t_msg.set_type(pms::ETransferType::TQUEUE); t_msg.set_content(r_msg.SerializeAsString()); std::string s = t_msg.SerializeAsString(); pmodule->pModule->SendTransferData(s.c_str(), (int)s.length()); LI("CRTDispatchConnection::DispatchMsg has send push msg to pusher, module type:%d, module id:%s!!!\n\n", pmodule->othModuleType, pmodule->othModuleId.c_str()); } else { LE("CRTDispatchConnection::DispatchMsg module pusher is not liveeeeeeeeeeee!!!\n"); } return; } else { //!pci if (pci->_pConn && pci->_pConn->IsLiveSession()) { if (pci->_connType == pms::EConnType::THTTP) { CRTConnection *c = dynamic_cast<CRTConnection*>(pci->_pConn); if (c) { c->SendDispatch(uid, r_msg.content()); } } else if (pci->_connType == pms::EConnType::TTCP) { CRTConnectionTcp *ct = dynamic_cast<CRTConnectionTcp*>(pci->_pConn); if (ct) { ct->SendDispatch(uid, r_msg.content()); } } } } }
Teameeting/Teameeting-MsgServer
MsgServer/MsgServerConnector/CRTDispatchConnection.cpp
C++
gpl-2.0
3,277
'use strict'; /*@ngInject*/ function repoItemClassifierFilter() { return function(node) { if (node.type) { return 'uib-repository__item--movable'; } else { return 'uib-repository__group'; } }; } module.exports = repoItemClassifierFilter;
raqystyle/ui-builder
frontend/scripts/builder/modules/repository/filters/repoItemClassifier.filter.js
JavaScript
gpl-2.0
268
class ActorEffectActorPen < ActorEffect title 'Actor Pen' description 'Uses chosen actor as a brush tip, rendering it multiple times per frame to smoothly follow a chosen X,Y point.' hint 'This effect is primarily intended for use with the Canvas actor.' categories :canvas setting 'actor', :actor setting 'offset_x', :float, :default => 0.0..1.0 setting 'offset_y', :float, :default => 0.0..1.0 setting 'period', :float, :default => 0.01..1.0 setting 'scale', :float, :default => 1.0..2.0 setting 'alpha', :float, :default => 1.0..1.0, :range => 0.0..1.0 setting 'maximum_per_frame', :integer, :range => 1..1000, :default => 50..1000 def render return yield if scale == 0.0 actor.one { |a| parent_user_object.using { with_alpha(alpha) { prev_x = offset_x_setting.last_value prev_y = offset_y_setting.last_value delta_x = offset_x - prev_x delta_y = offset_y - prev_y prev_scale = scale_setting.last_value delta_scale = (scale - prev_scale) distance = Math.sqrt(delta_x*delta_x + delta_y*delta_y) count = ((distance / scale) / period).floor count = maximum_per_frame if count > maximum_per_frame if count < 2 with_translation(offset_x, offset_y) { with_scale(scale) { a.render! } } else step_x = delta_x / count step_y = delta_y / count step_scale = delta_scale / count beat_delta = $env[:beat_delta] for i in 1..count progress = (i.to_f / count) with_beat_shift(-beat_delta * (1.0 - progress)) { with_translation(prev_x + step_x*i, prev_y + step_y*i) { with_scale(prev_scale + step_scale*i) { a.render! } } } end end } } } yield end end
lighttroupe/luz-next
engine/plugins/actor_effects/actor-pen.luz.rb
Ruby
gpl-2.0
1,787
// // XRLoginView.h // XyralityTest // // Created by lava on 12/19/15. // // #import <UIKit/UIKit.h> @interface XRLoginView : UIView @property (weak, nonatomic) IBOutlet UIView *credentialsView; @property (weak, nonatomic) IBOutlet UILabel *loginLabel; @property (weak, nonatomic) IBOutlet UITextField *loginTextField; @property (weak, nonatomic) IBOutlet UILabel *passwordLabel; @property (weak, nonatomic) IBOutlet UITextField *passworldTextField; @property (weak, nonatomic) IBOutlet UIButton *showMyWorldsButton; @property (weak, nonatomic) IBOutlet UIActivityIndicatorView *activtyIndicator; - (void)startProgressAnimation; - (void)stopProgressAnimation; @end
DrBobr/XyralityTest
XyralityTest/XyralityTest/XRLoginView.h
C
gpl-2.0
781
<?php // (C) Copyright Bobbing Wide 2012, 2017 /** * Determine the reference_type from PHP tokens * * Attempt to determine what sort of API this is using token_get_all() * * @param string $string - the "api" name * @return string - the reference type determined from token_name() * */ function oikai_determine_from_tokens( $string ) { $reference_type = null; $tokens = token_get_all( "<?php $string" ); $token = array_shift( $tokens ); while ( $token ) { $token = array_shift( $tokens ); if ( is_array( $token ) ) { //print_r( $token ); $token_name = token_name( $token[0] ); //$reference_type = _oikai_determine_reference_type( $ $reference_type = $token_name; $token = null; } } return( $reference_type ); } /** * See if this is a constant name * * @param string $string - could be ABSPATH or WPINC or something * * */ function oikai_check_constants( $string ) { $constants = get_defined_constants( false ); //$reference_type = oikai_query_function_type $constant = bw_array_get( $constants, $string, null ); if ( $constant ) { $reference_type = "constant"; } else { $reference_type = "T_STRING"; } return( $reference_type ); } /** * */ function oikai_check_class_method_or_function( $string ) { $reference_type = "T_STRING"; $class = oikai_get_class( $string, null ); if ( $class ) { $func = oikai_get_func( $string, $class ); if ( $func ) { $reference_type = "method"; } else { $reference_type = "class"; } } else { $reference_type = "function"; } return( $reference_type ); } /** * Determine the reference type for a string * * @param string $string - the passed string literal * @return string - the determined reference type * * Value | Meaning * -------- | ------- * internal | This is a PHP function * user | This is a currently active application function * T_STRING | We couldn't decide * constant | It's a defined constant name ( currently active ) * T_ other | It's a PHP token such as T_REQUIRE, T_REQUIRE_ONCE, etc * class | It's a class * function | It's a function - but it's not active otherwise we'd have received "user" or "internal" * method | It's a method ( with class name ) * null | Not expected at the end of this processing */ function oikai_determine_reference_type( $string ) { $reference_type = oikai_determine_function_type( $string ); if ( !$reference_type ) { $reference_type = oikai_determine_from_tokens( $string ); } if ( $reference_type == "T_STRING" ) { $reference_type = oikai_check_constants( $string ); } if ( $reference_type == "T_STRING" ) { $reference_type = oikai_check_class_method_or_function( $string ); } //p( "$string:$reference_type" ); return( $reference_type ); } /** * Handle a link to a "user" function * */ function oikai_handle_reference_type_user( $api, $reference_type ) { $posts = oikai_get_oik_apis_byname( $api ); bw_trace2( $posts ); if ( $posts ) { oikapi_simple_link( $api, $posts ); } else { e( oikai_link_to_wordpress( $api ) ); } e( "()" ); } /** * Handle a link to an "internal" PHP function * * This includes T_xxx values we don't yet cater for * * */ function oikai_handle_reference_type_internal( $api, $reference_type ) { e( oikai_link_to_php( $api )); e( "()" ); } /** * Handle a link to a "function" */ function oikai_handle_reference_type_function( $api, $reference_type ) { oikai_handle_reference_type_user( $api, $reference_type ); } /** * Handle a link to a "class" * */ function oikai_handle_reference_type_class( $api, $reference_type ) { $posts = oikai_get_oik_class_byname( $api ); bw_trace2( $posts ); if ( $posts ) { oikapi_simple_link( $api, $posts ); } else { e( oikai_link_to_wordpress( $api ) ); } } /** * Produce a link to the API based on the reference_type * * @param string $api - the API name * @param string $reference_type - the determined reference type * */ function oikai_handle_reference_type( $api, $reference_type ) { $funcname = bw_funcname( __FUNCTION__, $reference_type ); //e( $funcname ); if ( $funcname != __FUNCTION__ ) { if ( is_callable( $funcname ) ) { call_user_func( $funcname, $api, $reference_type ); } else { fob(); oikai_handle_reference_type_internal( $api, $reference_type ); } } else { oikai_handle_reference_type_internal( $api, $reference_type ); } } /** * Simplify the API name * * Sometimes we write an API as apiname() * If we wrap this in the API shortcode we should be able to cater for the extraneous ()'s * * There could be other things we could also do... such as sanitization * * @param string $api - the given API name * @return string - the simplified API name * */ function oikai_simplify_apiname( $api ) { $api = str_replace( "()", "", $api ); return( $api ); } /** * Implement [api] shortcode to produce simple links to an API * * If there's just one API it's shown as "api()". * If more than one then they're comma separated, but NOT in an HTML list "api(), api2()" * Links are created to PHP, the local site or the 'preferred' WordPress reference site. * * @param array $atts - shortcode parameters * @param string $content - content * @param string $tag - the shortcode tag * @return string - generated HTML * */ function oikai_api( $atts=null, $content=null, $tag=null ) { oiksc_autoload(); $apis = bw_array_get_from( $atts, "api,0", null ); if ( $apis ) { $apia = bw_as_array( $apis ); oik_require( "shortcodes/oik-apilink.php", "oik-shortcodes" ); oik_require( "shortcodes/oik-api-importer.php", "oik-shortcodes" ); $count = 0; foreach ( $apia as $key => $api ) { $api = oikai_simplify_apiname( $api ); if ( $count ) { e( "," ); e( "&nbsp;" ); } $count++; $type = oikai_determine_reference_type( $api ); oikai_handle_reference_type( $api, $type ); } } else { oik_require( "shortcodes/oik-api-status.php", "oik-shortcodes" ); oikai_api_status( $atts ); } return( bw_ret() ); } /** * OK, but we also want to link to PHP stuff * So we need to be able to call that function * */ function oikapi_simple_link( $api, $posts ) { if ( $posts ) { $post = bw_array_get( $posts, 0, null ); } else { $post = null; } if ( $post ) { alink( "bw_api", get_permalink( $post ), $api, $post->title ); } else { e( $api ); } } /** * Help hook for [api] shortcode */ function api__help( $shortcode="api" ) { return( "Simple API link" ); } /** * Syntax hook for [api] shortcode */ function api__syntax( $shortcode="api" ) { $syntax = array( "api|0" => bw_skv( null, "<i>api</i>", "API name" ) ); return( $syntax ); } /** * Example hook for [api] shortcode */ function api__example( $shortcode="api" ) { oik_require( "includes/oik-sc-help.php" ); $text = "Links to different APIs: PHP,locally documented,WordPress reference" ; $example = "require,oik_require,hello_dolly"; bw_invoke_shortcode( $shortcode, $example, $text ); }
bobbingwide/oik-shortcodes
shortcodes/oik-api.php
PHP
gpl-2.0
7,237
;; ******************************************************************* ;; $Id: test.asm,v 1.1 2006-06-05 02:12:19 arniml Exp $ ;; ;; Checks interrupt on a sequence of "transfer of control" ;; instructions. ;; ;; the cpu type is defined on asl's command line include "int_macros.inc" org 0x00 clra int_flag_clear lei 0x02 jp int_mark org 0x030 int_mark: nop nop int_instr: jmp + + jp + + jsrp jsrp_target jsr jsrp_target lqid nop ret_instr: jmp + org 0x040 + int_flag_check jmp pass org 0x080 jsrp_target: ret ;; ******************************************************************* ;; Interrupt routine ;; org 0x0fd jmp fail int_routine: nop save_a_m_c int_flag_set check_sa ret_instr restore_c_m_a ret org 0x200 include "int_pass_fail.asm"
freecores/t400
sw/verif/int/sequence/test.asm
Assembly
gpl-2.0
789
<?php /** * Custom Article Page Type * * @package tub */ /* * Register an article post type. */ add_action( 'init', 'tub_articles_init' ); function tub_articles_init() { $labels = array( 'name' => _x( 'Articles', 'post type general name', 'tub' ), 'singular_name' => _x( 'Article', 'post type singular name', 'tub' ), 'menu_name' => _x( 'Articles', 'admin menu', 'tub' ), 'name_admin_bar' => _x( 'Article', 'add new on admin bar', 'tub' ), 'add_new' => _x( 'Add New', 'article', 'tub' ), 'add_new_item' => __( 'Add New Article', 'tub' ), 'new_item' => __( 'New Article', 'tub' ), 'edit_item' => __( 'Edit Article', 'tub' ), 'view_item' => __( 'View Article', 'tub' ), 'all_items' => __( 'All Articles', 'tub' ), 'search_items' => __( 'Search Articles', 'tub' ), 'parent_item_colon' => __( 'Parent Articles:', 'tub' ), 'not_found' => __( 'No articles found.', 'tub' ), 'not_found_in_trash' => __( 'No articles found in Trash.', 'tub' ) ); $args = array( 'labels' => $labels, 'public' => true, 'publicly_queryable' => true, 'show_ui' => true, 'show_in_nav_menus' => true, 'show_in_menu' => true, 'query_var' => true, 'rewrite' => array( 'slug' => 'article' ), 'capability_type' => 'page', 'hierarchical' => true, 'menu_position' => 20, 'menu_icon' => 'dashicons-format-aside', 'supports' => array( 'title', 'editor', 'author', 'thumbnail', 'excerpt', 'revisions', 'page-attributes' ) ); register_post_type( 'article', $args ); } /** * Change Title Placeholder Text */ function tub_change_article_title( $title ){ $screen = get_current_screen(); if ( 'article' == $screen->post_type ){ $title = 'Enter menu label here'; } return $title; } add_filter( 'enter_title_here', 'tub_change_article_title' ); /** * Add a page title meta box */ // Add box function tub_article_add_title(){ add_meta_box( 'article_title_meta', __('Page Title'), 'tub_article_title_content', 'article', 'normal', 'high' ); } add_action("add_meta_boxes", "tub_article_add_title"); // Print box content function tub_article_title_content( $post ){ // Add an nonce field so we can check for it later. wp_nonce_field( 'tub_article_meta_box', 'tub_article_meta_box_nonce' ); $article_title = get_post_meta( $post->ID, 'tub_article_title', true ); echo '<input type="text" name="tub_article_title" value="' . esc_attr( $article_title ) . '" style="width: 100%;margin-top: 6px;" placeholder="Enter title here" />'; } /** * Save Data */ function tub_article_title_save( $post_id ) { /* * We need to verify this came from our screen and with proper authorization, * because the save_post action can be triggered at other times. */ // Check if our nonce is set. if ( ! isset( $_POST['tub_article_meta_box_nonce'] ) ) { return; } // Verify that the nonce is valid. if ( ! wp_verify_nonce( $_POST['tub_article_meta_box_nonce'], 'tub_article_meta_box' ) ) { return; } // If this is an autosave, our form has not been submitted, so we don't want to do anything. if ( defined( 'DOING_AUTOSAVE' ) && DOING_AUTOSAVE ) { return; } // Check the user's permissions. if ( isset( $_POST['post_type'] ) && 'page' == $_POST['post_type'] ) { if ( ! current_user_can( 'edit_page', $post_id ) ) { return; } } else { if ( ! current_user_can( 'edit_post', $post_id ) ) { return; } } /* OK, it's safe for us to save the data now. */ // Save testimonial date data if the field isset if ( isset( $_POST['tub_article_title'] ) ) { $tub_article_title_data = sanitize_text_field( $_POST['tub_article_title'] ); update_post_meta( $post_id, 'tub_article_title', $tub_article_title_data ); } return; } add_action( 'save_post', 'tub_article_title_save' );
joshevensen/theunassistedbaby.com
wp-content/plugins/tub-functions/cpt/articles.php
PHP
gpl-2.0
4,026
/* Copyright Statement: * * This software/firmware and related documentation ("MediaTek Software") are * protected under relevant copyright laws. The information contained herein * is confidential and proprietary to MediaTek Inc. and/or its licensors. * Without the prior written permission of MediaTek inc. and/or its licensors, * any reproduction, modification, use or disclosure of MediaTek Software, * and information contained herein, in whole or in part, shall be strictly prohibited. * * MediaTek Inc. (C) 2010. All rights reserved. * * BY OPENING THIS FILE, RECEIVER HEREBY UNEQUIVOCALLY ACKNOWLEDGES AND AGREES * THAT THE SOFTWARE/FIRMWARE AND ITS DOCUMENTATIONS ("MEDIATEK SOFTWARE") * RECEIVED FROM MEDIATEK AND/OR ITS REPRESENTATIVES ARE PROVIDED TO RECEIVER ON * AN "AS-IS" BASIS ONLY. MEDIATEK EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT. * NEITHER DOES MEDIATEK PROVIDE ANY WARRANTY WHATSOEVER WITH RESPECT TO THE * SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR * SUPPLIED WITH THE MEDIATEK SOFTWARE, AND RECEIVER AGREES TO LOOK ONLY TO SUCH * THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. RECEIVER EXPRESSLY ACKNOWLEDGES * THAT IT IS RECEIVER'S SOLE RESPONSIBILITY TO OBTAIN FROM ANY THIRD PARTY ALL PROPER LICENSES * CONTAINED IN MEDIATEK SOFTWARE. MEDIATEK SHALL ALSO NOT BE RESPONSIBLE FOR ANY MEDIATEK * SOFTWARE RELEASES MADE TO RECEIVER'S SPECIFICATION OR TO CONFORM TO A PARTICULAR * STANDARD OR OPEN FORUM. RECEIVER'S SOLE AND EXCLUSIVE REMEDY AND MEDIATEK'S ENTIRE AND * CUMULATIVE LIABILITY WITH RESPECT TO THE MEDIATEK SOFTWARE RELEASED HEREUNDER WILL BE, * AT MEDIATEK'S OPTION, TO REVISE OR REPLACE THE MEDIATEK SOFTWARE AT ISSUE, * OR REFUND ANY SOFTWARE LICENSE FEES OR SERVICE CHARGE PAID BY RECEIVER TO * MEDIATEK FOR SUCH MEDIATEK SOFTWARE AT ISSUE. * * The following software/firmware and/or related documentation ("MediaTek Software") * have been modified by MediaTek Inc. All revisions are subject to any receiver's * applicable license agreements with MediaTek Inc. */ /* * Copyright (C) 2007-2009 Freescale Semiconductor, Inc. * Copyright (C) 2008-2009 MontaVista Software, Inc. * * Authors: Tony Li <[email protected]> * Anton Vorontsov <[email protected]> * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA */ #include <common.h> #include <pci.h> #include <mpc83xx.h> #include <asm/io.h> DECLARE_GLOBAL_DATA_PTR; #define PCIE_MAX_BUSES 2 #ifdef CONFIG_83XX_GENERIC_PCIE_REGISTER_HOSES static int mpc83xx_pcie_remap_cfg(struct pci_controller *hose, pci_dev_t dev) { int bus = PCI_BUS(dev) - hose->first_busno; immap_t *immr = (immap_t *)CONFIG_SYS_IMMR; pex83xx_t *pex = &immr->pciexp[bus]; struct pex_outbound_window *out_win = &pex->bridge.pex_outbound_win[0]; u8 devfn = PCI_DEV(dev) << 3 | PCI_FUNC(dev); u32 dev_base = bus << 24 | devfn << 16; if (hose->indirect_type == INDIRECT_TYPE_NO_PCIE_LINK) return -1; /* * Workaround for the HW bug: for Type 0 configure transactions the * PCI-E controller does not check the device number bits and just * assumes that the device number bits are 0. */ if (devfn & 0xf8) return -1; out_le32(&out_win->tarl, dev_base); return 0; } #define cfg_read(val, addr, type, op) \ do { *val = op((type)(addr)); } while (0) #define cfg_write(val, addr, type, op) \ do { op((type *)(addr), (val)); } while (0) #define cfg_read_err(val) do { *val = -1; } while (0) #define cfg_write_err(val) do { } while (0) #define PCIE_OP(rw, size, type, op) \ static int pcie_##rw##_config_##size(struct pci_controller *hose, \ pci_dev_t dev, int offset, \ type val) \ { \ int ret; \ \ ret = mpc83xx_pcie_remap_cfg(hose, dev); \ if (ret) { \ cfg_##rw##_err(val); \ return ret; \ } \ cfg_##rw(val, (void *)hose->cfg_addr + offset, type, op); \ return 0; \ } PCIE_OP(read, byte, u8 *, in_8) PCIE_OP(read, word, u16 *, in_le16) PCIE_OP(read, dword, u32 *, in_le32) PCIE_OP(write, byte, u8, out_8) PCIE_OP(write, word, u16, out_le16) PCIE_OP(write, dword, u32, out_le32) static void mpc83xx_pcie_register_hose(int bus, struct pci_region *reg, u8 link) { extern void disable_addr_trans(void); /* start.S */ static struct pci_controller pcie_hose[PCIE_MAX_BUSES]; struct pci_controller *hose = &pcie_hose[bus]; int i; /* * There are no spare BATs to remap all PCI-E windows for U-Boot, so * disable translations. In general, this is not great solution, and * that's why we don't register PCI-E hoses by default. */ disable_addr_trans(); for (i = 0; i < 2; i++, reg++) { if (reg->size == 0) break; hose->regions[i] = *reg; hose->region_count++; } i = hose->region_count++; hose->regions[i].bus_start = 0; hose->regions[i].phys_start = 0; hose->regions[i].size = gd->ram_size; hose->regions[i].flags = PCI_REGION_MEM | PCI_REGION_SYS_MEMORY; i = hose->region_count++; hose->regions[i].bus_start = CONFIG_SYS_IMMR; hose->regions[i].phys_start = CONFIG_SYS_IMMR; hose->regions[i].size = 0x100000; hose->regions[i].flags = PCI_REGION_MEM | PCI_REGION_SYS_MEMORY; hose->first_busno = pci_last_busno() + 1; hose->last_busno = 0xff; if (bus == 0) hose->cfg_addr = (unsigned int *)CONFIG_SYS_PCIE1_CFG_BASE; else hose->cfg_addr = (unsigned int *)CONFIG_SYS_PCIE2_CFG_BASE; pci_set_ops(hose, pcie_read_config_byte, pcie_read_config_word, pcie_read_config_dword, pcie_write_config_byte, pcie_write_config_word, pcie_write_config_dword); if (!link) hose->indirect_type = INDIRECT_TYPE_NO_PCIE_LINK; pci_register_hose(hose); #ifdef CONFIG_PCI_SCAN_SHOW printf("PCI: Bus Dev VenId DevId Class Int\n"); #endif /* * Hose scan. */ hose->last_busno = pci_hose_scan(hose); } #else static void mpc83xx_pcie_register_hose(int bus, struct pci_region *reg, u8 link) {} #endif /* CONFIG_83XX_GENERIC_PCIE_REGISTER_HOSES */ static void mpc83xx_pcie_init_bus(int bus, struct pci_region *reg) { immap_t *immr = (immap_t *)CONFIG_SYS_IMMR; pex83xx_t *pex = &immr->pciexp[bus]; struct pex_outbound_window *out_win; struct pex_inbound_window *in_win; void *hose_cfg_base; unsigned int ram_sz; unsigned int barl; unsigned int tar; u16 reg16; int i; /* Enable pex csb bridge inbound & outbound transactions */ out_le32(&pex->bridge.pex_csb_ctrl, in_le32(&pex->bridge.pex_csb_ctrl) | PEX_CSB_CTRL_OBPIOE | PEX_CSB_CTRL_IBPIOE); /* Enable bridge outbound */ out_le32(&pex->bridge.pex_csb_obctrl, PEX_CSB_OBCTRL_PIOE | PEX_CSB_OBCTRL_MEMWE | PEX_CSB_OBCTRL_IOWE | PEX_CSB_OBCTRL_CFGWE); out_win = &pex->bridge.pex_outbound_win[0]; if (bus) { out_le32(&out_win->ar, PEX_OWAR_EN | PEX_OWAR_TYPE_CFG | CONFIG_SYS_PCIE2_CFG_SIZE); out_le32(&out_win->bar, CONFIG_SYS_PCIE2_CFG_BASE); } else { out_le32(&out_win->ar, PEX_OWAR_EN | PEX_OWAR_TYPE_CFG | CONFIG_SYS_PCIE1_CFG_SIZE); out_le32(&out_win->bar, CONFIG_SYS_PCIE1_CFG_BASE); } out_le32(&out_win->tarl, 0); out_le32(&out_win->tarh, 0); for (i = 0; i < 2; i++, reg++) { u32 ar; if (reg->size == 0) break; out_win = &pex->bridge.pex_outbound_win[i + 1]; out_le32(&out_win->bar, reg->phys_start); out_le32(&out_win->tarl, reg->bus_start); out_le32(&out_win->tarh, 0); ar = PEX_OWAR_EN | (reg->size & PEX_OWAR_SIZE); if (reg->flags & PCI_REGION_IO) ar |= PEX_OWAR_TYPE_IO; else ar |= PEX_OWAR_TYPE_MEM; out_le32(&out_win->ar, ar); } out_le32(&pex->bridge.pex_csb_ibctrl, PEX_CSB_IBCTRL_PIOE); ram_sz = gd->ram_size; barl = 0; tar = 0; i = 0; while (ram_sz > 0) { in_win = &pex->bridge.pex_inbound_win[i]; out_le32(&in_win->barl, barl); out_le32(&in_win->barh, 0x0); out_le32(&in_win->tar, tar); if (ram_sz >= 0x10000000) { /* The maxium windows size is 256M */ out_le32(&in_win->ar, PEX_IWAR_EN | PEX_IWAR_NSOV | PEX_IWAR_TYPE_PF | 0x0FFFF000); barl += 0x10000000; tar += 0x10000000; ram_sz -= 0x10000000; } else { /* The UM is not clear here. * So, round up to even Mb boundary */ ram_sz = ram_sz >> (20 + ((ram_sz & 0xFFFFF) ? 1 : 0)); if (!(ram_sz % 2)) ram_sz -= 1; out_le32(&in_win->ar, PEX_IWAR_EN | PEX_IWAR_NSOV | PEX_IWAR_TYPE_PF | (ram_sz << 20) | 0xFF000); ram_sz = 0; } i++; } in_win = &pex->bridge.pex_inbound_win[i]; out_le32(&in_win->barl, CONFIG_SYS_IMMR); out_le32(&in_win->barh, 0); out_le32(&in_win->tar, CONFIG_SYS_IMMR); out_le32(&in_win->ar, PEX_IWAR_EN | PEX_IWAR_TYPE_NO_PF | PEX_IWAR_SIZE_1M); /* Enable the host virtual INTX interrupts */ out_le32(&pex->bridge.pex_int_axi_misc_enb, in_le32(&pex->bridge.pex_int_axi_misc_enb) | 0x1E0); /* Hose configure header is memory-mapped */ hose_cfg_base = (void *)pex; get_clocks(); /* Configure the PCIE controller core clock ratio */ out_le32(hose_cfg_base + PEX_GCLK_RATIO, (((bus ? gd->pciexp2_clk : gd->pciexp1_clk) / 1000000) * 16) / 333); udelay(1000000); /* Do Type 1 bridge configuration */ out_8(hose_cfg_base + PCI_PRIMARY_BUS, 0); out_8(hose_cfg_base + PCI_SECONDARY_BUS, 1); out_8(hose_cfg_base + PCI_SUBORDINATE_BUS, 255); /* * Write to Command register */ reg16 = in_le16(hose_cfg_base + PCI_COMMAND); reg16 |= PCI_COMMAND_MASTER | PCI_COMMAND_MEMORY | PCI_COMMAND_IO | PCI_COMMAND_SERR | PCI_COMMAND_PARITY; out_le16(hose_cfg_base + PCI_COMMAND, reg16); /* * Clear non-reserved bits in status register. */ out_le16(hose_cfg_base + PCI_STATUS, 0xffff); out_8(hose_cfg_base + PCI_LATENCY_TIMER, 0x80); out_8(hose_cfg_base + PCI_CACHE_LINE_SIZE, 0x08); printf("PCIE%d: ", bus); reg16 = in_le16(hose_cfg_base + PCI_LTSSM); if (reg16 >= PCI_LTSSM_L0) printf("link\n"); else printf("No link\n"); mpc83xx_pcie_register_hose(bus, reg, reg16 >= PCI_LTSSM_L0); } /* * The caller must have already set SCCR, SERDES and the PCIE_LAW BARs * must have been set to cover all of the requested regions. */ void mpc83xx_pcie_init(int num_buses, struct pci_region **reg, int warmboot) { int i; /* * Release PCI RST Output signal. * Power on to RST high must be at least 100 ms as per PCI spec. * On warm boots only 1 ms is required. */ udelay(warmboot ? 1000 : 100000); for (i = 0; i < num_buses; i++) mpc83xx_pcie_init_bus(i, reg[i]); }
luckasfb/OT_903D-kernel-2.6.35.7
bootable/bootloader/uboot/arch/powerpc/cpu/mpc83xx/pcie.c
C
gpl-2.0
11,152
/* VARS -------------------------------------------------------------- */ /* COLORS */ /* DARK GREY */ /* RED */ /* MIX-INS -------------------------------------------------------------- */ .inline_block, #block-system-main-menu li span, #block-system-main-menu li a { display: inline-block; zoom: 1; *display: inline; } .clearfix, .link .image { zoom: 1; } .clearfix:before, .link .image:before, .clearfix:after, .link .image:after { content: "\0020"; display: block; height: 0; overflow: hidden; } .clearfix:after, .link .image:after { clear: both; } /* COMMON -------------------------------------------------------------- */ .soon{ width: 300px; height: 100px; line-height: 100px; font-size: 20px; text-align: center; background: #ea7d67; position: absolute; top: 50%; left: 50%; margin: -80px 0 0 -150px; text-transform: uppercase; } html { background: #f5f3e9; } body { font-family: "Lato", sans-serif; font-weight: 300; color: #444444; font-size: 18px; } a { cursor: pointer; transition: color .3s ease; color: #444444; color: #444444; text-decoration: none; } a:hover { color: #ea7d67; } a:hover { color: #ea7d67; } p a{ color: #ea7d67; } p a:hover{ text-decoration: underline; } li a.active, li.opened span.nolink { color: #ea7d67; } h1 { font-weight: 100; margin-bottom: 40px; padding-bottom: 10px; margin-bottom: 10px; } h1.main-title { text-align: center; font-size: 60px; font-style: italic; font-weight: 100; margin-bottom: 40px; } h2.pane-title{ text-align: center; font-weight: 100; margin: 20px 0; } .node-type-post h1.main-title { display: none; } p { letter-spacing: normal; font-size: 14px; line-height: 24px; position: relative; font-family: "Gilda Display", serif;} ul, ul.menu, ul.menu li { list-style: none; text-align: inherit; } .bull { color: #dddddd; padding: 0 10px; } /* HEADER -------------------------------------------------------------- */ #header { position: fixed; background-color: #ea7d67; height: 40px; line-height: 40px; width: 100%; z-index: 999; } #header .bot { width: 100%; height: 35px; top: 40px; position: absolute; background-color: rgba(245, 243, 233, 0.9); } #header-inner { float: right; } #u-big, #d-big { position: absolute; z-index: 1000; } #u-big { top: 60px; left: 50%; margin-left: -620px; } #d-big { top: 80px; left: 50%; margin-left: -170px; } #ud-sm { position: absolute; top: 0; left: 0; } #ud-sm .logo { right: inherit; margin: 0; line-height: normal; width: 180px; top: 0; left: 240px; } #ud-sm .logo .slogan { margin-top: 5px; } #u-sm { position: absolute; top: 10px; left: 20px; } #d-sm { position: absolute; top: 20px; left: 155px; } .logo { font-size: 16px; position: absolute; } .logo a { cursor: pointer; transition: color .3s ease; color: #444444; text-transform: uppercase; } .logo a:hover { color: white; transition: none; } .logo a span { display: block; margin-left: 20px; } .logo .slogan { color: #ea7d67; font-style: italic; margin-top: 10px; margin-left: 60px; } #block-system-main-menu ul { font-size: 0; position: relative; } #block-system-main-menu li { float: left; list-style: none; position: relative; margin: 0; padding: 0; } #block-system-main-menu li ul { display: none; position: absolute; top: 40px; left: 0; width: 150px; } #block-system-main-menu li ul li { display: block; float: none; } #block-system-main-menu li ul a { cursor: pointer; transition: color .3s ease; color: #ea7d67; display: block; background-color: #555; color: #f5f3e9; border-bottom: #484848 1px solid; } #block-system-main-menu li ul a:hover { color: #ea7d67; transition: none; } #block-system-main-menu li:hover ul { display: block; } #block-system-main-menu li.first span { padding-left: 30px; } #block-system-main-menu li.last a { padding-right: 30px; } #block-system-main-menu li span, #block-system-main-menu li a { cursor: pointer; transition: color .3s ease; color: #444444; font-size: 14px; font-weight: 300; padding: 0 20px; cursor: pointer; text-transform: uppercase; } #block-system-main-menu li span:hover, #block-system-main-menu li a:hover { color: #ea7d67; transition: none; } #block-system-main-menu li span:hover, #block-system-main-menu li span.active, #block-system-main-menu li a:hover, #block-system-main-menu li a.active { color: #fff; } .menu-toggle { display: none; cursor: pointer; } .front #main { padding-top: 400px; } .front #header .bot { display: none; } .front .logo { top: 150px; right: 50%; margin-right: -330px; } .front #ud-sm { top: -180px; } /* MAIN -------------------------------------------------------------- */ #main-content { width: 1100px; margin: 0 auto; z-index: 1; position: relative; } #main { padding-top: 200px; } .sidebar-first #main { float: left; width: 680px; margin: 0 40px 0 0; } .sidebar-first #side { float: left; width: 380px; } /* SIDE -------------------------------------------------------------- */ .side-content h2 { color: #ea7d67; font-size: 30px; font-weight: 100; text-align: center; } .side-content .panel-pane { background-color: #f1eee0; padding: 0 0 20px; margin-bottom: 20px; /*border-bottom: #ccc 1px solid;*/ position: relative; padding: 40px; } .side-content .panel-pane h2.pane-title{ margin-top: 0; } .side-content .panel-pane .views-row + .views-row{ margin-top: 10px; padding-top: 10px; border-top: #f3b99f dashed 1px; } .side-content .panel-pane li{ margin-left: 0; font-size: 14px; } .side-content .view-id-tweets li a{ color: #ea7d67; } #block-menu-menu-categories, #block-views-content-block-1 { text-align: center; } #block-menu-menu-categories ul li, #block-views-content-block-1 ul li { margin: 0; padding: 0; } #block-menu-menu-categories .more-link, #block-views-content-block-1 .more-link { text-align: center; } #follow { text-align: center; } #search-block-form input[type="text"] { width: 80%; float: left; margin-right: 4px; } .pane-menu-menu-categories { text-align: center; } #block-block-2 img { width: 100%; height: auto; } .pane-block-2 img { width: 100%; height: auto; } /* CONTACT -------------------------------------------------------------- */ /* BIO -------------------------------------------------------------- */ /* BLOG POST -------------------------------------------------------------- */ .link, .post { margin-bottom: 60px; padding-bottom: 60px; /*border-bottom: #f3b99f dashed 1px;*/ position: relative; } .link .header h2, .post .header h2 { font-size: 30px; font-weight: 300; margin-bottom: 5px; font-family: "Lato", sans-serif; font-weight: 300; } .link .post-date, .post .post-date { /*font-size: 14px; color: lighten($text_main, 40%);*/ color: #ea7d67; font-size: 40px; position: absolute; top: -20px; left: -20px; font-weight: 100; } .link .post-date-comments, .post .post-date-comments { font-size: 14px; color: #aaaaaa; } .link .comments_btn a, .post .comments_btn a { cursor: pointer; transition: color .3s ease; color: #ea7d67; font-style: italic; font-size: 14px; } .link .comments_btn a:hover, .post .comments_btn a:hover { color: #444444; transition: none; } .link .body, .post .body { font-size: 14px; } .post .body p{ font-size: 14px; } .link .footer, .post .footer { clear: both; margin-top: 10px; border-top: #ccc dashed 1px; font-size: 12px; padding-top: 10px; } .link .footer h3, .post .footer h3 { font-weight: 400; font-size: 12px; text-transform: uppercase; } .link .tags, .post .tags { font-size: 12px; text-transform: uppercase; width: 70%; float: left; } .link .tags h3, .post .tags h3 { display: inline-block; } .link .tags a, .post .tags a { margin-left: 10px; margin-bottom: 4px; display: inline-block; } .link .share, .post .share { float: right; text-align: right; } .link .share h3, .post .share h3 { margin-bottom: 5px; } .link .share .service-links, .post .share .service-links { float: right; } .link .service-links, .post .service-links { /* display: none; */ } .post-teaser .header { margin: 120px 5px 20px -20px; border-left: #ea7d67 solid 5px; padding: 0 0 0 15px; } .post-teaser .main { width: 680px; float: left; margin-right: 20px; } .post-teaser .image { background-color: #fff; padding: 40px; position: relative; } .post-teaser .image img { width: 100%; height: auto; } .post-teaser .side { float: left; position: relative; width: 380px; } .post-teaser .read-more { text-align: center; } .post-teaser .read-more a { color: #ea7d67; margin: 20px; font-size: 40px; font-weight: 100; letter-spacing: 2px; padding: 10px 20px; display: inline-block; text-transform: uppercase; transition: all .3s ease; } .post-teaser .read-more a:hover { color: #444; } .post-teaser .footer a { cursor: pointer; transition: color .3s ease; color: #aaaaaa; } .post-teaser .footer a:hover { color: #ea7d67; transition: none; } .post-teaser .footer .tags { width: 30%; font-weight: 400; } .post-teaser .footer .tags a { display: block; padding: 0; margin: 0 0 4px;; text-transform: uppercase; } .post-full .header { text-align: center; padding: 0 40px; } .post-full .header h1 { font-weight: 300; font-size: 40px; margin-bottom: 5px; } .post-full .summary { font-size: 14px; padding: 20px 0; border-top: #ccc 1px solid; margin-top: 20px; text-align: left; } .post-full .body p { padding: 10px 40px; line-height: 24px; margin: 0; } .post-full .body a { cursor: pointer; transition: color .3s ease; color: #ea7d67; } .post-full .body a:hover { color: #444444; transition: none; } .post-full .body h2, .post-full .body h3, .post-full .body h4, .post-full .body h5 { padding: 0 40px; font-weight: 300; font-style: italic; margin-top: 20px; } .post-full .body h2 { font-size: 30px; } .post-full .body h3 { font-size: 24px; } .post-full .body h4 { font-size: 18px; } .post-full .body h2 + p, .post-full .body h3 + p, .post-full .body h4 + p { padding-top: 10px; } .post-full .body p.image-holder { padding: 40px; text-align: center; background-color: #fff; margin: 10px 0 20px; } .post-full .body ul, .post-full .body ol { padding: 10px 40px; margin-left: 20px; } .post-full .body ul li { list-style: circle; } .post-full .body ol li { list-style: decimal; } .post-full .body img { width: 100%; height: auto; } .post .credits{ font-size: 12px; text-transform: uppercase; margin: 40px 0 20px; } .post .credits h2{ font-weight: 400; font-size: 12px; margin-bottom: 5px; } .item-list .pager{ margin-bottom: 60px; font-size: 30px; font-weight: 100; text-transform: uppercase; letter-spacing: 2px; padding: 40px; background-color: #f1eee0; } .item-list .pager a{ color: #ea7d67; } .item-list .pager a:hover{ color: #444; } .item-list .pager .pager-current{ font-weight: 100; font-size: 20px; } .item-list .pager li{ margin: 0 40px 0; } /* LINKS -------------------------------------------------------------- */ .link .image { float: left; margin-right: 20px; } /* ABOUT & CONTACT -------------------------------------------------------------- */ .left, .right{ width: 48%; float: left; margin-bottom: 60px; -webkit-box-sizing: border-box; -moz-box-sizing: border-box; box-sizing: border-box; } .left{ margin-right: 4%; } .page-node-52 #main, .page-node-53 #main{ } .page-node-52 #main img, .page-node-53 #main img{ max-width: 100%; height: auto; } .page-node-53 #main h2{ font-weight: 100; font-size: 60px; margin-bottom: 40px; } .page-node-53 #main a{ font-size: 24px; color: #ea7d67; } .page-node-53 #main a:hover{ color: #444; } .about-right, .about-mid, .about-left { } .about-left, .about-right { width: 48%; margin: 20px auto; } .about-mid { width: 24%; margin: 0 3%; } .about-mid p { font-size: 16px; line-height: 30px; text-align: justify; } .about-page{ max-width: 750px; margin: auto; } .about-page .left img, .about-page .right img{ width: 100%; height: auto; } .about-page h1{ text-align: center; } .team-member h2, .team-member h3{ font-weight: 300; text-align: center; } .team-member h2{ margin-top: 20px; margin-bottom: 10px; } .team-member h3{ margin-bottom: 20px; color: #ea7d67; font-size: 16px; text-transform: uppercase; letter-spacing: 2px; } .contact-page{ text-align: center; max-width: 750px; margin: auto; } /* COMMENTS -------------------------------------------------------------- */ .comments-holder { margin: 30px auto 50px; } .comments-header { font-style: italic; border-bottom: #ccc solid 1px; margin-bottom: 30px; } .comments-header h2 { float: left; font-size: 30px; font-weight: 300; } .comments-header .add-comment-btn { color: #ea7d67; float: right; cursor: pointer; text-transform: uppercase; margin-top: 10px; } .comment-form-holder { padding: 30px 0 30px; display: none; border-bottom: #ccc dashed 1px; } .comment-form { width: 400px; margin: 0 auto; padding: 30px; display: none;} .page-comment-reply .comment-form { display: block; } .page-comment-reply .comment{ margin: 20px auto 0; } .pane-node-comments { padding-top: 20px; } .comments { margin: 0 auto; padding: 30px 0; } .comment { width: 430px; margin-bottom: 40px; } .comment .comment-header { margin: 0 5px 20px -20px; border-left: #ea7d67 solid 5px; padding: 0 0 0 15px; } .comment .comment-header h2 { font-size: 20px; font-weight: 300; } .comment .comment-header h3 { font-size: 14px; color: #ea7d67; font-weight: 300; font-style: italic; } .comment .website a { color: #ea7d67; float: left; } .comment .website a:hover { color: #444444; } .comment .submitted { padding: 5px 10px; background-color: #f2efe2; font-size: 10px; text-transform: uppercase; } .comment .field-name-comment-body { padding: 0; font-size: 14px; } .comment .footer { clear: both; margin-top: 10px; border-top: #ccc dashed 1px; font-size: 12px; padding-top: 10px; text-transform: uppercase; } .comment .footer ul.links { float: right; text-align: right; } /* SERVICE LINKS -------------------------------------------------------------- */ .service-links li { float: left; margin-left: 10px; } /* FOOTER -------------------------------------------------------------- */ #footer { position: relative; clear: both; background-color: #f1eee0; font-size: 14px; margin-top: 60px; } #footer h2{ color: #EA7D67; font-size: 30px; font-weight: 100; text-align: center; margin-bottom: 20px; } #copy{ background-color: #eae6d1; line-height: 100px; text-align: center; } #copy a{ color: #ea7d67; } #copy a:hover{ color: #444; } #footer-main{ max-width: 1100px; margin: auto; padding: 40px; } #block-instagram-block-instagram-block{ float: left; margin-right: 4.5%; width: 30%; position: relative; -webkit-box-sizing: border-box; -moz-box-sizing: border-box; box-sizing: border-box; } #block-instagram-block-instagram-block img{ border: #fff 20px solid; width: 100%; height: auto; -webkit-box-sizing: border-box; -moz-box-sizing: border-box; box-sizing: border-box; } #block-views-tweets-block{ width: 30%; float: left; margin-right: 4.5%; } #block-views-tweets-block li + li{ margin-top: 10px; padding-top: 10px; border-top: #f3b99f dashed 1px; } #block-views-tweets-block a{ color: #ea7d67; } #block-block-1{ float: left; width: 30%; margin-top: 60px; } #block-mailchimp-lists-upstairs-downstairs-newsletter{ float: left; width: 30%; } #block-mailchimp-lists-upstairs-downstairs-newsletter .form-submit{ float: right; } /* SOCIAL -------------------------------------------------------------- */ .social-icons .icon { background: #ea7d67 url(../images/bb_social.png) no-repeat; height: 30px; width: 30px; display: inline-block; border-radius: 15px; margin: 10px 0 0 10px; transition: background-color .3s ease; } .social-icons .icon:hover { background-color: #555; } .social-icons .twitter { background-position: -30px 0; } .social-icons .instagram { background-position: -60px 0; } .social-icons .youtube { background-position: -90px 0; } .social-icons .pinterest { background-position: -120px 0; } .social-icons.big{ padding-top: 40px; } .social-icons.big .icon { margin-top: 40px; background: #ea7d67 url(../images/bb_social_big.png) no-repeat; height: 50px; width: 50px; display: inline-block; border-radius: 25px; margin: 10px 0 0 10px; transition: background-color .3s ease; } .social-icons.big .icon:hover { background-color: #555; } .social-icons.big .twitter { background-position: -50px 0; } .social-icons.big .instagram { background-position: -100px 0; } .social-icons.big .youtube { background-position: -150px 0; } .social-icons.big .pinterest { background-position: -200px 0; } /* FORMS -------------------------------------------------------------- */ .form-item { margin-top: 0; } input[type="text"], input[type="password"], input[type="email"], textarea { width: 98%; padding: 5px 1%; border: none; background-color: white; font-size: 18px; font-family: "Lato"; font-weight: 300; color: #c4c4c4; box-shadow: 1px 1px 1px #ccc inset; font-family: 'Lato', sans-serif; } input[type="text"]:focus, input[type="password"]:focus, input[type="email"]:focus, textarea:focus { background-color: #fdfdfb; color: #444444; } label { font-size: 16px; font-style: italic; font-weight: 300; } input[type="submit"] { background-color: #ea7d67; color: #f5f3e9; padding: 15px 20px 10px; cursor: pointer; font-size: 16px; letter-spacing: 2px; font-style: italic; font-weight: 300; border: none; margin-left: 5px; border-radius: 3px; } input[type="submit"]:hover { background-color: white; color: #ea7d67; } .form-actions { text-align: right; margin-bottom: 0; } .marker, .form-required{ color: #ea7d67; } /* EXTRAS -------------------------------------------------------------- */ body.cke_show_borders { width: 680px !important; min-width: 680px; margin: 0 auto; } .image-post_full { position: relative; z-index: 1; } .hover-pinterest { position: absolute; right: 0px; bottom: 0px; z-index: 999; background-image: url("../images/bb_pinit.png"); background-repeat: no-repeat; background-position: bottom right; display: none; width: 100px; height: 100px; transition: all .3s ease; opacity: .8; } .hover-pinterest:hover { opacity: 1; } .hover-pinterest.show-pin-btn{ display: block; } .pin-it-link { height: 100%; width: 100%; display: block; } .front .messages-holder{ z-index: 10000; position: absolute; top: 100px; } .messages-holder .messages{ border: none !important; margin: 40px 0; } .front .messages-holder .messages{ padding-right: 50px; } .messages-holder .messages li{ margin-bottom: 10px; list-style: disc; } .messages-holder .messages.error{ background: none #ef9292; color: #f5f3e9; } .messages-holder .messages.status{ background: none #8fba83; color: #f5f3e9; } /* MOBILE -------------------------------------------------------------- */ @media only screen and (max-width: 1120px) { #main-content { width: 100%; margin: 0; } #wrapper { width: 100%; } #u-big { margin: 0; left: -5%; top: 60px; width: 40%; } #u-big img { width: 100%; height: auto; } #d-big { margin: 0; left: 35%; top: 80px; width: 40%; } #d-big img { width: 100%; height: auto; } .page-node-53 #main a{ font-size: 18px; } #main { padding: 180px 20px 0; } .post-teaser .main { width: 60%; } .post-teaser .side { width: 35%; } .post-teaser .image { padding: 20px; } .sideright-bricks .main-content { width: 60%; } .sideright-bricks .side-content { width: 37%; margin-left: 3%; } .side-content .pane-block { padding: 20px; } .comment { width: 80%; } .comment-form-holder { clear: both; } .comment-form-holder form { padding: 0; width: 100%; } .comments-holder .header h2 { font-size: 24px; } .comments-holder .header .add-comment-btn { font-size: 14px; } } @media only screen and (max-width: 568px) { #main-content { width: 100%; margin: 0; } #main { padding: 100px 20px 0; } #header { margin-bottom: 0; text-align: center; } #header #nav li { float: none; display: inline-block; } #header #nav li a { font-size: 12px; padding: 0 10px; } #header #header-inner { float: none; } #header #nav li ul li { display: list-item; text-align: left; } .front #main { padding-top: 200px; } .logo { float: none; margin: 0 0 10px; } .logo { display: none; } #u-big { margin: 0; left: 20px; top: 60px; } #u-big img { width: 160px; height: auto; } .bot { display: none; } #d-big { margin: 0; left: 185px; top: 80px; } #d-big img { width: 155px; height: auto; } #ud-sm #u-sm, #ud-sm #d-sm { display: none; } #ud-sm .logo { display: none; left: 20px; text-align: left; } /*.menu-toggle{display: block; margin-bottom: 10px;}*/ .sideright-bricks .main-content { width: 100%; } .sideright-bricks .side-content { width: 100%; margin-left: 0; margin-top: 40px; } .post-full .header h1 { font-size: 30px; } .post-full .body p.image-holder { padding: 20px; } .post-teaser .main { width: 100%; } .post-teaser .side { width: 100%; } .post-teaser .image { padding: 20px; } .post-teaser .header { margin: 20px 0 0 -20px; } #block-instagram-block-instagram-block, #block-block-1, #block-mailchimp-lists-upstairs-downstairs-newsletter, #block-views-tweets-block{ float: none; margin-right:0; width: 100%; margin-bottom: 60px; } }
bed718/ud
sites/all/themes/bb/css/style.css
CSS
gpl-2.0
23,222
/* $Id$ */ /** @file * IPRT - User & Kernel Memory, Ring-0 Driver, Solaris. */ /* * Copyright (C) 2009 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. */ /******************************************************************************* * Header Files * *******************************************************************************/ #include "the-solaris-kernel.h" #include "internal/iprt.h" #include <iprt/mem.h> #if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86) # include <iprt/asm-amd64-x86.h> #endif #include <iprt/assert.h> #include <iprt/err.h> RTR0DECL(int) RTR0MemUserCopyFrom(void *pvDst, RTR3PTR R3PtrSrc, size_t cb) { int rc; RT_ASSERT_INTS_ON(); rc = ddi_copyin((const char *)R3PtrSrc, pvDst, cb, 0 /*flags*/); if (RT_LIKELY(rc == 0)) return VINF_SUCCESS; return VERR_ACCESS_DENIED; } RTR0DECL(int) RTR0MemUserCopyTo(RTR3PTR R3PtrDst, void const *pvSrc, size_t cb) { int rc; RT_ASSERT_INTS_ON(); rc = ddi_copyout(pvSrc, (void *)R3PtrDst, cb, 0 /*flags*/); if (RT_LIKELY(rc == 0)) return VINF_SUCCESS; return VERR_ACCESS_DENIED; } RTR0DECL(bool) RTR0MemUserIsValidAddr(RTR3PTR R3Ptr) { return R3Ptr < kernelbase; } RTR0DECL(bool) RTR0MemKernelIsValidAddr(void *pv) { return (uintptr_t)pv >= kernelbase; } RTR0DECL(bool) RTR0MemAreKrnlAndUsrDifferent(void) { return true; }
dezelin/vbox-haiku
src/VBox/Runtime/r0drv/solaris/memuserkernel-r0drv-solaris.c
C
gpl-2.0
2,352
/** * @file g_func.c * @brief func_* edicts */ /* All original material Copyright (C) 2002-2011 UFO: Alien Invasion. Original file from Quake 2 v3.21: quake2-2.31/game/g_spawn.c Copyright (C) 1997-2001 Id Software, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "g_local.h" /** * @brief If an actor was standing on the breakable that is going to get destroyed, we have to let him fall to the ground * @param self The breakable edict * @param activator The touching edict * @note This touch function is only executed if the func_breakable edict has a HP level of 0 (e.g. it is already destroyed) * @return false because this is no client action */ static qboolean Touch_Breakable (edict_t *self, edict_t *activator) { /* not yet broken */ if (self->HP != 0) return qfalse; /** @todo check that the actor is standing upon the breakable */ if (G_IsActor(activator)) G_ActorFall(activator); return qfalse; } static qboolean Destroy_Breakable (edict_t *self) { vec3_t origin; const char *model = self->model; VectorCenterFromMinsMaxs(self->absmin, self->absmax, origin); /* the HP value is used to decide whether this was a triggered call or a * call during a fight - a triggered call will be handled differently in * terms of timing and the related particle effects in the client code */ if (self->HP == 0) G_EventModelExplodeTriggered(self); else G_EventModelExplode(self); if (self->particle) G_SpawnParticle(origin, self->spawnflags, self->particle); switch (self->material) { case MAT_GLASS: G_EventSpawnSound(PM_ALL, qfalse, self, origin, "misc/breakglass+"); break; case MAT_METAL: G_EventSpawnSound(PM_ALL, qfalse, self, origin, "misc/breakmetal+"); break; case MAT_ELECTRICAL: G_EventSpawnSound(PM_ALL, qfalse, self, origin, "misc/breakelectric+"); break; case MAT_WOOD: G_EventSpawnSound(PM_ALL, qfalse, self, origin, "misc/breakwood+"); break; case MAT_MAX: break; } G_TouchEdicts(self, 10.0f); /* destroy the door trigger */ if (self->child) G_FreeEdict(self->child); /* now we can destroy the edict completely */ G_FreeEdict(self); G_RecalcRouting(model); return qtrue; } /** * @brief func_breakable (0.3 0.3 0.3) ? * Used for breakable objects. * @note These edicts are added client side as local models, * they are stored in the lmList (because they are inline models) * for tracing (see inlineList in cmodel.c) * @sa CM_EntTestLine * @sa LM_AddModel * @sa SV_SetModel * @sa G_SendEdictsAndBrushModels */ void SP_func_breakable (edict_t *ent) { ent->classname = "breakable"; ent->type = ET_BREAKABLE; ent->flags |= FL_DESTROYABLE; /* set an inline model */ gi.SetModel(ent, ent->model); ent->solid = SOLID_BSP; gi.LinkEdict(ent); Com_DPrintf(DEBUG_GAME, "func_breakable: model (%s) num: %i mins: %i %i %i maxs: %i %i %i origin: %i %i %i\n", ent->model, ent->mapNum, (int)ent->mins[0], (int)ent->mins[1], (int)ent->mins[2], (int)ent->maxs[0], (int)ent->maxs[1], (int)ent->maxs[2], (int)ent->origin[0], (int)ent->origin[1], (int)ent->origin[2]); ent->destroy = Destroy_Breakable; ent->touch = Touch_Breakable; } /* ============================================================================= DOOR FUNCTIONS ============================================================================= */ /** * @brief Slides a door * @note The new door state must already be set * @param[in,out] door The entity of the inline model. The aabb of this bmodel will get updated * in this function to reflect the new door position in the world * @sa LET_SlideDoor */ static void Door_SlidingUse (edict_t *door) { const qboolean open = door->doorState == STATE_OPENED; vec3_t moveAngles, moveDir, distanceVec; int distance; /* get the movement angle vector - a negative speed value will close the door*/ GET_SLIDING_DOOR_SHIFT_VECTOR(door->dir, open ? 1 : -1, moveAngles); /* get the direction vector from the movement angles that were set on the entity */ AngleVectors(moveAngles, moveDir, NULL, NULL); moveDir[0] = fabsf(moveDir[0]); moveDir[1] = fabsf(moveDir[1]); moveDir[2] = fabsf(moveDir[2]); /* calculate the distance from the movement angles and the entity size. This is the * distance the door has to slide to fully open or close */ distance = DotProduct(moveDir, door->size); /* the door is moved in one step on the server side - lerping is not needed here - so we * perform the scalar multiplication with the distance the door must move in order to * fully close/open */ VectorMul(distance, moveAngles, distanceVec); /* set the updated position. The bounding boxes that are used for tracing must be * shifted when the door state changes. As the mins and maxs of the aabb are absolute * world coordinates in the map we have to translate the position by the above * calculated movement vector */ #if 0 /** @todo this is not yet working for tracing and pathfinding - check what must be done to * allow shooting and walking through the opened door */ VectorAdd(door->origin, distanceVec, door->origin); gi.SetInlineModelOrientation(door->model, door->origin, door->angles); #else VectorAdd(door->mins, distanceVec, door->mins); VectorAdd(door->maxs, distanceVec, door->maxs); #endif } /** * @brief Opens/closes a door * @note Use function for func_door * @todo Check if the door can be opened or closed - there should not be * anything in the way (e.g. an actor) */ static qboolean Door_Use (edict_t *door, edict_t *activator) { if (door->doorState == STATE_CLOSED) { door->doorState = STATE_OPENED; /* change rotation/origin and relink */ if (door->type == ET_DOOR) { if (door->dir & DOOR_OPEN_REVERSE) door->angles[door->dir & 3] -= DOOR_ROTATION_ANGLE; else door->angles[door->dir & 3] += DOOR_ROTATION_ANGLE; } else if (door->type == ET_DOOR_SLIDING) { Door_SlidingUse(door); } gi.LinkEdict(door); /* maybe the server called this because the door starts opened */ if (G_MatchIsRunning()) { /* let everybody know, that the door opens */ G_EventDoorOpen(door); if (door->noise[0] != '\0') G_EventSpawnSound(PM_ALL, qfalse, door, door->origin, door->noise); } } else if (door->doorState == STATE_OPENED) { door->doorState = STATE_CLOSED; /* change rotation and relink */ if (door->type == ET_DOOR) { if (door->dir & DOOR_OPEN_REVERSE) door->angles[door->dir & 3] += DOOR_ROTATION_ANGLE; else door->angles[door->dir & 3] -= DOOR_ROTATION_ANGLE; } else if (door->type == ET_DOOR_SLIDING) { Door_SlidingUse(door); } gi.LinkEdict(door); /* closed is the standard, opened is handled above - we need an active * team here already */ if (G_MatchIsRunning()) { /* let everybody know, that the door closes */ G_EventDoorClose(door); if (door->noise[0] != '\0') G_EventSpawnSound(PM_ALL, qfalse, door, door->origin, door->noise); } } else return qfalse; /* Update model orientation */ gi.SetInlineModelOrientation(door->model, door->origin, door->angles); Com_DPrintf(DEBUG_GAME, "Server processed door movement.\n"); /* Update path finding table */ G_RecalcRouting(door->model); if (activator && G_IsLivingActor(activator)) { /* Check if the player appears/perishes, seen from other teams. */ G_CheckVis(activator, qtrue); /* Calc new vis for the activator. */ G_CheckVisTeamAll(activator->team, qfalse, activator); } return qtrue; } /** * @brief Trigger to open the door we are standing in front of it * @sa CL_DoorOpen * @sa LE_CloseOpen * @sa CL_ActorDoorAction * @sa AI_CheckUsingDoor */ static qboolean Touch_DoorTrigger (edict_t *self, edict_t *activator) { if (self->owner && self->owner->inuse) { if (G_IsAI(activator)) { /* let the ai interact with the door */ if (self->flags & FL_GROUPSLAVE) self = self->groupMaster; if (AI_CheckUsingDoor(activator, self->owner)) G_ActorUseDoor(activator, self->owner); /* we don't want the client action stuff to be send for ai actors */ return qfalse; } else { /* prepare for client action */ G_ActorSetClientAction(activator, self->owner); return qtrue; } } return qfalse; } /** * @brief Left the door trigger zone - reset the client action * @param self The trigger * @param activator The edict that left the trigger zone */ static void Reset_DoorTrigger (edict_t *self, edict_t *activator) { if (activator->clientAction == self->owner) G_ActorSetClientAction(activator, NULL); } #define REVERSE 0x00000200 /** * @brief func_door (0 .5 .8) ? * "health" if set, door is destroyable * @sa SV_SetModel * @sa LM_AddModel * @sa G_SendEdictsAndBrushModels */ void SP_func_door (edict_t *ent) { edict_t *other; ent->classname = "door"; ent->type = ET_DOOR; if (!ent->noise) ent->noise = "doors/open_close"; /* set an inline model */ gi.SetModel(ent, ent->model); ent->solid = SOLID_BSP; gi.LinkEdict(ent); ent->doorState = STATE_CLOSED; ent->dir = YAW; if (ent->spawnflags & REVERSE) ent->dir |= DOOR_OPEN_REVERSE; if (ent->HP) ent->flags |= FL_DESTROYABLE; ent->flags |= FL_CLIENTACTION; /* spawn the trigger entity */ other = G_TriggerSpawn(ent); other->touch = Touch_DoorTrigger; other->reset = Reset_DoorTrigger; ent->child = other; G_ActorSetTU(ent, TU_DOOR_ACTION); ent->use = Door_Use; /* the door should start opened */ if (ent->spawnflags & FL_TRIGGERED) G_UseEdict(ent, NULL); ent->destroy = Destroy_Breakable; } void SP_func_door_sliding (edict_t *ent) { ent->classname = "doorsliding"; ent->type = ET_DOOR_SLIDING; if (!ent->noise) ent->noise = "doors/slide"; /* set an inline model */ gi.SetModel(ent, ent->model); ent->solid = SOLID_BSP; gi.LinkEdict(ent); if (ent->spawnflags & REVERSE) ent->dir |= DOOR_OPEN_REVERSE; if (ent->HP) ent->flags |= FL_DESTROYABLE; ent->doorState = STATE_CLOSED; ent->speed = 10; ent->use = Door_Use; ent->destroy = Destroy_Breakable; } /** * @brief Spawns a rotating solid inline brush model * @sa SV_SetModel * @sa LM_AddModel */ void SP_func_rotating (edict_t *ent) { ent->classname = "rotating"; ent->type = ET_ROTATING; /* set an inline model */ gi.SetModel(ent, ent->model); ent->solid = SOLID_BSP; gi.LinkEdict(ent); /* the lower, the faster */ if (!ent->speed) ent->speed = 50; if (ent->HP) ent->flags |= FL_DESTROYABLE; ent->destroy = Destroy_Breakable; }
ptitSeb/UFO--AI-OpenPandora
src/game/g_func.c
C
gpl-2.0
11,042
<?php include_once "../libs/myLib.php"; if (!isset($_SESSION['login'])) { session_start(); } $nombre = $_POST['nombre']; $fechaInicio= $_POST['fechaInicio']; $horaInicio = $_POST['horaInicio']; $fechaFin = $_POST['fechaInicio']; $horaFin = $_POST['horaFin']; $precio = $_POST['precio']; $plazas = $_POST['plazas']; $descripcion = $_POST['descripcion']; $requisitos = $_POST['requisitos']; $imagen = "assets/img/evento.png"; $empresa = ""; $usuario = ""; $fechaI = $fechaInicio.' '.$horaInicio; $fechaF = $fechaFin.' '.$horaFin; $todoInicio = date('Y-m-d H:i:s', strtotime($fechaI)); $todoFin = date('Y-m-d H:i:s', strtotime($fechaF)); $salir = false; if ($_POST['empresa'] != "" && $_POST['usuario'] == ""){ $empresa = $_POST['empresa']; $sql = "INSERT INTO evento (nombre,fechaInicio,fechaFin,precio,plazas,descripcion,requisitos,empresa,imagen) VALUES ('$nombre','$todoInicio','$todoFin','$precio','$plazas','$descripcion','$requisitos','$empresa','$imagen')"; } else if ($_POST['empresa'] == "" && $_POST['usuario'] != ""){ $usuario = $_POST['usuario']; $sql = "INSERT INTO evento (nombre,fechaInicio,fechaFin,precio,plazas,descripcion,requisitos,usuario,imagen) VALUES ('$nombre','$todoInicio','$todoFin','$precio','$plazas','$descripcion','$requisitos','$usuario','$imagen')"; } else { $salir = true; } if (!$salir) { $conexion = dbConnect(); $resultado = mysqli_query($conexion, $sql); if ($resultado) { if (isset($_FILES['imagen']) && $_FILES['imagen']['name']) { $subidaCorrecta = false; $sql = "SELECT id FROM evento WHERE id=@@Identity"; $resultado = mysqli_query($conexion, $sql); $row = mysqli_fetch_array($resultado); $id = $row['id']; if ($_FILES['imagen']['error'] > 0) { salir2("Ha ocurrido un error en la carga de la imagen", -1, "gestionarEventos.php"); } else { $extensiones = array("image/jpg", "image/jpeg", "image/png"); $limite = 4096; if (in_array($_FILES['imagen']['type'], $extensiones) && $_FILES['imagen']['size'] < $limite * 1024) { $foldername = "assets/img/eventos"; $foldermkdir = "../" . $foldername; if (!is_dir($foldermkdir)) { mkdir($foldermkdir, 0777, true); } $extension = "." . split("/", $_FILES['imagen']['type'])[1]; $filename = $id . $extension; $ruta = $foldername . "/" . $filename; $rutacrear = $foldermkdir . "/" . $filename; if (!file_exists($rutacrear)) { $subidaCorrecta = @move_uploaded_file($_FILES['imagen']['tmp_name'], $rutacrear); $imagen = $ruta; } } if ($subidaCorrecta) { $sql = "UPDATE evento SET imagen='$imagen' WHERE id=$id"; $resultado = mysqli_query($conexion, $sql); mysqli_close($conexion); if ($resultado) { salir2("Evento añadido correctamente", 0, "gestionarEventos.php"); } else { salir2("Ha ocurrido un error con la imagen", -1, "gestionarEventos.php"); } } else { // No se ha subido la imagen mysqli_close($conexion); salir2("Ha ocurrido un error subiendo la imagen", -1, "gestionarEventos.php"); } } } else { // No hay imagen mysqli_close($conexion); salir2("Evento añadido correctamente", 0, "gestionarEventos.php"); } } else { // Fallo en INSERT mysqli_close($conexion); salir2("Error añadiendo el evento", -1, "gestionarEventos.php"); } } else { salir2("No se ha introducido correctamente el organizador", -1, "gestionarEventos.php"); } ?>
fblupi/grado_informatica-DIU
G-Tech/scripts/crearEvento.php
PHP
gpl-2.0
3,659
/* * This file is part of the OregonCore Project. See AUTHORS file for Copyright information * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see <https://www.gnu.org/licenses/>. */ /* ScriptData SDName: Boss_Moam SD%Complete: 100 SDComment: VERIFY SCRIPT AND SQL SDCategory: Ruins of Ahn'Qiraj EndScriptData */ #include "ScriptMgr.h" #include "ScriptedCreature.h" #define EMOTE_AGGRO -1509000 #define EMOTE_MANA_FULL -1509001 #define SPELL_TRAMPLE 15550 #define SPELL_DRAINMANA 27256 #define SPELL_ARCANEERUPTION 25672 #define SPELL_SUMMONMANA 25681 #define SPELL_GRDRSLEEP 24360 //Greater Dreamless Sleep struct boss_moamAI : public ScriptedAI { boss_moamAI(Creature* c) : ScriptedAI(c) {} Unit* pTarget; uint32 TRAMPLE_Timer; uint32 DRAINMANA_Timer; uint32 SUMMONMANA_Timer; uint32 i; uint32 j; void Reset() { i = 0; j = 0; pTarget = NULL; TRAMPLE_Timer = 30000; DRAINMANA_Timer = 30000; } void EnterCombat(Unit* who) { DoScriptText(EMOTE_AGGRO, me); pTarget = who; } void UpdateAI(const uint32 diff) { if (!UpdateVictim()) return; //If we are 100%MANA cast Arcane Erruption //if (j == 1 && me->GetMana()*100 / me->GetMaxMana() == 100 && !me->IsNonMeleeSpellCast(false)) { DoCastVictim(SPELL_ARCANEERUPTION); DoScriptText(EMOTE_MANA_FULL, me); } //If we are <50%HP cast MANA FIEND (Summon Mana) and Sleep //if (i == 0 && me->GetHealth()*100 / me->GetMaxHealth() <= 50 && !me->IsNonMeleeSpellCast(false)) { i = 1; DoCastVictim(SPELL_SUMMONMANA); DoCastVictim(SPELL_GRDRSLEEP); } //SUMMONMANA_Timer if (i == 1 && SUMMONMANA_Timer <= diff) { DoCastVictim(SPELL_SUMMONMANA); SUMMONMANA_Timer = 90000; } else SUMMONMANA_Timer -= diff; //TRAMPLE_Timer if (TRAMPLE_Timer <= diff) { DoCastVictim(SPELL_TRAMPLE); j = 1; TRAMPLE_Timer = 30000; } else TRAMPLE_Timer -= diff; //DRAINMANA_Timer if (DRAINMANA_Timer <= diff) { DoCastVictim(SPELL_DRAINMANA); DRAINMANA_Timer = 30000; } else DRAINMANA_Timer -= diff; DoMeleeAttackIfReady(); } }; CreatureAI* GetAI_boss_moam(Creature* pCreature) { return new boss_moamAI (pCreature); } void AddSC_boss_moam() { Script* newscript; newscript = new Script; newscript->Name = "boss_moam"; newscript->GetAI = &GetAI_boss_moam; newscript->RegisterSelf(); }
OregonCore/OregonCore
src/scripts/Kalimdor/RuinsOfAhnQiraj/boss_moam.cpp
C++
gpl-2.0
3,347
.block-ebog_banner .content { position: relative; } .block-ebog_banner .bottom-bar { background-clip: padding-box; -webkit-background-clip: padding-box; -moz-background-clip: padding; background-color: #1b75bc; border-radius: 0 0 4px 4px; -moz-border-radius: 0 0 4px 4px; -webkit-border-radius: 0 0 4px 4px; bottom: 0; height: 26px; left: 0; position: absolute; width: 100%; } .block-ebog_banner .bottom-bar a { color: #fff; line-height: 26px; padding: 3px 7px; text-decoration: none; } .block-ebog_banner .bottom-bar a:hover { border-radius: 4px; -webkit-border-radius: 4px; -moz-border-radius: 4px; box-shadow: inset 0 0 3px #000000; -webkit-box-shadow: inset 0 0 3px #000000; -moz-box-shadow: inset 0 0 3px #000000; border: 1px solid #3069b3; padding: 2px 6px; text-decoration: underline; } .block-ebog_banner .ebog-banner-image img { height: auto; width: 100%; }
aakb/netlydbog
sites/all/modules/ebog_banner/css/ebog_banner_style.css
CSS
gpl-2.0
927
<!DOCTYPE html> <html class="no-js" lang="en"> <head> <meta charset="utf-8"> <title>Titanium Rings Forever style guide</title> <meta name="description" content=""> <meta name="generator" content="kss-node"> <meta name="viewport" content="width=device-width"> <link rel="stylesheet" href="kss-assets/kss.css"> <link rel="stylesheet" href="//brick.a.ssl.fastly.net/Lora:400i/Roboto:500,300,700,900"> <link rel="stylesheet" href="../../css/styles.css"> <link rel="stylesheet" href="../../css/styleguide.css"> </head> <body id="kss-node" class="kss-fullscreen-mode"> <div class="kss-sidebar kss-style"> <header class="kss-header"> <h1 class="kss-doc-title">Titanium Rings Forever style guide</h1> </header> <nav class="kss-nav"> <ul class="kss-nav__menu"> <li class="kss-nav__menu-item"> <a class="kss-nav__menu-link" href="./"> <span class="kss-nav__ref">0</span ><span class="kss-nav__name">Overview</span> </a> </li> <li class="kss-nav__menu-item"> <a class="kss-nav__menu-link" href="section-variables.html"> <span class="kss-nav__ref">1</span><span class="kss-nav__name">Variables</span> </a> </li> <li class="kss-nav__menu-item"> <a class="kss-nav__menu-link" href="section-base.html"> <span class="kss-nav__ref">2</span><span class="kss-nav__name">Base defaults</span> </a> </li> <li class="kss-nav__menu-item"> <a class="kss-nav__menu-link" href="section-components.html"> <span class="kss-nav__ref">3</span><span class="kss-nav__name">Components</span> </a> </li> <li class="kss-nav__menu-item"> <a class="kss-nav__menu-link" href="section-modules.html"> <span class="kss-nav__ref">4</span><span class="kss-nav__name">Modules</span> </a> </li> </ul> </nav> </div> <article role="main" class="kss-main"> <div id="kssref-base-type-headers" class="kss-section kss-section--depth-3 is-fullscreen"> <div class="kss-style"> <h3 class="kss-title kss-title--level-3"> <a class="kss-title__permalink" href="#kssref-base-type-headers"> <span class="kss-title__ref"> 2.3.3 <span class="kss-title__permalink-hash"> #base.type.headers </span> </span> Headers </a> </h3> </div> <div class="kss-source kss-style"> Source: <code>base/typography/_headers.scss</code>, line 1 </div> </div> </article> <!-- SCRIPTS --> <script src="kss-assets/kss.js"></script> <script src="kss-assets/scrollspy.js"></script> <script src="kss-assets/prettify.js"></script> <script src="kss-assets/kss-fullscreen.js"></script> <script src="kss-assets/kss-guides.js"></script> <script src="kss-assets/kss-markup.js"></script> <script> prettyPrint(); var spy = new ScrollSpy('#kss-node', { nav: '.kss-nav__menu-child > li > a', className: 'is-in-viewport' }); var kssFullScreen = new KssFullScreen({ idPrefix: 'kss-fullscreen-', bodyClass: 'kss-fullscreen-mode', elementClass: 'is-fullscreen' }); var kssGuides = new KssGuides({ bodyClass: 'kss-guides-mode' }); var kssMarkup = new KssMarkup({ bodyClass: 'kss-markup-mode', detailsClass: 'kss-markup' }); </script> <script src="../../js/fastclick.min.js"></script> <script src="../../js/jquery.tooltipster.min.js"></script> <script src="../../js/trf.js"></script> <script src="../../js/styleguide_slideout.min.js"></script> <script src="../../js/styleguide.js"></script> <!-- Automatically built using <a href="https://github.com/kss-node/kss-node">kss-node</a>. --> </body> </html>
rootwork/ringsforever
themes/trf/documentation/styleguide/item-base-type-headers.html
HTML
gpl-2.0
3,777
/* * Copyright (c) 2006 - 2012 LinogistiX GmbH * * www.linogistix.com * * Project myWMS-LOS */ package de.linogistix.los.reference.customization.common; import javax.ejb.Stateless; import de.linogistix.los.customization.LOSEventConsumerBean; import de.linogistix.los.util.event.LOSEventConsumer; /** * @author krane * */ @Stateless public class Ref_EventConsumerBean extends LOSEventConsumerBean implements LOSEventConsumer { }
Jacksson/mywmsnb
mywms.as/project-ejb/src/java/de/linogistix/los/reference/customization/common/Ref_EventConsumerBean.java
Java
gpl-2.0
446
/* ---------------------------------------------------------------------- LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator https://lammps.sandia.gov/, Sandia National Laboratories Steve Plimpton, [email protected] Copyright (2003) Sandia Corporation. Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation, the U.S. Government retains certain rights in this software. This software is distributed under the GNU General Public License. See the README file in the top-level LAMMPS directory. ------------------------------------------------------------------------- */ #include "fix_nve.h" #include "atom.h" #include "error.h" #include "force.h" #include "respa.h" #include "update.h" using namespace LAMMPS_NS; using namespace FixConst; /* ---------------------------------------------------------------------- */ FixNVE::FixNVE(LAMMPS *lmp, int narg, char **arg) : Fix(lmp, narg, arg) { if (!utils::strmatch(style,"^nve/sphere") && narg < 3) error->all(FLERR,"Illegal fix nve command"); dynamic_group_allow = 1; time_integrate = 1; } /* ---------------------------------------------------------------------- */ int FixNVE::setmask() { int mask = 0; mask |= INITIAL_INTEGRATE; mask |= FINAL_INTEGRATE; mask |= INITIAL_INTEGRATE_RESPA; mask |= FINAL_INTEGRATE_RESPA; return mask; } /* ---------------------------------------------------------------------- */ void FixNVE::init() { dtv = update->dt; dtf = 0.5 * update->dt * force->ftm2v; if (utils::strmatch(update->integrate_style,"^respa")) step_respa = ((Respa *) update->integrate)->step; } /* ---------------------------------------------------------------------- allow for both per-type and per-atom mass ------------------------------------------------------------------------- */ void FixNVE::initial_integrate(int /*vflag*/) { double dtfm; // update v and x of atoms in group double **x = atom->x; double **v = atom->v; double **f = atom->f; double *rmass = atom->rmass; double *mass = atom->mass; int *type = atom->type; int *mask = atom->mask; int nlocal = atom->nlocal; if (igroup == atom->firstgroup) nlocal = atom->nfirst; if (rmass) { for (int i = 0; i < nlocal; i++) if (mask[i] & groupbit) { dtfm = dtf / rmass[i]; v[i][0] += dtfm * f[i][0]; v[i][1] += dtfm * f[i][1]; v[i][2] += dtfm * f[i][2]; x[i][0] += dtv * v[i][0]; x[i][1] += dtv * v[i][1]; x[i][2] += dtv * v[i][2]; } } else { for (int i = 0; i < nlocal; i++) if (mask[i] & groupbit) { dtfm = dtf / mass[type[i]]; v[i][0] += dtfm * f[i][0]; v[i][1] += dtfm * f[i][1]; v[i][2] += dtfm * f[i][2]; x[i][0] += dtv * v[i][0]; x[i][1] += dtv * v[i][1]; x[i][2] += dtv * v[i][2]; } } } /* ---------------------------------------------------------------------- */ void FixNVE::final_integrate() { double dtfm; // update v of atoms in group double **v = atom->v; double **f = atom->f; double *rmass = atom->rmass; double *mass = atom->mass; int *type = atom->type; int *mask = atom->mask; int nlocal = atom->nlocal; if (igroup == atom->firstgroup) nlocal = atom->nfirst; if (rmass) { for (int i = 0; i < nlocal; i++) if (mask[i] & groupbit) { dtfm = dtf / rmass[i]; v[i][0] += dtfm * f[i][0]; v[i][1] += dtfm * f[i][1]; v[i][2] += dtfm * f[i][2]; } } else { for (int i = 0; i < nlocal; i++) if (mask[i] & groupbit) { dtfm = dtf / mass[type[i]]; v[i][0] += dtfm * f[i][0]; v[i][1] += dtfm * f[i][1]; v[i][2] += dtfm * f[i][2]; } } } /* ---------------------------------------------------------------------- */ void FixNVE::initial_integrate_respa(int vflag, int ilevel, int /*iloop*/) { dtv = step_respa[ilevel]; dtf = 0.5 * step_respa[ilevel] * force->ftm2v; // innermost level - NVE update of v and x // all other levels - NVE update of v if (ilevel == 0) initial_integrate(vflag); else final_integrate(); } /* ---------------------------------------------------------------------- */ void FixNVE::final_integrate_respa(int ilevel, int /*iloop*/) { dtf = 0.5 * step_respa[ilevel] * force->ftm2v; final_integrate(); } /* ---------------------------------------------------------------------- */ void FixNVE::reset_dt() { dtv = update->dt; dtf = 0.5 * update->dt * force->ftm2v; }
rbberger/lammps
src/fix_nve.cpp
C++
gpl-2.0
4,538
<?php /** * @file * Zen theme's implementation for comments. * * Available variables: * - $author: Comment author. Can be link or plain text. * - $content: An array of comment items. Use render($content) to print them all, or * print a subset such as render($content['field_example']). Use * hide($content['field_example']) to temporarily suppress the printing of a * given element. * - $created: Formatted date and time for when the comment was created. * Preprocess functions can reformat it by calling format_date() with the * desired parameters on the $comment->created variable. * - $pubdate: Formatted date and time for when the comment was created wrapped * in a HTML5 time element. * - $changed: Formatted date and time for when the comment was last changed. * Preprocess functions can reformat it by calling format_date() with the * desired parameters on the $comment->changed variable. * - $new: New comment marker. * - $permalink: Comment permalink. * - $submitted: Submission information created from $author and $created during * template_preprocess_comment(). * - $picture: Authors picture. * - $signature: Authors signature. * - $status: Comment status. Possible values are: * comment-unpublished, comment-published or comment-preview. * - $title: Linked title. * - $classes: String of classes that can be used to style contextually through * CSS. It can be manipulated through the variable $classes_array from * preprocess functions. The default values can be one or more of the following: * - comment: The current template type, i.e., "theming hook". * - comment-by-anonymous: Comment by an unregistered user. * - comment-by-node-author: Comment by the author of the parent node. * - comment-preview: When previewing a new or edited comment. * - first: The first comment in the list of displayed comments. * - last: The last comment in the list of displayed comments. * - odd: An odd-numbered comment in the list of displayed comments. * - even: An even-numbered comment in the list of displayed comments. * The following applies only to viewers who are registered users: * - comment-unpublished: An unpublished comment visible only to administrators. * - comment-by-viewer: Comment by the user currently viewing the page. * - comment-new: New comment since the last visit. * - $title_prefix (array): An array containing additional output populated by * modules, intended to be displayed in front of the main title tag that * appears in the template. * - $title_suffix (array): An array containing additional output populated by * modules, intended to be displayed after the main title tag that appears in * the template. * * These two variables are provided for context: * - $comment: Full comment object. * - $node: Node object the comments are attached to. * * Other variables: * - $classes_array: Array of html class attribute values. It is flattened * into a string within the variable $classes. * * @see template_preprocess() * @see template_preprocess_comment() * @see zen_preprocess_comment() * @see template_process() * @see theme_comment() */ ?> <article class="<?php print $classes; ?> clearfix"<?php print $attributes; ?>> <header> <p class="submitted"> <?php print 'Dodany przez '.$author.' <i>(dnia: '.format_date($node->created, 'custom', 'd.m.Y').')</i>'; ?> </p> <?php print render($title_prefix); ?> <?php if ($title): ?> <h3<?php print $title_attributes; ?>> <?php print $title; ?> <?php if ($new): ?> <mark class="new"><?php print $new; ?></mark> <?php endif; ?> </h3> <?php elseif ($new): ?> <mark class="new"><?php print $new; ?></mark> <?php endif; ?> <?php print render($title_suffix); ?> <?php if ($status == 'comment-unpublished'): ?> <p class="unpublished"><?php print t('Unpublished'); ?></p> <?php endif; ?> </header> <?php // We hide the comments and links now so that we can render them later. hide($content['links']); print render($content); ?> <?php if ($signature): ?> <footer class="user-signature clearfix"> <?php print $signature; ?> </footer> <?php endif; ?> <?php print render($content['links']) ?> </article><!-- /.comment -->
codialsoftware/hunting-project
themes/zen/zen/templates/comment.tpl.php
PHP
gpl-2.0
4,351
<?php namespace Drupal\commerce_order; use Drupal\commerce_price\Price; /** * Represents an adjustment. */ final class Adjustment { /** * The adjustment type. * * @var string */ protected $type; /** * The adjustment label. * * @var string */ protected $label; /** * The adjustment amount. * * @var \Drupal\commerce_price\Price */ protected $amount; /** * The adjustment percentage. * * @var string */ protected $percentage; /** * The source identifier of the adjustment. * * Points to the source object, if known. For example, a promotion entity for * a discount adjustment. * * @var string */ protected $sourceId; /** * Whether the adjustment is included in the base price. * * @var bool */ protected $included = FALSE; /** * Whether the adjustment is locked. * * @var bool */ protected $locked = FALSE; /** * Constructs a new Adjustment object. * * @param array $definition * The definition. */ public function __construct(array $definition) { foreach (['type', 'label', 'amount'] as $required_property) { if (empty($definition[$required_property])) { throw new \InvalidArgumentException(sprintf('Missing required property %s.', $required_property)); } } if (!$definition['amount'] instanceof Price) { throw new \InvalidArgumentException(sprintf('Property "amount" should be an instance of %s.', Price::class)); } $adjustment_type_manager = \Drupal::service('plugin.manager.commerce_adjustment_type'); $types = $adjustment_type_manager->getDefinitions(); if (empty($types[$definition['type']])) { throw new \InvalidArgumentException(sprintf('%s is an invalid adjustment type.', $definition['type'])); } if (!empty($definition['percentage'])) { if (is_float($definition['percentage'])) { throw new \InvalidArgumentException(sprintf('The provided percentage "%s" must be a string, not a float.', $definition['percentage'])); } if (!is_numeric($definition['percentage'])) { throw new \InvalidArgumentException(sprintf('The provided percentage "%s" is not a numeric value.', $definition['percentage'])); } } // Assume that 'custom' adjustments are always locked, for BC reasons. if ($definition['type'] == 'custom' && !isset($definition['locked'])) { $definition['locked'] = TRUE; } $this->type = $definition['type']; $this->label = (string) $definition['label']; $this->amount = $definition['amount']; $this->percentage = !empty($definition['percentage']) ? $definition['percentage'] : NULL; $this->sourceId = !empty($definition['source_id']) ? $definition['source_id'] : NULL; $this->included = !empty($definition['included']); $this->locked = !empty($definition['locked']); } /** * Gets the adjustment type. * * @return string * The adjustment type. */ public function getType() { return $this->type; } /** * Gets the adjustment label. * * @return string * The adjustment label. */ public function getLabel() { return $this->label; } /** * Gets the adjustment amount. * * @return \Drupal\commerce_price\Price * The adjustment amount. */ public function getAmount() { return $this->amount; } /** * Gets whether the adjustment is positive. * * @return bool * TRUE if the adjustment is positive, FALSE otherwise. */ public function isPositive() { return $this->amount->getNumber() >= 0; } /** * Gets whether the adjustment is negative. * * @return bool * TRUE if the adjustment is negative, FALSE otherwise. */ public function isNegative() { return $this->amount->getNumber() < 0; } /** * Gets the adjustment percentage. * * @return string|null * The percentage as a decimal. For example, "0.2" for a 20% adjustment. * Otherwise NULL, if the adjustment was not calculated from a percentage. */ public function getPercentage() { return $this->percentage; } /** * Get the source identifier. * * @return string * The source identifier. */ public function getSourceId() { return $this->sourceId; } /** * Gets whether the adjustment is included in the base price. * * @return bool * TRUE if the adjustment is included in the base price, FALSE otherwise. */ public function isIncluded() { return $this->included; } /** * Gets whether the adjustment is locked. * * Locked adjustments are not removed during the order refresh process. * * @return bool * TRUE if the adjustment is locked, FALSE otherwise. */ public function isLocked() { return $this->locked; } /** * Gets the array representation of the adjustment. * * @return array * The array representation of the adjustment. */ public function toArray() { return [ 'type' => $this->type, 'label' => $this->label, 'amount' => $this->amount, 'percentage' => $this->percentage, 'source_id' => $this->sourceId, 'included' => $this->included, 'locked' => $this->locked, ]; } /** * Adds the given adjustment to the current adjustment. * * @param \Drupal\commerce_order\Adjustment $adjustment * The adjustment. * * @return static * The resulting adjustment. */ public function add(Adjustment $adjustment) { $this->assertSameType($adjustment); $this->assertSameSourceId($adjustment); $definition = [ 'amount' => $this->amount->add($adjustment->getAmount()), ] + $this->toArray(); return new static($definition); } /** * Subtracts the given adjustment from the current adjustment. * * @param \Drupal\commerce_order\Adjustment $adjustment * The adjustment. * * @return static * The resulting adjustment. */ public function subtract(Adjustment $adjustment) { $this->assertSameType($adjustment); $this->assertSameSourceId($adjustment); $definition = [ 'amount' => $this->amount->subtract($adjustment->getAmount()), ] + $this->toArray(); return new static($definition); } /** * Multiplies the adjustment amount by the given number. * * @param string $number * The number. * * @return static * The resulting adjustment. */ public function multiply($number) { $definition = [ 'amount' => $this->amount->multiply($number), ] + $this->toArray(); return new static($definition); } /** * Divides the adjustment amount by the given number. * * @param string $number * The number. * * @return static * The resulting adjustment. */ public function divide($number) { $definition = [ 'amount' => $this->amount->divide($number), ] + $this->toArray(); return new static($definition); } /** * Asserts that the given adjustment's type matches the current one. * * @param \Drupal\commerce_order\Adjustment $adjustment * The adjustment to compare. * * @throws \InvalidArgumentException * Thrown when the adjustment type does not match the current one. */ protected function assertSameType(Adjustment $adjustment) { if ($this->type != $adjustment->getType()) { throw new \InvalidArgumentException(sprintf('Adjustment type "%s" does not match "%s".', $adjustment->getType(), $this->type)); } } /** * Asserts that the given adjustment's source ID matches the current one. * * @param \Drupal\commerce_order\Adjustment $adjustment * The adjustment to compare. * * @throws \InvalidArgumentException * Thrown when the adjustment source ID does not match the current one. */ protected function assertSameSourceId(Adjustment $adjustment) { if ($this->sourceId != $adjustment->getSourceId()) { throw new \InvalidArgumentException(sprintf('Adjustment source ID "%s" does not match "%s".', $adjustment->getSourceId(), $this->sourceId)); } } }
nmacd85/drupal-nicoledawn
modules/contrib/commerce/modules/order/src/Adjustment.php
PHP
gpl-2.0
8,130
package xyz.zyzhu.model; import org.junit.*; import org.junit.Assert.*; public class TestHelloWorld { @Test public void tesySayHello() { Assert.assertEquals("hello world",new HelloWorld().sayHello()); } }
zyz963272311/testGitHub
testMaven/src/test/java/xyz/zyzhu/model/TestHelloWorld.java
Java
gpl-2.0
212
/* * blockio.cc * * */ #define _LARGEFILE_SOURCE #define _FILE_OFFSET_BITS 64 #include "version.h" #include "blockio.h" #include "osutils.h" #include <stdio.h> #include <string.h> #include <sys/types.h> #include <sys/stat.h> #include <fcntl.h> #include <unistd.h> #include <stdint.h> __ID("@(#) $Id: blockio.cc 2069 2009-02-12 22:53:09Z lyonel $"); ssize_t readlogicalblocks(source & s, void * buffer, long long pos, long long count) { long long result = 0; memset(buffer, 0, count*s.blocksize); /* attempt to read past the end of the section */ if((s.size>0) && ((pos+count)*s.blocksize>s.size)) return 0; result = lseek(s.fd, s.offset + pos*s.blocksize, SEEK_SET); if(result == -1) return 0; result = read(s.fd, buffer, count*s.blocksize); if(result!=count*s.blocksize) return 0; else return count; }
kaseya/lshw
src/core/blockio.cc
C++
gpl-2.0
891
/* * Copyright (C) 2003 Robert Kooima * * NEVERBALL is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, * or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. */ #include <math.h> #include "vec3.h" #include "common.h" #include "solid_vary.h" #include "solid_sim.h" #include "solid_all.h" #include "solid_cmd.h" #define LARGE 1.0e+5f #define SMALL 1.0e-3f /*---------------------------------------------------------------------------*/ /* Solves (p + v * t) . (p + v * t) == r * r for smallest t. */ /* * Given vectors A = P, B = V * t, C = A + B, |C| = r, solve for * smallest t. * * Some useful dot product properties: * * 1) A . A = |A| * |A| * 2) A . (B + C) = A . B + A . C * 3) (r * A) . B = r * (A . B) * * Deriving a quadratic equation: * * C . C = r * r (1) * (A + B) . (A + B) = r * r * A . (A + B) + B . (A + B) = r * r (2) * A . A + A . B + B . A + B . B = r * r (2) * A . A + 2 * (A . B) + B . B = r * r * P . P + 2 * (P . V * t) + (V * t . V * t) = r * r * P . P + 2 * (P . V) * t + (V . V) * t * t = r * r (3) * (V . V) * t * t + 2 * (P . V) * t + P . P - r * r = 0 * * This equation is solved using the quadratic formula. */ static float v_sol(const float p[3], const float v[3], float r) { float a = v_dot(v, v); float b = v_dot(v, p) * 2.0f; float c = v_dot(p, p) - r * r; float d = b * b - 4.0f * a * c; /* HACK: This seems to cause failures to detect low-velocity collision Yet, the potential division by zero below seems fine. if (fabsf(a) < SMALL) return LARGE; */ if (d < 0.0f) return LARGE; else if (d > 0.0f) { float t0 = 0.5f * (-b - fsqrtf(d)) / a; float t1 = 0.5f * (-b + fsqrtf(d)) / a; float t = (t0 < t1) ? t0 : t1; return (t < 0.0f) ? LARGE : t; } else return -b * 0.5f / a; } /*---------------------------------------------------------------------------*/ /* * Compute the earliest time and position of the intersection of a * sphere and a vertex. * * The sphere has radius R and moves along vector V from point P. The * vertex moves along vector W from point Q in a coordinate system * based at O. */ static float v_vert(float Q[3], const float o[3], const float q[3], const float w[3], const float p[3], const float v[3], float r) { float O[3], P[3], V[3]; float t = LARGE; v_add(O, o, q); v_sub(P, p, O); v_sub(V, v, w); if (v_dot(P, V) < 0.0f) { t = v_sol(P, V, r); if (t < LARGE) v_mad(Q, O, w, t); } return t; } /* * Compute the earliest time and position of the intersection of a * sphere and an edge. * * The sphere has radius R and moves along vector V from point P. The * edge moves along vector W from point Q in a coordinate system based * at O. The edge extends along the length of vector U. */ static float v_edge(float Q[3], const float o[3], const float q[3], const float u[3], const float w[3], const float p[3], const float v[3], float r) { float d[3], e[3]; float P[3], V[3]; float du, eu, uu, s, t; v_sub(d, p, o); v_sub(d, d, q); v_sub(e, v, w); /* * Think projections. Vectors D, extending from the edge vertex Q * to the sphere, and E, the relative velocity of sphere wrt the * edge, are made orthogonal to the edge vector U. Division of * the dot products is required to obtain the true projection * ratios since U does not have unit length. */ du = v_dot(d, u); eu = v_dot(e, u); uu = v_dot(u, u); v_mad(P, d, u, -du / uu); /* First, test for intersection. */ if (v_dot(P, P) < r * r) { /* The sphere already intersects the line of the edge. */ if (du < 0 || du > uu) { /* * The sphere is behind the endpoints of the edge, and * can't hit the edge without hitting the vertices first. */ return LARGE; } /* The sphere already intersects the edge. */ if (v_dot(P, e) >= 0) { /* Moving apart. */ return LARGE; } v_nrm(P, P); v_mad(Q, p, P, -r); return 0; } v_mad(V, e, u, -eu / uu); t = v_sol(P, V, r); s = (du + eu * t) / uu; /* Projection of D + E * t on U. */ if (0.0f <= t && t < LARGE && 0.0f < s && s < 1.0f) { v_mad(d, o, w, t); v_mad(e, q, u, s); v_add(Q, e, d); } else t = LARGE; return t; } /* * Compute the earliest time and position of the intersection of a * sphere and a plane. * * The sphere has radius R and moves along vector V from point P. The * plane moves along vector W. The plane has normal N and is * positioned at distance D from the origin O along that normal. */ static float v_side(float Q[3], const float o[3], const float w[3], const float n[3], float d, const float p[3], const float v[3], float r) { float vn = v_dot(v, n); float wn = v_dot(w, n); float t = LARGE; if (vn - wn <= 0.0f) { float on = v_dot(o, n); float pn = v_dot(p, n); float u = (r + d + on - pn) / (vn - wn); float a = ( d + on - pn) / (vn - wn); if (0.0f <= u) { t = u; v_mad(Q, p, v, +t); v_mad(Q, Q, n, -r); } else if (0.0f <= a) { t = 0; v_mad(Q, p, v, +t); v_mad(Q, Q, n, -r); } } return t; } /*---------------------------------------------------------------------------*/ /* * Compute the new linear and angular velocities of a bouncing ball. * Q gives the position of the point of impact and W gives the * velocity of the object being impacted. */ static float sol_bounce(struct v_ball *up, const float q[3], const float w[3], float dt) { float n[3], r[3], d[3], vn, wn; float *p = up->p; float *v = up->v; /* Find the normal of the impact. */ v_sub(r, p, q); v_sub(d, v, w); v_nrm(n, r); /* Find the new angular velocity. */ v_crs(up->w, d, r); v_scl(up->w, up->w, -1.0f / (up->r * up->r)); /* Find the new linear velocity. */ vn = v_dot(v, n); wn = v_dot(w, n); v_mad(v, v, n, 1.7 * (wn - vn)); v_mad(p, q, n, up->r); /* Return the "energy" of the impact, to determine the sound amplitude. */ return fabsf(v_dot(n, d)); } /*---------------------------------------------------------------------------*/ static float sol_test_vert(float dt, float T[3], const struct v_ball *up, const struct b_vert *vp, const float o[3], const float w[3]) { return v_vert(T, o, vp->p, w, up->p, up->v, up->r); } static float sol_test_edge(float dt, float T[3], const struct v_ball *up, const struct s_base *base, const struct b_edge *ep, const float o[3], const float w[3]) { float q[3]; float u[3]; v_cpy(q, base->vv[ep->vi].p); v_sub(u, base->vv[ep->vj].p, base->vv[ep->vi].p); return v_edge(T, o, q, u, w, up->p, up->v, up->r); } static float sol_test_side(float dt, float T[3], const struct v_ball *up, const struct s_base *base, const struct b_lump *lp, const struct b_side *sp, const float o[3], const float w[3]) { float t = v_side(T, o, w, sp->n, sp->d, up->p, up->v, up->r); int i; if (t < dt) for (i = 0; i < lp->sc; i++) { const struct b_side *sq = base->sv + base->iv[lp->s0 + i]; if (sp != sq && v_dot(T, sq->n) - v_dot(o, sq->n) - v_dot(w, sq->n) * t > sq->d) return LARGE; } return t; } /*---------------------------------------------------------------------------*/ static int sol_test_fore(float dt, const struct v_ball *up, const struct b_side *sp, const float o[3], const float w[3]) { float q[3], d; /* If the ball is not behind the plane, the test passes. */ v_sub(q, up->p, o); d = sp->d; if (v_dot(q, sp->n) - d + up->r >= 0) return 1; /* If it's not behind the plane after DT seconds, the test passes. */ v_mad(q, q, up->v, dt); d += v_dot(w, sp->n) * dt; if (v_dot(q, sp->n) - d + up->r >= 0) return 1; /* Else, test fails. */ return 0; } static int sol_test_back(float dt, const struct v_ball *up, const struct b_side *sp, const float o[3], const float w[3]) { float q[3], d; /* If the ball is not in front of the plane, the test passes. */ v_sub(q, up->p, o); d = sp->d; if (v_dot(q, sp->n) - d - up->r <= 0) return 1; /* If it's not in front of the plane after DT seconds, the test passes. */ v_mad(q, q, up->v, dt); d += v_dot(w, sp->n) * dt; if (v_dot(q, sp->n) - d - up->r <= 0) return 1; /* Else, test fails. */ return 0; } /*---------------------------------------------------------------------------*/ static float sol_test_lump(float dt, float T[3], const struct v_ball *up, const struct s_base *base, const struct b_lump *lp, const float o[3], const float w[3]) { float U[3] = { 0.0f, 0.0f, 0.0f }; float u, t = dt; int i; /* Short circuit a non-solid lump. */ if (lp->fl & L_DETAIL) return t; /* Test all verts */ if (up->r > 0.0f) for (i = 0; i < lp->vc; i++) { const struct b_vert *vp = base->vv + base->iv[lp->v0 + i]; if ((u = sol_test_vert(t, U, up, vp, o, w)) < t) { v_cpy(T, U); t = u; } } /* Test all edges */ if (up->r > 0.0f) for (i = 0; i < lp->ec; i++) { const struct b_edge *ep = base->ev + base->iv[lp->e0 + i]; if ((u = sol_test_edge(t, U, up, base, ep, o, w)) < t) { v_cpy(T, U); t = u; } } /* Test all sides */ for (i = 0; i < lp->sc; i++) { const struct b_side *sp = base->sv + base->iv[lp->s0 + i]; if ((u = sol_test_side(t, U, up, base, lp, sp, o, w)) < t) { v_cpy(T, U); t = u; } } return t; } static float sol_test_node(float dt, float T[3], const struct v_ball *up, const struct s_base *base, const struct b_node *np, const float o[3], const float w[3]) { float U[3], u, t = dt; int i; /* Test all lumps */ for (i = 0; i < np->lc; i++) { const struct b_lump *lp = base->lv + np->l0 + i; if ((u = sol_test_lump(t, U, up, base, lp, o, w)) < t) { v_cpy(T, U); t = u; } } /* Test in front of this node */ if (np->ni >= 0 && sol_test_fore(t, up, base->sv + np->si, o, w)) { const struct b_node *nq = base->nv + np->ni; if ((u = sol_test_node(t, U, up, base, nq, o, w)) < t) { v_cpy(T, U); t = u; } } /* Test behind this node */ if (np->nj >= 0 && sol_test_back(t, up, base->sv + np->si, o, w)) { const struct b_node *nq = base->nv + np->nj; if ((u = sol_test_node(t, U, up, base, nq, o, w)) < t) { v_cpy(T, U); t = u; } } return t; } static float sol_test_body(float dt, float T[3], float V[3], const struct v_ball *up, const struct s_vary *vary, const struct v_body *bp) { float U[3], O[3], E[4], W[3], u; const struct b_node *np = vary->base->nv + bp->base->ni; sol_body_p(O, vary, bp, 0.0f); sol_body_v(W, vary, bp, dt); sol_body_e(E, vary, bp, 0.0f); /* * For rotating bodies, rather than rotate every normal and vertex * of the body, we temporarily pretend the ball is rotating and * moving about a static body. */ /* * Linear velocity of a point rotating about the origin: * v = w x p */ if (E[0] != 1.0f || sol_body_w(vary, bp)) { /* The body has a non-identity orientation or it is rotating. */ struct v_ball ball; float e[4], p0[3], p1[3]; const float z[3] = { 0 }; /* First, calculate position at start and end of time interval. */ v_sub(p0, up->p, O); v_cpy(p1, p0); q_conj(e, E); q_rot(p0, e, p0); v_mad(p1, p1, up->v, dt); v_mad(p1, p1, W, -dt); sol_body_e(e, vary, bp, dt); q_conj(e, e); q_rot(p1, e, p1); /* Set up ball struct with values relative to body. */ ball = *up; v_cpy(ball.p, p0); /* Calculate velocity from start/end positions and time. */ v_sub(ball.v, p1, p0); v_scl(ball.v, ball.v, 1.0f / dt); if ((u = sol_test_node(dt, U, &ball, vary->base, np, z, z)) < dt) { /* Compute the final orientation. */ sol_body_e(e, vary, bp, u); /* Return world space coordinates. */ q_rot(T, e, U); v_add(T, O, T); /* Move forward. */ v_mad(T, T, W, u); /* Express "non-ball" velocity. */ q_rot(V, e, ball.v); v_sub(V, up->v, V); dt = u; } } else { if ((u = sol_test_node(dt, U, up, vary->base, np, O, W)) < dt) { v_cpy(T, U); v_cpy(V, W); dt = u; } } return dt; } static float sol_test_file(float dt, float T[3], float V[3], const struct v_ball *up, const struct s_vary *vary) { float U[3], W[3], u, t = dt; int i; for (i = 0; i < vary->bc; i++) { const struct v_body *bp = vary->bv + i; if ((u = sol_test_body(t, U, W, up, vary, bp)) < t) { v_cpy(T, U); v_cpy(V, W); t = u; } } return t; } /*---------------------------------------------------------------------------*/ /* * Track simulation steps in integer milliseconds. */ static float ms_accum; static void ms_init(void) { ms_accum = 0.0f; } static int ms_step(float dt) { int ms = 0; ms_accum += dt; while (ms_accum >= 0.001f) { ms_accum -= 0.001f; ms += 1; } return ms; } static int ms_peek(float dt) { int ms = 0; float at; at = ms_accum + dt; while (at >= 0.001f) { at -= 0.001f; ms += 1; } return ms; } /*---------------------------------------------------------------------------*/ /* * Step the physics forward DT seconds under the influence of gravity * vector G. If the ball gets pinched between two moving solids, this * loop might not terminate. It is better to do something physically * impossible than to lock up the game. So, if we make more than C * iterations, punt it. */ float sol_step(struct s_vary *vary, const float *g, float dt, int ui, int *m) { float P[3], V[3], v[3], r[3], a[3], d, e, nt, b = 0.0f, tt = dt; int c; union cmd cmd; if (ui < vary->uc) { struct v_ball *up = vary->uv + ui; /* If the ball is in contact with a surface, apply friction. */ v_cpy(a, up->v); v_cpy(v, up->v); v_cpy(up->v, g); if (m && sol_test_file(tt, P, V, up, vary) < 0.0005f) { v_cpy(up->v, v); v_sub(r, P, up->p); if ((d = v_dot(r, g) / (v_len(r) * v_len(g))) > 0.999f) { if ((e = (v_len(up->v) - dt)) > 0.0f) { /* Scale the linear velocity. */ v_nrm(up->v, up->v); v_scl(up->v, up->v, e); /* Scale the angular velocity. */ v_sub(v, V, up->v); v_crs(up->w, v, r); v_scl(up->w, up->w, -1.0f / (up->r * up->r)); } else { /* Friction has brought the ball to a stop. */ up->v[0] = 0.0f; up->v[1] = 0.0f; up->v[2] = 0.0f; (*m)++; } } else v_mad(up->v, v, g, tt); } else v_mad(up->v, v, g, tt); /* Test for collision. */ for (c = 16; c > 0 && tt > 0; c--) { float st; int mi, ms; /* HACK: avoid stepping across path changes. */ st = tt; for (mi = 0; mi < vary->mc; mi++) { struct v_move *mp = vary->mv + mi; struct v_path *pp = vary->pv + mp->pi; if (!pp->f) continue; if (mp->tm + ms_peek(st) > pp->base->tm) st = MS_TO_TIME(pp->base->tm - mp->tm); } /* Miss collisions if we reach the iteration limit. */ if (c > 1) nt = sol_test_file(st, P, V, up, vary); else nt = tt; cmd.type = CMD_STEP_SIMULATION; cmd.stepsim.dt = nt; sol_cmd_enq(&cmd); ms = ms_step(nt); sol_move_step(vary, nt, ms); sol_swch_step(vary, nt, ms); sol_ball_step(vary, nt); if (nt < st) if (b < (d = sol_bounce(up, P, V, nt))) b = d; tt -= nt; } v_sub(a, up->v, a); sol_pendulum(up, a, g, dt); } return b; } /*---------------------------------------------------------------------------*/ void sol_init_sim(struct s_vary *vary) { ms_init(); } void sol_quit_sim(void) { return; } /*---------------------------------------------------------------------------*/
drodin/neverball-old
share/solid_sim_sol.c
C
gpl-2.0
19,801
/* * PS3 Media Server, for streaming any medias to your PS3. * Copyright (C) 2012 Ph.Waeber * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; version 2 * of the License only. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ package net.pms.medialibrary.commons.dataobjects; import net.pms.medialibrary.commons.enumarations.ThumbnailPrioType; public class DOThumbnailPriority { private long id; private ThumbnailPrioType thumbnailPriorityType; private String picturePath; private int seekPosition; private int priorityIndex; public DOThumbnailPriority(){ this(-1, ThumbnailPrioType.THUMBNAIL, "", 0); } public DOThumbnailPriority(long id, ThumbnailPrioType thumbnailPriorityType, String picturePath, int priorityIndex){ this(id, thumbnailPriorityType, -1, picturePath, priorityIndex); } public DOThumbnailPriority(long id, ThumbnailPrioType thumbnailPriorityType, int seekPosition, int priorityIndex){ this(id, thumbnailPriorityType, seekPosition, "", priorityIndex); } public DOThumbnailPriority(long id, ThumbnailPrioType thumbnailPriorityType, int seekPosition, String picturePath, int priorityIndex){ setId(id); setThumbnailPriorityType(thumbnailPriorityType); setSeekPosition(seekPosition); setPicturePath(picturePath); setPriorityIndex(priorityIndex); } public void setThumbnailPriorityType(ThumbnailPrioType thumbnailPriorityType) { this.thumbnailPriorityType = thumbnailPriorityType; } public ThumbnailPrioType getThumbnailPriorityType() { return thumbnailPriorityType; } public void setPicturePath(String picturePath) { this.picturePath = picturePath; } public String getPicturePath() { return picturePath; } public void setSeekPosition(int seekPosition) { this.seekPosition = seekPosition; } public int getSeekPosition() { return seekPosition; } public void setPriorityIndex(int priorityIndex) { this.priorityIndex = priorityIndex; } public int getPriorityIndex() { return priorityIndex; } public void setId(long id) { this.id = id; } public long getId() { return id; } @Override public boolean equals(Object obj){ if(!(obj instanceof DOThumbnailPriority)){ return false; } DOThumbnailPriority compObj = (DOThumbnailPriority) obj; if(getId() == compObj.getId() && getThumbnailPriorityType() == compObj.getThumbnailPriorityType() && getPicturePath().equals(compObj.getPicturePath()) && getSeekPosition() == compObj.getSeekPosition() && getPriorityIndex() == compObj.getPriorityIndex()){ return true; } return false; } @Override public int hashCode(){ int hashCode = 24 + String.valueOf(getId()).hashCode(); hashCode *= 24 + getPicturePath().hashCode(); hashCode *= 24 + getSeekPosition(); hashCode *= 24 + getPriorityIndex(); return hashCode; } @Override public DOThumbnailPriority clone(){ return new DOThumbnailPriority(getId(), getThumbnailPriorityType(), getSeekPosition(), getPicturePath(), getPriorityIndex()); } @Override public String toString(){ return String.format("id=%s, prioIndex=%s, type=%s, seekPos=%s, picPath=%s", getId(), getPriorityIndex(), getThumbnailPriorityType(), getSeekPosition(), getPicturePath()); } }
taconaut/pms-mlx
core/src/main/java/net/pms/medialibrary/commons/dataobjects/DOThumbnailPriority.java
Java
gpl-2.0
3,813
/* * This file is part of ePipe * Copyright (C) 2019, Logical Clocks AB. All rights reserved * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifndef TBLSTAILER_H #define TBLSTAILER_H #include "TableTailer.h" #include "tables/hive/TBLSTable.h" #include "tables/hive/SDSTable.h" #include "tables/hive/TABCOLSTATSTable.h" #include "tables/hive/TABLEPARAMSTable.h" class TBLSTailer : public TableTailer<TBLSRow> { public: TBLSTailer(Ndb *ndb, const int poll_maxTimeToWait, const Barrier barrier) : TableTailer(ndb, new TBLSTable(), poll_maxTimeToWait, barrier) {} virtual ~TBLSTailer() {} private: SDSTable mSDSTable; TABLEPARAMSTable mTABLEPARAMSTable; TABCOLSTATSTable mTABCOLSTATSTable; virtual void handleEvent(NdbDictionary::Event::TableEvent eventType, TBLSRow pre, TBLSRow row) { LOG_INFO("Delete TBLS event received. Primary Key value: " << pre.mTBLID); mTABLEPARAMSTable.remove(mNdbConnection, pre.mTBLID); mTABCOLSTATSTable.remove(mNdbConnection, pre.mTBLID); mSDSTable.remove(mNdbConnection, pre.mSDID); } }; #endif /* TBLSTAILER_H */
hopshadoop/ePipe
include/hive/TBLSTailer.h
C
gpl-2.0
1,763
#!/bin/sh # Copyright (C) 1999-2005 ImageMagick Studio LLC # # This program is covered by multiple licenses, which are described in # LICENSE. You should have received a copy of LICENSE with this # package; otherwise see http://www.imagemagick.org/script/license.php. . ${srcdir}/tests/common.shi ${RUNENV} ${MEMCHECK} ./rwfile ${SRCDIR}/input_truecolor16.dpx PPM
atmark-techno/atmark-dist
user/imagemagick/tests/rwfile_PPM_truecolor16.sh
Shell
gpl-2.0
365
package cmd import ( "github.com/spf13/cobra" ) // rotateCmd represents the shuffletips command var rotateCmd = &cobra.Command{ Use: "rotate", Short: "Rotates children of internal nodes", Long: `Rotates children of internal nodes by different means. Either randomly with "rand" subcommand, either sorting by number of tips with "sort" subcommand. It does not change the topology, but just the order of neighbors of all node and thus the newick representation. ------C ------A x |z x |z A---------*ROOT => B---------*ROOT |t |t ------B ------C Example of usage: gotree rotate rand -i t.nw gotree rotate sort -i t.nw `, } func init() { RootCmd.AddCommand(rotateCmd) rotateCmd.PersistentFlags().StringVarP(&intreefile, "input", "i", "stdin", "Input tree") rotateCmd.PersistentFlags().StringVarP(&outtreefile, "output", "o", "stdout", "Rotated tree output file") }
fredericlemoine/gotree
cmd/rotate.go
GO
gpl-2.0
1,028
/* * Copyright 2015 AASHTO/ITE/NEMA. * American Association of State Highway and Transportation Officials, * Institute of Transportation Engineers and * National Electrical Manufacturers Association. * * This file is part of the Advanced Transportation Controller (ATC) * Application Programming Interface Validation Suite (APIVS). * * The APIVS is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 2 of the License, or * (at your option) any later version. * * The APIVS is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with the APIVS. If not, see <http://www.gnu.org/licenses/>. */ /***************************************************************************** * \file emfio_setupCommands.h * * (c) Copyright 2010 ITE * All rights reserved. Copying or other reproduction of this program * except for archival purposes is prohibited without the prior written * consent of ITE. * * \brief This file declares the functions that setup and teardown the command structures. * * \date 12/22/2010 * * \author Steve Kapp * * \version 1.0 *****************************************************************************/ #ifndef emfio_setupCommands_h #define emfio_setupCommands_h //============================================================================= /** * Includes */ #include <stdint.h> // STD IEEE Type Definitions - int16_t, uint8_t, etc. //============================================================================= /** * External Global Routines */ extern int16_t emfio_setupCommands(); extern int16_t emfio_teardownCommands(); extern int16_t emfio_setupResponses(); extern int16_t emfio_teardownResponses(); extern uint32_t emfio_getNextLoadCounter(); extern uint32_t emfio_getNextReceiveCounter(); #endif
dcrawford1/APIVS
include/emfio_setupCommands.h
C
gpl-2.0
2,147
<div class="header"><h1 class="slidetitle">Make the most of the web</h1></div> <div class="main"> <div class="text"> <div> <p>Ubuntu MATE includes Firefox, the web browser used by millions of people around the world. And web applications you use frequently (like Facebook or Gmail, for example) can be pinned to your desktop for faster access, just like apps on your computer.</p> </div> <div class="featured"> <h2 class="subtitle">Included software</h2> <ul> <li> <img class="icon" src="icons/firefox.png" /> <p class="caption">Firefox web browser</p> </li> <li> <img class="icon" src="icons/thunderbird.png" /> <p class="caption">Thunderbird Mail </p> </li> </ul> <h2 class="subtitle">Supported software</h2> <ul> <li> <img class="icon" src="icons/chromium.png" /> <p class="caption">Chromium</p> </li> </ul> </div> </div> <img class="screenshot" src="screenshots/06_browse.jpg" /> </div>
mohegan/ubiquity-slideshow-ubuntu
slideshows/ubuntu-mate/slides/06_browse.html
HTML
gpl-2.0
910
<?php include_once('sites/all/themes/artonair/custom_functions/custom_variable.php'); /* mp3 folder path */ ?> <?php include_once('sites/all/themes/artonair/custom_functions/default_image.php'); /* function for displaying default images */ ?> <?php $listen_url = "/drupal/play/" . $node->nid . "/" . $node->path; ?> <?php global $base_url; $vgvr = views_get_view_result('archive_popular', 'default'); $node_status = ""; foreach($vgvr as $vresult) { if($vresult->nid == $node->nid) $node_status = "Popular!"; } ?> <div class="<?php print $node->type; ?>-body bodyview <?php foreach($node->taxonomy as $term) { $your_vocabulary_id = 108; if ($term->vid == $your_vocabulary_id) { print $term->name; } } ?>"> <div class="content-section"> <div class="left-column" id="header-info"> <div class="header"> <div class="info"> <?php // if($node->field_series[0]['view']) { ?> <!-- <h6 class="type"> <span><?php// print l("Radio Show", "radio"); ?></span>ABC</h6> <h6 class="dates"><?php //print $node->field_series[0]['view']; ?></h6>--> <?php // } ?> <?php // if($node->type == "series") { ?> <!-- <span><?php // print l("Radio Series", "radio/series"); ?></span><?php $view = views_get_view('series_contents'); $args = array($node->nid); $view->set_display('default', $args); // like 'block_1' $view->render(); ?> <div class="episode-count"><?php // print sizeof($view->result);?> Episodes</div> <?php // } ?> --> <?php // if($node->type == "news") { ?> <!-- <span><?php // print l("Radio", "radio"); ?></span>Featured Shows This Week --> <?php // } ?> <?php if($node->type == "blog") { ?> <h6 class="type"><span><?php print l("News", "news"); ?></span></h6> <h6 class="dates"> <?php foreach($node->taxonomy as $term) { $your_vocabulary_id = 108; if ($term->vid == $your_vocabulary_id) { print $term->name; } } ?></h6> <?php } ?> <?php if($node->type == "host") { ?> <span><?php print l("People", "radio/hosts"); ?></span><?php $view = views_get_view('series_contents'); $args = array($node->nid); $view->set_display('default', $args); // like 'block_1' $view->render(); ?> <div class="episode-count"><?php print sizeof($view->result);?> Programs</div> <?php } ?> </h6><!-- /.type --> <?php if($node->type != "news") { ?> <div class="title"> <h1><?php print $node->title; ?></h1> </div><!-- /.title --> <?php } ?> <?php if($node->field_host[0]['view']) { ?> <h6 class="hosts"> Hosted by <?php $hostno = 0; foreach ($node->field_host as $one_host) { ?> <?php if($hostno > 0) print "<span class='comma'>,</a>"; ?> <span class="host"><?php print $one_host['view']; ?></span> <?php $hostno++; } ?> </h6> <?php } ?> <?php if(!empty($node->field_host_type[0]['view'])) { ?> <h6 class="host-types"> <?php $hosttypesno = 0; foreach ($node->field_host_type as $one_host_type) { ?> <?php if($hosttypesno > 0) print "<span class='comma'>,</a>"; ?> <span class="host-type"><?php print $one_host_type['view']; ?></span> <?php $hosttypesno++; } ?> </h6> <?php } ?> </div> <!-- /.info --> </div><!-- /.header --> </div> <!-- left-column --> <?php if($node->type != "news") { ?> <?php if($node->field_image[0]['view']) { ?> <div class="right-column"> <div class="header-image"> <div class="image"><?php print $node->field_image[0]['view']; ?> </div> <div class="image-description"><?php print $node->field_image[0]['data']['description']; ?> </div> </div><!-- /.header-image --> </div><!-- /.right-column --> <div class="left-column" id="node-content"> <?php } else { ?> <div class="single-column" id="node-content"> <?php } ?> <?php } ?> <!--<div class="left-column" id="node-content">--> <?php if ($node->taxonomy[13701]) { ?> <?php if($node->field_media_embed[0]['view']) { ?> <div class="video"><?php print $node->field_media_embed[0]['view']; ?></div> <?php } ?> <?php } ?> <?php if($node->type == "series") { ?> <?php print views_embed_view('also_in_this_series', 'series_listen', $node->nid); ?> <!-- <div class="plus-button"><?php // print $_COOKIE["air-playlist"]; ?></div>--> <?php } ?> <?php if($node->type != "news") { ?> <div class="share listen"> <?php if($node->field_audio_path[0]['safe']) { ?> <div class="play"> <div class="listen-button"> <a href="<?php print $listen_url; ?>" onclick="popUpAIR(this.href,'fixed', 440, 570); return false;" target="artonair_music_popup"><img src="<?php print $base_url; ?>/sites/all/themes/artonair/images/triangle-white.png"></a> </div> <div class="listen-text"><a href="<?php print $listen_url; ?>" onclick="popUpAIR(this.href,'fixed', 440, 570); return false;" target="artonair_music_popup">Listen</a> </div> <!-- /.listen-button --> </div><!-- /.listen --> <div class="plus-button"><?php print $_COOKIE["air-playlist"]; ?></div> <?php } ?> <div class="social"> <div class="addthis_toolbox addthis_default_style facebook"><a class="addthis_button_facebook_like" fb:like:layout="button_count"></a></div> <script type="text/javascript" src="//s7.addthis.com/js/300/addthis_widget.js#pubid=xa-520a6a3258c56e49"></script> <div class="twitter"> <a href="https://twitter.com/share" class="twitter-share-button" data-via="clocktower_nyc">Tweet</a> <script>!function(d,s,id){var js,fjs=d.getElementsByTagName(s)[0],p=/^http:/.test(d.location)?'http':'https';if(!d.getElementById(id)){js=d.createElement(s);js.id=id;js.src=p+'://platform.twitter.com/widgets.js';fjs.parentNode.insertBefore(js,fjs);}}(document, 'script', 'twitter-wjs');</script> </div><!-- /.twitter --> </div> <!-- /.social --> </div><!-- /.share .listen --> <div class="content"> <?php print $node->content['body']['#value']; ?> <?php if($node->field_long_description[0]['view']) { ?> <?php print $node->field_long_description[0]['view']; ?> <?php } ?> <div class="content-foot"> <?php if($node->field_support[0]['view']) { ?> <em><?php print $node->field_support[0]['view']; ?></em> <?php } ?> <?php if($node->type == "blog") { ?> <h6 class="dates">Posted <?php print format_date($created, 'custom', 'F d, Y')?></h6> <?php } ?> <?php if($node->type == "show") { ?> <?php if($node->field_aired_date[0]['view']) { ?> <h6 class="aired_date">Originally aired <span class="aired_date_itself"><?php print $node->field_aired_date[0]['view']; ?></span></h6> <?php } ?> <div class="tags"> <h6 class="category"><?php print views_embed_view("radio_categories", "radio_tags", $node->nid); ?></h6> </div> <?php } ?> <?php if($node->type == "series") { ?> <h6 class="aired_date"><?php print views_embed_view('also_in_this_series', 'series_updated', $node->nid); ?></h6> <div class="tags"> <h6 class="category"><?php print views_embed_view("radio_categories", "radio_tags", $node->nid); ?></h6> </div> <?php } ?> <?php } ?> <?php if($node->type == "blog") { ?> <div class="tags"> <h6 class="category"><?php print views_embed_view("radio_categories", "radio_tags", $node->nid); ?></h6> </div> <?php } ?> </div><!-- /.content-foot --> </div><!-- /.content --> </div><!-- /.left-column --> <div class="right-column"> <div class="image-gallery"> <?php if($node->field_image[12]['view']) { ?> <div class="thumbnails three"> <?php print views_embed_view('exhibition_thumbnails_slider', 'default', $node->nid); ?> </div> <?php } else { ?> <?php if($node->field_image[1]['view']) { ?> <div class="thumbnails"> <?php print views_embed_view('exhibition_thumbnails_slider', 'default', $node->nid); ?> </div> <?php } ?> <?php } ?> </div><!-- /.image-gallery --> </div><!-- /.right-column --> </div><!-- /.bodyview --> <?php if($node->type == "news") { ?> <div class="in_this_news masonry"> <div class="news-body"> <?php print views_embed_view("new_this_week", "front_news_text", $node->nid); ?> </div> <div class="featured_projects" style="display:none;visibility:hidden;"> <?php print views_embed_view("in_this_news", "default", $node->nid); ?> </div> <div class="featured_radio" style="display:none;visibility:hidden;"> <?php print views_embed_view("in_this_news", "featured_radio", $node->nid); ?> </div> <div class="soundcloud item"> <?php $block = (object) module_invoke('block', 'block', 'view', "60"); print theme('block',$block); ?> </div> <div class="subscribe item"> <?php $block = (object) module_invoke('block', 'block', 'view', "42"); print theme('block',$block); ?> </div> </div><!-- /.in-this-news --> <?php } ?> <?php if($node->type != "news") { ?> <?php $tags_display = views_embed_view('tags_for_node', 'default', $node->nid); ?> <?php } ?> <?php if($node->type == "blog") { ?> <div class="also-list related"> <?php print views_embed_view('clocktower_related_radio', 'related_to_event', $node->nid); ?> </div> <!-- also-list --> <?php } ?> <?php if($node->type == "show" && $node->field_series[0]['view']) { ?> <div class="also-list masonry"> <div class="title item"> <h6>Other Episodes From</h6> <h1><?php print $node->field_series[0]['view']; ?></h1> </div> <div class="series-contents"> <?php print views_embed_view('also_in_this_series', 'grid_related_shows', $node->field_series[0]['nid'], $node->nid); ?> </div> </div><!-- also-list --> <div class="also-list"> <div class="block block-staffpicks"> <?php $view = views_get_view('staffpicks'); print $view->preview('block_2'); ?> </div><!-- block-staffpicks --> <div class="block block-popular"> <?php $view = views_get_view('most_viewed_sidebar'); print $view->preview('block_2'); ?> </div><!-- block-popular --> </div><!-- also-list --> <?php } ?> <?php if($node->type == "series") { ?> <div class="also-list masonry"> <div class="series-contents"> <?php print views_embed_view('series_contents', 'grid_related_shows', $node->nid); ?> </div> </div><!-- also-list --> <?php } ?> <?php if($node->type == "host") { ?> <div class="also-list masonry"> <div class="title item"><h1>Radio Featuring <?php print $node->title; ?></h1></div> <div class="by-this-host-browse smallgrid listview gridlist-choice-apply"> <!-- the gridlist choice applies to this div --> <?php print views_embed_view('by_this_host', 'of_this_host', $node->nid); ?> <?php print views_embed_view('by_this_host', 'block_2', $node->nid); ?> </div> </div> <?php } ?> </div> <!-- for addthis analytics --> <div id="nid-for-javascript" style="display:none;"><?php print $node->nid; ?></div>
artonair/clocktower
sites/all/node-blog-body.tpl.php
PHP
gpl-2.0
11,545
/* * (C) Copyright 2008-2013 STMicroelectronics. * * Sean McGoogan <[email protected]> * * See file CREDITS for list of people who contributed to this * project. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA */ #include <common.h> #include <command.h> #include <asm/soc.h> #include <asm/socregs.h> #include <asm/io.h> #include <asm/pio.h> void flashWriteEnable(void) { /* Enable Vpp for writing to flash */ /* Nothing to do! */ } void flashWriteDisable(void) { /* Disable Vpp for writing to flash */ /* Nothing to do! */ } #if defined(CONFIG_ST40_STXH415) #define PIOALT(port, pin, alt, dir) \ do \ { \ stxh415_pioalt_select((port), (pin), (alt)); \ stxh415_pioalt_pad((port), (pin), (dir)); \ } while(0) #elif defined(CONFIG_ST40_STXH416) #define PIOALT(port, pin, alt, dir) \ do \ { \ stxh416_pioalt_select((port), (pin), (alt)); \ stxh416_pioalt_pad((port), (pin), (dir)); \ } while(0) #endif /* CONFIG_ST40_STXH415/CONFIG_ST40_STXH416 */ /* * MII0: PIO106[2] = GMII0_notRESET * MII0: PIO13[4] = PIO6_CLKSEL (DVO_CK) * * MII1: PIO4[7] = GMII1_notRESET (needs J39 fitted) * MII1: PIO2[5] = PIO6_CLKSEL (PIO_HDMI_TX_HPD) */ #if CONFIG_SYS_STM_STMAC_BASE == CONFIG_SYS_STM_STMAC0_BASE /* MII0, on CN22 */ # define GMII_PHY_NOT_RESET 106, 2 # define GMII_PHY_CLKOUT_NOT_TXCLK_SEL 13, 4 #elif CONFIG_SYS_STM_STMAC_BASE == CONFIG_SYS_STM_STMAC1_BASE /* MII1, on CN23 */ # define GMII_PHY_NOT_RESET 4, 7 # define GMII_PHY_CLKOUT_NOT_TXCLK_SEL 2, 5 #endif static void configPIO(void) { /* Setup PIOs for ASC device */ #if defined(CONFIG_ST40_STXH415) #if CONFIG_SYS_STM_ASC_BASE == STXH415_ASC2_BASE /* Route UART2 via PIO17 for TX, RX, CTS & RTS (Alternative #1) */ PIOALT(17, 4, 2, stm_pad_direction_output); /* UART2-TX */ PIOALT(17, 5, 2, stm_pad_direction_input); /* UART2-RX */ PIOALT(17, 7, 2, stm_pad_direction_output); /* UART2-RTS */ PIOALT(17, 6, 2, stm_pad_direction_input); /* UART2-CTS */ #elif CONFIG_SYS_STM_ASC_BASE == STXH415_SBC_ASC0_BASE /* Route SBC_UART0 via PIO3 for TX, RX, CTS & RTS (Alternative #1) */ PIOALT(3, 4, 1, stm_pad_direction_output); /* SBC_UART0-TX */ PIOALT(3, 5, 1, stm_pad_direction_input); /* SBC_UART0-RX */ PIOALT(3, 7, 1, stm_pad_direction_output); /* SBC_UART0-RTS */ PIOALT(3, 6, 1, stm_pad_direction_input); /* SBC_UART0-CTS */ #elif CONFIG_SYS_STM_ASC_BASE == STXH415_SBC_ASC1_BASE /* Route SBC_UART1 via PIO2,3 for TX, RX, CTS & RTS (Alternative #3) */ PIOALT(2, 6, 3, stm_pad_direction_output); /* SBC_UART1-TX */ PIOALT(2, 7, 3, stm_pad_direction_input); /* SBC_UART1-RX */ PIOALT(3, 1, 3, stm_pad_direction_output); /* SBC_UART1-RTS */ PIOALT(3, 0, 3, stm_pad_direction_input); /* SBC_UART1-CTS */ #else #error Unknown ASC port selected! #endif /* CONFIG_SYS_STM_ASC_BASE == STXH415_ASCx_REGS_BASE */ #elif defined(CONFIG_ST40_STXH416) #if CONFIG_SYS_STM_ASC_BASE == STXH416_ASC2_BASE /* Route UART2 via PIO17 for TX, RX, CTS & RTS (Alternative #1) */ PIOALT(17, 4, 2, stm_pad_direction_output); /* UART2-TX */ PIOALT(17, 5, 2, stm_pad_direction_input); /* UART2-RX */ PIOALT(17, 7, 2, stm_pad_direction_output); /* UART2-RTS */ PIOALT(17, 6, 2, stm_pad_direction_input); /* UART2-CTS */ #elif CONFIG_SYS_STM_ASC_BASE == STXH416_SBC_ASC0_BASE /* Route SBC_UART0 via PIO3 for TX, RX, CTS & RTS (Alternative #1) */ PIOALT(3, 4, 1, stm_pad_direction_output); /* SBC_UART0-TX */ PIOALT(3, 5, 1, stm_pad_direction_input); /* SBC_UART0-RX */ PIOALT(3, 7, 1, stm_pad_direction_output); /* SBC_UART0-RTS */ PIOALT(3, 6, 1, stm_pad_direction_input); /* SBC_UART0-CTS */ #elif CONFIG_SYS_STM_ASC_BASE == STXH416_SBC_ASC1_BASE /* Route SBC_UART1 via PIO2,3 for TX, RX, CTS & RTS (Alternative #3) */ PIOALT(2, 6, 3, stm_pad_direction_output); /* SBC_UART1-TX */ PIOALT(2, 7, 3, stm_pad_direction_input); /* SBC_UART1-RX */ PIOALT(3, 1, 3, stm_pad_direction_output); /* SBC_UART1-RTS */ PIOALT(3, 0, 3, stm_pad_direction_input); /* SBC_UART1-CTS */ #else #error Unknown ASC port selected! #endif /* CONFIG_SYS_STM_ASC_BASE == STXH416_ASCx_REGS_BASE */ #endif /* CONFIG_ST40_STXH415/CONFIG_ST40_STXH416 */ #ifdef CONFIG_DRIVER_NET_STM_GMAC /* * Configure the Ethernet PHY Reset signal */ SET_PIO_PIN2(GMII_PHY_NOT_RESET, STPIO_OUT); /* * Configure the Ethernet PHY Mux PIO clock signal, * as an output, which controls the speed of the MAC. */ SET_PIO_PIN2(GMII_PHY_CLKOUT_NOT_TXCLK_SEL, STPIO_OUT); STPIO_SET_PIN2(GMII_PHY_CLKOUT_NOT_TXCLK_SEL, 1); #endif /* CONFIG_DRIVER_NET_STM_GMAC */ } #ifdef CONFIG_DRIVER_NET_STM_GMAC extern void stmac_phy_reset(void) { /* * Reset the Ethernet PHY. */ STPIO_SET_PIN2(GMII_PHY_NOT_RESET, 0); udelay(10000); /* 10 ms */ STPIO_SET_PIN2(GMII_PHY_NOT_RESET, 1); udelay(10000); /* 10 ms */ } #endif /* CONFIG_DRIVER_NET_STM_GMAC */ #ifdef CONFIG_DRIVER_NET_STM_GMAC extern void stmac_set_mac_speed(int speed) { /* Manage the MAC speed */ STPIO_SET_PIN2(GMII_PHY_CLKOUT_NOT_TXCLK_SEL, (speed==1000)?1:0); } #endif /* CONFIG_DRIVER_NET_STM_GMAC */ extern int board_init(void) { configPIO(); #if 0 /* QQQ - TO IMPLEMENT */ #if defined(CONFIG_ST40_STM_SATA) stx7105_configure_sata (); #endif /* CONFIG_ST40_STM_SATA */ #endif /* QQQ - TO IMPLEMENT */ /* * B2032A (MII) Ethernet card (*not* GMII) * On B2000B board, to get GMAC0 working make sure that jumper * on PIN 9-10 on CN35 and CN36 are removed. * ******************************************************************* * * B2035A (RMII + MMC(on CN22)) Ethernet + MMC card * B2035A board has IP101ALF PHY connected in RMII mode * and an MMC card * It is designed to be connected to GMAC0 (CN22) to get MMC working, * however we can connect it to GMAC1 for RMII testing. * ******************************************************************* * * Note: The following (default) configuration assumes we are using * the B2032 daughter board, in MII mode (not GMII). To use other * configurations, then please have a look in the STLinux kernel * distribution source trees for: arch/sh/boards/mach-b2000/setup.c */ #ifdef CONFIG_DRIVER_NET_STM_GMAC #if CONFIG_SYS_STM_STMAC_BASE == CONFIG_SYS_STM_STMAC0_BASE /* MII0, on CN22 */ # if defined(CONFIG_STMAC_IP1001) /* IC+ IP1001 (B2032) */ #if defined(CONFIG_ST40_STXH415) stxh415_configure_ethernet(0, &(struct stxh415_ethernet_config) { .mode = stxh415_ethernet_mode_mii, .ext_clk = 1, .phy_bus = 0, }); #elif defined(CONFIG_ST40_STXH416) stxh416_configure_ethernet(0, &(struct stxh416_ethernet_config) { .mode = stxh416_ethernet_mode_mii, .ext_clk = 1, .phy_bus = 0, }); #endif /* CONFIG_ST40_STXH415/CONFIG_ST40_STXH416 */ # elif defined(CONFIG_STMAC_IP101A) /* IC+ IP101A (B2035) */ #if defined(CONFIG_ST40_STXH415) stxh415_configure_ethernet(0, &(struct stxh415_ethernet_config) { .mode = stxh415_ethernet_mode_rmii, .ext_clk = 0, .phy_bus = 0, }); #elif defined(CONFIG_ST40_STXH416) stxh416_configure_ethernet(0, &(struct stxh416_ethernet_config) { .mode = stxh416_ethernet_mode_rmii, .ext_clk = 0, .phy_bus = 0, }); #endif /* CONFIG_ST40_STXH415/CONFIG_ST40_STXH416 */ # else # error Unknown PHY type associated with STM GMAC #0 # endif /* CONFIG_STMAC_IP1001 || CONFIG_STMAC_IP101A */ #elif CONFIG_SYS_STM_STMAC_BASE == CONFIG_SYS_STM_STMAC1_BASE /* MII1, on CN23 */ # if defined(CONFIG_STMAC_IP1001) /* IC+ IP1001 (B2032) */ #if defined(CONFIG_ST40_STXH415) stxh415_configure_ethernet(1, &(struct stxh415_ethernet_config) { .mode = stxh415_ethernet_mode_mii, .ext_clk = 1, .phy_bus = 1, }); #elif defined(CONFIG_ST40_STXH416) stxh416_configure_ethernet(1, &(struct stxh416_ethernet_config) { .mode = stxh416_ethernet_mode_mii, .ext_clk = 1, .phy_bus = 1, }); #endif /* CONFIG_ST40_STXH415/CONFIG_ST40_STXH416 */ # elif defined(CONFIG_STMAC_IP101A) /* IC+ IP101A (B2035) */ #if defined(CONFIG_ST40_STXH415) stxh415_configure_ethernet(1, &(struct stxh415_ethernet_config) { .mode = stxh415_ethernet_mode_rmii, .ext_clk = 0, .phy_bus = 1, }); #elif defined(CONFIG_ST40_STXH416) stxh416_configure_ethernet(1, &(struct stxh416_ethernet_config) { .mode = stxh416_ethernet_mode_rmii, .ext_clk = 0, .phy_bus = 1, }); #endif /* CONFIG_ST40_STXH415/CONFIG_ST40_STXH416 */ # else # error Unknown PHY type associated with STM GMAC #1 # endif /* CONFIG_STMAC_IP1001 || CONFIG_STMAC_IP101A */ #else #error Unknown base address for the STM GMAC #endif /* Hard Reset the PHY -- do after we have configured the MAC */ stmac_phy_reset(); #endif /* CONFIG_DRIVER_NET_STM_GMAC */ #if defined(CONFIG_CMD_I2C) #if defined(CONFIG_ST40_STXH415) stxh415_configure_i2c(); #elif defined(CONFIG_ST40_STXH416) stxh416_configure_i2c(); #endif /* CONFIG_ST40_STXH415/CONFIG_ST40_STXH416 */ #endif /* CONFIG_CMD_I2C */ return 0; } int checkboard (void) { printf ("\n\nBoard: B2000" #if defined(CONFIG_ST40_STXH415) "-STxH415" #elif defined(CONFIG_ST40_STXH416) "-STxH416" #endif #ifdef CONFIG_ST40_SE_MODE " [32-bit mode]" #else " [29-bit mode]" #endif "\n"); #if defined(CONFIG_SOFT_SPI) /* * Configure for the SPI Serial Flash. * Note: for CONFIG_SYS_BOOT_FROM_SPI + CONFIG_ENV_IS_IN_EEPROM, this * needs to be done after env_init(), hence it is done * here, and not in board_init(). */ #if defined(CONFIG_ST40_STXH415) stxh415_configure_spi(); #elif defined(CONFIG_ST40_STXH416) stxh416_configure_spi(); #endif /* CONFIG_ST40_STXH415/CONFIG_ST40_STXH416 */ #endif /* CONFIG_SPI */ return 0; }
Blagus/STB8000-U-Boot
board/st/b2000/b2000.c
C
gpl-2.0
10,205
<?php get_header(); ?> <div id="content" class="clearfix"> <div id="main" class="col620 clearfix" role="main"> <article id="post-0" class="post error404 not-found"> <header class="entry-header"> <h1 class="entry-title"><?php _e( 'Error 404 - Page Not Found', 'newschannel' ); ?></h1> </header> <div class="entry-content post_content"> <h4><?php _e( 'It seems we can&rsquo;t find what you&rsquo;re looking for. Perhaps searching, or one of the links below, can help.', 'newschannel' ); ?></h4> <div style="margin-bottom: 25px"><?php get_search_form(); ?></div> <?php the_widget( 'WP_Widget_Recent_Posts' ); ?> <div class="widget"> <h2 class="widgettitle"><?php _e( 'Most Used Categories', 'newschannel' ); ?></h2> <ul> <?php wp_list_categories( array( 'orderby' => 'count', 'order' => 'DESC', 'show_count' => 1, 'title_li' => '', 'number' => 10 ) ); ?> </ul> </div> <?php /* translators: %1$s: smilie */ $archive_content = '<p>' . sprintf( __( 'Try looking in the monthly archives. %1$s', 'newschannel' ), convert_smilies( ':)' ) ) . '</p>'; the_widget( 'WP_Widget_Archives', 'dropdown=1', "after_title=</h2>$archive_content" ); ?> <?php the_widget( 'WP_Widget_Tag_Cloud' ); ?> </div><!-- .entry-content --> </article><!-- #post-0 --> </div> <!-- end #main --> <?php get_sidebar(); ?> </div> <!-- end #content --> <?php get_footer(); ?>
mxr1027/Xinrui-Ma
wp-content/themes/newschannel/404.php
PHP
gpl-2.0
1,539
package scatterbox.utils; import java.io.BufferedReader; import java.io.DataInputStream; import java.io.File; import java.io.FileInputStream; import java.io.FileNotFoundException; import java.io.InputStreamReader; import java.sql.Connection; import java.sql.DriverManager; import java.sql.SQLException; import java.sql.Statement; import java.sql.Timestamp; import java.util.HashMap; import org.joda.time.DateTime; import org.joda.time.format.DateTimeFormat; import org.joda.time.format.DateTimeFormatter; public class ImportVanKasteren { String dataFileName = "/Users/knoxs/Documents/datasets/kasterenDataset/kasterenSenseData.txt"; String annotationFileName = "/Users/knoxs/Documents/datasets/kasterenDataset/kasterenActData.txt"; File dataFile = new File(dataFileName); File annotationFile = new File(annotationFileName); BufferedReader dataFileReader; BufferedReader annotationFileReader; Connection conn = null; String insertDataCommand = "insert into events (start_time, end_time, id, java_type) values (\"START\", \"END\", \"OBJECT\", \"scatterbox.event.KasterenEvent\")"; String insertAnnotationCommand = "insert into annotations (start_time, end_time, annotation) values (\"START\", \"END\", \"ANNOTATION\")"; HashMap<Integer, String> objects = new HashMap<Integer, String>(); HashMap<Integer, String> annotations = new HashMap<Integer, String>(); //String[] annotations = {"leavehouse", "usetoilet", "takeshower", "gotobed", "preparebreakfast", "preparedinner", "getdrink"}; /** * Format of the sql timestamp. Allows easy conversion to date format */ final DateTimeFormatter dateTimeFormatter = DateTimeFormat .forPattern("dd-MMM-yyyy HH:mm:ss"); public static void main(String[] args) throws FileNotFoundException { ImportVanKasteren ivk = new ImportVanKasteren(); ivk.connectToDatabase(); ivk.dataFileReader = new BufferedReader(new InputStreamReader( new DataInputStream(new FileInputStream(ivk.dataFileName)))); ivk.annotationFileReader = new BufferedReader(new InputStreamReader( new DataInputStream(new FileInputStream(ivk.annotationFileName)))); ivk.setUpAnnotations(); ivk.setUpObjects(); ivk.getData(); ivk.getAnnotations(); } private void getData() { String line; try { while ((line = dataFileReader.readLine()) != null) { String[] readingArray = line.split("\t"); DateTime startTime = dateTimeFormatter .parseDateTime(readingArray[0]); Timestamp startTimestamp = new Timestamp(startTime.getMillis()); DateTime endTime = dateTimeFormatter.parseDateTime(readingArray[1]); Timestamp endTimestamp = new Timestamp(endTime.getMillis()); int id = Integer.parseInt(readingArray[2]); //The reason for -1 is because, kasteren starts id names at 1, not 0, but the array starts at 0. String object = objects.get(id); insertStatement(insertDataCommand.replace("START", startTimestamp.toString()).replace("END", endTimestamp.toString()).replace("OBJECT", object)); } } catch (Exception ioe) { ioe.printStackTrace(); } } private void getAnnotations() { String line; try { while ((line = annotationFileReader.readLine()) != null) { String[] readingArray = line.split("\t"); DateTime startTime = dateTimeFormatter .parseDateTime(readingArray[0]); Timestamp startTimestamp = new Timestamp(startTime.getMillis()); DateTime endTime = dateTimeFormatter.parseDateTime(readingArray[1]); Timestamp endTimestamp = new Timestamp(endTime.getMillis()); int id = Integer.parseInt(readingArray[2]); //The reason for -1 is because, kasteren starts id names at 1, not 0, but the array starts at 0. String annotation = annotations.get(id); insertStatement(insertAnnotationCommand.replace("START", startTimestamp.toString()).replace("END", endTimestamp.toString()).replace("ANNOTATION", annotation)); } } catch (Exception ioe) { ioe.printStackTrace(); } } public boolean insertStatement(String an_sql_statement) { System.out.println(an_sql_statement); boolean success = false; //System.out.println(an_sql_statement); Statement statement; try { statement = conn.createStatement(); if (conn != null) { success = statement.execute(an_sql_statement); statement.close(); } else { System.err.println("No database connection!!!"); } } catch (SQLException e) { // TODO Auto-generated catch block e.printStackTrace(); } return success; } public boolean connectToDatabase() { boolean connected = false; String userName = "root"; String password = ""; String url = "jdbc:mysql://localhost:3306/tvk"; try { Class.forName("com.mysql.jdbc.Driver").newInstance(); conn = DriverManager.getConnection(url, userName, password); if (conn != null) { connected = true; } } catch (InstantiationException e) { e.printStackTrace(); } catch (IllegalAccessException e) { e.printStackTrace(); } catch (ClassNotFoundException e) { e.printStackTrace(); } catch (SQLException e) { e.printStackTrace(); } return connected; } private void setUpObjects() { objects.put(1, "microwave"); objects.put(5, "halltoiletdoor"); objects.put(6, "hallbathroomdoor"); objects.put(7, "cupscupboard"); objects.put(8, "fridge"); objects.put(9, "platescupboard"); objects.put(12, "frontdoor"); objects.put(13, "dishwasher"); objects.put(14, "toiletflush"); objects.put(17, "freezer"); objects.put(18, "panscupboard"); objects.put(20, "washingmachine"); objects.put(23, "groceriescupboard"); objects.put(24, "hallbedroomdoor"); } private void setUpAnnotations() { annotations.put(1, "leavehouse"); annotations.put(4, "usetoilet"); annotations.put(5, "takeshower"); annotations.put(10, "gotobed"); annotations.put(13, "preparebreakfast"); annotations.put(15, "preparedinner"); annotations.put(17, "getdrink"); } }
knoxsp/Concept
src/scatterbox/utils/ImportVanKasteren.java
Java
gpl-2.0
6,596
<?php /* * @version $Id: preference.php 20129 2013-02-04 16:53:59Z moyo $ ------------------------------------------------------------------------- GLPI - Gestionnaire Libre de Parc Informatique Copyright (C) 2003-2013 by the INDEPNET Development Team. http://indepnet.net/ http://glpi-project.org ------------------------------------------------------------------------- LICENSE This file is part of GLPI. GLPI is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. GLPI is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GLPI. If not, see <http://www.gnu.org/licenses/>. -------------------------------------------------------------------------- */ /** @file * @brief */ include ('../inc/includes.php'); $user = new User(); // Manage lost password if (isset($_GET['lostpassword'])) { Html::nullHeader(); if (isset($_GET['password_forget_token'])) { User::showPasswordForgetChangeForm($_GET['password_forget_token']); } else { User::showPasswordForgetRequestForm(); } Html::nullFooter(); exit(); } Session::checkLoginUser(); if (isset($_POST["update"]) && ($_POST["id"] === Session::getLoginUserID())) { $user->update($_POST); Event::log($_POST["id"], "users", 5, "setup", //TRANS: %s is the user login sprintf(__('%s updates an item'), $_SESSION["glpiname"])); Html::back(); } else { if ($_SESSION["glpiactiveprofile"]["interface"] == "central") { Html::header(Preference::getTypeName(1), $_SERVER['PHP_SELF'],'preference'); } else { Html::helpHeader(Preference::getTypeName(1), $_SERVER['PHP_SELF']); } $pref = new Preference(); $pref->show(); if ($_SESSION["glpiactiveprofile"]["interface"] == "central") { Html::footer(); } else { Html::helpFooter(); } } ?>
opusappteam/PLGLPI0842
front/preference.php
PHP
gpl-2.0
2,239
<?php /** * @package Joomla.Administrator * @subpackage com_templates * * @copyright Copyright (C) 2005 - 2017 Open Source Matters, Inc. All rights reserved. * @license GNU General Public License version 2 or later; see LICENSE.txt */ defined('_JEXEC') or die; // Include the component HTML helpers. JHtml::addIncludePath(JPATH_COMPONENT . '/helpers/html'); JHtml::_('bootstrap.tooltip'); JHtml::_('behavior.formvalidator'); JHtml::_('behavior.keepalive'); JHtml::_('behavior.tabstate'); $input = JFactory::getApplication()->input; // No access if not global SuperUser if (!JFactory::getUser()->authorise('core.admin')) { JFactory::getApplication()->enqueueMessage(JText::_('JERROR_ALERTNOAUTHOR'), 'danger'); } if ($this->type == 'image') { JHtml::_('script', 'vendor/cropperjs/cropper.min.js', array('version' => 'auto', 'relative' => true)); JHtml::_('stylesheet', 'vendor/cropperjs/cropper.min.css', array('version' => 'auto', 'relative' => true)); } JFactory::getDocument()->addScriptDeclaration(" jQuery(document).ready(function($){ // Hide all the folder when the page loads $('.folder ul, .component-folder ul').hide(); // Display the tree after loading $('.directory-tree').removeClass('directory-tree'); // Show all the lists in the path of an open file $('.show > ul').show(); // Stop the default action of anchor tag on a click event $('.folder-url, .component-folder-url').click(function(event){ event.preventDefault(); }); // Prevent the click event from proliferating $('.file, .component-file-url').bind('click',function(e){ e.stopPropagation(); }); // Toggle the child indented list on a click event $('.folder, .component-folder').bind('click',function(e){ $(this).children('ul').toggle(); e.stopPropagation(); }); // New file tree $('#fileModal .folder-url').bind('click',function(e){ $('.folder-url').removeClass('selected'); e.stopPropagation(); $('#fileModal input.address').val($(this).attr('data-id')); $(this).addClass('selected'); }); // Folder manager tree $('#folderModal .folder-url').bind('click',function(e){ $('.folder-url').removeClass('selected'); e.stopPropagation(); $('#folderModal input.address').val($(this).attr('data-id')); $(this).addClass('selected'); }); var containerDiv = document.querySelector('.span3.tree-holder'), treeContainer = containerDiv.querySelector('.nav.nav-list'), liEls = treeContainer.querySelectorAll('.folder.show'), filePathEl = document.querySelector('p.lead.hidden.path'); if(filePathEl) var filePathTmp = document.querySelector('p.lead.hidden.path').innerText; if(filePathTmp && filePathTmp.charAt( 0 ) === '/' ) { filePathTmp = filePathTmp.slice( 1 ); filePathTmp = filePathTmp.split('/'); filePathTmp = filePathTmp[filePathTmp.length - 1]; var re = new RegExp( filePathTmp ); for (var i = 0, l = liEls.length; i < l; i++) { liEls[i].querySelector('a').classList.add('active'); if (i === liEls.length - 1) { var parentUl = liEls[i].querySelector('ul'), allLi = parentUl.querySelectorAll('li'); for (var i = 0, l = allLi.length; i < l; i++) { aEl = allLi[i].querySelector('a'), spanEl = aEl.querySelector('span'); if (spanEl && re.test(spanEl.innerText)) { aEl.classList.add('active'); } } } } } });"); if ($this->type == 'image') { JFactory::getDocument()->addScriptDeclaration(" document.addEventListener('DOMContentLoaded', function() { // Configuration for image cropping var image = document.getElementById('image-crop'); var cropper = new Cropper(image, { viewMode: 0, scalable: true, zoomable: true, minCanvasWidth: " . $this->image['width'] . ", minCanvasHeight: " . $this->image['height'] . ", }); image.addEventListener('crop', function (e) { document.getElementById('x').value = e.detail.x; document.getElementById('y').value = e.detail.y; document.getElementById('w').value = e.detail.width; document.getElementById('h').value = e.detail.height; }); // Function for clearing the coordinates function clearCoords() { var inputs = querySelectorAll('#adminForm input'); for(i=0, l=inputs.length; l>i; i++) { inputs[i].value = ''; }; } });"); } JFactory::getDocument()->addStyleDeclaration(' /* Styles for modals */ .selected { background: #08c; color: #fff; } .selected:hover { background: #08c !important; color: #fff; } .modal-body .column-left { float: left; max-height: 70vh; overflow-y: auto; } .modal-body .column-right { float: right; } @media (max-width: 767px) { .modal-body .column-right { float: left; } } #deleteFolder { margin: 0; } #image-crop { max-width: 100% !important; width: auto; height: auto; } .directory-tree { display: none; } .tree-holder { overflow-x: auto; } '); if ($this->type == 'font') { JFactory::getDocument()->addStyleDeclaration( "/* Styles for font preview */ @font-face { font-family: previewFont; src: url('" . $this->font['address'] . "') } .font-preview{ font-family: previewFont !important; }" ); } ?> <?php echo JHtml::_('bootstrap.startTabSet', 'myTab', array('active' => 'editor')); ?> <?php echo JHtml::_('bootstrap.addTab', 'myTab', 'editor', JText::_('COM_TEMPLATES_TAB_EDITOR')); ?> <div class="row"> <div class="col-md-12"> <?php if($this->type == 'file') : ?> <p class="lead"><?php echo JText::sprintf('COM_TEMPLATES_TEMPLATE_FILENAME', $this->source->filename, $this->template->element); ?></p> <p class="lead path hidden"><?php echo $this->source->filename; ?></p> <?php endif; ?> <?php if($this->type == 'image') : ?> <p class="lead"><?php echo JText::sprintf('COM_TEMPLATES_TEMPLATE_FILENAME', $this->image['path'], $this->template->element); ?></p> <p class="lead path hidden"><?php echo $this->image['path']; ?></p> <?php endif; ?> <?php if($this->type == 'font') : ?> <p class="lead"><?php echo JText::sprintf('COM_TEMPLATES_TEMPLATE_FILENAME', $this->font['rel_path'], $this->template->element); ?></p> <p class="lead path hidden"><?php echo $this->font['rel_path']; ?></p> <?php endif; ?> </div> </div> <div class="row"> <div class="col-md-3 tree-holder"> <?php echo $this->loadTemplate('tree'); ?> </div> <div class="col-md-9"> <?php if ($this->type == 'home') : ?> <form action="<?php echo JRoute::_('index.php?option=com_templates&view=template&id=' . $input->getInt('id') . '&file=' . $this->file); ?>" method="post" name="adminForm" id="adminForm"> <input type="hidden" name="task" value=""> <?php echo JHtml::_('form.token'); ?> <h2><?php echo JText::_('COM_TEMPLATES_HOME_HEADING'); ?></h2> <p><?php echo JText::_('COM_TEMPLATES_HOME_TEXT'); ?></p> <p> <a href="https://docs.joomla.org/J3.x:How_to_use_the_Template_Manager" target="_blank" class="btn btn-primary btn-lg"> <?php echo JText::_('COM_TEMPLATES_HOME_BUTTON'); ?> </a> </p> </form> <?php endif; ?> <?php if ($this->type == 'file') : ?> <form action="<?php echo JRoute::_('index.php?option=com_templates&view=template&id=' . $input->getInt('id') . '&file=' . $this->file); ?>" method="post" name="adminForm" id="adminForm"> <div class="editor-border"> <?php echo $this->form->getInput('source'); ?> </div> <input type="hidden" name="task" value="" /> <?php echo JHtml::_('form.token'); ?> <?php echo $this->form->getInput('extension_id'); ?> <?php echo $this->form->getInput('filename'); ?> </form> <?php endif; ?> <?php if ($this->type == 'archive') : ?> <legend><?php echo JText::_('COM_TEMPLATES_FILE_CONTENT_PREVIEW'); ?></legend> <form action="<?php echo JRoute::_('index.php?option=com_templates&view=template&id=' . $input->getInt('id') . '&file=' . $this->file); ?>" method="post" name="adminForm" id="adminForm"> <ul class="nav flex-column well"> <?php foreach ($this->archive as $file) : ?> <li> <?php if (substr($file, -1) === DIRECTORY_SEPARATOR) : ?> <i class="fa-fw fa fa-folder"></i>&nbsp;<?php echo $file; ?> <?php endif; ?> <?php if (substr($file, -1) != DIRECTORY_SEPARATOR) : ?> <i class="fa-fw fa fa-file-o"></i>&nbsp;<?php echo $file; ?> <?php endif; ?> </li> <?php endforeach; ?> </ul> <input type="hidden" name="task" value=""> <?php echo JHtml::_('form.token'); ?> </form> <?php endif; ?> <?php if ($this->type == 'image') : ?> <img id="image-crop" src="<?php echo $this->image['address'] . '?' . time(); ?>"> <form action="<?php echo JRoute::_('index.php?option=com_templates&view=template&id=' . $input->getInt('id') . '&file=' . $this->file); ?>" method="post" name="adminForm" id="adminForm"> <fieldset class="adminform"> <input type ="hidden" id="x" name="x"> <input type ="hidden" id="y" name="y"> <input type ="hidden" id="h" name="h"> <input type ="hidden" id="w" name="w"> <input type="hidden" name="task" value=""> <?php echo JHtml::_('form.token'); ?> </fieldset> </form> <?php endif; ?> <?php if ($this->type == 'font') : ?> <div class="font-preview"> <form action="<?php echo JRoute::_('index.php?option=com_templates&view=template&id=' . $input->getInt('id') . '&file=' . $this->file); ?>" method="post" name="adminForm" id="adminForm"> <fieldset class="adminform"> <h1>H1. Quickly gaze at Joomla! views from HTML, CSS, JavaScript and XML</h1> <h2>H2. Quickly gaze at Joomla! views from HTML, CSS, JavaScript and XML</h2> <h3>H3. Quickly gaze at Joomla! views from HTML, CSS, JavaScript and XML</h3> <h4>H4. Quickly gaze at Joomla! views from HTML, CSS, JavaScript and XML</h4> <h5>H5. Quickly gaze at Joomla! views from HTML, CSS, JavaScript and XML</h5> <h6>H6. Quickly gaze at Joomla! views from HTML, CSS, JavaScript and XML</h6> <p><b>Bold. Quickly gaze at Joomla! views from HTML, CSS, JavaScript and XML</b></p> <p><i>Italics. Quickly gaze at Joomla! views from HTML, CSS, JavaScript and XML</i></p> <p>Unordered List</p> <ul> <li>Item</li> <li>Item</li> <li>Item<br> <ul> <li>Item</li> <li>Item</li> <li>Item<br> <ul> <li>Item</li> <li>Item</li> <li>Item</li> </ul> </li> </ul> </li> </ul> <p class="lead">Ordered List</p> <ol> <li>Item</li> <li>Item</li> <li>Item<br> <ul> <li>Item</li> <li>Item</li> <li>Item<br> <ul> <li>Item</li> <li>Item</li> <li>Item</li> </ul> </li> </ul> </li> </ol> <input type="hidden" name="task" value=""> <?php echo JHtml::_('form.token'); ?> </fieldset> </form> </div> <?php endif; ?> </div> </div> <?php echo JHtml::_('bootstrap.endTab'); ?> <?php echo JHtml::_('bootstrap.addTab', 'myTab', 'overrides', JText::_('COM_TEMPLATES_TAB_OVERRIDES')); ?> <div class="row"> <div class="col-md-4"> <legend><?php echo JText::_('COM_TEMPLATES_OVERRIDES_MODULES'); ?></legend> <ul class="list-unstyled"> <?php $token = JSession::getFormToken() . '=' . 1; ?> <?php foreach ($this->overridesList['modules'] as $module) : ?> <li> <?php $overrideLinkUrl = 'index.php?option=com_templates&view=template&task=template.overrides&folder=' . $module->path . '&id=' . $input->getInt('id') . '&file=' . $this->file . '&' . $token; ?> <a href="<?php echo JRoute::_($overrideLinkUrl); ?>"> <i class="fa fa-files-o"></i>&nbsp;<?php echo $module->name; ?> </a> </li> <?php endforeach; ?> </ul> </div> <div class="col-md-4"> <legend><?php echo JText::_('COM_TEMPLATES_OVERRIDES_COMPONENTS'); ?></legend> <ul class="list-unstyled"> <?php $token = JSession::getFormToken() . '=' . 1; ?> <?php foreach ($this->overridesList['components'] as $key => $value) : ?> <li class="component-folder"> <a href="#" class="component-folder-url"> <i class="fa fa-folder"></i>&nbsp;<?php echo $key; ?> </a> <ul class="list-unstyled"> <?php foreach ($value as $view) : ?> <li> <?php $overrideLinkUrl = 'index.php?option=com_templates&view=template&task=template.overrides&folder=' . $view->path . '&id=' . $input->getInt('id') . '&file=' . $this->file . '&' . $token; ?> <a class="component-file-url" href="<?php echo JRoute::_($overrideLinkUrl); ?>"> <i class="fa fa-files-o"></i>&nbsp;<?php echo $view->name; ?> </a> </li> <?php endforeach; ?> </ul> </li> <?php endforeach; ?> </ul> </div> <div class="col-md-4"> <legend><?php echo JText::_('COM_TEMPLATES_OVERRIDES_LAYOUTS'); ?></legend> <ul class="nav flex-column"> <?php $token = JSession::getFormToken() . '=' . 1; ?> <?php foreach ($this->overridesList['layouts'] as $layout) : ?> <li> <?php $overrideLinkUrl = 'index.php?option=com_templates&view=template&task=template.overrides&folder=' . $layout->path . '&id=' . $input->getInt('id') . '&file=' . $this->file . '&' . $token; ?> <a href="<?php echo JRoute::_($overrideLinkUrl); ?>"> <i class="fa fa-files-o"></i>&nbsp;<?php echo $layout->name; ?> </a> </li> <?php endforeach; ?> </ul> </div> </div> <?php echo JHtml::_('bootstrap.endTab'); ?> <?php echo JHtml::_('bootstrap.addTab', 'myTab', 'description', JText::_('COM_TEMPLATES_TAB_DESCRIPTION')); ?> <?php echo $this->loadTemplate('description'); ?> <?php echo JHtml::_('bootstrap.endTab'); ?> <?php echo JHtml::_('bootstrap.endTabSet'); ?> <?php // Collapse Modal $copyModalData = array( 'selector' => 'copyModal', 'params' => array( 'title' => JText::_('COM_TEMPLATES_TEMPLATE_COPY'), 'footer' => $this->loadTemplate('modal_copy_footer') ), 'body' => $this->loadTemplate('modal_copy_body') ); ?> <form action="<?php echo JRoute::_('index.php?option=com_templates&task=template.copy&id=' . $input->getInt('id') . '&file=' . $this->file); ?>" method="post" name="adminForm" id="adminForm"> <?php echo JLayoutHelper::render('joomla.modal.main', $copyModalData); ?> <?php echo JHtml::_('form.token'); ?> </form> <?php if ($this->type != 'home') : ?> <?php // Rename Modal $renameModalData = array( 'selector' => 'renameModal', 'params' => array( 'title' => JText::sprintf('COM_TEMPLATES_RENAME_FILE', $this->fileName), 'footer' => $this->loadTemplate('modal_rename_footer') ), 'body' => $this->loadTemplate('modal_rename_body') ); ?> <form action="<?php echo JRoute::_('index.php?option=com_templates&task=template.renameFile&id=' . $input->getInt('id') . '&file=' . $this->file); ?>" method="post"> <?php echo JLayoutHelper::render('joomla.modal.main', $renameModalData); ?> <?php echo JHtml::_('form.token'); ?> </form> <?php endif; ?> <?php if ($this->type != 'home') : ?> <?php // Delete Modal $deleteModalData = array( 'selector' => 'deleteModal', 'params' => array( 'title' => JText::_('COM_TEMPLATES_ARE_YOU_SURE'), 'footer' => $this->loadTemplate('modal_delete_footer') ), 'body' => $this->loadTemplate('modal_delete_body') ); ?> <?php echo JLayoutHelper::render('joomla.modal.main', $deleteModalData); ?> <?php endif; ?> <?php // File Modal $fileModalData = array( 'selector' => 'fileModal', 'params' => array( 'title' => JText::_('COM_TEMPLATES_NEW_FILE_HEADER'), 'footer' => $this->loadTemplate('modal_file_footer') ), 'body' => $this->loadTemplate('modal_file_body') ); ?> <?php echo JLayoutHelper::render('joomla.modal.main', $fileModalData); ?> <?php // Folder Modal $folderModalData = array( 'selector' => 'folderModal', 'params' => array( 'title' => JText::_('COM_TEMPLATES_MANAGE_FOLDERS'), 'footer' => $this->loadTemplate('modal_folder_footer') ), 'body' => $this->loadTemplate('modal_folder_body') ); ?> <?php echo JLayoutHelper::render('joomla.modal.main', $folderModalData); ?> <?php if ($this->type != 'home') : ?> <?php // Resize Modal $resizeModalData = array( 'selector' => 'resizeModal', 'params' => array( 'title' => JText::_('COM_TEMPLATES_RESIZE_IMAGE'), 'footer' => $this->loadTemplate('modal_resize_footer') ), 'body' => $this->loadTemplate('modal_resize_body') ); ?> <form action="<?php echo JRoute::_('index.php?option=com_templates&task=template.resizeImage&id=' . $input->getInt('id') . '&file=' . $this->file); ?>" method="post"> <?php echo JLayoutHelper::render('joomla.modal.main', $resizeModalData); ?> <?php echo JHtml::_('form.token'); ?> </form> <?php endif; ?>
ylahav/joomla-cms
administrator/components/com_templates/views/template/tmpl/default.php
PHP
gpl-2.0
16,786
<!-- This HTML file has been created by texi2html 1.27 from emacs.texi on 3 March 1994 --> <TITLE>GNU Emacs Manual - Commands for Human Languages</TITLE> <P>Go to the <A HREF="emacs_24.html">previous</A>, <A HREF="emacs_26.html">next</A> section.<P> <A NAME="IDX723"></A> <A NAME="IDX724"></A> <H1><A NAME="SEC155" HREF="emacs_toc.html#SEC155">Commands for Human Languages</A></H1> <P> The term <DFN>text</DFN> has two widespread meanings in our area of the computer field. One is data that is a sequence of characters. Any file that you edit with Emacs is text, in this sense of the word. The other meaning is more restrictive: a sequence of characters in a human language for humans to read (possibly after processing by a text formatter), as opposed to a program or commands for a program. <P> Human languages have syntactic/stylistic conventions that can be supported or used to advantage by editor commands: conventions involving words, sentences, paragraphs, and capital letters. This chapter describes Emacs commands for all of these things. There are also commands for <DFN>filling</DFN>, which means rearranging the lines of a paragraph to be approximately equal in length. The commands for moving over and killing words, sentences and paragraphs, while intended primarily for editing text, are also often useful for editing programs. <P> Emacs has several major modes for editing human language text. If the file contains text pure and simple, use Text mode, which customizes Emacs in small ways for the syntactic conventions of text. For text which contains embedded commands for text formatters, Emacs has other major modes, each for a particular text formatter. Thus, for input to TeX, you would use TeX mode; for input to nroff, Nroff mode. <P> <A NAME="IDX725"></A> <A NAME="IDX726"></A> <H2><A NAME="SEC156" HREF="emacs_toc.html#SEC156">Words</A></H2> <P> Emacs has commands for moving over or operating on words. By convention, the keys for them are all Meta characters. <P> <DL COMPACT> <DT><KBD>M-f</KBD> <DD>Move forward over a word (<CODE>forward-word</CODE>). <DT><KBD>M-b</KBD> <DD>Move backward over a word (<CODE>backward-word</CODE>). <DT><KBD>M-d</KBD> <DD>Kill up to the end of a word (<CODE>kill-word</CODE>). <DT><KBD>M-<KBD>DEL</KBD></KBD> <DD>Kill back to the beginning of a word (<CODE>backward-kill-word</CODE>). <DT><KBD>M-@</KBD> <DD>Mark the end of the next word (<CODE>mark-word</CODE>). <DT><KBD>M-t</KBD> <DD>Transpose two words or drag a word across other words (<CODE>transpose-words</CODE>). </DL> <P> Notice how these keys form a series that parallels the character-based <KBD>C-f</KBD>, <KBD>C-b</KBD>, <KBD>C-d</KBD>, <KBD>C-t</KBD> and <KBD>DEL</KBD>. <KBD>M-@</KBD> is related to <KBD>C-@</KBD>, which is an alias for <KBD>C-<KBD>SPC</KBD></KBD>.<A NAME="IDX727"></A> <A NAME="IDX728"></A> <A NAME="IDX729"></A> <A NAME="IDX730"></A> <P> The commands <KBD>M-f</KBD> (<CODE>forward-word</CODE>) and <KBD>M-b</KBD> (<CODE>backward-word</CODE>) move forward and backward over words. These Meta characters are thus analogous to the corresponding control characters, <KBD>C-f</KBD> and <KBD>C-b</KBD>, which move over single characters in the text. The analogy extends to numeric arguments, which serve as repeat counts. <KBD>M-f</KBD> with a negative argument moves backward, and <KBD>M-b</KBD> with a negative argument moves forward. Forward motion stops right after the last letter of the word, while backward motion stops right before the first letter.<A NAME="IDX731"></A> <A NAME="IDX732"></A> <P> <KBD>M-d</KBD> (<CODE>kill-word</CODE>) kills the word after point. To be precise, it kills everything from point to the place <KBD>M-f</KBD> would move to. Thus, if point is in the middle of a word, <KBD>M-d</KBD> kills just the part after point. If some punctuation comes between point and the next word, it is killed along with the word. (If you wish to kill only the next word but not the punctuation before it, simply do <KBD>M-f</KBD> to get the end, and kill the word backwards with <KBD>M-<KBD>DEL</KBD></KBD>.) <KBD>M-d</KBD> takes arguments just like <KBD>M-f</KBD>. <A NAME="IDX733"></A> <A NAME="IDX734"></A> <P> <KBD>M-<KBD>DEL</KBD></KBD> (<CODE>backward-kill-word</CODE>) kills the word before point. It kills everything from point back to where <KBD>M-b</KBD> would move to. If point is after the space in <SAMP>`FOO, BAR'</SAMP>, then <SAMP>`FOO, '</SAMP> is killed. (If you wish to kill just <SAMP>`FOO'</SAMP>, do <KBD>M-b M-d</KBD> instead of <KBD>M-<KBD>DEL</KBD></KBD>.) <A NAME="IDX735"></A> <A NAME="IDX736"></A> <P> <KBD>M-t</KBD> (<CODE>transpose-words</CODE>) exchanges the word before or containing point with the following word. The delimiter characters between the words do not move. For example, <SAMP>`FOO, BAR'</SAMP> transposes into <SAMP>`BAR, FOO'</SAMP> rather than <SAMP>`BAR FOO,'</SAMP>. See section <A HREF="emacs_18.html#SEC93">Transposing Text</A>, for more on transposition and on arguments to transposition commands. <A NAME="IDX737"></A> <A NAME="IDX738"></A> <P> To operate on the next <VAR>n</VAR> words with an operation which applies between point and mark, you can either set the mark at point and then move over the words, or you can use the command <KBD>M-@</KBD> (<CODE>mark-word</CODE>) which does not move point, but sets the mark where <KBD>M-f</KBD> would move to. <KBD>M-@</KBD> accepts a numeric argument that says how many words to scan for the place to put the mark. <P> The word commands' understanding of syntax is completely controlled by the syntax table. Any character can, for example, be declared to be a word delimiter. See section <A HREF="emacs_35.html#SEC355">The Syntax Table</A>. <P> <A NAME="IDX739"></A> <A NAME="IDX740"></A> <H2><A NAME="SEC157" HREF="emacs_toc.html#SEC157">Sentences</A></H2> <P> The Emacs commands for manipulating sentences and paragraphs are mostly on Meta keys, so as to be like the word-handling commands. <P> <DL COMPACT> <DT><KBD>M-a</KBD> <DD>Move back to the beginning of the sentence (<CODE>backward-sentence</CODE>). <DT><KBD>M-e</KBD> <DD>Move forward to the end of the sentence (<CODE>forward-sentence</CODE>). <DT><KBD>M-k</KBD> <DD>Kill forward to the end of the sentence (<CODE>kill-sentence</CODE>). <DT><KBD>C-x <KBD>DEL</KBD></KBD> <DD>Kill back to the beginning of the sentence (<CODE>backward-kill-sentence</CODE>). </DL> <A NAME="IDX741"></A> <A NAME="IDX742"></A> <A NAME="IDX743"></A> <A NAME="IDX744"></A> <P> The commands <KBD>M-a</KBD> and <KBD>M-e</KBD> (<CODE>backward-sentence</CODE> and <CODE>forward-sentence</CODE>) move to the beginning and end of the current sentence, respectively. They were chosen to resemble <KBD>C-a</KBD> and <KBD>C-e</KBD>, which move to the beginning and end of a line. Unlike them, <KBD>M-a</KBD> and <KBD>M-e</KBD> if repeated or given numeric arguments move over successive sentences. Emacs assumes that the typist's convention is followed, and thus considers a sentence to end wherever there is a <SAMP>`.'</SAMP>, <SAMP>`?'</SAMP> or <SAMP>`!'</SAMP> followed by the end of a line or two spaces, with any number of <SAMP>`)'</SAMP>, <SAMP>`]'</SAMP>, <SAMP>`''</SAMP>, or <SAMP>`"'</SAMP> characters allowed in between. A sentence also begins or ends wherever a paragraph begins or ends.<P> Neither <KBD>M-a</KBD> nor <KBD>M-e</KBD> moves past the newline or spaces beyond the sentence edge at which it is stopping. <A NAME="IDX745"></A> <A NAME="IDX746"></A> <A NAME="IDX747"></A> <A NAME="IDX748"></A> <P> Just as <KBD>C-a</KBD> and <KBD>C-e</KBD> have a kill command, <KBD>C-k</KBD>, to go with them, so <KBD>M-a</KBD> and <KBD>M-e</KBD> have a corresponding kill command <KBD>M-k</KBD> (<CODE>kill-sentence</CODE>) which kills from point to the end of the sentence. With minus one as an argument it kills back to the beginning of the sentence. Larger arguments serve as a repeat count.<P> There is a special command, <KBD>C-x <KBD>DEL</KBD></KBD> (<CODE>backward-kill-sentence</CODE>) for killing back to the beginning of a sentence, because this is useful when you change your mind in the middle of composing text.<A NAME="IDX749"></A> <P> The variable <CODE>sentence-end</CODE> controls recognition of the end of a sentence. It is a regexp that matches the last few characters of a sentence, together with the whitespace following the sentence. Its normal value is <P> <PRE> "[.?!][]\"')]*\\($\\|\t\\| \\)[ \t\n]*" </PRE> <P> This example is explained in the section on regexps. See section <A HREF="emacs_17.html#SEC83">Syntax of Regular Expressions</A>. <P> <A NAME="IDX750"></A> <A NAME="IDX751"></A> <A NAME="IDX752"></A> <A NAME="IDX753"></A> <A NAME="IDX754"></A> <A NAME="IDX755"></A> <H2><A NAME="SEC158" HREF="emacs_toc.html#SEC158">Paragraphs</A></H2> <P> The Emacs commands for manipulating paragraphs are also Meta keys. <P> <DL COMPACT> <DT><KBD>M-{</KBD> <DD>Move back to previous paragraph beginning (<CODE>backward-paragraph</CODE>). <DT><KBD>M-}</KBD> <DD>Move forward to next paragraph end (<CODE>forward-paragraph</CODE>). <DT><KBD>M-h</KBD> <DD>Put point and mark around this or next paragraph (<CODE>mark-paragraph</CODE>). </DL> <P> <KBD>M-{</KBD> moves to the beginning of the current or previous paragraph, while <KBD>M-}</KBD> moves to the end of the current or next paragraph. Blank lines and text formatter command lines separate paragraphs and are not part of any paragraph. Also, an indented line starts a new paragraph. <P> In major modes for programs (as opposed to Text mode), paragraphs begin and end only at blank lines. This makes the paragraph commands continue to be useful even though there are no paragraphs per se. <P> When there is a fill prefix, then paragraphs are delimited by all lines which don't start with the fill prefix. See section <A HREF="emacs_25.html#SEC160">Filling Text</A>. <A NAME="IDX756"></A> <A NAME="IDX757"></A> <P> When you wish to operate on a paragraph, you can use the command <KBD>M-h</KBD> (<CODE>mark-paragraph</CODE>) to set the region around it. This command puts point at the beginning and mark at the end of the paragraph point was in. If point is between paragraphs (in a run of blank lines, or at a boundary), the paragraph following point is surrounded by point and mark. If there are blank lines preceding the first line of the paragraph, one of these blank lines is included in the region. Thus, for example, <KBD>M-h C-w</KBD> kills the paragraph around or after point. <A NAME="IDX758"></A> <A NAME="IDX759"></A> <P> The precise definition of a paragraph boundary is controlled by the variables <CODE>paragraph-separate</CODE> and <CODE>paragraph-start</CODE>. The value of <CODE>paragraph-start</CODE> is a regexp that should match any line that either starts or separates paragraphs. The value of <CODE>paragraph-separate</CODE> is another regexp that should match only lines that separate paragraphs without being part of any paragraph. Lines that start a new paragraph and are contained in it must match only <CODE>paragraph-start</CODE>, not <CODE>paragraph-separate</CODE>. For example, normally <CODE>paragraph-start</CODE> is <CODE>"^[ <TT>\</TT>t<TT>\</TT>n<TT>\</TT>f]"</CODE> and <CODE>paragraph-separate</CODE> is <CODE>"^[ <TT>\</TT>t<TT>\</TT>f]*$"</CODE>.<P> Normally it is desirable for page boundaries to separate paragraphs. The default values of these variables recognize the usual separator for pages. <P> <H2><A NAME="SEC159" HREF="emacs_toc.html#SEC159">Pages</A></H2> <A NAME="IDX760"></A> <A NAME="IDX761"></A> <P> Files are often thought of as divided into <DFN>pages</DFN> by the <DFN>formfeed</DFN> character (ASCII control-L, octal code 014). For example, if a file is printed on a line printer, each page of the file, in this sense, will start on a new page of paper. Emacs treats a page-separator character just like any other character. You can insert it with <KBD>C-q C-l</KBD>, or delete it with <KBD>DEL</KBD>. Thus, you are free to paginate your file or not. However, since pages are often meaningful divisions of the file, Emacs provides commands to move over them and operate on them. <P> <DL COMPACT> <DT><KBD>C-x [</KBD> <DD>Move point to previous page boundary (<CODE>backward-page</CODE>). <DT><KBD>C-x ]</KBD> <DD>Move point to next page boundary (<CODE>forward-page</CODE>). <DT><KBD>C-x C-p</KBD> <DD>Put point and mark around this page (or another page) (<CODE>mark-page</CODE>). <DT><KBD>C-x l</KBD> <DD>Count the lines in this page (<CODE>count-lines-page</CODE>). </DL> <A NAME="IDX762"></A> <A NAME="IDX763"></A> <A NAME="IDX764"></A> <A NAME="IDX765"></A> <P> The <KBD>C-x [</KBD> (<CODE>backward-page</CODE>) command moves point to immediately after the previous page delimiter. If point is already right after a page delimiter, it skips that one and stops at the previous one. A numeric argument serves as a repeat count. The <KBD>C-x ]</KBD> (<CODE>forward-page</CODE>) command moves forward past the next page delimiter. <A NAME="IDX766"></A> <A NAME="IDX767"></A> <P> The <KBD>C-x C-p</KBD> command (<CODE>mark-page</CODE>) puts point at the beginning of the current page and the mark at the end. The page delimiter at the end is included (the mark follows it). The page delimiter at the front is excluded (point follows it). This command can be followed by <KBD>C-w</KBD> to kill a page which is to be moved elsewhere. If it is inserted after a page delimiter, at a place where <KBD>C-x ]</KBD> or <KBD>C-x [</KBD> would take you, then the page will be properly delimited before and after once again. <P> A numeric argument to <KBD>C-x C-p</KBD> is used to specify which page to go to, relative to the current one. Zero means the current page. One means the next page, and -1 means the previous one. <A NAME="IDX768"></A> <A NAME="IDX769"></A> <P> The <KBD>C-x l</KBD> command (<CODE>count-lines-page</CODE>) is good for deciding where to break a page in two. It prints in the echo area the total number of lines in the current page, and then divides it up into those preceding the current line and those following, as in <P> <PRE> Page has 96 (72+25) lines </PRE> <P> Notice that the sum is off by one; this is correct if point is not at the beginning of a line. <A NAME="IDX770"></A> <P> The variable <CODE>page-delimiter</CODE> controls where pages begin. Its value is a regexp that matches the beginning of a line that separates pages. The normal value of this variable is <CODE>"^<TT>\</TT>f"</CODE>, which matches a formfeed character at the beginning of a line. <P> <A NAME="IDX771"></A> <H2><A NAME="SEC160" HREF="emacs_toc.html#SEC160">Filling Text</A></H2> <P> With Auto Fill mode, text can be <DFN>filled</DFN> (broken up into lines that fit in a specified width) as you insert it. If you alter existing text it may no longer be properly filled; then you can use the explicit fill commands to fill the paragraph again. <P> <A NAME="IDX772"></A> <A NAME="IDX773"></A> <H3><A NAME="SEC161" HREF="emacs_toc.html#SEC161">Auto Fill Mode</A></H3> <P> <DFN>Auto Fill</DFN> mode is a minor mode in which lines are broken automatically when they become too wide. Breaking happens only when you type a <KBD>SPC</KBD> or <KBD>RET</KBD>. <P> <DL COMPACT> <DT><KBD>M-x auto-fill-mode</KBD> <DD>Enable or disable Auto Fill mode. <DT><KBD><KBD>SPC</KBD></KBD> <DD><DT><KBD><KBD>RET</KBD></KBD> <DD>In Auto Fill mode, break lines when appropriate. </DL> <A NAME="IDX774"></A> <P> <KBD>M-x auto-fill-mode</KBD> turns Auto Fill mode on if it was off, or off if it was on. With a positive numeric argument it always turns Auto Fill mode on, and with a negative argument always turns it off. You can see when Auto Fill mode is in effect by the presence of the word <SAMP>`Fill'</SAMP> in the mode line, inside the parentheses. Auto Fill mode is a minor mode, turned on or off for each buffer individually. See section <A HREF="emacs_35.html#SEC333">Minor Modes</A>. <P> In Auto Fill mode, lines are broken automatically at spaces when they get longer than the desired width. Line breaking and rearrangement takes place only when you type <KBD>SPC</KBD> or <KBD>RET</KBD>. If you wish to insert a space or newline without permitting line-breaking, type <KBD>C-q <KBD>SPC</KBD></KBD> or <KBD>C-q <KBD>LFD</KBD></KBD> (recall that a newline is really a linefeed). Also, <KBD>C-o</KBD> inserts a newline without line breaking. <P> Auto Fill mode works well with Lisp mode, because when it makes a new line in Lisp mode it indents that line with <KBD>TAB</KBD>. If a line ending in a comment gets too long, the text of the comment is split into two comment lines. Optionally new comment delimiters are inserted at the end of the first line and the beginning of the second so that each line is a separate comment; the variable <CODE>comment-multi-line</CODE> controls the choice (see section <A HREF="emacs_26.html#SEC187">Manipulating Comments</A>). <P> Auto Fill mode does not refill entire paragraphs. It can break lines but cannot merge lines. So editing in the middle of a paragraph can result in a paragraph that is not correctly filled. The easiest way to make the paragraph properly filled again is usually with the explicit fill commands. <P> Many users like Auto Fill mode and want to use it in all text files. The section on init files says how to arrange this permanently for yourself. See section <A HREF="emacs_35.html#SEC356">The Init File, <TT>`~/.emacs'</TT></A>. <P> <H3><A NAME="SEC162" HREF="emacs_toc.html#SEC162">Explicit Fill Commands</A></H3> <P> <DL COMPACT> <DT><KBD>M-q</KBD> <DD>Fill current paragraph (<CODE>fill-paragraph</CODE>). <DT><KBD>C-x f</KBD> <DD>Set the fill column (<CODE>set-fill-column</CODE>). <DT><KBD>M-x fill-region</KBD> <DD>Fill each paragraph in the region (<CODE>fill-region</CODE>). <DT><KBD>M-x fill-region-as-paragraph.</KBD> <DD>Fill the region, considering it as one paragraph. <DT><KBD>M-s</KBD> <DD>Center a line. </DL> <A NAME="IDX775"></A> <A NAME="IDX776"></A> <P> To refill a paragraph, use the command <KBD>M-q</KBD> (<CODE>fill-paragraph</CODE>). This operates on the paragraph that point is inside, or the one after point if point is between paragraphs. Refilling works by removing all the line-breaks, then inserting new ones where necessary. <A NAME="IDX777"></A> <A NAME="IDX778"></A> <A NAME="IDX779"></A> <P> The command <KBD>M-s</KBD> (<CODE>center-line</CODE>) centers the current line within the current fill column. With an argument, it centers several lines individually and moves past them. <A NAME="IDX780"></A> <P> To refill many paragraphs, use <KBD>M-x fill-region</KBD>, which divides the region into paragraphs and fills each of them. <A NAME="IDX781"></A> <P> <KBD>M-q</KBD> and <CODE>fill-region</CODE> use the same criteria as <KBD>M-h</KBD> for finding paragraph boundaries (see section <A HREF="emacs_25.html#SEC158">Paragraphs</A>). For more control, you can use <KBD>M-x fill-region-as-paragraph</KBD>, which refills everything between point and mark. This command deletes any blank lines within the region, so separate blocks of text end up combined into one block.<A NAME="IDX782"></A> <P> A numeric argument to <KBD>M-q</KBD> causes it to <DFN>justify</DFN> the text as well as filling it. This means that extra spaces are inserted to make the right margin line up exactly at the fill column. To remove the extra spaces, use <KBD>M-q</KBD> with no argument. (Likewise for <CODE>fill-region</CODE>.) <A NAME="IDX783"></A> <A NAME="IDX784"></A> <P> When <CODE>adaptive-fill-mode</CODE> is non-<CODE>nil</CODE> (which is normally the case), if you use <CODE>fill-region-as-paragraph</CODE> on an indented paragraph and you don't have a fill prefix, it uses the indentation of the second line of the paragraph as the fill prefix. The effect of adaptive filling is not noticeable in Text mode, because an indented line counts as a paragraph starter and thus each line of an indented paragraph is considered a paragraph of its own. But you do notice the effect in Indented Text mode and some other major modes. <A NAME="IDX785"></A> <P> The maximum line width for filling is in the variable <CODE>fill-column</CODE>. Altering the value of <CODE>fill-column</CODE> makes it local to the current buffer; until that time, the default value is in effect. The default is initially 70. See section <A HREF="emacs_35.html#SEC338">Local Variables</A>. <A NAME="IDX786"></A> <A NAME="IDX787"></A> <P> The easiest way to set <CODE>fill-column</CODE> is to use the command <KBD>C-x f</KBD> (<CODE>set-fill-column</CODE>). With no argument, it sets <CODE>fill-column</CODE> to the current horizontal position of point. With a numeric argument, it uses that as the new fill column. <P> <H3><A NAME="SEC163" HREF="emacs_toc.html#SEC163">The Fill Prefix</A></H3> <A NAME="IDX788"></A> <P> To fill a paragraph in which each line starts with a special marker (which might be a few spaces, giving an indented paragraph), use the <DFN>fill prefix</DFN> feature. The fill prefix is a string which Emacs expects every line to start with, and which is not included in filling. <P> <DL COMPACT> <DT><KBD>C-x .</KBD> <DD>Set the fill prefix (<CODE>set-fill-prefix</CODE>). <DT><KBD>M-q</KBD> <DD>Fill a paragraph using current fill prefix (<CODE>fill-paragraph</CODE>). <DT><KBD>M-x fill-individual-paragraphs</KBD> <DD>Fill the region, considering each change of indentation as starting a new paragraph. <DT><KBD>M-x fill-nonuniform-paragraphs</KBD> <DD>Fill the region, considering only paragraph-separator lines as starting a new paragraph. </DL> <A NAME="IDX789"></A> <A NAME="IDX790"></A> <P> To specify a fill prefix, move to a line that starts with the desired prefix, put point at the end of the prefix, and give the command <KBD>C-x .</KBD> (<CODE>set-fill-prefix</CODE>). That's a period after the <KBD>C-x</KBD>. To turn off the fill prefix, specify an empty prefix: type <KBD>C-x .</KBD> with point at the beginning of a line.<P> When a fill prefix is in effect, the fill commands remove the fill prefix from each line before filling and insert it on each line after filling. The fill prefix is also inserted on new lines made automatically by Auto Fill mode. Lines that do not start with the fill prefix are considered to start paragraphs, both in <KBD>M-q</KBD> and the paragraph commands; this is just right if you are using paragraphs with hanging indentation (every line indented except the first one). Lines which are blank or indented once the prefix is removed also separate or start paragraphs; this is what you want if you are writing multi-paragraph comments with a comment delimiter on each line. <P> For example, if <CODE>fill-column</CODE> is 40 and you set the fill prefix to <SAMP>`;; '</SAMP>, then <KBD>M-q</KBD> in the following text <P> <PRE> ;; This is an ;; example of a paragraph ;; inside a Lisp-style comment. </PRE> <P> produces this: <P> <PRE> ;; This is an example of a paragraph ;; inside a Lisp-style comment. </PRE> <P> The <KBD>C-o</KBD> command inserts the fill prefix on new lines it creates, when you use it at the beginning of a line (see section <A HREF="emacs_8.html#SEC25">Blank Lines</A>). Conversely, the command <KBD>M-^</KBD> deletes the prefix (if it occurs) after the newline that it deletes (see section <A HREF="emacs_24.html#SEC151">Indentation</A>). <A NAME="IDX791"></A> <P> You can use <KBD>M-x fill-individual-paragraphs</KBD> to set the fill prefix for each paragraph automatically. This command divides the region into paragraphs, treating every change in the amount of indentation as the start of a new paragraph, and fills each of these paragraphs. Thus, all the lines in one "paragraph" have the same amount of indentation. That indentation serves as the fill prefix for that paragraph. <A NAME="IDX792"></A> <P> <KBD>M-x fill-nonuniform-paragraphs</KBD> is a similar command that divides the region into paragraphs in a different way. It considers only paragraph-separating lines (as defined by <CODE>paragraph-separate</CODE>) as starting a new paragraph. Since this means that the lines of one paragraph may have different amounts of indentation, the fill prefix used is the smallest amount of indentation of any of the lines of the paragraph. <A NAME="IDX793"></A> <P> The fill prefix is stored in the variable <CODE>fill-prefix</CODE>. Its value is a string, or <CODE>nil</CODE> when there is no fill prefix. This is a per-buffer variable; altering the variable affects only the current buffer, but there is a default value which you can change as well. See section <A HREF="emacs_35.html#SEC338">Local Variables</A>. <P> <A NAME="IDX794"></A> <H2><A NAME="SEC164" HREF="emacs_toc.html#SEC164">Case Conversion Commands</A></H2> <P> Emacs has commands for converting either a single word or any arbitrary range of text to upper case or to lower case. <P> <DL COMPACT> <DT><KBD>M-l</KBD> <DD>Convert following word to lower case (<CODE>downcase-word</CODE>). <DT><KBD>M-u</KBD> <DD>Convert following word to upper case (<CODE>upcase-word</CODE>). <DT><KBD>M-c</KBD> <DD>Capitalize the following word (<CODE>capitalize-word</CODE>). <DT><KBD>C-x C-l</KBD> <DD>Convert region to lower case (<CODE>downcase-region</CODE>). <DT><KBD>C-x C-u</KBD> <DD>Convert region to upper case (<CODE>upcase-region</CODE>). </DL> <A NAME="IDX795"></A> <A NAME="IDX796"></A> <A NAME="IDX797"></A> <A NAME="IDX798"></A> <A NAME="IDX799"></A> <A NAME="IDX800"></A> <A NAME="IDX801"></A> <A NAME="IDX802"></A> <A NAME="IDX803"></A> <P> The word conversion commands are the most useful. <KBD>M-l</KBD> (<CODE>downcase-word</CODE>) converts the word after point to lower case, moving past it. Thus, repeating <KBD>M-l</KBD> converts successive words. <KBD>M-u</KBD> (<CODE>upcase-word</CODE>) converts to all capitals instead, while <KBD>M-c</KBD> (<CODE>capitalize-word</CODE>) puts the first letter of the word into upper case and the rest into lower case. All these commands convert several words at once if given an argument. They are especially convenient for converting a large amount of text from all upper case to mixed case, because you can move through the text using <KBD>M-l</KBD>, <KBD>M-u</KBD> or <KBD>M-c</KBD> on each word as appropriate, occasionally using <KBD>M-f</KBD> instead to skip a word. <P> When given a negative argument, the word case conversion commands apply to the appropriate number of words before point, but do not move point. This is convenient when you have just typed a word in the wrong case: you can give the case conversion command and continue typing. <P> If a word case conversion command is given in the middle of a word, it applies only to the part of the word which follows point. This is just like what <KBD>M-d</KBD> (<CODE>kill-word</CODE>) does. With a negative argument, case conversion applies only to the part of the word before point. <A NAME="IDX804"></A> <A NAME="IDX805"></A> <A NAME="IDX806"></A> <A NAME="IDX807"></A> <P> The other case conversion commands are <KBD>C-x C-u</KBD> (<CODE>upcase-region</CODE>) and <KBD>C-x C-l</KBD> (<CODE>downcase-region</CODE>), which convert everything between point and mark to the specified case. Point and mark do not move. <P> The region case conversion commands <CODE>upcase-region</CODE> and <CODE>downcase-region</CODE> are normally disabled. This means that they ask for confirmation if you try to use them. When you confirm, you may enable the command, which means it will not ask for confirmation again. See section <A HREF="emacs_35.html#SEC353">Disabling Commands</A>. <P> <A NAME="IDX808"></A> <A NAME="IDX809"></A> <A NAME="IDX810"></A> <H2><A NAME="SEC165" HREF="emacs_toc.html#SEC165">Text Mode</A></H2> <P> When you edit files of text in a human language, it's more convenient to use Text mode rather than Fundamental mode. Invoke <KBD>M-x text-mode</KBD> to enter Text mode. In Text mode, <KBD>TAB</KBD> runs the function <CODE>tab-to-tab-stop</CODE>, which allows you to use arbitrary tab stops set with <KBD>M-x edit-tab-stops</KBD> (see section <A HREF="emacs_24.html#SEC153">Tab Stops</A>). Features concerned with comments in programs are turned off except when explicitly invoked. The syntax table is changed so that periods are not considered part of a word, while apostrophes, backspaces and underlines are. <A NAME="IDX811"></A> <A NAME="IDX812"></A> <A NAME="IDX813"></A> <A NAME="IDX814"></A> <P> A similar variant mode is Indented Text mode, intended for editing text in which most lines are indented. This mode defines <KBD>TAB</KBD> to run <CODE>indent-relative</CODE> (see section <A HREF="emacs_24.html#SEC151">Indentation</A>), and makes Auto Fill indent the lines it creates. The result is that normally a line made by Auto Filling, or by <KBD>LFD</KBD>, is indented just like the previous line. In Indented Text mode, only blank lines separate paragraphs--indented lines continue the current paragraph. Use <KBD>M-x indented-text-mode</KBD> to select this mode. <A NAME="IDX815"></A> <P> Text mode, and all the modes based on it, define <KBD>M-<KBD>TAB</KBD></KBD> as the command <CODE>ispell-complete-word</CODE>, which performs completion of the partial word in the buffer before point, using the spelling dictionary as the space of possible words. See section <A HREF="emacs_18.html#SEC95">Checking and Correcting Spelling</A>. <A NAME="IDX816"></A> <P> Entering Text mode or Indented Text mode runs the hook <CODE>text-mode-hook</CODE>. Other major modes related to Text mode also run this hook, followed by hooks of their own; this includes Nroff mode, TeX mode, Outline mode and Mail mode. Hook functions on <CODE>text-mode-hook</CODE> can look at the value of <CODE>major-mode</CODE> to see which of these modes is actually being entered. See section <A HREF="emacs_35.html#SEC337">Hooks</A>. <P> <A NAME="IDX817"></A> <A NAME="IDX818"></A> <A NAME="IDX819"></A> <A NAME="IDX820"></A> <H2><A NAME="SEC166" HREF="emacs_toc.html#SEC166">Outline Mode</A></H2> <A NAME="IDX821"></A> <A NAME="IDX822"></A> <P> Outline mode is a major mode much like Text mode but intended for editing outlines. It allows you to make parts of the text temporarily invisible so that you can see just the overall structure of the outline. Type <KBD>M-x outline-mode</KBD> to switch to Outline mode as the major mode of the current buffer. Type <KBD>M-x outline-minor-mode</KBD> to enable Outline mode as a minor mode in the current buffer. When Outline minor mode is enabled, the <KBD>C-c</KBD> commands of Outline mode replace those of the major mode. <P> When a line is invisible in outline mode, it does not appear on the screen. The screen appears exactly as if the invisible line were deleted, except that an ellipsis (three periods in a row) appears at the end of the previous visible line (only one ellipsis no matter how many invisible lines follow). <P> All editing commands treat the text of the invisible line as part of the previous visible line. For example, <KBD>C-n</KBD> moves onto the next visible line. Killing an entire visible line, including its terminating newline, really kills all the following invisible lines along with it; yanking it all back yanks the invisible lines and they remain invisible. <A NAME="IDX823"></A> <P> Entering Outline mode runs the hook <CODE>text-mode-hook</CODE> followed by the hook <CODE>outline-mode-hook</CODE> (see section <A HREF="emacs_35.html#SEC337">Hooks</A>). <P> <H3><A NAME="SEC167" HREF="emacs_toc.html#SEC167">Format of Outlines</A></H3> <A NAME="IDX824"></A> <A NAME="IDX825"></A> <P> Outline mode assumes that the lines in the buffer are of two types: <DFN>heading lines</DFN> and <DFN>body lines</DFN>. A heading line represents a topic in the outline. Heading lines start with one or more stars; the number of stars determines the depth of the heading in the outline structure. Thus, a heading line with one star is a major topic; all the heading lines with two stars between it and the next one-star heading are its subtopics; and so on. Any line that is not a heading line is a body line. Body lines belong with the preceding heading line. Here is an example: <P> <PRE> * Food This is the body, which says something about the topic of food. ** Delicious Food This is the body of the second-level header. ** Distasteful Food This could have a body too, with several lines. *** Dormitory Food * Shelter A second first-level topic with its header line. </PRE> <P> A heading line together with all following body lines is called collectively an <DFN>entry</DFN>. A heading line together with all following deeper heading lines and their body lines is called a <DFN>subtree</DFN>. <A NAME="IDX826"></A> <P> You can customize the criterion for distinguishing heading lines by setting the variable <CODE>outline-regexp</CODE>. Any line whose beginning has a match for this regexp is considered a heading line. Matches that start within a line (not at the beginning) do not count. The length of the matching text determines the level of the heading; longer matches make a more deeply nested level. Thus, for example, if a text formatter has commands <SAMP>`@chapter'</SAMP>, <SAMP>`@section'</SAMP> and <SAMP>`@subsection'</SAMP> to divide the document into chapters and sections, you could make those lines count as heading lines by setting <CODE>outline-regexp</CODE> to <SAMP>`"@chap\\|@\\(sub\\)*section"'</SAMP>. Note the trick: the two words <SAMP>`chapter'</SAMP> and <SAMP>`section'</SAMP> are equally long, but by defining the regexp to match only <SAMP>`chap'</SAMP> we ensure that the length of the text matched on a chapter heading is shorter, so that Outline mode will know that sections are contained in chapters. This works as long as no other command starts with <SAMP>`@chap'</SAMP>. <P> Outline mode makes a line invisible by changing the newline before it into an ASCII control-M (code 015). Most editing commands that work on lines treat an invisible line as part of the previous line because, strictly speaking, it <EM>is</EM> part of that line, since there is no longer a newline in between. When you save the file in Outline mode, control-M characters are saved as newlines, so the invisible lines become ordinary lines in the file. But saving does not change the visibility status of a line inside Emacs. <P> <H3><A NAME="SEC168" HREF="emacs_toc.html#SEC168">Outline Motion Commands</A></H3> <P> There are some special motion commands in Outline mode that move backward and forward to heading lines. <P> <DL COMPACT> <DT><KBD>C-c C-n</KBD> <DD>Move point to the next visible heading line (<CODE>outline-next-visible-heading</CODE>). <DT><KBD>C-c C-p</KBD> <DD>Move point to the previous visible heading line <BR> (<CODE>outline-previous-visible-heading</CODE>). <DT><KBD>C-c C-f</KBD> <DD>Move point to the next visible heading line at the same level as the one point is on (<CODE>outline-forward-same-level</CODE>). <DT><KBD>C-c C-b</KBD> <DD>Move point to the previous visible heading line at the same level (<CODE>outline-backward-same-level</CODE>). <DT><KBD>C-c C-u</KBD> <DD>Move point up to a lower-level (more inclusive) visible heading line (<CODE>outline-up-heading</CODE>). </DL> <A NAME="IDX827"></A> <A NAME="IDX828"></A> <A NAME="IDX829"></A> <A NAME="IDX830"></A> <P> <KBD>C-c C-n</KBD> (<CODE>next-visible-heading</CODE>) moves down to the next heading line. <KBD>C-c C-p</KBD> (<CODE>previous-visible-heading</CODE>) moves similarly backward. Both accept numeric arguments as repeat counts. The names emphasize that invisible headings are skipped, but this is not really a special feature. All editing commands that look for lines ignore the invisible lines automatically.<A NAME="IDX831"></A> <A NAME="IDX832"></A> <A NAME="IDX833"></A> <A NAME="IDX834"></A> <A NAME="IDX835"></A> <A NAME="IDX836"></A> <P> More powerful motion commands understand the level structure of headings. <KBD>C-c C-f</KBD> (<CODE>outline-forward-same-level</CODE>) and <KBD>C-c C-b</KBD> (<CODE>outline-backward-same-level</CODE>) move from one heading line to another visible heading at the same depth in the outline. <KBD>C-c C-u</KBD> (<CODE>outline-up-heading</CODE>) moves backward to another heading that is less deeply nested. <P> <H3><A NAME="SEC169" HREF="emacs_toc.html#SEC169">Outline Visibility Commands</A></H3> <P> The other special commands of outline mode are used to make lines visible or invisible. Their names all start with <CODE>hide</CODE> or <CODE>show</CODE>. Most of them fall into pairs of opposites. They are not undoable; instead, you can undo right past them. Making lines visible or invisible is simply not recorded by the undo mechanism. <P> <DL COMPACT> <DT><KBD>M-x hide-body</KBD> <DD>Make all body lines in the buffer invisible. <DT><KBD>M-x show-all</KBD> <DD>Make all lines in the buffer visible. <DT><KBD>C-c C-h</KBD> <DD>Make everything under this heading invisible, not including this heading itself<BR> (<CODE>hide-subtree</CODE>). <DT><KBD>C-c C-s</KBD> <DD>Make everything under this heading visible, including body, subheadings, and their bodies (<CODE>show-subtree</CODE>). <DT><KBD>M-x hide-leaves</KBD> <DD>Make the body of this heading line, and of all its subheadings, invisible. <DT><KBD>M-x show-branches</KBD> <DD>Make all subheadings of this heading line, at all levels, visible. <DT><KBD>C-c C-i</KBD> <DD>Make immediate subheadings (one level down) of this heading line visible (<CODE>show-children</CODE>). <DT><KBD>M-x hide-entry</KBD> <DD>Make this heading line's body invisible. <DT><KBD>M-x show-entry</KBD> <DD>Make this heading line's body visible. </DL> <A NAME="IDX837"></A> <A NAME="IDX838"></A> <P> Two commands that are exact opposites are <KBD>M-x hide-entry</KBD> and <KBD>M-x show-entry</KBD>. They are used with point on a heading line, and apply only to the body lines of that heading. The subtopics and their bodies are not affected. <A NAME="IDX839"></A> <A NAME="IDX840"></A> <A NAME="IDX841"></A> <A NAME="IDX842"></A> <A NAME="IDX843"></A> <P> Two more powerful opposites are <KBD>C-c C-h</KBD> (<CODE>hide-subtree</CODE>) and <KBD>C-c C-s</KBD> (<CODE>show-subtree</CODE>). Both expect to be used when point is on a heading line, and both apply to all the lines of that heading's <DFN>subtree</DFN>: its body, all its subheadings, both direct and indirect, and all of their bodies. In other words, the subtree contains everything following this heading line, up to and not including the next heading of the same or higher rank.<A NAME="IDX844"></A> <A NAME="IDX845"></A> <P> Intermediate between a visible subtree and an invisible one is having all the subheadings visible but none of the body. There are two commands for doing this, depending on whether you want to hide the bodies or make the subheadings visible. They are <KBD>M-x hide-leaves</KBD> and <KBD>M-x show-branches</KBD>. <A NAME="IDX846"></A> <A NAME="IDX847"></A> <P> A little weaker than <CODE>show-branches</CODE> is <KBD>C-c C-i</KBD> (<CODE>show-children</CODE>). It makes just the direct subheadings visible--those one level down. Deeper subheadings remain invisible, if they were invisible.<A NAME="IDX848"></A> <A NAME="IDX849"></A> <P> Two commands have a blanket effect on the whole file. <KBD>M-x hide-body</KBD> makes all body lines invisible, so that you see just the outline structure. <KBD>M-x show-all</KBD> makes all lines visible. These commands can be thought of as a pair of opposites even though <KBD>M-x show-all</KBD> applies to more than just body lines. <P> You can turn off the use of ellipses at the ends of visible lines by setting <CODE>selective-display-ellipses</CODE> to <CODE>nil</CODE>. Then there is no visible indication of the presence of invisible lines. <P> <A NAME="IDX850"></A> <A NAME="IDX851"></A> <A NAME="IDX852"></A> <A NAME="IDX853"></A> <A NAME="IDX854"></A> <A NAME="IDX855"></A> <A NAME="IDX856"></A> <H2><A NAME="SEC170" HREF="emacs_toc.html#SEC170">TeX Mode</A></H2> <P> TeX is a powerful text formatter written by Donald Knuth; it is also free, like GNU Emacs. LaTeX is a simplified input format for TeX, implemented by TeX macros; it comes with TeX. SliTeX is a special form of LaTeX.<P> Emacs has a special TeX mode for editing TeX input files. It provides facilities for checking the balance of delimiters and for invoking TeX on all or part of the file. <A NAME="IDX857"></A> <P> TeX mode has three variants, Plain TeX mode, LaTeX mode, and SliTeX mode (these three distinct major modes differ only slightly). They are designed for editing the three different formats. The command <KBD>M-x tex-mode</KBD> looks at the contents of the buffer to determine whether the contents appear to be either LaTeX input or SliTeX input; it then selects the appropriate mode. If it can't tell which is right (e.g., the buffer is empty), the variable <CODE>tex-default-mode</CODE> controls which mode is used. <P> When <KBD>M-x tex-mode</KBD> does not guess right, you can use the commands <KBD>M-x plain-tex-mode</KBD>, <KBD>M-x latex-mode</KBD>, and <KBD>M-x slitex-mode</KBD> to select explicitly the particular variants of TeX mode. <P> <H3><A NAME="SEC171" HREF="emacs_toc.html#SEC171">TeX Editing Commands</A></H3> <P> Here are the special commands provided in TeX mode for editing the text of the file. <P> <DL COMPACT> <DT><KBD>"</KBD> <DD>Insert, according to context, either <SAMP>`"'</SAMP> or <SAMP>`"'</SAMP> or <SAMP>`"'</SAMP> (<CODE>tex-insert-quote</CODE>). <DT><KBD><KBD>LFD</KBD></KBD> <DD>Insert a paragraph break (two newlines) and check the previous paragraph for unbalanced braces or dollar signs (<CODE>tex-terminate-paragraph</CODE>). <DT><KBD>M-x validate-tex-region</KBD> <DD>Check each paragraph in the region for unbalanced braces or dollar signs. <DT><KBD>C-c {</KBD> <DD>Insert <SAMP>`{}'</SAMP> and position point between them (<CODE>tex-insert-braces</CODE>). <DT><KBD>C-c }</KBD> <DD>Move forward past the next unmatched close brace (<CODE>up-list</CODE>). </DL> <A NAME="IDX858"></A> <A NAME="IDX859"></A> <P> In TeX, the character <SAMP>`"'</SAMP> is not normally used; we use <SAMP>`"'</SAMP> to start a quotation and <SAMP>`"'</SAMP> to end one. To make editing easier under this formatting convention, TeX mode overrides the normal meaning of the key <KBD>"</KBD> with a command that inserts a pair of single-quotes or backquotes (<CODE>tex-insert-quote</CODE>). To be precise, this command inserts <SAMP>`"'</SAMP> after whitespace or an open brace, <SAMP>`"'</SAMP> after a backslash, and <SAMP>`"'</SAMP> after any other character. <P> If you need the character <SAMP>`"'</SAMP> itself in unusual contexts, use <KBD>C-q</KBD> to insert it. Also, <KBD>"</KBD> with a numeric argument always inserts that number of <SAMP>`"'</SAMP> characters. <P> In TeX mode, <SAMP>`$'</SAMP> has a special syntax code which attempts to understand the way TeX math mode delimiters match. When you insert a <SAMP>`$'</SAMP> that is meant to exit math mode, the position of the matching <SAMP>`$'</SAMP> that entered math mode is displayed for a second. This is the same feature that displays the open brace that matches a close brace that is inserted. However, there is no way to tell whether a <SAMP>`$'</SAMP> enters math mode or leaves it; so when you insert a <SAMP>`$'</SAMP> that enters math mode, the previous <SAMP>`$'</SAMP> position is shown as if it were a match, even though they are actually unrelated. <A NAME="IDX860"></A> <A NAME="IDX861"></A> <A NAME="IDX862"></A> <A NAME="IDX863"></A> <P> TeX uses braces as delimiters that must match. Some users prefer to keep braces balanced at all times, rather than inserting them singly. Use <KBD>C-c {</KBD> (<CODE>tex-insert-braces</CODE>) to insert a pair of braces. It leaves point between the two braces so you can insert the text that belongs inside. Afterward, use the command <KBD>C-c }</KBD> (<CODE>up-list</CODE>) to move forward past the close brace. <A NAME="IDX864"></A> <A NAME="IDX865"></A> <A NAME="IDX866"></A> <P> There are two commands for checking the matching of braces. <KBD>LFD</KBD> (<CODE>tex-terminate-paragraph</CODE>) checks the paragraph before point, and inserts two newlines to start a new paragraph. It prints a message in the echo area if any mismatch is found. <KBD>M-x validate-tex-region</KBD> checks a region, paragraph by paragraph. When it finds a paragraph that contains a mismatch, it displays point at the beginning of the paragraph for a few seconds and pushes a mark at that spot. Scanning continues until the whole buffer has been checked or until you type another key. The positions of the last several paragraphs with mismatches can be found in the mark ring (see section <A HREF="emacs_13.html#SEC52">The Mark Ring</A>). <P> Note that Emacs commands count square brackets and parentheses in TeX mode, not just braces. This is not strictly correct for the purpose of checking TeX syntax. However, parentheses and square brackets are likely to be used in text as matching delimiters and it is useful for the various motion commands and automatic match display to work with them. <P> <H3><A NAME="SEC172" HREF="emacs_toc.html#SEC172">LaTeX Editing Commands</A></H3> <P> LaTeX mode provides a few extra features not applicable to plain TeX. <P> <DL COMPACT> <DT><KBD>C-c C-o</KBD> <DD>Insert <SAMP>`\begin'</SAMP> and <SAMP>`\end'</SAMP> for LaTeX block and position point on a line between them. (<CODE>tex-latex-block</CODE>). <DT><KBD>C-c C-e</KBD> <DD>Close the last unended block for LaTeX (<CODE>tex-close-latex-block</CODE>). </DL> <A NAME="IDX867"></A> <A NAME="IDX868"></A> <P> In LaTeX input, <SAMP>`\begin'</SAMP> and <SAMP>`\end'</SAMP> commands are used to group blocks of text. To insert a <SAMP>`\begin'</SAMP> and a matching <SAMP>`\end'</SAMP> (on a new line following the <SAMP>`\begin'</SAMP>), use <KBD>C-c C-o</KBD> (<CODE>tex-latex-block</CODE>). A blank line is inserted between the two, and point is left there.<A NAME="IDX869"></A> <P> Emacs knows all of the standard LaTeX block names and will permissively complete a partially entered block name (see section <A HREF="emacs_10.html#SEC33">Completion</A>). You can add your own list of block names to those known by Emacs with the variable <CODE>latex-block-names</CODE>. For example, to add <SAMP>`theorem'</SAMP>, <SAMP>`corollary'</SAMP>, and <SAMP>`proof'</SAMP>, include the line <P> <PRE> (setq latex-block-names '("theorem" "corollary" "proof")) </PRE> <P> to your <TT>`.emacs'</TT> file. <A NAME="IDX870"></A> <A NAME="IDX871"></A> <P> In LaTeX input, <SAMP>`\begin'</SAMP> and <SAMP>`\end'</SAMP> commands must balance. You can use <KBD>C-c C-e</KBD> (<CODE>tex-close-latex-block</CODE>) to insert automatically a matching <SAMP>`\end'</SAMP> to match the last unmatched <SAMP>`\begin'</SAMP>. The <SAMP>`\end'</SAMP> will be indented to match the corresponding <SAMP>`\begin'</SAMP>. The <SAMP>`\end'</SAMP> will be followed by a newline if point is at the beginning of a line.<P> <H3><A NAME="SEC173" HREF="emacs_toc.html#SEC173">TeX Printing Commands</A></H3> <P> You can invoke TeX as an inferior of Emacs on either the entire contents of the buffer or just a region at a time. Running TeX in this way on just one chapter is a good way to see what your changes look like without taking the time to format the entire file. <P> <DL COMPACT> <DT><KBD>C-c C-r</KBD> <DD>Invoke TeX on the current region, together with the buffer's header (<CODE>tex-region</CODE>). <DT><KBD>C-c C-b</KBD> <DD>Invoke TeX on the entire current buffer (<CODE>tex-buffer</CODE>). <DT><KBD>C-c TAB</KBD> <DD>Invoke BibTeX on the current file (<CODE>tex-bibtex-file</CODE>). <DT><KBD>C-c C-f</KBD> <DD>Invoke TeX on the current file (<CODE>tex-file</CODE>). <DT><KBD>C-c C-l</KBD> <DD>Recenter the window showing output from the inferior TeX so that the last line can be seen (<CODE>tex-recenter-output-buffer</CODE>). <DT><KBD>C-c C-k</KBD> <DD>Kill the TeX subprocess (<CODE>tex-kill-job</CODE>). <DT><KBD>C-c C-p</KBD> <DD>Print the output from the last <KBD>C-c C-r</KBD>, <KBD>C-c C-b</KBD>, or <KBD>C-c C-f</KBD> command (<CODE>tex-print</CODE>). <DT><KBD>C-c C-v</KBD> <DD>Preview the output from the last <KBD>C-c C-r</KBD>, <KBD>C-c C-b</KBD>, or <KBD>C-c C-f</KBD> command (<CODE>tex-view</CODE>). <DT><KBD>C-c C-q</KBD> <DD>Show the printer queue (<CODE>tex-show-print-queue</CODE>). </DL> <A NAME="IDX872"></A> <A NAME="IDX873"></A> <A NAME="IDX874"></A> <A NAME="IDX875"></A> <A NAME="IDX876"></A> <A NAME="IDX877"></A> <A NAME="IDX878"></A> <A NAME="IDX879"></A> <P> You can pass the current buffer through an inferior TeX by means of <KBD>C-c C-b</KBD> (<CODE>tex-buffer</CODE>). The formatted output appears in a temporary; to print it, type <KBD>C-c C-p</KBD> (<CODE>tex-print</CODE>). Afterward use <KBD>C-c C-q</KBD> (<CODE>tex-show-print-queue</CODE>) to view the progress of your output towards being printed. If your terminal has the ability to display TeX output files, you can preview the output on the terminal with <KBD>C-c C-v</KBD> (<CODE>tex-view</CODE>). <A NAME="IDX880"></A> <A NAME="IDX881"></A> <P> You can specify the directory to use for running TeX by setting the variable <CODE>tex-directory</CODE>. <CODE>"."</CODE> is the default value. If your environment variable <CODE>TEXINPUTS</CODE> contains relative directory names, or if your files contains <SAMP>`\input'</SAMP> commands with relative file names, then <CODE>tex-directory</CODE> <EM>must</EM> be <CODE>"."</CODE> or you will get the wrong results. Otherwise, it is safe to specify some other directory, such as <TT>`/tmp'</TT>. <A NAME="IDX882"></A> <A NAME="IDX883"></A> <A NAME="IDX884"></A> <A NAME="IDX885"></A> <A NAME="IDX886"></A> <A NAME="IDX887"></A> <P> If you want to specify which shell commands are used in the inferior TeX, you can do so by setting the values of the variables <CODE>tex-run-command</CODE>, <CODE>latex-run-command</CODE>, <CODE>slitex-run-command</CODE>, <CODE>tex-dvi-print-command</CODE>, <CODE>tex-dvi-view-command</CODE>, and <CODE>tex-show-queue-command</CODE>. You <EM>must</EM> set the value of <CODE>tex-dvi-view-command</CODE> for your particular terminal; this variable has no default value. The other variables have default values that may (or may not) be appropriate for your system. <P> Normally, the file name given to these commands comes at the end of the command string; for example, <SAMP>`latex <VAR>filename</VAR>'</SAMP>. In some cases, however, the file name needs to be embedded in the command; an example is when you need to provide the file name as an argument to one command whose output is piped to another. You can specify where to put the file name with <SAMP>`*'</SAMP> in the command string. For example, <P> <PRE> (setq tex-dvi-print-command "dvips -f * | lpr") </PRE> <A NAME="IDX888"></A> <A NAME="IDX889"></A> <A NAME="IDX890"></A> <A NAME="IDX891"></A> <P> The terminal output from TeX, including any error messages, appears in a buffer called <SAMP>`*tex-shell*'</SAMP>. If TeX gets an error, you can switch to this buffer and feed it input (this works as in Shell mode; see section <A HREF="emacs_34.html#SEC316">Interactive Inferior Shell</A>). Without switching to this buffer you can scroll it so that its last line is visible by typing <KBD>C-c C-l</KBD>. <P> Type <KBD>C-c C-k</KBD> (<CODE>tex-kill-job</CODE>) to kill the TeX process if you see that its output is no longer useful. Using <KBD>C-c C-b</KBD> or <KBD>C-c C-r</KBD> also kills any TeX process still running.<A NAME="IDX892"></A> <A NAME="IDX893"></A> <P> You can also pass an arbitrary region through an inferior TeX by typing <KBD>C-c C-r</KBD> (<CODE>tex-region</CODE>). This is tricky, however, because most files of TeX input contain commands at the beginning to set parameters and define macros, without which no later part of the file will format correctly. To solve this problem, <KBD>C-c C-r</KBD> allows you to designate a part of the file as containing essential commands; it is included before the specified region as part of the input to TeX. The designated part of the file is called the <DFN>header</DFN>. <A NAME="IDX894"></A> <P> To indicate the bounds of the header in Plain TeX mode, you insert two special strings in the file. Insert <SAMP>`%**start of header'</SAMP> before the header, and <SAMP>`%**end of header'</SAMP> after it. Each string must appear entirely on one line, but there may be other text on the line before or after. The lines containing the two strings are included in the header. If <SAMP>`%**start of header'</SAMP> does not appear within the first 100 lines of the buffer, <KBD>C-c C-r</KBD> assumes that there is no header. <P> In LaTeX mode, the header begins with <SAMP>`\documentstyle'</SAMP> and ends with <SAMP>`\begin{document}'</SAMP>. These are commands that LaTeX requires you to use in any case, so nothing special needs to be done to identify the header. <A NAME="IDX895"></A> <A NAME="IDX896"></A> <P> The commands (<CODE>tex-buffer</CODE>) and (<CODE>tex-region</CODE>) do all of their work in a temporary directory, and do not have available any of the auxiliary files needed by TeX for cross-references; these commands are generally not suitable for running the final copy in which all of the cross-references need to be correct. When you want the auxiliary files, use <KBD>C-c C-f</KBD> (<CODE>tex-file</CODE>) which runs TeX on the current buffer's file, in that file's directory. Before TeX runs, you will be asked about saving any modified buffers. Generally, you need to use (<CODE>tex-file</CODE>) twice to get cross-references correct. <A NAME="IDX897"></A> <A NAME="IDX898"></A> <A NAME="IDX899"></A> <P> For LaTeX files, you can use BibTeX to process the auxiliary file for the current buffer's file. BibTeX looks up bibliographic citations in a data base and prepares the cited references for the bibliography section. The command <KBD>C-c TAB</KBD> (<CODE>tex-bibtex-file</CODE>) runs the shell command (<CODE>tex-bibtex-command</CODE>) to produce a <SAMP>`.bbl'</SAMP> file for the current buffer's file. Generally, you need to do <KBD>C-c C-f</KBD> (<CODE>tex-file</CODE>) once to generate the <SAMP>`.aux'</SAMP> file, then do <KBD>C-c TAB</KBD> (<CODE>tex-bibtex-file</CODE>), and then repeat <KBD>C-c C-f</KBD> (<CODE>tex-file</CODE>) twice more to get the cross-references correct. <A NAME="IDX900"></A> <A NAME="IDX901"></A> <A NAME="IDX902"></A> <A NAME="IDX903"></A> <A NAME="IDX904"></A> <P> Entering any kind of TeX mode runs the hooks <CODE>text-mode-hook</CODE> and <CODE>tex-mode-hook</CODE>. Then it runs either <CODE>plain-tex-mode-hook</CODE> or <CODE>latex-mode-hook</CODE>, whichever is appropriate. For SliTeX files, it calls <CODE>slitex-mode-hook</CODE>. Starting the TeX shell runs the hook <CODE>tex-shell-hook</CODE>. See section <A HREF="emacs_35.html#SEC337">Hooks</A>. <P> <H3><A NAME="SEC174" HREF="emacs_toc.html#SEC174">Unix TeX Distribution</A></H3> <P> TeX for Unix systems can be obtained from the University of Washington for a distribution fee. <P> To order a full distribution, send $200.00 for a 1/2-inch 9-track 1600 bpi (tar or cpio) tape reel, or $210.00 for a 1/4-inch 4-track QIC-24 (tar or cpio) cartridge, payable to the University of Washington to: <P> <PRE> Northwest Computing Support Center DR-10, Thomson Hall 35 University of Washington Seattle, Washington 98195 </PRE> <P> Purchase orders are acceptable, but there is an extra charge of $10.00, to pay for processing charges. <P> For overseas orders please add $20.00 to the base cost for shipment via air parcel post, or $30.00 for shipment via courier. <P> The normal distribution is a tar tape, blocked 20, 1600 bpi, on an industry standard 2400 foot half-inch reel. The physical format for the 1/4 inch streamer cartridges uses QIC-11, 8000 bpi, 4-track serpentine recording for the SUN. Also, System V tapes can be written in cpio format, blocked 5120 bytes, ASCII headers. <P> <H2><A NAME="SEC175" HREF="emacs_toc.html#SEC175">Nroff Mode</A></H2> <A NAME="IDX905"></A> <A NAME="IDX906"></A> <P> Nroff mode is a mode like Text mode but modified to handle nroff commands present in the text. Invoke <KBD>M-x nroff-mode</KBD> to enter this mode. It differs from Text mode in only a few ways. All nroff command lines are considered paragraph separators, so that filling will never garble the nroff commands. Pages are separated by <SAMP>`.bp'</SAMP> commands. Comments start with backslash-doublequote. Also, three special commands are provided that are not in Text mode: <A NAME="IDX907"></A> <A NAME="IDX908"></A> <A NAME="IDX909"></A> <A NAME="IDX910"></A> <A NAME="IDX911"></A> <A NAME="IDX912"></A> <P> <DL COMPACT> <DT><KBD>M-n</KBD> <DD>Move to the beginning of the next line that isn't an nroff command (<CODE>forward-text-line</CODE>). An argument is a repeat count. <DT><KBD>M-p</KBD> <DD>Like <KBD>M-n</KBD> but move up (<CODE>backward-text-line</CODE>). <DT><KBD>M-?</KBD> <DD>Prints in the echo area the number of text lines (lines that are not nroff commands) in the region (<CODE>count-text-lines</CODE>). </DL> <A NAME="IDX913"></A> <P> The other feature of Nroff mode is that you can turn on Electric Nroff mode. This is a minor mode that you can turn on or off with <KBD>M-x electric-nroff-mode</KBD> (see section <A HREF="emacs_35.html#SEC333">Minor Modes</A>). When the mode is on, each time you use <KBD>RET</KBD> to end a line that contains an nroff command that opens a kind of grouping, the matching nroff command to close that grouping is automatically inserted on the following line. For example, if you are at the beginning of a line and type <KBD>. ( b <KBD>RET</KBD></KBD>, this inserts the matching command <SAMP>`.)b'</SAMP> on a new line following point. <A NAME="IDX914"></A> <P> Entering Nroff mode runs the hook <CODE>text-mode-hook</CODE>, followed by the hook <CODE>nroff-mode-hook</CODE> (see section <A HREF="emacs_35.html#SEC337">Hooks</A>). <P>Go to the <A HREF="emacs_24.html">previous</A>, <A HREF="emacs_26.html">next</A> section.<P>
alji2106/CS1300Terminal
doc/emacs/emacs_25.html
HTML
gpl-2.0
58,474
SELECT id_registrazione, dat_registrazione, des_registrazione FROM contabilita.registrazione WHERE id_cliente = %id_cliente% AND num_fattura = '%num_fattura%' AND dat_registrazione = '%dat_registrazione%' AND extract(year from dat_registrazione) = extract(year from current_date)
StebaKite/chopin
query/primanota/ricercaFatturaCliente.sql
SQL
gpl-2.0
288
/* * MATRIX COMPUTATION FOR RESERVATION BASED SYSTEMS * * Copyright (C) 2013, University of Trento * Authors: Luigi Palopoli <[email protected]> * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. */ #ifndef MATRIX_HPP #define MATRIX_HPP double matrix_prob_ts(int i, int j, int q, const cdf &p, const pmf &u); double matrix_prob_ts_compressed(int i, int j, int q, const cdf &p, const pmf &u); void compute_matrixes(const MatrixXd & mat, int dim, MatrixXd & B, MatrixXd & A0, MatrixXd & A1, MatrixXd & A2); #endif
luigipalopoli/PROSIT
tool/matrix.hpp
C++
gpl-2.0
693
from __future__ import print_function """ Deprecated. Use ``update-tld-names`` command instead. """ __title__ = 'tld.update' __author__ = 'Artur Barseghyan' __copyright__ = '2013-2015 Artur Barseghyan' __license__ = 'GPL 2.0/LGPL 2.1' from tld.utils import update_tld_names _ = lambda x: x if __name__ == '__main__': update_tld_names() print(_("Local TLD names file has been successfully updated!"))
underdogio/tld
src/tld/update.py
Python
gpl-2.0
414
<?php /** * PESCMS for PHP 5.6+ * * Copyright (c) 2015 PESCMS (http://www.pescms.com) * * For the full copyright and license information, please view * the file LICENSE.md that was distributed with this source code. */ namespace App\Team\GET; class Project extends Content{ /** * 项目数据分析 */ public function analyze(){ $param = []; if(empty($_GET['begin']) && empty($_GET['end']) ){ $param['begin'] = time() - 86400 * 30; $param['end'] = time(); }else{ $param['begin'] = strtotime(self::g('begin'). '00:00:00'); $param['end'] = strtotime(self::g('end'). '23:59:59'); } $result = self::db('project AS p') ->field('p.project_id AS id, p.project_title AS name, t.task_status, COUNT(t.task_status) AS total ') ->join("{$this->prefix}task AS t ON t.task_project_id = p.project_id") ->where("t.task_submit_time BETWEEN :begin AND :end") ->group('p.project_id, t.task_status') ->select($param); $list = []; $project = \Model\Content::listContent(['table' => 'project', 'order' => 'project_listsort ASC, project_id DESC']); foreach ($project as $item){ $list[$item['project_id']]['name'] = $item['project_title']; } if(!empty($result)){ foreach ($result as $value){ if(empty($list[$value['id']]['total'])){ $list[$value['id']]['total'] = 0; } $list[$value['id']]['total'] += $value['total']; $list[$value['id']]['task_status'][$value['task_status']] = $value['total']; } } $this->assign('title', '项目数据分析'); $this->assign('list', $list); $this->layout('User/User_analyze'); } }
lazyphp/PESCMS-TEAM
App/Team/GET/Project.php
PHP
gpl-2.0
1,870
<?php /** * --------------------------------------------------------------------- * GLPI - Gestionnaire Libre de Parc Informatique * Copyright (C) 2015-2017 Teclib' and contributors. * * http://glpi-project.org * * based on GLPI - Gestionnaire Libre de Parc Informatique * Copyright (C) 2003-2014 by the INDEPNET Development Team. * * --------------------------------------------------------------------- * * LICENSE * * This file is part of GLPI. * * GLPI is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * GLPI is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GLPI. If not, see <http://www.gnu.org/licenses/>. * --------------------------------------------------------------------- */ /** @file * @brief */ include ('../inc/includes.php'); Session::checkRight("sla", READ); Html::header(SLA::getTypeName(Session::getPluralNumber()), $_SERVER['PHP_SELF'], "config", "sla"); Search::show('SLA'); Html::footer();
eltharin/glpi
front/sla.php
PHP
gpl-2.0
1,394
/* $Id: mpnotification-r0drv-solaris.c $ */ /** @file * IPRT - Multiprocessor Event Notifications, Ring-0 Driver, Solaris. */ /* * Copyright (C) 2008-2015 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * * The contents of this file may alternatively be used under the terms * of the Common Development and Distribution License Version 1.0 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the * VirtualBox OSE distribution, in which case the provisions of the * CDDL are applicable instead of those of the GPL. * * You may elect to license modified versions of this file under the * terms and conditions of either the GPL or the CDDL or both. */ /********************************************************************************************************************************* * Header Files * *********************************************************************************************************************************/ #include "the-solaris-kernel.h" #include "internal/iprt.h" #include <iprt/err.h> #include <iprt/mp.h> #include <iprt/cpuset.h> #include <iprt/string.h> #include <iprt/thread.h> #include "r0drv/mp-r0drv.h" /********************************************************************************************************************************* * Global Variables * *********************************************************************************************************************************/ /** Whether CPUs are being watched or not. */ static volatile bool g_fSolCpuWatch = false; /** Set of online cpus that is maintained by the MP callback. * This avoids locking issues querying the set from the kernel as well as * eliminating any uncertainty regarding the online status during the * callback. */ RTCPUSET g_rtMpSolCpuSet; /** * Internal solaris representation for watching CPUs. */ typedef struct RTMPSOLWATCHCPUS { /** Function pointer to Mp worker. */ PFNRTMPWORKER pfnWorker; /** Argument to pass to the Mp worker. */ void *pvArg; } RTMPSOLWATCHCPUS; typedef RTMPSOLWATCHCPUS *PRTMPSOLWATCHCPUS; /** * Solaris callback function for Mp event notification. * * @returns Solaris error code. * @param CpuState The current event/state of the CPU. * @param iCpu Which CPU is this event for. * @param pvArg Ignored. * * @remarks This function assumes index == RTCPUID. * We may -not- be firing on the CPU going online/offline and called * with preemption enabled. */ static int rtMpNotificationCpuEvent(cpu_setup_t CpuState, int iCpu, void *pvArg) { RTMPEVENT enmMpEvent; /* * Update our CPU set structures first regardless of whether we've been * scheduled on the right CPU or not, this is just atomic accounting. */ if (CpuState == CPU_ON) { enmMpEvent = RTMPEVENT_ONLINE; RTCpuSetAdd(&g_rtMpSolCpuSet, iCpu); } else if (CpuState == CPU_OFF) { enmMpEvent = RTMPEVENT_OFFLINE; RTCpuSetDel(&g_rtMpSolCpuSet, iCpu); } else return 0; rtMpNotificationDoCallbacks(enmMpEvent, iCpu); NOREF(pvArg); return 0; } DECLHIDDEN(int) rtR0MpNotificationNativeInit(void) { if (ASMAtomicReadBool(&g_fSolCpuWatch) == true) return VERR_WRONG_ORDER; /* * Register the callback building the online cpu set as we do so. */ RTCpuSetEmpty(&g_rtMpSolCpuSet); mutex_enter(&cpu_lock); register_cpu_setup_func(rtMpNotificationCpuEvent, NULL /* pvArg */); for (int i = 0; i < (int)RTMpGetCount(); ++i) if (cpu_is_online(cpu[i])) rtMpNotificationCpuEvent(CPU_ON, i, NULL /* pvArg */); ASMAtomicWriteBool(&g_fSolCpuWatch, true); mutex_exit(&cpu_lock); return VINF_SUCCESS; } DECLHIDDEN(void) rtR0MpNotificationNativeTerm(void) { if (ASMAtomicReadBool(&g_fSolCpuWatch) == true) { mutex_enter(&cpu_lock); unregister_cpu_setup_func(rtMpNotificationCpuEvent, NULL /* pvArg */); ASMAtomicWriteBool(&g_fSolCpuWatch, false); mutex_exit(&cpu_lock); } }
miguelinux/vbox
src/VBox/Runtime/r0drv/solaris/mpnotification-r0drv-solaris.c
C
gpl-2.0
4,766