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892 | <filename>advisories/unreviewed/2022/05/GHSA-wpqw-x29j-wf9j/GHSA-wpqw-x29j-wf9j.json<gh_stars>100-1000
{
"schema_version": "1.2.0",
"id": "GHSA-wpqw-x29j-wf9j",
"modified": "2022-05-01T18:21:31Z",
"published": "2022-05-01T18:21:31Z",
"aliases": [
"CVE-2007-4222"
],
"details": "Buffer overflow in the TagAttributeListCopy function in nnotes.dll in IBM Lotus Notes before 7.0.3 allows user-assisted remote attackers to execute arbitrary code via a crafted HTML email, related to duplicate RTF conversion when the recipient operates on this email.",
"severity": [
],
"affected": [
],
"references": [
{
"type": "ADVISORY",
"url": "https://nvd.nist.gov/vuln/detail/CVE-2007-4222"
},
{
"type": "WEB",
"url": "https://exchange.xforce.ibmcloud.com/vulnerabilities/37363"
},
{
"type": "WEB",
"url": "http://labs.idefense.com/intelligence/vulnerabilities/display.php?id=604"
},
{
"type": "WEB",
"url": "http://www-1.ibm.com/support/docview.wss?rs=477&uid=swg21272930"
},
{
"type": "WEB",
"url": "http://www.securityfocus.com/bid/26200"
},
{
"type": "WEB",
"url": "http://www.securitytracker.com/id?1018857"
}
],
"database_specific": {
"cwe_ids": [
"CWE-119"
],
"severity": "HIGH",
"github_reviewed": false
}
} | 639 |
313 | # -*- coding: utf-8 -*-
# Copyright 2021, IBM.
#
# This source code is licensed under the Apache License, Version 2.0 found in
# the LICENSE.txt file in the root directory of this source tree.
import json
import os
from qiskit import ClassicalRegister
from qiskit.compiler import assemble, transpile
from qiskit import QuantumCircuit
from qiskit import QuantumRegister
def grovers_circuit(final_measure=True, allow_sampling=True):
"""Testing a circuit originated in the Grover algorithm"""
circuits = []
# 6-qubit grovers
qr = QuantumRegister(6)
if final_measure:
cr = ClassicalRegister(2)
regs = (qr, cr)
else:
regs = (qr, )
circuit = QuantumCircuit(*regs)
circuit.h(qr[0])
circuit.h(qr[1])
circuit.x(qr[2])
circuit.x(qr[3])
circuit.x(qr[0])
circuit.cx(qr[0], qr[2])
circuit.x(qr[0])
circuit.cx(qr[1], qr[3])
circuit.ccx(qr[2], qr[3], qr[4])
circuit.cx(qr[1], qr[3])
circuit.x(qr[0])
circuit.cx(qr[0], qr[2])
circuit.x(qr[0])
circuit.x(qr[1])
circuit.x(qr[4])
circuit.h(qr[4])
circuit.ccx(qr[0], qr[1], qr[4])
circuit.h(qr[4])
circuit.x(qr[0])
circuit.x(qr[1])
circuit.x(qr[4])
circuit.h(qr[0])
circuit.h(qr[1])
circuit.h(qr[4])
if final_measure:
circuit.barrier(qr)
circuit.measure(qr[0], cr[0])
circuit.measure(qr[1], cr[1])
if not allow_sampling:
circuit.barrier(qr)
circuit.iden(qr)
circuits.append(circuit)
return circuits
if __name__ == '__main__':
# Run qasm simulator
shots = 4000
circuits = grovers_circuit(final_measure=True, allow_sampling=True)
if os.getenv('USE_MPI', False):
qobj = assemble(transpile(circuits), shots=shots,
blocking_enable=True, blocking_qubits=2)
else:
qobj = assemble(transpile(circuits), shots=shots)
with open('qobj.json', 'wt') as fp:
json.dump(qobj.to_dict(), fp)
| 941 |
348 | {"nom":"Agonac","circ":"3ème circonscription","dpt":"Dordogne","inscrits":1299,"abs":575,"votants":724,"blancs":57,"nuls":17,"exp":650,"res":[{"nuance":"SOC","nom":"<NAME>","voix":351},{"nuance":"MDM","nom":"<NAME>","voix":299}]} | 94 |
348 | <gh_stars>100-1000
{"nom":"Péronville","circ":"4ème circonscription","dpt":"Eure-et-Loir","inscrits":198,"abs":94,"votants":104,"blancs":5,"nuls":6,"exp":93,"res":[{"nuance":"UDI","nom":"<NAME>","voix":62},{"nuance":"REM","nom":"Mme <NAME>","voix":31}]} | 106 |
348 | <gh_stars>100-1000
class EllipticCurve:
"""An elliptic curve over a prime field.
The field is specified by the parameter 'p'.
The curve coefficients are 'a' and 'b'.
The base point of the cyclic subgroup is 'g'.
The order of the subgroup is 'n'.
"""
def __init__(self, p, a, b, g, n):
self.p = p
self.a = a
self.b = b
self.g = g
self.n = n
assert pow(2, p - 1, p) == 1
assert (4 * a * a * a + 27 * b * b) % p != 0
assert self.is_on_curve(g)
assert self.mult(n, g) is None
def is_on_curve(self, point):
"""Checks whether the given point lies on the elliptic curve."""
if point is None:
return True
x, y = point
return (y * y - x * x * x - self.a * x - self.b) % self.p == 0
def add(self, point1, point2):
"""Returns the result of point1 + point2 according to the group law."""
assert self.is_on_curve(point1)
assert self.is_on_curve(point2)
if point1 is None:
return point2
if point2 is None:
return point1
x1, y1 = point1
x2, y2 = point2
if x1 == x2 and y1 != y2:
return None
if x1 == x2:
m = (3 * x1 * x1 + self.a) * inverse_mod(2 * y1, self.p)
else:
m = (y1 - y2) * inverse_mod(x1 - x2, self.p)
x3 = m * m - x1 - x2
y3 = y1 + m * (x3 - x1)
result = (x3 % self.p,
-y3 % self.p)
assert self.is_on_curve(result)
return result
def double(self, point):
"""Returns 2 * point."""
return self.add(point, point)
def neg(self, point):
"""Returns -point."""
if point is None:
return None
x, y = point
result = x, -y % self.p
assert self.is_on_curve(result)
return result
def mult(self, n, point):
"""Returns n * point computed using the double and add algorithm."""
if n % self.n == 0 or point is None:
return None
if n < 0:
return self.neg(self.mult(-n, point))
result = None
addend = point
while n:
if n & 1:
result = self.add(result, addend)
addend = self.double(addend)
n >>= 1
return result
def __str__(self):
a = abs(self.a)
b = abs(self.b)
a_sign = '-' if self.a < 0 else '+'
b_sign = '-' if self.b < 0 else '+'
return 'y^2 = (x^3 {} {}x {} {}) mod {}'.format(
a_sign, a, b_sign, b, self.p)
def inverse_mod(n, p):
"""Returns the inverse of n modulo p.
This function returns the only integer x such that (x * n) % p == 1.
n must be non-zero and p must be a prime.
"""
if n == 0:
raise ZeroDivisionError('division by zero')
if n < 0:
return p - inverse_mod(-n, p)
s, old_s = 0, 1
t, old_t = 1, 0
r, old_r = p, n
while r != 0:
quotient = old_r // r
old_r, r = r, old_r - quotient * r
old_s, s = s, old_s - quotient * s
old_t, t = t, old_s - quotient * t
gcd, x, y = old_r, old_s, old_t
assert gcd == 1
assert (n * x) % p == 1
return x % p
tinycurve = EllipticCurve(
p=10177,
a=1,
b=-1,
g=(1, 1),
n=10331,
)
| 1,721 |
578 | /*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#pragma once
#include <folly/Range.h>
#include <folly/hash/Hash.h>
#include <stdexcept>
#include <string>
#include <unordered_map>
#include <vector>
#include "cachelib/cachebench/consistency/ShortThreadId.h"
#include "cachelib/cachebench/consistency/ValueHistory.h"
namespace facebook {
namespace cachelib {
namespace cachebench {
class ValueTracker {
public:
using TrackerIndexT = uint32_t;
using HistoryIndexT = uint32_t;
// Opaque for the user index into the value history
struct Index {
friend ValueTracker;
private:
Index(TrackerIndexT ti, HistoryIndexT hi)
: trackerIndex{ti}, historyIndex{hi} {}
// Indexing scheme is like follows:
// trackers_[@trackerIndex].getAt/setAt(@historyIndex)
TrackerIndexT trackerIndex{};
HistoryIndexT historyIndex{};
};
// Helper for the constructor
static std::vector<folly::StringPiece> wrapStrings(
const std::vector<std::string>& v);
// Value tracker constructor
//
// Params:
// @keys list of keys to track
explicit ValueTracker(std::vector<folly::StringPiece> keys);
ValueTracker(const ValueTracker&) = delete;
ValueTracker& operator=(const ValueTracker&) = delete;
// Philosophy here is beginXXX function marks operation begin and returns
// the operation id, that will be used in endXXX call for internal purpose.
Index beginGet(folly::StringPiece key);
Index beginSet(folly::StringPiece key, uint64_t value);
Index beginDelete(folly::StringPiece key);
// Returns false if inconsistent and feeds @es with the history that reveals
// inconsistency (optional).
bool endGet(Index beginIdx,
uint64_t data,
bool found,
EventStream* es = nullptr);
void endSet(Index beginIdx);
void endDelete(Index beginIdx);
void evicted(folly::StringPiece key);
private:
// Map from key to index into trackers vector
using ValueHistoryMap = std::unordered_map<folly::StringPiece,
TrackerIndexT,
folly::hasher<folly::StringPiece>>;
TrackerIndexT getTrackerIndexOrThrow(folly::StringPiece key) const;
EventInfo eventInfo() const;
ValueHistoryMap keyTrackerMap_;
std::vector<ValueHistory> trackers_;
mutable ShortThreadIdMap shortTids_;
};
} // namespace cachebench
} // namespace cachelib
} // namespace facebook
| 1,001 |
60,067 | #ifndef INTEGRAL_IMAGE_OP_H_
#define INTEGRAL_IMAGE_OP_H_
#include "caffe2/core/context.h"
#include "caffe2/core/logging.h"
#include "caffe2/core/operator.h"
#include "caffe2/utils/math.h"
namespace caffe2 {
template <typename T, class Context>
class IntegralImageOp final : public Operator<Context> {
public:
template <class... Args>
explicit IntegralImageOp(Args&&... args)
: Operator<Context>(std::forward<Args>(args)...) {}
USE_OPERATOR_CONTEXT_FUNCTIONS;
bool RunOnDevice() override;
};
template <typename T, class Context>
class IntegralImageGradientOp final : public Operator<Context> {
public:
template <class... Args>
explicit IntegralImageGradientOp(Args&&... args)
: Operator<Context>(std::forward<Args>(args)...) {}
USE_OPERATOR_CONTEXT_FUNCTIONS;
bool RunOnDevice() override;
protected:
Tensor row_pass_buffer_;
};
} // namespace caffe2
#endif // INTEGRAL_IMAGE_OP_H_
| 330 |
630 | <filename>src/check_platform.c
#include <stdio.h>
#include <inttypes.h>
#include <assert.h>
#include "tcpkali_atomic.h"
struct atomic_holder_1 {
char c;
atomic_wide_t atomic;
};
struct atomic_holder_2 {
char c;
atomic_wide_t atomic __attribute__((aligned(sizeof(atomic_wide_t))));
};
int
main() {
/* Check that atomic is properly aligned for atomicity */
assert(((long)(&((struct atomic_holder_1 *)0)->atomic)
& (sizeof(atomic_narrow_t) - 1))
== 0);
assert(((long)(&((struct atomic_holder_2 *)0)->atomic)
& (sizeof(atomic_narrow_t) - 1))
== 0);
assert((&((struct atomic_holder_1 *)0)->atomic)
== (&((struct atomic_holder_2 *)0)->atomic));
return 0;
}
| 329 |
323 | <filename>spot_real/Control/Teensy/SpotMiniMini/lib/ros_lib/mini_ros/JointAngles.h
#ifndef _ROS_mini_ros_JointAngles_h
#define _ROS_mini_ros_JointAngles_h
#include <stdint.h>
#include <string.h>
#include <stdlib.h>
#include "ros/msg.h"
namespace mini_ros
{
class JointAngles : public ros::Msg
{
public:
typedef float _fls_type;
_fls_type fls;
typedef float _fle_type;
_fle_type fle;
typedef float _flw_type;
_flw_type flw;
typedef float _frs_type;
_frs_type frs;
typedef float _fre_type;
_fre_type fre;
typedef float _frw_type;
_frw_type frw;
typedef float _bls_type;
_bls_type bls;
typedef float _ble_type;
_ble_type ble;
typedef float _blw_type;
_blw_type blw;
typedef float _brs_type;
_brs_type brs;
typedef float _bre_type;
_bre_type bre;
typedef float _brw_type;
_brw_type brw;
typedef bool _step_or_view_type;
_step_or_view_type step_or_view;
JointAngles():
fls(0),
fle(0),
flw(0),
frs(0),
fre(0),
frw(0),
bls(0),
ble(0),
blw(0),
brs(0),
bre(0),
brw(0),
step_or_view(0)
{
}
virtual int serialize(unsigned char *outbuffer) const
{
int offset = 0;
union {
float real;
uint32_t base;
} u_fls;
u_fls.real = this->fls;
*(outbuffer + offset + 0) = (u_fls.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_fls.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_fls.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_fls.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->fls);
union {
float real;
uint32_t base;
} u_fle;
u_fle.real = this->fle;
*(outbuffer + offset + 0) = (u_fle.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_fle.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_fle.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_fle.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->fle);
union {
float real;
uint32_t base;
} u_flw;
u_flw.real = this->flw;
*(outbuffer + offset + 0) = (u_flw.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_flw.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_flw.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_flw.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->flw);
union {
float real;
uint32_t base;
} u_frs;
u_frs.real = this->frs;
*(outbuffer + offset + 0) = (u_frs.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_frs.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_frs.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_frs.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->frs);
union {
float real;
uint32_t base;
} u_fre;
u_fre.real = this->fre;
*(outbuffer + offset + 0) = (u_fre.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_fre.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_fre.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_fre.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->fre);
union {
float real;
uint32_t base;
} u_frw;
u_frw.real = this->frw;
*(outbuffer + offset + 0) = (u_frw.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_frw.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_frw.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_frw.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->frw);
union {
float real;
uint32_t base;
} u_bls;
u_bls.real = this->bls;
*(outbuffer + offset + 0) = (u_bls.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_bls.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_bls.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_bls.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->bls);
union {
float real;
uint32_t base;
} u_ble;
u_ble.real = this->ble;
*(outbuffer + offset + 0) = (u_ble.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_ble.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_ble.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_ble.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->ble);
union {
float real;
uint32_t base;
} u_blw;
u_blw.real = this->blw;
*(outbuffer + offset + 0) = (u_blw.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_blw.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_blw.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_blw.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->blw);
union {
float real;
uint32_t base;
} u_brs;
u_brs.real = this->brs;
*(outbuffer + offset + 0) = (u_brs.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_brs.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_brs.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_brs.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->brs);
union {
float real;
uint32_t base;
} u_bre;
u_bre.real = this->bre;
*(outbuffer + offset + 0) = (u_bre.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_bre.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_bre.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_bre.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->bre);
union {
float real;
uint32_t base;
} u_brw;
u_brw.real = this->brw;
*(outbuffer + offset + 0) = (u_brw.base >> (8 * 0)) & 0xFF;
*(outbuffer + offset + 1) = (u_brw.base >> (8 * 1)) & 0xFF;
*(outbuffer + offset + 2) = (u_brw.base >> (8 * 2)) & 0xFF;
*(outbuffer + offset + 3) = (u_brw.base >> (8 * 3)) & 0xFF;
offset += sizeof(this->brw);
union {
bool real;
uint8_t base;
} u_step_or_view;
u_step_or_view.real = this->step_or_view;
*(outbuffer + offset + 0) = (u_step_or_view.base >> (8 * 0)) & 0xFF;
offset += sizeof(this->step_or_view);
return offset;
}
virtual int deserialize(unsigned char *inbuffer)
{
int offset = 0;
union {
float real;
uint32_t base;
} u_fls;
u_fls.base = 0;
u_fls.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_fls.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_fls.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_fls.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->fls = u_fls.real;
offset += sizeof(this->fls);
union {
float real;
uint32_t base;
} u_fle;
u_fle.base = 0;
u_fle.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_fle.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_fle.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_fle.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->fle = u_fle.real;
offset += sizeof(this->fle);
union {
float real;
uint32_t base;
} u_flw;
u_flw.base = 0;
u_flw.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_flw.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_flw.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_flw.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->flw = u_flw.real;
offset += sizeof(this->flw);
union {
float real;
uint32_t base;
} u_frs;
u_frs.base = 0;
u_frs.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_frs.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_frs.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_frs.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->frs = u_frs.real;
offset += sizeof(this->frs);
union {
float real;
uint32_t base;
} u_fre;
u_fre.base = 0;
u_fre.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_fre.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_fre.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_fre.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->fre = u_fre.real;
offset += sizeof(this->fre);
union {
float real;
uint32_t base;
} u_frw;
u_frw.base = 0;
u_frw.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_frw.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_frw.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_frw.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->frw = u_frw.real;
offset += sizeof(this->frw);
union {
float real;
uint32_t base;
} u_bls;
u_bls.base = 0;
u_bls.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_bls.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_bls.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_bls.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->bls = u_bls.real;
offset += sizeof(this->bls);
union {
float real;
uint32_t base;
} u_ble;
u_ble.base = 0;
u_ble.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_ble.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_ble.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_ble.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->ble = u_ble.real;
offset += sizeof(this->ble);
union {
float real;
uint32_t base;
} u_blw;
u_blw.base = 0;
u_blw.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_blw.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_blw.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_blw.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->blw = u_blw.real;
offset += sizeof(this->blw);
union {
float real;
uint32_t base;
} u_brs;
u_brs.base = 0;
u_brs.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_brs.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_brs.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_brs.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->brs = u_brs.real;
offset += sizeof(this->brs);
union {
float real;
uint32_t base;
} u_bre;
u_bre.base = 0;
u_bre.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_bre.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_bre.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_bre.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->bre = u_bre.real;
offset += sizeof(this->bre);
union {
float real;
uint32_t base;
} u_brw;
u_brw.base = 0;
u_brw.base |= ((uint32_t) (*(inbuffer + offset + 0))) << (8 * 0);
u_brw.base |= ((uint32_t) (*(inbuffer + offset + 1))) << (8 * 1);
u_brw.base |= ((uint32_t) (*(inbuffer + offset + 2))) << (8 * 2);
u_brw.base |= ((uint32_t) (*(inbuffer + offset + 3))) << (8 * 3);
this->brw = u_brw.real;
offset += sizeof(this->brw);
union {
bool real;
uint8_t base;
} u_step_or_view;
u_step_or_view.base = 0;
u_step_or_view.base |= ((uint8_t) (*(inbuffer + offset + 0))) << (8 * 0);
this->step_or_view = u_step_or_view.real;
offset += sizeof(this->step_or_view);
return offset;
}
const char * getType(){ return "mini_ros/JointAngles"; };
const char * getMD5(){ return "54bfcd55046a61d9df3827d322506389"; };
};
}
#endif
| 6,393 |
6,224 | /*
* Copyright (c) 2021 Microchip Technology Inc. and its subsidiaries.
*
* SPDX-License-Identifier: Apache-2.0
*/
#ifndef _MEC_UART_H
#define _MEC_UART_H
#include <stdint.h>
#include <stddef.h>
#define MCHP_UART_RX_FIFO_MAX_LEN 16u
#define MCHP_UART_TX_FIFO_MAX_LEN 16u
#define MCHP_UART_BAUD_RATE_MIN 50u
#define MCHP_UART_BAUD_RATE_MAX 1500000u
#define MCHP_UART_SPACING 0x400u
/*
* LCR DLAB=0
* Transmit buffer(WO), Receive buffer(RO)
* LCR DLAB=1, BAUD rate divisor LSB
*/
#define MCHP_UART_RTXB_OFS 0u
#define MCHP_UART_BRGD_LSB_OFS 0u
/*
* LCR DLAB=0
* Interrupt Enable Register, R/W
* LCR DLAB=1, BAUD rate divisor MSB
*/
#define MCHP_UART_BRGD_MSB_OFS 1u
#define MCHP_UART_IER_OFS 1u
#define MCHP_UART_IER_MASK 0x0fu
#define MCHP_UART_IER_ERDAI 0x01u /* Received data available and timeouts */
#define MCHP_UART_IER_ETHREI 0x02u /* TX Holding register empty */
#define MCHP_UART_IER_ELSI 0x04u /* Errors: Overrun, Parity, Framing, and Break */
#define MCHP_UART_IER_EMSI 0x08u /* Modem Status */
#define MCHP_UART_IER_ALL 0x0fu
/* FIFO Contro Register, Write-Only */
#define MCHP_UART_FCR_OFS 2u
#define MCHP_UART_FCR_MASK 0xcfu
#define MCHP_UART_FCR_EXRF 0x01u /* Enable TX & RX FIFO's */
#define MCHP_UART_FCR_CLR_RX_FIFO 0x02u /* Clear RX FIFO, bit is self-clearing */
#define MCHP_UART_FCR_CLR_TX_FIFO 0x04u /* Clear TX FIFO, bit is self-clearing */
#define MCHP_UART_FCR_DMA_EN 0x08u /* DMA Mode Enable. Not implemented */
#define MCHP_UART_FCR_RX_FIFO_LVL_MASK 0xc0u /* RX FIFO trigger level mask */
#define MCHP_UART_FCR_RX_FIFO_LVL_1 0x00u
#define MCHP_UART_FCR_RX_FIFO_LVL_4 0x40u
#define MCHP_UART_FCR_RX_FIFO_LVL_8 0x80u
#define MCHP_UART_FCR_RX_FIFO_LVL_14 0xc0u
/* Interrupt Identification Register, Read-Only */
#define MCHP_UART_IIR_OFS 2u
#define MCHP_UART_IIR_MASK 0xcfu
#define MCHP_UART_IIR_NOT_IPEND 0x01u
#define MCHP_UART_IIR_INTID_MASK0 0x07u
#define MCHP_UART_IIR_INTID_POS 1u
#define MCHP_UART_IIR_INTID_MASK 0x0eu
#define MCHP_UART_IIR_FIFO_EN_MASK 0xc0u
/*
* interrupt values
* Highest priority: Line status, overrun, framing, or break
* Highest-1. RX data available or RX FIFO trigger level reached
* Highest-2. RX timeout
* Highest-3. TX Holding register empty
* Highest-4. MODEM status
*/
#define MCHP_UART_IIR_INT_NONE 0x01u
#define MCHP_UART_IIR_INT_LS 0x06u
#define MCHP_UART_IIR_INT_RX 0x04u
#define MCHP_UART_IIR_INT_RX_TMOUT 0x0cu
#define MCHP_UART_IIR_INT_THRE 0x02u
#define MCHP_UART_IIR_INT_MS 0x00u
/* Line Control Register R/W */
#define MCHP_UART_LCR_OFS 3u
#define MCHP_UART_LCR_WORD_LEN_MASK 0x03u
#define MCHP_UART_LCR_WORD_LEN_5 0x00u
#define MCHP_UART_LCR_WORD_LEN_6 0x01u
#define MCHP_UART_LCR_WORD_LEN_7 0x02u
#define MCHP_UART_LCR_WORD_LEN_8 0x03u
#define MCHP_UART_LCR_STOP_BIT_1 0x00u
#define MCHP_UART_LCR_STOP_BIT_2 0x04u
#define MCHP_UART_LCR_PARITY_NONE 0x00u
#define MCHP_UART_LCR_PARITY_EN 0x08u
#define MCHP_UART_LCR_PARITY_ODD 0x00u
#define MCHP_UART_LCR_PARITY_EVEN 0x10u
#define MCHP_UART_LCR_STICK_PARITY 0x20u
#define MCHP_UART_LCR_BREAK_EN 0x40u
#define MCHP_UART_LCR_DLAB_EN 0x80u
/* MODEM Control Register R/W */
#define MCHP_UART_MCR_OFS 4u
#define MCHP_UART_MCR_MASK 0x1fu
#define MCHP_UART_MCR_DTRn 0x01u
#define MCHP_UART_MCR_RTSn 0x02u
#define MCHP_UART_MCR_OUT1 0x04u
#define MCHP_UART_MCR_OUT2 0x08u
#define MCHP_UART_MCR_LOOPBCK_EN 0x10u
/* Line Status Register RO */
#define MCHP_UART_LSR_OFS 5u
#define MCHP_UART_LSR_DATA_RDY 0x01u
#define MCHP_UART_LSR_OVERRUN 0x02u
#define MCHP_UART_LSR_PARITY 0x04u
#define MCHP_UART_LSR_FRAME 0x08u
#define MCHP_UART_LSR_RX_BREAK 0x10u
#define MCHP_UART_LSR_THRE 0x20u
#define MCHP_UART_LSR_TEMT 0x40u
#define MCHP_UART_LSR_FIFO_ERR 0x80u
#define MCHP_UART_LSR_ANY 0xffu
/* MODEM Status Register RO */
#define MCHP_UART_MSR_OFS 6u
#define MCHP_UART_MSR_DCTS 0x01u
#define MCHP_UART_MSR_DDSR 0x02u
#define MCHP_UART_MSR_TERI 0x04u
#define MCHP_UART_MSR_DDCD 0x08u
#define MCHP_UART_MSR_CTS 0x10u
#define MCHP_UART_MSR_DSR 0x20u
#define MCHP_UART_MSR_RI 0x40u
#define MCHP_UART_MSR_DCD 0x80u
/* Scratch Register RO */
#define MCHP_UART_SCR_OFS 7u
/* UART Logical Device Activate Register */
#define MCHP_UART_LD_ACT_OFS 0x330u
#define MCHP_UART_LD_ACTIVATE 0x01u
/* UART Logical Device Config Register */
#define MCHP_UART_LD_CFG_OFS 0x3f0u
#define MCHP_UART_LD_CFG_INTCLK 0u
#define MCHP_UART_LD_CFG_NO_INVERT 0u
#define MCHP_UART_LD_CFG_RESET_SYS 0u
#define MCHP_UART_LD_CFG_EXTCLK BIT(0)
#define MCHP_UART_LD_CFG_RESET_VCC BIT(1)
#define MCHP_UART_LD_CFG_INVERT BIT(2)
/* BAUD rate generator */
#define MCHP_UART_INT_CLK_24M BIT(15)
/* 1.8MHz internal clock source */
#define MCHP_UART_1P8M_BAUD_50 2304u
#define MCHP_UART_1P8M_BAUD_110 1536u
#define MCHP_UART_1P8M_BAUD_150 768u
#define MCHP_UART_1P8M_BAUD_300 384u
#define MCHP_UART_1P8M_BAUD_1200 96u
#define MCHP_UART_1P8M_BAUD_2400 48u
#define MCHP_UART_1P8M_BAUD_9600 12u
#define MCHP_UART_1P8M_BAUD_19200 6u
#define MCHP_UART_1P8M_BAUD_38400 3u
#define MCHP_UART_1P8M_BAUD_57600 2u
#define MCHP_UART_1P8M_BAUD_115200 1u
/* 24MHz internal clock source. n = 24e6 / (BAUD * 16) = 1500000 / BAUD */
#define MCHP_UART_24M_BAUD_115200 ((13u) + (MCHP_UART_INT_CLK_24M))
#define MCHP_UART_24M_BAUD_57600 ((26u) + (MCHP_UART_INT_CLK_24M))
/** @brief 16550 compatible UART. Size = 1012(0x3f4) */
struct uart_regs {
volatile uint8_t RTXB;
volatile uint8_t IER;
volatile uint8_t IIR_FCR;
volatile uint8_t LCR;
volatile uint8_t MCR;
volatile uint8_t LSR;
volatile uint8_t MSR;
volatile uint8_t SCR;
uint8_t RSVDA[0x330 - 0x08];
volatile uint8_t ACTV;
uint8_t RSVDB[0x3f0 - 0x331];
volatile uint8_t CFG_SEL;
};
#endif /* #ifndef _MEC_MCHP_UART_H */
| 3,060 |
1,909 | <reponame>grmkris/XChange
package org.knowm.xchange.kuna.service;
import org.knowm.xchange.Exchange;
/** @author <NAME> */
public class KunaAccountServiceRaw extends KunaBaseService {
/**
* Constructor.
*
* @param exchange
*/
protected KunaAccountServiceRaw(Exchange exchange) {
super(exchange);
}
}
| 117 |
354 | <reponame>iabernikhin/VK-GL-CTS
/*-------------------------------------------------------------------------
* OpenGL Conformance Test Suite
* -----------------------------
*
* Copyright (c) 2021 Google Inc.
* Copyright (c) 2021 The Khronos Group Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/ /*!
* \file glcCompressedFormatTests.cpp
* \brief Tests for OpenGL ES 3.1 and 3.2 compressed image formats
*/ /*-------------------------------------------------------------------*/
#include "glcCompressedFormatTests.hpp"
#include "gluDefs.hpp"
#include "glwEnums.hpp"
#include "glwFunctions.hpp"
#include "gluShaderProgram.hpp"
#include "gluPixelTransfer.hpp"
#include "gluStrUtil.hpp"
#include "tcuResource.hpp"
#include "tcuSurface.hpp"
#include "tcuImageCompare.hpp"
#include "tcuTestLog.hpp"
#include "tcuStringTemplate.hpp"
#include "deUniquePtr.hpp"
#include <algorithm>
#include <map>
#include <vector>
#include <memory>
#include <functional>
#include <fstream>
namespace glcts
{
namespace
{
using namespace glw;
using namespace glu;
using namespace tcu;
using namespace std;
struct FormatInfo
{
ApiType minApi;
const char* name;
GLenum internalFormat;
GLenum format;
GLenum sizedFormat;
bool issRGB;
IVec2 blockSize;
};
const ApiType gles31 = ApiType::es(3, 1);
const ApiType gles32 = ApiType::es(3, 2);
// List of compressed texture formats (table 8.17)
const FormatInfo compressedFormats[] =
{
// ETC (table C.2)
// minApi, name , internalFormat , format , sizedFormat , issRGB , blockSize
{ gles31, "r11_eac" , GL_COMPRESSED_R11_EAC , GL_RED , GL_R8 , false , { 4, 4 } },
{ gles31, "signed_r11_eac" , GL_COMPRESSED_SIGNED_R11_EAC , GL_RED , GL_R8 , false , { 4, 4 } },
{ gles31, "rg11_eac" , GL_COMPRESSED_RG11_EAC , GL_RG , GL_RG8 , false , { 4, 4 } },
{ gles31, "signed_rg11_eac" , GL_COMPRESSED_SIGNED_RG11_EAC , GL_RG , GL_RG8 , false , { 4, 4 } },
{ gles31, "rgb8_etc2" , GL_COMPRESSED_RGB8_ETC2 , GL_RGB , GL_RGB8 , false , { 4, 4 } },
{ gles31, "srgb8_etc2" , GL_COMPRESSED_SRGB8_ETC2 , GL_RGB , GL_SRGB8 , true , { 4, 4 } },
{ gles31, "rgb8_punchthrough_alpha1_etc2" , GL_COMPRESSED_RGB8_PUNCHTHROUGH_ALPHA1_ETC2 , GL_RGBA , GL_RGBA8 , false , { 4, 4 } },
{ gles31, "srgb8_punchthrough_alpha1_etc2" , GL_COMPRESSED_SRGB8_PUNCHTHROUGH_ALPHA1_ETC2 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 4, 4 } },
{ gles31, "rgba8_etc2_eac" , GL_COMPRESSED_RGBA8_ETC2_EAC , GL_RGBA , GL_RGBA8 , false , { 4, 4 } },
{ gles31, "srgb8_alpha8_etc2_eac" , GL_COMPRESSED_SRGB8_ALPHA8_ETC2_EAC , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 4, 4 } },
// ASTC (table C.1)
// minApi, name , internalFormat , format , sizedFormat , issRGB , blockSize
{ gles32, "rgba_astc_4x4" , GL_COMPRESSED_RGBA_ASTC_4x4 , GL_RGBA , GL_RGBA8 , false , { 4, 4 } },
{ gles32, "rgba_astc_5x4" , GL_COMPRESSED_RGBA_ASTC_5x4 , GL_RGBA , GL_RGBA8 , false , { 5, 4 } },
{ gles32, "rgba_astc_5x5" , GL_COMPRESSED_RGBA_ASTC_5x5 , GL_RGBA , GL_RGBA8 , false , { 5, 5 } },
{ gles32, "rgba_astc_6x5" , GL_COMPRESSED_RGBA_ASTC_6x5 , GL_RGBA , GL_RGBA8 , false , { 6, 5 } },
{ gles32, "rgba_astc_6x6" , GL_COMPRESSED_RGBA_ASTC_6x6 , GL_RGBA , GL_RGBA8 , false , { 6, 6 } },
{ gles32, "rgba_astc_8x5" , GL_COMPRESSED_RGBA_ASTC_8x5 , GL_RGBA , GL_RGBA8 , false , { 8, 5 } },
{ gles32, "rgba_astc_8x6" , GL_COMPRESSED_RGBA_ASTC_8x6 , GL_RGBA , GL_RGBA8 , false , { 8, 6 } },
{ gles32, "rgba_astc_8x8" , GL_COMPRESSED_RGBA_ASTC_8x8 , GL_RGBA , GL_RGBA8 , false , { 8, 8 } },
{ gles32, "rgba_astc_10x5" , GL_COMPRESSED_RGBA_ASTC_10x5 , GL_RGBA , GL_RGBA8 , false , { 10, 5 } },
{ gles32, "rgba_astc_10x6" , GL_COMPRESSED_RGBA_ASTC_10x6 , GL_RGBA , GL_RGBA8 , false , { 10, 6 } },
{ gles32, "rgba_astc_10x8" , GL_COMPRESSED_RGBA_ASTC_10x8 , GL_RGBA , GL_RGBA8 , false , { 10, 8 } },
{ gles32, "rgba_astc_10x10" , GL_COMPRESSED_RGBA_ASTC_10x10 , GL_RGBA , GL_RGBA8 , false , { 10, 10 } },
{ gles32, "rgba_astc_12x10" , GL_COMPRESSED_RGBA_ASTC_12x10 , GL_RGBA , GL_RGBA8 , false , { 12, 10 } },
{ gles32, "rgba_astc_12x12" , GL_COMPRESSED_RGBA_ASTC_12x12 , GL_RGBA , GL_RGBA8 , false , { 12, 12 } },
{ gles32, "srgb8_alpha8_astc_4x4" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_4x4 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 4, 4 } },
{ gles32, "srgb8_alpha8_astc_5x4" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_5x4 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 5, 4 } },
{ gles32, "srgb8_alpha8_astc_5x5" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_5x5 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 5, 5 } },
{ gles32, "srgb8_alpha8_astc_6x5" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_6x5 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 6, 5 } },
{ gles32, "srgb8_alpha8_astc_6x6" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_6x6 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 6, 6 } },
{ gles32, "srgb8_alpha8_astc_8x5" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_8x5 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 8, 5 } },
{ gles32, "srgb8_alpha8_astc_8x6" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_8x6 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 8, 6 } },
{ gles32, "srgb8_alpha8_astc_8x8" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_8x8 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 8, 8 } },
{ gles32, "srgb8_alpha8_astc_10x5" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x5 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 10, 5 } },
{ gles32, "srgb8_alpha8_astc_10x6" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x6 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 10, 6 } },
{ gles32, "srgb8_alpha8_astc_10x8" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x8 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 10, 8 } },
{ gles32, "srgb8_alpha8_astc_10x10" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x10 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 10, 10 } },
{ gles32, "srgb8_alpha8_astc_12x10" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_12x10 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 12, 10 } },
{ gles32, "srgb8_alpha8_astc_12x12" , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_12x12 , GL_RGBA , GL_SRGB8_ALPHA8 , true , { 12, 12 } },
};
struct UnsizedFormatInfo
{
GLenum format;
GLenum dataType;
};
const map<GLenum, UnsizedFormatInfo>
unsizedFormats =
{
{ GL_RGBA32UI , { GL_RGBA_INTEGER , GL_UNSIGNED_INT } },
{ GL_RGBA32I , { GL_RGBA_INTEGER , GL_INT } },
{ GL_RGBA32F , { GL_RGBA , GL_FLOAT } },
{ GL_RGBA16F , { GL_RGBA , GL_FLOAT } },
{ GL_RG32F , { GL_RG , GL_FLOAT } },
{ GL_RGBA16UI , { GL_RGBA_INTEGER , GL_UNSIGNED_SHORT } },
{ GL_RG32UI , { GL_RG_INTEGER , GL_UNSIGNED_INT } },
{ GL_RGBA16I , { GL_RGBA_INTEGER , GL_SHORT } },
{ GL_RG32I , { GL_RG_INTEGER , GL_INT } }
};
const vector<pair<vector<GLenum>, vector<GLenum>>>
copyFormats =
{
// Table 16.3 - copy between compressed and uncompressed
// 128bit texel / block size
{
{ GL_RGBA32UI, GL_RGBA32I, GL_RGBA32F },
{
GL_COMPRESSED_RGBA8_ETC2_EAC, GL_COMPRESSED_SRGB8_ALPHA8_ETC2_EAC, GL_COMPRESSED_RG11_EAC,
GL_COMPRESSED_SIGNED_RG11_EAC, GL_COMPRESSED_SRGB8_ALPHA8_ASTC_4x4, GL_COMPRESSED_SRGB8_ALPHA8_ASTC_5x4,
GL_COMPRESSED_SRGB8_ALPHA8_ASTC_5x5, GL_COMPRESSED_SRGB8_ALPHA8_ASTC_6x5, GL_COMPRESSED_SRGB8_ALPHA8_ASTC_6x6,
GL_COMPRESSED_SRGB8_ALPHA8_ASTC_8x5, GL_COMPRESSED_SRGB8_ALPHA8_ASTC_8x6, GL_COMPRESSED_SRGB8_ALPHA8_ASTC_8x8,
GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x5, GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x6, GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x8,
GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x10, GL_COMPRESSED_SRGB8_ALPHA8_ASTC_12x10, GL_COMPRESSED_SRGB8_ALPHA8_ASTC_12x12,
}
},
// 64bit texel / block size
{
{ GL_RGBA16F, GL_RG32F, GL_RGBA16UI, GL_RG32UI, GL_RGBA16I, GL_RG32I },
{
GL_COMPRESSED_RGB8_ETC2, GL_COMPRESSED_SRGB8_ETC2, GL_COMPRESSED_R11_EAC, GL_COMPRESSED_SIGNED_R11_EAC,
GL_COMPRESSED_RGB8_PUNCHTHROUGH_ALPHA1_ETC2, GL_COMPRESSED_SRGB8_PUNCHTHROUGH_ALPHA1_ETC2
}
},
// Table 16.4 - only entries for compressed formats are included
{ { GL_COMPRESSED_R11_EAC , GL_COMPRESSED_SIGNED_R11_EAC }, {} },
{ { GL_COMPRESSED_RG11_EAC , GL_COMPRESSED_SIGNED_RG11_EAC }, {} },
{ { GL_COMPRESSED_RGB8_ETC2 , GL_COMPRESSED_SRGB8_ETC2 }, {} },
{ { GL_COMPRESSED_RGB8_PUNCHTHROUGH_ALPHA1_ETC2 , GL_COMPRESSED_SRGB8_PUNCHTHROUGH_ALPHA1_ETC2 }, {} },
{ { GL_COMPRESSED_RGBA8_ETC2_EAC , GL_COMPRESSED_SRGB8_ALPHA8_ETC2_EAC }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_4x4 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_4x4 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_5x4 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_5x4 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_5x5 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_5x5 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_6x5 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_6x5 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_6x6 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_6x6 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_8x5 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_8x5 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_8x6 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_8x6 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_8x8 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_8x8 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_10x5 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x5 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_10x6 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x6 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_10x8 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x8 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_10x10 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_10x10 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_12x10 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_12x10 }, {} },
{ { GL_COMPRESSED_RGBA_ASTC_12x12 , GL_COMPRESSED_SRGB8_ALPHA8_ASTC_12x12 }, {} }
};
#include "glcCompressedFormatTests_data.inl"
const float vertexPositions[] =
{
-1.0f, -1.0f,
1.0f, -1.0f,
-1.0f, 1.0f,
1.0f, 1.0f,
};
const float vertexTexCoords[] =
{
0.0f, 0.0f,
1.0f, 0.0f,
0.0f, 1.0f,
1.0f, 1.0f,
};
const char* vertexShader =
"${VERSION}\n"
"in highp vec4 in_position;\n"
"in highp vec2 in_texCoord;\n"
"out highp vec2 v_texCoord;\n"
"void main (void)\n"
"{\n"
" gl_Position = in_position;\n"
" v_texCoord = in_texCoord;\n"
"}\n";
const char* fragmentShader =
"${VERSION}\n"
"uniform highp vec4 offset;\n"
"uniform highp vec4 scale;\n"
"uniform highp sampler2D sampler;\n"
"in highp vec2 v_texCoord;\n"
"layout(location = 0) out highp vec4 out_color;\n"
"void main (void)\n"
"{\n"
" out_color = texture(sampler, v_texCoord) * scale + offset;\n"
"}\n";
struct OffsetInfo
{
Vec4 offset;
Vec4 scale;
};
const OffsetInfo defaultOffset { { 0.0f, 0.0f, 0.0f, 0.0f }, { 1.0f, 1.0f, 1.0f, 1.0f } };
const map<GLenum, OffsetInfo> offsets =
{
{ GL_COMPRESSED_SIGNED_R11_EAC , { { 0.5f, 0.0f, 0.0f, 0.0f }, { 0.5f, 0.0f, 0.0f, 1.0f } } },
{ GL_COMPRESSED_SIGNED_RG11_EAC , { { 0.5f, 0.5f, 0.0f, 0.0f }, { 0.5f, 0.5f, 0.0f, 1.0f } } }
};
class SharedData
{
public:
explicit SharedData (deqp::Context& context);
virtual ~SharedData ();
void init();
void deinit();
GLuint programId() const;
GLuint texId(int index) const;
GLuint vaoId() const;
GLuint offsetLoc() const;
GLuint scaleLoc() const;
private:
deqp::Context& m_context;
size_t m_initCount;
vector<GLuint> m_texIds;
shared_ptr<ShaderProgram> m_program;
GLuint m_vaoId;
GLuint m_vboIds[2];
GLuint m_offsetLoc;
GLuint m_scaleLoc;
SharedData (const SharedData& other) = delete;
SharedData& operator= (const SharedData& other) = delete;
};
SharedData::SharedData (deqp::Context& context)
: m_context(context)
, m_initCount(0)
{
}
SharedData::~SharedData ()
{
DE_ASSERT(m_initCount <= 0);
}
void SharedData::init ()
{
++m_initCount;
if (m_initCount > 1)
return;
const auto& gl = m_context.getRenderContext().getFunctions();
// program
const bool supportsES32 = contextSupports(m_context.getRenderContext().getType(), glu::ApiType::es(3, 2));
const auto glslVersion = getGLSLVersionDeclaration(supportsES32 ? glu::GLSL_VERSION_320_ES : glu::GLSL_VERSION_310_ES);
const auto args = map<string, string> { { "VERSION", glslVersion } };
const auto vs = StringTemplate(vertexShader).specialize(args);
const auto fs = StringTemplate(fragmentShader).specialize(args);
m_program = make_shared<ShaderProgram>(m_context.getRenderContext(), ProgramSources() << glu::VertexSource(vs) << glu::FragmentSource(fs));
if (!m_program->isOk())
throw runtime_error("Compiling shader program failed");
const auto program = m_program->getProgram();
const auto positionLoc = gl.getAttribLocation(program, "in_position");
GLU_EXPECT_NO_ERROR(gl.getError(), "glGetAttribLocation() failed");
const auto texCoordLoc = gl.getAttribLocation(program, "in_texCoord");
GLU_EXPECT_NO_ERROR(gl.getError(), "glGetAttribLocation() failed");
m_offsetLoc = gl.getUniformLocation(program, "offset");
GLU_EXPECT_NO_ERROR(gl.getError(), "glGetAttribLocation() failed");
m_scaleLoc = gl.getUniformLocation(program, "scale");
GLU_EXPECT_NO_ERROR(gl.getError(), "glGetAttribLocation() failed");
// buffers
gl.genBuffers(DE_LENGTH_OF_ARRAY(m_vboIds), m_vboIds);
GLU_EXPECT_NO_ERROR(gl.getError(), "glGenBuffers() failed");
gl.bindBuffer(GL_ARRAY_BUFFER, m_vboIds[0]);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindBuffer() failed");
gl.bufferData(GL_ARRAY_BUFFER, sizeof(vertexPositions), vertexPositions, GL_STATIC_DRAW);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBufferData() failed");
gl.bindBuffer(GL_ARRAY_BUFFER, m_vboIds[1]);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindBuffer() failed");
gl.bufferData(GL_ARRAY_BUFFER, sizeof(vertexTexCoords), vertexTexCoords, GL_STATIC_DRAW);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBufferData() failed");
gl.bindBuffer(GL_ARRAY_BUFFER, 0);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindBuffer() failed");
// vertex array objects
gl.genVertexArrays(1, &m_vaoId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glGenVertexArrays() failed");
gl.bindVertexArray(m_vaoId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindVertexArray() failed");
gl.bindBuffer(GL_ARRAY_BUFFER, m_vboIds[0]);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindBuffer() failed");
gl.enableVertexAttribArray(positionLoc);
GLU_EXPECT_NO_ERROR(gl.getError(), "glEnableVertexAttribArray() failed");
gl.vertexAttribPointer(positionLoc, 2, GL_FLOAT, GL_FALSE, 0, 0);
GLU_EXPECT_NO_ERROR(gl.getError(), "glVertexAttribPointer() failed");
gl.bindBuffer(GL_ARRAY_BUFFER, m_vboIds[1]);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindBuffer() failed");
gl.enableVertexAttribArray(texCoordLoc);
GLU_EXPECT_NO_ERROR(gl.getError(), "glEnableVertexAttribArray() failed");
gl.vertexAttribPointer(texCoordLoc, 2, GL_FLOAT, GL_FALSE, 0, 0);
GLU_EXPECT_NO_ERROR(gl.getError(), "glVertexAttribPointer() failed");
gl.bindVertexArray(0);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindVertexArray() failed");
}
void SharedData::deinit ()
{
DE_ASSERT(m_initCount > 0);
--m_initCount;
if (m_initCount > 0)
return;
const auto& gl = m_context.getRenderContext().getFunctions();
gl.deleteBuffers(1, &m_vaoId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glDeleteBuffers() failed");
gl.deleteBuffers(DE_LENGTH_OF_ARRAY(m_vboIds), m_vboIds);
GLU_EXPECT_NO_ERROR(gl.getError(), "glDeleteBuffers() failed");
gl.deleteTextures(m_texIds.size(), m_texIds.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glDeleteTextures() failed");
}
GLuint SharedData::programId () const
{
return m_program->getProgram();
}
GLuint SharedData::texId (int index) const
{
return m_texIds[index];
}
GLuint SharedData::vaoId () const
{
return m_vaoId;
}
GLuint SharedData::offsetLoc () const
{
return m_offsetLoc;
}
GLuint SharedData::scaleLoc () const
{
return m_scaleLoc;
}
struct {
const GLsizei width = 8;
const GLsizei height = 8;
const GLsizei depth = 6;
const vector<deUint8> data =
{
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
};
} invalidTexture;
struct ApiTestContext
{
TestLog& log;
const glw::Functions& gl;
vector<GLuint>& texIds;
vector<GLuint>& bufferIds;
const Archive& archive;
void bindTexture(GLenum target, GLuint texId);
};
void ApiTestContext::bindTexture (GLenum target, GLuint texId)
{
gl.bindTexture(target, texId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindTexture() failed");
}
typedef function<void (ApiTestContext&)> ApiCaseFn;
struct ApiCaseStep
{
ApiCaseFn code;
GLenum expectedError;
};
typedef function<void (deqp::Context&, vector<ApiCaseStep>&)> ApiCaseStepGeneratorFn;
struct ApiCaseParams
{
ApiType minApi;
string name;
string description;
size_t texIdsCount;
size_t bufferIdsCount;
vector<ApiCaseStep> steps;
ApiCaseStepGeneratorFn stepsGenerator;
};
const GLenum cubemapFaces[] =
{
GL_TEXTURE_CUBE_MAP_POSITIVE_X, GL_TEXTURE_CUBE_MAP_NEGATIVE_X,
GL_TEXTURE_CUBE_MAP_POSITIVE_Y, GL_TEXTURE_CUBE_MAP_NEGATIVE_Y,
GL_TEXTURE_CUBE_MAP_POSITIVE_Z, GL_TEXTURE_CUBE_MAP_NEGATIVE_Z,
};
struct ImageInfo
{
GLuint width;
GLuint height;
vector<GLubyte> data;
};
ImageInfo loadImage (const Archive& archive, GLenum format, size_t imageIndex)
{
const auto data = imageData.find(format);
if (data == imageData.end())
{
ostringstream msg;
msg << "No image data found for format: " << format;
TCU_FAIL(msg.str().c_str());
}
if (imageIndex >= data->second.size())
{
ostringstream msg;
msg << "Image index out of range for format: " << format << " index: " << imageIndex;
TCU_FAIL(msg.str().c_str());
}
const de::UniquePtr<Resource> resource (archive.getResource(data->second[imageIndex].path.c_str()));
if (!resource || resource->getSize() <= 0)
TCU_FAIL("Failed to read file: "+data->second[imageIndex].path);
ImageInfo result;
result.width = data->second[imageIndex].width;
result.height = data->second[imageIndex].height;
const auto size = resource->getSize();
result.data.resize(size);
resource->setPosition(0);
resource->read(result.data.data(), size);
return result;
}
void setTextureParameters (const glw::Functions& gl, GLenum target)
{
gl.texParameteri(target, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
GLU_EXPECT_NO_ERROR(gl.getError(), "glTexParameteri() failed");
gl.texParameteri(target, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
GLU_EXPECT_NO_ERROR(gl.getError(), "glTexParameteri() failed");
gl.texParameteri(target, GL_TEXTURE_BASE_LEVEL, 0);
GLU_EXPECT_NO_ERROR(gl.getError(), "glTexParameteri() failed");
gl.texParameteri(target, GL_TEXTURE_MAX_LEVEL, 0);
GLU_EXPECT_NO_ERROR(gl.getError(), "glTexParameteri() failed");
const auto repeatMode = GL_CLAMP_TO_EDGE;
gl.texParameteri(target, GL_TEXTURE_WRAP_S, repeatMode);
GLU_EXPECT_NO_ERROR(gl.getError(), "glTexParameteri() failed");
gl.texParameteri(target, GL_TEXTURE_WRAP_T, repeatMode);
GLU_EXPECT_NO_ERROR(gl.getError(), "glTexParameteri() failed");
gl.texParameteri(target, GL_TEXTURE_WRAP_R, repeatMode);
GLU_EXPECT_NO_ERROR(gl.getError(), "glTexParameteri() failed");
}
ApiCaseParams apiTests[] =
{
{
gles31, // ApiType minApi;
"invalid_target", // string name;
"Invalid texture target for compressed format", // string description;
1, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{ // vector<ApiCaseStep> steps;
{
[](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_3D, context.texIds[0]);
},
GL_NO_ERROR
},
{
[](ApiTestContext& context)
{
context.gl.compressedTexImage2D(GL_TEXTURE_3D, 0, GL_COMPRESSED_RGB8_ETC2, invalidTexture.width, invalidTexture.height, 0, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_ENUM
},
{
[](ApiTestContext& context)
{
context.gl.compressedTexSubImage2D(GL_TEXTURE_3D, 0, 0, 0, invalidTexture.width, invalidTexture.height, GL_COMPRESSED_RGB8_ETC2, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_ENUM
},
},
DE_NULL, // ApiCaseStepGeneratorFn stepsGenerator;
},
{
gles31, // ApiType minApi;
"invalid_width_or_height", // string name;
"Different values for width and height for cubemap texture target", // string description;
1, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{ // vector<ApiCaseStep> steps;
{
[](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_CUBE_MAP, context.texIds[0]);
},
GL_NO_ERROR
}
},
[](deqp::Context&, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
steps.push_back(
{
[](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_CUBE_MAP, context.texIds[0]);
},
GL_NO_ERROR
});
for(size_t i = 0; i < DE_LENGTH_OF_ARRAY(cubemapFaces); ++i)
{
steps.push_back(
{
[i](ApiTestContext& context)
{
context.gl.compressedTexImage2D(cubemapFaces[i], 0, GL_COMPRESSED_RGB8_ETC2, invalidTexture.width - i % 2, invalidTexture.height - (i + 1) % 2, 0, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_VALUE
});
steps.push_back(
{
[i](ApiTestContext& context)
{
const auto format = GL_COMPRESSED_RGB8_ETC2;
const GLsizei blockSize = 4;
const GLsizei blockDataSize = 8;
const auto data = loadImage(context.archive, format, 0);
const auto& gl = context.gl;
gl.compressedTexImage2D(cubemapFaces[i], 0, format, data.width, data.height, 0, data.data.size(), data.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexImage2D() failed");
const auto updateWidth = invalidTexture.width - (i % 2) * blockSize;
const auto updateHeight = invalidTexture.height - ((i + 1) % 2) * blockSize;
const auto updateDataSize = (updateWidth / blockSize) * (updateHeight / blockSize) * blockDataSize;
DE_ASSERT(updateDataSize <= invalidTexture.data.size());
context.gl.compressedTexSubImage2D(cubemapFaces[i], 0, 0, 0, updateWidth, updateHeight, format, updateDataSize, invalidTexture.data.data());
},
GL_NO_ERROR
});
}
}
},
{
gles32, // ApiType minApi;
"invalid_width_or_height_array", // string name;
"Different values for width and height for cubemap texture target", // string description;
1, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{ // vector<ApiCaseStep> steps;
{
[](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_CUBE_MAP, context.texIds[0]);
},
GL_NO_ERROR
},
{
[](ApiTestContext& context)
{
context.gl.compressedTexImage3D(GL_TEXTURE_CUBE_MAP_ARRAY, 0, GL_COMPRESSED_RGB8_ETC2, invalidTexture.width - 1, invalidTexture.height, 6, 0, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_VALUE
}
},
DE_NULL, // ApiCaseStepGeneratorFn stepsGenerator;
},
{
gles31, // ApiType minApi;
"invalid_size_value_negative", // string name;
"Negative width, height or imageSize for compressed texture image", // string description;
3, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{}, // vector<ApiCaseStep> steps;
[](deqp::Context& testContext, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
auto format = GL_COMPRESSED_RGB8_ETC2;
const auto data = loadImage(testContext.getTestContext().getArchive(), format, 0);
steps.push_back(
{
[format, data](ApiTestContext& context)
{
DE_ASSERT(context.texIds.size() >= 3);
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
context.gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format, data.width, -1, 0, data.data.size(), data.data.data());
},
GL_INVALID_VALUE
});
steps.push_back(
{
[format, data](ApiTestContext& context)
{
context.gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format, data.width, data.height, 0, data.data.size(), data.data.data());
},
GL_NO_ERROR
});
steps.push_back(
{
[format, data](ApiTestContext& context)
{
context.gl.compressedTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, data.width, -1, format, data.data.size(), data.data.data());
},
GL_INVALID_VALUE
});
steps.push_back(
{
[format, data](ApiTestContext& context)
{
DE_ASSERT(context.texIds.size() >= 3);
context.bindTexture(GL_TEXTURE_2D, context.texIds[1]);
context.gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format, -276, data.height, 0, data.data.size(), data.data.data());
},
GL_INVALID_VALUE
});
steps.push_back(
{
[format, data](ApiTestContext& context)
{
context.gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format, data.width, data.height, 0, data.data.size(), data.data.data());
},
GL_NO_ERROR
});
steps.push_back(
{
[format, data](ApiTestContext& context)
{
context.gl.compressedTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, -276, data.height, format, data.data.size(), data.data.data());
},
GL_INVALID_VALUE
});
steps.push_back(
{
[format, data](ApiTestContext& context)
{
DE_ASSERT(context.texIds.size() >= 3);
context.bindTexture(GL_TEXTURE_2D, context.texIds[2]);
context.gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format, data.width, data.height, 0, -66543, data.data.data());
},
GL_INVALID_VALUE
});
steps.push_back(
{
[format, data](ApiTestContext& context)
{
context.gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format, data.width, data.height, 0, data.data.size(), data.data.data());
},
GL_NO_ERROR
});
steps.push_back(
{
[format, data](ApiTestContext& context)
{
context.gl.compressedTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, data.width, data.height, format, -66543, data.data.data());
},
GL_INVALID_VALUE
});
}
},
{
gles31, // ApiType minApi;
"invalid_border_nonzero", // string name;
"Non zero border values are not supported", // string description;
2, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{ // vector<ApiCaseStep> steps;
{
[](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
context.gl.compressedTexImage2D(GL_TEXTURE_2D, 0, GL_COMPRESSED_RGB8_ETC2, invalidTexture.width, invalidTexture.height, 1, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_VALUE
},
},
[](deqp::Context&, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
for(size_t j = 0; j < DE_LENGTH_OF_ARRAY(cubemapFaces); ++j)
steps.push_back(
{
[j](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_CUBE_MAP, context.texIds[1]);
context.gl.compressedTexImage2D(cubemapFaces[j], 0, GL_COMPRESSED_RGB8_ETC2, invalidTexture.width, invalidTexture.height, 1, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_VALUE
});
},
},
{
gles32, // ApiType minApi;
"invalid_border_nonzero_array", // string name;
"Non zero border values are not supported", // string description;
1, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{ // vector<ApiCaseStep> steps;
{
[](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_CUBE_MAP, context.texIds[0]);
context.gl.compressedTexImage3D(GL_TEXTURE_CUBE_MAP_ARRAY, 0, GL_COMPRESSED_RGB8_ETC2, invalidTexture.width, invalidTexture.height, invalidTexture.depth, 1, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_VALUE
},
},
DE_NULL, // ApiCaseStepGeneratorFn stepsGenerator;
},
{
gles31, // ApiType minApi;
"invalid_format_mismatch", // string name;
"Subimage format differs from previously specified texture format", // string description;
1, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{ // vector<ApiCaseStep> steps;
{
[](ApiTestContext& context)
{
const auto& gl = context.gl;
const auto format0 = GL_COMPRESSED_RGB8_ETC2;
const auto data0 = loadImage(context.archive, format0, 0);
const auto format1 = GL_COMPRESSED_R11_EAC;
const auto data1 = loadImage(context.archive, format1, 0);
DE_ASSERT(data0.width == data1.width && data0.height == data1.height);
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format0, data0.width, data0.height, 0, data0.data.size(), data0.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexImage2D() failed");
gl.compressedTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, data1.width, data1.height, format1, data1.data.size(), data1.data.data());
},
GL_INVALID_OPERATION
},
},
DE_NULL, // ApiCaseStepGeneratorFn stepsGenerator;
},
{
gles31, // ApiType minApi;
"invalid_target_3d", // string name;
"Invalid texture target for compressed texture", // string description;
1, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{}, // vector<ApiCaseStep> steps;
[](deqp::Context& testContext, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
for(auto i = 0; i < DE_LENGTH_OF_ARRAY(compressedFormats); ++i)
{
if (!contextSupports(testContext.getRenderContext().getType(), compressedFormats[i].minApi))
continue;
const auto data = loadImage(testContext.getTestContext().getArchive(), compressedFormats[i].internalFormat, 0);
steps.push_back(
{
[](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
},
GL_NO_ERROR
});
steps.push_back(
{
[i, data](ApiTestContext& context)
{
context.gl.compressedTexImage3D(GL_TEXTURE_2D, 0, compressedFormats[i].internalFormat, data.width, data.height, 1, 0, data.data.size(), data.data.data());
},
GL_INVALID_ENUM
});
steps.push_back(
{
[i, data](ApiTestContext& context)
{
context.gl.compressedTexSubImage3D(GL_TEXTURE_2D, 0, 0, 0, 0, data.width, data.height, 1, compressedFormats[i].internalFormat, data.data.size(), data.data.data());
},
GL_INVALID_ENUM
});
}
}
},
{
gles31, // ApiType minApi;
"texstorage_accepts_compressed_format", // string name;
"TexStorage should accept compressed format", // string description;
DE_LENGTH_OF_ARRAY(compressedFormats), // size_t texIdsCount;
0, // size_t bufferIdsCount;
{}, // vector<ApiCaseStep> steps;
[](deqp::Context& testContext, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
for(auto i = 0; i < DE_LENGTH_OF_ARRAY(compressedFormats); ++i)
{
if (!contextSupports(testContext.getRenderContext().getType(), compressedFormats[i].minApi))
continue;
steps.push_back(
{
[i](ApiTestContext& context)
{
const auto& gl = context.gl;
const size_t textureWidth = 240;
const size_t textureHeight = 240;
context.bindTexture(GL_TEXTURE_2D, context.texIds[i]);
gl.texStorage2D(GL_TEXTURE_2D, 1, compressedFormats[i].internalFormat, textureWidth, textureHeight);
},
GL_NO_ERROR
});
}
}
},
{
gles31, // ApiType minApi;
"invalid_teximage_with_compressed_format", // string name;
"TexImage should not accept compressed format", // string description;
2, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{}, // vector<ApiCaseStep> steps;
[](deqp::Context& testContext, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
for(auto i = 0; i < DE_LENGTH_OF_ARRAY(compressedFormats); ++i)
{
const auto format = compressedFormats[i];
if (!contextSupports(testContext.getRenderContext().getType(), format.minApi))
continue;
const auto data = loadImage(testContext.getTestContext().getArchive(), format.internalFormat, 0);
steps.push_back(
{
[format, data](ApiTestContext& context)
{
const auto& gl = context.gl;
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
gl.texImage2D(GL_TEXTURE_2D, 0, format.internalFormat, data.width, data.height, 0, format.format, GL_UNSIGNED_BYTE, data.data.data());
},
GL_INVALID_VALUE
});
steps.push_back(
{
[format, data](ApiTestContext& context)
{
const auto& gl = context.gl;
context.bindTexture(GL_TEXTURE_3D, context.texIds[1]);
gl.texImage3D(GL_TEXTURE_3D, 0, format.internalFormat, data.width, data.height, 1, 0, format.format, GL_UNSIGNED_BYTE, data.data.data());
},
GL_INVALID_VALUE
});
}
}
},
{
gles31, // ApiType minApi;
"invalid_format", // string name;
"Uncompressed internal format for compressed texture", // string description;
2, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{ // vector<ApiCaseStep> steps;
{
[](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_2D, context.texIds[1]);
},
GL_NO_ERROR
},
{
[](ApiTestContext& context)
{
context.gl.compressedTexImage2D(GL_TEXTURE_2D, 0, GL_RGB, invalidTexture.width, invalidTexture.height, 0, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_ENUM
},
{
[](ApiTestContext& context)
{
context.gl.compressedTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, invalidTexture.width, invalidTexture.height, GL_RGB, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_OPERATION
},
{
[](ApiTestContext& context)
{
const GLenum format = GL_COMPRESSED_RGB8_ETC2;
const auto data = loadImage(context.archive, format, 0);
const auto& gl = context.gl;
gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format, data.width, data.height, 0, data.data.size(), data.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexImage2D() failed");
context.gl.compressedTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, invalidTexture.width, invalidTexture.height, GL_RGB, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_OPERATION
},
{
[](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_CUBE_MAP, context.texIds[0]);
},
GL_NO_ERROR
}
},
[](deqp::Context&, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
for(size_t j = 0; j < DE_LENGTH_OF_ARRAY(cubemapFaces); ++j)
{
steps.push_back(
{
[j](ApiTestContext& context)
{
context.gl.compressedTexImage2D(cubemapFaces[j], 0, GL_RGB, invalidTexture.width, invalidTexture.height, 0, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_ENUM
});
steps.push_back(
{
[j](ApiTestContext& context)
{
const GLenum format = GL_COMPRESSED_RGB8_ETC2;
const auto data = loadImage(context.archive, format, 0);
const auto& gl = context.gl;
gl.compressedTexImage2D(cubemapFaces[j], 0, format, data.width, data.height, 0, data.data.size(), data.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexImage2D() failed");
context.gl.compressedTexSubImage2D(cubemapFaces[j], 0, 0, 0, invalidTexture.width, invalidTexture.height, GL_RGB, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_OPERATION
});
}
}
},
{
gles32, // ApiType minApi;
"invalid_format_array", // string name;
"Uncompressed internal format for compressed texture", // string description;
1, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{ // vector<ApiCaseStep> steps;
{
[](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_CUBE_MAP, context.texIds[0]);
},
GL_NO_ERROR
},
{
[](ApiTestContext& context)
{
context.gl.compressedTexImage3D(GL_TEXTURE_CUBE_MAP_ARRAY, 0, GL_RGB, invalidTexture.width, invalidTexture.height, 6, 0, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_ENUM
},
{
[](ApiTestContext& context)
{
const GLenum format = GL_COMPRESSED_RGB8_ETC2;
const auto data = loadImage(context.archive, format, 0);
const auto& gl = context.gl;
vector<GLubyte> arrayData;
arrayData.reserve(6 * data.data.size());
for(size_t k = 0; k < 6; ++k)
std::copy(data.data.begin(), data.data.end(), std::back_inserter(arrayData));
context.gl.compressedTexImage3D(GL_TEXTURE_CUBE_MAP_ARRAY, 0, format, data.width, data.height, 6, 0, arrayData.size(), arrayData.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexImage3D() failed");
context.gl.compressedTexSubImage3D(GL_TEXTURE_CUBE_MAP_ARRAY, 0, 0, 0, 0, invalidTexture.width, invalidTexture.height, 6, GL_RGB, invalidTexture.data.size(), invalidTexture.data.data());context.gl.compressedTexSubImage3D(GL_TEXTURE_CUBE_MAP_ARRAY, 0, 0, 0, 0, invalidTexture.width, invalidTexture.height, 6, GL_RGB, invalidTexture.data.size(), invalidTexture.data.data());
},
GL_INVALID_OPERATION
}
},
DE_NULL // ApiCaseStepGeneratorFn stepsGenerator;
},
{
gles31, // ApiType minApi;
"invalid_too_small_unpack_buffer", // string name;
"Pixel unpack buffer with not enough space for required texture data", // string description;
1, // size_t texIdsCount;
1, // size_t bufferIdsCount;
{ // vector<ApiCaseStep> steps;
{
[](ApiTestContext& context)
{
const GLenum format = GL_COMPRESSED_RGB8_ETC2;
const auto data = loadImage(context.archive, format, 0);
const auto& gl = context.gl;
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
gl.bindBuffer(GL_PIXEL_UNPACK_BUFFER, context.bufferIds[0]);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindBuffer() failed");
gl.bufferData(GL_PIXEL_UNPACK_BUFFER, data.data.size() / 2, data.data.data(), GL_STATIC_READ);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBufferData() failed");
gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format, data.width, data.height, 0, data.data.size(), 0);
},
GL_INVALID_OPERATION
},
{
[](ApiTestContext& context)
{
const GLenum format = GL_COMPRESSED_RGB8_ETC2;
const auto data = loadImage(context.archive, format, 0);
const auto& gl = context.gl;
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
gl.bindBuffer(GL_PIXEL_UNPACK_BUFFER, 0);
gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format, data.width, data.height, 0, data.data.size(), data.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexImage2D() failed");
gl.bindBuffer(GL_PIXEL_UNPACK_BUFFER, context.bufferIds[0]);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindBuffer() failed");
gl.bufferData(GL_PIXEL_UNPACK_BUFFER, data.data.size() / 2, data.data.data(), GL_STATIC_READ);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBufferData() failed");
gl.compressedTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, data.width, data.height, format, data.data.size(), 0);
},
GL_INVALID_OPERATION
}
},
DE_NULL // ApiCaseStepGeneratorFn stepsGenerator;
},
{
gles31, // ApiType minApi;
"invalid_inconsistent_data_size", // string name;
"Data size is not consistent with texture internal format and dimensions", // string description;
1, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{}, // vector<ApiCaseStep> steps;
[](deqp::Context& testContext, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
for(auto i = 0; i < DE_LENGTH_OF_ARRAY(compressedFormats); ++i)
{
const auto& format = compressedFormats[i];
if (!contextSupports(testContext.getRenderContext().getType(), format.minApi))
continue;
const auto data0 = loadImage(testContext.getTestContext().getArchive(), format.internalFormat, 0);
const auto data1 = loadImage(testContext.getTestContext().getArchive(), format.internalFormat, 1);
steps.push_back(
{
[format, data0](ApiTestContext& context)
{
const auto& gl = context.gl;
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format.internalFormat, data0.width - 12, data0.height - 12, 0, data0.data.size(), data0.data.data());
},
GL_INVALID_VALUE
});
}
}
},
{
gles32, // ApiType minApi;
"invalid_inconsistent_data_size_array", // string name;
"Data size is not consistent with texture internal format and dimensions", // string description;
2, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{}, // vector<ApiCaseStep> steps;
[](deqp::Context& testContext, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
for(auto i = 0; i < DE_LENGTH_OF_ARRAY(compressedFormats); ++i)
{
const auto& format = compressedFormats[i];
if (!contextSupports(testContext.getRenderContext().getType(), format.minApi))
continue;
const auto data0 = loadImage(testContext.getTestContext().getArchive(), format.internalFormat, 0);
const auto data1 = loadImage(testContext.getTestContext().getArchive(), format.internalFormat, 1);
steps.push_back(
{
[format, data0](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_CUBE_MAP, context.texIds[0]);
},
GL_NO_ERROR
});
for(size_t j = 0; j < DE_LENGTH_OF_ARRAY(cubemapFaces); ++j)
steps.push_back(
{
[j, format, data0](ApiTestContext& context)
{
context.gl.compressedTexImage2D(cubemapFaces[j], 0, format.internalFormat, data0.width, data0.height, 0, data0.data.size(), data0.data.data());
},
GL_NO_ERROR
});
steps.push_back(
{
[format, data0](ApiTestContext& context)
{
vector<GLubyte> arrayData;
arrayData.reserve(6 * data0.data.size());
for(size_t k = 0; k < 6; ++k)
std::copy(data0.data.begin(), data0.data.end(), std::back_inserter(arrayData));
context.bindTexture(GL_TEXTURE_CUBE_MAP, context.texIds[1]);
context.gl.compressedTexImage3D(GL_TEXTURE_CUBE_MAP_ARRAY, 0, format.internalFormat, data0.width, data0.height, 6, 0, arrayData.size(), arrayData.data());
},
GL_NO_ERROR
});
steps.push_back(
{
[format, data1](ApiTestContext& context)
{
context.gl.compressedTexSubImage3D(GL_TEXTURE_CUBE_MAP_ARRAY, 0, 0, 0, 0, data1.width, data1.height, 1, format.internalFormat, data1.data.size() - 1, data1.data.data());
},
GL_INVALID_VALUE
});
}
}
},
{
gles31, // ApiType minApi;
"invalid_offset_or_size", // string name;
"Offset or image size not aligned with block size", // string description;
1, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{}, // vector<ApiCaseStep> steps;
[](deqp::Context& testContext, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
for(auto i = 0; i < DE_LENGTH_OF_ARRAY(compressedFormats); ++i)
{
const auto& format = compressedFormats[i];
if (!contextSupports(testContext.getRenderContext().getType(), format.minApi))
continue;
const auto data0 = loadImage(testContext.getTestContext().getArchive(), format.internalFormat, 0);
const auto data1 = loadImage(testContext.getTestContext().getArchive(), format.internalFormat, 1);
steps.push_back(
{
[format, data0](ApiTestContext& context)
{
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
context.gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format.internalFormat, data0.width, data0.height, 0, data0.data.size(), data0.data.data());
},
GL_NO_ERROR
});
steps.push_back(
{
[format, data1](ApiTestContext& context)
{
context.gl.compressedTexImage2D(GL_TEXTURE_2D, 1, format.internalFormat, data1.width, data1.height, 0, data1.data.size(), data1.data.data());
},
GL_NO_ERROR
});
steps.push_back(
{
[format, data1](ApiTestContext& context)
{
context.gl.compressedTexSubImage2D(GL_TEXTURE_2D, 0, format.blockSize.x() - 2, 0, data1.width, data1.height, format.internalFormat, data1.data.size(), data1.data.data());
},
GL_INVALID_OPERATION
});
steps.push_back(
{
[format, data1](ApiTestContext& context)
{
context.gl.compressedTexSubImage2D(GL_TEXTURE_2D, 0, 0, format.blockSize.y() - 2, data1.width, data1.height, format.internalFormat, data1.data.size(), data1.data.data());
},
GL_INVALID_OPERATION
});
}
}
},
{
gles32, // ApiType minApi;
"copy_compressed_to_uncompressed", // string name;
"Copying pixels from compressed to uncompressed texture", // string description;
2, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{}, // vector<ApiCaseStep> steps;
[](deqp::Context&, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
for(const auto& format : copyFormats)
{
if (format.second.empty())
continue;
for(const auto& uncompressedFormat : format.first)
{
for(const auto& compressedFormat : format.second)
{
steps.push_back(
{
[uncompressedFormat, compressedFormat](ApiTestContext& context)
{
const auto& gl = context.gl;
const auto& image = imageData.at(compressedFormat);
const auto& unsizedInfo = unsizedFormats.at(uncompressedFormat);
const auto textureData = loadImage(context.archive, compressedFormat, 0);
const auto compressedInfo = find_if(begin(compressedFormats), end(compressedFormats), [compressedFormat](const FormatInfo& fmt) { return fmt.internalFormat == compressedFormat; });
DE_ASSERT((GLsizei)textureData.width == image[0].width && (GLsizei)textureData.height == image[0].height);
DE_ASSERT(compressedInfo != end(compressedFormats));
const auto targetWidth = image[0].width / compressedInfo->blockSize[0];
const auto targetHeight = image[0].height / compressedInfo->blockSize[1];
context.log
<< TestLog::Message
<< "Copying from " << getTextureFormatStr(compressedFormat).toString() << " " << image[0].width << "x" << image[0].height
<< " to " << getTextureFormatStr(uncompressedFormat).toString() << " " << targetWidth << "x" << targetHeight
<< TestLog::EndMessage;
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
gl.texImage2D(GL_TEXTURE_2D, 0, uncompressedFormat, targetWidth, targetHeight, 0, unsizedInfo.format, unsizedInfo.dataType, 0);
GLU_EXPECT_NO_ERROR(gl.getError(), "glTexImage2D() failed");
setTextureParameters(context.gl, GL_TEXTURE_2D);
context.bindTexture(GL_TEXTURE_2D, context.texIds[1]);
gl.compressedTexImage2D(GL_TEXTURE_2D, 0, compressedFormat, image[0].width, image[0].height, 0, textureData.data.size(), textureData.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexImage2D() failed");
setTextureParameters(context.gl, GL_TEXTURE_2D);
context.bindTexture(GL_TEXTURE_2D, 0);
gl.copyImageSubData(context.texIds[1], GL_TEXTURE_2D, 0, 0, 0, 0, context.texIds[0], GL_TEXTURE_2D, 0, 0, 0, 0, image[0].width, image[0].height, 1);
},
GL_NO_ERROR
});
}
}
}
}
},
{
gles32, // ApiType minApi;
"copy_uncompressed_to_compressed", // string name;
"Copying pixels from uncompressed to compressed texture", // string description;
2, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{}, // vector<ApiCaseStep> steps;
[](deqp::Context&, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
for(const auto& format : copyFormats)
{
if (format.second.empty())
continue;
for(const auto& uncompressedFormat : format.first)
{
for(const auto& compressedFormat : format.second)
{
steps.push_back(
{
[uncompressedFormat, compressedFormat](ApiTestContext& context)
{
const auto& gl = context.gl;
const auto& image = imageData.at(compressedFormat);
const auto& unsizedInfo = unsizedFormats.at(uncompressedFormat);
const auto textureData = loadImage(context.archive, compressedFormat, 0);
const auto compressedInfo = find_if(begin(compressedFormats), end(compressedFormats), [compressedFormat](const FormatInfo& fmt) { return fmt.internalFormat == compressedFormat; });
DE_ASSERT(compressedInfo != end(compressedFormats));
const auto sourceWidth = image[0].width / compressedInfo->blockSize[0];
const auto sourceHeight = image[0].height / compressedInfo->blockSize[1];
DE_ASSERT((GLsizei)textureData.width == image[0].width && (GLsizei)textureData.height == image[0].height);
context.log
<< TestLog::Message
<< "Copying from " << getTextureFormatStr(uncompressedFormat).toString() << " " << sourceWidth << "x" << sourceHeight
<< " to " << getTextureFormatStr(compressedFormat).toString() << " " << image[0].width << "x" << image[0].height
<< TestLog::EndMessage;
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
gl.texImage2D(GL_TEXTURE_2D, 0, uncompressedFormat, sourceWidth, sourceHeight, 0, unsizedInfo.format, unsizedInfo.dataType, 0);
GLU_EXPECT_NO_ERROR(gl.getError(), "glTexImage2D() failed");
setTextureParameters(context.gl, GL_TEXTURE_2D);
context.bindTexture(GL_TEXTURE_2D, context.texIds[1]);
gl.compressedTexImage2D(GL_TEXTURE_2D, 0, compressedFormat, image[0].width, image[0].height, 0, textureData.data.size(), textureData.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexImage2D() failed");
setTextureParameters(context.gl, GL_TEXTURE_2D);
context.bindTexture(GL_TEXTURE_2D, 0);
gl.copyImageSubData(context.texIds[0], GL_TEXTURE_2D, 0, 0, 0, 0, context.texIds[1], GL_TEXTURE_2D, 0, 0, 0, 0, sourceWidth, sourceHeight, 1);
},
GL_NO_ERROR
});
}
}
}
}
},
{
gles32, // ApiType minApi;
"copy_compressed_to_compressed", // string name;
"Copying of pixels between compatible compressed texture formats", // string description;
2, // size_t texIdsCount;
0, // size_t bufferIdsCount;
{}, // vector<ApiCaseStep> steps;
[](deqp::Context&, vector<ApiCaseStep>& steps) // ApiCaseStepGeneratorFn stepsGenerator;
{
for(const auto& format : copyFormats)
{
if (!format.second.empty())
continue;
for(const auto& format0 : format.first)
{
for(const auto& format1 : format.first)
{
steps.push_back(
{
[format0, format1](ApiTestContext& context)
{
const auto& gl = context.gl;
const auto image0 = loadImage(context.archive, format0, 0);
const auto image1 = loadImage(context.archive, format1, 1);
DE_ASSERT(image0.width == 2 * image1.width && image0.height == 2 * image1.height);
context.bindTexture(GL_TEXTURE_2D, context.texIds[0]);
gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format0, image0.width, image0.height, 0, image0.data.size(), image0.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexImage2D() failed");
setTextureParameters(context.gl, GL_TEXTURE_2D);
context.bindTexture(GL_TEXTURE_2D, context.texIds[1]);
gl.compressedTexImage2D(GL_TEXTURE_2D, 0, format1, image1.width, image1.height, 0, image1.data.size(), image1.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexImage2D() failed");
setTextureParameters(context.gl, GL_TEXTURE_2D);
context.bindTexture(GL_TEXTURE_2D, 0);
gl.copyImageSubData(context.texIds[1], GL_TEXTURE_2D, 0, 0, 0, 0, context.texIds[0], GL_TEXTURE_2D, 0, 0, 0, 0, image1.width, image1.height, 1);
},
GL_NO_ERROR
});
}
}
}
}
}
};
class CompressedApiTest : public deqp::TestCase
{
public:
explicit CompressedApiTest (deqp::Context& context, const ApiCaseParams& params);
virtual ~CompressedApiTest ();
virtual void init (void) override;
virtual void deinit (void) override;
virtual IterateResult iterate (void) override;
private:
ApiCaseParams m_params;
vector<GLuint> m_texIds;
vector<GLuint> m_bufferIds;
};
CompressedApiTest::CompressedApiTest (deqp::Context& context, const ApiCaseParams& params)
: deqp::TestCase(context, params.name.c_str(), params.description.c_str())
, m_params(params)
{
}
CompressedApiTest::~CompressedApiTest ()
{
}
void CompressedApiTest::init (void)
{
const auto& gl = m_context.getRenderContext().getFunctions();
if (m_params.texIdsCount > 0)
{
m_texIds.resize(m_params.texIdsCount);
gl.genTextures(m_texIds.size(), m_texIds.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glGenTextures() failed");
m_bufferIds.resize(m_params.bufferIdsCount);
gl.genBuffers(m_bufferIds.size(), m_bufferIds.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glGenBuffers() failed");
}
}
void CompressedApiTest::deinit (void)
{
const auto& gl = m_context.getRenderContext().getFunctions();
if (!m_bufferIds.empty())
{
gl.deleteBuffers(m_bufferIds.size(), m_bufferIds.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glDeleteBuffers() failed");
m_bufferIds.erase(m_bufferIds.begin(), m_bufferIds.end());
}
if (!m_texIds.empty())
{
gl.deleteTextures(m_texIds.size(), m_texIds.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glDeleteTextures() failed");
m_texIds.erase(m_texIds.begin(), m_texIds.end());
}
}
CompressedApiTest::IterateResult CompressedApiTest::iterate (void)
{
const auto& gl = m_context.getRenderContext().getFunctions();
ApiTestContext caseContext =
{
m_context.getTestContext().getLog(),
gl,
m_texIds,
m_bufferIds,
m_context.getTestContext().getArchive()
};
vector<ApiCaseStep> steps (m_params.steps);
if (m_params.stepsGenerator)
m_params.stepsGenerator(m_context, steps);
size_t stepIndex = 0;
for(const auto& step : steps)
{
step.code(caseContext);
const auto errorCode = gl.getError();
if (errorCode != step.expectedError)
{
ostringstream msg;
msg << "Got wrong error code: " << glu::getErrorStr(errorCode)
<< ", expected: " << glu::getErrorStr(step.expectedError)
<< " after step " << stepIndex;
TCU_FAIL(msg.str().c_str());
}
++stepIndex;
}
m_context.getTestContext().setTestResult(QP_TEST_RESULT_PASS, "Pass");
return IterateResult::STOP;
}
class CompressedFormatTest : public deqp::TestCase
{
public:
CompressedFormatTest (deqp::Context& context, shared_ptr<SharedData> data, const FormatInfo& format);
virtual ~CompressedFormatTest ();
virtual void init (void);
virtual void deinit (void);
virtual IterateResult iterate (void);
private:
Surface drawTestImage (const glw::Functions& gl, GLuint texId, GLsizei width, GLsizei height);
shared_ptr<SharedData> m_data;
const FormatInfo& formatInfo;
};
CompressedFormatTest::CompressedFormatTest (deqp::Context& context, shared_ptr<SharedData> data, const FormatInfo& format)
: deqp::TestCase(context, format.name, "Test rendering of compressed format ")
, m_data(data)
, formatInfo(format)
{
}
CompressedFormatTest::~CompressedFormatTest ()
{
}
void CompressedFormatTest::init (void)
{
m_data->init();
}
void CompressedFormatTest::deinit (void)
{
m_data->deinit();
}
Surface CompressedFormatTest::drawTestImage (const glw::Functions& gl, GLuint texId, GLsizei width, GLsizei height)
{
gl.clearColor(1.0f, 0.2f, 1.0f, 1.0f);
gl.clear(GL_COLOR_BUFFER_BIT);
GLU_EXPECT_NO_ERROR(gl.getError(), "glClear() failed");
gl.disable(GL_BLEND);
GLU_EXPECT_NO_ERROR(gl.getError(), "glDisable() failed");
gl.bindTexture(GL_TEXTURE_2D, texId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindTexture() failed");
gl.drawArrays(GL_TRIANGLE_STRIP, 0, 4);
GLU_EXPECT_NO_ERROR(gl.getError(), "glDrawArrays() failed");
gl.bindTexture(GL_TEXTURE_2D, 0);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindTexture() failed");
Surface result(width, height);
readPixels(m_context.getRenderContext(), 0, 0, result.getAccess());
return result;
}
CompressedFormatTest::IterateResult CompressedFormatTest::iterate (void)
{
const auto& archive = m_context.getTestContext().getArchive();
const auto image0 = loadImage(archive, formatInfo.internalFormat, 0);
const auto image1 = loadImage(archive, formatInfo.internalFormat, 1);
const auto image2 = loadImage(archive, formatInfo.internalFormat, 2);
DE_ASSERT(image0.width == 2 * image1.width &&
image0.height == 2 * image1.height &&
image0.width % 4 == 0 &&
image0.height % 4 == 0 &&
image0.width == image2.width &&
image0.height == image2.height);
const auto& gl = m_context.getRenderContext().getFunctions();
GLuint texIds[2];
gl.genTextures(DE_LENGTH_OF_ARRAY(texIds), texIds);
GLU_EXPECT_NO_ERROR(gl.getError(), "glGenTextures() failed");
GLuint fboId;
gl.genFramebuffers(1, &fboId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glGenFramebuffers() failed");
GLuint rboId;
gl.genRenderbuffers(1, &rboId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glGenRenderbuffers() failed");
gl.bindRenderbuffer(GL_RENDERBUFFER, rboId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindRenderbuffer() failed");
const GLenum bufferFormats[2][2] = {
{ GL_RGB8 , GL_SRGB8_ALPHA8 },
{ GL_RGBA8 , GL_SRGB8_ALPHA8 }
};
const bool hasAlpha = formatInfo.format == GL_RGBA;
gl.renderbufferStorage(GL_RENDERBUFFER, bufferFormats[hasAlpha][formatInfo.issRGB], image0.width, image0.height);
GLU_EXPECT_NO_ERROR(gl.getError(), "glRenderbufferStorage() failed");
gl.bindRenderbuffer(GL_RENDERBUFFER, 0);
gl.bindFramebuffer(GL_FRAMEBUFFER, fboId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindFramebuffer() failed");
gl.framebufferRenderbuffer(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_RENDERBUFFER, rboId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glFramebufferRenderbuffer() failed");
gl.viewport(0,0, image0.width, image0.height);
GLU_EXPECT_NO_ERROR(gl.getError(), "glViewport() failed");
gl.useProgram(m_data->programId());
GLU_EXPECT_NO_ERROR(gl.getError(), "glUseProgram() failed");
gl.uniform4fv(m_data->offsetLoc(), 1, defaultOffset.offset.getPtr());
GLU_EXPECT_NO_ERROR(gl.getError(), "glUniform4fv() failed");
gl.uniform4fv(m_data->scaleLoc(), 1, defaultOffset.scale.getPtr());
GLU_EXPECT_NO_ERROR(gl.getError(), "glUniform4fv() failed");
gl.blendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBlendFunc() failed");
gl.disable(GL_BLEND);
GLU_EXPECT_NO_ERROR(gl.getError(), "glDisable() failed");
// reference image
gl.bindTexture(GL_TEXTURE_2D, texIds[0]);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindTexture() failed");
gl.texImage2D(GL_TEXTURE_2D, 0, formatInfo.sizedFormat, image2.width, image2.height, 0, formatInfo.format, GL_UNSIGNED_BYTE, image2.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glTexImage2D() failed");
setTextureParameters(gl, GL_TEXTURE_2D);
// compressed image
gl.bindTexture(GL_TEXTURE_2D, texIds[1]);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindTexture() failed");
gl.compressedTexImage2D(GL_TEXTURE_2D, 0, formatInfo.internalFormat, image0.width, image0.height, 0, image0.data.size(), image0.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexImage2D() failed");
gl.compressedTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, image1.width, image1.height, formatInfo.internalFormat, image1.data.size(), image1.data.data());
GLU_EXPECT_NO_ERROR(gl.getError(), "glCompressedTexSubImage2D() failed");
setTextureParameters(gl, GL_TEXTURE_2D);
gl.bindTexture(GL_TEXTURE_2D, 0);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindTexture() failed");
gl.bindVertexArray(m_data->vaoId());
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindVertexArray() failed");
gl.useProgram(m_data->programId());
GLU_EXPECT_NO_ERROR(gl.getError(), "glUseProgram() failed");
gl.uniform4fv(m_data->offsetLoc(), 1, defaultOffset.offset.getPtr());
GLU_EXPECT_NO_ERROR(gl.getError(), "glUniform4fv() failed");
gl.uniform4fv(m_data->scaleLoc(), 1, defaultOffset.scale.getPtr());
GLU_EXPECT_NO_ERROR(gl.getError(), "glUniform4fv() failed");
const auto referenceImage = drawTestImage(gl, texIds[0], image0.width, image0.height);
const auto& offsetIt = offsets.find(formatInfo.internalFormat);
const auto& offset = offsetIt != offsets.end() ? offsetIt->second : defaultOffset;
gl.uniform4fv(m_data->offsetLoc(), 1, offset.offset.getPtr());
GLU_EXPECT_NO_ERROR(gl.getError(), "glUniform4fv() failed");
gl.uniform4fv(m_data->scaleLoc(), 1, offset.scale.getPtr());
GLU_EXPECT_NO_ERROR(gl.getError(), "glUniform4fv() failed");
const auto compressedImage = drawTestImage(gl, texIds[1], image0.width, image0.height);
gl.disable(GL_BLEND);
GLU_EXPECT_NO_ERROR(gl.getError(), "glDisable() failed");
gl.bindTexture(GL_TEXTURE_2D, 0);
GLU_EXPECT_NO_ERROR(gl.getError(), "glBindtexture() failed");
gl.deleteRenderbuffers(1, &rboId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glDeleteRenderbuffers() failed");
gl.deleteTextures(DE_LENGTH_OF_ARRAY(texIds), texIds);
GLU_EXPECT_NO_ERROR(gl.getError(), "glDeleteTextures() failed");
gl.deleteFramebuffers(1, &fboId);
GLU_EXPECT_NO_ERROR(gl.getError(), "glDeleteFramebuffers() failed");
if (!fuzzyCompare(m_testCtx.getLog(), "compressed_vs_uncompressed", "Image comparison result", referenceImage, compressedImage, 0.0f, CompareLogMode::COMPARE_LOG_ON_ERROR))
TCU_FAIL("Rendered image comparison failed.");
m_context.getTestContext().setTestResult(QP_TEST_RESULT_PASS, "Pass");
return IterateResult::STOP;
}
} //
CompressedFormatTests::CompressedFormatTests (deqp::Context& context)
: deqp::TestCaseGroup(context, "compressed_format", "Tests for compressed image formats")
{
}
CompressedFormatTests::~CompressedFormatTests (void)
{
}
void CompressedFormatTests::init (void)
{
const auto apiGroup = new TestCaseGroup(m_context, "api", "Api call return values");
addChild(apiGroup);
for(const auto& apiCase : apiTests)
if (glu::contextSupports(m_context.getRenderContext().getType(), apiCase.minApi))
apiGroup->addChild(new CompressedApiTest(m_context, apiCase));
const auto formatGroup = new TestCaseGroup(m_context, "format", "Compressed format textures");
addChild(formatGroup);
const auto sharedData = make_shared<SharedData>(m_context);
for(const auto& formatInfo : compressedFormats)
if (glu::contextSupports(m_context.getRenderContext().getType(), formatInfo.minApi))
formatGroup->addChild(new CompressedFormatTest(m_context, sharedData, formatInfo));
}
} // glcts
| 32,456 |
2,164 | //
// BugsnagErrorReportApiClient.h
// Pods
//
// Created by <NAME> on 11/08/2017.
//
//
#import <Foundation/Foundation.h>
#import "BSG_KSCrashReportFilterCompletion.h"
#import "BugsnagCrashReport.h"
#import "BugsnagConfiguration.h"
#import "BugsnagApiClient.h"
@interface BugsnagErrorReportApiClient : BugsnagApiClient
@end
| 135 |
412 | <filename>regression/cbmc-incr/simpleloop3/main.c<gh_stars>100-1000
int main()
{
int x;
for(unsigned i = 0;i<=5;i++) x--;
assert(x!=0);
}
| 70 |
1,144 | <reponame>rlourette/TI_SDK_u-boot-2019.01<gh_stars>1000+
/* SPDX-License-Identifier: GPL-2.0+ */
/*
* Copyright (C) 2017 <NAME> <<EMAIL>>
*
* Derived from linux/arch/mips/include/asm/mach-bcm63xx/bcm63xx_regs.h
*/
#ifndef __DT_BINDINGS_CLOCK_BCM6328_H
#define __DT_BINDINGS_CLOCK_BCM6328_H
#define BCM6328_CLK_PHYMIPS 0
#define BCM6328_CLK_ADSL_QPROC 1
#define BCM6328_CLK_ADSL_AFE 2
#define BCM6328_CLK_ADSL 3
#define BCM6328_CLK_MIPS 4
#define BCM6328_CLK_SAR 5
#define BCM6328_CLK_PCM 6
#define BCM6328_CLK_USBD 7
#define BCM6328_CLK_USBH 8
#define BCM6328_CLK_HSSPI 9
#define BCM6328_CLK_PCIE 10
#define BCM6328_CLK_ROBOSW 11
#endif /* __DT_BINDINGS_CLOCK_BCM6328_H */
| 357 |
451 | /*Header-MicMac-eLiSe-25/06/2007
MicMac : Multi Image Correspondances par Methodes Automatiques de Correlation
eLiSe : ELements of an Image Software Environnement
www.micmac.ign.fr
Copyright : Institut Geographique National
Author : <NAME>
Contributors : <NAME>, <NAME>.
[1] <NAME>, <NAME>.
"A multiresolution and optimization-based image matching approach:
An application to surface reconstruction from SPOT5-HRS stereo imagery."
In IAPRS vol XXXVI-1/W41 in ISPRS Workshop On Topographic Mapping From Space
(With Special Emphasis on Small Satellites), Ankara, Turquie, 02-2006.
[2] <NAME>, "MicMac, un lociel de mise en correspondance
d'images, adapte au contexte geograhique" to appears in
Bulletin d'information de l'Institut Geographique National, 2007.
Francais :
MicMac est un logiciel de mise en correspondance d'image adapte
au contexte de recherche en information geographique. Il s'appuie sur
la bibliotheque de manipulation d'image eLiSe. Il est distibue sous la
licences Cecill-B. Voir en bas de fichier et http://www.cecill.info.
English :
MicMac is an open source software specialized in image matching
for research in geographic information. MicMac is built on the
eLiSe image library. MicMac is governed by the "Cecill-B licence".
See below and http://www.cecill.info.
Header-MicMac-eLiSe-25/06/2007*/
#include "general/all.h"
#include "Apero.h"
#include "ext_stl/numeric.h"
namespace NS_ParamApero
{
// AJOUT DES OBSERVATIONS
void cAppliApero::AddObservations
(
const cSectionObservations & anSO,
bool IsLastIter,
cStatObs & aSO
)
{
if (IsLastIter && anSO.TxtRapDetaille().IsInit())
{
InitRapportDetaille(anSO.TxtRapDetaille().Val());
}
else
{
mFpRT = 0;
}
AddLevenbergMarkard(aSO);
AddObservationsAppuisFlottants(anSO.ObsAppuisFlottant(),IsLastIter,aSO);
AddObservationsCentres(anSO.ObsCentrePDV(),IsLastIter,aSO);
AddObservationsAppuis(anSO.ObsAppuis(),IsLastIter,aSO);
AddObservationsLiaisons(anSO.ObsLiaisons(),IsLastIter,aSO);
AddObservationsRigidGrp(anSO.ObsRigidGrpImage(),IsLastIter,aSO);
if (mFpRT)
{
ElFclose(mFpRT);
mFpRT = 0;
}
}
void cAppliApero::AddObservationsRigidGrp
(
const std::list<cObsRigidGrpImage> & aLG,
bool IsLastIter,
cStatObs & aSO
)
{
for (std::list<cObsRigidGrpImage>::const_iterator itG=aLG.begin(); itG!=aLG.end() ; itG++)
{
AddObservationsRigidGrp(*itG,IsLastIter,aSO);
}
}
void cAppliApero::AddObservationsAppuis(const std::list<cObsAppuis> & aL,bool IsLastIter,cStatObs & aSO)
{
// La templatisation complique le passage a la "sous-traitance", donc on
// gere a la main les iterations
for (std::list<cObsAppuis>::const_iterator itOA= aL.begin(); itOA!=aL.end() ; itOA++)
{
tPackAppuis * aPack = GetEntreeNonVide(mDicoAppuis,itOA->NameRef(),"AddObservationsApp");
std::list<cObserv1Im<cTypeEnglob_Appuis> *> & aLobs = aPack->LObs();
double aSPds = 0;
double aSResPds = 0;
double aSRes =0;
double aNB =0;
std::vector<cRes1OnsAppui> aVResAp;
std::vector<cRes1OnsAppui> *pVResAp=0;
const cRapportObsAppui * pRAO=0;
if (itOA->RapportObsAppui().IsInit())
{
const cRapportObsAppui & aROA = itOA->RapportObsAppui().Val();
if (IsLastIter || (!aROA.OnlyLastIter().Val()))
{
pRAO = & aROA;
pVResAp = &aVResAp;
}
}
for
(
std::list<cObserv1Im<cTypeEnglob_Appuis> *>::iterator itAp=aLobs.begin();
itAp!= aLobs.end();
itAp++
)
{
if ((*itAp)->mPose->RotIsInit())
{
double aRes = AddAppuisOnePose(*itOA,*itAp,pVResAp,aSO,aSResPds,aSPds);
aNB ++;
aSRes += aRes;
}
}
if ((aNB >0) && (int(itOA->Pond().Show().Val()) >= int(eNSM_Iter)))
{
COUT() << "| | " << " RESIDU APPUIS MOYENS , Non Pond :"
<< sqrt(aSRes/aNB )
<< " Pond " << sqrt(aSResPds/aSPds)
<< " pour " << itOA->NameRef() << "\n";
}
if (pVResAp)
{
DoRapportAppuis(*itOA,*pRAO,*pVResAp);
}
}
}
void cAppliApero::AddObservationsCentres(const std::list<cObsCentrePDV> & aL,bool IsLastIter,cStatObs & aSO)
{
for (std::list<cObsCentrePDV>::const_iterator itOC= aL.begin(); itOC!=aL.end() ; itOC++)
{
const cObsCentrePDV & anObs = *itOC;
cPonderateur aPdsPlani(anObs.Pond(),NbRotInit());
cPonderateur aPdsAlti(anObs.PondAlti().ValWithDef(anObs.Pond()),NbRotInit());
for (int aKPose=0 ; aKPose<int(mVecPose.size()) ; aKPose++)
{
cPoseCam * aPC = mVecPose[aKPose];
// std::cout << "BBBBB " << aPC->RotIsInit() << " " << aPC->DoAddObsCentre(anObs) << "\n";
if (aPC->RotIsInit() && aPC->DoAddObsCentre(anObs))
{
// std::cout << "CCCCCCC\n";
aPC->AddObsCentre(anObs,aPdsPlani,aPdsAlti,aSO);
}
}
}
}
void cAppliApero::AddObservationsLiaisons(const std::list<cObsLiaisons> & aL,bool IsLastIter,cStatObs & aSO)
{
if (mFpRT)
{
fprintf(mFpRT,"\n*Liaisons\n");
fprintf(mFpRT,"// Xcomp Ycomp Zcomp Pds\n");
fprintf(mFpRT,"// NomImage XIm YIm ResXIm ResYIm RayX RayY RayZ\n");
}
for (std::list<cObsLiaisons>::const_iterator itOL= aL.begin(); itOL!=aL.end() ; itOL++)
{
cRapOnZ * aRAZ = 0;
if (itOL->RappelOnZ().IsInit())
{
const cRappelOnZ & aRaz = itOL->RappelOnZ().Val();
double anI = aRaz.IncC();
aRAZ = new cRapOnZ(aRaz.Z(),anI,aRaz.IncE().ValWithDef(anI),aRaz.LayerMasq().ValWithDef(""));
}
cPackObsLiaison * aPackL = GetEntreeNonVide(mDicoLiaisons,itOL->NameRef(),"AddObservationsLiaisons");
aPackL->AddObs(itOL->Pond(),itOL->PondSurf().PtrVal(),aSO,aRAZ);
// delete aRAZ;
}
}
void cAppliApero::AddObservationsAppuisFlottants(const std::list<cObsAppuisFlottant> & aL,bool IsLastIter,cStatObs & aSO)
{
if (mFpRT)
{
fprintf(mFpRT,"\n*Appuis\n");
fprintf(mFpRT,"// Xter Yter ZTer Xcomp Ycomp Zcomp Pds\n");
fprintf(mFpRT,"// NomImage XIm YIm ResXIm ResYIm RayX RayY RayZ\n");
}
for (std::list<cObsAppuisFlottant>::const_iterator itOAF= aL.begin(); itOAF!=aL.end() ; itOAF++)
{
cBdAppuisFlottant * aBAF = GetEntreeNonVide(mDicPF,itOAF->NameRef(),"AddObservationsAppuisFlottants");
aBAF->AddObs(*itOAF,aSO);
}
}
// ACTIVATION DES CONTRAINTES
void cAppliApero::ActiveContraintes(bool Stricte)
{
// Contraintes sur les calibrations
for (tDiCal::iterator itD=mDicoCalib.begin() ; itD!=mDicoCalib.end(); itD++)
{
itD->second->ActiveContrainte(Stricte);
}
// Contraintes sur les poses
for (tDiPo::iterator itD=mDicoPose.begin() ; itD!=mDicoPose.end(); itD++)
{
itD->second->ActiveContrainte(Stricte);
}
}
#define TheUninitScoreLambda -1e30
double cAppliApero::ScoreLambda(double aLambda)
{
if (aLambda==0.0)
{
return mScoreLambda0;
}
if ((aLambda==1.0) && (mScoreLambda1 != TheUninitScoreLambda))
{
return mScoreLambda1;
}
cStatObs aSO(false);
mSetEq.ResetUpdate(aLambda);
AddObservations(mCurEC->SectionObservations(),mIsLastIter,aSO);
return aSO.SomErPond();
}
double cAppliApero::NRF1v(double aLambda)
{
return ScoreLambda(aLambda);
}
bool cAppliApero::NROptF1vContinue() const
{
if (NROptF1vND::mNbIter <=mParam.SeuilBas_CDD().Val())
return true;
if (NROptF1vND::mNbIter > mParam.SeuilHaut_CDD().Val())
return false;
return x0 == 0.0;
}
// UNE ITERATION
class cCmpNbNNPose
{
public :
bool operator ()(cPoseCam * aP1,cPoseCam * aP2) const
{
return aP1->NbPtsMulNN() < aP2->NbPtsMulNN();
}
};
void cAppliApero::OneIterationCompensation(const cEtapeCompensation & anEC,bool IsLast)
{
mCurEC = & anEC;
mIsLastIter = IsLast;
for (tDiPo::iterator itD=mDicoPose.begin() ; itD!=mDicoPose.end(); itD++)
{
itD->second->InitAvantCompens();
}
ActiveContraintes(true);
mSetEq.SetPhaseEquation();
ActiveContraintes(false);
cStatObs aSO(true);
for (int aKP=0 ; aKP<int(mVecPose.size()) ; aKP++)
{
mVecPose[aKP]->SetNbPtsMulNN(0);
}
AddObservations(anEC.SectionObservations(),IsLast,aSO);
// Eventuel affichage des points des images a peu de liaison
if (mCurPbLiaison && mCurPbLiaison->Actif().Val())
{
std::vector<cPoseCam *> aVP = mVecPose;
cCmpNbNNPose aCmp;
std::sort(aVP.begin(),aVP.end(),aCmp);
bool Got=false;
for (int aK=int(aVP.size())-1 ; aK>=0 ; aK--)
{
if (aVP[aK]->NbPtsMulNN() <mCurPbLiaison->NbMinPtsMul().Val())
{
Got = true;
std::cout << " Pose : " << aVP[aK]->Name()
<< " PMUL : " << aVP[aK]->NbPtsMulNN()
<< "\n";
}
}
if (Got && mCurPbLiaison->GetCharOnPb().Val())
{
std::cout << "Enter to continue \n";
getchar();
}
}
// std::cout << "=========SOM-POND-ERR " << aSO.SomErPond() << "\n";
// mSetEq.SolveResetUpdate(aSO.SomErPond());
// mSetEq.Solve(aSO.SomErPond());
mSetEq.Solve(aSO.SomErPond(),(bool *)0);
mScoreLambda0 = aSO.SomErPond();
double aLambdaReset = 1.0;
eControleDescDic aModeCDD = mParam.ModeControleDescDic().Val();
if (aModeCDD != eCDD_Jamais)
{
mScoreLambda1 = TheUninitScoreLambda;
mScoreLambda1 = ScoreLambda(1.0);
if ((aModeCDD==eCDD_Toujours) || (mScoreLambda1> mScoreLambda0))
{
double aVInterm = (mScoreLambda0 < mScoreLambda1) ? 0.38 : 0.62; // Voir Golden
golden(0.0, aVInterm , 1.0,1e-3,&aLambdaReset);
}
std::cout << "LAMBDA MIN = " << aLambdaReset << "\n";
}
mSetEq.ResetUpdate(aLambdaReset);
// mSetEq.SolveResetUpdate(aSO.SomErPond());
for (tDiPo::iterator itD=mDicoPose.begin() ; itD!=mDicoPose.end(); itD++)
{
itD->second->Trace();
}
}
// AJOUT DES CONTRAINTES
void cAppliApero::MAJContrainteCamera(const cContraintesCamerasInc & aC)
{
// ELISE_ASSERT (aC.TolContrainte().Val()<0,"Ne gere que les contraintes strictes");
cElRegex anAutom(aC.PatternNameApply().Val(),10);
cElRegex * aRef = aC.PatternRefuteur().ValWithDef(0);
int aNbMatch=0;
for
(
tDiCal::const_iterator itC = mDicoCalib.begin();
itC!= mDicoCalib.end();
itC++
)
{
if (anAutom.Match(itC->first))
{
if ((aRef==0) || (! aRef->Match(itC->first)))
{
aNbMatch++;
// std::cout << itC->first << " ::: itC->second " << itC->second << "\n";
itC->second->SetContrainte(aC);
}
}
}
if (aNbMatch==0)
{
static bool First = true;
if (First)
{
First = false;
std::cout << "WARN No Math for ContraintesCamerasInc " << aC.PatternNameApply().Val() << "\n";
GetCharOnBrkp();
}
}
}
void cAppliApero::MAJContraintePose(const cContraintesPoses & aC)
{
if (aC.ByPattern().Val())
{
cSetName * aSelector = mICNM->KeyOrPatSelector(aC.NamePose());
int aNb = 0;
cSetName * aRefut = 0;
if (aC.PatternRefuteur().IsInit())
aRefut = mICNM->KeyOrPatSelector(aC.PatternRefuteur().Val());
for (int aKP=0; aKP<int(mVecPose.size()) ; aKP++)
{
std::string aName = mVecPose[aKP]->Name();
if (aSelector->IsSetIn(aName))
{
if ( (!aRefut) ||(!aRefut->IsSetIn(aName)))
{
mVecPose[aKP]->SetContrainte(aC);
aNb++;
}
}
}
if (aNb==0)
{
// std::cout << "WWWWWWWWaarrrrnnnnnnn : contrainte pose By Pattern, aucun match\n";
}
}
else
{
cPoseCam * aPose = PoseFromName(aC.NamePose());
aPose->SetContrainte(aC);
}
}
typedef std::list<cContraintesCamerasInc> tLCCI;
typedef std::list<cContraintesPoses> tLCCP;
void cAppliApero::MAJContraintes(const cSectionContraintes & aSC)
{
// ----------------------------------
// On initialise les contraintes
// ----------------------------------
// Contraintes sur les calibrations
{
const tLCCI aLC=aSC.ContraintesCamerasInc();
for (tLCCI::const_iterator anIC=aLC.begin(); anIC!=aLC.end() ; anIC++)
{
MAJContrainteCamera(*anIC);
}
}
// Contraintes sur les poses
{
const tLCCP aLCP=aSC.ContraintesPoses();
for (tLCCP::const_iterator anICP=aLCP.begin(); anICP!=aLCP.end() ; anICP++)
{
MAJContraintePose(*anICP);
}
}
for (tDiPo::iterator itD=mDicoPose.begin() ; itD!=mDicoPose.end(); itD++)
{
if (! itD->second->RotIsInit())
{
itD->second->SetFigee();
}
}
}
// CONTROLE GLOBAL
//
void cAppliApero:: AddResiducentre(const Pt3dr & aP)
{
mResiduCentre.push_back(aP);
}
void cAppliApero::AddRetard(double aT)
{
mRetardGpsC.push_back(aT);
}
void cAppliApero::ShowRetard()
{
if (mRetardGpsC.empty()) return;
std::sort(mRetardGpsC.begin(),mRetardGpsC.end());
int aNb = 10;
for (int aK=0 ; aK<=aNb ; aK++)
{
double aPerc = (aK*100.0) / aNb;
std::cout << " %:" << aPerc << " RETARD " << ValPercentile(mRetardGpsC,aPerc) << "\n";
}
}
void cAppliApero::ShowResiduCentre()
{
if (mResiduCentre.size() ==0) return;
double aResiduMin = 1e30;
int aKMin = -1;
for (int aKTest=0 ; aKTest <int(mResiduCentre.size()) ; aKTest++)
{
double aSom = 0.0;
Pt3dr aCTest = mResiduCentre[aKTest];
for (int aK1=0 ; aK1 <int(mResiduCentre.size()) ; aK1++)
{
aSom += euclid(aCTest-mResiduCentre[aK1]);
}
if (aSom<aResiduMin)
{
aResiduMin = aSom;
aKMin=aKTest;
}
}
Pt3dr aCMed = mResiduCentre[aKMin];
std::cout << "CENTRE MEDIAN = " << aCMed << "\n";
}
void cAppliApero::DoOneContraintesAndCompens
(
const cEtapeCompensation & anEC,
const cIterationsCompensation & anIter,
bool IsLastIter
)
{
ReinitStatCondFaisceau();
mResiduCentre.clear();
mRetardGpsC.clear();
if (! mParam.DoCompensation().Val())
return;
for
(
std::list<cSetRayMaxUtileCalib>::const_iterator itS=anIter.SetRayMaxUtileCalib().begin();
itS!=anIter.SetRayMaxUtileCalib().end();
itS++
)
{
bool got = false;
cElRegex anAutom(itS->Name(),10);
for
(
tDiCal::const_iterator itC=mDicoCalib.begin();
itC!=mDicoCalib.end();
itC++
)
{
// if (itC->second && itC->second->CCI().Name()==itS->Name())
if (itC->second && anAutom.Match(itC->second->CCI().Name()))
{
itC->second->SetRMaxU(itS->Ray(),itS->IsRelatifDiag().Val(),itS->ApplyOnlyFE().Val());
got = true;
}
}
ELISE_ASSERT(got,"No Cam found in SetRayMaxUtileCalib");
//ELISE_ASSERT(false,"FAIRE MODIF RMAX UTIL POUR CALIB / POSE ");
// CalibFromName(itS->Name())->SetRMaxU(itS->Ray());
}
for
(
tDiPo::const_iterator itD=mDicoPose.begin();
itD!=mDicoPose.end();
itD++
)
{
cPoseCam * aPC = itD->second;
aPC->BeforeCompens();
}
if (anIter.SectionContraintes().IsInit())
{
MAJContraintes(anIter.SectionContraintes().Val());
}
OneIterationCompensation(anEC,IsLastIter);
ShowResiduCentre();
ShowRetard();
if (DebugPbCondFaisceau)
{
ShowStatCondFaisceau(true);
}
}
bool cAppliApero::PIsActif(const Pt2dr & aP) const
{
return (!mMTAct) || (mMTAct->SelectVal(aP));
}
void cAppliApero::DoContraintesAndCompens
(
const cEtapeCompensation & anEC,
const cIterationsCompensation & anIter,
bool IsLastIter
)
{
mMTAct = 0;
if (!anIter.MesureErreurTournante().IsInit())
{
DoOneContraintesAndCompens(anEC,anIter,IsLastIter);
ExportSauvAutom();
return;
}
std::cout << "------------- MESURE ERREUR EXTRAPOLATION ------------------------\n";
const cMesureErreurTournante & aMET = anIter.MesureErreurTournante().Val();
int aNbPer = aMET.NbTest().ValWithDef(aMET.Periode()) ;
int aNbIter = aMET.NbIter().Val();
ELISE_ASSERT(mMTRes==0,"Multiple mesure tournante");
mMTAct = new cMTActive(aNbPer);
mMTRes = new cMTResult;
for (int aKCur=0 ; aKCur<aNbPer ; aKCur++)
{
cStateAllocI aStateVar (mSetEq.Alloc());
mMTAct->SetKCur(aKCur);
for (int aKIter=0 ; aKIter<aNbIter ; aKIter++)
{
if (aKIter==(aNbIter-1))
{
mMTRes->NewSerie();
mMTRes->SetActif();
}
else
{
mMTRes->SetInactif();
}
DoOneContraintesAndCompens(anEC,anIter,IsLastIter);
}
AddCamsToMTR();
mSetEq.Alloc().RestoreState(aStateVar);
std::cout << " Done " << (aKCur+1) << " on " << aNbPer << "\n";
}
std::cout << "------------- ------------------------\n";
mMTRes->SetInactif();
delete mMTAct;
mMTAct = 0;
}
void cAppliApero::TestInteractif(const cTplValGesInit<cTestInteractif> & aTTI,bool Avant)
{
if (! aTTI.IsInit()) return;
const cTestInteractif aTI = aTTI.Val();
if (! (Avant ? aTI.AvantCompens().Val() : aTI.ApresCompens().Val()))
{
return;
}
if (aTI.TestF2C2().Val())
TestF2C2();
ResidualStepByStep = aTI.SetStepByStep().Val();
}
// bool ResidualStepByStep = false;
void cAppliApero::TestF2C2()
{
bool cont = true;
while (cont)
{
std::cout << "Enter Name \n";
std::string aName;
std::cin >> aName;
cPoseCam * aPC = PoseFromNameSVP(aName);
if (aPC)
{
const CamStenope * aCS = aPC->CurCam();
Pt2dr aPIm;
std::cin >> aPIm.x >> aPIm.y ;
std::cout << "C2 : " << aCS->F2toC2(aPIm) << aCS->F2AndZtoR3(aPIm,22) << "\n";
}
}
}
void cAppliApero::DoOneEtapeCompensation(const cEtapeCompensation & anEC)
{
delete mMTRes;
mMTRes = 0;
InitLVM(mCurSLMGlob,anEC.SLMGlob(),mMulSLMGlob,anEC.MultSLMGlob());
InitLVM(mCurSLMEtape,anEC.SLMEtape(),mMulSLMEtape,anEC.MultSLMEtape());
for (int aK=0 ; aK<int(anEC.IterationsCompensation().size()) ; aK++)
{
bool kIterLast = (aK==((int)anEC.IterationsCompensation().size()-1));
const cIterationsCompensation & anIter = anEC.IterationsCompensation()[aK];
TestInteractif(anIter.TestInteractif(),true);
InitLVM(mCurSLMGlob,anIter.SLMGlob(),mMulSLMGlob,anIter.MultSLMGlob());
InitLVM(mCurSLMEtape,anIter.SLMEtape(),mMulSLMEtape,anIter.MultSLMEtape());
InitLVM(mCurSLMIter,anIter.SLMIter(),mMulSLMIter,anIter.MultSLMIter());
if (anIter.BasculeOrientation().IsInit())
{
Bascule(anIter.BasculeOrientation().Val(),false);
}
DoShowPtsMult(anIter.VisuPtsMult());
for
(
std::list<cVerifAero>::const_iterator itV = anIter.VerifAero().begin();
itV != anIter.VerifAero().end();
itV++
)
{
VerifAero(*itV);
}
if (anEC.SectionTracage().IsInit())
{
const cSectionTracage & aST = anEC.SectionTracage().Val();
for
(
std::list<cTraceCpleCam>::const_iterator itT = aST.TraceCpleCam().begin();
itT != aST.TraceCpleCam().end();
itT++
)
{
PoseFromName(itT->Cam1())->ShowRel(*itT,*PoseFromName(itT->Cam2()));
}
if (aST.GetChar().Val())
{
std::cout << "Stop in trace \n";
getchar();
}
}
for
(
std::list<cExportSimulation>::const_iterator itES=anIter.ExportSimulation().begin();
itES!=anIter.ExportSimulation().end();
itES++
)
{
ExportOneSimule(*itES);
}
if (anIter.Pose2Init().IsInit())
{
const cPose2Init & aP2I = anIter.Pose2Init().Val();
bool aShow = aP2I.Show().Val();
std::vector<int> mVProfs = aP2I.ProfMin();
int aStepC = aP2I.StepComplemAuto().Val();
if (aStepC>=0)
{
if (mVProfs.empty())
{
mVProfs.push_back(2);
}
if (mVProfs.size()==1)
{
mVProfs.push_back(mVProfs[0]+1);
}
if (aStepC==0)
{
int aNb = mVProfs.size();
aStepC = ElMax(1,mVProfs[aNb-1] - mVProfs[aNb-2]);
}
while (mVProfs.back() <= mProfMax)
mVProfs.push_back(mVProfs.back()+aStepC);
while ((mVProfs.size()>=2) && (mVProfs[mVProfs.size()-2] > mProfMax))
mVProfs.pop_back();
std::cout << "---- PROFS=" ;
for (int aK=0 ; aK<int(mVProfs.size()) ; aK++)
std::cout << " " << mVProfs[aK];
std::cout << "\n" ;
}
for (int aKProf=0 ; aKProf != int(mVProfs.size()) ; aKProf++)
{
int aProf = mVProfs[aKProf];
ELISE_ASSERT(mProfInit<=aProf,"Prof 2 Init non croissante !");
for (; mProfInit<aProf; mProfInit++)
{
if (aShow)
{
std::cout << "xProf = " << mProfInit << "\n\n";
}
for (int aKPose=0 ; aKPose<int(mVecPose.size()) ; aKPose++)
{
if (
( mVecPose[aKPose]->Prof2Init() == mProfInit)
&& (!mVecPose[aKPose]->RotIsInit())
)
{
mVecPose[aKPose]->InitRot();
mVecPose[aKPose]->SetDeFigee();
if (aShow)
{
std::cout << " Add Pose = " << mVecPose[aKPose]->Name() << "\n";
}
}
}
}
bool aKProfLast = (aKProf==((int)mVProfs.size()-1));
DoContraintesAndCompens(anEC,anIter,kIterLast&&aKProfLast);
}
}
else
{
DoContraintesAndCompens(anEC,anIter,kIterLast);
}
if (anIter.BasculeOrientation().IsInit())
{
Bascule(anIter.BasculeOrientation().Val(),true);
}
if (anIter.FixeEchelle().IsInit())
{
FixeEchelle(anIter.FixeEchelle().Val());
}
if (anIter.FixeOrientPlane().IsInit())
{
FixeOrientPlane(anIter.FixeOrientPlane().Val());
}
if (anIter.BasicOrPl().IsInit())
{
BasicFixeOrientPlane(anIter.BasicOrPl().Val());
}
if (anIter.BlocBascule().IsInit())
{
BasculeBloc(anIter.BlocBascule().Val());
}
const std::list<std::string> & aLM = anIter.Messages();
for
(
std::list<std::string>::const_iterator itM=aLM.begin();
itM != aLM.end();
itM++
)
{
COUT() << *itM << "\n";
}
if (ShowMes())
{
COUT() << "--- End Iter " << aK << " ETAPE " << mNbEtape << "\n\n";
}
TestInteractif(anIter.TestInteractif(),false);
}
if (anEC.SectionExport().IsInit())
Export(anEC.SectionExport().Val());
mNbEtape++;
}
typedef std::list<cEtapeCompensation> tLEC;
void cAppliApero::DoCompensation()
{
const tLEC & aLEC =mParam.EtapeCompensation();
for ( tLEC::const_iterator itEC=aLEC.begin(); itEC != aLEC.end() ;itEC++)
DoOneEtapeCompensation(*itEC);
}
};
/*Footer-MicMac-eLiSe-25/06/2007
Ce logiciel est un programme informatique servant à la mise en
correspondances d'images pour la reconstruction du relief.
Ce logiciel est régi par la licence CeCILL-B soumise au droit français et
respectant les principes de diffusion des logiciels libres. Vous pouvez
utiliser, modifier et/ou redistribuer ce programme sous les conditions
de la licence CeCILL-B telle que diffusée par le CEA, le CNRS et l'INRIA
sur le site "http://www.cecill.info".
En contrepartie de l'accessibilité au code source et des droits de copie,
de modification et de redistribution accordés par cette licence, il n'est
offert aux utilisateurs qu'une garantie limitée. Pour les mêmes raisons,
seule une responsabilité restreinte pèse sur l'auteur du programme, le
titulaire des droits patrimoniaux et les concédants successifs.
A cet égard l'attention de l'utilisateur est attirée sur les risques
associés au chargement, à l'utilisation, à la modification et/ou au
développement et à la reproduction du logiciel par l'utilisateur étant
donné sa spécificité de logiciel libre, qui peut le rendre complexe à
manipuler et qui le réserve donc à des développeurs et des professionnels
avertis possédant des connaissances informatiques approfondies. Les
utilisateurs sont donc invités à charger et tester l'adéquation du
logiciel à leurs besoins dans des conditions permettant d'assurer la
sécurité de leurs systèmes et ou de leurs données et, plus généralement,
à l'utiliser et l'exploiter dans les mêmes conditions de sécurité.
Le fait que vous puissiez accéder à cet en-tête signifie que vous avez
pris connaissance de la licence CeCILL-B, et que vous en avez accepté les
termes.
Footer-MicMac-eLiSe-25/06/2007*/
| 13,589 |
722 | <filename>model_tools/tools/tensorflow2caffe/bert/tensorflow2caffe_bert.py
#!/usr/local/bin/python
# -*- coding: utf-8 -*-
import math
import sys
sys.path.append("../")
from tensorflow2caffe import Tensorflow2Caffe
class Tensorflow2CaffeBert(Tensorflow2Caffe):
def __init__(self,
tensorflow_model_path, caffe_model_path_prefix, caffe_model_name,
max_seq_length, embedding_dim, encoder_layers, num_heads,
check=False, calc=False):
Tensorflow2Caffe.__init__(self, tensorflow_model_path,
caffe_model_path_prefix, caffe_model_name, check, calc)
self.scopes[0] = "bert"
self.max_seq_length = max_seq_length
self.embedding_dim = embedding_dim
self.encoder_layers = encoder_layers
self.num_heads = num_heads
def extract_embeddings(self, word_input_name, position_input_name, token_input_name, proj_word_embedding_names=None):
# embedding block
self.scopes[1] = "embeddings"
# word embedding
word_embedding_name_1 = "we_1"
self.extract_embedding(word_input_name, 2, "word_embeddings", word_embedding_name_1)
if (proj_word_embedding_names is None):
word_embedding_name_2 = word_embedding_name_1
else:
word_embedding_name_2 = "we_2"
self.extract_dense(word_embedding_name_1, word_embedding_name_2, 2, proj_word_embedding_names)
# position embedding
position_embedding_name = "pe"
self.extract_embedding(position_input_name, 2, "position_embeddings", position_embedding_name)
# token type embedding
token_type_embedding_name = "tte"
self.extract_embedding(token_input_name, 2, "token_type_embeddings", token_type_embedding_name)
# eltwise
sum_name = "embedding_sum"
self.add_sum([word_embedding_name_2,position_embedding_name,token_type_embedding_name], sum_name)
# layer norm
layer_norm_name = "embedding_ln"
self.extract_layer_norm(sum_name, layer_norm_name, 2)
return layer_norm_name
def extract_encoder_attention(self, input_name, attention_mask_input_name, output_name_prefix, scope_id):
# attention
self.scopes[scope_id] = "attention"
# attention-self
self.scopes[scope_id+1] = "self"
# attention-self-query
self.scopes[scope_id+2] = "query"
query_name = output_name_prefix + "att_self_query"
self.extract_dense(input_name, query_name, scope_id+2, "query")
# attention-self-key
self.scopes[scope_id+2] = "key"
key_name = output_name_prefix + "att_self_key"
self.extract_dense(input_name, key_name, scope_id+2, "key")
# attention-self-value
self.scopes[scope_id+2] = "value"
value_name = output_name_prefix + "att_self_value"
self.extract_dense(input_name, value_name, scope_id+2, "value")
# reshape
query_reshape_name = query_name + "_r"
key_reshape_name = key_name + "_r"
value_reshape_name = value_name + "_r"
#size_per_head = self.embedding_dim // self.num_heads
size_per_head = self.get_tensor_shape(query_name)[2] // self.num_heads
self.add_reshape(query_name, query_reshape_name, [self.batch, -1, self.num_heads, size_per_head])
self.add_reshape(key_name, key_reshape_name, [self.batch, -1, self.num_heads, size_per_head])
self.add_reshape(value_name, value_reshape_name, [self.batch, -1, self.num_heads, size_per_head])
# transpose
query_transpose_name = query_name + "_t"
key_transpose_name = key_name + "_t"
value_transpose_name = value_name + "_t"
self.add_transpose(query_reshape_name, query_transpose_name, [0, 2, 1, 3])
self.add_transpose(key_reshape_name, key_transpose_name, [0, 2, 3, 1])
self.add_transpose(value_reshape_name, value_transpose_name, [0, 2, 1, 3])
# query * key
query_key_name = output_name_prefix + "att_self_qk"
self.add_matmul(query_transpose_name, key_transpose_name, query_key_name)
query_key_scale_name = output_name_prefix + "att_self_qks"
self.add_power(query_key_name, query_key_scale_name, scale=1.0/math.sqrt(size_per_head))
# query * key + mask
if (attention_mask_input_name is None):
sum_name = query_key_scale_name
else:
sum_name = output_name_prefix + "att_self_score"
self.add_sum([query_key_scale_name, attention_mask_input_name], sum_name)
# softmax
prob_name = output_name_prefix + "att_self_prob"
self.add_softmax(sum_name, prob_name, 3)
# prob * value
context_name = output_name_prefix + "att_self_cont"
self.add_matmul(prob_name, value_transpose_name, context_name)
# transpose value
context_transpose_name = output_name_prefix + "att_self_cont_t"
self.add_transpose(context_name, context_transpose_name, [0, 2, 1, 3])
# reshape
context_reshape_name = output_name_prefix + "att_self_cont_r"
self.add_reshape(context_transpose_name, context_reshape_name, [self.batch, -1, self.num_heads*size_per_head])
# attention-output
output_name_prefix_new = output_name_prefix + "att_out_"
attention_output_name = self.extract_output(context_reshape_name, input_name, output_name_prefix_new, scope_id+1)
return attention_output_name
def extract_output(self, input_name, eltwise_input_name, output_name_prefix, scope_id):
self.scopes[scope_id] = "output"
# output-dense
dense_name = output_name_prefix + "den"
self.extract_dense(input_name, dense_name, scope_id+1)
# output-sum
sum_name = output_name_prefix + "sum"
self.add_sum([dense_name, eltwise_input_name], sum_name)
# output-layer_norm
layer_norm_name = output_name_prefix + "ln"
self.extract_layer_norm(sum_name, layer_norm_name, scope_id+1)
return layer_norm_name
def extract_encoder_intermediate(self, input_name, output_name_prefix, scope_id):
self.scopes[scope_id] = "intermediate"
dense_name = output_name_prefix + "inter_den"
self.extract_dense(input_name, dense_name, 4)
gelu_name = output_name_prefix + "inter_gelu"
self.add_gelu(dense_name, gelu_name)
return gelu_name
def extract_encoder(self, input_name, attention_mask_input_name, scope_id=1):
self.scopes[scope_id] = "encoder"
encoder_names = []
for i in range(self.encoder_layers):
self.scopes[scope_id+1] = "layer_" + str(i)
scope_next_id = scope_id + 2
output_name_prefix = "layer" + str(i) + "_out_"
# attention
attention_name = self.extract_encoder_attention(input_name, attention_mask_input_name, output_name_prefix, scope_next_id)
# intermediate
intermediate_name = self.extract_encoder_intermediate(attention_name, output_name_prefix, scope_next_id)
# output
output_name = self.extract_output(intermediate_name, attention_name, output_name_prefix, scope_next_id)
input_name = output_name
encoder_names.append(input_name)
return encoder_names
def extract_pooler(self, input_name, scope_id=1):
self.scopes[scope_id] = "pooler"
slice_name = "pooler_slice"
self.add_slice(input_name, [slice_name, "other"], 1, [1])
dense_name = "pooler_den"
self.extract_dense(slice_name, dense_name, scope_id+1)
tanh_name = "pooler_tanh"
self.add_tanh(dense_name, tanh_name)
return tanh_name
def generate(self, input=None):
word_input_name = "bert_words"
position_input_name = "bert_positions"
token_input_name = "bert_token_type"
mask_input_name = "bert_input_mask"
word_input_shape = [self.batch, self.max_seq_length]
position_input_shape = [self.batch, self.max_seq_length]
token_input_shape = [self.batch, self.max_seq_length]
mask_input_shape = [self.batch, self.max_seq_length]
self.add_input(word_input_name, word_input_shape)
self.add_input(position_input_name, position_input_shape)
self.add_input(token_input_name, token_input_shape)
#self.add_input(mask_input_name, mask_input_shape)
self.set_input(input)
attention_mask_name = None #"attention"
#self.add_attention(mask_input_name, self.num_heads, self.max_seq_length, self.max_seq_length, attention_mask_name);
output_name = self.extract_embeddings(word_input_name, position_input_name, token_input_name)
output_names = self.extract_encoder(output_name, attention_mask_name)
output_name = self.extract_pooler(output_names[-1])
self.save_caffe_model()
| 4,052 |
581 | <filename>src/1/policy_iteration.py
#!/usr/bin/env python
#MIT License
#Copyright (c) 2017 <NAME>
#
#Permission is hereby granted, free of charge, to any person obtaining a copy
#of this software and associated documentation files (the "Software"), to deal
#in the Software without restriction, including without limitation the rights
#to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
#copies of the Software, and to permit persons to whom the Software is
#furnished to do so, subject to the following conditions:
#
#The above copyright notice and this permission notice shall be included in all
#copies or substantial portions of the Software.
#
#THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
#IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
#FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
#AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
#LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
#OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
#SOFTWARE.
#Example of the policy iteration algorithm.
import numpy as np
def return_policy_evaluation(p, u, r, T, gamma):
for s in range(12):
if not np.isnan(p[s]):
v = np.zeros((1,12))
v[0,s] = 1.0
action = int(p[s])
u[s] = r[s] + gamma * np.sum(np.multiply(u, np.dot(v, T[:,:,action])))
return u
def return_policy_evaluation_linalg(p, r, T, gamma):
u = np.zeros(12)
for s in range(12):
if not np.isnan(p[s]):
action = int(p[s])
u[s] = np.linalg.solve(np.identity(12) - gamma*T[:,:,action], r)[s]
return u
def return_expected_action(u, T, v):
"""Return the expected action.
It returns an action based on the
expected utility of doing a in state s,
according to T and u. This action is
the one that maximize the expected
utility.
@param u utility vector
@param T transition matrix
@param v starting vector
@return expected action (int)
"""
actions_array = np.zeros(4)
for action in range(4):
#Expected utility of doing a in state s, according to T and u.
actions_array[action] = np.sum(np.multiply(u, np.dot(v, T[:,:,action])))
return np.argmax(actions_array)
def print_policy(p, shape):
"""Print the policy on the terminal
Using the symbol:
* Terminal state
^ Up
> Right
v Down
< Left
# Obstacle
"""
counter = 0
policy_string = ""
for row in range(shape[0]):
for col in range(shape[1]):
if(p[counter] == -1): policy_string += " * "
elif(p[counter] == 0): policy_string += " ^ "
elif(p[counter] == 1): policy_string += " < "
elif(p[counter] == 2): policy_string += " v "
elif(p[counter] == 3): policy_string += " > "
elif(np.isnan(p[counter])): policy_string += " # "
counter += 1
policy_string += '\n'
print(policy_string)
def main_iterative():
"""Finding the solution using the iterative approach
"""
gamma = 0.999
iteration = 0
T = np.load("T.npy")
#Generate the first policy randomly
# Nan=Nothing, -1=Terminal, 0=Up, 1=Left, 2=Down, 3=Right
p = np.random.randint(0, 4, size=(12)).astype(np.float32)
p[5] = np.NaN
p[3] = p[7] = -1
#Utility vectors
u = np.array([0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0])
#Reward vector
r = np.array([-0.04, -0.04, -0.04, +1.0,
-0.04, 0.0, -0.04, -1.0,
-0.04, -0.04, -0.04, -0.04])
while True:
iteration += 1
epsilon = 0.0001
#1- Policy evaluation
u1 = u.copy()
u = return_policy_evaluation(p, u, r, T, gamma)
#Stopping criteria
delta = np.absolute(u - u1).max()
if delta < epsilon * (1 - gamma) / gamma: break
for s in range(12):
if not np.isnan(p[s]) and not p[s]==-1:
v = np.zeros((1,12))
v[0,s] = 1.0
#2- Policy improvement
a = return_expected_action(u, T, v)
if a != p[s]: p[s] = a
print_policy(p, shape=(3,4))
print("=================== FINAL RESULT ==================")
print("Iterations: " + str(iteration))
print("Delta: " + str(delta))
print("Gamma: " + str(gamma))
print("Epsilon: " + str(epsilon))
print("===================================================")
print(u[0:4])
print(u[4:8])
print(u[8:12])
print("===================================================")
print_policy(p, shape=(3,4))
print("===================================================")
def main_linalg():
"""Finding the solution using a linear algebra approach
"""
gamma = 0.999
iteration = 0
T = np.load("T.npy")
#Generate the first policy randomly
# Nan=Nothing, -1=Terminal, 0=Up, 1=Left, 2=Down, 3=Right
p = np.random.randint(0, 4, size=(12)).astype(np.float32)
p[5] = np.NaN
p[3] = p[7] = -1
#Utility vectors
u = np.array([0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0])
#Reward vector
r = np.array([-0.04, -0.04, -0.04, +1.0,
-0.04, 0.0, -0.04, -1.0,
-0.04, -0.04, -0.04, -0.04])
while True:
iteration += 1
epsilon = 0.0001
#1- Policy evaluation
#u1 = u.copy()
u = return_policy_evaluation_linalg(p, r, T, gamma)
#Stopping criteria
#delta = np.absolute(u - u1).max()
#if (delta < epsilon * (1 - gamma) / gamma) or iteration > 100: break
unchanged = True
for s in range(12):
if not np.isnan(p[s]) and not p[s]==-1:
v = np.zeros((1,12))
v[0,s] = 1.0
#2- Policy improvement
a = return_expected_action(u, T, v)
if a != p[s]:
p[s] = a
unchanged = False
print_policy(p, shape=(3,4))
if unchanged: break
print("=================== FINAL RESULT ==================")
print("Iterations: " + str(iteration))
#print("Delta: " + str(delta))
print("Gamma: " + str(gamma))
print("Epsilon: " + str(epsilon))
print("===================================================")
print(u[0:4])
print(u[4:8])
print(u[8:12])
print("===================================================")
print_policy(p, shape=(3,4))
print("===================================================")
def main():
main_iterative()
#main_linalg()
if __name__ == "__main__":
main()
| 3,162 |
743 | <gh_stars>100-1000
/* Copyright (c) 2006-2012, DNSPod 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:
*
* 1. Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
* 2. Redistributions 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.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
* The views and conclusions contained in the software and documentation are those
* of the authors and should not be interpreted as representing official policies,
* either expressed or implied, of the FreeBSD Project.
*/
#include "datas.h"
//!!!!!!!!!!!!!could NOT used in multithread env!!!!!!!!!!!!!!!!!!
//--------------------red black tree---------
static void
left_rotate(struct rbtree *rbt, struct rbnode *node)
{
struct rbnode *tmp = node->right;
node->right = tmp->left;
if (tmp->left != &rbt->nil)
tmp->left->parent = node;
tmp->parent = node->parent;
if (node->parent == &rbt->nil)
rbt->root = tmp;
else if (node == node->parent->left)
node->parent->left = tmp;
else
node->parent->right = tmp;
tmp->left = node;
node->parent = tmp;
}
static void
right_rotate(struct rbtree *rbt, struct rbnode *node)
{
struct rbnode *tmp = node->left;
node->left = tmp->right;
if (tmp->right != &rbt->nil)
tmp->right->parent = node;
tmp->parent = node->parent;
if (node->parent == &rbt->nil)
rbt->root = tmp;
else if (node == node->parent->left)
node->parent->left = tmp;
else
node->parent->right = tmp;
tmp->right = node;
node->parent = tmp;
}
static void
insert_fixup(struct rbtree *rbt, struct rbnode *nd)
{
struct rbnode *tmp;
while (nd->parent->color == RED) {
if (nd->parent == nd->parent->parent->left) {
tmp = nd->parent->parent->right;
if (tmp->color == RED) {
nd->parent->color = tmp->color = BLACK;
nd->parent->parent->color = RED;
nd = nd->parent->parent;
} else {
if (nd == nd->parent->right) {
nd = nd->parent;
left_rotate(rbt, nd);
}
nd->parent->color = BLACK;
nd->parent->parent->color = RED;
right_rotate(rbt, nd->parent->parent);
}
} else {
tmp = nd->parent->parent->left;
if (tmp->color == RED) {
nd->parent->color = tmp->color = BLACK;
nd->parent->parent->color = RED;
nd = nd->parent->parent;
} else {
if (nd == nd->parent->left) {
nd = nd->parent;
right_rotate(rbt, nd);
}
nd->parent->color = BLACK;
nd->parent->parent->color = RED;
left_rotate(rbt, nd->parent->parent);
}
}
}
rbt->root->color = BLACK;
}
//find_node and delete_node are not safe
//delete node may return NULL.
struct rbnode *
find_node(struct rbtree *rbt, void *key)
{
struct rbnode *nd = &rbt->nil;
int i;
//pthread_mutex_lock(&(rbt->lock));
nd = rbt->root;
while (nd != &rbt->nil) {
i = (rbt->c) (nd->key, key, rbt->argv);
if (i > 0)
nd = nd->left;
if (i < 0)
nd = nd->right;
if (nd == &rbt->nil)
break; //return null
if (i == 0) {
//pthread_mutex_unlock(&(rbt->lock));
return nd;
}
}
//pthread_mutex_unlock(&(rbt->lock));
return NULL;
}
int
insert_node(struct rbtree *rbt, struct rbnode *pnd)
{
struct rbnode *tmp = &rbt->nil, *itor = rbt->root;
struct rbnode *nd = malloc(sizeof(struct rbnode));
if (nd == NULL)
return -1;
*nd = *pnd;
//pthread_mutex_lock(&(rbt->lock));
while (itor != &rbt->nil) {
tmp = itor;
if ((rbt->c) (itor->key, nd->key, rbt->argv) > 0)
itor = itor->left;
else
itor = itor->right;
}
nd->parent = tmp;
if (tmp == &rbt->nil)
rbt->root = nd;
else {
if ((rbt->c) (tmp->key, nd->key, rbt->argv) > 0)
tmp->left = nd;
else
tmp->right = nd;
}
nd->left = nd->right = &rbt->nil;
nd->color = RED;
insert_fixup(rbt, nd);
rbt->size++;
//pthread_mutex_unlock(&(rbt->lock));
/* printf("\t\t\t\t\t\t\tafter insert, rbt size: %d\n", get_rbt_size(rbt)); */
return 0;
}
static struct rbnode *
rbt_successor(struct rbtree *rbt, struct rbnode *nd)
{
struct rbnode *min = &rbt->nil;
if (nd->right != &rbt->nil) {
min = nd->right;
while (min->left != &rbt->nil)
min = min->left;
return min;
}
min = nd->parent;
while ((min != &rbt->nil) && (nd == min->right)) {
nd = min;
min = min->parent;
}
return min;
}
static void
delete_fixup(struct rbtree *rbt, struct rbnode *nd)
{
struct rbnode *tmp = &rbt->nil;
while (nd != rbt->root && nd->color == BLACK)
if (nd == nd->parent->left) {
tmp = nd->parent->right;
if (tmp->color == RED) {
tmp->color = BLACK;
nd->parent->color = RED;
left_rotate(rbt, nd->parent);
tmp = nd->parent->right;
}
if (tmp->left->color == BLACK && tmp->right->color == BLACK) {
tmp->color = RED;
nd = nd->parent;
} else {
if (tmp->right->color == BLACK) {
tmp->left->color = BLACK;
tmp->color = RED;
right_rotate(rbt, tmp);
tmp = nd->parent->right;
}
tmp->color = nd->parent->color;
nd->parent->color = BLACK;
tmp->right->color = BLACK;
left_rotate(rbt, nd->parent);
nd = rbt->root; //end while
}
} else {
tmp = nd->parent->left;
if (tmp->color == RED) {
tmp->color = BLACK;
nd->parent->color = RED;
right_rotate(rbt, nd->parent);
tmp = nd->parent->left;
}
if (tmp->right->color == BLACK && tmp->left->color == BLACK) {
tmp->color = RED;
nd = nd->parent;
} else {
if (tmp->left->color == BLACK) {
tmp->right->color = BLACK;
tmp->color = RED;
left_rotate(rbt, tmp);
tmp = nd->parent->left;
}
tmp->color = nd->parent->color;
nd->parent->color = BLACK;
tmp->left->color = BLACK;
right_rotate(rbt, nd->parent);
nd = rbt->root; //end while
}
}
nd->color = BLACK;
}
struct rbnode *
min_node(struct rbtree *rbt)
{
struct rbnode *tmp, *ret;
//pthread_mutex_lock(&(rbt->lock));
tmp = rbt->root;
ret = &rbt->nil;
if (tmp == &rbt->nil) {
//pthread_mutex_unlock(&(rbt->lock));
return NULL;
}
while (tmp != &rbt->nil) {
ret = tmp;
tmp = tmp->left;
}
if (ret == &rbt->nil) {
//pthread_mutex_unlock(&(rbt->lock));
return NULL;
}
//pthread_mutex_unlock(&(rbt->lock));
return ret;
}
//free node, return val
void *
delete_node(struct rbtree *rbt, struct rbnode *nd)
{
struct ttlnode *val = NULL;
struct rbnode *ret = nd;
struct rbnode *tmp, *itor;
if (nd == NULL || rbt == NULL)
return NULL;
val = nd->key;
/* printf("delete node ttl: %d ", val->exp); */
/* dbg_print_td(val->data); */
//pthread_mutex_lock(&(rbt->lock));
if (nd->left == &rbt->nil || nd->right == &rbt->nil)
tmp = nd;
else
tmp = rbt_successor(rbt, nd);
if (tmp->left != &rbt->nil)
itor = tmp->left;
else
itor = tmp->right;
itor->parent = tmp->parent;
if (tmp->parent == &rbt->nil)
rbt->root = itor;
else {
if (tmp == tmp->parent->left)
tmp->parent->left = itor;
else
tmp->parent->right = itor;
}
if (tmp != itor)
nd->key = tmp->key;
if (tmp->color == BLACK)
delete_fixup(rbt, itor);
if (ret == NULL)
printf("ret is null\n");
free(tmp);
rbt->size--;
//pthread_mutex_unlock(&(rbt->lock));
/* printf("\t\t\t\t\t\t\tafter delete, rbt size: %d\n", get_rbt_size(rbt)); */
return val;
}
struct rbtree *
create_rbtree(comprbt * c, void *argv)
{
struct rbtree *rbt = malloc(sizeof(struct rbtree));
if (rbt == NULL)
return NULL;
rbt->argv = argv;
rbt->c = c;
rbt->size = 0;
pthread_spin_init(&rbt->lock, 0);
rbt->nil.parent = &(rbt->nil);
rbt->nil.left = &(rbt->nil);
rbt->nil.right = &(rbt->nil);
rbt->nil.color = BLACK;
rbt->nil.key = NULL;
rbt->root = &rbt->nil;
return rbt;
}
uint
get_rbt_size(struct rbtree * rbt)
{
return rbt->size;
}
int
free_rbtree(struct rbtree *rbt)
{
if (get_rbt_size(rbt) > 0)
return -1;
free(rbt);
return 0;
}
//---------------rbtree debug------------------------------------//
int
rbtree_test(void)
{
int i, j, len, slice, ret;
struct rbnode node, *pn = NULL;
struct ttlnode *tn = NULL;
struct rbtree *rbt = NULL;
rbt = create_rbtree(rbt_comp_ttl_gt, NULL);
if (rbt == NULL)
dns_error(0, "create rbtree");
node = rbt->nil; //nil
slice = 8000000;
//for(i = 0;i < n;i ++)
//{
for (j = 0; j < slice; j++) {
len = random() % 30;
tn = malloc(sizeof(struct ttlnode) + len);
if (tn == NULL)
printf("oom\n");
tn->exp = j;
for (i = 0; i < len; i++)
tn->data[i] = 'a' + i;
node.key = tn;
ret = insert_node(rbt, &node);
if (ret != 0)
printf("insert error\n");
}
printf("insert all\n");
sleep(2);
for (j = 0; j < slice; j++) {
pn = min_node(rbt);
if (pn != NULL) {
tn = delete_node(rbt, pn);
free(tn);
} else
printf("error\n");
}
printf("delete all\n");
sleep(5);
//}
if (free_rbtree(rbt) != 0)
dns_error(0, "free");
//get_time_usage(&tv,0);
return 0;
}
| 5,794 |
348 | {"nom":"Manama","circ":"10ème circonscription","dpt":"Français établis hors de France","inscrits":616,"abs":458,"votants":158,"blancs":4,"nuls":0,"exp":154,"res":[{"nuance":"REM","nom":"<NAME>","voix":116},{"nuance":"LR","nom":"<NAME>","voix":38}]} | 94 |
14,668 | // Copyright 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "third_party/blink/renderer/platform/scheduler/main_thread/main_thread.h"
#include "base/location.h"
#include "base/task/sequence_manager/task_queue.h"
#include "third_party/blink/renderer/platform/scheduler/main_thread/main_thread_scheduler_impl.h"
namespace blink {
namespace scheduler {
MainThread::MainThread(MainThreadSchedulerImpl* scheduler)
: task_runner_(scheduler->DefaultTaskRunner()), scheduler_(scheduler) {}
MainThread::~MainThread() = default;
blink::ThreadScheduler* MainThread::Scheduler() {
return scheduler_;
}
scoped_refptr<base::SingleThreadTaskRunner> MainThread::GetTaskRunner() const {
return task_runner_;
}
void MainThread::AddTaskTimeObserver(
base::sequence_manager::TaskTimeObserver* task_time_observer) {
scheduler_->AddTaskTimeObserver(task_time_observer);
}
void MainThread::RemoveTaskTimeObserver(
base::sequence_manager::TaskTimeObserver* task_time_observer) {
scheduler_->RemoveTaskTimeObserver(task_time_observer);
}
} // namespace scheduler
} // namespace blink
| 392 |
3,200 | <gh_stars>1000+
/**
* Copyright 2021 Huawei Technologies Co., Ltd
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef MINDSPORE_CCSRC_RUNTIME_HARDWARE_CPU_CPU_MEMORY_POOL_H_
#define MINDSPORE_CCSRC_RUNTIME_HARDWARE_CPU_CPU_MEMORY_POOL_H_
#include <memory>
#include "utils/ms_utils.h"
#include "backend/optimizer/mem_reuse/mem_dynamic_allocator.h"
namespace mindspore {
namespace device {
namespace cpu {
class CPUMemoryPool : public DynamicMemPoolBestFit {
public:
~CPUMemoryPool() override = default;
static CPUMemoryPool &GetInstance() {
static CPUMemoryPool instance;
return instance;
}
size_t AllocDeviceMem(size_t size, DeviceMemPtr *addr) override;
bool FreeDeviceMem(const DeviceMemPtr &addr) override;
size_t free_mem_size() override;
private:
CPUMemoryPool() = default;
DISABLE_COPY_AND_ASSIGN(CPUMemoryPool);
size_t total_used_memory_{0};
};
} // namespace cpu
} // namespace device
} // namespace mindspore
#endif // MINDSPORE_CCSRC_RUNTIME_HARDWARE_CPU_CPU_MEMORY_POOL_H_
| 501 |
310 | """
Copyright (c) 2021 Intel Corporation
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
"""
from nncf.torch.dynamic_graph.scope import Scope
class OperationAddress:
def __init__(self, operator_name: str, scope_in_model: Scope, call_order: int):
self.operator_name = operator_name
self.scope_in_model = scope_in_model
self.call_order = call_order
def __eq__(self, other: 'OperationAddress'):
return isinstance(other, OperationAddress) and \
(self.operator_name == other.operator_name) and \
(self.scope_in_model == other.scope_in_model) and \
(self.call_order == other.call_order)
def __str__(self):
return str(self.scope_in_model) + '/' + \
self.operator_name + "_" + str(self.call_order)
def __hash__(self):
return hash((self.operator_name, self.scope_in_model, self.call_order))
@staticmethod
def from_str(s: str):
scope_and_op, _, call_order_str = s.rpartition('_')
scope_str, _, op_name = scope_and_op.rpartition('/')
return OperationAddress(op_name,
Scope.from_str(scope_str),
int(call_order_str))
| 665 |
663 | <reponame>denisesato/scikit-multiflow
import numpy as np
from skmultiflow.transform.base_transform import StreamTransform
from skmultiflow.utils import FastBuffer, get_dimensions
class WindowedMinmaxScaler(StreamTransform):
""" Transform features by scaling each feature to a given range.
This estimator scales and translates each feature individually such
that it is in the given range on the training set, e.g. between zero and one.
For the training set we consider a window of a given length.
Parameters
----------
window_size: int (Default: 200)
Defines the window size to compute min and max values.
Examples
--------
"""
def __init__(self, window_size=200):
super().__init__()
self.window_size = window_size
self.window = None
self.__configure()
def __configure(self):
self.window = FastBuffer(max_size=self.window_size)
def transform(self, X):
""" Does the transformation process in the samples in X.
Parameters
----------
X: numpy.ndarray of shape (n_samples, n_features)
The sample or set of samples that should be transformed.
"""
r, c = get_dimensions(X)
for i in range(r):
row = np.copy([X[i][:]])
for j in range(c):
value = X[i][j]
min_val = self._get_min(j)
max_val = self._get_max(j)
if((max_val-min_val)==0):
transformed=0
else:
X_std = (value - min_val) / (max_val - min_val)
transformed = X_std * (max_val - min_val) + min_val
X[i][j] = transformed
self.window.add_element(row)
return X
def _get_min(self, column_index):
min_val = 0.
if not self.window.is_empty():
min_val = np.nanmin(np.array(self.window.get_queue())[:, column_index])
return min_val
def _get_max(self, column_index):
max_val = 1.
if not self.window.is_empty():
max_val = np.nanmax(np.array(self.window.get_queue())[:, column_index])
return max_val
def partial_fit_transform(self, X, y=None):
""" Partially fits the model and then apply the transform to the data.
Parameters
----------
X: numpy.ndarray of shape (n_samples, n_features)
The sample or set of samples that should be transformed.
y: numpy.ndarray (optional, default=None)
The target values.
Returns
-------
numpy.ndarray of shape (n_samples, n_features)
The transformed data.
"""
X = self.transform(X)
return X
def partial_fit(self, X, y=None):
""" Partial fits the model.
Parameters
----------
X: numpy.ndarray of shape (n_samples, n_features)
The sample or set of samples that should be transformed.
y: numpy.ndarray (optional, default=None)
The target values.
Returns
-------
MinmaxScaler
self
"""
self.window.add_element(X)
return self
| 1,441 |
2,177 | # -*- coding: utf-8 -*-
import config
import os
from uuid import uuid4
import parser
import yaml
from collections import defaultdict
from datetime import datetime
import helpers
# overall list management
def clear_todos():
todo_db = config.get('todo.db')
if ( os.path.exists( todo_db ) ):
os.remove( todo_db )
config.update_state(command='clear_todos')
def get_todo_list():
todos = []
todoPath = config.get('todo.db')
if(os.path.exists( todoPath )):
f = open ( todoPath )
todos = yaml.load(f)
if todos is None:
todos = []
return todos
def save_todo_list(todos):
f = open( config.get('todo.db'), 'w')
yaml.dump(todos, f)
# todo management
def save_todo(raw_task, silent=False):
info = parser.parse(raw_task)
tag = info['tag']
task = info['task']
pinned = info['pinned']
rating = info['rating']
if len(task) == 0:
return
if tag is None:
tag = 'default'
todos = get_todo_list()
newtodo = {
'title' : task,
'created' : datetime.now(),
'id' : uuid4(),
'group' : tag,
'pinned' : pinned,
'rating' : rating
}
todos.append ( newtodo )
save_todo_list(todos)
if not silent:
if tag != 'default':
print "Added '{0}' tagged #{1}".format(task, tag)
else:
print "Added '{0}'".format(task)
config.update_state(command='add_todo', tag='#'+tag)
def get_todo(_id):
todos = get_todo_list()
for todo in todos:
if str(todo['id']) == _id:
return todo
def remove_todo(_id):
todos = get_todo_list()
if len(todos) > 0 and len(_id) > 0:
toremove = [t for t in todos if str(t['id']) == _id]
todos = [t for t in todos if str(t['id']) != _id]
save_todo_list(todos)
tag = toremove[0]['group']
config.update_state(command='remove_todo', tag='#'+tag)
print "Removed '{0}'".format(toremove[0]['title'])
def update_todo(_id, values):
todos = get_todo_list()
if len(todos) > 0 and len(_id) > 0:
for t in todos:
if str(t['id']) == _id:
for key in values:
t[key] = values[key]
break
save_todo_list(todos)
def toggle_pinned(_id):
todo = get_todo(_id)
toggle = False if feature(todo,'pinned') else True
update_todo(_id, {'pinned':toggle})
config.update_state(command='toggle_pinned',tag='#'+todo['group'])
# tag management
def get_tags():
todos = get_todo_list()
tags = defaultdict(list)
for i in todos: tags[i['group']].append(i['created'])
return tags
def remove_tag(tag):
todos = get_todo_list()
if len(todos) > 0 and len(tag) > 0:
toremove = [t for t in todos if t['group'] == tag]
todos = [t for t in todos if t['group'] != tag]
save_todo_list(todos)
config.update_state(command='remove_tag', tag='#'+tag)
print "Removed all items tagged #{2}".format(len(toremove), 'item' if len(toremove) == 1 else 'items', tag)
# generic functions
def remove_item(item):
if helpers.is_todo(item):
remove_todo(helpers.extract_todo_id(item))
elif helpers.is_tag(item):
remove_tag(helpers.extract_tag(item))
def retrieve_and_store_tag(item):
tag = 'default'
if helpers.is_tag(item):
tag = helpers.extract_tag(item)
else:
_id = helpers.extract_todo_id(item)
todos = get_todo_list()
target = [t for t in todos if str(t['id']) == _id]
tag = target[0]['group']
config.update_state(command='retrieve_tag', tag='#'+tag)
def copy_todo_to_clipboard(_id):
todo = get_todo(_id)
title = todo['title']
tag = todo['group']
helpers.macSetClipboard(title)
config.update_state(command='copy_to_clipboard', tag='#'+tag)
print "Copied '{0}' to the clipboard".format(title)
# Since these feature have been added late
# and the YAML file will not have these by default
# features should be extracted like this
def feature(todo, feature):
if feature == 'pinned':
return get_item_key(todo, feature, False)
if feature == 'rating':
return get_item_key(todo, feature, '')
return todo[feature]
def get_item_key(todo, key, default):
if key not in todo:
todo[key] = default
return todo[key]
| 1,657 |
6,205 | # coding=utf-8
import textwrap
import unittest
from conans.model.ref import ConanFileReference
from conans.test.utils.tools import TestClient
class RemoveEditablePackageTest(unittest.TestCase):
conanfile = textwrap.dedent("""\
from conans import ConanFile
class APck(ConanFile):
pass
""")
def setUp(self):
self.ref = ConanFileReference.loads('lib/version@user/name')
self.t = TestClient()
self.t.save(files={'conanfile.py': self.conanfile,
"mylayout": "", })
self.t.run('editable add . {} -l=mylayout'.format(self.ref))
self.assertTrue(self.t.cache.installed_as_editable(self.ref))
def test_unlink(self):
self.t.run('editable remove {}'.format(self.ref))
self.assertIn("Removed editable mode for reference '{}'".format(self.ref), self.t.out)
self.assertFalse(self.t.cache.installed_as_editable(self.ref))
def test_unlink_not_linked(self):
reference = 'otherlib/version@user/name'
self.t.run('search {}'.format(reference), assert_error=True)
self.t.run('editable remove {}'.format(reference))
self.assertIn("Reference '{}' was not installed as editable".format(reference), self.t.out)
| 527 |
498 | package com.bizzan.bitrade.entity;
import cn.afterturn.easypoi.excel.annotation.Excel;
import com.bizzan.bitrade.constant.*;
import com.fasterxml.jackson.annotation.JsonFormat;
import com.fasterxml.jackson.annotation.JsonIgnore;
import lombok.Data;
import org.hibernate.annotations.CreationTimestamp;
import org.hibernate.validator.constraints.NotBlank;
import javax.persistence.*;
import java.util.Date;
/**
* 会员用户
*
* @author GS
* @date 2018年01月02日
*/
@Entity
@Data
public class Member {
@Excel(name = "会员编号", orderNum = "1", width = 20)
@GeneratedValue(strategy = GenerationType.IDENTITY)
@Id
private Long id;
@JsonIgnore
private String salt;
@Excel(name = "会员用户名", orderNum = "1", width = 20)
@NotBlank(message = "用户名不得为空")
@Column(unique = true)
private String username;
/**
* 登录密码
*/
@JsonIgnore
@NotBlank(message = "密码不得为空")
private String password;
@Excel(name = "是否缴纳保证金", orderNum = "1", width = 20)
private String margin;
@Excel(name = "googleKey", orderNum = "1", width = 20)
private String googleKey;
@Excel(name = "googleState", orderNum = "1", width = 20)
private Integer googleState;
@Excel(name = "googleDate", orderNum = "1", width = 20)
@Temporal(TemporalType.TIMESTAMP)
@JsonFormat(pattern = "yyyy-MM-dd HH:mm:ss", timezone = "GMT+8")
private Date googleDate;
/**
* 交易密码
*/
@JsonIgnore
private String jyPassword;
@Excel(name = "会员真实姓名", orderNum = "1", width = 20)
private String realName;
/**
* 身份证号码
*/
@Excel(name = "身份证号码", orderNum = "1", width = 20)
private String idNumber;
@Excel(name = "邮箱", orderNum = "1", width = 20)
@Column(unique = true)
private String email;
@Excel(name = "手机号", orderNum = "1", width = 25)
@Column(unique = true)
private String mobilePhone;
@Embedded
private Location location;
@Enumerated(EnumType.ORDINAL)
private MemberLevelEnum memberLevel;
@Enumerated(EnumType.ORDINAL)
private CommonStatus status = CommonStatus.NORMAL;
@Excel(name = "注册时间", orderNum = "1", width = 20)
@CreationTimestamp
@JsonFormat(pattern = "yyyy-MM-dd HH:mm:ss", timezone = "GMT+8")
private Date registrationTime;
@Temporal(TemporalType.TIMESTAMP)
@JsonFormat(pattern = "yyyy-MM-dd HH:mm:ss", timezone = "GMT+8")
private Date lastLoginTime;
private String token;
//超级合伙人 标识0 普通 1超级合伙人 ...
private String superPartner="0";
/**
* 交易次数
*/
private int transactions = 0;
@Embedded
private BankInfo bankInfo;
@Embedded
private Alipay alipay;
@Embedded
private WechatPay wechatPay;
/**
* 申诉次数
*/
private int appealTimes = 0;
/**
* 胜诉次数
*/
private int appealSuccessTimes = 0;
/**
* 邀请者ID
*/
private Long inviterId;
/**
* 推广码
*/
private String promotionCode;
private int firstLevel = 0;
private int secondLevel = 0;
private int thirdLevel = 0;
@JoinColumn(name = "local")
@ManyToOne
private Country country;
/**
* 实名认证状态
*/
@Excel(name = "实名认证状态", orderNum = "1", width = 20)
@Enumerated(EnumType.ORDINAL)
private RealNameStatus realNameStatus = RealNameStatus.NOT_CERTIFIED;
/**
* 登录次数
*/
private int loginCount = 0;
/**
* 认证商家状态
*/
@Enumerated(EnumType.ORDINAL)
private CertifiedBusinessStatus certifiedBusinessStatus = CertifiedBusinessStatus.NOT_CERTIFIED;
/**
* 认证商家申请时间
*/
@Temporal(TemporalType.TIMESTAMP)
@JsonFormat(pattern = "yyyy-MM-dd HH:mm:ss", timezone = "GMT+8")
private Date certifiedBusinessApplyTime;
/**
* 实名认证通过时间
*/
@JsonFormat(pattern = "yyyy-MM-dd HH:mm:ss", timezone = "GMT+8")
private Date applicationTime;
/**
* 商家审核通过时间
*/
@JsonFormat(pattern = "yyyy-MM-dd HH:mm:ss", timezone = "GMT+8")
private Date certifiedBusinessCheckTime;
/**
* 头像
*/
private String avatar;
/**
* token预计过期时间
*/
@Temporal(TemporalType.TIMESTAMP)
private Date tokenExpireTime;
/**
* 发布广告 1表示可以发布
*/
@Enumerated(EnumType.ORDINAL)
private BooleanEnum publishAdvertise = BooleanEnum.IS_TRUE;
/**
* 0表示禁止交易
*/
@Enumerated(EnumType.ORDINAL)
private BooleanEnum transactionStatus = BooleanEnum.IS_TRUE;
/**
* 签到能力
*/
@Column(name = "sign_in_ability", columnDefinition = "bit default 1", nullable = false)
private Boolean signInAbility = true;
} | 2,219 |
1,056 | <gh_stars>1000+
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.netbeans.modules.spring.beans.jumpto;
import java.io.File;
import java.io.IOException;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.Future;
import java.util.regex.Pattern;
import org.netbeans.api.project.Project;
import org.netbeans.api.project.ui.OpenProjects;
import org.netbeans.modules.j2ee.metadata.model.api.MetadataModel;
import org.netbeans.modules.j2ee.metadata.model.api.MetadataModelAction;
import org.netbeans.modules.j2ee.metadata.model.api.MetadataModelException;
import org.netbeans.modules.spring.api.Action;
import org.netbeans.modules.spring.api.beans.SpringScope;
import org.netbeans.modules.spring.api.beans.model.FileSpringBeans;
import org.netbeans.modules.spring.api.beans.model.SpringBean;
import org.netbeans.modules.spring.api.beans.model.SpringConfigModel;
import org.netbeans.modules.spring.api.beans.model.SpringConfigModel.DocumentAccess;
import org.netbeans.modules.spring.api.beans.model.SpringModel;
import org.netbeans.modules.spring.beans.ProjectSpringScopeProvider;
import org.netbeans.spi.jumpto.support.NameMatcher;
import org.netbeans.spi.jumpto.support.NameMatcherFactory;
import org.netbeans.spi.jumpto.type.SearchType;
import org.netbeans.spi.jumpto.type.TypeProvider;
import org.openide.filesystems.FileObject;
import org.openide.util.Exceptions;
import org.openide.util.NbBundle;
/**
* Provides Spring bean definitions for the Go To Type dialog
*
* @author <NAME>
*/
public class SpringBeansTypeProvider implements TypeProvider {
private Set<AbstractBeanTypeDescriptor> cache;
private String lastRefreshText;
private SearchType lastRefreshSearchType;
private volatile boolean isCancelled = false;
public String name() {
return "springbeans"; // NOI18N
}
public String getDisplayName() {
return NbBundle.getMessage(SpringBeansTypeProvider.class, "LBL_SpringBeansType"); // NOI18N
}
public void computeTypeNames(Context context, Result result) {
assert context.getProject() == null; // Issue 136025
isCancelled = false;
boolean cacheRefresh = false;
final String searchText = context.getText();
final SearchType searchType = context.getSearchType();
final NameMatcher matcher = NameMatcherFactory.createNameMatcher(searchText, searchType);
if (matcher == null) {
return;
}
if (lastRefreshText == null || lastRefreshSearchType == null || !searchText.startsWith(lastRefreshText) || lastRefreshSearchType != searchType || cache == null) {
// refresh cache
cacheRefresh = true;
final Set<AbstractBeanTypeDescriptor> currCache = new HashSet<AbstractBeanTypeDescriptor>();
Future<Project[]> prjHandle = OpenProjects.getDefault().openProjects();
Project[] projects = null;
try {
projects = prjHandle.get();
} catch (InterruptedException ex) {
Exceptions.printStackTrace(ex);
} catch (ExecutionException ex) {
Exceptions.printStackTrace(ex);
}
if (projects == null) {
return;
}
if (isCancelled) {
return;
}
for (Project project : projects) {
ProjectSpringScopeProvider scopeProvider = project.getLookup().lookup(ProjectSpringScopeProvider.class);
if (scopeProvider == null) {
continue;
}
SpringScope scope = scopeProvider.getSpringScope();
if (scope == null) {
continue;
}
if (isCancelled) {
return;
}
final Set<File> processed = new HashSet<File>();
// getting entries from configuration files
List<SpringConfigModel> models = scope.getAllConfigModels();
for (SpringConfigModel model : models) {
try {
if (isCancelled) {
return;
}
model.runDocumentAction(new Action<DocumentAccess>() {
public void run(DocumentAccess docAccess) {
File file = docAccess.getFile();
if (processed.contains(file)) {
return;
}
processed.add(file);
if (isCancelled) {
return;
}
FileObject fo = docAccess.getFileObject();
FileSpringBeans fileBeans = docAccess.getSpringBeans().getFileBeans(fo);
List<SpringBean> beans = fileBeans.getBeans();
for (SpringBean bean : beans) {
String id = bean.getId();
if (id != null && matcher.accept(id)) {
currCache.add(new BeanTypeDescriptor(id, bean));
}
for (String name : bean.getNames()) {
if (matcher.accept(name)) {
currCache.add(new BeanTypeDescriptor(name, bean));
}
}
}
for (String alias : fileBeans.getAliases()) {
if (matcher.accept(alias)) {
currCache.add(new BeanAliasTypeDescriptor(alias, fo));
}
}
}
});
} catch (IOException ex) {
Exceptions.printStackTrace(ex);
}
}
// getting annotated beans
MetadataModel<SpringModel> springAnnotationModel =
scope.getSpringAnnotationModel(project.getProjectDirectory());
try {
springAnnotationModel.runReadAction(new MetadataModelAction<SpringModel, Void>() {
@Override
public Void run(SpringModel metadata) throws Exception {
for (SpringBean springBean : metadata.getBeans()) {
for (String name : springBean.getNames()) {
if (matcher.accept(name)) {
currCache.add(new BeanTypeDescriptor(name, springBean));
}
}
}
return null;
}
});
} catch (MetadataModelException ex) {
Exceptions.printStackTrace(ex);
} catch (IOException ex) {
Exceptions.printStackTrace(ex);
}
}
if (!isCancelled) {
cache = currCache;
lastRefreshText = searchText;
lastRefreshSearchType = searchType;
}
}
if (cache != null) {
ArrayList<AbstractBeanTypeDescriptor> beans = new ArrayList<AbstractBeanTypeDescriptor>(cache.size());
for (AbstractBeanTypeDescriptor beanTypeDescriptor : cache) {
if (cacheRefresh || matcher.accept(beanTypeDescriptor.getSimpleName())) {
beans.add(beanTypeDescriptor);
}
}
result.addResult(beans);
}
}
public void cancel() {
isCancelled = true;
}
public void cleanup() {
isCancelled = false;
cache = null;
lastRefreshText = null;
lastRefreshSearchType = null;
}
}
| 4,525 |
777 | // Copyright 2015 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "components/contextual_search/renderer/overlay_page_notifier_service_impl.h"
#include <utility>
#include "components/contextual_search/renderer/overlay_js_render_frame_observer.h"
namespace contextual_search {
OverlayPageNotifierServiceImpl::OverlayPageNotifierServiceImpl(
base::WeakPtr<OverlayJsRenderFrameObserver> observer)
: overlay_js_observer_(observer) {}
OverlayPageNotifierServiceImpl::~OverlayPageNotifierServiceImpl() {}
void OverlayPageNotifierServiceImpl::NotifyIsContextualSearchOverlay() {
if (overlay_js_observer_ != nullptr)
overlay_js_observer_->SetIsContextualSearchOverlay();
}
} // namespace contextual_search
| 258 |
1,040 | <reponame>jarmonik/orbiter<filename>Src/Plugin/TransX/mapfunction.h
/* Copyright (c) 2007 <NAME>, <NAME>
**
** Permission is hereby granted, free of charge, to any person obtaining a copy
** of this software and associated documentation files (the "Software"), to deal
** in the Software without restriction, including without limitation the rights
** to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
** copies of the Software, and to permit persons to whom the Software is
** furnished to do so, subject to the following conditions:
**
** The above copyright notice and this permission notice shall be included in
** all copies or substantial portions of the Software.
**
** THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
** IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
** FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
** AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
** LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
** OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
** THE SOFTWARE.*/
#ifndef __MAPFUNCTION_H
#define __MAPFUNCTION_H
#include "mfdfunction.h"
#include "orbitelements.h"
#include "list"
#include "map"
using namespace std;
struct GBODY{
OBJHANDLE bodyhandle;
GBODY *parent, *next, *previous; // next and previous bodies orbiting same body
list <GBODY*> satellites;
double soisize2;
double gravbodyratio2;
double mass;
} ;
class mapfunction: public MFDFunction
{
private:
void InitialiseSolarSystem();
GBODY *sun; // a tree of the sun, its satellites, the satellites' satellites etc.
map<OBJHANDLE, GBODY*> bodyMap;
bool initialised;
static class mapfunction *themap;
VECTOR3 getweightedvector(OBJHANDLE, void(OBJHANDLE, VECTOR3*));
public:
mapfunction();
~mapfunction();
void DeleteGBody(GBODY *body);
static class mapfunction *getthemap();
virtual void dolowpriaction();
bool getinitialised(){return initialised;};
OBJHANDLE getmajor (OBJHANDLE handle);//Gets central body that handle orbits
OBJHANDLE getfirstmoon (OBJHANDLE handle);//Gets heaviest moon of handle
OBJHANDLE getlastmoon (OBJHANDLE handle);//Gets lightest moon of handle
OBJHANDLE getnextpeer (OBJHANDLE handle);//Gets lighter peer in mass order (a peer is a body orbiting same major as handle)
OBJHANDLE getpreviouspeer(OBJHANDLE handle);//Gets heavier peer in mass order
double getsoisize (OBJHANDLE handle);//Gets the size of the SOI for this body
OBJHANDLE getcurrbody (OBJHANDLE vessel);//Get current body for arbitrary vessel
VECTOR3 getbarycentre (OBJHANDLE body); // Gets the global pos of the barycentre of the system with body as the main object
VECTOR3 getbarycentrevel(OBJHANDLE body); // Gets the global velocity of the barycentre of the system with body as the main object
static double GetApproxAtmosphericLimit(OBJHANDLE body);// Gets the (approximate) altitude for a given pressure to get a useful 'edge of atmosphere'
};
#endif | 948 |
619 | <reponame>moredu/upm<filename>examples/c++/ads1x15-adc-sensor.cxx
/*
* Author: <NAME> <<EMAIL>>
* Copyright (c) 2015 Intel Corporation.
*
* This program and the accompanying materials are made available under the
* terms of the The MIT License which is available at
* https://opensource.org/licenses/MIT.
*
* SPDX-License-Identifier: MIT
*/
#include <exception>
#include <iostream>
#include <stddef.h>
#include "ads1015.hpp"
#include "mraa/gpio.hpp"
#include "upm_utilities.h"
#define EDISON_I2C_BUS 1
#define FT4222_I2C_BUS 0
#define EDISON_GPIO_SI7005_CS 20
int
main()
{
/* Create an instance of the ADS1015 sensor */
upm::ADS1015 adc(EDISON_I2C_BUS);
mraa::Gpio gpio(EDISON_GPIO_SI7005_CS);
gpio.dir(mraa::DIR_OUT_HIGH);
// if (adc == NULL) {
// std::cout << "ADC not detected" << std::endl;
// return 1;
// }
std::cout << "ADC " << adc.getModuleName() << " detected. ";
std::cout << adc.getNumInputs() << " inputs available" << std::endl;
while (true) {
for (unsigned int i = 0; i < adc.getNumInputs(); ++i) {
std::cout << "Input " << i;
try {
float voltage = adc.getVoltage(i);
std::cout << ": Voltage = " << voltage << "V" << std::endl;
} catch (std::exception& e) {
std::cerr << e.what() << std::endl;
}
}
upm_delay(1);
}
return 0;
}
//! [Interesting]
| 676 |
436 | <reponame>edfincham/pyhsmm<gh_stars>100-1000
from __future__ import division
from builtins import range, zip, filter
import numpy as np
from numpy.lib.stride_tricks import as_strided as ast
import scipy.linalg
import copy, collections, os, shutil, hashlib
from contextlib import closing
from six.moves.urllib.request import urlopen
from itertools import chain, count
from functools import reduce
def solve_psd(A,b,chol=None,overwrite_b=False,overwrite_A=False):
if A.shape[0] < 5000 and chol is None:
return np.linalg.solve(A,b)
else:
if chol is None:
chol = np.linalg.cholesky(A)
return scipy.linalg.solve_triangular(
chol.T,
scipy.linalg.solve_triangular(chol,b,lower=True,overwrite_b=overwrite_b),
lower=False,overwrite_b=True)
def interleave(*iterables):
return list(chain.from_iterable(zip(*iterables)))
def joindicts(dicts):
# stuff on right clobbers stuff on left
return reduce(lambda x,y: dict(x,**y), dicts, {})
def one_vs_all(stuff):
stuffset = set(stuff)
for thing in stuff:
yield thing, stuffset - set([thing])
def rle(stateseq):
pos, = np.where(np.diff(stateseq) != 0)
pos = np.concatenate(([0],pos+1,[len(stateseq)]))
return stateseq[pos[:-1]], np.diff(pos)
def irle(vals,lens):
out = np.empty(np.sum(lens))
for v,l,start in zip(vals,lens,np.concatenate(((0,),np.cumsum(lens)[:-1]))):
out[start:start+l] = v
return out
def ibincount(counts):
'returns an array a such that counts = np.bincount(a)'
return np.repeat(np.arange(counts.shape[0]),counts)
def cumsum(v,strict=False):
if not strict:
return np.cumsum(v,axis=0)
else:
out = np.zeros_like(v)
out[1:] = np.cumsum(v[:-1],axis=0)
return out
def rcumsum(v,strict=False):
if not strict:
return np.cumsum(v[::-1],axis=0)[::-1]
else:
out = np.zeros_like(v)
out[:-1] = np.cumsum(v[-1:0:-1],axis=0)[::-1]
return out
def delta_like(v,i):
out = np.zeros_like(v)
out[i] = 1
return out
def deepcopy(obj):
return copy.deepcopy(obj)
def nice_indices(arr):
'''
takes an array like [1,1,5,5,5,999,1,1]
and maps to something like [0,0,1,1,1,2,0,0]
modifies original in place as well as returns a ref
'''
# surprisingly, this is slower for very small (and very large) inputs:
# u,f,i = np.unique(arr,return_index=True,return_inverse=True)
# arr[:] = np.arange(u.shape[0])[np.argsort(f)][i]
ids = collections.defaultdict(next(count()))
for idx,x in enumerate(arr):
arr[idx] = ids[x]
return arr
def ndargmax(arr):
return np.unravel_index(np.argmax(np.ravel(arr)),arr.shape)
def match_by_overlap(a,b):
assert a.ndim == b.ndim == 1 and a.shape[0] == b.shape[0]
ais, bjs = list(set(a)), list(set(b))
scores = np.zeros((len(ais),len(bjs)))
for i,ai in enumerate(ais):
for j,bj in enumerate(bjs):
scores[i,j] = np.dot(np.array(a==ai,dtype=np.float),b==bj)
flip = len(bjs) > len(ais)
if flip:
ais, bjs = bjs, ais
scores = scores.T
matching = []
while scores.size > 0:
i,j = ndargmax(scores)
matching.append((ais[i],bjs[j]))
scores = np.delete(np.delete(scores,i,0),j,1)
ais = np.delete(ais,i)
bjs = np.delete(bjs,j)
return matching if not flip else [(x,y) for y,x in matching]
def hamming_error(a,b):
return (a!=b).sum()
def scoreatpercentile(data,per,axis=0):
'like the function in scipy.stats but with an axis argument and works on arrays'
a = np.sort(data,axis=axis)
idx = per/100. * (data.shape[axis]-1)
if (idx % 1 == 0):
return a[[slice(None) if ii != axis else idx for ii in range(a.ndim)]]
else:
lowerweight = 1-(idx % 1)
upperweight = (idx % 1)
idx = int(np.floor(idx))
return lowerweight * a[[slice(None) if ii != axis else idx for ii in range(a.ndim)]] \
+ upperweight * a[[slice(None) if ii != axis else idx+1 for ii in range(a.ndim)]]
def stateseq_hamming_error(sampledstates,truestates):
sampledstates = np.array(sampledstates,ndmin=2).copy()
errors = np.zeros(sampledstates.shape[0])
for idx,s in enumerate(sampledstates):
# match labels by maximum overlap
matching = match_by_overlap(s,truestates)
s2 = s.copy()
for i,j in matching:
s2[s==i] = j
errors[idx] = hamming_error(s2,truestates)
return errors if errors.shape[0] > 1 else errors[0]
def _sieve(stream):
# just for fun; doesn't work over a few hundred
val = next(stream)
yield val
for x in filter(lambda x: x%val != 0, _sieve(stream)):
yield x
def primes():
return _sieve(count(2))
def top_eigenvector(A,niter=1000,force_iteration=False):
'''
assuming the LEFT invariant subspace of A corresponding to the LEFT
eigenvalue of largest modulus has geometric multiplicity of 1 (trivial
Jordan block), returns the vector at the intersection of that eigenspace and
the simplex
A should probably be a ROW-stochastic matrix
probably uses power iteration
'''
n = A.shape[0]
np.seterr(invalid='raise',divide='raise')
if n <= 25 and not force_iteration:
x = np.repeat(1./n,n)
x = np.linalg.matrix_power(A.T,niter).dot(x)
x /= x.sum()
return x
else:
x1 = np.repeat(1./n,n)
x2 = x1.copy()
for itr in range(niter):
np.dot(A.T,x1,out=x2)
x2 /= x2.sum()
x1,x2 = x2,x1
if np.linalg.norm(x1-x2) < 1e-8:
break
return x1
def engine_global_namespace(f):
# see IPython.parallel.util.interactive; it's copied here so as to avoid
# extra imports/dependences elsewhere, and to provide a slightly clearer
# name
f.__module__ = '__main__'
return f
def AR_striding(data,nlags):
data = np.asarray(data)
if not data.flags.c_contiguous:
data = data.copy(order='C')
if data.ndim == 1:
data = np.reshape(data,(-1,1))
sz = data.dtype.itemsize
return ast(
data,
shape=(data.shape[0]-nlags,data.shape[1]*(nlags+1)),
strides=(data.shape[1]*sz,sz))
def count_transitions(stateseq,minlength=None):
if minlength is None:
minlength = stateseq.max() + 1
out = np.zeros((minlength,minlength),dtype=np.int32)
for a,b in zip(stateseq[:-1],stateseq[1:]):
out[a,b] += 1
return out
### SGD
def sgd_steps(tau,kappa):
assert 0.5 < kappa <= 1 and tau >= 0
for t in count(1):
yield (t+tau)**(-kappa)
def hold_out(datalist,frac):
N = len(datalist)
perm = np.random.permutation(N)
split = int(np.ceil(frac * N))
return [datalist[i] for i in perm[split:]], [datalist[i] for i in perm[:split]]
def sgd_passes(tau,kappa,datalist,minibatchsize=1,npasses=1):
N = len(datalist)
for superitr in range(npasses):
if minibatchsize == 1:
perm = np.random.permutation(N)
for idx, rho_t in zip(perm,sgd_steps(tau,kappa)):
yield datalist[idx], rho_t
else:
minibatch_indices = np.array_split(np.random.permutation(N),N/minibatchsize)
for indices, rho_t in zip(minibatch_indices,sgd_steps(tau,kappa)):
yield [datalist[idx] for idx in indices], rho_t
def sgd_sampling(tau,kappa,datalist,minibatchsize=1):
N = len(datalist)
if minibatchsize == 1:
for rho_t in sgd_steps(tau,kappa):
minibatch_index = np.random.choice(N)
yield datalist[minibatch_index], rho_t
else:
for rho_t in sgd_steps(tau,kappa):
minibatch_indices = np.random.choice(N,size=minibatchsize,replace=False)
yield [datalist[idx] for idx in minibatch_indices], rho_t
# TODO should probably eliminate this function
def minibatchsize(lst):
return float(sum(d.shape[0] for d in lst))
### misc
def random_subset(lst,sz):
perm = np.random.permutation(len(lst))
return [lst[perm[idx]] for idx in range(sz)]
def get_file(remote_url,local_path):
if not os.path.isfile(local_path):
with closing(urlopen(remote_url)) as remotefile:
with open(local_path,'wb') as localfile:
shutil.copyfileobj(remotefile,localfile)
def list_split(lst,num):
assert 0 < num <= len(lst)
lens = [len(lst[start::num]) for start in range(num)]
starts, stops = cumsum(lens,strict=True), cumsum(lens,strict=False)
return [lst[start:stop] for start,stop in zip(starts,stops)]
def indicators_to_changepoints(indseq,which='ends'):
shift = 1 if which == 'ends' else 0
changes = list(shift + np.where(indseq)[0])
if changes[0] != 0:
changes.insert(0,0)
if changes[-1] != len(indseq):
changes.append(len(indseq))
return zip(changes[:-1],changes[1:])
def indices_to_changepoints(T,changes):
changes = list(changes)
if changes[0] != 0:
changes.insert(0,0)
if changes[-1] != T:
changes.append(T)
return zip(changes[:-1],changes[1:])
def labels_to_changepoints(labels):
_, durs = rle(labels)
cdurs = np.concatenate(((0,),durs.cumsum()))
return zip(cdurs[:-1],cdurs[1:])
def ndarrayhash(v):
assert isinstance(v,np.ndarray)
return hashlib.sha1(v).hexdigest()
def flatiter(l):
if isinstance(l,list):
for x in l:
for y in flatiter(x):
yield y
else:
yield l
def treemap(f,l):
if isinstance(l, list):
return [treemap(f,_) for _ in l]
else:
return f(l)
### relabel by usage
def _get_labelset(labelss):
import operator
if isinstance(labelss,np.ndarray):
labelset = np.unique(labelss)
return set(labelset[~np.isnan(labelset)])
else:
return reduce(operator.or_,(_get_labelset(l) for l in labelss))
def _get_N(labelss):
return int(max(_get_labelset(labelss)))+1
def relabel_by_permutation(l, perm):
out = np.empty_like(l)
good = ~np.isnan(l)
out[good] = perm[l[good].astype('int32')]
if np.isnan(l).any():
out[~good] = np.nan
return out
def relabel_by_usage(labelss, return_mapping=False, N=None):
if isinstance(labelss, np.ndarray):
backwards_compat = True
labelss = [labelss]
else:
backwards_compat = False
N = _get_N(labelss) if not N else N
usages = sum(np.bincount(l[~np.isnan(l)].astype('int32'),minlength=N)
for l in labelss)
perm = np.argsort(np.argsort(usages)[::-1])
outs = [relabel_by_permutation(l,perm) for l in labelss]
if backwards_compat:
if return_mapping:
return outs[0], perm
else:
return outs[0]
else:
if return_mapping:
return outs, perm
else:
return outs
| 5,160 |
607 | package com.sandwich.koan.path;
import static org.junit.Assert.assertNotNull;
import java.util.Locale;
import org.junit.Test;
import com.sandwich.koan.LocaleSwitchingTestCase;
public class PathToEnlightenmentTest extends LocaleSwitchingTestCase {
@Test
public void testFallsBackToEnglishXmlWhenNoXmlForLocaleIsFound(){
Locale.setDefault(Locale.CHINA);
PathToEnlightenment.xmlToPathTransformer = null;
assertNotNull(PathToEnlightenment.getXmlToPathTransformer());
}
@Test
public void testEnglishXmlWhenXmlForLocaleIsFound_eventIsNotLogged(){
Locale.setDefault(Locale.US);
PathToEnlightenment.xmlToPathTransformer = null;
assertLogged(PathToEnlightenment.class.getName(), new RBSensitiveLoggerExpectation(){
protected boolean isLogCallRequired(){
return false;
}
});
}
@Test
public void testEnglishXmlWhenXmlForLocaleIsFound(){
Locale.setDefault(Locale.US);
PathToEnlightenment.xmlToPathTransformer = null;
assertNotNull(PathToEnlightenment.getXmlToPathTransformer());
}
private class RBSensitiveLoggerExpectation extends LoggerExpectation {
@Override
protected void invokeImplementation() {
PathToEnlightenment.getXmlToPathTransformer();
}
}
}
| 424 |
1,391 | /*
* Deterministic regexp program.
*/
typedef struct Dreprog Dreprog;
typedef struct Dreinst Dreinst;
typedef struct Drecase Drecase;
struct Dreinst
{
int isfinal;
int isloop;
Drecase *c;
int nc;
};
struct Dreprog
{
Dreinst *start[4];
int ninst;
Dreinst inst[1];
};
struct Drecase
{
uint start;
Dreinst *next;
};
Dreprog* dregcvt(Reprog*);
int dregexec(Dreprog*, char*, int);
Dreprog* Breaddfa(Biobuf *b);
void Bprintdfa(Biobuf*, Dreprog*);
| 200 |
552 | <filename>doc/integrations/siddhi-celery/_celery/monitor.py
import logging
import time
import boto3
import config
SCAN_INTERVAL = 1 * 60
SCAN_INTERVAL = 5
def compare_buckets(previous_buckets, buckets):
return buckets.difference(previous_buckets), previous_buckets.difference(buckets)
def get_buckets(client):
query_result = client.list_buckets()['Buckets']
result = set((bucket['Name'], bucket['CreationDate']) for bucket in query_result)
return result
def main():
client = config.get_client()
previous_buckets = get_buckets(client)
while True:
time.sleep(SCAN_INTERVAL)
try:
buckets = get_buckets(client)
except boto3.exceptions.botocore.errorfactory.ClientError:
buckets = None
if buckets is not None:
created_buckets, deleted_buckets = compare_buckets(previous_buckets, buckets)
if len(created_buckets) > 0:
print(created_buckets)
if len(deleted_buckets) > 0:
print(deleted_buckets)
previous_buckets = buckets
if __name__ == '__main__':
main()
| 480 |
465 | /*
* Copyright (c) 2018 Uber Technologies, Inc.
* Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated
* documentation files (the "Software"), to deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all copies or substantial portions
* of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO
* THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*/
package com.uber.marmaray.common.util;
import com.uber.marmaray.utilities.FSUtils;
import com.google.common.base.Optional;
import lombok.extern.slf4j.Slf4j;
import org.apache.avro.Schema;
import org.apache.avro.generic.GenericData;
import org.apache.avro.generic.GenericRecord;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.fs.FileStatus;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.Path;
import org.apache.parquet.hadoop.ParquetWriter;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import java.io.FileInputStream;
import java.io.IOException;
import java.io.InputStream;
public class TestParquetWriterUtil {
private FileSystem fileSystem;
@Before
public void setupTest() throws IOException {
/**
* We explicitly don't call close() in a tearDownTest() method as the Hadoop FileSystem object is cached
* so if multiple threads are accessing can affect others if one thread closes it.
*/
this.fileSystem = FSUtils.getFs(new com.uber.marmaray.common.configuration.Configuration(), Optional.absent());
}
@Test
public void writeTestParquetFile() throws IOException {
final String filePath = FileTestUtil.getTempFolder();
final Configuration conf = new Configuration();
final String avscFile = FileHelperUtil.getResourcePath(getClass(),
new Path("schemas", "StringPair.avsc").toString());
final Path dataFilePath = new Path(filePath, "data.parquet");
try (final InputStream fis = new FileInputStream(avscFile)) {
final Schema.Parser parser = new Schema.Parser();
final Schema schema = parser.parse(fis);
final ParquetWriter writer = ParquetWriterUtil.initializeAvroWriter(dataFilePath, schema, conf);
final GenericRecord record = new GenericData.Record(schema);
record.put("left", "L");
record.put("right", "R");
writer.write(record);
writer.close();
Assert.assertTrue(this.fileSystem.exists(dataFilePath));
FileStatus[] fs = this.fileSystem.globStatus(dataFilePath);
// Validate that the file isn't empty and data was actually written
Assert.assertTrue(fs[0].getLen() > 0);
} finally {
this.fileSystem.delete(dataFilePath);
}
}
}
| 1,206 |
1,927 | import sqlalchemy as sa
from mealie.db.models.model_base import SqlAlchemyBase
class Nutrition(SqlAlchemyBase):
__tablename__ = "recipe_nutrition"
id = sa.Column(sa.Integer, primary_key=True)
parent_id = sa.Column(sa.Integer, sa.ForeignKey("recipes.id"))
calories = sa.Column(sa.String)
fat_content = sa.Column(sa.String)
fiber_content = sa.Column(sa.String)
protein_content = sa.Column(sa.String)
carbohydrate_content = sa.Column(sa.String)
sodium_content = sa.Column(sa.String)
sugar_content = sa.Column(sa.String)
def __init__(
self,
calories=None,
fat_content=None,
fiber_content=None,
protein_content=None,
sodium_content=None,
sugar_content=None,
carbohydrate_content=None,
) -> None:
self.calories = calories
self.fat_content = fat_content
self.fiber_content = fiber_content
self.protein_content = protein_content
self.sodium_content = sodium_content
self.sugar_content = sugar_content
self.carbohydrate_content = carbohydrate_content
| 451 |
675 | <reponame>Texas-C/echo<gh_stars>100-1000
#pragma once
#include "engine/core/scene/node.h"
namespace Echo
{
class RecastNavConvexVolume : public Node
{
ECHO_CLASS(RecastNavConvexVolume, Node)
public:
};
} | 89 |
892 | <filename>advisories/unreviewed/2022/05/GHSA-wg6q-527f-jmrg/GHSA-wg6q-527f-jmrg.json
{
"schema_version": "1.2.0",
"id": "GHSA-wg6q-527f-jmrg",
"modified": "2022-05-01T02:20:02Z",
"published": "2022-05-01T02:20:02Z",
"aliases": [
"CVE-2005-3667"
],
"details": "Multiple unspecified vulnerabilities in multiple unspecified implementations of Internet Key Exchange version 1 (IKEv1) have multiple unspecified attack vectors and impacts related to denial of service, as demonstrated by the PROTOS ISAKMP Test Suite for IKEv1. NOTE: due to the lack of information in the original sources, it is likely that this candidate will be REJECTed once it is known which implementations are actually vulnerable. In addition, since \"denial of service\" is an impact and not a vulnerability, it is unknown which underlying vulnerabilities are actually covered by this particular candidate.",
"severity": [
],
"affected": [
],
"references": [
{
"type": "ADVISORY",
"url": "https://nvd.nist.gov/vuln/detail/CVE-2005-3667"
},
{
"type": "WEB",
"url": "http://jvn.jp/niscc/NISCC-273756/index.html"
},
{
"type": "WEB",
"url": "http://www.ee.oulu.fi/research/ouspg/protos/testing/c09/isakmp/"
},
{
"type": "WEB",
"url": "http://www.kb.cert.org/vuls/id/226364"
},
{
"type": "WEB",
"url": "http://www.niscc.gov.uk/niscc/docs/br-20051114-01013.html?lang=en"
}
],
"database_specific": {
"cwe_ids": [
],
"severity": "MODERATE",
"github_reviewed": false
}
} | 642 |
4,538 | #ifndef L2CM_INT_H_
#define L2CM_INT_H_
/**
****************************************************************************************
* @addtogroup L2C_INT Logical Link Control and Adaptation Protocol internals
* @ingroup HOST
* @brief Logical Link Control and Adaptation Protocol - Internal API.
*
* @{
****************************************************************************************
*/
#include "rwip_config.h"
#if (BLE_L2CM)
#include <stdbool.h>
#include <stdint.h>
#include "compiler.h"
#include "l2cm.h"
/*
* INCLUDE FILES
****************************************************************************************
*/
#define TRACE_BLE_TX_BUFFER_USAGE 0
/*
* DEFINES
****************************************************************************************
*/
/*
* GLOBAL VARIABLE DECLARATIONS
****************************************************************************************
*/
/// L2CAP Manager environment structure to be saved
struct l2cm_env_tag
{
#if (BLE_L2CC)
/// bit field used to know per connection if TX activity is on-going
uint32_t con_tx_state;
#endif // (BLE_L2CC)
/// Lower Layer buffers length
uint16_t le_acl_data_pkt_len;
/// Total number of available Lower Layer buffers
uint16_t le_acl_total_nb_acl_pkt;
/// Number of available Lower Layer buffers
uint16_t nb_buffer_avail;
uint16_t usedBufferNumber[BLE_CONNECTION_MAX];
};
/*
* GLOBAL VARIABLE DECLARATIONS
****************************************************************************************
*/
extern struct l2cm_env_tag l2cm_env;
/*
* FUNCTION DECLARATIONS
****************************************************************************************
*/
/**
****************************************************************************************
* @brief Acquire low layer LE ACL packet
****************************************************************************************
*/
static __INLINE void l2cm_buffer_acquire(uint8_t conidx)
{
#if TRACE_BLE_TX_BUFFER_USAGE
TRACE("pre ble nb -- to %d conidx %d to %d", l2cm_env.nb_buffer_avail,
conidx, l2cm_env.usedBufferNumber[conidx]);
#endif
l2cm_env.nb_buffer_avail--;
l2cm_env.usedBufferNumber[conidx]++;
#if TRACE_BLE_TX_BUFFER_USAGE
TRACE("ble nb -- to %d coidx %d to %d", l2cm_env.nb_buffer_avail,
conidx, l2cm_env.usedBufferNumber[conidx]);
#endif
}
/**
****************************************************************************************
* @brief Release low layer LE ACL packet
*
* @parm[in] nb Number of buffer to release.
****************************************************************************************
*/
static __INLINE void l2cm_buffer_release(uint8_t conidx, uint16_t nb)
{
#if TRACE_BLE_TX_BUFFER_USAGE
TRACE("pre ble nb ++ to %d conidx %d to %d", l2cm_env.nb_buffer_avail,
conidx, l2cm_env.usedBufferNumber[conidx]);
#endif
if (l2cm_env.usedBufferNumber[conidx] < nb)
{
l2cm_env.nb_buffer_avail += l2cm_env.usedBufferNumber[conidx];
l2cm_env.usedBufferNumber[conidx] = 0;
}
else
{
l2cm_env.nb_buffer_avail += nb;
l2cm_env.usedBufferNumber[conidx] -= nb;
}
#if TRACE_BLE_TX_BUFFER_USAGE
TRACE("post ble nb ++ to %d conidx %d to %d", l2cm_env.nb_buffer_avail,
conidx, l2cm_env.usedBufferNumber[conidx]);
#endif
}
static __INLINE void l2cm_buffer_reset(uint8_t conidx)
{
#if TRACE_BLE_TX_BUFFER_USAGE
TRACE("pre ble reset to %d conidx %d to %d", l2cm_env.nb_buffer_avail,
conidx, l2cm_env.usedBufferNumber[conidx]);
#endif
l2cm_env.nb_buffer_avail += l2cm_env.usedBufferNumber[conidx];
l2cm_env.usedBufferNumber[conidx] = 0;
#if TRACE_BLE_TX_BUFFER_USAGE
TRACE("post ble reset to %d conidx %d to %d", l2cm_env.nb_buffer_avail,
conidx, l2cm_env.usedBufferNumber[conidx]);
#endif
}
/**
****************************************************************************************
* @brief Retrieve low layer LE ACL Buffers size
*
* @return size of LE ACL Buffers
****************************************************************************************
*/
static __INLINE uint16_t l2cm_get_buffer_size(void)
{
return l2cm_env.le_acl_data_pkt_len;
}
/**
****************************************************************************************
* @brief Set if TX queue for specific connection is empty or not.
*
* If not empty, it will request L2CM to start transmission of buffers
*
* @param[in] conidx Connection index
* @param[in] busy False if TX buffer queue is empty, True else
*
****************************************************************************************
*/
void l2cm_tx_status(uint8_t conidx, bool busy);
/// @} L2CM_INT
#endif //(BLE_L2CM)
#endif // L2CM_INT_H_
| 1,564 |
1,727 | def factorize(n):
factors = {}
d = 2
while n > 1:
power = 0
while n % d == 0:
power += 1
n //= d
if power > 0:
factors[d] = power
d += 1
if d * d > n:
d = n
return factors
def get_all_divisors(n):
divisors = []
d = 1
while d * d <= n:
if n % d == 0:
divisors.append(d)
if d * d != n:
divisors.append(n // d)
d += 1
return sorted(divisors)
def test():
assert factorize(24) == {2: 3, 3: 1}
assert get_all_divisors(16) == [1, 2, 4, 8, 16]
test()
| 363 |
1,602 | /*
* (C) Copyright 2020 Hewlett Packard Enterprise Development LP
*
* This software is available to you under a choice of one of two
* licenses. You may choose to be licensed under the terms of the GNU
* General Public License (GPL) Version 2, available from the file
* COPYING in the main directory of this source tree, or the
* BSD license below:
*
* Redistribution and use in source and binary forms, with or
* without modification, are permitted provided that the following
* conditions are met:
*
* - Redistributions of source code must retain the above
* copyright notice, this list of conditions and the following
* disclaimer.
*
* - Redistributions 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.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#if HAVE_CONFIG_H
#include <config.h>
#endif
#include "ofi_hmem.h"
#include "ofi.h"
#if HAVE_LIBCUDA
#include <cuda.h>
#include <cuda_runtime.h>
struct cuda_ops {
cudaError_t (*cudaMemcpy)(void *dst, const void *src, size_t count,
enum cudaMemcpyKind kind);
const char *(*cudaGetErrorName)(cudaError_t error);
const char *(*cudaGetErrorString)(cudaError_t error);
CUresult (*cuPointerGetAttribute)(void *data,
CUpointer_attribute attribute,
CUdeviceptr ptr);
cudaError_t (*cudaHostRegister)(void *ptr, size_t size,
unsigned int flags);
cudaError_t (*cudaHostUnregister)(void *ptr);
cudaError_t (*cudaGetDeviceCount)(int *count);
};
static int hmem_cuda_use_gdrcopy;
#ifdef ENABLE_CUDA_DLOPEN
#include <dlfcn.h>
static void *cudart_handle;
static void *cuda_handle;
static struct cuda_ops cuda_ops;
#else
static struct cuda_ops cuda_ops = {
.cudaMemcpy = cudaMemcpy,
.cudaGetErrorName = cudaGetErrorName,
.cudaGetErrorString = cudaGetErrorString,
.cuPointerGetAttribute = cuPointerGetAttribute,
.cudaHostRegister = cudaHostRegister,
.cudaHostUnregister = cudaHostUnregister,
.cudaGetDeviceCount = cudaGetDeviceCount,
};
#endif /* ENABLE_CUDA_DLOPEN */
cudaError_t ofi_cudaMemcpy(void *dst, const void *src, size_t count,
enum cudaMemcpyKind kind)
{
return cuda_ops.cudaMemcpy(dst, src, count, kind);
}
const char *ofi_cudaGetErrorName(cudaError_t error)
{
return cuda_ops.cudaGetErrorName(error);
}
const char *ofi_cudaGetErrorString(cudaError_t error)
{
return cuda_ops.cudaGetErrorString(error);
}
CUresult ofi_cuPointerGetAttribute(void *data, CUpointer_attribute attribute,
CUdeviceptr ptr)
{
return cuda_ops.cuPointerGetAttribute(data, attribute, ptr);
}
cudaError_t ofi_cudaHostRegister(void *ptr, size_t size, unsigned int flags)
{
return cuda_ops.cudaHostRegister(ptr, size, flags);
}
cudaError_t ofi_cudaHostUnregister(void *ptr)
{
return cuda_ops.cudaHostUnregister(ptr);
}
static cudaError_t ofi_cudaGetDeviceCount(int *count)
{
return cuda_ops.cudaGetDeviceCount(count);
}
int cuda_copy_to_dev(uint64_t device, void *dev, const void *host, size_t size)
{
if (hmem_cuda_use_gdrcopy) {
cuda_gdrcopy_to_dev(device, dev, host, size);
return FI_SUCCESS;
}
cudaError_t cuda_ret;
cuda_ret = ofi_cudaMemcpy(dev, host, size, cudaMemcpyHostToDevice);
if (cuda_ret == cudaSuccess)
return 0;
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to perform cudaMemcpy: %s:%s\n",
ofi_cudaGetErrorName(cuda_ret),
ofi_cudaGetErrorString(cuda_ret));
return -FI_EIO;
}
int cuda_copy_from_dev(uint64_t device, void *host, const void *dev, size_t size)
{
if (hmem_cuda_use_gdrcopy) {
cuda_gdrcopy_from_dev(device, host, dev, size);
return FI_SUCCESS;
}
cudaError_t cuda_ret;
cuda_ret = ofi_cudaMemcpy(host, dev, size, cudaMemcpyDeviceToHost);
if (cuda_ret == cudaSuccess)
return 0;
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to perform cudaMemcpy: %s:%s\n",
ofi_cudaGetErrorName(cuda_ret),
ofi_cudaGetErrorString(cuda_ret));
return -FI_EIO;
}
int cuda_dev_register(struct fi_mr_attr *mr_attr, uint64_t *handle)
{
if (hmem_cuda_use_gdrcopy)
return cuda_gdrcopy_dev_register(mr_attr, handle);
*handle = mr_attr->device.cuda;
return FI_SUCCESS;
}
int cuda_dev_unregister(uint64_t handle)
{
if (hmem_cuda_use_gdrcopy)
return cuda_gdrcopy_dev_unregister(handle);
return FI_SUCCESS;
}
static int cuda_hmem_dl_init(void)
{
#ifdef ENABLE_CUDA_DLOPEN
/* Assume failure to dlopen CUDA runtime is caused by the library not
* being found. Thus, CUDA is not supported.
*/
cudart_handle = dlopen("libcudart.so", RTLD_NOW);
if (!cudart_handle) {
FI_INFO(&core_prov, FI_LOG_CORE,
"Failed to dlopen libcudart.so\n");
return -FI_ENOSYS;
}
cuda_handle = dlopen("libcuda.so", RTLD_NOW);
if (!cuda_handle) {
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to dlopen libcuda.so\n");
goto err_dlclose_cudart;
}
cuda_ops.cudaMemcpy = dlsym(cudart_handle, "cudaMemcpy");
if (!cuda_ops.cudaMemcpy) {
FI_WARN(&core_prov, FI_LOG_CORE, "Failed to find cudaMemcpy\n");
goto err_dlclose_cuda;
}
cuda_ops.cudaGetErrorName = dlsym(cudart_handle, "cudaGetErrorName");
if (!cuda_ops.cudaGetErrorName) {
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to find cudaGetErrorName\n");
goto err_dlclose_cuda;
}
cuda_ops.cudaGetErrorString = dlsym(cudart_handle,
"cudaGetErrorString");
if (!cuda_ops.cudaGetErrorString) {
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to find cudaGetErrorString\n");
goto err_dlclose_cuda;
}
cuda_ops.cuPointerGetAttribute = dlsym(cuda_handle,
"cuPointerGetAttribute");
if (!cuda_ops.cuPointerGetAttribute) {
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to find cuPointerGetAttribute\n");
goto err_dlclose_cuda;
}
cuda_ops.cudaHostRegister = dlsym(cudart_handle, "cudaHostRegister");
if (!cuda_ops.cudaHostRegister) {
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to find cudaHostRegister\n");
goto err_dlclose_cuda;
}
cuda_ops.cudaHostUnregister = dlsym(cudart_handle,
"cudaHostUnregister");
if (!cuda_ops.cudaHostUnregister) {
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to find cudaHostUnregister\n");
goto err_dlclose_cuda;
}
cuda_ops.cudaGetDeviceCount = dlsym(cudart_handle,
"cudaGetDeviceCount");
if (!cuda_ops.cudaGetDeviceCount) {
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to find cudaGetDeviceCount\n");
goto err_dlclose_cuda;
}
return FI_SUCCESS;
err_dlclose_cuda:
dlclose(cuda_handle);
err_dlclose_cudart:
dlclose(cudart_handle);
return -FI_ENODATA;
#else
return FI_SUCCESS;
#endif /* ENABLE_CUDA_DLOPEN */
}
static void cuda_hmem_dl_cleanup(void)
{
#ifdef ENABLE_CUDA_DLOPEN
dlclose(cuda_handle);
dlclose(cudart_handle);
#endif
}
static int cuda_hmem_verify_devices(void)
{
int device_count;
cudaError_t cuda_ret;
/* Verify CUDA compute-capable devices are present on the host. */
cuda_ret = ofi_cudaGetDeviceCount(&device_count);
switch (cuda_ret) {
case cudaSuccess:
break;
case cudaErrorNoDevice:
return -FI_ENOSYS;
default:
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to perform cudaGetDeviceCount: %s:%s\n",
ofi_cudaGetErrorName(cuda_ret),
ofi_cudaGetErrorString(cuda_ret));
return -FI_EIO;
}
if (device_count == 0)
return -FI_ENOSYS;
return FI_SUCCESS;
}
int cuda_hmem_init(void)
{
int ret;
int gdrcopy_ret;
ret = cuda_hmem_dl_init();
if (ret != FI_SUCCESS)
return ret;
ret = cuda_hmem_verify_devices();
if (ret != FI_SUCCESS)
goto dl_cleanup;
gdrcopy_ret = cuda_gdrcopy_hmem_init();
if (gdrcopy_ret == FI_SUCCESS) {
hmem_cuda_use_gdrcopy = 1;
fi_param_define(NULL, "hmem_cuda_use_gdrcopy", FI_PARAM_BOOL,
"Use gdrcopy to copy data to/from GPU memory");
fi_param_get_bool(NULL, "hmem_cuda_use_gdrcopy",
&hmem_cuda_use_gdrcopy);
} else {
hmem_cuda_use_gdrcopy = 0;
if (gdrcopy_ret != -FI_ENOSYS)
FI_WARN(&core_prov, FI_LOG_CORE,
"gdrcopy initialization failed! gdrcopy will not be used.\n");
}
return ret;
dl_cleanup:
cuda_hmem_dl_cleanup();
return ret;
}
int cuda_hmem_cleanup(void)
{
cuda_hmem_dl_cleanup();
if (hmem_cuda_use_gdrcopy)
cuda_gdrcopy_hmem_cleanup();
return FI_SUCCESS;
}
bool cuda_is_addr_valid(const void *addr)
{
CUresult cuda_ret;
unsigned int data;
cuda_ret = ofi_cuPointerGetAttribute(&data,
CU_POINTER_ATTRIBUTE_MEMORY_TYPE,
(CUdeviceptr)addr);
switch (cuda_ret) {
case CUDA_SUCCESS:
if (data == CU_MEMORYTYPE_DEVICE)
return true;
break;
/* Returned if the buffer is not associated with the CUcontext support
* unified virtual addressing. Since host buffers may fall into this
* category, this is not treated as an error.
*/
case CUDA_ERROR_INVALID_VALUE:
break;
/* Returned if cuInit() has not been called. This can happen if support
* for CUDA is enabled but the user has not made a CUDA call. This is
* not treated as an error.
*/
case CUDA_ERROR_NOT_INITIALIZED:
break;
/* Returned if the CUcontext does not support unified virtual
* addressing.
*/
case CUDA_ERROR_INVALID_CONTEXT:
FI_WARN(&core_prov, FI_LOG_CORE,
"CUcontext does not support unified virtual addressining\n");
break;
default:
FI_WARN(&core_prov, FI_LOG_CORE,
"Unhandle cuPointerGetAttribute return code: ret=%d\n",
cuda_ret);
break;
}
return false;
}
int cuda_host_register(void *ptr, size_t size)
{
cudaError_t cuda_ret;
cuda_ret = ofi_cudaHostRegister(ptr, size, cudaHostRegisterDefault);
if (cuda_ret == cudaSuccess)
return FI_SUCCESS;
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to perform cudaMemcpy: %s:%s\n",
ofi_cudaGetErrorName(cuda_ret),
ofi_cudaGetErrorString(cuda_ret));
return -FI_EIO;
}
int cuda_host_unregister(void *ptr)
{
cudaError_t cuda_ret;
cuda_ret = ofi_cudaHostUnregister(ptr);
if (cuda_ret == cudaSuccess)
return FI_SUCCESS;
FI_WARN(&core_prov, FI_LOG_CORE,
"Failed to perform cudaMemcpy: %s:%s\n",
ofi_cudaGetErrorName(cuda_ret),
ofi_cudaGetErrorString(cuda_ret));
return -FI_EIO;
}
#else
int cuda_copy_to_dev(uint64_t device, void *dev, const void *host, size_t size)
{
return -FI_ENOSYS;
}
int cuda_copy_from_dev(uint64_t device, void *host, const void *dev, size_t size)
{
return -FI_ENOSYS;
}
int cuda_hmem_init(void)
{
return -FI_ENOSYS;
}
int cuda_hmem_cleanup(void)
{
return -FI_ENOSYS;
}
bool cuda_is_addr_valid(const void *addr)
{
return false;
}
int cuda_host_register(void *ptr, size_t size)
{
return -FI_ENOSYS;
}
int cuda_host_unregister(void *ptr)
{
return -FI_ENOSYS;
}
int cuda_dev_register(struct fi_mr_attr *mr_attr, uint64_t *handle)
{
return FI_SUCCESS;
}
int cuda_dev_unregister(uint64_t handle)
{
return FI_SUCCESS;
}
#endif /* HAVE_LIBCUDA */
| 4,701 |
1,007 | <gh_stars>1000+
from __future__ import print_function
from logging import getLogger
logger = getLogger(__name__)
import traceback
import socket
import struct
import sys
import os
import atexit
import signal
import errno
import platform
import weakref
try:
import signalfd
except ImportError:
signalfd = None
try:
string = basestring
except NameError: # python 3
string = str
try:
InterruptedError = InterruptedError
except NameError: # python <= 3.2
InterruptedError = OSError
if hasattr(sys, 'setswitchinterval'):
setinterval = sys.setswitchinterval
getinterval = sys.getswitchinterval
else:
setinterval = sys.setcheckinterval
getinterval = sys.getcheckinterval
def _get_original(qual_name):
mod, name = qual_name.split('.')
original = getattr(__import__(mod), name)
try:
from gevent.monkey import get_original
original = get_original(mod, name)
except (ImportError, SyntaxError):
pass
try:
from eventlet.patcher import original
original = getattr(original(mod), name)
except (ImportError, SyntaxError):
pass
return original
_ORIGINAL_SOCKET = _get_original('socket.socket')
_ORIGINAL_FDOPEN = _get_original('os.fdopen')
try:
_ORIGINAL_ALLOCATE_LOCK = _get_original('thread.allocate_lock')
except ImportError: # python 3
_ORIGINAL_ALLOCATE_LOCK = _get_original('_thread.allocate_lock')
_ORIGINAL_THREAD = _get_original('threading.Thread')
_ORIGINAL_EVENT = _get_original('threading.Event')
_ORIGINAL__ACTIVE = _get_original('threading._active')
PY3 = sys.version_info[0] == 3
PY26 = sys.version_info[:2] == (2, 6)
VERBOSE = True
START_TIMEOUT = None
try:
import ctypes
import ctypes.util
libpthread_path = ctypes.util.find_library("pthread")
if not libpthread_path:
raise ImportError
libpthread = ctypes.CDLL(libpthread_path)
if not hasattr(libpthread, "pthread_setname_np"):
raise ImportError
_pthread_setname_np = libpthread.pthread_setname_np
_pthread_setname_np.argtypes = [ctypes.c_void_p, ctypes.c_char_p]
_pthread_setname_np.restype = ctypes.c_int
pthread_setname_np = lambda ident, name: _pthread_setname_np(ident, name[:15].encode('utf8'))
except ImportError:
pthread_setname_np = lambda ident, name: None
# OS X getsockopt(2) defines (may work for BSD too?)
SOL_LOCAL = 0
LOCAL_PEERCRED = 1
SO_PEERCRED = 17
COLOR_HIGHLIGHT = "\033[1;35m" if sys.stdout.isatty() else ""
COLOR_RESET = "\033[0m" if sys.stdout.isatty() else ""
system = platform.system()
def cry(message):
"""
Fail-ignorant logging function.
"""
if VERBOSE:
try:
_STDERR.write("%sMANHOLE:%s%s\n" % (COLOR_HIGHLIGHT, COLOR_RESET,
message))
except: # pylint: disable=W0702
pass
def get_peercred(sock):
"""Gets the (pid, uid, gid) for the client on the given *connected* socket."""
if system == 'Darwin':
return struct.unpack('3i', sock.getsockopt(
SOL_LOCAL, LOCAL_PEERCRED, struct.calcsize('3i')
))
else:
return struct.unpack('3i', sock.getsockopt(
socket.SOL_SOCKET, SO_PEERCRED, struct.calcsize('3i')
))
class SuspiciousClient(Exception):
pass
class Manhole(_ORIGINAL_THREAD):
"""
Thread that runs the infamous "Manhole".
"""
def __init__(self, sigmask, start_timeout, workflow):
super(Manhole, self).__init__()
self.daemon = True
self.name = "Manhole"
self.sigmask = sigmask
self.serious = _ORIGINAL_EVENT()
# time to wait for the manhole to get serious (to have a complete start)
# see: http://emptysqua.re/blog/dawn-of-the-thread/
self.start_timeout = start_timeout
self.workflow = workflow
@property
def workflow(self):
return self._workflow()
@workflow.setter
def workflow(self, value):
self._workflow = weakref.ref(value)
def start(self):
super(Manhole, self).start()
if not self.serious.wait(self.start_timeout) and not PY26:
cry("WARNING: Waited %s seconds but Manhole thread didn't start yet :(" % self.start_timeout)
@staticmethod
def get_socket():
sock = _ORIGINAL_SOCKET(socket.AF_UNIX, socket.SOCK_STREAM)
pid = os.getpid()
name = "/tmp/manhole-%s" % pid
if os.path.exists(name):
os.unlink(name)
sock.bind(name)
sock.listen(5)
cry("Manhole UDS path: nc -U %s" % name)
return sock, pid
def interact(self):
dump_stacktraces()
from veles.interaction import Shell
Shell.fix_netcat_colors()
shell = Shell(self.workflow, name="Manhole")
shell.thread_pool.pause()
shell.initialize()
try:
shell.interact({
'dump_stacktraces': dump_stacktraces,
'sys': sys,
'os': os,
'socket': socket,
'traceback': traceback,
'pause': shell.thread_pool.pause,
'resume': shell.thread_pool.resume,
})
except (EOFError, BrokenPipeError):
cry("Client has been dropped.")
finally:
shell.workflow.del_ref(shell)
shell.thread_pool.resume()
"""
import code
code.InteractiveConsole({
'dump_stacktraces': dump_stacktraces,
'sys': sys,
'os': os,
'socket': socket,
'traceback': traceback,
}).interact()
"""
def run(self):
self.serious.set()
if signalfd and self.sigmask:
signalfd.sigprocmask(signalfd.SIG_BLOCK, self.sigmask)
pthread_setname_np(self.ident, self.name)
sock, pid = self.get_socket()
while True:
cry("Waiting for a new connection (in pid %s) ..." % pid)
try:
client = ManholeConnection(sock.accept()[0], self.sigmask)
client.start()
client.join()
except (InterruptedError, socket.error) as e:
if e.errno != errno.EINTR:
raise
continue
finally:
client = None
class ManholeConnection(_ORIGINAL_THREAD):
def __init__(self, client, sigmask):
super(ManholeConnection, self).__init__()
self.daemon = False
self.client = client
self.name = "ManholeConnection"
self.sigmask = sigmask
def run(self):
cry('Started ManholeConnection thread. Checking credentials ...')
if signalfd and self.sigmask:
signalfd.sigprocmask(signalfd.SIG_BLOCK, self.sigmask)
pthread_setname_np(self.ident, "Manhole ----")
pid, _, _ = self.check_credentials(self.client)
pthread_setname_np(self.ident, "Manhole %s" % pid)
self.handle(self.client)
@staticmethod
def check_credentials(client):
pid, uid, gid = get_peercred(client)
euid = os.geteuid()
client_name = "PID:%s UID:%s GID:%s" % (pid, uid, gid)
if uid not in (0, euid):
raise SuspiciousClient("Can't accept client with %s. It doesn't match the current EUID:%s or ROOT." % (
client_name, euid
))
cry("Accepted connection %s from %s" % (client, client_name))
return pid, uid, gid
@staticmethod
def handle(client):
client.settimeout(None)
# # disable this till we have evidence that it's needed
# client.setsockopt(socket.SOL_SOCKET, socket.SO_SNDBUF, 0)
# # Note: setting SO_RCVBUF on UDS has no effect, see: http://man7.org/linux/man-pages/man7/unix.7.html
backup = []
old_interval = getinterval()
try:
try:
client_fd = client.fileno()
for mode, names in (
('w', (
'stderr',
'stdout',
'__stderr__',
'__stdout__'
)),
('r', (
'stdin',
'__stdin__'
))
):
for name in names:
backup.append((name, getattr(sys, name)))
setattr(sys, name, _ORIGINAL_FDOPEN(client_fd, mode, 1 if PY3 else 0))
_INST.interact()
cry("Finished interaction.")
finally:
try:
# Change the switch/check interval to something ridiculous. We don't want to have other thread try
# to write to the redirected sys.__std*/sys.std* - it would fail horribly.
setinterval(2147483647)
client.close() # close before it's too late. it may already be dead
junk = [] # keep the old file objects alive for a bit
for name, fh in backup:
junk.append(getattr(sys, name))
setattr(sys, name, fh)
del backup
for fh in junk:
try:
fh.close()
except IOError:
pass
del fh
del junk
finally:
setinterval(old_interval)
cry("Cleaned up.")
except:
cry("ManholeConnection thread failed:")
cry(traceback.format_exc())
def _handle_oneshot(_signum, _frame):
try:
sock, pid = Manhole.get_socket()
cry("Waiting for new connection (in pid:%s) ..." % pid)
client, _ = sock.accept()
ManholeConnection.check_credentials(client)
ManholeConnection.handle(client)
except: # pylint: disable=W0702
# we don't want to let any exception out, it might make the application missbehave
cry("Manhole oneshot connection failed:")
cry(traceback.format_exc())
finally:
_remove_manhole_uds()
def _remove_manhole_uds():
name = "/tmp/manhole-%s" % os.getpid()
if os.path.exists(name):
os.unlink(name)
_INST_LOCK = _ORIGINAL_ALLOCATE_LOCK()
_STDERR = _INST = _ORIGINAL_OS_FORK = _ORIGINAL_OS_FORKPTY = _SHOULD_RESTART = None
def _patched_fork():
"""Fork a child process."""
pid = _ORIGINAL_OS_FORK()
if not pid:
cry('Fork detected. Reinstalling Manhole.')
reinstall()
return pid
def _patched_forkpty():
"""Fork a new process with a new pseudo-terminal as controlling tty."""
pid, master_fd = _ORIGINAL_OS_FORKPTY()
if not pid:
cry('Fork detected. Reinstalling Manhole.')
reinstall()
return pid, master_fd
def _patch_os_fork_functions():
global _ORIGINAL_OS_FORK, _ORIGINAL_OS_FORKPTY # pylint: disable=W0603
if not _ORIGINAL_OS_FORK:
_ORIGINAL_OS_FORK, os.fork = os.fork, _patched_fork
if not _ORIGINAL_OS_FORKPTY:
_ORIGINAL_OS_FORKPTY, os.forkpty = os.forkpty, _patched_forkpty
cry("Patched %s and %s." % (_ORIGINAL_OS_FORK, _ORIGINAL_OS_FORKPTY))
def _activate_on_signal(_signum, _frame):
assert _INST, "Manhole wasn't installed !"
_INST.start()
ALL_SIGNALS = [
getattr(signal, sig) for sig in dir(signal)
if sig.startswith('SIG') and '_' not in sig
]
def install(verbose=True, patch_fork=True, activate_on=None,
sigmask=ALL_SIGNALS, oneshot_on=None, start_timeout=0.5,
workflow=None):
global _STDERR, _INST, _SHOULD_RESTART, VERBOSE, START_TIMEOUT # pylint: disable=W0603
with _INST_LOCK:
VERBOSE = verbose
START_TIMEOUT = start_timeout
_STDERR = sys.__stderr__
if _INST is None:
_INST = Manhole(sigmask, start_timeout, workflow)
if oneshot_on is not None:
oneshot_on = getattr(signal, 'SIG' + oneshot_on) if isinstance(oneshot_on, string) else oneshot_on
signal.signal(oneshot_on, _handle_oneshot)
if activate_on is None:
if oneshot_on is None:
_INST.start()
_SHOULD_RESTART = True
else:
activate_on = getattr(signal, 'SIG' + activate_on) if isinstance(activate_on, string) else activate_on
if activate_on == oneshot_on:
raise RuntimeError('You cannot do activation of the Manhole thread on the same signal '
'that you want to do oneshot activation !')
signal.signal(activate_on, _activate_on_signal)
atexit.register(_remove_manhole_uds)
if patch_fork:
if activate_on is None and oneshot_on is None:
_patch_os_fork_functions()
else:
if activate_on:
cry("Not patching os.fork and os.forkpty. Activation is done by signal %s" % activate_on)
elif oneshot_on:
cry("Not patching os.fork and os.forkpty. Oneshot activation is done by signal %s" % oneshot_on)
def reinstall():
global _INST # pylint: disable=W0603
assert _INST
with _INST_LOCK:
if not (_INST.is_alive() and _INST in _ORIGINAL__ACTIVE):
_INST = Manhole(_INST.sigmask, START_TIMEOUT)
if _SHOULD_RESTART:
_INST.start()
def dump_stacktraces():
import threading
lines = []
tmap = {thr.ident: thr.name for thr in threading.enumerate()}
for thread_id, stack in sys._current_frames().items(): # pylint: disable=W0212
lines.append("\n## ProcessID=%s, ThreadID=%s \"%s\" ##" % (
os.getpid(), thread_id, tmap.get(thread_id, "<unknown>")
))
for filename, lineno, name, line in traceback.extract_stack(stack):
lines.append('File: "%s", line %d, in %s' % (filename, lineno, name))
if line:
lines.append(" %s" % (line.strip()))
lines.append('#' * 80 + "\n\n")
print('\n'.join(lines), file=sys.stderr)
| 6,889 |
521 | <filename>qemu_mode/qemu-2.10.0/roms/ipxe/src/drivers/infiniband/qib_7322_regs.h
/*
* Copyright (c) 2008, 2009 QLogic Corporation. All rights reserved.
*
* This software is available to you under a choice of one of two
* licenses. You may choose to be licensed under the terms of the GNU
* General Public License (GPL) Version 2, available from the file
* COPYING in the main directory of this source tree, or the
* OpenIB.org BSD license below:
*
* Redistribution and use in source and binary forms, with or
* without modification, are permitted provided that the following
* conditions are met:
*
* - Redistributions of source code must retain the above
* copyright notice, this list of conditions and the following
* disclaimer.
*
* - Redistributions 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.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
/* This file is mechanically generated from RTL. Any hand-edits will be lost! */
/* This file has been further processed by ./drivers/infiniband/qib_genbits.pl */
FILE_LICENCE ( GPL2_ONLY );
#define QIB_7322_Revision_offset 0x00000000UL
struct QIB_7322_Revision_pb {
pseudo_bit_t R_ChipRevMinor[8];
pseudo_bit_t R_ChipRevMajor[8];
pseudo_bit_t R_Arch[8];
pseudo_bit_t R_SW[8];
pseudo_bit_t BoardID[8];
pseudo_bit_t R_Emulation_Revcode[22];
pseudo_bit_t R_Emulation[1];
pseudo_bit_t R_Simulator[1];
};
struct QIB_7322_Revision {
PSEUDO_BIT_STRUCT ( struct QIB_7322_Revision_pb );
};
/* Default value: 0x0000000002010601 */
#define QIB_7322_Control_offset 0x00000008UL
struct QIB_7322_Control_pb {
pseudo_bit_t SyncReset[1];
pseudo_bit_t FreezeMode[1];
pseudo_bit_t _unused_0[1];
pseudo_bit_t PCIERetryBufDiagEn[1];
pseudo_bit_t SDmaDescFetchPriorityEn[1];
pseudo_bit_t PCIEPostQDiagEn[1];
pseudo_bit_t PCIECplQDiagEn[1];
pseudo_bit_t _unused_1[57];
};
struct QIB_7322_Control {
PSEUDO_BIT_STRUCT ( struct QIB_7322_Control_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PageAlign_offset 0x00000010UL
/* Default value: 0x0000000000001000 */
#define QIB_7322_ContextCnt_offset 0x00000018UL
/* Default value: 0x0000000000000012 */
#define QIB_7322_Scratch_offset 0x00000020UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_CntrRegBase_offset 0x00000028UL
/* Default value: 0x0000000000011000 */
#define QIB_7322_SendRegBase_offset 0x00000030UL
/* Default value: 0x0000000000003000 */
#define QIB_7322_UserRegBase_offset 0x00000038UL
/* Default value: 0x0000000000200000 */
#define QIB_7322_DebugPortSel_offset 0x00000040UL
struct QIB_7322_DebugPortSel_pb {
pseudo_bit_t DebugOutMuxSel[2];
pseudo_bit_t _unused_0[28];
pseudo_bit_t SrcMuxSel0[8];
pseudo_bit_t SrcMuxSel1[8];
pseudo_bit_t DbgClkPortSel[5];
pseudo_bit_t EnDbgPort[1];
pseudo_bit_t EnEnhancedDebugMode[1];
pseudo_bit_t EnhMode_SrcMuxSelIndex[10];
pseudo_bit_t EnhMode_SrcMuxSelWrEn[1];
};
struct QIB_7322_DebugPortSel {
PSEUDO_BIT_STRUCT ( struct QIB_7322_DebugPortSel_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_DebugPortNibbleSel_offset 0x00000048UL
struct QIB_7322_DebugPortNibbleSel_pb {
pseudo_bit_t NibbleSel0[4];
pseudo_bit_t NibbleSel1[4];
pseudo_bit_t NibbleSel2[4];
pseudo_bit_t NibbleSel3[4];
pseudo_bit_t NibbleSel4[4];
pseudo_bit_t NibbleSel5[4];
pseudo_bit_t NibbleSel6[4];
pseudo_bit_t NibbleSel7[4];
pseudo_bit_t NibbleSel8[4];
pseudo_bit_t NibbleSel9[4];
pseudo_bit_t NibbleSel10[4];
pseudo_bit_t NibbleSel11[4];
pseudo_bit_t NibbleSel12[4];
pseudo_bit_t NibbleSel13[4];
pseudo_bit_t NibbleSel14[4];
pseudo_bit_t NibbleSel15[4];
};
struct QIB_7322_DebugPortNibbleSel {
PSEUDO_BIT_STRUCT ( struct QIB_7322_DebugPortNibbleSel_pb );
};
/* Default value: 0xFEDCBA9876543210 */
#define QIB_7322_DebugSigsIntSel_offset 0x00000050UL
struct QIB_7322_DebugSigsIntSel_pb {
pseudo_bit_t debug_port_sel_pcs_pipe_lane07[3];
pseudo_bit_t debug_port_sel_pcs_pipe_lane815[3];
pseudo_bit_t debug_port_sel_pcs_sdout[1];
pseudo_bit_t debug_port_sel_pcs_symlock_elfifo_lane[4];
pseudo_bit_t debug_port_sel_pcs_rxdet_encdec_lane[3];
pseudo_bit_t EnableSDma_SelfDrain[1];
pseudo_bit_t debug_port_sel_pcie_rx_tx[1];
pseudo_bit_t _unused_0[1];
pseudo_bit_t debug_port_sel_tx_ibport[1];
pseudo_bit_t debug_port_sel_tx_sdma[1];
pseudo_bit_t debug_port_sel_rx_ibport[1];
pseudo_bit_t _unused_1[12];
pseudo_bit_t debug_port_sel_xgxs_0[4];
pseudo_bit_t debug_port_sel_credit_a_0[3];
pseudo_bit_t debug_port_sel_credit_b_0[3];
pseudo_bit_t debug_port_sel_xgxs_1[4];
pseudo_bit_t debug_port_sel_credit_a_1[3];
pseudo_bit_t debug_port_sel_credit_b_1[3];
pseudo_bit_t _unused_2[12];
};
struct QIB_7322_DebugSigsIntSel {
PSEUDO_BIT_STRUCT ( struct QIB_7322_DebugSigsIntSel_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_DebugPortValueReg_offset 0x00000058UL
#define QIB_7322_IntBlocked_offset 0x00000060UL
struct QIB_7322_IntBlocked_pb {
pseudo_bit_t RcvAvail0IntBlocked[1];
pseudo_bit_t RcvAvail1IntBlocked[1];
pseudo_bit_t RcvAvail2IntBlocked[1];
pseudo_bit_t RcvAvail3IntBlocked[1];
pseudo_bit_t RcvAvail4IntBlocked[1];
pseudo_bit_t RcvAvail5IntBlocked[1];
pseudo_bit_t RcvAvail6IntBlocked[1];
pseudo_bit_t RcvAvail7IntBlocked[1];
pseudo_bit_t RcvAvail8IntBlocked[1];
pseudo_bit_t RcvAvail9IntBlocked[1];
pseudo_bit_t RcvAvail10IntBlocked[1];
pseudo_bit_t RcvAvail11IntBlocked[1];
pseudo_bit_t RcvAvail12IntBlocked[1];
pseudo_bit_t RcvAvail13IntBlocked[1];
pseudo_bit_t RcvAvail14IntBlocked[1];
pseudo_bit_t RcvAvail15IntBlocked[1];
pseudo_bit_t RcvAvail16IntBlocked[1];
pseudo_bit_t RcvAvail17IntBlocked[1];
pseudo_bit_t _unused_0[5];
pseudo_bit_t SendBufAvailIntBlocked[1];
pseudo_bit_t SendDoneIntBlocked_0[1];
pseudo_bit_t SendDoneIntBlocked_1[1];
pseudo_bit_t _unused_1[2];
pseudo_bit_t AssertGPIOIntBlocked[1];
pseudo_bit_t ErrIntBlocked[1];
pseudo_bit_t ErrIntBlocked_0[1];
pseudo_bit_t ErrIntBlocked_1[1];
pseudo_bit_t RcvUrg0IntBlocked[1];
pseudo_bit_t RcvUrg1IntBlocked[1];
pseudo_bit_t RcvUrg2IntBlocked[1];
pseudo_bit_t RcvUrg3IntBlocked[1];
pseudo_bit_t RcvUrg4IntBlocked[1];
pseudo_bit_t RcvUrg5IntBlocked[1];
pseudo_bit_t RcvUrg6IntBlocked[1];
pseudo_bit_t RcvUrg7IntBlocked[1];
pseudo_bit_t RcvUrg8IntBlocked[1];
pseudo_bit_t RcvUrg9IntBlocked[1];
pseudo_bit_t RcvUrg10IntBlocked[1];
pseudo_bit_t RcvUrg11IntBlocked[1];
pseudo_bit_t RcvUrg12IntBlocked[1];
pseudo_bit_t RcvUrg13IntBlocked[1];
pseudo_bit_t RcvUrg14IntBlocked[1];
pseudo_bit_t RcvUrg15IntBlocked[1];
pseudo_bit_t RcvUrg16IntBlocked[1];
pseudo_bit_t RcvUrg17IntBlocked[1];
pseudo_bit_t _unused_2[6];
pseudo_bit_t SDmaCleanupDoneBlocked_0[1];
pseudo_bit_t SDmaCleanupDoneBlocked_1[1];
pseudo_bit_t SDmaIdleIntBlocked_0[1];
pseudo_bit_t SDmaIdleIntBlocked_1[1];
pseudo_bit_t SDmaProgressIntBlocked_0[1];
pseudo_bit_t SDmaProgressIntBlocked_1[1];
pseudo_bit_t SDmaIntBlocked_0[1];
pseudo_bit_t SDmaIntBlocked_1[1];
};
struct QIB_7322_IntBlocked {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IntBlocked_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IntMask_offset 0x00000068UL
struct QIB_7322_IntMask_pb {
pseudo_bit_t RcvAvail0IntMask[1];
pseudo_bit_t RcvAvail1IntMask[1];
pseudo_bit_t RcvAvail2IntMask[1];
pseudo_bit_t RcvAvail3IntMask[1];
pseudo_bit_t RcvAvail4IntMask[1];
pseudo_bit_t RcvAvail5IntMask[1];
pseudo_bit_t RcvAvail6IntMask[1];
pseudo_bit_t RcvAvail7IntMask[1];
pseudo_bit_t RcvAvail8IntMask[1];
pseudo_bit_t RcvAvail9IntMask[1];
pseudo_bit_t RcvAvail10IntMask[1];
pseudo_bit_t RcvAvail11IntMask[1];
pseudo_bit_t RcvAvail12IntMask[1];
pseudo_bit_t RcvAvail13IntMask[1];
pseudo_bit_t RcvAvail14IntMask[1];
pseudo_bit_t RcvAvail15IntMask[1];
pseudo_bit_t RcvAvail16IntMask[1];
pseudo_bit_t RcvAvail17IntMask[1];
pseudo_bit_t _unused_0[5];
pseudo_bit_t SendBufAvailIntMask[1];
pseudo_bit_t SendDoneIntMask_0[1];
pseudo_bit_t SendDoneIntMask_1[1];
pseudo_bit_t _unused_1[2];
pseudo_bit_t AssertGPIOIntMask[1];
pseudo_bit_t ErrIntMask[1];
pseudo_bit_t ErrIntMask_0[1];
pseudo_bit_t ErrIntMask_1[1];
pseudo_bit_t RcvUrg0IntMask[1];
pseudo_bit_t RcvUrg1IntMask[1];
pseudo_bit_t RcvUrg2IntMask[1];
pseudo_bit_t RcvUrg3IntMask[1];
pseudo_bit_t RcvUrg4IntMask[1];
pseudo_bit_t RcvUrg5IntMask[1];
pseudo_bit_t RcvUrg6IntMask[1];
pseudo_bit_t RcvUrg7IntMask[1];
pseudo_bit_t RcvUrg8IntMask[1];
pseudo_bit_t RcvUrg9IntMask[1];
pseudo_bit_t RcvUrg10IntMask[1];
pseudo_bit_t RcvUrg11IntMask[1];
pseudo_bit_t RcvUrg12IntMask[1];
pseudo_bit_t RcvUrg13IntMask[1];
pseudo_bit_t RcvUrg14IntMask[1];
pseudo_bit_t RcvUrg15IntMask[1];
pseudo_bit_t RcvUrg16IntMask[1];
pseudo_bit_t RcvUrg17IntMask[1];
pseudo_bit_t _unused_2[6];
pseudo_bit_t SDmaCleanupDoneMask_0[1];
pseudo_bit_t SDmaCleanupDoneMask_1[1];
pseudo_bit_t SDmaIdleIntMask_0[1];
pseudo_bit_t SDmaIdleIntMask_1[1];
pseudo_bit_t SDmaProgressIntMask_0[1];
pseudo_bit_t SDmaProgressIntMask_1[1];
pseudo_bit_t SDmaIntMask_0[1];
pseudo_bit_t SDmaIntMask_1[1];
};
struct QIB_7322_IntMask {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IntMask_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IntStatus_offset 0x00000070UL
struct QIB_7322_IntStatus_pb {
pseudo_bit_t RcvAvail0[1];
pseudo_bit_t RcvAvail1[1];
pseudo_bit_t RcvAvail2[1];
pseudo_bit_t RcvAvail3[1];
pseudo_bit_t RcvAvail4[1];
pseudo_bit_t RcvAvail5[1];
pseudo_bit_t RcvAvail6[1];
pseudo_bit_t RcvAvail7[1];
pseudo_bit_t RcvAvail8[1];
pseudo_bit_t RcvAvail9[1];
pseudo_bit_t RcvAvail10[1];
pseudo_bit_t RcvAvail11[1];
pseudo_bit_t RcvAvail12[1];
pseudo_bit_t RcvAvail13[1];
pseudo_bit_t RcvAvail14[1];
pseudo_bit_t RcvAvail15[1];
pseudo_bit_t RcvAvail16[1];
pseudo_bit_t RcvAvail17[1];
pseudo_bit_t _unused_0[5];
pseudo_bit_t SendBufAvail[1];
pseudo_bit_t SendDone_0[1];
pseudo_bit_t SendDone_1[1];
pseudo_bit_t _unused_1[2];
pseudo_bit_t AssertGPIO[1];
pseudo_bit_t Err[1];
pseudo_bit_t Err_0[1];
pseudo_bit_t Err_1[1];
pseudo_bit_t RcvUrg0[1];
pseudo_bit_t RcvUrg1[1];
pseudo_bit_t RcvUrg2[1];
pseudo_bit_t RcvUrg3[1];
pseudo_bit_t RcvUrg4[1];
pseudo_bit_t RcvUrg5[1];
pseudo_bit_t RcvUrg6[1];
pseudo_bit_t RcvUrg7[1];
pseudo_bit_t RcvUrg8[1];
pseudo_bit_t RcvUrg9[1];
pseudo_bit_t RcvUrg10[1];
pseudo_bit_t RcvUrg11[1];
pseudo_bit_t RcvUrg12[1];
pseudo_bit_t RcvUrg13[1];
pseudo_bit_t RcvUrg14[1];
pseudo_bit_t RcvUrg15[1];
pseudo_bit_t RcvUrg16[1];
pseudo_bit_t RcvUrg17[1];
pseudo_bit_t _unused_2[6];
pseudo_bit_t SDmaCleanupDone_0[1];
pseudo_bit_t SDmaCleanupDone_1[1];
pseudo_bit_t SDmaIdleInt_0[1];
pseudo_bit_t SDmaIdleInt_1[1];
pseudo_bit_t SDmaProgressInt_0[1];
pseudo_bit_t SDmaProgressInt_1[1];
pseudo_bit_t SDmaInt_0[1];
pseudo_bit_t SDmaInt_1[1];
};
struct QIB_7322_IntStatus {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IntStatus_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IntClear_offset 0x00000078UL
struct QIB_7322_IntClear_pb {
pseudo_bit_t RcvAvail0IntClear[1];
pseudo_bit_t RcvAvail1IntClear[1];
pseudo_bit_t RcvAvail2IntClear[1];
pseudo_bit_t RcvAvail3IntClear[1];
pseudo_bit_t RcvAvail4IntClear[1];
pseudo_bit_t RcvAvail5IntClear[1];
pseudo_bit_t RcvAvail6IntClear[1];
pseudo_bit_t RcvAvail7IntClear[1];
pseudo_bit_t RcvAvail8IntClear[1];
pseudo_bit_t RcvAvail9IntClear[1];
pseudo_bit_t RcvAvail10IntClear[1];
pseudo_bit_t RcvAvail11IntClear[1];
pseudo_bit_t RcvAvail12IntClear[1];
pseudo_bit_t RcvAvail13IntClear[1];
pseudo_bit_t RcvAvail14IntClear[1];
pseudo_bit_t RcvAvail15IntClear[1];
pseudo_bit_t RcvAvail16IntClear[1];
pseudo_bit_t RcvAvail17IntClear[1];
pseudo_bit_t _unused_0[5];
pseudo_bit_t SendBufAvailIntClear[1];
pseudo_bit_t SendDoneIntClear_0[1];
pseudo_bit_t SendDoneIntClear_1[1];
pseudo_bit_t _unused_1[2];
pseudo_bit_t AssertGPIOIntClear[1];
pseudo_bit_t ErrIntClear[1];
pseudo_bit_t ErrIntClear_0[1];
pseudo_bit_t ErrIntClear_1[1];
pseudo_bit_t RcvUrg0IntClear[1];
pseudo_bit_t RcvUrg1IntClear[1];
pseudo_bit_t RcvUrg2IntClear[1];
pseudo_bit_t RcvUrg3IntClear[1];
pseudo_bit_t RcvUrg4IntClear[1];
pseudo_bit_t RcvUrg5IntClear[1];
pseudo_bit_t RcvUrg6IntClear[1];
pseudo_bit_t RcvUrg7IntClear[1];
pseudo_bit_t RcvUrg8IntClear[1];
pseudo_bit_t RcvUrg9IntClear[1];
pseudo_bit_t RcvUrg10IntClear[1];
pseudo_bit_t RcvUrg11IntClear[1];
pseudo_bit_t RcvUrg12IntClear[1];
pseudo_bit_t RcvUrg13IntClear[1];
pseudo_bit_t RcvUrg14IntClear[1];
pseudo_bit_t RcvUrg15IntClear[1];
pseudo_bit_t RcvUrg16IntClear[1];
pseudo_bit_t RcvUrg17IntClear[1];
pseudo_bit_t _unused_2[6];
pseudo_bit_t SDmaCleanupDoneClear_0[1];
pseudo_bit_t SDmaCleanupDoneClear_1[1];
pseudo_bit_t SDmaIdleIntClear_0[1];
pseudo_bit_t SDmaIdleIntClear_1[1];
pseudo_bit_t SDmaProgressIntClear_0[1];
pseudo_bit_t SDmaProgressIntClear_1[1];
pseudo_bit_t SDmaIntClear_0[1];
pseudo_bit_t SDmaIntClear_1[1];
};
struct QIB_7322_IntClear {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IntClear_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ErrMask_offset 0x00000080UL
struct QIB_7322_ErrMask_pb {
pseudo_bit_t _unused_0[12];
pseudo_bit_t RcvEgrFullErrMask[1];
pseudo_bit_t RcvHdrFullErrMask[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SDmaBufMaskDuplicateErrMask[1];
pseudo_bit_t SDmaWrongPortErrMask[1];
pseudo_bit_t SendSpecialTriggerErrMask[1];
pseudo_bit_t _unused_2[7];
pseudo_bit_t SendArmLaunchErrMask[1];
pseudo_bit_t SendVLMismatchErrMask[1];
pseudo_bit_t _unused_3[15];
pseudo_bit_t RcvContextShareErrMask[1];
pseudo_bit_t InvalidEEPCmdMask[1];
pseudo_bit_t _unused_4[1];
pseudo_bit_t SBufVL15MisUseErrMask[1];
pseudo_bit_t SDmaVL15ErrMask[1];
pseudo_bit_t _unused_5[4];
pseudo_bit_t InvalidAddrErrMask[1];
pseudo_bit_t HardwareErrMask[1];
pseudo_bit_t ResetNegatedMask[1];
};
struct QIB_7322_ErrMask {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ErrMask_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ErrStatus_offset 0x00000088UL
struct QIB_7322_ErrStatus_pb {
pseudo_bit_t _unused_0[12];
pseudo_bit_t RcvEgrFullErr[1];
pseudo_bit_t RcvHdrFullErr[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SDmaBufMaskDuplicateErr[1];
pseudo_bit_t SDmaWrongPortErr[1];
pseudo_bit_t SendSpecialTriggerErr[1];
pseudo_bit_t _unused_2[7];
pseudo_bit_t SendArmLaunchErr[1];
pseudo_bit_t SendVLMismatchErr[1];
pseudo_bit_t _unused_3[15];
pseudo_bit_t RcvContextShareErr[1];
pseudo_bit_t InvalidEEPCmdErr[1];
pseudo_bit_t _unused_4[1];
pseudo_bit_t SBufVL15MisUseErr[1];
pseudo_bit_t SDmaVL15Err[1];
pseudo_bit_t _unused_5[4];
pseudo_bit_t InvalidAddrErr[1];
pseudo_bit_t HardwareErr[1];
pseudo_bit_t ResetNegated[1];
};
struct QIB_7322_ErrStatus {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ErrStatus_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ErrClear_offset 0x00000090UL
struct QIB_7322_ErrClear_pb {
pseudo_bit_t _unused_0[12];
pseudo_bit_t RcvEgrFullErrClear[1];
pseudo_bit_t RcvHdrFullErrClear[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SDmaBufMaskDuplicateErrClear[1];
pseudo_bit_t SDmaWrongPortErrClear[1];
pseudo_bit_t SendSpecialTriggerErrClear[1];
pseudo_bit_t _unused_2[7];
pseudo_bit_t SendArmLaunchErrClear[1];
pseudo_bit_t SendVLMismatchErrMask[1];
pseudo_bit_t _unused_3[15];
pseudo_bit_t RcvContextShareErrClear[1];
pseudo_bit_t InvalidEEPCmdErrClear[1];
pseudo_bit_t _unused_4[1];
pseudo_bit_t SBufVL15MisUseErrClear[1];
pseudo_bit_t SDmaVL15ErrClear[1];
pseudo_bit_t _unused_5[4];
pseudo_bit_t InvalidAddrErrClear[1];
pseudo_bit_t HardwareErrClear[1];
pseudo_bit_t ResetNegatedClear[1];
};
struct QIB_7322_ErrClear {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ErrClear_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_HwErrMask_offset 0x00000098UL
struct QIB_7322_HwErrMask_pb {
pseudo_bit_t _unused_0[11];
pseudo_bit_t LATriggeredMask[1];
pseudo_bit_t statusValidNoEopMask_0[1];
pseudo_bit_t IBCBusFromSPCParityErrMask_0[1];
pseudo_bit_t statusValidNoEopMask_1[1];
pseudo_bit_t IBCBusFromSPCParityErrMask_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SDmaMemReadErrMask_0[1];
pseudo_bit_t SDmaMemReadErrMask_1[1];
pseudo_bit_t PciePoisonedTLPMask[1];
pseudo_bit_t PcieCplTimeoutMask[1];
pseudo_bit_t PCIeBusParityErrMask[3];
pseudo_bit_t pcie_phy_txParityErr[1];
pseudo_bit_t _unused_2[13];
pseudo_bit_t MemoryErrMask[1];
pseudo_bit_t _unused_3[4];
pseudo_bit_t TempsenseTholdReachedMask[1];
pseudo_bit_t PowerOnBISTFailedMask[1];
pseudo_bit_t PCIESerdesPClkNotDetectMask[1];
pseudo_bit_t _unused_4[6];
pseudo_bit_t IBSerdesPClkNotDetectMask_0[1];
pseudo_bit_t IBSerdesPClkNotDetectMask_1[1];
};
struct QIB_7322_HwErrMask {
PSEUDO_BIT_STRUCT ( struct QIB_7322_HwErrMask_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_HwErrStatus_offset 0x000000a0UL
struct QIB_7322_HwErrStatus_pb {
pseudo_bit_t _unused_0[11];
pseudo_bit_t LATriggered[1];
pseudo_bit_t statusValidNoEop_0[1];
pseudo_bit_t IBCBusFromSPCParityErr_0[1];
pseudo_bit_t statusValidNoEop_1[1];
pseudo_bit_t IBCBusFromSPCParityErr_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SDmaMemReadErr_0[1];
pseudo_bit_t SDmaMemReadErr_1[1];
pseudo_bit_t PciePoisonedTLP[1];
pseudo_bit_t PcieCplTimeout[1];
pseudo_bit_t PCIeBusParity[3];
pseudo_bit_t pcie_phy_txParityErr[1];
pseudo_bit_t _unused_2[13];
pseudo_bit_t MemoryErr[1];
pseudo_bit_t _unused_3[4];
pseudo_bit_t TempsenseTholdReached[1];
pseudo_bit_t PowerOnBISTFailed[1];
pseudo_bit_t PCIESerdesPClkNotDetect[1];
pseudo_bit_t _unused_4[6];
pseudo_bit_t IBSerdesPClkNotDetect_0[1];
pseudo_bit_t IBSerdesPClkNotDetect_1[1];
};
struct QIB_7322_HwErrStatus {
PSEUDO_BIT_STRUCT ( struct QIB_7322_HwErrStatus_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_HwErrClear_offset 0x000000a8UL
struct QIB_7322_HwErrClear_pb {
pseudo_bit_t _unused_0[11];
pseudo_bit_t LATriggeredClear[1];
pseudo_bit_t IBCBusToSPCparityErrClear_0[1];
pseudo_bit_t IBCBusFromSPCParityErrClear_0[1];
pseudo_bit_t IBCBusToSPCparityErrClear_1[1];
pseudo_bit_t IBCBusFromSPCParityErrClear_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SDmaMemReadErrClear_0[1];
pseudo_bit_t SDmaMemReadErrClear_1[1];
pseudo_bit_t PciePoisonedTLPClear[1];
pseudo_bit_t PcieCplTimeoutClear[1];
pseudo_bit_t PCIeBusParityClear[3];
pseudo_bit_t pcie_phy_txParityErr[1];
pseudo_bit_t _unused_2[13];
pseudo_bit_t MemoryErrClear[1];
pseudo_bit_t _unused_3[4];
pseudo_bit_t TempsenseTholdReachedClear[1];
pseudo_bit_t PowerOnBISTFailedClear[1];
pseudo_bit_t PCIESerdesPClkNotDetectClear[1];
pseudo_bit_t _unused_4[6];
pseudo_bit_t IBSerdesPClkNotDetectClear_0[1];
pseudo_bit_t IBSerdesPClkNotDetectClear_1[1];
};
struct QIB_7322_HwErrClear {
PSEUDO_BIT_STRUCT ( struct QIB_7322_HwErrClear_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_HwDiagCtrl_offset 0x000000b0UL
struct QIB_7322_HwDiagCtrl_pb {
pseudo_bit_t _unused_0[12];
pseudo_bit_t ForcestatusValidNoEop_0[1];
pseudo_bit_t ForceIBCBusFromSPCParityErr_0[1];
pseudo_bit_t ForcestatusValidNoEop_1[1];
pseudo_bit_t ForceIBCBusFromSPCParityErr_1[1];
pseudo_bit_t _unused_1[15];
pseudo_bit_t forcePCIeBusParity[4];
pseudo_bit_t _unused_2[25];
pseudo_bit_t CounterDisable[1];
pseudo_bit_t CounterWrEnable[1];
pseudo_bit_t _unused_3[1];
pseudo_bit_t Diagnostic[1];
};
struct QIB_7322_HwDiagCtrl {
PSEUDO_BIT_STRUCT ( struct QIB_7322_HwDiagCtrl_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_EXTStatus_offset 0x000000c0UL
struct QIB_7322_EXTStatus_pb {
pseudo_bit_t _unused_0[14];
pseudo_bit_t MemBISTEndTest[1];
pseudo_bit_t MemBISTDisabled[1];
pseudo_bit_t _unused_1[32];
pseudo_bit_t GPIOIn[16];
};
struct QIB_7322_EXTStatus {
PSEUDO_BIT_STRUCT ( struct QIB_7322_EXTStatus_pb );
};
/* Default value: 0x000000000000X000 */
#define QIB_7322_EXTCtrl_offset 0x000000c8UL
struct QIB_7322_EXTCtrl_pb {
pseudo_bit_t LEDPort0YellowOn[1];
pseudo_bit_t LEDPort0GreenOn[1];
pseudo_bit_t LEDPort1YellowOn[1];
pseudo_bit_t LEDPort1GreenOn[1];
pseudo_bit_t _unused_0[28];
pseudo_bit_t GPIOInvert[16];
pseudo_bit_t GPIOOe[16];
};
struct QIB_7322_EXTCtrl {
PSEUDO_BIT_STRUCT ( struct QIB_7322_EXTCtrl_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_GPIODebugSelReg_offset 0x000000d8UL
struct QIB_7322_GPIODebugSelReg_pb {
pseudo_bit_t GPIOSourceSelDebug[16];
pseudo_bit_t SelPulse[16];
pseudo_bit_t _unused_0[32];
};
struct QIB_7322_GPIODebugSelReg {
PSEUDO_BIT_STRUCT ( struct QIB_7322_GPIODebugSelReg_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_GPIOOut_offset 0x000000e0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_GPIOMask_offset 0x000000e8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_GPIOStatus_offset 0x000000f0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_GPIOClear_offset 0x000000f8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvCtrl_offset 0x00000100UL
struct QIB_7322_RcvCtrl_pb {
pseudo_bit_t dontDropRHQFull[18];
pseudo_bit_t _unused_0[2];
pseudo_bit_t IntrAvail[18];
pseudo_bit_t _unused_1[3];
pseudo_bit_t ContextCfg[2];
pseudo_bit_t TidFlowEnable[1];
pseudo_bit_t XrcTypeCode[3];
pseudo_bit_t TailUpd[1];
pseudo_bit_t TidReDirect[16];
};
struct QIB_7322_RcvCtrl {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvCtrl_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrSize_offset 0x00000110UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrCnt_offset 0x00000118UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrEntSize_offset 0x00000120UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDBase_offset 0x00000128UL
/* Default value: 0x0000000000050000 */
#define QIB_7322_RcvTIDCnt_offset 0x00000130UL
/* Default value: 0x0000000000000200 */
#define QIB_7322_RcvEgrBase_offset 0x00000138UL
/* Default value: 0x0000000000014000 */
#define QIB_7322_RcvEgrCnt_offset 0x00000140UL
/* Default value: 0x0000000000001000 */
#define QIB_7322_RcvBufBase_offset 0x00000148UL
/* Default value: 0x0000000000080000 */
#define QIB_7322_RcvBufSize_offset 0x00000150UL
/* Default value: 0x0000000000005000 */
#define QIB_7322_RxIntMemBase_offset 0x00000158UL
/* Default value: 0x0000000000077000 */
#define QIB_7322_RxIntMemSize_offset 0x00000160UL
/* Default value: 0x0000000000007000 */
#define QIB_7322_encryption_key_low_offset 0x00000180UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_encryption_key_high_offset 0x00000188UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_feature_mask_offset 0x00000190UL
/* Default value: 0x00000000000000XX */
#define QIB_7322_active_feature_mask_offset 0x00000198UL
struct QIB_7322_active_feature_mask_pb {
pseudo_bit_t Port0_SDR_Enabled[1];
pseudo_bit_t Port0_DDR_Enabled[1];
pseudo_bit_t Port0_QDR_Enabled[1];
pseudo_bit_t Port1_SDR_Enabled[1];
pseudo_bit_t Port1_DDR_Enabled[1];
pseudo_bit_t Port1_QDR_Enabled[1];
pseudo_bit_t _unused_0[58];
};
struct QIB_7322_active_feature_mask {
PSEUDO_BIT_STRUCT ( struct QIB_7322_active_feature_mask_pb );
};
/* Default value: 0x00000000000000XX */
#define QIB_7322_SendCtrl_offset 0x000001c0UL
struct QIB_7322_SendCtrl_pb {
pseudo_bit_t _unused_0[1];
pseudo_bit_t SendIntBufAvail[1];
pseudo_bit_t SendBufAvailUpd[1];
pseudo_bit_t _unused_1[1];
pseudo_bit_t SpecialTriggerEn[1];
pseudo_bit_t _unused_2[11];
pseudo_bit_t DisarmSendBuf[8];
pseudo_bit_t AvailUpdThld[5];
pseudo_bit_t SendBufAvailPad64Byte[1];
pseudo_bit_t _unused_3[1];
pseudo_bit_t Disarm[1];
pseudo_bit_t _unused_4[32];
};
struct QIB_7322_SendCtrl {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendCtrl_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufBase_offset 0x000001c8UL
struct QIB_7322_SendBufBase_pb {
pseudo_bit_t BaseAddr_SmallPIO[21];
pseudo_bit_t _unused_0[11];
pseudo_bit_t BaseAddr_LargePIO[21];
pseudo_bit_t _unused_1[11];
};
struct QIB_7322_SendBufBase {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendBufBase_pb );
};
/* Default value: 0x0018000000100000 */
#define QIB_7322_SendBufSize_offset 0x000001d0UL
struct QIB_7322_SendBufSize_pb {
pseudo_bit_t Size_SmallPIO[12];
pseudo_bit_t _unused_0[20];
pseudo_bit_t Size_LargePIO[13];
pseudo_bit_t _unused_1[19];
};
struct QIB_7322_SendBufSize {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendBufSize_pb );
};
/* Default value: 0x0000108000000880 */
#define QIB_7322_SendBufCnt_offset 0x000001d8UL
struct QIB_7322_SendBufCnt_pb {
pseudo_bit_t Num_SmallBuffers[9];
pseudo_bit_t _unused_0[23];
pseudo_bit_t Num_LargeBuffers[6];
pseudo_bit_t _unused_1[26];
};
struct QIB_7322_SendBufCnt {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendBufCnt_pb );
};
/* Default value: 0x0000002000000080 */
#define QIB_7322_SendBufAvailAddr_offset 0x000001e0UL
struct QIB_7322_SendBufAvailAddr_pb {
pseudo_bit_t _unused_0[6];
pseudo_bit_t SendBufAvailAddr[34];
pseudo_bit_t _unused_1[24];
};
struct QIB_7322_SendBufAvailAddr {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendBufAvailAddr_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxIntMemBase_offset 0x000001e8UL
/* Default value: 0x0000000000064000 */
#define QIB_7322_TxIntMemSize_offset 0x000001f0UL
/* Default value: 0x000000000000C000 */
#define QIB_7322_SendBufErr0_offset 0x00000240UL
struct QIB_7322_SendBufErr0_pb {
pseudo_bit_t SendBufErr_63_0[64];
};
struct QIB_7322_SendBufErr0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendBufErr0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_AvailUpdCount_offset 0x00000268UL
struct QIB_7322_AvailUpdCount_pb {
pseudo_bit_t AvailUpdCount[5];
pseudo_bit_t _unused_0[59];
};
struct QIB_7322_AvailUpdCount {
PSEUDO_BIT_STRUCT ( struct QIB_7322_AvailUpdCount_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrAddr0_offset 0x00000280UL
struct QIB_7322_RcvHdrAddr0_pb {
pseudo_bit_t _unused_0[2];
pseudo_bit_t RcvHdrAddr[38];
pseudo_bit_t _unused_1[24];
};
struct QIB_7322_RcvHdrAddr0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrAddr0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTailAddr0_offset 0x00000340UL
struct QIB_7322_RcvHdrTailAddr0_pb {
pseudo_bit_t _unused_0[2];
pseudo_bit_t RcvHdrTailAddr[38];
pseudo_bit_t _unused_1[24];
};
struct QIB_7322_RcvHdrTailAddr0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrTailAddr0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_EEPCtlStat_offset 0x000003e8UL
struct QIB_7322_EEPCtlStat_pb {
pseudo_bit_t EPAccEn[2];
pseudo_bit_t EPReset[1];
pseudo_bit_t ByteProg[1];
pseudo_bit_t PageMode[1];
pseudo_bit_t LstDatWr[1];
pseudo_bit_t CmdWrErr[1];
pseudo_bit_t _unused_0[24];
pseudo_bit_t CtlrStat[1];
pseudo_bit_t _unused_1[32];
};
struct QIB_7322_EEPCtlStat {
PSEUDO_BIT_STRUCT ( struct QIB_7322_EEPCtlStat_pb );
};
/* Default value: 0x0000000000000002 */
#define QIB_7322_EEPAddrCmd_offset 0x000003f0UL
struct QIB_7322_EEPAddrCmd_pb {
pseudo_bit_t EPAddr[24];
pseudo_bit_t EPCmd[8];
pseudo_bit_t _unused_0[32];
};
struct QIB_7322_EEPAddrCmd {
PSEUDO_BIT_STRUCT ( struct QIB_7322_EEPAddrCmd_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_EEPData_offset 0x000003f8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_efuse_control_reg_offset 0x00000410UL
struct QIB_7322_efuse_control_reg_pb {
pseudo_bit_t address[11];
pseudo_bit_t last_program_address[11];
pseudo_bit_t operation[2];
pseudo_bit_t start_operation[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t req_err[1];
pseudo_bit_t read_data_valid[1];
pseudo_bit_t rdy[1];
pseudo_bit_t _unused_1[32];
};
struct QIB_7322_efuse_control_reg {
PSEUDO_BIT_STRUCT ( struct QIB_7322_efuse_control_reg_pb );
};
/* Default value: 0x0000000080000000 */
#define QIB_7322_efuse_data_reg_offset 0x00000418UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_voltage_margin_reg_offset 0x00000428UL
struct QIB_7322_voltage_margin_reg_pb {
pseudo_bit_t voltage_margin_settings_enable[1];
pseudo_bit_t voltage_margin_settings[2];
pseudo_bit_t _unused_0[61];
};
struct QIB_7322_voltage_margin_reg {
PSEUDO_BIT_STRUCT ( struct QIB_7322_voltage_margin_reg_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_VTSense_reg_offset 0x00000430UL
struct QIB_7322_VTSense_reg_pb {
pseudo_bit_t temp_sense_select[3];
pseudo_bit_t adc_mode[1];
pseudo_bit_t start_busy[1];
pseudo_bit_t power_down[1];
pseudo_bit_t threshold[10];
pseudo_bit_t sensor_output_data[10];
pseudo_bit_t _unused_0[1];
pseudo_bit_t threshold_limbit[1];
pseudo_bit_t _unused_1[3];
pseudo_bit_t output_valid[1];
pseudo_bit_t _unused_2[32];
};
struct QIB_7322_VTSense_reg {
PSEUDO_BIT_STRUCT ( struct QIB_7322_VTSense_reg_pb );
};
/* Default value: 0x0000000000000020 */
#define QIB_7322_procmon_reg_offset 0x00000438UL
struct QIB_7322_procmon_reg_pb {
pseudo_bit_t ring_osc_select[3];
pseudo_bit_t _unused_0[12];
pseudo_bit_t start_counter[1];
pseudo_bit_t procmon_count[12];
pseudo_bit_t _unused_1[3];
pseudo_bit_t procmon_count_valid[1];
pseudo_bit_t _unused_2[32];
};
struct QIB_7322_procmon_reg {
PSEUDO_BIT_STRUCT ( struct QIB_7322_procmon_reg_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieRbufTestReg0_offset 0x00000440UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_ahb_access_ctrl_offset 0x00000460UL
struct QIB_7322_ahb_access_ctrl_pb {
pseudo_bit_t sw_ahb_sel[1];
pseudo_bit_t sw_sel_ahb_trgt[2];
pseudo_bit_t _unused_0[61];
};
struct QIB_7322_ahb_access_ctrl {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ahb_access_ctrl_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ahb_transaction_reg_offset 0x00000468UL
struct QIB_7322_ahb_transaction_reg_pb {
pseudo_bit_t _unused_0[16];
pseudo_bit_t ahb_address[11];
pseudo_bit_t write_not_read[1];
pseudo_bit_t _unused_1[2];
pseudo_bit_t ahb_req_err[1];
pseudo_bit_t ahb_rdy[1];
pseudo_bit_t ahb_data[32];
};
struct QIB_7322_ahb_transaction_reg {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ahb_transaction_reg_pb );
};
/* Default value: 0x0000000080000000 */
#define QIB_7322_SPC_JTAG_ACCESS_REG_offset 0x00000470UL
struct QIB_7322_SPC_JTAG_ACCESS_REG_pb {
pseudo_bit_t rdy[1];
pseudo_bit_t tdo[1];
pseudo_bit_t tdi[1];
pseudo_bit_t opcode[2];
pseudo_bit_t bist_en[5];
pseudo_bit_t SPC_JTAG_ACCESS_EN[1];
pseudo_bit_t _unused_0[53];
};
struct QIB_7322_SPC_JTAG_ACCESS_REG {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SPC_JTAG_ACCESS_REG_pb );
};
/* Default value: 0x0000000000000001 */
#define QIB_7322_LAControlReg_offset 0x00000478UL
struct QIB_7322_LAControlReg_pb {
pseudo_bit_t Finished[1];
pseudo_bit_t Address[9];
pseudo_bit_t Mode[2];
pseudo_bit_t Delay[20];
pseudo_bit_t Finished_sc[1];
pseudo_bit_t Address_sc[9];
pseudo_bit_t Mode_sc[2];
pseudo_bit_t Delay_sc[20];
};
struct QIB_7322_LAControlReg {
PSEUDO_BIT_STRUCT ( struct QIB_7322_LAControlReg_pb );
};
/* Default value: 0x0000000100000001 */
#define QIB_7322_PcieRhdrTestReg0_offset 0x00000480UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendCheckMask0_offset 0x000004c0UL
struct QIB_7322_SendCheckMask0_pb {
pseudo_bit_t SendCheckMask_63_32[64];
};
struct QIB_7322_SendCheckMask0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendCheckMask0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendGRHCheckMask0_offset 0x000004e0UL
struct QIB_7322_SendGRHCheckMask0_pb {
pseudo_bit_t SendGRHCheckMask_63_32[64];
};
struct QIB_7322_SendGRHCheckMask0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendGRHCheckMask0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendIBPacketMask0_offset 0x00000500UL
struct QIB_7322_SendIBPacketMask0_pb {
pseudo_bit_t SendIBPacketMask_63_32[64];
};
struct QIB_7322_SendIBPacketMask0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendIBPacketMask0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IntRedirect0_offset 0x00000540UL
struct QIB_7322_IntRedirect0_pb {
pseudo_bit_t vec0[5];
pseudo_bit_t vec1[5];
pseudo_bit_t vec2[5];
pseudo_bit_t vec3[5];
pseudo_bit_t vec4[5];
pseudo_bit_t vec5[5];
pseudo_bit_t vec6[5];
pseudo_bit_t vec7[5];
pseudo_bit_t vec8[5];
pseudo_bit_t vec9[5];
pseudo_bit_t vec10[5];
pseudo_bit_t vec11[5];
pseudo_bit_t _unused_0[4];
};
struct QIB_7322_IntRedirect0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IntRedirect0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_Int_Granted_offset 0x00000570UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_vec_clr_without_int_offset 0x00000578UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_DCACtrlA_offset 0x00000580UL
struct QIB_7322_DCACtrlA_pb {
pseudo_bit_t RcvHdrqDCAEnable[1];
pseudo_bit_t EagerDCAEnable[1];
pseudo_bit_t RcvTailUpdDCAEnable[1];
pseudo_bit_t SendDMAHead0DCAEnable[1];
pseudo_bit_t SendDMAHead1DCAEnable[1];
pseudo_bit_t _unused_0[59];
};
struct QIB_7322_DCACtrlA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_DCACtrlA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_DCACtrlB_offset 0x00000588UL
struct QIB_7322_DCACtrlB_pb {
pseudo_bit_t RcvHdrq0DCAOPH[8];
pseudo_bit_t RcvHdrq0DCAXfrCnt[6];
pseudo_bit_t RcvHdrq1DCAOPH[8];
pseudo_bit_t RcvHdrq1DCAXfrCnt[6];
pseudo_bit_t _unused_0[4];
pseudo_bit_t RcvHdrq2DCAOPH[8];
pseudo_bit_t RcvHdrq2DCAXfrCnt[6];
pseudo_bit_t RcvHdrq3DCAOPH[8];
pseudo_bit_t RcvHdrq3DCAXfrCnt[6];
pseudo_bit_t _unused_1[4];
};
struct QIB_7322_DCACtrlB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_DCACtrlB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_DCACtrlC_offset 0x00000590UL
struct QIB_7322_DCACtrlC_pb {
pseudo_bit_t RcvHdrq4DCAOPH[8];
pseudo_bit_t RcvHdrq4DCAXfrCnt[6];
pseudo_bit_t RcvHdrq5DCAOPH[8];
pseudo_bit_t RcvHdrq5DCAXfrCnt[6];
pseudo_bit_t _unused_0[4];
pseudo_bit_t RcvHdrq6DCAOPH[8];
pseudo_bit_t RcvHdrq6DCAXfrCnt[6];
pseudo_bit_t RcvHdrq7DCAOPH[8];
pseudo_bit_t RcvHdrq7DCAXfrCnt[6];
pseudo_bit_t _unused_1[4];
};
struct QIB_7322_DCACtrlC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_DCACtrlC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_DCACtrlD_offset 0x00000598UL
struct QIB_7322_DCACtrlD_pb {
pseudo_bit_t RcvHdrq8DCAOPH[8];
pseudo_bit_t RcvHdrq8DCAXfrCnt[6];
pseudo_bit_t RcvHdrq9DCAOPH[8];
pseudo_bit_t RcvHdrq9DCAXfrCnt[6];
pseudo_bit_t _unused_0[4];
pseudo_bit_t RcvHdrq10DCAOPH[8];
pseudo_bit_t RcvHdrq10DCAXfrCnt[6];
pseudo_bit_t RcvHdrq11DCAOPH[8];
pseudo_bit_t RcvHdrq11DCAXfrCnt[6];
pseudo_bit_t _unused_1[4];
};
struct QIB_7322_DCACtrlD {
PSEUDO_BIT_STRUCT ( struct QIB_7322_DCACtrlD_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_DCACtrlE_offset 0x000005a0UL
struct QIB_7322_DCACtrlE_pb {
pseudo_bit_t RcvHdrq12DCAOPH[8];
pseudo_bit_t RcvHdrq12DCAXfrCnt[6];
pseudo_bit_t RcvHdrq13DCAOPH[8];
pseudo_bit_t RcvHdrq13DCAXfrCnt[6];
pseudo_bit_t _unused_0[4];
pseudo_bit_t RcvHdrq14DCAOPH[8];
pseudo_bit_t RcvHdrq14DCAXfrCnt[6];
pseudo_bit_t RcvHdrq15DCAOPH[8];
pseudo_bit_t RcvHdrq15DCAXfrCnt[6];
pseudo_bit_t _unused_1[4];
};
struct QIB_7322_DCACtrlE {
PSEUDO_BIT_STRUCT ( struct QIB_7322_DCACtrlE_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_DCACtrlF_offset 0x000005a8UL
struct QIB_7322_DCACtrlF_pb {
pseudo_bit_t RcvHdrq16DCAOPH[8];
pseudo_bit_t RcvHdrq16DCAXfrCnt[6];
pseudo_bit_t RcvHdrq17DCAOPH[8];
pseudo_bit_t RcvHdrq17DCAXfrCnt[6];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SendDma0DCAOPH[8];
pseudo_bit_t SendDma1DCAOPH[8];
pseudo_bit_t _unused_1[16];
};
struct QIB_7322_DCACtrlF {
PSEUDO_BIT_STRUCT ( struct QIB_7322_DCACtrlF_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemErrCtrlA_offset 0x00000600UL
struct QIB_7322_MemErrCtrlA_pb {
pseudo_bit_t FSSUncErrRcvBuf_0[1];
pseudo_bit_t FSSUncErrRcvFlags_0[1];
pseudo_bit_t FSSUncErrLookupiqBuf_0[1];
pseudo_bit_t FSSUncErrRcvDMAHdrBuf_0[1];
pseudo_bit_t FSSUncErrRcvDMADataBuf_0[1];
pseudo_bit_t FSSUncErrRcvBuf_1[1];
pseudo_bit_t FSSUncErrRcvFlags_1[1];
pseudo_bit_t FSSUncErrLookupiqBuf_1[1];
pseudo_bit_t FSSUncErrRcvDMAHdrBuf_1[1];
pseudo_bit_t FSSUncErrRcvDMADataBuf_1[1];
pseudo_bit_t FSSUncErrRcvTIDArray[1];
pseudo_bit_t FSSUncErrRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t FSSUncErrSendBufVL15[1];
pseudo_bit_t FSSUncErrSendBufMain[1];
pseudo_bit_t FSSUncErrSendBufExtra[1];
pseudo_bit_t FSSUncErrSendPbcArray[1];
pseudo_bit_t FSSUncErrSendLaFIFO0_0[1];
pseudo_bit_t FSSUncErrSendLaFIFO1_0[1];
pseudo_bit_t FSSUncErrSendLaFIFO2_0[1];
pseudo_bit_t FSSUncErrSendLaFIFO3_0[1];
pseudo_bit_t FSSUncErrSendLaFIFO4_0[1];
pseudo_bit_t FSSUncErrSendLaFIFO5_0[1];
pseudo_bit_t FSSUncErrSendLaFIFO6_0[1];
pseudo_bit_t FSSUncErrSendLaFIFO7_0[1];
pseudo_bit_t FSSUncErrSendLaFIFO0_1[1];
pseudo_bit_t FSSUncErrSendLaFIFO1_1[1];
pseudo_bit_t FSSUncErrSendLaFIFO2_1[1];
pseudo_bit_t FSSUncErrSendLaFIFO3_1[1];
pseudo_bit_t FSSUncErrSendLaFIFO4_1[1];
pseudo_bit_t FSSUncErrSendLaFIFO5_1[1];
pseudo_bit_t FSSUncErrSendLaFIFO6_1[1];
pseudo_bit_t FSSUncErrSendLaFIFO7_1[1];
pseudo_bit_t FSSUncErrSendRmFIFO_0[1];
pseudo_bit_t FSSUncErrSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t FSSUncErrPCIeRetryBuf[1];
pseudo_bit_t FSSUncErrPCIePostHdrBuf[1];
pseudo_bit_t FSSUncErrPCIePostDataBuf[1];
pseudo_bit_t FSSUncErrPCIeCompHdrBuf[1];
pseudo_bit_t FSSUncErrPCIeCompDataBuf[1];
pseudo_bit_t FSSUncErrMsixTable0[1];
pseudo_bit_t FSSUncErrMsixTable1[1];
pseudo_bit_t FSSUncErrMsixTable2[1];
pseudo_bit_t _unused_2[4];
pseudo_bit_t SwapEccDataMsixBits[1];
pseudo_bit_t SwapEccDataExtraBits[1];
pseudo_bit_t DisableEccCorrection[1];
pseudo_bit_t SwapEccDataBits[1];
};
struct QIB_7322_MemErrCtrlA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemErrCtrlA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemErrCtrlB_offset 0x00000608UL
struct QIB_7322_MemErrCtrlB_pb {
pseudo_bit_t FSSCorErrRcvBuf_0[1];
pseudo_bit_t FSSCorErrRcvFlags_0[1];
pseudo_bit_t FSSCorErrLookupiqBuf_0[1];
pseudo_bit_t FSSCorErrRcvDMAHdrBuf_0[1];
pseudo_bit_t FSSCorErrRcvDMADataBuf_0[1];
pseudo_bit_t FSSCorErrRcvBuf_1[1];
pseudo_bit_t FSSCorErrRcvFlags_1[1];
pseudo_bit_t FSSCorErrLookupiqBuf_1[1];
pseudo_bit_t FSSCorErrRcvDMAHdrBuf_1[1];
pseudo_bit_t FSSCorErrRcvDMADataBuf_1[1];
pseudo_bit_t FSSCorErrRcvTIDArray[1];
pseudo_bit_t FSSCorErrRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t FSSCorErrSendBufVL15[1];
pseudo_bit_t FSSCorErrSendBufMain[1];
pseudo_bit_t FSSCorErrSendBufExtra[1];
pseudo_bit_t FSSCorErrSendPbcArray[1];
pseudo_bit_t FSSCorErrSendLaFIFO0_0[1];
pseudo_bit_t FSSCorErrSendLaFIFO1_0[1];
pseudo_bit_t FSSCorErrSendLaFIFO2_0[1];
pseudo_bit_t FSSCorErrSendLaFIFO3_0[1];
pseudo_bit_t FSSCorErrSendLaFIFO4_0[1];
pseudo_bit_t FSSCorErrSendLaFIFO5_0[1];
pseudo_bit_t FSSCorErrSendLaFIFO6_0[1];
pseudo_bit_t FSSCorErrSendLaFIFO7_0[1];
pseudo_bit_t FSSCorErrSendLaFIFO0_1[1];
pseudo_bit_t FSSCorErrSendLaFIFO1_1[1];
pseudo_bit_t FSSCorErrSendLaFIFO2_1[1];
pseudo_bit_t FSSCorErrSendLaFIFO3_1[1];
pseudo_bit_t FSSCorErrSendLaFIFO4_1[1];
pseudo_bit_t FSSCorErrSendLaFIFO5_1[1];
pseudo_bit_t FSSCorErrSendLaFIFO6_1[1];
pseudo_bit_t FSSCorErrSendLaFIFO7_1[1];
pseudo_bit_t FSSCorErrSendRmFIFO_0[1];
pseudo_bit_t FSSCorErrSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t FSSCorErrPCIeRetryBuf[1];
pseudo_bit_t FSSCorErrPCIePostHdrBuf[1];
pseudo_bit_t FSSCorErrPCIePostDataBuf[1];
pseudo_bit_t FSSCorErrPCIeCompHdrBuf[1];
pseudo_bit_t FSSCorErrPCIeCompDataBuf[1];
pseudo_bit_t FSSCorErrMsixTable0[1];
pseudo_bit_t FSSCorErrMsixTable1[1];
pseudo_bit_t FSSCorErrMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemErrCtrlB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemErrCtrlB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemMultiUnCorErrMask_offset 0x00000610UL
struct QIB_7322_MemMultiUnCorErrMask_pb {
pseudo_bit_t MulUncErrMskRcvBuf_0[1];
pseudo_bit_t MulUncErrMskRcvFlags_0[1];
pseudo_bit_t MulUncErrMskLookupiqBuf_0[1];
pseudo_bit_t MulUncErrMskRcvDMAHdrBuf_0[1];
pseudo_bit_t MulUncErrMskRcvDMADataBuf_0[1];
pseudo_bit_t MulUncErrMskRcvBuf_1[1];
pseudo_bit_t MulUncErrMskRcvFlags_1[1];
pseudo_bit_t MulUncErrMskLookupiqBuf_1[1];
pseudo_bit_t MulUncErrMskRcvDMAHdrBuf_1[1];
pseudo_bit_t MulUncErrMskRcvDMADataBuf_1[1];
pseudo_bit_t MulUncErrMskRcvTIDArray[1];
pseudo_bit_t MulUncErrMskRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t MulUncErrMskSendBufVL15[1];
pseudo_bit_t MulUncErrMskSendBufMain[1];
pseudo_bit_t MulUncErrMskSendBufExtra[1];
pseudo_bit_t MulUncErrMskSendPbcArray[1];
pseudo_bit_t MulUncErrMskSendLaFIFO0_0[1];
pseudo_bit_t MulUncErrMskSendLaFIFO1_0[1];
pseudo_bit_t MulUncErrMskSendLaFIFO2_0[1];
pseudo_bit_t MulUncErrMskSendLaFIFO3_0[1];
pseudo_bit_t MulUncErrMskSendLaFIFO4_0[1];
pseudo_bit_t MulUncErrMskSendLaFIFO5_0[1];
pseudo_bit_t MulUncErrMskSendLaFIFO6_0[1];
pseudo_bit_t MulUncErrMskSendLaFIFO7_0[1];
pseudo_bit_t MulUncErrMskSendLaFIFO0_1[1];
pseudo_bit_t MulUncErrMskSendLaFIFO1_1[1];
pseudo_bit_t MulUncErrMskSendLaFIFO2_1[1];
pseudo_bit_t MulUncErrMskSendLaFIFO3_1[1];
pseudo_bit_t MulUncErrMskSendLaFIFO4_1[1];
pseudo_bit_t MulUncErrMskSendLaFIFO5_1[1];
pseudo_bit_t MulUncErrMskSendLaFIFO6_1[1];
pseudo_bit_t MulUncErrMskSendLaFIFO7_1[1];
pseudo_bit_t MulUncErrMskSendRmFIFO_0[1];
pseudo_bit_t MulUncErrMskSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t MulUncErrMskPCIeRetryBuf[1];
pseudo_bit_t MulUncErrMskPCIePostHdrBuf[1];
pseudo_bit_t MulUncErrMskPCIePostDataBuf[1];
pseudo_bit_t MulUncErrMskPCIeCompHdrBuf[1];
pseudo_bit_t MulUncErrMskPCIeCompDataBuf[1];
pseudo_bit_t MulUncErrMskMsixTable0[1];
pseudo_bit_t MulUncErrMskMsixTable1[1];
pseudo_bit_t MulUncErrMskMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemMultiUnCorErrMask {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemMultiUnCorErrMask_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemMultiUnCorErrStatus_offset 0x00000618UL
struct QIB_7322_MemMultiUnCorErrStatus_pb {
pseudo_bit_t MulUncErrStatusRcvBuf_0[1];
pseudo_bit_t MulUncErrStatusRcvFlags_0[1];
pseudo_bit_t MulUncErrStatusLookupiqBuf_0[1];
pseudo_bit_t MulUncErrStatusRcvDMAHdrBuf_0[1];
pseudo_bit_t MulUncErrStatusRcvDMADataBuf_0[1];
pseudo_bit_t MulUncErrStatusRcvBuf_1[1];
pseudo_bit_t MulUncErrStatusRcvFlags_1[1];
pseudo_bit_t MulUncErrStatusLookupiqBuf_1[1];
pseudo_bit_t MulUncErrStatusRcvDMAHdrBuf_1[1];
pseudo_bit_t MulUncErrStatusRcvDMADataBuf_1[1];
pseudo_bit_t MulUncErrStatusRcvTIDArray[1];
pseudo_bit_t MulUncErrStatusRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t MulUncErrStatusSendBufVL15[1];
pseudo_bit_t MulUncErrStatusSendBufMain[1];
pseudo_bit_t MulUncErrStatusSendBufExtra[1];
pseudo_bit_t MulUncErrStatusSendPbcArray[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO0_0[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO1_0[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO2_0[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO3_0[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO4_0[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO5_0[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO6_0[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO7_0[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO0_1[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO1_1[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO2_1[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO3_1[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO4_1[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO5_1[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO6_1[1];
pseudo_bit_t MulUncErrStatusSendLaFIFO7_1[1];
pseudo_bit_t MulUncErrStatusSendRmFIFO_0[1];
pseudo_bit_t MulUncErrStatusSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t MulUncErrStatusPCIeRetryBuf[1];
pseudo_bit_t MulUncErrStatusPCIePostHdrBuf[1];
pseudo_bit_t MulUncErrStatusPCIePostDataBuf[1];
pseudo_bit_t MulUncErrStatusPCIeCompHdrBuf[1];
pseudo_bit_t MulUncErrStatusPCIeCompDataBuf[1];
pseudo_bit_t MulUncErrStatusMsixTable0[1];
pseudo_bit_t MulUncErrStatusMsixTable1[1];
pseudo_bit_t MulUncErrStatusMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemMultiUnCorErrStatus {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemMultiUnCorErrStatus_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemMultiUnCorErrClear_offset 0x00000620UL
struct QIB_7322_MemMultiUnCorErrClear_pb {
pseudo_bit_t MulUncErrClearRcvBuf_0[1];
pseudo_bit_t MulUncErrClearRcvFlags_0[1];
pseudo_bit_t MulUncErrClearLookupiqBuf_0[1];
pseudo_bit_t MulUncErrClearRcvDMAHdrBuf_0[1];
pseudo_bit_t MulUncErrClearRcvDMADataBuf_0[1];
pseudo_bit_t MulUncErrClearRcvBuf_1[1];
pseudo_bit_t MulUncErrClearRcvFlags_1[1];
pseudo_bit_t MulUncErrClearLookupiqBuf_1[1];
pseudo_bit_t MulUncErrClearRcvDMAHdrBuf_1[1];
pseudo_bit_t MulUncErrClearRcvDMADataBuf_1[1];
pseudo_bit_t MulUncErrClearRcvTIDArray[1];
pseudo_bit_t MulUncErrClearRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t MulUncErrClearSendBufVL15[1];
pseudo_bit_t MulUncErrClearSendBufMain[1];
pseudo_bit_t MulUncErrClearSendBufExtra[1];
pseudo_bit_t MulUncErrClearSendPbcArray[1];
pseudo_bit_t MulUncErrClearSendLaFIFO0_0[1];
pseudo_bit_t MulUncErrClearSendLaFIFO1_0[1];
pseudo_bit_t MulUncErrClearSendLaFIFO2_0[1];
pseudo_bit_t MulUncErrClearSendLaFIFO3_0[1];
pseudo_bit_t MulUncErrClearSendLaFIFO4_0[1];
pseudo_bit_t MulUncErrClearSendLaFIFO5_0[1];
pseudo_bit_t MulUncErrClearSendLaFIFO6_0[1];
pseudo_bit_t MulUncErrClearSendLaFIFO7_0[1];
pseudo_bit_t MulUncErrClearSendLaFIFO0_1[1];
pseudo_bit_t MulUncErrClearSendLaFIFO1_1[1];
pseudo_bit_t MulUncErrClearSendLaFIFO2_1[1];
pseudo_bit_t MulUncErrClearSendLaFIFO3_1[1];
pseudo_bit_t MulUncErrClearSendLaFIFO4_1[1];
pseudo_bit_t MulUncErrClearSendLaFIFO5_1[1];
pseudo_bit_t MulUncErrClearSendLaFIFO6_1[1];
pseudo_bit_t MulUncErrClearSendLaFIFO7_1[1];
pseudo_bit_t MulUncErrClearSendRmFIFO_0[1];
pseudo_bit_t MulUncErrClearSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t MulUncErrClearPCIeRetryBuf[1];
pseudo_bit_t MulUncErrClearPCIePostHdrBuf[1];
pseudo_bit_t MulUncErrClearPCIePostDataBuf[1];
pseudo_bit_t MulUncErrClearPCIeCompHdrBuf[1];
pseudo_bit_t MulUncErrClearPCIeCompDataBuf[1];
pseudo_bit_t MulUncErrClearMsixTable0[1];
pseudo_bit_t MulUncErrClearMsixTable1[1];
pseudo_bit_t MulUncErrClearMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemMultiUnCorErrClear {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemMultiUnCorErrClear_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemUnCorErrMask_offset 0x00000628UL
struct QIB_7322_MemUnCorErrMask_pb {
pseudo_bit_t UncErrMskRcvBuf_0[1];
pseudo_bit_t UncErrMskRcvFlags_0[1];
pseudo_bit_t UncErrMskLookupiqBuf_0[1];
pseudo_bit_t UncErrMskRcvDMAHdrBuf_0[1];
pseudo_bit_t UncErrMskRcvDMADataBuf_0[1];
pseudo_bit_t UncErrMskRcvBuf_1[1];
pseudo_bit_t UncErrMskRcvFlags_1[1];
pseudo_bit_t UncErrMskLookupiqBuf_1[1];
pseudo_bit_t UncErrMskRcvDMAHdrBuf_1[1];
pseudo_bit_t UncErrMskRcvDMADataBuf_1[1];
pseudo_bit_t UncErrMskRcvTIDArray[1];
pseudo_bit_t UncErrMskRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t UncErrMskSendBufVL15[1];
pseudo_bit_t UncErrMskSendBufMain[1];
pseudo_bit_t UncErrMskSendBufExtra[1];
pseudo_bit_t UncErrMskSendPbcArray[1];
pseudo_bit_t UncErrMskSendLaFIFO0_0[1];
pseudo_bit_t UncErrMskSendLaFIFO1_0[1];
pseudo_bit_t UncErrMskSendLaFIFO2_0[1];
pseudo_bit_t UncErrMskSendLaFIFO3_0[1];
pseudo_bit_t UncErrMskSendLaFIFO4_0[1];
pseudo_bit_t UncErrMskSendLaFIFO5_0[1];
pseudo_bit_t UncErrMskSendLaFIFO6_0[1];
pseudo_bit_t UncErrMskSendLaFIFO7_0[1];
pseudo_bit_t UncErrMskSendLaFIFO0_1[1];
pseudo_bit_t UncErrMskSendLaFIFO1_1[1];
pseudo_bit_t UncErrMskSendLaFIFO2_1[1];
pseudo_bit_t UncErrMskSendLaFIFO3_1[1];
pseudo_bit_t UncErrMskSendLaFIFO4_1[1];
pseudo_bit_t UncErrMskSendLaFIFO5_1[1];
pseudo_bit_t UncErrMskSendLaFIFO6_1[1];
pseudo_bit_t UncErrMskSendLaFIFO7_1[1];
pseudo_bit_t UncErrMskSendRmFIFO_0[1];
pseudo_bit_t UncErrMskSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t UncErrMskPCIeRetryBuf[1];
pseudo_bit_t UncErrMskPCIePostHdrBuf[1];
pseudo_bit_t UncErrMskPCIePostDataBuf[1];
pseudo_bit_t UncErrMskPCIeCompHdrBuf[1];
pseudo_bit_t UncErrMskPCIeCompDataBuf[1];
pseudo_bit_t UncErrMskMsixTable0[1];
pseudo_bit_t UncErrMskMsixTable1[1];
pseudo_bit_t UncErrMskMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemUnCorErrMask {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemUnCorErrMask_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemUnCorErrStatus_offset 0x00000630UL
struct QIB_7322_MemUnCorErrStatus_pb {
pseudo_bit_t UncErrStatusRcvBuf_0[1];
pseudo_bit_t UncErrStatusRcvFlags_0[1];
pseudo_bit_t UncErrStatusLookupiqBuf_0[1];
pseudo_bit_t UncErrStatusRcvDMAHdrBuf_0[1];
pseudo_bit_t UncErrStatusRcvDMADataBuf_0[1];
pseudo_bit_t UncErrStatusRcvBuf_1[1];
pseudo_bit_t UncErrStatusRcvFlags_1[1];
pseudo_bit_t UncErrStatusLookupiqBuf_1[1];
pseudo_bit_t UncErrStatusRcvDMAHdrBuf_1[1];
pseudo_bit_t UncErrStatusRcvDMADataBuf_1[1];
pseudo_bit_t UncErrStatusRcvTIDArray[1];
pseudo_bit_t UncErrStatusRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t UncErrStatusSendBufVL15[1];
pseudo_bit_t UncErrStatusSendBufMain[1];
pseudo_bit_t UncErrStatusSendBufExtra[1];
pseudo_bit_t UncErrStatusSendPbcArray[1];
pseudo_bit_t UncErrStatusSendLaFIFO0_0[1];
pseudo_bit_t UncErrStatusSendLaFIFO1_0[1];
pseudo_bit_t UncErrStatusSendLaFIFO2_0[1];
pseudo_bit_t UncErrStatusSendLaFIFO3_0[1];
pseudo_bit_t UncErrStatusSendLaFIFO4_0[1];
pseudo_bit_t UncErrStatusSendLaFIFO5_0[1];
pseudo_bit_t UncErrStatusSendLaFIFO6_0[1];
pseudo_bit_t UncErrStatusSendLaFIFO7_0[1];
pseudo_bit_t UncErrStatusSendLaFIFO0_1[1];
pseudo_bit_t UncErrStatusSendLaFIFO1_1[1];
pseudo_bit_t UncErrStatusSendLaFIFO2_1[1];
pseudo_bit_t UncErrStatusSendLaFIFO3_1[1];
pseudo_bit_t UncErrStatusSendLaFIFO4_1[1];
pseudo_bit_t UncErrStatusSendLaFIFO5_1[1];
pseudo_bit_t UncErrStatusSendLaFIFO6_1[1];
pseudo_bit_t UncErrStatusSendLaFIFO7_1[1];
pseudo_bit_t UncErrStatusSendRmFIFO_0[1];
pseudo_bit_t UncErrStatusSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t UncErrStatusPCIeRetryBuf[1];
pseudo_bit_t UncErrStatusPCIePostHdrBuf[1];
pseudo_bit_t UncErrStatusPCIePostDataBuf[1];
pseudo_bit_t UncErrStatusPCIeCompHdrBuf[1];
pseudo_bit_t UncErrStatusPCIeCompDataBuf[1];
pseudo_bit_t UncErrStatusMsixTable0[1];
pseudo_bit_t UncErrStatusMsixTable1[1];
pseudo_bit_t UncErrStatusMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemUnCorErrStatus {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemUnCorErrStatus_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemUnCorErrClear_offset 0x00000638UL
struct QIB_7322_MemUnCorErrClear_pb {
pseudo_bit_t UncErrClearRcvBuf_0[1];
pseudo_bit_t UncErrClearRcvFlags_0[1];
pseudo_bit_t UncErrClearLookupiqBuf_0[1];
pseudo_bit_t UncErrClearRcvDMAHdrBuf_0[1];
pseudo_bit_t UncErrClearRcvDMADataBuf_0[1];
pseudo_bit_t UncErrClearRcvBuf_1[1];
pseudo_bit_t UncErrClearRcvFlags_1[1];
pseudo_bit_t UncErrClearLookupiqBuf_1[1];
pseudo_bit_t UncErrClearRcvDMAHdrBuf_1[1];
pseudo_bit_t UncErrClearRcvDMADataBuf_1[1];
pseudo_bit_t UncErrClearRcvTIDArray[1];
pseudo_bit_t UncErrClearRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t UncErrClearSendBufVL15[1];
pseudo_bit_t UncErrClearSendBufMain[1];
pseudo_bit_t UncErrClearSendBufExtra[1];
pseudo_bit_t UncErrClearSendPbcArray[1];
pseudo_bit_t UncErrClearSendLaFIFO0_0[1];
pseudo_bit_t UncErrClearSendLaFIFO1_0[1];
pseudo_bit_t UncErrClearSendLaFIFO2_0[1];
pseudo_bit_t UncErrClearSendLaFIFO3_0[1];
pseudo_bit_t UncErrClearSendLaFIFO4_0[1];
pseudo_bit_t UncErrClearSendLaFIFO5_0[1];
pseudo_bit_t UncErrClearSendLaFIFO6_0[1];
pseudo_bit_t UncErrClearSendLaFIFO7_0[1];
pseudo_bit_t UncErrClearSendLaFIFO0_1[1];
pseudo_bit_t UncErrClearSendLaFIFO1_1[1];
pseudo_bit_t UncErrClearSendLaFIFO2_1[1];
pseudo_bit_t UncErrClearSendLaFIFO3_1[1];
pseudo_bit_t UncErrClearSendLaFIFO4_1[1];
pseudo_bit_t UncErrClearSendLaFIFO5_1[1];
pseudo_bit_t UncErrClearSendLaFIFO6_1[1];
pseudo_bit_t UncErrClearSendLaFIFO7_1[1];
pseudo_bit_t UncErrClearSendRmFIFO_0[1];
pseudo_bit_t UncErrClearSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t UncErrClearPCIeRetryBuf[1];
pseudo_bit_t UncErrClearPCIePostHdrBuf[1];
pseudo_bit_t UncErrClearPCIePostDataBuf[1];
pseudo_bit_t UncErrClearPCIeCompHdrBuf[1];
pseudo_bit_t UncErrClearPCIeCompDataBuf[1];
pseudo_bit_t UncErrClearMsixTable0[1];
pseudo_bit_t UncErrClearMsixTable1[1];
pseudo_bit_t UncErrClearMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemUnCorErrClear {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemUnCorErrClear_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemMultiCorErrMask_offset 0x00000640UL
struct QIB_7322_MemMultiCorErrMask_pb {
pseudo_bit_t MulCorErrMskRcvBuf_0[1];
pseudo_bit_t MulCorErrMskRcvFlags_0[1];
pseudo_bit_t MulCorErrMskLookupiqBuf_0[1];
pseudo_bit_t MulCorErrMskRcvDMAHdrBuf_0[1];
pseudo_bit_t MulCorErrMskRcvDMADataBuf_0[1];
pseudo_bit_t MulCorErrMskRcvBuf_1[1];
pseudo_bit_t MulCorErrMskRcvFlags_1[1];
pseudo_bit_t MulCorErrMskLookupiqBuf_1[1];
pseudo_bit_t MulCorErrMskRcvDMAHdrBuf_1[1];
pseudo_bit_t MulCorErrMskRcvDMADataBuf_1[1];
pseudo_bit_t MulCorErrMskRcvTIDArray[1];
pseudo_bit_t MulCorErrMskRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t MulCorErrMskSendBufVL15[1];
pseudo_bit_t MulCorErrMskSendBufMain[1];
pseudo_bit_t MulCorErrMskSendBufExtra[1];
pseudo_bit_t MulCorErrMskSendPbcArray[1];
pseudo_bit_t MulCorErrMskSendLaFIFO0_0[1];
pseudo_bit_t MulCorErrMskSendLaFIFO1_0[1];
pseudo_bit_t MulCorErrMskSendLaFIFO2_0[1];
pseudo_bit_t MulCorErrMskSendLaFIFO3_0[1];
pseudo_bit_t MulCorErrMskSendLaFIFO4_0[1];
pseudo_bit_t MulCorErrMskSendLaFIFO5_0[1];
pseudo_bit_t MulCorErrMskSendLaFIFO6_0[1];
pseudo_bit_t MulCorErrMskSendLaFIFO7_0[1];
pseudo_bit_t MulCorErrMskSendLaFIFO0_1[1];
pseudo_bit_t MulCorErrMskSendLaFIFO1_1[1];
pseudo_bit_t MulCorErrMskSendLaFIFO2_1[1];
pseudo_bit_t MulCorErrMskSendLaFIFO3_1[1];
pseudo_bit_t MulCorErrMskSendLaFIFO4_1[1];
pseudo_bit_t MulCorErrMskSendLaFIFO5_1[1];
pseudo_bit_t MulCorErrMskSendLaFIFO6_1[1];
pseudo_bit_t MulCorErrMskSendLaFIFO7_1[1];
pseudo_bit_t MulCorErrMskSendRmFIFO_0[1];
pseudo_bit_t MulCorErrMskSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t MulCorErrMskPCIeRetryBuf[1];
pseudo_bit_t MulCorErrMskPCIePostHdrBuf[1];
pseudo_bit_t MulCorErrMskPCIePostDataBuf[1];
pseudo_bit_t MulCorErrMskPCIeCompHdrBuf[1];
pseudo_bit_t MulCorErrMskPCIeCompDataBuf[1];
pseudo_bit_t MulCorErrMskMsixTable0[1];
pseudo_bit_t MulCorErrMskMsixTable1[1];
pseudo_bit_t MulCorErrMskMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemMultiCorErrMask {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemMultiCorErrMask_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemMultiCorErrStatus_offset 0x00000648UL
struct QIB_7322_MemMultiCorErrStatus_pb {
pseudo_bit_t MulCorErrStatusRcvBuf_0[1];
pseudo_bit_t MulCorErrStatusRcvFlags_0[1];
pseudo_bit_t MulCorErrStatusLookupiqBuf_0[1];
pseudo_bit_t MulCorErrStatusRcvDMAHdrBuf_0[1];
pseudo_bit_t MulCorErrStatusRcvDMADataBuf_0[1];
pseudo_bit_t MulCorErrStatusRcvBuf_1[1];
pseudo_bit_t MulCorErrStatusRcvFlags_1[1];
pseudo_bit_t MulCorErrStatusLookupiqBuf_1[1];
pseudo_bit_t MulCorErrStatusRcvDMAHdrBuf_1[1];
pseudo_bit_t MulCorErrStatusRcvDMADataBuf_1[1];
pseudo_bit_t MulCorErrStatusRcvTIDArray[1];
pseudo_bit_t MulCorErrStatusRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t MulCorErrStatusSendBufVL15[1];
pseudo_bit_t MulCorErrStatusSendBufMain[1];
pseudo_bit_t MulCorErrStatusSendBufExtra[1];
pseudo_bit_t MulCorErrStatusSendPbcArray[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO0_0[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO1_0[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO2_0[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO3_0[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO4_0[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO5_0[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO6_0[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO7_0[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO0_1[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO1_1[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO2_1[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO3_1[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO4_1[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO5_1[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO6_1[1];
pseudo_bit_t MulCorErrStatusSendLaFIFO7_1[1];
pseudo_bit_t MulCorErrStatusSendRmFIFO_0[1];
pseudo_bit_t MulCorErrStatusSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t MulCorErrStatusPCIeRetryBuf[1];
pseudo_bit_t MulCorErrStatusPCIePostHdrBuf[1];
pseudo_bit_t MulCorErrStatusPCIePostDataBuf[1];
pseudo_bit_t MulCorErrStatusPCIeCompHdrBuf[1];
pseudo_bit_t MulCorErrStatusPCIeCompDataBuf[1];
pseudo_bit_t MulCorErrStatusMsixTable0[1];
pseudo_bit_t MulCorErrStatusMsixTable1[1];
pseudo_bit_t MulCorErrStatusMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemMultiCorErrStatus {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemMultiCorErrStatus_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemMultiCorErrClear_offset 0x00000650UL
struct QIB_7322_MemMultiCorErrClear_pb {
pseudo_bit_t MulCorErrClearRcvBuf_0[1];
pseudo_bit_t MulCorErrClearRcvFlags_0[1];
pseudo_bit_t MulCorErrClearLookupiqBuf_0[1];
pseudo_bit_t MulCorErrClearRcvDMAHdrBuf_0[1];
pseudo_bit_t MulCorErrClearRcvDMADataBuf_0[1];
pseudo_bit_t MulCorErrClearRcvBuf_1[1];
pseudo_bit_t MulCorErrClearRcvFlags_1[1];
pseudo_bit_t MulCorErrClearLookupiqBuf_1[1];
pseudo_bit_t MulCorErrClearRcvDMAHdrBuf_1[1];
pseudo_bit_t MulCorErrClearRcvDMADataBuf_1[1];
pseudo_bit_t MulCorErrClearRcvTIDArray[1];
pseudo_bit_t MulCorErrClearRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t MulCorErrClearSendBufVL15[1];
pseudo_bit_t MulCorErrClearSendBufMain[1];
pseudo_bit_t MulCorErrClearSendBufExtra[1];
pseudo_bit_t MulCorErrClearSendPbcArray[1];
pseudo_bit_t MulCorErrClearSendLaFIFO0_0[1];
pseudo_bit_t MulCorErrClearSendLaFIFO1_0[1];
pseudo_bit_t MulCorErrClearSendLaFIFO2_0[1];
pseudo_bit_t MulCorErrClearSendLaFIFO3_0[1];
pseudo_bit_t MulCorErrClearSendLaFIFO4_0[1];
pseudo_bit_t MulCorErrClearSendLaFIFO5_0[1];
pseudo_bit_t MulCorErrClearSendLaFIFO6_0[1];
pseudo_bit_t MulCorErrClearSendLaFIFO7_0[1];
pseudo_bit_t MulCorErrClearSendLaFIFO0_1[1];
pseudo_bit_t MulCorErrClearSendLaFIFO1_1[1];
pseudo_bit_t MulCorErrClearSendLaFIFO2_1[1];
pseudo_bit_t MulCorErrClearSendLaFIFO3_1[1];
pseudo_bit_t MulCorErrClearSendLaFIFO4_1[1];
pseudo_bit_t MulCorErrClearSendLaFIFO5_1[1];
pseudo_bit_t MulCorErrClearSendLaFIFO6_1[1];
pseudo_bit_t MulCorErrClearSendLaFIFO7_1[1];
pseudo_bit_t MulCorErrClearSendRmFIFO_0[1];
pseudo_bit_t MulCorErrClearSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t MulCorErrClearPCIeRetryBuf[1];
pseudo_bit_t MulCorErrClearPCIePostHdrBuf[1];
pseudo_bit_t MulCorErrClearPCIePostDataBuf[1];
pseudo_bit_t MulCorErrClearPCIeCompHdrBuf[1];
pseudo_bit_t MulCorErrClearPCIeCompDataBuf[1];
pseudo_bit_t MulCorErrClearMsixTable0[1];
pseudo_bit_t MulCorErrClearMsixTable1[1];
pseudo_bit_t MulCorErrClearMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemMultiCorErrClear {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemMultiCorErrClear_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemCorErrMask_offset 0x00000658UL
struct QIB_7322_MemCorErrMask_pb {
pseudo_bit_t CorErrMskRcvBuf_0[1];
pseudo_bit_t CorErrMskRcvFlags_0[1];
pseudo_bit_t CorErrMskLookupiqBuf_0[1];
pseudo_bit_t CorErrMskRcvDMAHdrBuf_0[1];
pseudo_bit_t CorErrMskRcvDMADataBuf_0[1];
pseudo_bit_t CorErrMskRcvBuf_1[1];
pseudo_bit_t CorErrMskRcvFlags_1[1];
pseudo_bit_t CorErrMskLookupiqBuf_1[1];
pseudo_bit_t CorErrMskRcvDMAHdrBuf_1[1];
pseudo_bit_t CorErrMskRcvDMADataBuf_1[1];
pseudo_bit_t CorErrMskRcvTIDArray[1];
pseudo_bit_t CorErrMskRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t CorErrMskSendBufVL15[1];
pseudo_bit_t CorErrMskSendBufMain[1];
pseudo_bit_t CorErrMskSendBufExtra[1];
pseudo_bit_t CorErrMskSendPbcArray[1];
pseudo_bit_t CorErrMskSendLaFIFO0_0[1];
pseudo_bit_t CorErrMskSendLaFIFO1_0[1];
pseudo_bit_t CorErrMskSendLaFIFO2_0[1];
pseudo_bit_t CorErrMskSendLaFIFO3_0[1];
pseudo_bit_t CorErrMskSendLaFIFO4_0[1];
pseudo_bit_t CorErrMskSendLaFIFO5_0[1];
pseudo_bit_t CorErrMskSendLaFIFO6_0[1];
pseudo_bit_t CorErrMskSendLaFIFO7_0[1];
pseudo_bit_t CorErrMskSendLaFIFO0_1[1];
pseudo_bit_t CorErrMskSendLaFIFO1_1[1];
pseudo_bit_t CorErrMskSendLaFIFO2_1[1];
pseudo_bit_t CorErrMskSendLaFIFO3_1[1];
pseudo_bit_t CorErrMskSendLaFIFO4_1[1];
pseudo_bit_t CorErrMskSendLaFIFO5_1[1];
pseudo_bit_t CorErrMskSendLaFIFO6_1[1];
pseudo_bit_t CorErrMskSendLaFIFO7_1[1];
pseudo_bit_t CorErrMskSendRmFIFO_0[1];
pseudo_bit_t CorErrMskSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t CorErrMskPCIeRetryBuf[1];
pseudo_bit_t CorErrMskPCIePostHdrBuf[1];
pseudo_bit_t CorErrMskPCIePostDataBuf[1];
pseudo_bit_t CorErrMskPCIeCompHdrBuf[1];
pseudo_bit_t CorErrMskPCIeCompDataBuf[1];
pseudo_bit_t CorErrMskMsixTable0[1];
pseudo_bit_t CorErrMskMsixTable1[1];
pseudo_bit_t CorErrMskMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemCorErrMask {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemCorErrMask_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemCorErrStatus_offset 0x00000660UL
struct QIB_7322_MemCorErrStatus_pb {
pseudo_bit_t CorErrStatusRcvBuf_0[1];
pseudo_bit_t CorErrStatusRcvFlags_0[1];
pseudo_bit_t CorErrStatusLookupiqBuf_0[1];
pseudo_bit_t CorErrStatusRcvDMAHdrBuf_0[1];
pseudo_bit_t CorErrStatusRcvDMADataBuf_0[1];
pseudo_bit_t CorErrStatusRcvBuf_1[1];
pseudo_bit_t CorErrStatusRcvFlags_1[1];
pseudo_bit_t CorErrStatusLookupiqBuf_1[1];
pseudo_bit_t CorErrStatusRcvDMAHdrBuf_1[1];
pseudo_bit_t CorErrStatusRcvDMADataBuf_1[1];
pseudo_bit_t CorErrStatusRcvTIDArray[1];
pseudo_bit_t CorErrStatusRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t CorErrStatusSendBufVL15[1];
pseudo_bit_t CorErrStatusSendBufMain[1];
pseudo_bit_t CorErrStatusSendBufExtra[1];
pseudo_bit_t CorErrStatusSendPbcArray[1];
pseudo_bit_t CorErrStatusSendLaFIFO0_0[1];
pseudo_bit_t CorErrStatusSendLaFIFO1_0[1];
pseudo_bit_t CorErrStatusSendLaFIFO2_0[1];
pseudo_bit_t CorErrStatusSendLaFIFO3_0[1];
pseudo_bit_t CorErrStatusSendLaFIFO4_0[1];
pseudo_bit_t CorErrStatusSendLaFIFO5_0[1];
pseudo_bit_t CorErrStatusSendLaFIFO6_0[1];
pseudo_bit_t CorErrStatusSendLaFIFO7_0[1];
pseudo_bit_t CorErrStatusSendLaFIFO0_1[1];
pseudo_bit_t CorErrStatusSendLaFIFO1_1[1];
pseudo_bit_t CorErrStatusSendLaFIFO2_1[1];
pseudo_bit_t CorErrStatusSendLaFIFO3_1[1];
pseudo_bit_t CorErrStatusSendLaFIFO4_1[1];
pseudo_bit_t CorErrStatusSendLaFIFO5_1[1];
pseudo_bit_t CorErrStatusSendLaFIFO6_1[1];
pseudo_bit_t CorErrStatusSendLaFIFO7_1[1];
pseudo_bit_t CorErrStatusSendRmFIFO_0[1];
pseudo_bit_t CorErrStatusSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t CorErrStatusPCIeRetryBuf[1];
pseudo_bit_t CorErrStatusPCIePostHdrBuf[1];
pseudo_bit_t CorErrStatusPCIePostDataBuf[1];
pseudo_bit_t CorErrStatusPCIeCompHdrBuf[1];
pseudo_bit_t CorErrStatusPCIeCompDataBuf[1];
pseudo_bit_t CorErrStatusMsixTable0[1];
pseudo_bit_t CorErrStatusMsixTable1[1];
pseudo_bit_t CorErrStatusMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemCorErrStatus {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemCorErrStatus_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MemCorErrClear_offset 0x00000668UL
struct QIB_7322_MemCorErrClear_pb {
pseudo_bit_t CorErrClearRcvBuf_0[1];
pseudo_bit_t CorErrClearRcvFlags_0[1];
pseudo_bit_t CorErrClearLookupiqBuf_0[1];
pseudo_bit_t CorErrClearRcvDMAHdrBuf_0[1];
pseudo_bit_t CorErrClearRcvDMADataBuf_0[1];
pseudo_bit_t CorErrClearRcvBuf_1[1];
pseudo_bit_t CorErrClearRcvFlags_1[1];
pseudo_bit_t CorErrClearLookupiqBuf_1[1];
pseudo_bit_t CorErrClearRcvDMAHdrBuf_1[1];
pseudo_bit_t CorErrClearRcvDMADataBuf_1[1];
pseudo_bit_t CorErrClearRcvTIDArray[1];
pseudo_bit_t CorErrClearRcvEgrArray[1];
pseudo_bit_t _unused_0[3];
pseudo_bit_t CorErrClearSendBufVL15[1];
pseudo_bit_t CorErrClearSendBufMain[1];
pseudo_bit_t CorErrClearSendBufExtra[1];
pseudo_bit_t CorErrClearSendPbcArray[1];
pseudo_bit_t CorErrClearSendLaFIFO0_0[1];
pseudo_bit_t CorErrClearSendLaFIFO1_0[1];
pseudo_bit_t CorErrClearSendLaFIFO2_0[1];
pseudo_bit_t CorErrClearSendLaFIFO3_0[1];
pseudo_bit_t CorErrClearSendLaFIFO4_0[1];
pseudo_bit_t CorErrClearSendLaFIFO5_0[1];
pseudo_bit_t CorErrClearSendLaFIFO6_0[1];
pseudo_bit_t CorErrClearSendLaFIFO7_0[1];
pseudo_bit_t CorErrClearSendLaFIFO0_1[1];
pseudo_bit_t CorErrClearSendLaFIFO1_1[1];
pseudo_bit_t CorErrClearSendLaFIFO2_1[1];
pseudo_bit_t CorErrClearSendLaFIFO3_1[1];
pseudo_bit_t CorErrClearSendLaFIFO4_1[1];
pseudo_bit_t CorErrClearSendLaFIFO5_1[1];
pseudo_bit_t CorErrClearSendLaFIFO6_1[1];
pseudo_bit_t CorErrClearSendLaFIFO7_1[1];
pseudo_bit_t CorErrClearSendRmFIFO_0[1];
pseudo_bit_t CorErrClearSendRmFIFO_1[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t CorErrClearPCIeRetryBuf[1];
pseudo_bit_t CorErrClearPCIePostHdrBuf[1];
pseudo_bit_t CorErrClearPCIePostDataBuf[1];
pseudo_bit_t CorErrClearPCIeCompHdrBuf[1];
pseudo_bit_t CorErrClearPCIeCompDataBuf[1];
pseudo_bit_t CorErrClearMsixTable0[1];
pseudo_bit_t CorErrClearMsixTable1[1];
pseudo_bit_t CorErrClearMsixTable2[1];
pseudo_bit_t _unused_2[8];
};
struct QIB_7322_MemCorErrClear {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MemCorErrClear_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MsixTableUnCorErrLogA_offset 0x00000680UL
struct QIB_7322_MsixTableUnCorErrLogA_pb {
pseudo_bit_t MsixTable_1_0_UnCorErrData[64];
};
struct QIB_7322_MsixTableUnCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MsixTableUnCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MsixTableUnCorErrLogB_offset 0x00000688UL
struct QIB_7322_MsixTableUnCorErrLogB_pb {
pseudo_bit_t MsixTable_2_UnCorErrData[32];
pseudo_bit_t MsixTable_0_UnCorErrCheckBits[7];
pseudo_bit_t MsixTable_1_UnCorErrCheckBits[7];
pseudo_bit_t MsixTable_2_UnCorErrCheckBits[7];
pseudo_bit_t _unused_0[11];
};
struct QIB_7322_MsixTableUnCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MsixTableUnCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MsixTableUnCorErrLogC_offset 0x00000690UL
struct QIB_7322_MsixTableUnCorErrLogC_pb {
pseudo_bit_t MsixTable_0_UnCorErrAddr[7];
pseudo_bit_t MsixTable_1_UnCorErrAddr[7];
pseudo_bit_t MsixTable_2_UnCorErrAddr[7];
pseudo_bit_t _unused_0[43];
};
struct QIB_7322_MsixTableUnCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MsixTableUnCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MsixEntryWithUncorErr_offset 0x00000698UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_MsixTableCorErrLogA_offset 0x000006a0UL
struct QIB_7322_MsixTableCorErrLogA_pb {
pseudo_bit_t MsixTable_1_0_CorErrData[64];
};
struct QIB_7322_MsixTableCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MsixTableCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MsixTableCorErrLogB_offset 0x000006a8UL
struct QIB_7322_MsixTableCorErrLogB_pb {
pseudo_bit_t MsixTable_2_CorErrData[32];
pseudo_bit_t MsixTable_0_CorErrCheckBits[7];
pseudo_bit_t MsixTable_1_CorErrCheckBits[7];
pseudo_bit_t MsixTable_2_CorErrCheckBits[7];
pseudo_bit_t _unused_0[11];
};
struct QIB_7322_MsixTableCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MsixTableCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MsixTableCorErrLogC_offset 0x000006b0UL
struct QIB_7322_MsixTableCorErrLogC_pb {
pseudo_bit_t MsixTable_0_CorErrAddr[7];
pseudo_bit_t MsixTable_1_CorErrAddr[7];
pseudo_bit_t MsixTable_2_CorErrAddr[7];
pseudo_bit_t _unused_0[43];
};
struct QIB_7322_MsixTableCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_MsixTableCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplDataBufrUnCorErrLogA_offset 0x00000700UL
struct QIB_7322_PcieCplDataBufrUnCorErrLogA_pb {
pseudo_bit_t PcieCplDataBufrUnCorErrData_63_0[64];
};
struct QIB_7322_PcieCplDataBufrUnCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplDataBufrUnCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplDataBufrUnCorErrLogB_offset 0x00000708UL
struct QIB_7322_PcieCplDataBufrUnCorErrLogB_pb {
pseudo_bit_t PcieCplDataBufrUnCorErrData_127_64[64];
};
struct QIB_7322_PcieCplDataBufrUnCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplDataBufrUnCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplDataBufrUnCorErrLogC_offset 0x00000710UL
struct QIB_7322_PcieCplDataBufrUnCorErrLogC_pb {
pseudo_bit_t PcieCplDataBufrUnCorErrData_136_128[9];
pseudo_bit_t PcieCplDataBufrUnCorErrCheckBit_21_0[22];
pseudo_bit_t PcieCplDataBufrUnCorErrAddr_13_0[14];
pseudo_bit_t _unused_0[19];
};
struct QIB_7322_PcieCplDataBufrUnCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplDataBufrUnCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplHdrBufrUnCorErrLogA_offset 0x00000720UL
struct QIB_7322_PcieCplHdrBufrUnCorErrLogA_pb {
pseudo_bit_t PcieCplHdrBufrUnCorErrHdr_63_0[64];
};
struct QIB_7322_PcieCplHdrBufrUnCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplHdrBufrUnCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplHdrBufrUnCorErrLogB_offset 0x00000728UL
struct QIB_7322_PcieCplHdrBufrUnCorErrLogB_pb {
pseudo_bit_t PcieCplHdrBufrUnCorErrHdr_103_64[40];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_PcieCplHdrBufrUnCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplHdrBufrUnCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplHdrBufrUnCorErrLogC_offset 0x00000730UL
struct QIB_7322_PcieCplHdrBufrUnCorErrLogC_pb {
pseudo_bit_t PcieCplHdrBufrUnCorErrCheckBit_15_0[16];
pseudo_bit_t PcieCplHdrBufrUnCorErrAddr_8_0[9];
pseudo_bit_t _unused_0[39];
};
struct QIB_7322_PcieCplHdrBufrUnCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplHdrBufrUnCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePDataBufrUnCorErrLogA_offset 0x00000740UL
struct QIB_7322_PciePDataBufrUnCorErrLogA_pb {
pseudo_bit_t PciePDataBufrUnCorErrData_63_0[64];
};
struct QIB_7322_PciePDataBufrUnCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePDataBufrUnCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePDataBufrUnCorErrLogB_offset 0x00000748UL
struct QIB_7322_PciePDataBufrUnCorErrLogB_pb {
pseudo_bit_t PciePDataBufrUnCorErrData_127_64[64];
};
struct QIB_7322_PciePDataBufrUnCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePDataBufrUnCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePDataBufrUnCorErrLogC_offset 0x00000750UL
struct QIB_7322_PciePDataBufrUnCorErrLogC_pb {
pseudo_bit_t PciePDataBufrUnCorErrData_136_128[9];
pseudo_bit_t PciePDataBufrUnCorErrCheckBit_21_0[22];
pseudo_bit_t PciePDataBufrUnCorErrAddr_13_0[14];
pseudo_bit_t _unused_0[19];
};
struct QIB_7322_PciePDataBufrUnCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePDataBufrUnCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePHdrBufrUnCorErrLogA_offset 0x00000760UL
struct QIB_7322_PciePHdrBufrUnCorErrLogA_pb {
pseudo_bit_t PciePHdrBufrUnCorErrData_63_0[64];
};
struct QIB_7322_PciePHdrBufrUnCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePHdrBufrUnCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePHdrBufrUnCorErrLogB_offset 0x00000768UL
struct QIB_7322_PciePHdrBufrUnCorErrLogB_pb {
pseudo_bit_t PciePHdrBufrUnCorErrData_107_64[44];
pseudo_bit_t _unused_0[20];
};
struct QIB_7322_PciePHdrBufrUnCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePHdrBufrUnCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePHdrBufrUnCorErrLogC_offset 0x00000770UL
struct QIB_7322_PciePHdrBufrUnCorErrLogC_pb {
pseudo_bit_t PciePHdrBufrUnCorErrCheckBit_15_0[16];
pseudo_bit_t PciePHdrBufrUnCorErrAddr_8_0[9];
pseudo_bit_t _unused_0[39];
};
struct QIB_7322_PciePHdrBufrUnCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePHdrBufrUnCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieRetryBufrUnCorErrLogA_offset 0x00000780UL
struct QIB_7322_PcieRetryBufrUnCorErrLogA_pb {
pseudo_bit_t PcieRetryBufrUnCorErrData_63_0[64];
};
struct QIB_7322_PcieRetryBufrUnCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieRetryBufrUnCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieRetryBufrUnCorErrLogB_offset 0x00000788UL
struct QIB_7322_PcieRetryBufrUnCorErrLogB_pb {
pseudo_bit_t PcieRetryBufrUnCorErrData_127_64[64];
};
struct QIB_7322_PcieRetryBufrUnCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieRetryBufrUnCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieRetryBufrUnCorErrLogC_offset 0x00000790UL
struct QIB_7322_PcieRetryBufrUnCorErrLogC_pb {
pseudo_bit_t PcieRetryBufrUnCorErrData_133_128[6];
pseudo_bit_t PcieRetryBufrUnCorErrCheckBit_20_0[21];
pseudo_bit_t PcieRetryBufrUnCorErrAddr_13_0[14];
pseudo_bit_t _unused_0[23];
};
struct QIB_7322_PcieRetryBufrUnCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieRetryBufrUnCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxTIDArrayUnCorErrLogA_offset 0x00000800UL
struct QIB_7322_RxTIDArrayUnCorErrLogA_pb {
pseudo_bit_t RxTIDArrayUnCorErrData_39_0[40];
pseudo_bit_t RxTIDArrayUnCorErrCheckBit_11_0[12];
pseudo_bit_t _unused_0[12];
};
struct QIB_7322_RxTIDArrayUnCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxTIDArrayUnCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxTIDArrayUnCorErrLogB_offset 0x00000808UL
struct QIB_7322_RxTIDArrayUnCorErrLogB_pb {
pseudo_bit_t RxTIDArrayUnCorErrAddr_16_0[17];
pseudo_bit_t _unused_0[47];
};
struct QIB_7322_RxTIDArrayUnCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxTIDArrayUnCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxEagerArrayUnCorErrLogA_offset 0x00000810UL
struct QIB_7322_RxEagerArrayUnCorErrLogA_pb {
pseudo_bit_t RxEagerArrayUnCorErrData_39_0[40];
pseudo_bit_t RxEagerArrayUnCorErrCheckBit_11_0[12];
pseudo_bit_t _unused_0[12];
};
struct QIB_7322_RxEagerArrayUnCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxEagerArrayUnCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxEagerArrayUnCorErrLogB_offset 0x00000818UL
struct QIB_7322_RxEagerArrayUnCorErrLogB_pb {
pseudo_bit_t RxEagerArrayUnCorErrAddr_17_0[18];
pseudo_bit_t _unused_0[46];
};
struct QIB_7322_RxEagerArrayUnCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxEagerArrayUnCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufMainArrayUnCorErrLogA_offset 0x00000880UL
struct QIB_7322_SBufMainArrayUnCorErrLogA_pb {
pseudo_bit_t SBufMainArrayUnCorErrData_63_0[64];
};
struct QIB_7322_SBufMainArrayUnCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufMainArrayUnCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufMainArrayUnCorErrLogB_offset 0x00000888UL
struct QIB_7322_SBufMainArrayUnCorErrLogB_pb {
pseudo_bit_t SBufMainArrayUnCorErrData_127_64[64];
};
struct QIB_7322_SBufMainArrayUnCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufMainArrayUnCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufMainArrayUnCorErrLogC_offset 0x00000890UL
struct QIB_7322_SBufMainArrayUnCorErrLogC_pb {
pseudo_bit_t SBufMainArrayUnCorErrCheckBit_27_0[28];
pseudo_bit_t SBufMainArrayUnCorErrAddr_18_0[19];
pseudo_bit_t _unused_0[13];
pseudo_bit_t SBufMainArrayUnCorErrDword_3_0[4];
};
struct QIB_7322_SBufMainArrayUnCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufMainArrayUnCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufExtraArrayUnCorErrLogA_offset 0x00000898UL
struct QIB_7322_SBufExtraArrayUnCorErrLogA_pb {
pseudo_bit_t SBufExtraArrayUnCorErrData_63_0[64];
};
struct QIB_7322_SBufExtraArrayUnCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufExtraArrayUnCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufExtraArrayUnCorErrLogB_offset 0x000008a0UL
struct QIB_7322_SBufExtraArrayUnCorErrLogB_pb {
pseudo_bit_t SBufExtraArrayUnCorErrData_127_64[64];
};
struct QIB_7322_SBufExtraArrayUnCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufExtraArrayUnCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufExtraArrayUnCorErrLogC_offset 0x000008a8UL
struct QIB_7322_SBufExtraArrayUnCorErrLogC_pb {
pseudo_bit_t SBufExtraArrayUnCorErrCheckBit_27_0[28];
pseudo_bit_t SBufExtraArrayUnCorErrAddr_14_0[15];
pseudo_bit_t _unused_0[17];
pseudo_bit_t SBufExtraArrayUnCorErrAdd_3_0[4];
};
struct QIB_7322_SBufExtraArrayUnCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufExtraArrayUnCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendPbcArrayUnCorErrLog_offset 0x000008b0UL
struct QIB_7322_SendPbcArrayUnCorErrLog_pb {
pseudo_bit_t SendPbcArrayUnCorErrData_21_0[22];
pseudo_bit_t SendPbcArrayUnCorErrCheckBit_6_0[7];
pseudo_bit_t SendPbcArrayUnCorErrAddr_9_0[10];
pseudo_bit_t _unused_0[25];
};
struct QIB_7322_SendPbcArrayUnCorErrLog {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendPbcArrayUnCorErrLog_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufVL15ArrayUnCorErrLogA_offset 0x000008c0UL
struct QIB_7322_SBufVL15ArrayUnCorErrLogA_pb {
pseudo_bit_t SBufVL15ArrayUnCorErrData_63_0[64];
};
struct QIB_7322_SBufVL15ArrayUnCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufVL15ArrayUnCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplDataBufrCorErrLogA_offset 0x00000900UL
struct QIB_7322_PcieCplDataBufrCorErrLogA_pb {
pseudo_bit_t PcieCplDataBufrCorErrData_63_0[64];
};
struct QIB_7322_PcieCplDataBufrCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplDataBufrCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplDataBufrCorErrLogB_offset 0x00000908UL
struct QIB_7322_PcieCplDataBufrCorErrLogB_pb {
pseudo_bit_t PcieCplDataBufrCorErrData_127_64[64];
};
struct QIB_7322_PcieCplDataBufrCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplDataBufrCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplDataBufrCorErrLogC_offset 0x00000910UL
struct QIB_7322_PcieCplDataBufrCorErrLogC_pb {
pseudo_bit_t PcieCplDataBufrCorErrData_136_128[9];
pseudo_bit_t PcieCplDataBufrCorErrCheckBit_21_0[22];
pseudo_bit_t PcieCplDataBufrCorErrAddr_13_0[14];
pseudo_bit_t _unused_0[19];
};
struct QIB_7322_PcieCplDataBufrCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplDataBufrCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplHdrBufrCorErrLogA_offset 0x00000920UL
struct QIB_7322_PcieCplHdrBufrCorErrLogA_pb {
pseudo_bit_t PcieCplHdrBufrCorErrHdr_63_0[64];
};
struct QIB_7322_PcieCplHdrBufrCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplHdrBufrCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplHdrBufrCorErrLogB_offset 0x00000928UL
struct QIB_7322_PcieCplHdrBufrCorErrLogB_pb {
pseudo_bit_t PcieCplHdrBufrCorErrHdr_103_64[40];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_PcieCplHdrBufrCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplHdrBufrCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieCplHdrBufrCorErrLogC_offset 0x00000930UL
struct QIB_7322_PcieCplHdrBufrCorErrLogC_pb {
pseudo_bit_t PcieCplHdrBufrCorErrCheckBit_15_0[16];
pseudo_bit_t PcieCplHdrBufrCorErrAddr_8_0[9];
pseudo_bit_t _unused_0[39];
};
struct QIB_7322_PcieCplHdrBufrCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieCplHdrBufrCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePDataBufrCorErrLogA_offset 0x00000940UL
struct QIB_7322_PciePDataBufrCorErrLogA_pb {
pseudo_bit_t PciePDataBufrCorErrData_63_0[64];
};
struct QIB_7322_PciePDataBufrCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePDataBufrCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePDataBufrCorErrLogB_offset 0x00000948UL
struct QIB_7322_PciePDataBufrCorErrLogB_pb {
pseudo_bit_t PciePDataBufrCorErrData_127_64[64];
};
struct QIB_7322_PciePDataBufrCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePDataBufrCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePDataBufrCorErrLogC_offset 0x00000950UL
struct QIB_7322_PciePDataBufrCorErrLogC_pb {
pseudo_bit_t PciePDataBufrCorErrData_136_128[9];
pseudo_bit_t PciePDataBufrCorErrCheckBit_21_0[22];
pseudo_bit_t PciePDataBufrCorErrAddr_13_0[14];
pseudo_bit_t _unused_0[19];
};
struct QIB_7322_PciePDataBufrCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePDataBufrCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePHdrBufrCorErrLogA_offset 0x00000960UL
struct QIB_7322_PciePHdrBufrCorErrLogA_pb {
pseudo_bit_t PciePHdrBufrCorErrData_63_0[64];
};
struct QIB_7322_PciePHdrBufrCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePHdrBufrCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePHdrBufrCorErrLogB_offset 0x00000968UL
struct QIB_7322_PciePHdrBufrCorErrLogB_pb {
pseudo_bit_t PciePHdrBufrCorErrData_107_64[44];
pseudo_bit_t _unused_0[20];
};
struct QIB_7322_PciePHdrBufrCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePHdrBufrCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PciePHdrBufrCorErrLogC_offset 0x00000970UL
struct QIB_7322_PciePHdrBufrCorErrLogC_pb {
pseudo_bit_t PciePHdrBufrCorErrCheckBit_15_0[16];
pseudo_bit_t PciePHdrBufrCorErrAddr_8_0[9];
pseudo_bit_t _unused_0[39];
};
struct QIB_7322_PciePHdrBufrCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PciePHdrBufrCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieRetryBufrCorErrLogA_offset 0x00000980UL
struct QIB_7322_PcieRetryBufrCorErrLogA_pb {
pseudo_bit_t PcieRetryBufrCorErrData_63_0[64];
};
struct QIB_7322_PcieRetryBufrCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieRetryBufrCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieRetryBufrCorErrLogB_offset 0x00000988UL
struct QIB_7322_PcieRetryBufrCorErrLogB_pb {
pseudo_bit_t PcieRetryBufrCorErrData_127_64[64];
};
struct QIB_7322_PcieRetryBufrCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieRetryBufrCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieRetryBufrCorErrLogC_offset 0x00000990UL
struct QIB_7322_PcieRetryBufrCorErrLogC_pb {
pseudo_bit_t PcieRetryBufrCorErrData_133_128[6];
pseudo_bit_t PcieRetryBufrCorErrCheckBit_20_0[21];
pseudo_bit_t PcieRetryBufrCorErrAddr_13_0[14];
pseudo_bit_t _unused_0[23];
};
struct QIB_7322_PcieRetryBufrCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_PcieRetryBufrCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxTIDArrayCorErrLogA_offset 0x00000a00UL
struct QIB_7322_RxTIDArrayCorErrLogA_pb {
pseudo_bit_t RxTIDArrayCorErrData_39_0[40];
pseudo_bit_t RxTIDArrayCorErrCheckBit_11_0[12];
pseudo_bit_t _unused_0[12];
};
struct QIB_7322_RxTIDArrayCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxTIDArrayCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxTIDArrayCorErrLogB_offset 0x00000a08UL
struct QIB_7322_RxTIDArrayCorErrLogB_pb {
pseudo_bit_t RxTIDArrayCorErrAddr_16_0[17];
pseudo_bit_t _unused_0[47];
};
struct QIB_7322_RxTIDArrayCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxTIDArrayCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxEagerArrayCorErrLogA_offset 0x00000a10UL
struct QIB_7322_RxEagerArrayCorErrLogA_pb {
pseudo_bit_t RxEagerArrayCorErrData_39_0[40];
pseudo_bit_t RxEagerArrayCorErrCheckBit_11_0[12];
pseudo_bit_t _unused_0[12];
};
struct QIB_7322_RxEagerArrayCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxEagerArrayCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxEagerArrayCorErrLogB_offset 0x00000a18UL
struct QIB_7322_RxEagerArrayCorErrLogB_pb {
pseudo_bit_t RxEagerArrayCorErrAddr_17_0[18];
pseudo_bit_t _unused_0[46];
};
struct QIB_7322_RxEagerArrayCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxEagerArrayCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufMainArrayCorErrLogA_offset 0x00000a80UL
struct QIB_7322_SBufMainArrayCorErrLogA_pb {
pseudo_bit_t SBufMainArrayCorErrData_63_0[64];
};
struct QIB_7322_SBufMainArrayCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufMainArrayCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufMainArrayCorErrLogB_offset 0x00000a88UL
struct QIB_7322_SBufMainArrayCorErrLogB_pb {
pseudo_bit_t SBufMainArrayCorErrData_127_64[64];
};
struct QIB_7322_SBufMainArrayCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufMainArrayCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufMainArrayCorErrLogC_offset 0x00000a90UL
struct QIB_7322_SBufMainArrayCorErrLogC_pb {
pseudo_bit_t SBufMainArrayCorErrCheckBit_27_0[28];
pseudo_bit_t SBufMainArrayCorErrAddr_18_0[19];
pseudo_bit_t _unused_0[13];
pseudo_bit_t SBufMainArrayCorErrDword_3_0[4];
};
struct QIB_7322_SBufMainArrayCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufMainArrayCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufExtraArrayCorErrLogA_offset 0x00000a98UL
struct QIB_7322_SBufExtraArrayCorErrLogA_pb {
pseudo_bit_t SBufExtraArrayCorErrData_63_0[64];
};
struct QIB_7322_SBufExtraArrayCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufExtraArrayCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufExtraArrayCorErrLogB_offset 0x00000aa0UL
struct QIB_7322_SBufExtraArrayCorErrLogB_pb {
pseudo_bit_t SBufExtraArrayCorErrData_127_64[64];
};
struct QIB_7322_SBufExtraArrayCorErrLogB {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufExtraArrayCorErrLogB_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufExtraArrayCorErrLogC_offset 0x00000aa8UL
struct QIB_7322_SBufExtraArrayCorErrLogC_pb {
pseudo_bit_t SBufExtraArrayCorErrCheckBit_27_0[28];
pseudo_bit_t SBufExtraArrayCorErrAddr_14_0[15];
pseudo_bit_t _unused_0[17];
pseudo_bit_t SBufExtraArrayCorErrAdd_3_0[4];
};
struct QIB_7322_SBufExtraArrayCorErrLogC {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufExtraArrayCorErrLogC_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendPbcArrayCorErrLog_offset 0x00000ab0UL
struct QIB_7322_SendPbcArrayCorErrLog_pb {
pseudo_bit_t SendPbcArrayCorErrData_21_0[22];
pseudo_bit_t SendPbcArrayCorErrCheckBit_6_0[7];
pseudo_bit_t SendPbcArrayCorErrAddr_9_0[10];
pseudo_bit_t _unused_0[25];
};
struct QIB_7322_SendPbcArrayCorErrLog {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendPbcArrayCorErrLog_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SBufVL15ArrayCorErrLogA_offset 0x00000ac0UL
struct QIB_7322_SBufVL15ArrayCorErrLogA_pb {
pseudo_bit_t SBufVL15ArrayCorErrData_63_0[64];
};
struct QIB_7322_SBufVL15ArrayCorErrLogA {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SBufVL15ArrayCorErrLogA_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvAvailTimeOut0_offset 0x00000c00UL
struct QIB_7322_RcvAvailTimeOut0_pb {
pseudo_bit_t RcvAvailTOReload[16];
pseudo_bit_t RcvAvailTOCount[16];
pseudo_bit_t _unused_0[32];
};
struct QIB_7322_RcvAvailTimeOut0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvAvailTimeOut0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_CntrRegBase_0_offset 0x00001028UL
/* Default value: 0x0000000000012000 */
#define QIB_7322_ErrMask_0_offset 0x00001080UL
struct QIB_7322_ErrMask_0_pb {
pseudo_bit_t RcvFormatErrMask[1];
pseudo_bit_t RcvVCRCErrMask[1];
pseudo_bit_t RcvICRCErrMask[1];
pseudo_bit_t RcvMinPktLenErrMask[1];
pseudo_bit_t RcvMaxPktLenErrMask[1];
pseudo_bit_t RcvLongPktLenErrMask[1];
pseudo_bit_t RcvShortPktLenErrMask[1];
pseudo_bit_t RcvUnexpectedCharErrMask[1];
pseudo_bit_t RcvUnsupportedVLErrMask[1];
pseudo_bit_t RcvEBPErrMask[1];
pseudo_bit_t RcvIBFlowErrMask[1];
pseudo_bit_t RcvBadVersionErrMask[1];
pseudo_bit_t _unused_0[2];
pseudo_bit_t RcvBadTidErrMask[1];
pseudo_bit_t RcvHdrLenErrMask[1];
pseudo_bit_t RcvHdrErrMask[1];
pseudo_bit_t RcvIBLostLinkErrMask[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SendMinPktLenErrMask[1];
pseudo_bit_t SendMaxPktLenErrMask[1];
pseudo_bit_t SendUnderRunErrMask[1];
pseudo_bit_t SendPktLenErrMask[1];
pseudo_bit_t SendDroppedSmpPktErrMask[1];
pseudo_bit_t SendDroppedDataPktErrMask[1];
pseudo_bit_t _unused_2[1];
pseudo_bit_t SendUnexpectedPktNumErrMask[1];
pseudo_bit_t SendUnsupportedVLErrMask[1];
pseudo_bit_t SendBufMisuseErrMask[1];
pseudo_bit_t SDmaGenMismatchErrMask[1];
pseudo_bit_t SDmaOutOfBoundErrMask[1];
pseudo_bit_t SDmaTailOutOfBoundErrMask[1];
pseudo_bit_t SDmaBaseErrMask[1];
pseudo_bit_t SDma1stDescErrMask[1];
pseudo_bit_t SDmaRpyTagErrMask[1];
pseudo_bit_t SDmaDwEnErrMask[1];
pseudo_bit_t SDmaMissingDwErrMask[1];
pseudo_bit_t SDmaUnexpDataErrMask[1];
pseudo_bit_t SDmaDescAddrMisalignErrMask[1];
pseudo_bit_t SDmaHaltErrMask[1];
pseudo_bit_t _unused_3[4];
pseudo_bit_t VL15BufMisuseErrMask[1];
pseudo_bit_t _unused_4[2];
pseudo_bit_t SHeadersErrMask[1];
pseudo_bit_t IBStatusChangedMask[1];
pseudo_bit_t _unused_5[5];
};
struct QIB_7322_ErrMask_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ErrMask_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ErrStatus_0_offset 0x00001088UL
struct QIB_7322_ErrStatus_0_pb {
pseudo_bit_t RcvFormatErr[1];
pseudo_bit_t RcvVCRCErr[1];
pseudo_bit_t RcvICRCErr[1];
pseudo_bit_t RcvMinPktLenErr[1];
pseudo_bit_t RcvMaxPktLenErr[1];
pseudo_bit_t RcvLongPktLenErr[1];
pseudo_bit_t RcvShortPktLenErr[1];
pseudo_bit_t RcvUnexpectedCharErr[1];
pseudo_bit_t RcvUnsupportedVLErr[1];
pseudo_bit_t RcvEBPErr[1];
pseudo_bit_t RcvIBFlowErr[1];
pseudo_bit_t RcvBadVersionErr[1];
pseudo_bit_t _unused_0[2];
pseudo_bit_t RcvBadTidErr[1];
pseudo_bit_t RcvHdrLenErr[1];
pseudo_bit_t RcvHdrErr[1];
pseudo_bit_t RcvIBLostLinkErr[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SendMinPktLenErr[1];
pseudo_bit_t SendMaxPktLenErr[1];
pseudo_bit_t SendUnderRunErr[1];
pseudo_bit_t SendPktLenErr[1];
pseudo_bit_t SendDroppedSmpPktErr[1];
pseudo_bit_t SendDroppedDataPktErr[1];
pseudo_bit_t _unused_2[1];
pseudo_bit_t SendUnexpectedPktNumErr[1];
pseudo_bit_t SendUnsupportedVLErr[1];
pseudo_bit_t SendBufMisuseErr[1];
pseudo_bit_t SDmaGenMismatchErr[1];
pseudo_bit_t SDmaOutOfBoundErr[1];
pseudo_bit_t SDmaTailOutOfBoundErr[1];
pseudo_bit_t SDmaBaseErr[1];
pseudo_bit_t SDma1stDescErr[1];
pseudo_bit_t SDmaRpyTagErr[1];
pseudo_bit_t SDmaDwEnErr[1];
pseudo_bit_t SDmaMissingDwErr[1];
pseudo_bit_t SDmaUnexpDataErr[1];
pseudo_bit_t SDmaDescAddrMisalignErr[1];
pseudo_bit_t SDmaHaltErr[1];
pseudo_bit_t _unused_3[4];
pseudo_bit_t VL15BufMisuseErr[1];
pseudo_bit_t _unused_4[2];
pseudo_bit_t SHeadersErr[1];
pseudo_bit_t IBStatusChanged[1];
pseudo_bit_t _unused_5[5];
};
struct QIB_7322_ErrStatus_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ErrStatus_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ErrClear_0_offset 0x00001090UL
struct QIB_7322_ErrClear_0_pb {
pseudo_bit_t RcvFormatErrClear[1];
pseudo_bit_t RcvVCRCErrClear[1];
pseudo_bit_t RcvICRCErrClear[1];
pseudo_bit_t RcvMinPktLenErrClear[1];
pseudo_bit_t RcvMaxPktLenErrClear[1];
pseudo_bit_t RcvLongPktLenErrClear[1];
pseudo_bit_t RcvShortPktLenErrClear[1];
pseudo_bit_t RcvUnexpectedCharErrClear[1];
pseudo_bit_t RcvUnsupportedVLErrClear[1];
pseudo_bit_t RcvEBPErrClear[1];
pseudo_bit_t RcvIBFlowErrClear[1];
pseudo_bit_t RcvBadVersionErrClear[1];
pseudo_bit_t _unused_0[2];
pseudo_bit_t RcvBadTidErrClear[1];
pseudo_bit_t RcvHdrLenErrClear[1];
pseudo_bit_t RcvHdrErrClear[1];
pseudo_bit_t RcvIBLostLinkErrClear[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SendMinPktLenErrClear[1];
pseudo_bit_t SendMaxPktLenErrClear[1];
pseudo_bit_t SendUnderRunErrClear[1];
pseudo_bit_t SendPktLenErrClear[1];
pseudo_bit_t SendDroppedSmpPktErrClear[1];
pseudo_bit_t SendDroppedDataPktErrClear[1];
pseudo_bit_t _unused_2[1];
pseudo_bit_t SendUnexpectedPktNumErrClear[1];
pseudo_bit_t SendUnsupportedVLErrClear[1];
pseudo_bit_t SendBufMisuseErrClear[1];
pseudo_bit_t SDmaGenMismatchErrClear[1];
pseudo_bit_t SDmaOutOfBoundErrClear[1];
pseudo_bit_t SDmaTailOutOfBoundErrClear[1];
pseudo_bit_t SDmaBaseErrClear[1];
pseudo_bit_t SDma1stDescErrClear[1];
pseudo_bit_t SDmaRpyTagErrClear[1];
pseudo_bit_t SDmaDwEnErrClear[1];
pseudo_bit_t SDmaMissingDwErrClear[1];
pseudo_bit_t SDmaUnexpDataErrClear[1];
pseudo_bit_t SDmaDescAddrMisalignErrClear[1];
pseudo_bit_t SDmaHaltErrClear[1];
pseudo_bit_t _unused_3[4];
pseudo_bit_t VL15BufMisuseErrClear[1];
pseudo_bit_t _unused_4[2];
pseudo_bit_t SHeadersErrClear[1];
pseudo_bit_t IBStatusChangedClear[1];
pseudo_bit_t _unused_5[5];
};
struct QIB_7322_ErrClear_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ErrClear_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_TXEStatus_0_offset 0x000010b8UL
struct QIB_7322_TXEStatus_0_pb {
pseudo_bit_t LaFifoEmpty_VL0[1];
pseudo_bit_t LaFifoEmpty_VL1[1];
pseudo_bit_t LaFifoEmpty_VL2[1];
pseudo_bit_t LaFifoEmpty_VL3[1];
pseudo_bit_t LaFifoEmpty_VL4[1];
pseudo_bit_t LaFifoEmpty_VL5[1];
pseudo_bit_t LaFifoEmpty_VL6[1];
pseudo_bit_t LaFifoEmpty_VL7[1];
pseudo_bit_t _unused_0[7];
pseudo_bit_t LaFifoEmpty_VL15[1];
pseudo_bit_t _unused_1[14];
pseudo_bit_t RmFifoEmpty[1];
pseudo_bit_t TXE_IBC_Idle[1];
pseudo_bit_t _unused_2[32];
};
struct QIB_7322_TXEStatus_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_TXEStatus_0_pb );
};
/* Default value: 0x0000000XC00080FF */
#define QIB_7322_RcvCtrl_0_offset 0x00001100UL
struct QIB_7322_RcvCtrl_0_pb {
pseudo_bit_t ContextEnableKernel[1];
pseudo_bit_t _unused_0[1];
pseudo_bit_t ContextEnableUser[16];
pseudo_bit_t _unused_1[21];
pseudo_bit_t RcvIBPortEnable[1];
pseudo_bit_t RcvQPMapEnable[1];
pseudo_bit_t RcvPartitionKeyDisable[1];
pseudo_bit_t RcvResetCredit[1];
pseudo_bit_t _unused_2[21];
};
struct QIB_7322_RcvCtrl_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvCtrl_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvBTHQP_0_offset 0x00001108UL
struct QIB_7322_RcvBTHQP_0_pb {
pseudo_bit_t RcvBTHQP[24];
pseudo_bit_t _unused_0[40];
};
struct QIB_7322_RcvBTHQP_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvBTHQP_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableA_0_offset 0x00001110UL
struct QIB_7322_RcvQPMapTableA_0_pb {
pseudo_bit_t RcvQPMapContext0[5];
pseudo_bit_t RcvQPMapContext1[5];
pseudo_bit_t RcvQPMapContext2[5];
pseudo_bit_t RcvQPMapContext3[5];
pseudo_bit_t RcvQPMapContext4[5];
pseudo_bit_t RcvQPMapContext5[5];
pseudo_bit_t _unused_0[34];
};
struct QIB_7322_RcvQPMapTableA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableB_0_offset 0x00001118UL
struct QIB_7322_RcvQPMapTableB_0_pb {
pseudo_bit_t RcvQPMapContext6[5];
pseudo_bit_t RcvQPMapContext7[5];
pseudo_bit_t RcvQPMapContext8[5];
pseudo_bit_t RcvQPMapContext9[5];
pseudo_bit_t RcvQPMapContext10[5];
pseudo_bit_t RcvQPMapContext11[5];
pseudo_bit_t _unused_0[34];
};
struct QIB_7322_RcvQPMapTableB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableC_0_offset 0x00001120UL
struct QIB_7322_RcvQPMapTableC_0_pb {
pseudo_bit_t RcvQPMapContext12[5];
pseudo_bit_t RcvQPMapContext13[5];
pseudo_bit_t RcvQPMapContext14[5];
pseudo_bit_t RcvQPMapContext15[5];
pseudo_bit_t RcvQPMapContext16[5];
pseudo_bit_t RcvQPMapContext17[5];
pseudo_bit_t _unused_0[34];
};
struct QIB_7322_RcvQPMapTableC_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableC_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableD_0_offset 0x00001128UL
struct QIB_7322_RcvQPMapTableD_0_pb {
pseudo_bit_t RcvQPMapContext18[5];
pseudo_bit_t RcvQPMapContext19[5];
pseudo_bit_t RcvQPMapContext20[5];
pseudo_bit_t RcvQPMapContext21[5];
pseudo_bit_t RcvQPMapContext22[5];
pseudo_bit_t RcvQPMapContext23[5];
pseudo_bit_t _unused_0[34];
};
struct QIB_7322_RcvQPMapTableD_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableD_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableE_0_offset 0x00001130UL
struct QIB_7322_RcvQPMapTableE_0_pb {
pseudo_bit_t RcvQPMapContext24[5];
pseudo_bit_t RcvQPMapContext25[5];
pseudo_bit_t RcvQPMapContext26[5];
pseudo_bit_t RcvQPMapContext27[5];
pseudo_bit_t RcvQPMapContext28[5];
pseudo_bit_t RcvQPMapContext29[5];
pseudo_bit_t _unused_0[34];
};
struct QIB_7322_RcvQPMapTableE_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableE_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableF_0_offset 0x00001138UL
struct QIB_7322_RcvQPMapTableF_0_pb {
pseudo_bit_t RcvQPMapContext30[5];
pseudo_bit_t RcvQPMapContext31[5];
pseudo_bit_t _unused_0[54];
};
struct QIB_7322_RcvQPMapTableF_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableF_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSStat_0_offset 0x00001140UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSStart_0_offset 0x00001148UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSInterval_0_offset 0x00001150UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvStatus_0_offset 0x00001160UL
struct QIB_7322_RcvStatus_0_pb {
pseudo_bit_t RxPktInProgress[1];
pseudo_bit_t DmaeqBlockingContext[5];
pseudo_bit_t _unused_0[58];
};
struct QIB_7322_RcvStatus_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvStatus_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvPartitionKey_0_offset 0x00001168UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMulticastContext_0_offset 0x00001170UL
struct QIB_7322_RcvQPMulticastContext_0_pb {
pseudo_bit_t RcvQpMcContext[5];
pseudo_bit_t _unused_0[59];
};
struct QIB_7322_RcvQPMulticastContext_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMulticastContext_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvPktLEDCnt_0_offset 0x00001178UL
struct QIB_7322_RcvPktLEDCnt_0_pb {
pseudo_bit_t OFFperiod[32];
pseudo_bit_t ONperiod[32];
};
struct QIB_7322_RcvPktLEDCnt_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvPktLEDCnt_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaIdleCnt_0_offset 0x00001180UL
struct QIB_7322_SendDmaIdleCnt_0_pb {
pseudo_bit_t SendDmaIdleCnt[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendDmaIdleCnt_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaIdleCnt_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaReloadCnt_0_offset 0x00001188UL
struct QIB_7322_SendDmaReloadCnt_0_pb {
pseudo_bit_t SendDmaReloadCnt[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendDmaReloadCnt_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaReloadCnt_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaDescCnt_0_offset 0x00001190UL
struct QIB_7322_SendDmaDescCnt_0_pb {
pseudo_bit_t SendDmaDescCnt[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendDmaDescCnt_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaDescCnt_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendCtrl_0_offset 0x000011c0UL
struct QIB_7322_SendCtrl_0_pb {
pseudo_bit_t TxeAbortIbc[1];
pseudo_bit_t TxeBypassIbc[1];
pseudo_bit_t _unused_0[1];
pseudo_bit_t SendEnable[1];
pseudo_bit_t _unused_1[3];
pseudo_bit_t ForceCreditUpToDate[1];
pseudo_bit_t SDmaCleanup[1];
pseudo_bit_t SDmaIntEnable[1];
pseudo_bit_t SDmaSingleDescriptor[1];
pseudo_bit_t SDmaEnable[1];
pseudo_bit_t SDmaHalt[1];
pseudo_bit_t TxeDrainLaFifo[1];
pseudo_bit_t TxeDrainRmFifo[1];
pseudo_bit_t IBVLArbiterEn[1];
pseudo_bit_t _unused_2[48];
};
struct QIB_7322_SendCtrl_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendCtrl_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaBase_0_offset 0x000011f8UL
struct QIB_7322_SendDmaBase_0_pb {
pseudo_bit_t SendDmaBase[48];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_SendDmaBase_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaBase_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaLenGen_0_offset 0x00001200UL
struct QIB_7322_SendDmaLenGen_0_pb {
pseudo_bit_t Length[16];
pseudo_bit_t Generation[3];
pseudo_bit_t _unused_0[45];
};
struct QIB_7322_SendDmaLenGen_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaLenGen_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaTail_0_offset 0x00001208UL
struct QIB_7322_SendDmaTail_0_pb {
pseudo_bit_t SendDmaTail[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendDmaTail_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaTail_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaHead_0_offset 0x00001210UL
struct QIB_7322_SendDmaHead_0_pb {
pseudo_bit_t SendDmaHead[16];
pseudo_bit_t _unused_0[16];
pseudo_bit_t InternalSendDmaHead[16];
pseudo_bit_t _unused_1[16];
};
struct QIB_7322_SendDmaHead_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaHead_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaHeadAddr_0_offset 0x00001218UL
struct QIB_7322_SendDmaHeadAddr_0_pb {
pseudo_bit_t SendDmaHeadAddr[48];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_SendDmaHeadAddr_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaHeadAddr_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaBufMask0_0_offset 0x00001220UL
struct QIB_7322_SendDmaBufMask0_0_pb {
pseudo_bit_t BufMask_63_0[64];
};
struct QIB_7322_SendDmaBufMask0_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaBufMask0_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaStatus_0_offset 0x00001238UL
struct QIB_7322_SendDmaStatus_0_pb {
pseudo_bit_t SplFifoDescIndex[16];
pseudo_bit_t SplFifoBufNum[8];
pseudo_bit_t SplFifoFull[1];
pseudo_bit_t SplFifoEmpty[1];
pseudo_bit_t SplFifoDisarmed[1];
pseudo_bit_t SplFifoReadyToGo[1];
pseudo_bit_t ScbFetchDescFlag[1];
pseudo_bit_t ScbEntryValid[1];
pseudo_bit_t ScbEmpty[1];
pseudo_bit_t ScbFull[1];
pseudo_bit_t RpyTag_7_0[8];
pseudo_bit_t RpyLowAddr_6_0[7];
pseudo_bit_t ScbDescIndex_13_0[14];
pseudo_bit_t InternalSDmaHalt[1];
pseudo_bit_t HaltInProg[1];
pseudo_bit_t ScoreBoardDrainInProg[1];
};
struct QIB_7322_SendDmaStatus_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaStatus_0_pb );
};
/* Default value: 0x0000000042000000 */
#define QIB_7322_SendDmaPriorityThld_0_offset 0x00001258UL
struct QIB_7322_SendDmaPriorityThld_0_pb {
pseudo_bit_t PriorityThreshold[4];
pseudo_bit_t _unused_0[60];
};
struct QIB_7322_SendDmaPriorityThld_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaPriorityThld_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendHdrErrSymptom_0_offset 0x00001260UL
struct QIB_7322_SendHdrErrSymptom_0_pb {
pseudo_bit_t PacketTooSmall[1];
pseudo_bit_t RawIPV6[1];
pseudo_bit_t SLIDFail[1];
pseudo_bit_t QPFail[1];
pseudo_bit_t PkeyFail[1];
pseudo_bit_t GRHFail[1];
pseudo_bit_t NonKeyPacket[1];
pseudo_bit_t _unused_0[57];
};
struct QIB_7322_SendHdrErrSymptom_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendHdrErrSymptom_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxCreditVL0_0_offset 0x00001280UL
struct QIB_7322_RxCreditVL0_0_pb {
pseudo_bit_t RxMaxCreditVL[12];
pseudo_bit_t _unused_0[4];
pseudo_bit_t RxBufrConsumedVL[12];
pseudo_bit_t _unused_1[36];
};
struct QIB_7322_RxCreditVL0_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxCreditVL0_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaBufUsed0_0_offset 0x00001480UL
struct QIB_7322_SendDmaBufUsed0_0_pb {
pseudo_bit_t BufUsed_63_0[64];
};
struct QIB_7322_SendDmaBufUsed0_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaBufUsed0_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaReqTagUsed_0_offset 0x00001498UL
struct QIB_7322_SendDmaReqTagUsed_0_pb {
pseudo_bit_t ReqTagUsed_7_0[8];
pseudo_bit_t _unused_0[56];
};
struct QIB_7322_SendDmaReqTagUsed_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaReqTagUsed_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendCheckControl_0_offset 0x000014a8UL
struct QIB_7322_SendCheckControl_0_pb {
pseudo_bit_t PacketTooSmall_En[1];
pseudo_bit_t RawIPV6_En[1];
pseudo_bit_t SLID_En[1];
pseudo_bit_t BTHQP_En[1];
pseudo_bit_t PKey_En[1];
pseudo_bit_t _unused_0[59];
};
struct QIB_7322_SendCheckControl_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendCheckControl_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendIBSLIDMask_0_offset 0x000014b0UL
struct QIB_7322_SendIBSLIDMask_0_pb {
pseudo_bit_t SendIBSLIDMask_15_0[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendIBSLIDMask_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendIBSLIDMask_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendIBSLIDAssign_0_offset 0x000014b8UL
struct QIB_7322_SendIBSLIDAssign_0_pb {
pseudo_bit_t SendIBSLIDAssign_15_0[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendIBSLIDAssign_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendIBSLIDAssign_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBCStatusA_0_offset 0x00001540UL
struct QIB_7322_IBCStatusA_0_pb {
pseudo_bit_t LinkTrainingState[5];
pseudo_bit_t LinkState[3];
pseudo_bit_t LinkSpeedActive[1];
pseudo_bit_t LinkWidthActive[1];
pseudo_bit_t DDS_RXEQ_FAIL[1];
pseudo_bit_t _unused_0[1];
pseudo_bit_t IBRxLaneReversed[1];
pseudo_bit_t IBTxLaneReversed[1];
pseudo_bit_t ScrambleEn[1];
pseudo_bit_t ScrambleCapRemote[1];
pseudo_bit_t _unused_1[13];
pseudo_bit_t LinkSpeedQDR[1];
pseudo_bit_t TxReady[1];
pseudo_bit_t _unused_2[1];
pseudo_bit_t TxCreditOk_VL0[1];
pseudo_bit_t TxCreditOk_VL1[1];
pseudo_bit_t TxCreditOk_VL2[1];
pseudo_bit_t TxCreditOk_VL3[1];
pseudo_bit_t TxCreditOk_VL4[1];
pseudo_bit_t TxCreditOk_VL5[1];
pseudo_bit_t TxCreditOk_VL6[1];
pseudo_bit_t TxCreditOk_VL7[1];
pseudo_bit_t _unused_3[24];
};
struct QIB_7322_IBCStatusA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBCStatusA_0_pb );
};
/* Default value: 0x0000000000000X02 */
#define QIB_7322_IBCStatusB_0_offset 0x00001548UL
struct QIB_7322_IBCStatusB_0_pb {
pseudo_bit_t LinkRoundTripLatency[26];
pseudo_bit_t ReqDDSLocalFromRmt[4];
pseudo_bit_t RxEqLocalDevice[2];
pseudo_bit_t heartbeat_crosstalk[4];
pseudo_bit_t heartbeat_timed_out[1];
pseudo_bit_t ibsd_adaptation_timer_started[1];
pseudo_bit_t ibsd_adaptation_timer_reached_threshold[1];
pseudo_bit_t ibsd_adaptation_timer_debug[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_IBCStatusB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBCStatusB_0_pb );
};
/* Default value: 0x00000000XXXXXXXX */
#define QIB_7322_IBCCtrlA_0_offset 0x00001560UL
struct QIB_7322_IBCCtrlA_0_pb {
pseudo_bit_t FlowCtrlPeriod[8];
pseudo_bit_t FlowCtrlWaterMark[8];
pseudo_bit_t LinkInitCmd[3];
pseudo_bit_t LinkCmd[2];
pseudo_bit_t MaxPktLen[11];
pseudo_bit_t PhyerrThreshold[4];
pseudo_bit_t OverrunThreshold[4];
pseudo_bit_t _unused_0[8];
pseudo_bit_t NumVLane[3];
pseudo_bit_t _unused_1[9];
pseudo_bit_t IBStatIntReductionEn[1];
pseudo_bit_t IBLinkEn[1];
pseudo_bit_t LinkDownDefaultState[1];
pseudo_bit_t Loopback[1];
};
struct QIB_7322_IBCCtrlA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBCCtrlA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBCCtrlB_0_offset 0x00001568UL
struct QIB_7322_IBCCtrlB_0_pb {
pseudo_bit_t IB_ENHANCED_MODE[1];
pseudo_bit_t SD_SPEED[1];
pseudo_bit_t SD_SPEED_SDR[1];
pseudo_bit_t SD_SPEED_DDR[1];
pseudo_bit_t SD_SPEED_QDR[1];
pseudo_bit_t IB_NUM_CHANNELS[2];
pseudo_bit_t IB_POLARITY_REV_SUPP[1];
pseudo_bit_t IB_LANE_REV_SUPPORTED[1];
pseudo_bit_t SD_RX_EQUAL_ENABLE[1];
pseudo_bit_t SD_ADD_ENB[1];
pseudo_bit_t SD_DDSV[1];
pseudo_bit_t SD_DDS[4];
pseudo_bit_t HRTBT_ENB[1];
pseudo_bit_t HRTBT_AUTO[1];
pseudo_bit_t HRTBT_PORT[8];
pseudo_bit_t HRTBT_REQ[1];
pseudo_bit_t IB_ENABLE_FILT_DPKT[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t IB_DLID[16];
pseudo_bit_t IB_DLID_MASK[16];
};
struct QIB_7322_IBCCtrlB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBCCtrlB_0_pb );
};
/* Default value: 0x00000000000305FF */
#define QIB_7322_IBCCtrlC_0_offset 0x00001570UL
struct QIB_7322_IBCCtrlC_0_pb {
pseudo_bit_t IB_FRONT_PORCH[5];
pseudo_bit_t IB_BACK_PORCH[5];
pseudo_bit_t _unused_0[54];
};
struct QIB_7322_IBCCtrlC_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBCCtrlC_0_pb );
};
/* Default value: 0x0000000000000301 */
#define QIB_7322_HRTBT_GUID_0_offset 0x00001588UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IB_SDTEST_IF_TX_0_offset 0x00001590UL
struct QIB_7322_IB_SDTEST_IF_TX_0_pb {
pseudo_bit_t TS_T_TX_VALID[1];
pseudo_bit_t TS_3_TX_VALID[1];
pseudo_bit_t VL_CAP[2];
pseudo_bit_t CREDIT_CHANGE[1];
pseudo_bit_t _unused_0[6];
pseudo_bit_t TS_TX_OPCODE[2];
pseudo_bit_t TS_TX_SPEED[3];
pseudo_bit_t _unused_1[16];
pseudo_bit_t TS_TX_TX_CFG[16];
pseudo_bit_t TS_TX_RX_CFG[16];
};
struct QIB_7322_IB_SDTEST_IF_TX_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IB_SDTEST_IF_TX_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IB_SDTEST_IF_RX_0_offset 0x00001598UL
struct QIB_7322_IB_SDTEST_IF_RX_0_pb {
pseudo_bit_t TS_T_RX_VALID[1];
pseudo_bit_t TS_3_RX_VALID[1];
pseudo_bit_t _unused_0[14];
pseudo_bit_t TS_RX_A[8];
pseudo_bit_t TS_RX_B[8];
pseudo_bit_t TS_RX_TX_CFG[16];
pseudo_bit_t TS_RX_RX_CFG[16];
};
struct QIB_7322_IB_SDTEST_IF_RX_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IB_SDTEST_IF_RX_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBNCModeCtrl_0_offset 0x000015b8UL
struct QIB_7322_IBNCModeCtrl_0_pb {
pseudo_bit_t TSMEnable_send_TS1[1];
pseudo_bit_t TSMEnable_send_TS2[1];
pseudo_bit_t TSMEnable_ignore_TSM_on_rx[1];
pseudo_bit_t _unused_0[5];
pseudo_bit_t TSMCode_TS1[9];
pseudo_bit_t TSMCode_TS2[9];
pseudo_bit_t _unused_1[6];
pseudo_bit_t ScrambleCapLocal[1];
pseudo_bit_t ScrambleCapRemoteMask[1];
pseudo_bit_t ScrambleCapRemoteForce[1];
pseudo_bit_t _unused_2[29];
};
struct QIB_7322_IBNCModeCtrl_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBNCModeCtrl_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBSerdesStatus_0_offset 0x000015d0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBPCSConfig_0_offset 0x000015d8UL
struct QIB_7322_IBPCSConfig_0_pb {
pseudo_bit_t tx_rx_reset[1];
pseudo_bit_t xcv_treset[1];
pseudo_bit_t xcv_rreset[1];
pseudo_bit_t _unused_0[6];
pseudo_bit_t link_sync_mask[10];
pseudo_bit_t _unused_1[45];
};
struct QIB_7322_IBPCSConfig_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBPCSConfig_0_pb );
};
/* Default value: 0x0000000000000007 */
#define QIB_7322_IBSerdesCtrl_0_offset 0x000015e0UL
struct QIB_7322_IBSerdesCtrl_0_pb {
pseudo_bit_t CMODE[7];
pseudo_bit_t _unused_0[1];
pseudo_bit_t TXIDLE[1];
pseudo_bit_t RXPD[1];
pseudo_bit_t TXPD[1];
pseudo_bit_t PLLPD[1];
pseudo_bit_t LPEN[1];
pseudo_bit_t RXLOSEN[1];
pseudo_bit_t _unused_1[1];
pseudo_bit_t IB_LAT_MODE[1];
pseudo_bit_t CGMODE[4];
pseudo_bit_t CHANNEL_RESET_N[4];
pseudo_bit_t DISABLE_RXLATOFF_SDR[1];
pseudo_bit_t DISABLE_RXLATOFF_DDR[1];
pseudo_bit_t DISABLE_RXLATOFF_QDR[1];
pseudo_bit_t _unused_2[37];
};
struct QIB_7322_IBSerdesCtrl_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBSerdesCtrl_0_pb );
};
/* Default value: 0x0000000000FFA00F */
#define QIB_7322_IBSD_TX_DEEMPHASIS_OVERRIDE_0_offset 0x00001600UL
struct QIB_7322_IBSD_TX_DEEMPHASIS_OVERRIDE_0_pb {
pseudo_bit_t txcn1_ena[3];
pseudo_bit_t txcn1_xtra_emph0[2];
pseudo_bit_t txcp1_ena[4];
pseudo_bit_t txc0_ena[5];
pseudo_bit_t txampcntl_d2a[4];
pseudo_bit_t _unused_0[12];
pseudo_bit_t reset_tx_deemphasis_override[1];
pseudo_bit_t tx_override_deemphasis_select[1];
pseudo_bit_t _unused_1[32];
};
struct QIB_7322_IBSD_TX_DEEMPHASIS_OVERRIDE_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBSD_TX_DEEMPHASIS_OVERRIDE_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_STATIC_SDR_0_offset 0x00001640UL
struct QIB_7322_ADAPT_DISABLE_STATIC_SDR_0_pb {
pseudo_bit_t static_disable_rxenadfe_sdr_ch0[8];
pseudo_bit_t static_disable_rxenadfe_sdr_ch1[8];
pseudo_bit_t static_disable_rxenadfe_sdr_ch2[8];
pseudo_bit_t static_disable_rxenadfe_sdr_ch3[8];
pseudo_bit_t static_disable_rxenale_sdr_ch0[1];
pseudo_bit_t static_disable_rxenale_sdr_ch1[1];
pseudo_bit_t static_disable_rxenale_sdr_ch2[1];
pseudo_bit_t static_disable_rxenale_sdr_ch3[1];
pseudo_bit_t static_disable_rxenagain_sdr_ch0[1];
pseudo_bit_t static_disable_rxenagain_sdr_ch1[1];
pseudo_bit_t static_disable_rxenagain_sdr_ch2[1];
pseudo_bit_t static_disable_rxenagain_sdr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_STATIC_SDR_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_STATIC_SDR_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_DYNAMIC_SDR_0_offset 0x00001648UL
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_SDR_0_pb {
pseudo_bit_t dyn_disable_rxenadfe_sdr_ch0[8];
pseudo_bit_t dyn_disable_rxenadfe_sdr_ch1[8];
pseudo_bit_t dyn_disable_rxenadfe_sdr_ch2[8];
pseudo_bit_t dyn_disable_rxenadfe_sdr_ch3[8];
pseudo_bit_t dyn_disable_rxenale_sdr_ch0[1];
pseudo_bit_t dyn_disable_rxenale_sdr_ch1[1];
pseudo_bit_t dyn_disable_rxenale_sdr_ch2[1];
pseudo_bit_t dyn_disable_rxenale_sdr_ch3[1];
pseudo_bit_t dyn_disable_rxenagain_sdr_ch0[1];
pseudo_bit_t dyn_disable_rxenagain_sdr_ch1[1];
pseudo_bit_t dyn_disable_rxenagain_sdr_ch2[1];
pseudo_bit_t dyn_disable_rxenagain_sdr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_SDR_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_DYNAMIC_SDR_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_STATIC_DDR_0_offset 0x00001650UL
struct QIB_7322_ADAPT_DISABLE_STATIC_DDR_0_pb {
pseudo_bit_t static_disable_rxenadfe_ddr_ch0[8];
pseudo_bit_t static_disable_rxenadfe_ddr_ch1[8];
pseudo_bit_t static_disable_rxenadfe_ddr_ch2[8];
pseudo_bit_t static_disable_rxenadfe_ddr_ch3[8];
pseudo_bit_t static_disable_rxenale_ddr_ch0[1];
pseudo_bit_t static_disable_rxenale_ddr_ch1[1];
pseudo_bit_t static_disable_rxenale_ddr_ch2[1];
pseudo_bit_t static_disable_rxenale_ddr_ch3[1];
pseudo_bit_t static_disable_rxenagain_ddr_ch0[1];
pseudo_bit_t static_disable_rxenagain_ddr_ch1[1];
pseudo_bit_t static_disable_rxenagain_ddr_ch2[1];
pseudo_bit_t static_disable_rxenagain_ddr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_STATIC_DDR_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_STATIC_DDR_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_DYNAMIC_DDR_0_offset 0x00001658UL
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_DDR_0_pb {
pseudo_bit_t dyn_disable_rxenadfe_ddr_ch0[8];
pseudo_bit_t dyn_disable_rxenadfe_ddr_ch1[8];
pseudo_bit_t dyn_disable_rxenadfe_ddr_ch2[8];
pseudo_bit_t dyn_disable_rxenadfe_ddr_ch3[8];
pseudo_bit_t dyn_disable_rxenale_ddr_ch0[1];
pseudo_bit_t dyn_disable_rxenale_ddr_ch1[1];
pseudo_bit_t dyn_disable_rxenale_ddr_ch2[1];
pseudo_bit_t dyn_disable_rxenale_ddr_ch3[1];
pseudo_bit_t dyn_disable_rxenagain_ddr_ch0[1];
pseudo_bit_t dyn_disable_rxenagain_ddr_ch1[1];
pseudo_bit_t dyn_disable_rxenagain_ddr_ch2[1];
pseudo_bit_t dyn_disable_rxenagain_ddr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_DDR_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_DYNAMIC_DDR_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_STATIC_QDR_0_offset 0x00001660UL
struct QIB_7322_ADAPT_DISABLE_STATIC_QDR_0_pb {
pseudo_bit_t static_disable_rxenadfe_qdr_ch0[8];
pseudo_bit_t static_disable_rxenadfe_qdr_ch1[8];
pseudo_bit_t static_disable_rxenadfe_qdr_ch2[8];
pseudo_bit_t static_disable_rxenadfe_qdr_ch3[8];
pseudo_bit_t static_disable_rxenale_qdr_ch0[1];
pseudo_bit_t static_disable_rxenale_qdr_ch1[1];
pseudo_bit_t static_disable_rxenale_qdr_ch2[1];
pseudo_bit_t static_disable_rxenale_qdr_ch3[1];
pseudo_bit_t static_disable_rxenagain_qdr_ch0[1];
pseudo_bit_t static_disable_rxenagain_qdr_ch1[1];
pseudo_bit_t static_disable_rxenagain_qdr_ch2[1];
pseudo_bit_t static_disable_rxenagain_qdr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_STATIC_QDR_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_STATIC_QDR_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_DYNAMIC_QDR_0_offset 0x00001668UL
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_QDR_0_pb {
pseudo_bit_t dyn_disable_rxenadfe_qdr_ch0[8];
pseudo_bit_t dyn_disable_rxenadfe_qdr_ch1[8];
pseudo_bit_t dyn_disable_rxenadfe_qdr_ch2[8];
pseudo_bit_t dyn_disable_rxenadfe_qdr_ch3[8];
pseudo_bit_t dyn_disable_rxenale_qdr_ch0[1];
pseudo_bit_t dyn_disable_rxenale_qdr_ch1[1];
pseudo_bit_t dyn_disable_rxenale_qdr_ch2[1];
pseudo_bit_t dyn_disable_rxenale_qdr_ch3[1];
pseudo_bit_t dyn_disable_rxenagain_qdr_ch0[1];
pseudo_bit_t dyn_disable_rxenagain_qdr_ch1[1];
pseudo_bit_t dyn_disable_rxenagain_qdr_ch2[1];
pseudo_bit_t dyn_disable_rxenagain_qdr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_QDR_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_DYNAMIC_QDR_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_TIMER_THRESHOLD_0_offset 0x00001670UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrUnCorErrLogA_0_offset 0x00001800UL
struct QIB_7322_RxBufrUnCorErrLogA_0_pb {
pseudo_bit_t RxBufrUnCorErrData_63_0[64];
};
struct QIB_7322_RxBufrUnCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrUnCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrUnCorErrLogB_0_offset 0x00001808UL
struct QIB_7322_RxBufrUnCorErrLogB_0_pb {
pseudo_bit_t RxBufrUnCorErrData_127_64[64];
};
struct QIB_7322_RxBufrUnCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrUnCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrUnCorErrLogC_0_offset 0x00001810UL
struct QIB_7322_RxBufrUnCorErrLogC_0_pb {
pseudo_bit_t RxBufrUnCorErrData_191_128[64];
};
struct QIB_7322_RxBufrUnCorErrLogC_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrUnCorErrLogC_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrUnCorErrLogD_0_offset 0x00001818UL
struct QIB_7322_RxBufrUnCorErrLogD_0_pb {
pseudo_bit_t RxBufrUnCorErrData_255_192[64];
};
struct QIB_7322_RxBufrUnCorErrLogD_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrUnCorErrLogD_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrUnCorErrLogE_0_offset 0x00001820UL
struct QIB_7322_RxBufrUnCorErrLogE_0_pb {
pseudo_bit_t RxBufrUnCorErrData_258_256[3];
pseudo_bit_t RxBufrUnCorErrCheckBit_36_0[37];
pseudo_bit_t RxBufrUnCorErrAddr_15_0[16];
pseudo_bit_t _unused_0[8];
};
struct QIB_7322_RxBufrUnCorErrLogE_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrUnCorErrLogE_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlagUnCorErrLogA_0_offset 0x00001828UL
struct QIB_7322_RxFlagUnCorErrLogA_0_pb {
pseudo_bit_t RxFlagUnCorErrData_63_0[64];
};
struct QIB_7322_RxFlagUnCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxFlagUnCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlagUnCorErrLogB_0_offset 0x00001830UL
struct QIB_7322_RxFlagUnCorErrLogB_0_pb {
pseudo_bit_t RxFlagUnCorErrCheckBit_7_0[8];
pseudo_bit_t RxFlagUnCorErrAddr_12_0[13];
pseudo_bit_t _unused_0[43];
};
struct QIB_7322_RxFlagUnCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxFlagUnCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLkupiqUnCorErrLogA_0_offset 0x00001840UL
struct QIB_7322_RxLkupiqUnCorErrLogA_0_pb {
pseudo_bit_t RxLkupiqUnCorErrData_45_0[46];
pseudo_bit_t RxLkupiqUnCorErrCheckBit_7_0[8];
pseudo_bit_t _unused_0[10];
};
struct QIB_7322_RxLkupiqUnCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxLkupiqUnCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLkupiqUnCorErrLogB_0_offset 0x00001848UL
struct QIB_7322_RxLkupiqUnCorErrLogB_0_pb {
pseudo_bit_t RxLkupiqUnCorErrAddr_12_0[13];
pseudo_bit_t _unused_0[51];
};
struct QIB_7322_RxLkupiqUnCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxLkupiqUnCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoUnCorErrLogA_0_offset 0x00001850UL
struct QIB_7322_RxHdrFifoUnCorErrLogA_0_pb {
pseudo_bit_t RxHdrFifoUnCorErrData_63_0[64];
};
struct QIB_7322_RxHdrFifoUnCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoUnCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoUnCorErrLogB_0_offset 0x00001858UL
struct QIB_7322_RxHdrFifoUnCorErrLogB_0_pb {
pseudo_bit_t RxHdrFifoUnCorErrData_127_64[64];
};
struct QIB_7322_RxHdrFifoUnCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoUnCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoUnCorErrLogC_0_offset 0x00001860UL
struct QIB_7322_RxHdrFifoUnCorErrLogC_0_pb {
pseudo_bit_t RxHdrFifoUnCorErrCheckBit_15_0[16];
pseudo_bit_t RxHdrFifoUnCorErrAddr_10_0[11];
pseudo_bit_t _unused_0[37];
};
struct QIB_7322_RxHdrFifoUnCorErrLogC_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoUnCorErrLogC_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoUnCorErrLogA_0_offset 0x00001868UL
struct QIB_7322_RxDataFifoUnCorErrLogA_0_pb {
pseudo_bit_t RxDataFifoUnCorErrData_63_0[64];
};
struct QIB_7322_RxDataFifoUnCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoUnCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoUnCorErrLogB_0_offset 0x00001870UL
struct QIB_7322_RxDataFifoUnCorErrLogB_0_pb {
pseudo_bit_t RxDataFifoUnCorErrData_127_64[64];
};
struct QIB_7322_RxDataFifoUnCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoUnCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoUnCorErrLogC_0_offset 0x00001878UL
struct QIB_7322_RxDataFifoUnCorErrLogC_0_pb {
pseudo_bit_t RxDataFifoUnCorErrCheckBit_15_0[16];
pseudo_bit_t RxDataFifoUnCorErrAddr_10_0[11];
pseudo_bit_t _unused_0[37];
};
struct QIB_7322_RxDataFifoUnCorErrLogC_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoUnCorErrLogC_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_LaFifoArray0UnCorErrLog_0_offset 0x00001880UL
struct QIB_7322_LaFifoArray0UnCorErrLog_0_pb {
pseudo_bit_t LaFifoArray0UnCorErrData_34_0[35];
pseudo_bit_t LaFifoArray0UnCorErrCheckBit_10_0[11];
pseudo_bit_t LaFifoArray0UnCorErrAddr_10_0[11];
pseudo_bit_t _unused_0[7];
};
struct QIB_7322_LaFifoArray0UnCorErrLog_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_LaFifoArray0UnCorErrLog_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayUnCorErrLogA_0_offset 0x000018c0UL
struct QIB_7322_RmFifoArrayUnCorErrLogA_0_pb {
pseudo_bit_t RmFifoArrayUnCorErrData_63_0[64];
};
struct QIB_7322_RmFifoArrayUnCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayUnCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayUnCorErrLogB_0_offset 0x000018c8UL
struct QIB_7322_RmFifoArrayUnCorErrLogB_0_pb {
pseudo_bit_t RmFifoArrayUnCorErrData_127_64[64];
};
struct QIB_7322_RmFifoArrayUnCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayUnCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayUnCorErrLogC_0_offset 0x000018d0UL
struct QIB_7322_RmFifoArrayUnCorErrLogC_0_pb {
pseudo_bit_t RmFifoArrayUnCorErrCheckBit_27_0[28];
pseudo_bit_t RmFifoArrayUnCorErrAddr_13_0[14];
pseudo_bit_t _unused_0[18];
pseudo_bit_t RmFifoArrayUnCorErrDword_3_0[4];
};
struct QIB_7322_RmFifoArrayUnCorErrLogC_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayUnCorErrLogC_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrCorErrLogA_0_offset 0x00001900UL
struct QIB_7322_RxBufrCorErrLogA_0_pb {
pseudo_bit_t RxBufrCorErrData_63_0[64];
};
struct QIB_7322_RxBufrCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrCorErrLogB_0_offset 0x00001908UL
struct QIB_7322_RxBufrCorErrLogB_0_pb {
pseudo_bit_t RxBufrCorErrData_127_64[64];
};
struct QIB_7322_RxBufrCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrCorErrLogC_0_offset 0x00001910UL
struct QIB_7322_RxBufrCorErrLogC_0_pb {
pseudo_bit_t RxBufrCorErrData_191_128[64];
};
struct QIB_7322_RxBufrCorErrLogC_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrCorErrLogC_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrCorErrLogD_0_offset 0x00001918UL
struct QIB_7322_RxBufrCorErrLogD_0_pb {
pseudo_bit_t RxBufrCorErrData_255_192[64];
};
struct QIB_7322_RxBufrCorErrLogD_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrCorErrLogD_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrCorErrLogE_0_offset 0x00001920UL
struct QIB_7322_RxBufrCorErrLogE_0_pb {
pseudo_bit_t RxBufrCorErrData_258_256[3];
pseudo_bit_t RxBufrCorErrCheckBit_36_0[37];
pseudo_bit_t RxBufrCorErrAddr_15_0[16];
pseudo_bit_t _unused_0[8];
};
struct QIB_7322_RxBufrCorErrLogE_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrCorErrLogE_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlagCorErrLogA_0_offset 0x00001928UL
struct QIB_7322_RxFlagCorErrLogA_0_pb {
pseudo_bit_t RxFlagCorErrData_63_0[64];
};
struct QIB_7322_RxFlagCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxFlagCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlagCorErrLogB_0_offset 0x00001930UL
struct QIB_7322_RxFlagCorErrLogB_0_pb {
pseudo_bit_t RxFlagCorErrCheckBit_7_0[8];
pseudo_bit_t RxFlagCorErrAddr_12_0[13];
pseudo_bit_t _unused_0[43];
};
struct QIB_7322_RxFlagCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxFlagCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLkupiqCorErrLogA_0_offset 0x00001940UL
struct QIB_7322_RxLkupiqCorErrLogA_0_pb {
pseudo_bit_t RxLkupiqCorErrData_45_0[46];
pseudo_bit_t RxLkupiqCorErrCheckBit_7_0[8];
pseudo_bit_t _unused_0[10];
};
struct QIB_7322_RxLkupiqCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxLkupiqCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLkupiqCorErrLogB_0_offset 0x00001948UL
struct QIB_7322_RxLkupiqCorErrLogB_0_pb {
pseudo_bit_t RxLkupiqCorErrAddr_12_0[13];
pseudo_bit_t _unused_0[51];
};
struct QIB_7322_RxLkupiqCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxLkupiqCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoCorErrLogA_0_offset 0x00001950UL
struct QIB_7322_RxHdrFifoCorErrLogA_0_pb {
pseudo_bit_t RxHdrFifoCorErrData_63_0[64];
};
struct QIB_7322_RxHdrFifoCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoCorErrLogB_0_offset 0x00001958UL
struct QIB_7322_RxHdrFifoCorErrLogB_0_pb {
pseudo_bit_t RxHdrFifoCorErrData_127_64[64];
};
struct QIB_7322_RxHdrFifoCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoCorErrLogC_0_offset 0x00001960UL
struct QIB_7322_RxHdrFifoCorErrLogC_0_pb {
pseudo_bit_t RxHdrFifoCorErrCheckBit_15_0[16];
pseudo_bit_t RxHdrFifoCorErrAddr_10_0[11];
pseudo_bit_t _unused_0[37];
};
struct QIB_7322_RxHdrFifoCorErrLogC_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoCorErrLogC_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoCorErrLogA_0_offset 0x00001968UL
struct QIB_7322_RxDataFifoCorErrLogA_0_pb {
pseudo_bit_t RxDataFifoCorErrData_63_0[64];
};
struct QIB_7322_RxDataFifoCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoCorErrLogB_0_offset 0x00001970UL
struct QIB_7322_RxDataFifoCorErrLogB_0_pb {
pseudo_bit_t RxDataFifoCorErrData_127_64[64];
};
struct QIB_7322_RxDataFifoCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoCorErrLogC_0_offset 0x00001978UL
struct QIB_7322_RxDataFifoCorErrLogC_0_pb {
pseudo_bit_t RxDataFifoCorErrCheckBit_15_0[16];
pseudo_bit_t RxDataFifoCorErrAddr_10_0[11];
pseudo_bit_t _unused_0[37];
};
struct QIB_7322_RxDataFifoCorErrLogC_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoCorErrLogC_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_LaFifoArray0CorErrLog_0_offset 0x00001980UL
struct QIB_7322_LaFifoArray0CorErrLog_0_pb {
pseudo_bit_t LaFifoArray0CorErrData_34_0[35];
pseudo_bit_t LaFifoArray0CorErrCheckBit_10_0[11];
pseudo_bit_t LaFifoArray0CorErrAddr_10_0[11];
pseudo_bit_t _unused_0[7];
};
struct QIB_7322_LaFifoArray0CorErrLog_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_LaFifoArray0CorErrLog_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayCorErrLogA_0_offset 0x000019c0UL
struct QIB_7322_RmFifoArrayCorErrLogA_0_pb {
pseudo_bit_t RmFifoArrayCorErrData_63_0[64];
};
struct QIB_7322_RmFifoArrayCorErrLogA_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayCorErrLogA_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayCorErrLogB_0_offset 0x000019c8UL
struct QIB_7322_RmFifoArrayCorErrLogB_0_pb {
pseudo_bit_t RmFifoArrayCorErrData_127_64[64];
};
struct QIB_7322_RmFifoArrayCorErrLogB_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayCorErrLogB_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayCorErrLogC_0_offset 0x000019d0UL
struct QIB_7322_RmFifoArrayCorErrLogC_0_pb {
pseudo_bit_t RmFifoArrayCorErrCheckBit_27_0[28];
pseudo_bit_t RmFifoArrayCorErrAddr_13_0[14];
pseudo_bit_t _unused_0[18];
pseudo_bit_t RmFifoArrayCorErrDword_3_0[4];
};
struct QIB_7322_RmFifoArrayCorErrLogC_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayCorErrLogC_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_HighPriorityLimit_0_offset 0x00001bc0UL
struct QIB_7322_HighPriorityLimit_0_pb {
pseudo_bit_t Limit[8];
pseudo_bit_t _unused_0[56];
};
struct QIB_7322_HighPriorityLimit_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_HighPriorityLimit_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_LowPriority0_0_offset 0x00001c00UL
struct QIB_7322_LowPriority0_0_pb {
pseudo_bit_t Weight[8];
pseudo_bit_t _unused_0[8];
pseudo_bit_t VirtualLane[3];
pseudo_bit_t _unused_1[45];
};
struct QIB_7322_LowPriority0_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_LowPriority0_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_HighPriority0_0_offset 0x00001e00UL
struct QIB_7322_HighPriority0_0_pb {
pseudo_bit_t Weight[8];
pseudo_bit_t _unused_0[8];
pseudo_bit_t VirtualLane[3];
pseudo_bit_t _unused_1[45];
};
struct QIB_7322_HighPriority0_0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_HighPriority0_0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_CntrRegBase_1_offset 0x00002028UL
/* Default value: 0x0000000000013000 */
#define QIB_7322_ErrMask_1_offset 0x00002080UL
struct QIB_7322_ErrMask_1_pb {
pseudo_bit_t RcvFormatErrMask[1];
pseudo_bit_t RcvVCRCErrMask[1];
pseudo_bit_t RcvICRCErrMask[1];
pseudo_bit_t RcvMinPktLenErrMask[1];
pseudo_bit_t RcvMaxPktLenErrMask[1];
pseudo_bit_t RcvLongPktLenErrMask[1];
pseudo_bit_t RcvShortPktLenErrMask[1];
pseudo_bit_t RcvUnexpectedCharErrMask[1];
pseudo_bit_t RcvUnsupportedVLErrMask[1];
pseudo_bit_t RcvEBPErrMask[1];
pseudo_bit_t RcvIBFlowErrMask[1];
pseudo_bit_t RcvBadVersionErrMask[1];
pseudo_bit_t _unused_0[2];
pseudo_bit_t RcvBadTidErrMask[1];
pseudo_bit_t RcvHdrLenErrMask[1];
pseudo_bit_t RcvHdrErrMask[1];
pseudo_bit_t RcvIBLostLinkErrMask[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SendMinPktLenErrMask[1];
pseudo_bit_t SendMaxPktLenErrMask[1];
pseudo_bit_t SendUnderRunErrMask[1];
pseudo_bit_t SendPktLenErrMask[1];
pseudo_bit_t SendDroppedSmpPktErrMask[1];
pseudo_bit_t SendDroppedDataPktErrMask[1];
pseudo_bit_t _unused_2[1];
pseudo_bit_t SendUnexpectedPktNumErrMask[1];
pseudo_bit_t SendUnsupportedVLErrMask[1];
pseudo_bit_t SendBufMisuseErrMask[1];
pseudo_bit_t SDmaGenMismatchErrMask[1];
pseudo_bit_t SDmaOutOfBoundErrMask[1];
pseudo_bit_t SDmaTailOutOfBoundErrMask[1];
pseudo_bit_t SDmaBaseErrMask[1];
pseudo_bit_t SDma1stDescErrMask[1];
pseudo_bit_t SDmaRpyTagErrMask[1];
pseudo_bit_t SDmaDwEnErrMask[1];
pseudo_bit_t SDmaMissingDwErrMask[1];
pseudo_bit_t SDmaUnexpDataErrMask[1];
pseudo_bit_t SDmaDescAddrMisalignErrMask[1];
pseudo_bit_t SDmaHaltErrMask[1];
pseudo_bit_t _unused_3[4];
pseudo_bit_t VL15BufMisuseErrMask[1];
pseudo_bit_t _unused_4[2];
pseudo_bit_t SHeadersErrMask[1];
pseudo_bit_t IBStatusChangedMask[1];
pseudo_bit_t _unused_5[5];
};
struct QIB_7322_ErrMask_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ErrMask_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ErrStatus_1_offset 0x00002088UL
struct QIB_7322_ErrStatus_1_pb {
pseudo_bit_t RcvFormatErr[1];
pseudo_bit_t RcvVCRCErr[1];
pseudo_bit_t RcvICRCErr[1];
pseudo_bit_t RcvMinPktLenErr[1];
pseudo_bit_t RcvMaxPktLenErr[1];
pseudo_bit_t RcvLongPktLenErr[1];
pseudo_bit_t RcvShortPktLenErr[1];
pseudo_bit_t RcvUnexpectedCharErr[1];
pseudo_bit_t RcvUnsupportedVLErr[1];
pseudo_bit_t RcvEBPErr[1];
pseudo_bit_t RcvIBFlowErr[1];
pseudo_bit_t RcvBadVersionErr[1];
pseudo_bit_t _unused_0[2];
pseudo_bit_t RcvBadTidErr[1];
pseudo_bit_t RcvHdrLenErr[1];
pseudo_bit_t RcvHdrErr[1];
pseudo_bit_t RcvIBLostLinkErr[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SendMinPktLenErr[1];
pseudo_bit_t SendMaxPktLenErr[1];
pseudo_bit_t SendUnderRunErr[1];
pseudo_bit_t SendPktLenErr[1];
pseudo_bit_t SendDroppedSmpPktErr[1];
pseudo_bit_t SendDroppedDataPktErr[1];
pseudo_bit_t _unused_2[1];
pseudo_bit_t SendUnexpectedPktNumErr[1];
pseudo_bit_t SendUnsupportedVLErr[1];
pseudo_bit_t SendBufMisuseErr[1];
pseudo_bit_t SDmaGenMismatchErr[1];
pseudo_bit_t SDmaOutOfBoundErr[1];
pseudo_bit_t SDmaTailOutOfBoundErr[1];
pseudo_bit_t SDmaBaseErr[1];
pseudo_bit_t SDma1stDescErr[1];
pseudo_bit_t SDmaRpyTagErr[1];
pseudo_bit_t SDmaDwEnErr[1];
pseudo_bit_t SDmaMissingDwErr[1];
pseudo_bit_t SDmaUnexpDataErr[1];
pseudo_bit_t SDmaDescAddrMisalignErr[1];
pseudo_bit_t SDmaHaltErr[1];
pseudo_bit_t _unused_3[4];
pseudo_bit_t VL15BufMisuseErr[1];
pseudo_bit_t _unused_4[2];
pseudo_bit_t SHeadersErr[1];
pseudo_bit_t IBStatusChanged[1];
pseudo_bit_t _unused_5[5];
};
struct QIB_7322_ErrStatus_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ErrStatus_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ErrClear_1_offset 0x00002090UL
struct QIB_7322_ErrClear_1_pb {
pseudo_bit_t RcvFormatErrClear[1];
pseudo_bit_t RcvVCRCErrClear[1];
pseudo_bit_t RcvICRCErrClear[1];
pseudo_bit_t RcvMinPktLenErrClear[1];
pseudo_bit_t RcvMaxPktLenErrClear[1];
pseudo_bit_t RcvLongPktLenErrClear[1];
pseudo_bit_t RcvShortPktLenErrClear[1];
pseudo_bit_t RcvUnexpectedCharErrClear[1];
pseudo_bit_t RcvUnsupportedVLErrClear[1];
pseudo_bit_t RcvEBPErrClear[1];
pseudo_bit_t RcvIBFlowErrClear[1];
pseudo_bit_t RcvBadVersionErrClear[1];
pseudo_bit_t _unused_0[2];
pseudo_bit_t RcvBadTidErrClear[1];
pseudo_bit_t RcvHdrLenErrClear[1];
pseudo_bit_t RcvHdrErrClear[1];
pseudo_bit_t RcvIBLostLinkErrClear[1];
pseudo_bit_t _unused_1[11];
pseudo_bit_t SendMinPktLenErrClear[1];
pseudo_bit_t SendMaxPktLenErrClear[1];
pseudo_bit_t SendUnderRunErrClear[1];
pseudo_bit_t SendPktLenErrClear[1];
pseudo_bit_t SendDroppedSmpPktErrClear[1];
pseudo_bit_t SendDroppedDataPktErrClear[1];
pseudo_bit_t _unused_2[1];
pseudo_bit_t SendUnexpectedPktNumErrClear[1];
pseudo_bit_t SendUnsupportedVLErrClear[1];
pseudo_bit_t SendBufMisuseErrClear[1];
pseudo_bit_t SDmaGenMismatchErrClear[1];
pseudo_bit_t SDmaOutOfBoundErrClear[1];
pseudo_bit_t SDmaTailOutOfBoundErrClear[1];
pseudo_bit_t SDmaBaseErrClear[1];
pseudo_bit_t SDma1stDescErrClear[1];
pseudo_bit_t SDmaRpyTagErrClear[1];
pseudo_bit_t SDmaDwEnErrClear[1];
pseudo_bit_t SDmaMissingDwErrClear[1];
pseudo_bit_t SDmaUnexpDataErrClear[1];
pseudo_bit_t SDmaDescAddrMisalignErrClear[1];
pseudo_bit_t SDmaHaltErrClear[1];
pseudo_bit_t _unused_3[4];
pseudo_bit_t VL15BufMisuseErrClear[1];
pseudo_bit_t _unused_4[2];
pseudo_bit_t SHeadersErrClear[1];
pseudo_bit_t IBStatusChangedClear[1];
pseudo_bit_t _unused_5[5];
};
struct QIB_7322_ErrClear_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ErrClear_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_TXEStatus_1_offset 0x000020b8UL
struct QIB_7322_TXEStatus_1_pb {
pseudo_bit_t LaFifoEmpty_VL0[1];
pseudo_bit_t LaFifoEmpty_VL1[1];
pseudo_bit_t LaFifoEmpty_VL2[1];
pseudo_bit_t LaFifoEmpty_VL3[1];
pseudo_bit_t LaFifoEmpty_VL4[1];
pseudo_bit_t LaFifoEmpty_VL5[1];
pseudo_bit_t LaFifoEmpty_VL6[1];
pseudo_bit_t LaFifoEmpty_VL7[1];
pseudo_bit_t _unused_0[7];
pseudo_bit_t LaFifoEmpty_VL15[1];
pseudo_bit_t _unused_1[14];
pseudo_bit_t RmFifoEmpty[1];
pseudo_bit_t TXE_IBC_Idle[1];
pseudo_bit_t _unused_2[32];
};
struct QIB_7322_TXEStatus_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_TXEStatus_1_pb );
};
/* Default value: 0x0000000XC00080FF */
#define QIB_7322_RcvCtrl_1_offset 0x00002100UL
struct QIB_7322_RcvCtrl_1_pb {
pseudo_bit_t _unused_0[1];
pseudo_bit_t ContextEnableKernel[1];
pseudo_bit_t ContextEnableUser[16];
pseudo_bit_t _unused_1[21];
pseudo_bit_t RcvIBPortEnable[1];
pseudo_bit_t RcvQPMapEnable[1];
pseudo_bit_t RcvPartitionKeyDisable[1];
pseudo_bit_t RcvResetCredit[1];
pseudo_bit_t _unused_2[21];
};
struct QIB_7322_RcvCtrl_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvCtrl_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvBTHQP_1_offset 0x00002108UL
struct QIB_7322_RcvBTHQP_1_pb {
pseudo_bit_t RcvBTHQP[24];
pseudo_bit_t _unused_0[40];
};
struct QIB_7322_RcvBTHQP_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvBTHQP_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableA_1_offset 0x00002110UL
struct QIB_7322_RcvQPMapTableA_1_pb {
pseudo_bit_t RcvQPMapContext0[5];
pseudo_bit_t RcvQPMapContext1[5];
pseudo_bit_t RcvQPMapContext2[5];
pseudo_bit_t RcvQPMapContext3[5];
pseudo_bit_t RcvQPMapContext4[5];
pseudo_bit_t RcvQPMapContext5[5];
pseudo_bit_t _unused_0[34];
};
struct QIB_7322_RcvQPMapTableA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableB_1_offset 0x00002118UL
struct QIB_7322_RcvQPMapTableB_1_pb {
pseudo_bit_t RcvQPMapContext6[5];
pseudo_bit_t RcvQPMapContext7[5];
pseudo_bit_t RcvQPMapContext8[5];
pseudo_bit_t RcvQPMapContext9[5];
pseudo_bit_t RcvQPMapContext10[5];
pseudo_bit_t RcvQPMapContext11[5];
pseudo_bit_t _unused_0[34];
};
struct QIB_7322_RcvQPMapTableB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableC_1_offset 0x00002120UL
struct QIB_7322_RcvQPMapTableC_1_pb {
pseudo_bit_t RcvQPMapContext12[5];
pseudo_bit_t RcvQPMapContext13[5];
pseudo_bit_t RcvQPMapContext14[5];
pseudo_bit_t RcvQPMapContext15[5];
pseudo_bit_t RcvQPMapContext16[5];
pseudo_bit_t RcvQPMapContext17[5];
pseudo_bit_t _unused_0[34];
};
struct QIB_7322_RcvQPMapTableC_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableC_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableD_1_offset 0x00002128UL
struct QIB_7322_RcvQPMapTableD_1_pb {
pseudo_bit_t RcvQPMapContext18[5];
pseudo_bit_t RcvQPMapContext19[5];
pseudo_bit_t RcvQPMapContext20[5];
pseudo_bit_t RcvQPMapContext21[5];
pseudo_bit_t RcvQPMapContext22[5];
pseudo_bit_t RcvQPMapContext23[5];
pseudo_bit_t _unused_0[34];
};
struct QIB_7322_RcvQPMapTableD_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableD_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableE_1_offset 0x00002130UL
struct QIB_7322_RcvQPMapTableE_1_pb {
pseudo_bit_t RcvQPMapContext24[5];
pseudo_bit_t RcvQPMapContext25[5];
pseudo_bit_t RcvQPMapContext26[5];
pseudo_bit_t RcvQPMapContext27[5];
pseudo_bit_t RcvQPMapContext28[5];
pseudo_bit_t RcvQPMapContext29[5];
pseudo_bit_t _unused_0[34];
};
struct QIB_7322_RcvQPMapTableE_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableE_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMapTableF_1_offset 0x00002138UL
struct QIB_7322_RcvQPMapTableF_1_pb {
pseudo_bit_t RcvQPMapContext30[5];
pseudo_bit_t RcvQPMapContext31[5];
pseudo_bit_t _unused_0[54];
};
struct QIB_7322_RcvQPMapTableF_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMapTableF_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSStat_1_offset 0x00002140UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSStart_1_offset 0x00002148UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSInterval_1_offset 0x00002150UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvStatus_1_offset 0x00002160UL
struct QIB_7322_RcvStatus_1_pb {
pseudo_bit_t RxPktInProgress[1];
pseudo_bit_t DmaeqBlockingContext[5];
pseudo_bit_t _unused_0[58];
};
struct QIB_7322_RcvStatus_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvStatus_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvPartitionKey_1_offset 0x00002168UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvQPMulticastContext_1_offset 0x00002170UL
struct QIB_7322_RcvQPMulticastContext_1_pb {
pseudo_bit_t RcvQpMcContext[5];
pseudo_bit_t _unused_0[59];
};
struct QIB_7322_RcvQPMulticastContext_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvQPMulticastContext_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvPktLEDCnt_1_offset 0x00002178UL
struct QIB_7322_RcvPktLEDCnt_1_pb {
pseudo_bit_t OFFperiod[32];
pseudo_bit_t ONperiod[32];
};
struct QIB_7322_RcvPktLEDCnt_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvPktLEDCnt_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaIdleCnt_1_offset 0x00002180UL
struct QIB_7322_SendDmaIdleCnt_1_pb {
pseudo_bit_t SendDmaIdleCnt[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendDmaIdleCnt_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaIdleCnt_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaReloadCnt_1_offset 0x00002188UL
struct QIB_7322_SendDmaReloadCnt_1_pb {
pseudo_bit_t SendDmaReloadCnt[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendDmaReloadCnt_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaReloadCnt_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaDescCnt_1_offset 0x00002190UL
struct QIB_7322_SendDmaDescCnt_1_pb {
pseudo_bit_t SendDmaDescCnt[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendDmaDescCnt_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaDescCnt_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendCtrl_1_offset 0x000021c0UL
struct QIB_7322_SendCtrl_1_pb {
pseudo_bit_t TxeAbortIbc[1];
pseudo_bit_t TxeBypassIbc[1];
pseudo_bit_t _unused_0[1];
pseudo_bit_t SendEnable[1];
pseudo_bit_t _unused_1[3];
pseudo_bit_t ForceCreditUpToDate[1];
pseudo_bit_t SDmaCleanup[1];
pseudo_bit_t SDmaIntEnable[1];
pseudo_bit_t SDmaSingleDescriptor[1];
pseudo_bit_t SDmaEnable[1];
pseudo_bit_t SDmaHalt[1];
pseudo_bit_t TxeDrainLaFifo[1];
pseudo_bit_t TxeDrainRmFifo[1];
pseudo_bit_t IBVLArbiterEn[1];
pseudo_bit_t _unused_2[48];
};
struct QIB_7322_SendCtrl_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendCtrl_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaBase_1_offset 0x000021f8UL
struct QIB_7322_SendDmaBase_1_pb {
pseudo_bit_t SendDmaBase[48];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_SendDmaBase_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaBase_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaLenGen_1_offset 0x00002200UL
struct QIB_7322_SendDmaLenGen_1_pb {
pseudo_bit_t Length[16];
pseudo_bit_t Generation[3];
pseudo_bit_t _unused_0[45];
};
struct QIB_7322_SendDmaLenGen_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaLenGen_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaTail_1_offset 0x00002208UL
struct QIB_7322_SendDmaTail_1_pb {
pseudo_bit_t SendDmaTail[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendDmaTail_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaTail_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaHead_1_offset 0x00002210UL
struct QIB_7322_SendDmaHead_1_pb {
pseudo_bit_t SendDmaHead[16];
pseudo_bit_t _unused_0[16];
pseudo_bit_t InternalSendDmaHead[16];
pseudo_bit_t _unused_1[16];
};
struct QIB_7322_SendDmaHead_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaHead_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaHeadAddr_1_offset 0x00002218UL
struct QIB_7322_SendDmaHeadAddr_1_pb {
pseudo_bit_t SendDmaHeadAddr[48];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_SendDmaHeadAddr_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaHeadAddr_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaBufMask0_1_offset 0x00002220UL
struct QIB_7322_SendDmaBufMask0_1_pb {
pseudo_bit_t BufMask_63_0[64];
};
struct QIB_7322_SendDmaBufMask0_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaBufMask0_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaStatus_1_offset 0x00002238UL
struct QIB_7322_SendDmaStatus_1_pb {
pseudo_bit_t SplFifoDescIndex[16];
pseudo_bit_t SplFifoBufNum[8];
pseudo_bit_t SplFifoFull[1];
pseudo_bit_t SplFifoEmpty[1];
pseudo_bit_t SplFifoDisarmed[1];
pseudo_bit_t SplFifoReadyToGo[1];
pseudo_bit_t ScbFetchDescFlag[1];
pseudo_bit_t ScbEntryValid[1];
pseudo_bit_t ScbEmpty[1];
pseudo_bit_t ScbFull[1];
pseudo_bit_t RpyTag_7_0[8];
pseudo_bit_t RpyLowAddr_6_0[7];
pseudo_bit_t ScbDescIndex_13_0[14];
pseudo_bit_t InternalSDmaHalt[1];
pseudo_bit_t HaltInProg[1];
pseudo_bit_t ScoreBoardDrainInProg[1];
};
struct QIB_7322_SendDmaStatus_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaStatus_1_pb );
};
/* Default value: 0x0000000042000000 */
#define QIB_7322_SendDmaPriorityThld_1_offset 0x00002258UL
struct QIB_7322_SendDmaPriorityThld_1_pb {
pseudo_bit_t PriorityThreshold[4];
pseudo_bit_t _unused_0[60];
};
struct QIB_7322_SendDmaPriorityThld_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaPriorityThld_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendHdrErrSymptom_1_offset 0x00002260UL
struct QIB_7322_SendHdrErrSymptom_1_pb {
pseudo_bit_t PacketTooSmall[1];
pseudo_bit_t RawIPV6[1];
pseudo_bit_t SLIDFail[1];
pseudo_bit_t QPFail[1];
pseudo_bit_t PkeyFail[1];
pseudo_bit_t GRHFail[1];
pseudo_bit_t NonKeyPacket[1];
pseudo_bit_t _unused_0[57];
};
struct QIB_7322_SendHdrErrSymptom_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendHdrErrSymptom_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxCreditVL0_1_offset 0x00002280UL
struct QIB_7322_RxCreditVL0_1_pb {
pseudo_bit_t RxMaxCreditVL[12];
pseudo_bit_t _unused_0[4];
pseudo_bit_t RxBufrConsumedVL[12];
pseudo_bit_t _unused_1[36];
};
struct QIB_7322_RxCreditVL0_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxCreditVL0_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaBufUsed0_1_offset 0x00002480UL
struct QIB_7322_SendDmaBufUsed0_1_pb {
pseudo_bit_t BufUsed_63_0[64];
};
struct QIB_7322_SendDmaBufUsed0_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaBufUsed0_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendDmaReqTagUsed_1_offset 0x00002498UL
struct QIB_7322_SendDmaReqTagUsed_1_pb {
pseudo_bit_t ReqTagUsed_7_0[8];
pseudo_bit_t _unused_0[56];
};
struct QIB_7322_SendDmaReqTagUsed_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendDmaReqTagUsed_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendCheckControl_1_offset 0x000024a8UL
struct QIB_7322_SendCheckControl_1_pb {
pseudo_bit_t PacketTooSmall_En[1];
pseudo_bit_t RawIPV6_En[1];
pseudo_bit_t SLID_En[1];
pseudo_bit_t BTHQP_En[1];
pseudo_bit_t PKey_En[1];
pseudo_bit_t _unused_0[59];
};
struct QIB_7322_SendCheckControl_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendCheckControl_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendIBSLIDMask_1_offset 0x000024b0UL
struct QIB_7322_SendIBSLIDMask_1_pb {
pseudo_bit_t SendIBSLIDMask_15_0[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendIBSLIDMask_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendIBSLIDMask_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendIBSLIDAssign_1_offset 0x000024b8UL
struct QIB_7322_SendIBSLIDAssign_1_pb {
pseudo_bit_t SendIBSLIDAssign_15_0[16];
pseudo_bit_t _unused_0[48];
};
struct QIB_7322_SendIBSLIDAssign_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendIBSLIDAssign_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBCStatusA_1_offset 0x00002540UL
struct QIB_7322_IBCStatusA_1_pb {
pseudo_bit_t LinkTrainingState[5];
pseudo_bit_t LinkState[3];
pseudo_bit_t LinkSpeedActive[1];
pseudo_bit_t LinkWidthActive[1];
pseudo_bit_t DDS_RXEQ_FAIL[1];
pseudo_bit_t _unused_0[1];
pseudo_bit_t IBRxLaneReversed[1];
pseudo_bit_t IBTxLaneReversed[1];
pseudo_bit_t ScrambleEn[1];
pseudo_bit_t ScrambleCapRemote[1];
pseudo_bit_t _unused_1[13];
pseudo_bit_t LinkSpeedQDR[1];
pseudo_bit_t TxReady[1];
pseudo_bit_t _unused_2[1];
pseudo_bit_t TxCreditOk_VL0[1];
pseudo_bit_t TxCreditOk_VL1[1];
pseudo_bit_t TxCreditOk_VL2[1];
pseudo_bit_t TxCreditOk_VL3[1];
pseudo_bit_t TxCreditOk_VL4[1];
pseudo_bit_t TxCreditOk_VL5[1];
pseudo_bit_t TxCreditOk_VL6[1];
pseudo_bit_t TxCreditOk_VL7[1];
pseudo_bit_t _unused_3[24];
};
struct QIB_7322_IBCStatusA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBCStatusA_1_pb );
};
/* Default value: 0x0000000000000X02 */
#define QIB_7322_IBCStatusB_1_offset 0x00002548UL
struct QIB_7322_IBCStatusB_1_pb {
pseudo_bit_t LinkRoundTripLatency[26];
pseudo_bit_t ReqDDSLocalFromRmt[4];
pseudo_bit_t RxEqLocalDevice[2];
pseudo_bit_t heartbeat_crosstalk[4];
pseudo_bit_t heartbeat_timed_out[1];
pseudo_bit_t _unused_0[27];
};
struct QIB_7322_IBCStatusB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBCStatusB_1_pb );
};
/* Default value: 0x00000000XXXXXXXX */
#define QIB_7322_IBCCtrlA_1_offset 0x00002560UL
struct QIB_7322_IBCCtrlA_1_pb {
pseudo_bit_t FlowCtrlPeriod[8];
pseudo_bit_t FlowCtrlWaterMark[8];
pseudo_bit_t LinkInitCmd[3];
pseudo_bit_t LinkCmd[2];
pseudo_bit_t MaxPktLen[11];
pseudo_bit_t PhyerrThreshold[4];
pseudo_bit_t OverrunThreshold[4];
pseudo_bit_t _unused_0[8];
pseudo_bit_t NumVLane[3];
pseudo_bit_t _unused_1[9];
pseudo_bit_t IBStatIntReductionEn[1];
pseudo_bit_t IBLinkEn[1];
pseudo_bit_t LinkDownDefaultState[1];
pseudo_bit_t Loopback[1];
};
struct QIB_7322_IBCCtrlA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBCCtrlA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBCCtrlB_1_offset 0x00002568UL
struct QIB_7322_IBCCtrlB_1_pb {
pseudo_bit_t IB_ENHANCED_MODE[1];
pseudo_bit_t SD_SPEED[1];
pseudo_bit_t SD_SPEED_SDR[1];
pseudo_bit_t SD_SPEED_DDR[1];
pseudo_bit_t SD_SPEED_QDR[1];
pseudo_bit_t IB_NUM_CHANNELS[2];
pseudo_bit_t IB_POLARITY_REV_SUPP[1];
pseudo_bit_t IB_LANE_REV_SUPPORTED[1];
pseudo_bit_t SD_RX_EQUAL_ENABLE[1];
pseudo_bit_t SD_ADD_ENB[1];
pseudo_bit_t SD_DDSV[1];
pseudo_bit_t SD_DDS[4];
pseudo_bit_t HRTBT_ENB[1];
pseudo_bit_t HRTBT_AUTO[1];
pseudo_bit_t HRTBT_PORT[8];
pseudo_bit_t HRTBT_REQ[1];
pseudo_bit_t IB_ENABLE_FILT_DPKT[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t IB_DLID[16];
pseudo_bit_t IB_DLID_MASK[16];
};
struct QIB_7322_IBCCtrlB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBCCtrlB_1_pb );
};
/* Default value: 0x00000000000305FF */
#define QIB_7322_IBCCtrlC_1_offset 0x00002570UL
struct QIB_7322_IBCCtrlC_1_pb {
pseudo_bit_t IB_FRONT_PORCH[5];
pseudo_bit_t IB_BACK_PORCH[5];
pseudo_bit_t _unused_0[54];
};
struct QIB_7322_IBCCtrlC_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBCCtrlC_1_pb );
};
/* Default value: 0x0000000000000301 */
#define QIB_7322_HRTBT_GUID_1_offset 0x00002588UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IB_SDTEST_IF_TX_1_offset 0x00002590UL
struct QIB_7322_IB_SDTEST_IF_TX_1_pb {
pseudo_bit_t TS_T_TX_VALID[1];
pseudo_bit_t TS_3_TX_VALID[1];
pseudo_bit_t VL_CAP[2];
pseudo_bit_t CREDIT_CHANGE[1];
pseudo_bit_t _unused_0[6];
pseudo_bit_t TS_TX_OPCODE[2];
pseudo_bit_t TS_TX_SPEED[3];
pseudo_bit_t _unused_1[16];
pseudo_bit_t TS_TX_TX_CFG[16];
pseudo_bit_t TS_TX_RX_CFG[16];
};
struct QIB_7322_IB_SDTEST_IF_TX_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IB_SDTEST_IF_TX_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IB_SDTEST_IF_RX_1_offset 0x00002598UL
struct QIB_7322_IB_SDTEST_IF_RX_1_pb {
pseudo_bit_t TS_T_RX_VALID[1];
pseudo_bit_t TS_3_RX_VALID[1];
pseudo_bit_t _unused_0[14];
pseudo_bit_t TS_RX_A[8];
pseudo_bit_t TS_RX_B[8];
pseudo_bit_t TS_RX_TX_CFG[16];
pseudo_bit_t TS_RX_RX_CFG[16];
};
struct QIB_7322_IB_SDTEST_IF_RX_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IB_SDTEST_IF_RX_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBNCModeCtrl_1_offset 0x000025b8UL
struct QIB_7322_IBNCModeCtrl_1_pb {
pseudo_bit_t TSMEnable_send_TS1[1];
pseudo_bit_t TSMEnable_send_TS2[1];
pseudo_bit_t TSMEnable_ignore_TSM_on_rx[1];
pseudo_bit_t _unused_0[5];
pseudo_bit_t TSMCode_TS1[9];
pseudo_bit_t TSMCode_TS2[9];
pseudo_bit_t _unused_1[6];
pseudo_bit_t ScrambleCapLocal[1];
pseudo_bit_t ScrambleCapRemoteMask[1];
pseudo_bit_t ScrambleCapRemoteForce[1];
pseudo_bit_t _unused_2[29];
};
struct QIB_7322_IBNCModeCtrl_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBNCModeCtrl_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBSerdesStatus_1_offset 0x000025d0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBPCSConfig_1_offset 0x000025d8UL
struct QIB_7322_IBPCSConfig_1_pb {
pseudo_bit_t tx_rx_reset[1];
pseudo_bit_t xcv_treset[1];
pseudo_bit_t xcv_rreset[1];
pseudo_bit_t _unused_0[6];
pseudo_bit_t link_sync_mask[10];
pseudo_bit_t _unused_1[45];
};
struct QIB_7322_IBPCSConfig_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBPCSConfig_1_pb );
};
/* Default value: 0x0000000000000007 */
#define QIB_7322_IBSerdesCtrl_1_offset 0x000025e0UL
struct QIB_7322_IBSerdesCtrl_1_pb {
pseudo_bit_t CMODE[7];
pseudo_bit_t _unused_0[1];
pseudo_bit_t TXIDLE[1];
pseudo_bit_t RXPD[1];
pseudo_bit_t TXPD[1];
pseudo_bit_t PLLPD[1];
pseudo_bit_t LPEN[1];
pseudo_bit_t RXLOSEN[1];
pseudo_bit_t _unused_1[1];
pseudo_bit_t IB_LAT_MODE[1];
pseudo_bit_t CGMODE[4];
pseudo_bit_t CHANNEL_RESET_N[4];
pseudo_bit_t DISABLE_RXLATOFF_SDR[1];
pseudo_bit_t DISABLE_RXLATOFF_DDR[1];
pseudo_bit_t DISABLE_RXLATOFF_QDR[1];
pseudo_bit_t _unused_2[37];
};
struct QIB_7322_IBSerdesCtrl_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBSerdesCtrl_1_pb );
};
/* Default value: 0x0000000000FFA00F */
#define QIB_7322_IBSD_TX_DEEMPHASIS_OVERRIDE_1_offset 0x00002600UL
struct QIB_7322_IBSD_TX_DEEMPHASIS_OVERRIDE_1_pb {
pseudo_bit_t txcn1_ena[3];
pseudo_bit_t txcn1_xtra_emph0[2];
pseudo_bit_t txcp1_ena[4];
pseudo_bit_t txc0_ena[5];
pseudo_bit_t txampcntl_d2a[4];
pseudo_bit_t _unused_0[12];
pseudo_bit_t reset_tx_deemphasis_override[1];
pseudo_bit_t tx_override_deemphasis_select[1];
pseudo_bit_t _unused_1[32];
};
struct QIB_7322_IBSD_TX_DEEMPHASIS_OVERRIDE_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_IBSD_TX_DEEMPHASIS_OVERRIDE_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_STATIC_SDR_1_offset 0x00002640UL
struct QIB_7322_ADAPT_DISABLE_STATIC_SDR_1_pb {
pseudo_bit_t static_disable_rxenadfe_sdr_ch0[8];
pseudo_bit_t static_disable_rxenadfe_sdr_ch1[8];
pseudo_bit_t static_disable_rxenadfe_sdr_ch2[8];
pseudo_bit_t static_disable_rxenadfe_sdr_ch3[8];
pseudo_bit_t static_disable_rxenale_sdr_ch0[1];
pseudo_bit_t static_disable_rxenale_sdr_ch1[1];
pseudo_bit_t static_disable_rxenale_sdr_ch2[1];
pseudo_bit_t static_disable_rxenale_sdr_ch3[1];
pseudo_bit_t static_disable_rxenagain_sdr_ch0[1];
pseudo_bit_t static_disable_rxenagain_sdr_ch1[1];
pseudo_bit_t static_disable_rxenagain_sdr_ch2[1];
pseudo_bit_t static_disable_rxenagain_sdr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_STATIC_SDR_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_STATIC_SDR_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_DYNAMIC_SDR_1_offset 0x00002648UL
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_SDR_1_pb {
pseudo_bit_t dyn_disable_rxenadfe_sdr_ch0[8];
pseudo_bit_t dyn_disable_rxenadfe_sdr_ch1[8];
pseudo_bit_t dyn_disable_rxenadfe_sdr_ch2[8];
pseudo_bit_t dyn_disable_rxenadfe_sdr_ch3[8];
pseudo_bit_t dyn_disable_rxenale_sdr_ch0[1];
pseudo_bit_t dyn_disable_rxenale_sdr_ch1[1];
pseudo_bit_t dyn_disable_rxenale_sdr_ch2[1];
pseudo_bit_t dyn_disable_rxenale_sdr_ch3[1];
pseudo_bit_t dyn_disable_rxenagain_sdr_ch0[1];
pseudo_bit_t dyn_disable_rxenagain_sdr_ch1[1];
pseudo_bit_t dyn_disable_rxenagain_sdr_ch2[1];
pseudo_bit_t dyn_disable_rxenagain_sdr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_SDR_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_DYNAMIC_SDR_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_STATIC_DDR_1_offset 0x00002650UL
struct QIB_7322_ADAPT_DISABLE_STATIC_DDR_1_pb {
pseudo_bit_t static_disable_rxenadfe_ddr_ch0[8];
pseudo_bit_t static_disable_rxenadfe_ddr_ch1[8];
pseudo_bit_t static_disable_rxenadfe_ddr_ch2[8];
pseudo_bit_t static_disable_rxenadfe_ddr_ch3[8];
pseudo_bit_t static_disable_rxenale_ddr_ch0[1];
pseudo_bit_t static_disable_rxenale_ddr_ch1[1];
pseudo_bit_t static_disable_rxenale_ddr_ch2[1];
pseudo_bit_t static_disable_rxenale_ddr_ch3[1];
pseudo_bit_t static_disable_rxenagain_ddr_ch0[1];
pseudo_bit_t static_disable_rxenagain_ddr_ch1[1];
pseudo_bit_t static_disable_rxenagain_ddr_ch2[1];
pseudo_bit_t static_disable_rxenagain_ddr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_STATIC_DDR_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_STATIC_DDR_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_DYNAMIC_DDR_1_offset 0x00002658UL
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_DDR_1_pb {
pseudo_bit_t dyn_disable_rxenadfe_ddr_ch0[8];
pseudo_bit_t dyn_disable_rxenadfe_ddr_ch1[8];
pseudo_bit_t dyn_disable_rxenadfe_ddr_ch2[8];
pseudo_bit_t dyn_disable_rxenadfe_ddr_ch3[8];
pseudo_bit_t dyn_disable_rxenale_ddr_ch0[1];
pseudo_bit_t dyn_disable_rxenale_ddr_ch1[1];
pseudo_bit_t dyn_disable_rxenale_ddr_ch2[1];
pseudo_bit_t dyn_disable_rxenale_ddr_ch3[1];
pseudo_bit_t dyn_disable_rxenagain_ddr_ch0[1];
pseudo_bit_t dyn_disable_rxenagain_ddr_ch1[1];
pseudo_bit_t dyn_disable_rxenagain_ddr_ch2[1];
pseudo_bit_t dyn_disable_rxenagain_ddr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_DDR_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_DYNAMIC_DDR_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_STATIC_QDR_1_offset 0x00002660UL
struct QIB_7322_ADAPT_DISABLE_STATIC_QDR_1_pb {
pseudo_bit_t static_disable_rxenadfe_qdr_ch0[8];
pseudo_bit_t static_disable_rxenadfe_qdr_ch1[8];
pseudo_bit_t static_disable_rxenadfe_qdr_ch2[8];
pseudo_bit_t static_disable_rxenadfe_qdr_ch3[8];
pseudo_bit_t static_disable_rxenale_qdr_ch0[1];
pseudo_bit_t static_disable_rxenale_qdr_ch1[1];
pseudo_bit_t static_disable_rxenale_qdr_ch2[1];
pseudo_bit_t static_disable_rxenale_qdr_ch3[1];
pseudo_bit_t static_disable_rxenagain_qdr_ch0[1];
pseudo_bit_t static_disable_rxenagain_qdr_ch1[1];
pseudo_bit_t static_disable_rxenagain_qdr_ch2[1];
pseudo_bit_t static_disable_rxenagain_qdr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_STATIC_QDR_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_STATIC_QDR_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_DYNAMIC_QDR_1_offset 0x00002668UL
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_QDR_1_pb {
pseudo_bit_t dyn_disable_rxenadfe_qdr_ch0[8];
pseudo_bit_t dyn_disable_rxenadfe_qdr_ch1[8];
pseudo_bit_t dyn_disable_rxenadfe_qdr_ch2[8];
pseudo_bit_t dyn_disable_rxenadfe_qdr_ch3[8];
pseudo_bit_t dyn_disable_rxenale_qdr_ch0[1];
pseudo_bit_t dyn_disable_rxenale_qdr_ch1[1];
pseudo_bit_t dyn_disable_rxenale_qdr_ch2[1];
pseudo_bit_t dyn_disable_rxenale_qdr_ch3[1];
pseudo_bit_t dyn_disable_rxenagain_qdr_ch0[1];
pseudo_bit_t dyn_disable_rxenagain_qdr_ch1[1];
pseudo_bit_t dyn_disable_rxenagain_qdr_ch2[1];
pseudo_bit_t dyn_disable_rxenagain_qdr_ch3[1];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_ADAPT_DISABLE_DYNAMIC_QDR_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_ADAPT_DISABLE_DYNAMIC_QDR_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_ADAPT_DISABLE_TIMER_THRESHOLD_1_offset 0x00002670UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrUnCorErrLogA_1_offset 0x00002800UL
struct QIB_7322_RxBufrUnCorErrLogA_1_pb {
pseudo_bit_t RxBufrUnCorErrData_63_0[64];
};
struct QIB_7322_RxBufrUnCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrUnCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrUnCorErrLogB_1_offset 0x00002808UL
struct QIB_7322_RxBufrUnCorErrLogB_1_pb {
pseudo_bit_t RxBufrUnCorErrData_127_64[64];
};
struct QIB_7322_RxBufrUnCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrUnCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrUnCorErrLogC_1_offset 0x00002810UL
struct QIB_7322_RxBufrUnCorErrLogC_1_pb {
pseudo_bit_t RxBufrUnCorErrData_191_128[64];
};
struct QIB_7322_RxBufrUnCorErrLogC_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrUnCorErrLogC_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrUnCorErrLogD_1_offset 0x00002818UL
struct QIB_7322_RxBufrUnCorErrLogD_1_pb {
pseudo_bit_t RxBufrUnCorErrData_255_192[64];
};
struct QIB_7322_RxBufrUnCorErrLogD_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrUnCorErrLogD_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrUnCorErrLogE_1_offset 0x00002820UL
struct QIB_7322_RxBufrUnCorErrLogE_1_pb {
pseudo_bit_t RxBufrUnCorErrData_258_256[3];
pseudo_bit_t RxBufrUnCorErrCheckBit_36_0[37];
pseudo_bit_t RxBufrUnCorErrAddr_15_0[16];
pseudo_bit_t _unused_0[8];
};
struct QIB_7322_RxBufrUnCorErrLogE_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrUnCorErrLogE_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlagUnCorErrLogA_1_offset 0x00002828UL
struct QIB_7322_RxFlagUnCorErrLogA_1_pb {
pseudo_bit_t RxFlagUnCorErrData_63_0[64];
};
struct QIB_7322_RxFlagUnCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxFlagUnCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlagUnCorErrLogB_1_offset 0x00002830UL
struct QIB_7322_RxFlagUnCorErrLogB_1_pb {
pseudo_bit_t RxFlagUnCorErrCheckBit_7_0[8];
pseudo_bit_t RxFlagUnCorErrAddr_12_0[13];
pseudo_bit_t _unused_0[43];
};
struct QIB_7322_RxFlagUnCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxFlagUnCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLkupiqUnCorErrLogA_1_offset 0x00002840UL
struct QIB_7322_RxLkupiqUnCorErrLogA_1_pb {
pseudo_bit_t RxLkupiqUnCorErrData_45_0[46];
pseudo_bit_t RxLkupiqUnCorErrCheckBit_7_0[8];
pseudo_bit_t _unused_0[10];
};
struct QIB_7322_RxLkupiqUnCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxLkupiqUnCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLkupiqUnCorErrLogB_1_offset 0x00002848UL
struct QIB_7322_RxLkupiqUnCorErrLogB_1_pb {
pseudo_bit_t RxLkupiqUnCorErrAddr_12_0[13];
pseudo_bit_t _unused_0[51];
};
struct QIB_7322_RxLkupiqUnCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxLkupiqUnCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoUnCorErrLogA_1_offset 0x00002850UL
struct QIB_7322_RxHdrFifoUnCorErrLogA_1_pb {
pseudo_bit_t RxHdrFifoUnCorErrData_63_0[64];
};
struct QIB_7322_RxHdrFifoUnCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoUnCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoUnCorErrLogB_1_offset 0x00002858UL
struct QIB_7322_RxHdrFifoUnCorErrLogB_1_pb {
pseudo_bit_t RxHdrFifoUnCorErrData_127_64[64];
};
struct QIB_7322_RxHdrFifoUnCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoUnCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoUnCorErrLogC_1_offset 0x00002860UL
struct QIB_7322_RxHdrFifoUnCorErrLogC_1_pb {
pseudo_bit_t RxHdrFifoUnCorErrCheckBit_15_0[16];
pseudo_bit_t RxHdrFifoUnCorErrAddr_10_0[11];
pseudo_bit_t _unused_0[37];
};
struct QIB_7322_RxHdrFifoUnCorErrLogC_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoUnCorErrLogC_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoUnCorErrLogA_1_offset 0x00002868UL
struct QIB_7322_RxDataFifoUnCorErrLogA_1_pb {
pseudo_bit_t RxDataFifoUnCorErrData_63_0[64];
};
struct QIB_7322_RxDataFifoUnCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoUnCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoUnCorErrLogB_1_offset 0x00002870UL
struct QIB_7322_RxDataFifoUnCorErrLogB_1_pb {
pseudo_bit_t RxDataFifoUnCorErrData_127_64[64];
};
struct QIB_7322_RxDataFifoUnCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoUnCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoUnCorErrLogC_1_offset 0x00002878UL
struct QIB_7322_RxDataFifoUnCorErrLogC_1_pb {
pseudo_bit_t RxDataFifoUnCorErrCheckBit_15_0[16];
pseudo_bit_t RxDataFifoUnCorErrAddr_10_0[11];
pseudo_bit_t _unused_0[37];
};
struct QIB_7322_RxDataFifoUnCorErrLogC_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoUnCorErrLogC_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_LaFifoArray0UnCorErrLog_1_offset 0x00002880UL
struct QIB_7322_LaFifoArray0UnCorErrLog_1_pb {
pseudo_bit_t LaFifoArray0UnCorErrData_34_0[35];
pseudo_bit_t LaFifoArray0UnCorErrCheckBit_10_0[11];
pseudo_bit_t LaFifoArray0UnCorErrAddr_10_0[11];
pseudo_bit_t _unused_0[7];
};
struct QIB_7322_LaFifoArray0UnCorErrLog_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_LaFifoArray0UnCorErrLog_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayUnCorErrLogA_1_offset 0x000028c0UL
struct QIB_7322_RmFifoArrayUnCorErrLogA_1_pb {
pseudo_bit_t RmFifoArrayUnCorErrData_63_0[64];
};
struct QIB_7322_RmFifoArrayUnCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayUnCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayUnCorErrLogB_1_offset 0x000028c8UL
struct QIB_7322_RmFifoArrayUnCorErrLogB_1_pb {
pseudo_bit_t RmFifoArrayUnCorErrData_127_64[64];
};
struct QIB_7322_RmFifoArrayUnCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayUnCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayUnCorErrLogC_1_offset 0x000028d0UL
struct QIB_7322_RmFifoArrayUnCorErrLogC_1_pb {
pseudo_bit_t RmFifoArrayUnCorErrCheckBit_27_0[28];
pseudo_bit_t RmFifoArrayUnCorErrAddr_13_0[14];
pseudo_bit_t _unused_0[18];
pseudo_bit_t RmFifoArrayUnCorErrDword_3_0[4];
};
struct QIB_7322_RmFifoArrayUnCorErrLogC_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayUnCorErrLogC_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrCorErrLogA_1_offset 0x00002900UL
struct QIB_7322_RxBufrCorErrLogA_1_pb {
pseudo_bit_t RxBufrCorErrData_63_0[64];
};
struct QIB_7322_RxBufrCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrCorErrLogB_1_offset 0x00002908UL
struct QIB_7322_RxBufrCorErrLogB_1_pb {
pseudo_bit_t RxBufrCorErrData_127_64[64];
};
struct QIB_7322_RxBufrCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrCorErrLogC_1_offset 0x00002910UL
struct QIB_7322_RxBufrCorErrLogC_1_pb {
pseudo_bit_t RxBufrCorErrData_191_128[64];
};
struct QIB_7322_RxBufrCorErrLogC_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrCorErrLogC_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrCorErrLogD_1_offset 0x00002918UL
struct QIB_7322_RxBufrCorErrLogD_1_pb {
pseudo_bit_t RxBufrCorErrData_255_192[64];
};
struct QIB_7322_RxBufrCorErrLogD_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrCorErrLogD_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufrCorErrLogE_1_offset 0x00002920UL
struct QIB_7322_RxBufrCorErrLogE_1_pb {
pseudo_bit_t RxBufrCorErrData_258_256[3];
pseudo_bit_t RxBufrCorErrCheckBit_36_0[37];
pseudo_bit_t RxBufrCorErrAddr_15_0[16];
pseudo_bit_t _unused_0[8];
};
struct QIB_7322_RxBufrCorErrLogE_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxBufrCorErrLogE_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlagCorErrLogA_1_offset 0x00002928UL
struct QIB_7322_RxFlagCorErrLogA_1_pb {
pseudo_bit_t RxFlagCorErrData_63_0[64];
};
struct QIB_7322_RxFlagCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxFlagCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlagCorErrLogB_1_offset 0x00002930UL
struct QIB_7322_RxFlagCorErrLogB_1_pb {
pseudo_bit_t RxFlagCorErrCheckBit_7_0[8];
pseudo_bit_t RxFlagCorErrAddr_12_0[13];
pseudo_bit_t _unused_0[43];
};
struct QIB_7322_RxFlagCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxFlagCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLkupiqCorErrLogA_1_offset 0x00002940UL
struct QIB_7322_RxLkupiqCorErrLogA_1_pb {
pseudo_bit_t RxLkupiqCorErrData_45_0[46];
pseudo_bit_t RxLkupiqCorErrCheckBit_7_0[8];
pseudo_bit_t _unused_0[10];
};
struct QIB_7322_RxLkupiqCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxLkupiqCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLkupiqCorErrLogB_1_offset 0x00002948UL
struct QIB_7322_RxLkupiqCorErrLogB_1_pb {
pseudo_bit_t RxLkupiqCorErrAddr_12_0[13];
pseudo_bit_t _unused_0[51];
};
struct QIB_7322_RxLkupiqCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxLkupiqCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoCorErrLogA_1_offset 0x00002950UL
struct QIB_7322_RxHdrFifoCorErrLogA_1_pb {
pseudo_bit_t RxHdrFifoCorErrData_63_0[64];
};
struct QIB_7322_RxHdrFifoCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoCorErrLogB_1_offset 0x00002958UL
struct QIB_7322_RxHdrFifoCorErrLogB_1_pb {
pseudo_bit_t RxHdrFifoCorErrData_127_64[64];
};
struct QIB_7322_RxHdrFifoCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxHdrFifoCorErrLogC_1_offset 0x00002960UL
struct QIB_7322_RxHdrFifoCorErrLogC_1_pb {
pseudo_bit_t RxHdrFifoCorErrCheckBit_15_0[16];
pseudo_bit_t RxHdrFifoCorErrAddr_10_0[11];
pseudo_bit_t _unused_0[37];
};
struct QIB_7322_RxHdrFifoCorErrLogC_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxHdrFifoCorErrLogC_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoCorErrLogA_1_offset 0x00002968UL
struct QIB_7322_RxDataFifoCorErrLogA_1_pb {
pseudo_bit_t RxDataFifoCorErrData_63_0[64];
};
struct QIB_7322_RxDataFifoCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoCorErrLogB_1_offset 0x00002970UL
struct QIB_7322_RxDataFifoCorErrLogB_1_pb {
pseudo_bit_t RxDataFifoCorErrData_127_64[64];
};
struct QIB_7322_RxDataFifoCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataFifoCorErrLogC_1_offset 0x00002978UL
struct QIB_7322_RxDataFifoCorErrLogC_1_pb {
pseudo_bit_t RxDataFifoCorErrCheckBit_15_0[16];
pseudo_bit_t RxDataFifoCorErrAddr_10_0[11];
pseudo_bit_t _unused_0[37];
};
struct QIB_7322_RxDataFifoCorErrLogC_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RxDataFifoCorErrLogC_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_LaFifoArray0CorErrLog_1_offset 0x00002980UL
struct QIB_7322_LaFifoArray0CorErrLog_1_pb {
pseudo_bit_t LaFifoArray0CorErrData_34_0[35];
pseudo_bit_t LaFifoArray0CorErrCheckBit_10_0[11];
pseudo_bit_t LaFifoArray0CorErrAddr_10_0[11];
pseudo_bit_t _unused_0[7];
};
struct QIB_7322_LaFifoArray0CorErrLog_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_LaFifoArray0CorErrLog_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayCorErrLogA_1_offset 0x000029c0UL
struct QIB_7322_RmFifoArrayCorErrLogA_1_pb {
pseudo_bit_t RmFifoArrayCorErrData_63_0[64];
};
struct QIB_7322_RmFifoArrayCorErrLogA_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayCorErrLogA_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayCorErrLogB_1_offset 0x000029c8UL
struct QIB_7322_RmFifoArrayCorErrLogB_1_pb {
pseudo_bit_t RmFifoArrayCorErrData_127_64[64];
};
struct QIB_7322_RmFifoArrayCorErrLogB_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayCorErrLogB_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RmFifoArrayCorErrLogC_1_offset 0x000029d0UL
struct QIB_7322_RmFifoArrayCorErrLogC_1_pb {
pseudo_bit_t RmFifoArrayCorErrCheckBit_27_0[28];
pseudo_bit_t RmFifoArrayCorErrAddr_13_0[14];
pseudo_bit_t _unused_0[18];
pseudo_bit_t RmFifoArrayCorErrDword_3_0[4];
};
struct QIB_7322_RmFifoArrayCorErrLogC_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RmFifoArrayCorErrLogC_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_HighPriorityLimit_1_offset 0x00002bc0UL
struct QIB_7322_HighPriorityLimit_1_pb {
pseudo_bit_t Limit[8];
pseudo_bit_t _unused_0[56];
};
struct QIB_7322_HighPriorityLimit_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_HighPriorityLimit_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_LowPriority0_1_offset 0x00002c00UL
struct QIB_7322_LowPriority0_1_pb {
pseudo_bit_t Weight[8];
pseudo_bit_t _unused_0[8];
pseudo_bit_t VirtualLane[3];
pseudo_bit_t _unused_1[45];
};
struct QIB_7322_LowPriority0_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_LowPriority0_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_HighPriority0_1_offset 0x00002e00UL
struct QIB_7322_HighPriority0_1_pb {
pseudo_bit_t Weight[8];
pseudo_bit_t _unused_0[8];
pseudo_bit_t VirtualLane[3];
pseudo_bit_t _unused_1[45];
};
struct QIB_7322_HighPriority0_1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_HighPriority0_1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufAvail0_offset 0x00003000UL
struct QIB_7322_SendBufAvail0_pb {
pseudo_bit_t SendBuf_31_0[64];
};
struct QIB_7322_SendBufAvail0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_SendBufAvail0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_MsixTable_offset 0x00008000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_MsixPba_offset 0x00009000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_LAMemory_offset 0x0000a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_LBIntCnt_offset 0x00011000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_LBFlowStallCnt_offset 0x00011008UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxTIDFullErrCnt_offset 0x000110d0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxTIDValidErrCnt_offset 0x000110d8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxP0HdrEgrOvflCnt_offset 0x000110e8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PcieRetryBufDiagQwordCnt_offset 0x000111a0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxTidFlowDropCnt_offset 0x000111e0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_LBIntCnt_0_offset 0x00012000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxCreditUpToDateTimeOut_0_offset 0x00012008UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxSDmaDescCnt_0_offset 0x00012010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxUnsupVLErrCnt_0_offset 0x00012018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxDataPktCnt_0_offset 0x00012020UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxFlowPktCnt_0_offset 0x00012028UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxDwordCnt_0_offset 0x00012030UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxLenErrCnt_0_offset 0x00012038UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxMaxMinLenErrCnt_0_offset 0x00012040UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxUnderrunCnt_0_offset 0x00012048UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxFlowStallCnt_0_offset 0x00012050UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxDroppedPktCnt_0_offset 0x00012058UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDroppedPktCnt_0_offset 0x00012060UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataPktCnt_0_offset 0x00012068UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlowPktCnt_0_offset 0x00012070UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDwordCnt_0_offset 0x00012078UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLenErrCnt_0_offset 0x00012080UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxMaxMinLenErrCnt_0_offset 0x00012088UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxICRCErrCnt_0_offset 0x00012090UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxVCRCErrCnt_0_offset 0x00012098UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlowCtrlViolCnt_0_offset 0x000120a0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxVersionErrCnt_0_offset 0x000120a8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLinkMalformCnt_0_offset 0x000120b0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxEBPCnt_0_offset 0x000120b8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLPCRCErrCnt_0_offset 0x000120c0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufOvflCnt_0_offset 0x000120c8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLenTruncateCnt_0_offset 0x000120d0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxPKeyMismatchCnt_0_offset 0x000120e0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBLinkDownedCnt_0_offset 0x00012180UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBSymbolErrCnt_0_offset 0x00012188UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBStatusChangeCnt_0_offset 0x00012190UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBLinkErrRecoveryCnt_0_offset 0x00012198UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_ExcessBufferOvflCnt_0_offset 0x000121a8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_LocalLinkIntegrityErrCnt_0_offset 0x000121b0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxVlErrCnt_0_offset 0x000121b8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDlidFltrCnt_0_offset 0x000121c0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxVL15DroppedPktCnt_0_offset 0x000121c8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxOtherLocalPhyErrCnt_0_offset 0x000121d0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxQPInvalidContextCnt_0_offset 0x000121d8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxHeadersErrCnt_0_offset 0x000121f8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSRcvDataCount_0_offset 0x00012218UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSRcvPktsCount_0_offset 0x00012220UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSXmitDataCount_0_offset 0x00012228UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSXmitPktsCount_0_offset 0x00012230UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSXmitWaitCount_0_offset 0x00012238UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_LBIntCnt_1_offset 0x00013000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxCreditUpToDateTimeOut_1_offset 0x00013008UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxSDmaDescCnt_1_offset 0x00013010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxUnsupVLErrCnt_1_offset 0x00013018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxDataPktCnt_1_offset 0x00013020UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxFlowPktCnt_1_offset 0x00013028UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxDwordCnt_1_offset 0x00013030UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxLenErrCnt_1_offset 0x00013038UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxMaxMinLenErrCnt_1_offset 0x00013040UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxUnderrunCnt_1_offset 0x00013048UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxFlowStallCnt_1_offset 0x00013050UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxDroppedPktCnt_1_offset 0x00013058UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDroppedPktCnt_1_offset 0x00013060UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDataPktCnt_1_offset 0x00013068UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlowPktCnt_1_offset 0x00013070UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDwordCnt_1_offset 0x00013078UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLenErrCnt_1_offset 0x00013080UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxMaxMinLenErrCnt_1_offset 0x00013088UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxICRCErrCnt_1_offset 0x00013090UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxVCRCErrCnt_1_offset 0x00013098UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxFlowCtrlViolCnt_1_offset 0x000130a0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxVersionErrCnt_1_offset 0x000130a8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLinkMalformCnt_1_offset 0x000130b0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxEBPCnt_1_offset 0x000130b8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLPCRCErrCnt_1_offset 0x000130c0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxBufOvflCnt_1_offset 0x000130c8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxLenTruncateCnt_1_offset 0x000130d0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxPKeyMismatchCnt_1_offset 0x000130e0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBLinkDownedCnt_1_offset 0x00013180UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBSymbolErrCnt_1_offset 0x00013188UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBStatusChangeCnt_1_offset 0x00013190UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBLinkErrRecoveryCnt_1_offset 0x00013198UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_ExcessBufferOvflCnt_1_offset 0x000131a8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_LocalLinkIntegrityErrCnt_1_offset 0x000131b0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxVlErrCnt_1_offset 0x000131b8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxDlidFltrCnt_1_offset 0x000131c0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxVL15DroppedPktCnt_1_offset 0x000131c8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxOtherLocalPhyErrCnt_1_offset 0x000131d0UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RxQPInvalidContextCnt_1_offset 0x000131d8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_TxHeadersErrCnt_1_offset 0x000131f8UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSRcvDataCount_1_offset 0x00013218UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSRcvPktsCount_1_offset 0x00013220UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSXmitDataCount_1_offset 0x00013228UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSXmitPktsCount_1_offset 0x00013230UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PSXmitWaitCount_1_offset 0x00013238UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrArray_offset 0x00014000UL
struct QIB_7322_RcvEgrArray_pb {
pseudo_bit_t RT_Addr[37];
pseudo_bit_t RT_BufSize[3];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_RcvEgrArray {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvEgrArray_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDArray0_offset 0x00050000UL
struct QIB_7322_RcvTIDArray0_pb {
pseudo_bit_t RT_Addr[37];
pseudo_bit_t RT_BufSize[3];
pseudo_bit_t _unused_0[24];
};
struct QIB_7322_RcvTIDArray0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDArray0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendPbcCache_offset 0x00070000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_LaunchFIFO_v0p0_offset 0x00072000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_LaunchElement_v15p0_offset 0x00076000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PreLaunchFIFO_0_offset 0x00076100UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_ScoreBoard_0_offset 0x00076200UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_DescriptorFIFO_0_offset 0x00076300UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_LaunchFIFO_v0p1_offset 0x00078000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_LaunchElement_v15p1_offset 0x0007c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PreLaunchFIFO_1_offset 0x0007c100UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_ScoreBoard_1_offset 0x0007c200UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_DescriptorFIFO_1_offset 0x0007c300UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvBufA_0_offset 0x00080000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvBufB_0_offset 0x00088000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvFlags_0_offset 0x0008a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvLookupiqBuf_0_offset 0x0008c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvDMADatBuf_0_offset 0x0008e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvDMAHdrBuf_0_offset 0x0008e800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvBufA_1_offset 0x00090000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvBufB_1_offset 0x00098000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvFlags_1_offset 0x0009a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvLookupiqBuf_1_offset 0x0009c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvDMADatBuf_1_offset 0x0009e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvDMAHdrBuf_1_offset 0x0009e800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PCIERcvBuf_offset 0x000a0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PCIERetryBuf_offset 0x000a4000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PCIERcvBufRdToWrAddr_offset 0x000a8000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PCIERcvHdrRdToWrAddr_offset 0x000b0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PCIECplBuf_offset 0x000b8000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PCIECplHdr_offset 0x000bc000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_PCIERcvHdr_offset 0x000bc200UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_IBSD_DDS_MAP_TABLE_0_offset 0x000d0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_0_offset 0x00100000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_0_offset 0x00100800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_1_offset 0x00101000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_1_offset 0x00101800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_2_offset 0x00102000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_2_offset 0x00102800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_3_offset 0x00103000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_3_offset 0x00103800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_4_offset 0x00104000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_4_offset 0x00104800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_5_offset 0x00105000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_5_offset 0x00105800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_6_offset 0x00106000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_6_offset 0x00106800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_7_offset 0x00107000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_7_offset 0x00107800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_8_offset 0x00108000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_8_offset 0x00108800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_9_offset 0x00109000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_9_offset 0x00109800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_10_offset 0x0010a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_10_offset 0x0010a800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_11_offset 0x0010b000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_11_offset 0x0010b800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_12_offset 0x0010c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_12_offset 0x0010c800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_13_offset 0x0010d000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_13_offset 0x0010d800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_14_offset 0x0010e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_14_offset 0x0010e800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_15_offset 0x0010f000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_15_offset 0x0010f800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_16_offset 0x00110000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_16_offset 0x00110800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_17_offset 0x00111000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_17_offset 0x00111800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_18_offset 0x00112000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_18_offset 0x00112800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_19_offset 0x00113000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_19_offset 0x00113800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_20_offset 0x00114000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_20_offset 0x00114800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_21_offset 0x00115000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_21_offset 0x00115800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_22_offset 0x00116000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_22_offset 0x00116800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_23_offset 0x00117000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_23_offset 0x00117800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_24_offset 0x00118000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_24_offset 0x00118800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_25_offset 0x00119000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_25_offset 0x00119800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_26_offset 0x0011a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_26_offset 0x0011a800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_27_offset 0x0011b000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_27_offset 0x0011b800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_28_offset 0x0011c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_28_offset 0x0011c800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_29_offset 0x0011d000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_29_offset 0x0011d800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_30_offset 0x0011e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_30_offset 0x0011e800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_31_offset 0x0011f000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_31_offset 0x0011f800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_32_offset 0x00120000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_32_offset 0x00120800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_33_offset 0x00121000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_33_offset 0x00121800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_34_offset 0x00122000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_34_offset 0x00122800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_35_offset 0x00123000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_35_offset 0x00123800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_36_offset 0x00124000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_36_offset 0x00124800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_37_offset 0x00125000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_37_offset 0x00125800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_38_offset 0x00126000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_38_offset 0x00126800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_39_offset 0x00127000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_39_offset 0x00127800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_40_offset 0x00128000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_40_offset 0x00128800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_41_offset 0x00129000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_41_offset 0x00129800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_42_offset 0x0012a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_42_offset 0x0012a800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_43_offset 0x0012b000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_43_offset 0x0012b800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_44_offset 0x0012c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_44_offset 0x0012c800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_45_offset 0x0012d000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_45_offset 0x0012d800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_46_offset 0x0012e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_46_offset 0x0012e800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_47_offset 0x0012f000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_47_offset 0x0012f800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_48_offset 0x00130000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_48_offset 0x00130800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_49_offset 0x00131000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_49_offset 0x00131800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_50_offset 0x00132000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_50_offset 0x00132800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_51_offset 0x00133000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_51_offset 0x00133800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_52_offset 0x00134000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_52_offset 0x00134800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_53_offset 0x00135000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_53_offset 0x00135800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_54_offset 0x00136000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_54_offset 0x00136800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_55_offset 0x00137000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_55_offset 0x00137800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_56_offset 0x00138000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_56_offset 0x00138800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_57_offset 0x00139000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_57_offset 0x00139800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_58_offset 0x0013a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_58_offset 0x0013a800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_59_offset 0x0013b000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_59_offset 0x0013b800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_60_offset 0x0013c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_60_offset 0x0013c800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_61_offset 0x0013d000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_61_offset 0x0013d800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_62_offset 0x0013e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_62_offset 0x0013e800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_63_offset 0x0013f000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_63_offset 0x0013f800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_64_offset 0x00140000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_64_offset 0x00140800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_65_offset 0x00141000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_65_offset 0x00141800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_66_offset 0x00142000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_66_offset 0x00142800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_67_offset 0x00143000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_67_offset 0x00143800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_68_offset 0x00144000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_68_offset 0x00144800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_69_offset 0x00145000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_69_offset 0x00145800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_70_offset 0x00146000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_70_offset 0x00146800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_71_offset 0x00147000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_71_offset 0x00147800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_72_offset 0x00148000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_72_offset 0x00148800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_73_offset 0x00149000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_73_offset 0x00149800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_74_offset 0x0014a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_74_offset 0x0014a800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_75_offset 0x0014b000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_75_offset 0x0014b800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_76_offset 0x0014c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_76_offset 0x0014c800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_77_offset 0x0014d000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_77_offset 0x0014d800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_78_offset 0x0014e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_78_offset 0x0014e800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_79_offset 0x0014f000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_79_offset 0x0014f800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_80_offset 0x00150000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_80_offset 0x00150800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_81_offset 0x00151000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_81_offset 0x00151800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_82_offset 0x00152000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_82_offset 0x00152800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_83_offset 0x00153000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_83_offset 0x00153800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_84_offset 0x00154000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_84_offset 0x00154800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_85_offset 0x00155000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_85_offset 0x00155800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_86_offset 0x00156000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_86_offset 0x00156800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_87_offset 0x00157000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_87_offset 0x00157800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_88_offset 0x00158000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_88_offset 0x00158800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_89_offset 0x00159000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_89_offset 0x00159800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_90_offset 0x0015a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_90_offset 0x0015a800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_91_offset 0x0015b000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_91_offset 0x0015b800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_92_offset 0x0015c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_92_offset 0x0015c800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_93_offset 0x0015d000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_93_offset 0x0015d800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_94_offset 0x0015e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_94_offset 0x0015e800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_95_offset 0x0015f000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_95_offset 0x0015f800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_96_offset 0x00160000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_96_offset 0x00160800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_97_offset 0x00161000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_97_offset 0x00161800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_98_offset 0x00162000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_98_offset 0x00162800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_99_offset 0x00163000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_99_offset 0x00163800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_100_offset 0x00164000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_100_offset 0x00164800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_101_offset 0x00165000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_101_offset 0x00165800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_102_offset 0x00166000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_102_offset 0x00166800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_103_offset 0x00167000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_103_offset 0x00167800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_104_offset 0x00168000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_104_offset 0x00168800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_105_offset 0x00169000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_105_offset 0x00169800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_106_offset 0x0016a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_106_offset 0x0016a800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_107_offset 0x0016b000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_107_offset 0x0016b800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_108_offset 0x0016c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_108_offset 0x0016c800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_109_offset 0x0016d000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_109_offset 0x0016d800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_110_offset 0x0016e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_110_offset 0x0016e800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_111_offset 0x0016f000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_111_offset 0x0016f800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_112_offset 0x00170000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_112_offset 0x00170800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_113_offset 0x00171000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_113_offset 0x00171800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_114_offset 0x00172000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_114_offset 0x00172800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_115_offset 0x00173000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_115_offset 0x00173800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_116_offset 0x00174000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_116_offset 0x00174800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_117_offset 0x00175000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_117_offset 0x00175800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_118_offset 0x00176000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_118_offset 0x00176800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_119_offset 0x00177000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_119_offset 0x00177800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_120_offset 0x00178000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_120_offset 0x00178800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_121_offset 0x00179000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_121_offset 0x00179800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_122_offset 0x0017a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_122_offset 0x0017a800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_123_offset 0x0017b000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_123_offset 0x0017b800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_124_offset 0x0017c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_124_offset 0x0017c800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_125_offset 0x0017d000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_125_offset 0x0017d800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_126_offset 0x0017e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_126_offset 0x0017e800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_127_offset 0x0017f000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_127_offset 0x0017f800UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_128_offset 0x00180000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_128_offset 0x00181000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_129_offset 0x00182000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_129_offset 0x00183000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_130_offset 0x00184000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_130_offset 0x00185000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_131_offset 0x00186000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_131_offset 0x00187000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_132_offset 0x00188000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_132_offset 0x00189000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_133_offset 0x0018a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_133_offset 0x0018b000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_134_offset 0x0018c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_134_offset 0x0018d000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_135_offset 0x0018e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_135_offset 0x0018f000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_136_offset 0x00190000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_136_offset 0x00191000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_137_offset 0x00192000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_137_offset 0x00193000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_138_offset 0x00194000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_138_offset 0x00195000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_139_offset 0x00196000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_139_offset 0x00197000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_140_offset 0x00198000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_140_offset 0x00199000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_141_offset 0x0019a000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_141_offset 0x0019b000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_142_offset 0x0019c000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_142_offset 0x0019d000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_143_offset 0x0019e000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_143_offset 0x0019f000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_144_offset 0x001a0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_144_offset 0x001a1000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_145_offset 0x001a2000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_145_offset 0x001a3000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_146_offset 0x001a4000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_146_offset 0x001a5000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_147_offset 0x001a6000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_147_offset 0x001a7000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_148_offset 0x001a8000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_148_offset 0x001a9000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_149_offset 0x001aa000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_149_offset 0x001ab000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_150_offset 0x001ac000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_150_offset 0x001ad000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_151_offset 0x001ae000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_151_offset 0x001af000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_152_offset 0x001b0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_152_offset 0x001b1000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_153_offset 0x001b2000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_153_offset 0x001b3000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_154_offset 0x001b4000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_154_offset 0x001b5000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_155_offset 0x001b6000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_155_offset 0x001b7000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_156_offset 0x001b8000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_156_offset 0x001b9000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_157_offset 0x001ba000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_157_offset 0x001bb000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_158_offset 0x001bc000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_158_offset 0x001bd000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufMA_159_offset 0x001be000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufEA_159_offset 0x001bf000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_SendBufVL15_0_offset 0x001c0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail0_offset 0x00200000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead0_offset 0x00200008UL
struct QIB_7322_RcvHdrHead0_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail0_offset 0x00200010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead0_offset 0x00200018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable0_offset 0x00201000UL
struct QIB_7322_RcvTIDFlowTable0_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable0 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable0_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail1_offset 0x00210000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead1_offset 0x00210008UL
struct QIB_7322_RcvHdrHead1_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail1_offset 0x00210010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead1_offset 0x00210018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable1_offset 0x00211000UL
struct QIB_7322_RcvTIDFlowTable1_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable1 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable1_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail2_offset 0x00220000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead2_offset 0x00220008UL
struct QIB_7322_RcvHdrHead2_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead2 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead2_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail2_offset 0x00220010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead2_offset 0x00220018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable2_offset 0x00221000UL
struct QIB_7322_RcvTIDFlowTable2_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable2 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable2_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail3_offset 0x00230000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead3_offset 0x00230008UL
struct QIB_7322_RcvHdrHead3_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead3 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead3_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail3_offset 0x00230010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead3_offset 0x00230018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable3_offset 0x00231000UL
struct QIB_7322_RcvTIDFlowTable3_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable3 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable3_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail4_offset 0x00240000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead4_offset 0x00240008UL
struct QIB_7322_RcvHdrHead4_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead4 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead4_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail4_offset 0x00240010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead4_offset 0x00240018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable4_offset 0x00241000UL
struct QIB_7322_RcvTIDFlowTable4_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable4 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable4_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail5_offset 0x00250000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead5_offset 0x00250008UL
struct QIB_7322_RcvHdrHead5_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead5 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead5_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail5_offset 0x00250010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead5_offset 0x00250018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable5_offset 0x00251000UL
struct QIB_7322_RcvTIDFlowTable5_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable5 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable5_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail6_offset 0x00260000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead6_offset 0x00260008UL
struct QIB_7322_RcvHdrHead6_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead6 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead6_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail6_offset 0x00260010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead6_offset 0x00260018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable6_offset 0x00261000UL
struct QIB_7322_RcvTIDFlowTable6_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable6 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable6_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail7_offset 0x00270000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead7_offset 0x00270008UL
struct QIB_7322_RcvHdrHead7_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead7 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead7_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail7_offset 0x00270010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead7_offset 0x00270018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable7_offset 0x00271000UL
struct QIB_7322_RcvTIDFlowTable7_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable7 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable7_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail8_offset 0x00280000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead8_offset 0x00280008UL
struct QIB_7322_RcvHdrHead8_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead8 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead8_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail8_offset 0x00280010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead8_offset 0x00280018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable8_offset 0x00281000UL
struct QIB_7322_RcvTIDFlowTable8_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable8 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable8_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail9_offset 0x00290000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead9_offset 0x00290008UL
struct QIB_7322_RcvHdrHead9_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead9 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead9_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail9_offset 0x00290010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead9_offset 0x00290018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable9_offset 0x00291000UL
struct QIB_7322_RcvTIDFlowTable9_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable9 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable9_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail10_offset 0x002a0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead10_offset 0x002a0008UL
struct QIB_7322_RcvHdrHead10_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead10 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead10_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail10_offset 0x002a0010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead10_offset 0x002a0018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable10_offset 0x002a1000UL
struct QIB_7322_RcvTIDFlowTable10_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable10 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable10_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail11_offset 0x002b0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead11_offset 0x002b0008UL
struct QIB_7322_RcvHdrHead11_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead11 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead11_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail11_offset 0x002b0010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead11_offset 0x002b0018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable11_offset 0x002b1000UL
struct QIB_7322_RcvTIDFlowTable11_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable11 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable11_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail12_offset 0x002c0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead12_offset 0x002c0008UL
struct QIB_7322_RcvHdrHead12_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead12 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead12_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail12_offset 0x002c0010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead12_offset 0x002c0018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable12_offset 0x002c1000UL
struct QIB_7322_RcvTIDFlowTable12_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable12 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable12_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail13_offset 0x002d0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead13_offset 0x002d0008UL
struct QIB_7322_RcvHdrHead13_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead13 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead13_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail13_offset 0x002d0010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead13_offset 0x002d0018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable13_offset 0x002d1000UL
struct QIB_7322_RcvTIDFlowTable13_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable13 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable13_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail14_offset 0x002e0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead14_offset 0x002e0008UL
struct QIB_7322_RcvHdrHead14_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead14 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead14_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail14_offset 0x002e0010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead14_offset 0x002e0018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable14_offset 0x002e1000UL
struct QIB_7322_RcvTIDFlowTable14_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable14 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable14_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail15_offset 0x002f0000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead15_offset 0x002f0008UL
struct QIB_7322_RcvHdrHead15_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead15 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead15_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail15_offset 0x002f0010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead15_offset 0x002f0018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable15_offset 0x002f1000UL
struct QIB_7322_RcvTIDFlowTable15_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable15 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable15_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail16_offset 0x00300000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead16_offset 0x00300008UL
struct QIB_7322_RcvHdrHead16_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead16 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead16_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail16_offset 0x00300010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead16_offset 0x00300018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable16_offset 0x00301000UL
struct QIB_7322_RcvTIDFlowTable16_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable16 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable16_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrTail17_offset 0x00310000UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvHdrHead17_offset 0x00310008UL
struct QIB_7322_RcvHdrHead17_pb {
pseudo_bit_t RcvHeadPointer[32];
pseudo_bit_t counter[16];
pseudo_bit_t _unused_0[16];
};
struct QIB_7322_RcvHdrHead17 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvHdrHead17_pb );
};
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexTail17_offset 0x00310010UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvEgrIndexHead17_offset 0x00310018UL
/* Default value: 0x0000000000000000 */
#define QIB_7322_RcvTIDFlowTable17_offset 0x00311000UL
struct QIB_7322_RcvTIDFlowTable17_pb {
pseudo_bit_t SeqNum[11];
pseudo_bit_t GenVal[8];
pseudo_bit_t FlowValid[1];
pseudo_bit_t HdrSuppEnabled[1];
pseudo_bit_t KeepAfterSeqErr[1];
pseudo_bit_t KeepOnGenErr[1];
pseudo_bit_t _unused_0[4];
pseudo_bit_t SeqMismatch[1];
pseudo_bit_t GenMismatch[1];
pseudo_bit_t _unused_1[35];
};
struct QIB_7322_RcvTIDFlowTable17 {
PSEUDO_BIT_STRUCT ( struct QIB_7322_RcvTIDFlowTable17_pb );
};
/* Default value: 0x0000000000000000 */
| 110,499 |
560 | # coding:utf-8
import logging
import pandas as pd
import numpy as np
import re
from scipy.sparse import csr_matrix, hstack
from sklearn.preprocessing import OneHotEncoder
def onehot_features(train, test, features, full=False, sparse=False, dummy_na=True):
"""Encode categorical features using a one-hot scheme.
Parameters
----------
train : pd.DataFrame
test : pd.DataFrame
features : list
Column names in the DataFrame to be encoded.
full : bool, default False
Whether use all columns from train/test or only from train.
sparse : bool, default False
Whether the dummy columns should be sparse or not.
dummy_na : bool, default True
Add a column to indicate NaNs, if False NaNs are ignored.
Returns
-------
train : pd.DataFrame
test : pd.DataFrame
"""
features = [f for f in features if f in train.columns]
for column in features:
if full:
categories = pd.concat([train[column], test[column]]).dropna().unique()
else:
categories = train[column].dropna().unique()
train[column] = train[column].astype("category", categories=categories)
test[column] = test[column].astype("category", categories=categories)
train = pd.get_dummies(train, columns=features, dummy_na=dummy_na, sparse=sparse)
test = pd.get_dummies(test, columns=features, dummy_na=dummy_na, sparse=sparse)
return train, test
def factorize(train, test, features, na_value=-9999, full=False, sort=True):
"""Factorize categorical features.
Parameters
----------
train : pd.DataFrame
test : pd.DataFrame
features : list
Column names in the DataFrame to be encoded.
na_value : int, default -9999
full : bool, default False
Whether use all columns from train/test or only from train.
sort : bool, default True
Sort by values.
Returns
-------
train : pd.DataFrame
test : pd.DataFrame
"""
for column in features:
if full:
vs = pd.concat([train[column], test[column]])
labels, indexer = pd.factorize(vs, sort=sort)
else:
labels, indexer = pd.factorize(train[column], sort=sort)
train[column] = indexer.get_indexer(train[column])
test[column] = indexer.get_indexer(test[column])
if na_value != -1:
train[column] = train[column].replace(-1, na_value)
test[column] = test[column].replace(-1, na_value)
return train, test
def woe(df, feature_name, target_name):
"""Calculate weight of evidence.
Parameters
----------
df: Dataframe
feature_name: str
Column name to encode.
target_name: str
Target column name.
Returns
-------
Series
"""
def group_woe(group):
event = float(group.sum())
non_event = group.shape[0] - event
rel_event = event / event_total
rel_non_event = non_event / non_event_total
return np.log(rel_non_event / rel_event) * 100
if df[target_name].nunique() > 2:
raise ValueError("Target column should be binary (1/0).")
event_total = float(df[df[target_name] == 1.0].shape[0])
non_event_total = float(df.shape[0] - event_total)
woe_vals = df.groupby(feature_name)[target_name].transform(group_woe)
return woe_vals
def mean_target(df, feature_name, target_name, C=None):
"""Mean target.
Original idea: <NAME>
Parameters
----------
C : float, default None
Regularization coefficient. The higher, the more conservative result.
The optimal value lies between 10 and 50 depending on the data.
feature_name : str
target_name : str
df: DataFrame
Returns
-------
Series
"""
def group_mean(group):
group_size = float(group.shape[0])
if C is None:
return (group.mean() * group_size + global_mean) / group_size
else:
return (group.mean() * group_size + global_mean * C) / (group_size + C)
global_mean = df[target_name].mean()
return df.groupby(feature_name)[target_name].transform(group_mean)
def xgb_to_features(model, X_train, X_test):
"""Converts xgboost model into categorical features.
Reference:
"Practical Lessons from Predicting Clicks on Ads at Facebook"
https://research.fb.com/publications/practical-lessons-from-predicting-clicks-on-ads-at-facebook/
"""
import xgboost as xgb
f_train = model.predict(xgb.DMatrix(X_train), pred_leaf=True)
f_test = model.predict(xgb.DMatrix(X_test), pred_leaf=True)
enc = OneHotEncoder()
enc.fit(f_train)
return enc.transform(f_train), enc.transform(f_test)
class XGBParser(object):
def __init__(self):
self.groups = set()
def load_dump(self, path):
dump = open(path, "r").read()
search = re.finditer(r"\[f([0-9]*?)<(.*?)\]", dump, re.MULTILINE)
for group in search:
group = group.groups()
idx, val = int(group[0]), float(group[1])
self.groups.add((idx, val))
logging.debug("Found %s splits.", (len(self.groups)))
def transform(self, X):
output = []
for i, group in enumerate(self.groups):
idx, val = group
cond = csr_matrix((X[:, idx] < val).reshape((-1, 1))).astype(np.int8)
output.append(cond)
output = hstack(output, dtype=np.int8)
return output
| 2,229 |
1,338 | /*
Copyright (C) 1994 Free Software Foundation
This file is part of the GNU IO Library. This library 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 library 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 library; see the file COPYING. If not, write to the Free
Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
As a special exception, if you link this library with files
compiled with a GNU compiler to produce an executable, this does not cause
the resulting executable to be covered by the GNU General Public License.
This exception does not however invalidate any other reasons why
the executable file might be covered by the GNU General Public License. */
/* This file provides definitions of _IO_stdin, _IO_stdout, and _IO_stderr
for C++ code. Compare stdfiles.c.
(The difference is that here the vtable field is set to
point to builtinbuf's vtable, so the objects are effectively
of class builtinbuf.) */
#include "libioP.h"
#include <stdio.h>
#if !defined(filebuf_vtable) && defined(__cplusplus)
#ifdef __GNUC__
extern char filebuf_vtable[]
asm (_G_VTABLE_LABEL_PREFIX
#if _G_VTABLE_LABEL_HAS_LENGTH
"7"
#endif
"filebuf");
#else /* !__GNUC__ */
#if _G_VTABLE_LABEL_HAS_LENGTH
#define filebuf_vtable _G_VTABLE_LABEL_PREFIX_ID##7filebuf
#else
#define filebuf_vtable _G_VTABLE_LABEL_PREFIX_ID##filebuf
#endif
extern char filebuf_vtable[];
#endif /* !__GNUC__ */
#endif /* !defined(filebuf_vtable) && defined(__cplusplus) */
#ifndef STD_VTABLE
#define STD_VTABLE (const struct _IO_jump_t *)filebuf_vtable
#endif
#ifdef _STDIO_USES_IOSTREAM
#ifdef _IO_MTSAFE_IO
#define DEF_STDFILE(NAME, FD, CHAIN, FLAGS) \
static _IO_lock_t _IO_stdfile_##FD##_lock = _IO_lock_initializer; \
struct _IO_FILE_plus NAME \
= {FILEBUF_LITERAL(CHAIN, FLAGS, FD, NULL), STD_VTABLE}
#else
#define DEF_STDFILE(NAME, FD, CHAIN, FLAGS) \
struct _IO_FILE_plus NAME = {FILEBUF_LITERAL(CHAIN, FLAGS, FD, NULL), STD_VTABLE}
#endif
DEF_STDFILE(_IO_stdin_, 0, 0, _IO_NO_WRITES);
DEF_STDFILE(_IO_stdout_, 1, &_IO_stdin_.file, _IO_NO_READS);
DEF_STDFILE(_IO_stderr_, 2, &_IO_stdout_.file,
_IO_NO_READS+_IO_UNBUFFERED);
_IO_FILE_plus *_IO_list_all = &_IO_stderr_;
#else /* !_STDIO_USES_IOSTREAM */
#include "stdiostream.h"
struct _IO_fake_stdiobuf {
struct {
_IO_FILE file;
const void *vtable;
} s;
FILE *stdio_file;
};
/* Define stdiobuf_vtable as a name for the virtual function table
of the stdiobuf class. */
#ifndef stdiobuf_vtable
#ifdef __GNUC__
extern struct _IO_jump_t stdiobuf_vtable
asm (_G_VTABLE_LABEL_PREFIX
#if _G_VTABLE_LABEL_HAS_LENGTH
"8"
#endif
"stdiobuf");
#else /* !__GNUC__ */
#if _G_VTABLE_LABEL_HAS_LENGTH
#define stdiobuf_vtable _G_VTABLE_LABEL_PREFIX_ID##8stdiobuf
#else
#define stdiobuf_vtable _G_VTABLE_LABEL_PREFIX_ID##stdiobuf
#endif
extern struct _IO_jump_t stdiobuf_vtable;
#endif /* !__GNUC__ */
#endif /* !stdiobuf_vtable */
#ifdef _IO_MTSAFE_IO
#define DEF_STDIOFILE(NAME, FD, FILE, FLAGS, CHAIN) \
static _IO_lock_t _IO_stdfile_##FD##_lock = _IO_lock_initializer; \
struct _IO_fake_stdiobuf NAME = \
{{{ _IO_MAGIC+_IO_LINKED+_IO_IS_FILEBUF+_IO_UNBUFFERED+FLAGS, \
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, CHAIN, FD, \
0, 0, 0, 0, { 0 }, &_IO_stdfile_##FD##_lock},\
&stdiobuf_vtable}, FILE}
#else
#define DEF_STDIOFILE(NAME, FD, FILE, FLAGS, CHAIN) \
struct _IO_fake_stdiobuf NAME = \
{{{ _IO_MAGIC+_IO_LINKED+_IO_IS_FILEBUF+_IO_UNBUFFERED+FLAGS, \
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, CHAIN, FD}, \
&stdiobuf_vtable}, FILE}
#endif
DEF_STDIOFILE(_IO_stdin_buf, 0, stdin, _IO_NO_WRITES, &_IO_stderr_.file);
DEF_STDIOFILE(_IO_stdout_buf, 1, stdout, _IO_NO_READS, &_IO_stdin_buf.s.file);
DEF_STDIOFILE(_IO_stderr_buf, 2, stderr, _IO_NO_READS, &_IO_stdout_buf.s.file);
_IO_FILE_plus *_IO_list_all
= reinterpret_cast<_IO_FILE_plus*>(&_IO_stderr_buf.s);
#endif /* !_STDIO_USES_IOSTREAM */
| 1,820 |
1,433 | // Copyright (c) Microsoft. All rights reserved.
#include "pch.h"
#include "StartupTask.h"
using namespace WeatherStation;
using namespace Platform;
using namespace Windows::ApplicationModel::Background;
using namespace Windows::Foundation;
using namespace Windows::Devices::I2c;
using namespace Windows::Devices::Enumeration;
using namespace Windows::System::Threading;
using namespace concurrency;
StartupTask::StartupTask()
{
}
void StartupTask::Run(IBackgroundTaskInstance^ taskInstance)
{
Deferral = taskInstance->GetDeferral();
auto controllerTask = create_task(I2cController::GetDefaultAsync());
controllerTask.then([this](I2cController^ controller) {
Device = controller->GetDevice(ref new I2cConnectionSettings(0x40));
});
TimerElapsedHandler ^handler = ref new TimerElapsedHandler(
[this](ThreadPoolTimer ^timer)
{
wchar_t humidityOutput[100];
wchar_t temperatureOutput[100];
double humidity = GetHumidity();
swprintf_s(humidityOutput, 100, L"Humidity: %f\n", humidity);
OutputDebugStringW(humidityOutput);
double temperature = GetTemperature();
swprintf_s(temperatureOutput, 100, L"Temperature: %f\n", temperature);
OutputDebugStringW(temperatureOutput);
});
TimeSpan interval;
interval.Duration = 1000 * 1000 * 10;
Timer = ThreadPoolTimer::CreatePeriodicTimer(handler, interval);
}
double StartupTask::GetTemperature()
{
Platform::Array<byte>^ command = ref new Platform::Array<byte>(1);
command[0] = 0xE3;
Array<byte>^ data = ref new Array<byte>(2);
Device->WriteRead(command, data);
auto rawReading = data[0] << 8 | data[1];
auto ratio = rawReading / (float)65536;
double temperature = (-46.85 + (175.72 * ratio)) * 9 / 5 + 32;
return temperature;
}
double StartupTask::GetHumidity()
{
Platform::Array<byte>^ command = ref new Platform::Array<byte>(1);
command[0] = 0xE5;
Array<byte>^ data = ref new Array<byte>(2);
Device->WriteRead(command, data);
auto rawReading = data[0] << 8 | data[1];
auto ratio = rawReading / (float)65536;
double humidity = -6 + (125 * ratio);
return humidity;
} | 671 |
1,799 | <gh_stars>1000+
// Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#pragma once
#include "lite/core/tensor.h"
namespace paddle {
namespace lite {
namespace host {
namespace math {
template <typename T, typename IndexT = int>
void Gather(const Tensor &src, const Tensor &index, Tensor *output) {
auto *p_src = src.data<T>();
auto *p_index = index.data<IndexT>();
auto *p_output = output->mutable_data<T>();
auto src_dims = src.dims();
int64_t slice_size = 1;
for (size_t i = 1; i < src_dims.size(); i++) slice_size *= src_dims[i];
size_t slice_bytes = slice_size * sizeof(T);
int64_t index_size = index.numel();
for (int64_t i = 0; i < index_size; i++) {
IndexT index_ = p_index[i];
memcpy(p_output + i * slice_size, p_src + index_ * slice_size, slice_bytes);
}
}
} // namespace math
} // namespace host
} // namespace lite
} // namespace paddle
| 488 |
321 | """
The size of the hash table is not determinate at the very beginning. If the total size of keys is too large (e.g. size
>= capacity / 10), we should double the size of the hash table and rehash every keys. Say you have a hash table looks
like below:
size=3, capacity=4
[null, 21->9->null, 14->null, null]
The hash function is:
int hashcode(int key, int capacity) {
return key % capacity;
}
here we have three numbers, 9, 14 and 21, where 21 and 9 share the same position as they all have the same hashcode 1
(21 % 4 = 9 % 4 = 1). We store them in the hash table by linked list.
rehashing this hash table, double the capacity, you will get:
size=3, capacity=8
index: 0 1 2 3 4 5 6 7
hash table: [null, 9, null, null, null, 21, 14, null]
Given the original hash table, return the new hash table after rehashing .
"""
__author__ = 'Danyang'
class ListNode(object):
def __init__(self, val, next=None):
self.val = val
self.next = next
def __repr__(self):
return repr(self.val)
class Solution:
def rehashing(self, hashTable):
"""
:param hashTable: A list of The first node of linked list
:return: A list of The first node of linked list which have twice size
"""
cap = len(hashTable)
cap *= 2
ht = [None for _ in xrange(cap)]
for node in hashTable:
while node:
self.__rehash(ht, ListNode(node.val)) # need a new copy
node = node.next
return ht
def __rehash(self, ht, node):
code = self.__hashcode(node.val, len(ht))
if ht[code] is None:
ht[code] = node
else:
cur = ht[code]
while cur.next:
cur = cur.next
cur.next = node
def __hashcode(self, key, capacity):
return key%capacity
if __name__ == "__main__":
hashTable = [None for _ in xrange(3)]
n0 = ListNode(29)
n1 = ListNode(5)
n0.next = n1
hashTable[2] = n0
print Solution().rehashing(hashTable) | 877 |
892 | <filename>advisories/unreviewed/2022/05/GHSA-vvqg-75f9-88hx/GHSA-vvqg-75f9-88hx.json
{
"schema_version": "1.2.0",
"id": "GHSA-vvqg-75f9-88hx",
"modified": "2022-05-01T18:12:21Z",
"published": "2022-05-01T18:12:21Z",
"aliases": [
"CVE-2007-3289"
],
"details": "PHP remote file inclusion vulnerability in spaw/spaw_control.class.php in the WiwiMod 0.4 module for XOOPS allows remote attackers to execute arbitrary PHP code via a URL in the spaw_root parameter. NOTE: this issue is probably a duplicate of CVE-2006-4656.",
"severity": [
],
"affected": [
],
"references": [
{
"type": "ADVISORY",
"url": "https://nvd.nist.gov/vuln/detail/CVE-2007-3289"
},
{
"type": "WEB",
"url": "https://exchange.xforce.ibmcloud.com/vulnerabilities/34951"
},
{
"type": "WEB",
"url": "https://www.exploit-db.com/exploits/4084"
},
{
"type": "WEB",
"url": "http://osvdb.org/38473"
}
],
"database_specific": {
"cwe_ids": [
],
"severity": "HIGH",
"github_reviewed": false
}
} | 505 |
1,767 | <reponame>slaveuser/Lightweight-Stream-API20171027
package com.annimon.stream.iterator;
import java.util.NoSuchElementException;
import org.junit.Test;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertTrue;
public class LsaIteratorTest {
@Test
public void testHasNext() {
assertFalse(new EmptyLsaIterator().hasNext());
assertTrue(new LsaIteratorImpl().hasNext());
}
@Test(expected = NoSuchElementException.class)
public void testNext() {
final LsaIteratorImpl iterator = new LsaIteratorImpl();
assertEquals(iterator.next(), "1");
assertEquals(iterator.next(), "2");
new EmptyLsaIterator().next();
}
@Test(expected = UnsupportedOperationException.class)
public void testRemove() {
new EmptyLsaIterator().remove();
}
@Test(expected = NoSuchElementException.class)
public void testIterator() {
final LsaIteratorImpl iterator = new LsaIteratorImpl();
assertTrue(iterator.hasNext());
assertTrue(iterator.hasNext());
assertEquals(iterator.next(), "1");
assertEquals(iterator.next(), "2");
assertFalse(iterator.hasNext());
assertFalse(iterator.hasNext());
iterator.next();
}
public static class EmptyLsaIterator extends LsaIterator<String> {
@Override
public boolean hasNext() {
return false;
}
@Override
public String nextIteration() {
return "";
}
}
public static class LsaIteratorImpl extends LsaIterator<String> {
int index = 0;
@Override
public boolean hasNext() {
return index < 2;
}
@Override
public String nextIteration() {
return Integer.toString(++index);
}
}
}
| 748 |
522 | import glob
import pycocotools.mask as cocomask
import tensorflow as tf
import numpy as np
from core import Extractions
from datasets import DataKeys
from datasets.Dataset import FileListDataset
from datasets.Loader import register_dataset
from datasets.KITTI.segtrack.KITTI_segtrack import DEFAULT_PATH
NAME = "KITTI_segtrack_bbox_regression_forward"
@register_dataset(NAME)
class KittiSegtrackBboxRegressionForwardDataset(FileListDataset):
def __init__(self, config, subset):
super().__init__(config, NAME, subset, DEFAULT_PATH, 2)
def read_inputfile_lists(self):
img_filenames = []
infos = []
det_files = glob.glob("forwarded/segtrack_lr_0000005/tracking_data/*.txt")
for det_file in det_files:
seq = det_file.split("/")[-1].replace(".txt", "")
with open(det_file) as f:
for l in f:
sp = l.split()
t = int(sp[0])
img_filename = self.data_dir + "/images/" + seq + "/%06d.png" % t
img_filenames.append(img_filename)
infos.append(seq + " " + l)
return img_filenames, infos
def load_annotation(self, img, img_filename, ann_string):
# load mask from rle...
def _load_mask(ann_str, img_shape):
ann_str = ann_str.decode("utf-8")
sp = ann_str.split()
rle = {"counts": sp[-1], "size": img_shape[:2]}
m = cocomask.decode(rle)
return m[..., np.newaxis]
mask = tf.py_func(_load_mask, [ann_string, tf.shape(img)], tf.uint8)
mask.set_shape((None, None, 1))
ann = {DataKeys.SEGMENTATION_LABELS: mask, Extractions.CUSTOM_STRING: ann_string}
return ann
| 672 |
14,668 | // Copyright 2021 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "third_party/blink/renderer/core/css/css_image_value.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/blink/renderer/core/dom/document.h"
#include "third_party/blink/renderer/core/dom/element.h"
#include "third_party/blink/renderer/core/dom/node_computed_style.h"
#include "third_party/blink/renderer/core/loader/resource/image_resource_content.h"
#include "third_party/blink/renderer/core/style/computed_style.h"
#include "third_party/blink/renderer/core/testing/sim/sim_request.h"
#include "third_party/blink/renderer/core/testing/sim/sim_test.h"
#include "third_party/blink/renderer/platform/testing/unit_test_helpers.h"
namespace blink {
class CSSImageValueTest : public SimTest {};
TEST_F(CSSImageValueTest, BlockPotentiallyDanglingMarkup) {
SimRequest main_resource("https://example.com", "text/html");
LoadURL("https://example.com");
main_resource.Complete(R"HTML(
<!doctype html>
<table id="t1" background="ht
tps://example.com/y<ay?foo"><td>XXX</td></table>
<table id="t2" background="ht
tps://example.com/y<ay?bar#boo"><td>XXX</td></table>
)HTML");
test::RunPendingTasks();
Compositor().BeginFrame();
auto* t1 = GetDocument().getElementById("t1");
ImageResourceContent* content1 =
t1->ComputedStyleRef().BackgroundLayers().GetImage()->CachedImage();
ASSERT_TRUE(content1);
EXPECT_TRUE(content1->ErrorOccurred());
auto* t2 = GetDocument().getElementById("t2");
ImageResourceContent* content2 =
t2->ComputedStyleRef().BackgroundLayers().GetImage()->CachedImage();
ASSERT_TRUE(content2);
EXPECT_TRUE(content2->ErrorOccurred());
}
} // namespace blink
| 653 |
530 | {
"manufacturer": "Napco Security Technologies, Inc.",
"manufacturerId": "0x0121",
"label": "IBR-ZREMOTE",
"description": "I-Bridge Z-Wave Controller",
"devices": [
{
"productType": "0x0001",
"productId": "0x0101",
"zwaveAllianceId": [3689, 968]
}
],
"firmwareVersion": {
"min": "0.0",
"max": "255.255"
}
}
| 154 |
5,813 | /*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.apache.druid.segment.filter;
import com.google.common.base.Function;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSet;
import nl.jqno.equalsverifier.EqualsVerifier;
import org.apache.druid.data.input.InputRow;
import org.apache.druid.data.input.impl.DimensionsSpec;
import org.apache.druid.data.input.impl.InputRowParser;
import org.apache.druid.data.input.impl.MapInputRowParser;
import org.apache.druid.data.input.impl.TimeAndDimsParseSpec;
import org.apache.druid.data.input.impl.TimestampSpec;
import org.apache.druid.java.util.common.DateTimes;
import org.apache.druid.java.util.common.Pair;
import org.apache.druid.query.filter.AndDimFilter;
import org.apache.druid.query.filter.InDimFilter;
import org.apache.druid.query.filter.NotDimFilter;
import org.apache.druid.query.filter.OrDimFilter;
import org.apache.druid.query.filter.SelectorDimFilter;
import org.apache.druid.query.filter.TrueDimFilter;
import org.apache.druid.segment.IndexBuilder;
import org.apache.druid.segment.StorageAdapter;
import org.junit.AfterClass;
import org.junit.Test;
import org.junit.runner.RunWith;
import org.junit.runners.Parameterized;
import java.io.Closeable;
import java.util.List;
import java.util.Map;
@RunWith(Parameterized.class)
public class OrFilterTest extends BaseFilterTest
{
private static final String TIMESTAMP_COLUMN = "timestamp";
private static final InputRowParser<Map<String, Object>> PARSER = new MapInputRowParser(
new TimeAndDimsParseSpec(
new TimestampSpec(TIMESTAMP_COLUMN, "iso", DateTimes.of("2000")),
DimensionsSpec.EMPTY
)
);
private static final List<InputRow> ROWS = ImmutableList.of(
PARSER.parseBatch(ImmutableMap.of("dim0", "0", "dim1", "0")).get(0),
PARSER.parseBatch(ImmutableMap.of("dim0", "1", "dim1", "0")).get(0),
PARSER.parseBatch(ImmutableMap.of("dim0", "2", "dim1", "0")).get(0),
PARSER.parseBatch(ImmutableMap.of("dim0", "3", "dim1", "0")).get(0),
PARSER.parseBatch(ImmutableMap.of("dim0", "4", "dim1", "0")).get(0),
PARSER.parseBatch(ImmutableMap.of("dim0", "5", "dim1", "0")).get(0)
);
public OrFilterTest(
String testName,
IndexBuilder indexBuilder,
Function<IndexBuilder, Pair<StorageAdapter, Closeable>> finisher,
boolean cnf,
boolean optimize
)
{
super(testName, ROWS, indexBuilder, finisher, cnf, optimize);
}
@AfterClass
public static void tearDown() throws Exception
{
BaseFilterTest.tearDown(AndFilterTest.class.getName());
}
@Test
public void testOneFilterMatchSome()
{
assertFilterMatches(
new OrDimFilter(
ImmutableList.of(
new SelectorDimFilter("dim0", "1", null)
)
),
ImmutableList.of("1")
);
}
@Test
public void testOneFilterMatchAll()
{
assertFilterMatches(
new OrDimFilter(
ImmutableList.of(
new SelectorDimFilter("dim1", "0", null)
)
),
ImmutableList.of("0", "1", "2", "3", "4", "5")
);
}
@Test
public void testOneFilterMatchNone()
{
assertFilterMatches(
new OrDimFilter(
ImmutableList.of(
new SelectorDimFilter("dim1", "7", null)
)
),
ImmutableList.of()
);
}
@Test
public void testTwoFilterFirstMatchesAllSecondMatchesNone()
{
assertFilterMatches(
new OrDimFilter(
ImmutableList.of(
new SelectorDimFilter("dim1", "0", null),
new SelectorDimFilter("dim0", "7", null)
)
),
ImmutableList.of("0", "1", "2", "3", "4", "5")
);
}
@Test
public void testTwoFilterFirstMatchesNoneSecondMatchesAll()
{
assertFilterMatches(
new OrDimFilter(
ImmutableList.of(
new SelectorDimFilter("dim0", "7", null),
new SelectorDimFilter("dim1", "0", null)
)
),
ImmutableList.of("0", "1", "2", "3", "4", "5")
);
}
@Test
public void testTwoFilterFirstMatchesNoneSecondLiterallyTrue()
{
assertFilterMatches(
new OrDimFilter(
ImmutableList.of(
new SelectorDimFilter("dim0", "7", null),
TrueDimFilter.instance()
)
),
ImmutableList.of("0", "1", "2", "3", "4", "5")
);
}
@Test
public void testTwoFilterFirstMatchesAllSecondMatchesAll()
{
assertFilterMatches(
new OrDimFilter(
ImmutableList.of(
new SelectorDimFilter("dim1", "0", null),
new NotDimFilter(new SelectorDimFilter("dim0", "7", null))
)
),
ImmutableList.of("0", "1", "2", "3", "4", "5")
);
}
@Test
public void testTwoFilterFirstLiterallyTrueSecondMatchesAll()
{
assertFilterMatches(
new OrDimFilter(
ImmutableList.of(
TrueDimFilter.instance(),
new NotDimFilter(new SelectorDimFilter("dim0", "7", null))
)
),
ImmutableList.of("0", "1", "2", "3", "4", "5")
);
}
@Test
public void testTwoFilterFirstMatchesSomeSecondMatchesNone()
{
assertFilterMatches(
new OrDimFilter(
ImmutableList.of(
new SelectorDimFilter("dim0", "3", null),
new SelectorDimFilter("dim1", "7", null)
)
),
ImmutableList.of("3")
);
}
@Test
public void testTwoFilterFirstMatchesNoneSecondMatchesSome()
{
assertFilterMatches(
new OrDimFilter(
ImmutableList.of(
new SelectorDimFilter("dim1", "7", null),
new SelectorDimFilter("dim0", "3", null)
)
),
ImmutableList.of("3")
);
}
@Test
public void testTwoFilterFirstMatchesNoneSecondMatchesNone()
{
assertFilterMatches(
new OrDimFilter(
ImmutableList.of(
new SelectorDimFilter("dim1", "7", null),
new SelectorDimFilter("dim0", "7", null)
)
),
ImmutableList.of()
);
}
@Test
public void testThreeFilterFirstMatchesSomeSecondLiterallyTrueThirdMatchesNone()
{
assertFilterMatches(
new AndDimFilter(
new InDimFilter("dim0", ImmutableSet.of("0", "1", "2", "4", "5")),
new OrDimFilter(
ImmutableList.of(
new SelectorDimFilter("dim0", "4", null),
TrueDimFilter.instance(),
new SelectorDimFilter("dim0", "7", null)
)
)
),
ImmutableList.of("0", "1", "2", "4", "5")
);
}
@Test
public void testEquals()
{
EqualsVerifier.forClass(OrDimFilter.class).usingGetClass().withIgnoredFields("cachedOptimizedFilter").verify();
EqualsVerifier.forClass(OrFilter.class).usingGetClass().withNonnullFields("filters").verify();
}
}
| 3,411 |
396 | package com.kunminx.samples.ui.operators;
import android.os.Bundle;
import android.util.Log;
import android.view.LayoutInflater;
import android.view.View;
import android.view.ViewGroup;
import android.widget.Button;
import android.widget.TextView;
import androidx.annotation.NonNull;
import androidx.annotation.Nullable;
import androidx.fragment.app.Fragment;
import com.kunminx.samples.R;
import com.kunminx.samples.utils.AppConstant;
import io.reactivex.rxjava3.core.Flowable;
import io.reactivex.rxjava3.core.SingleObserver;
import io.reactivex.rxjava3.disposables.Disposable;
import io.reactivex.rxjava3.functions.BiFunction;
/**
* Created by amitshekhar on 27/08/16.
*/
public class FlowableExampleFragment extends Fragment {
private static final String TAG = FlowableExampleFragment.class.getSimpleName();
Button btn;
TextView textView;
@Nullable
@Override
public View onCreateView(@NonNull LayoutInflater inflater, @Nullable ViewGroup container, @Nullable Bundle savedInstanceState) {
return inflater.inflate(R.layout.fragment_example, container, false);
}
@Override
public void onViewCreated(@NonNull View view, @Nullable Bundle savedInstanceState) {
super.onViewCreated(view, savedInstanceState);
btn = view.findViewById(R.id.btn);
textView = view.findViewById(R.id.textView);
btn.setOnClickListener(view1 -> doSomeWork());
}
/*
* simple example using Flowable
*/
private void doSomeWork() {
Flowable<Integer> observable = Flowable.just(1, 2, 3, 4);
observable.reduce(50, (t1, t2) -> t1 + t2).subscribe(getObserver());
}
private SingleObserver<Integer> getObserver() {
return new SingleObserver<Integer>() {
@Override
public void onSubscribe(Disposable d) {
Log.d(TAG, " onSubscribe : " + d.isDisposed());
}
@Override
public void onSuccess(Integer value) {
textView.append(" onSuccess : value : " + value);
textView.append(AppConstant.LINE_SEPARATOR);
Log.d(TAG, " onSuccess : value : " + value);
}
@Override
public void onError(Throwable e) {
textView.append(" onError : " + e.getMessage());
textView.append(AppConstant.LINE_SEPARATOR);
Log.d(TAG, " onError : " + e.getMessage());
}
};
}
} | 843 |
449 | <gh_stars>100-1000
/*
* Copyright (C) 2018 Yubico AB - See COPYING
*/
#ifndef B64_H
#define B64_H
int b64_encode(const void *, size_t, char **);
int b64_decode(const char *, void **, size_t *);
#endif /* B64_H */
| 95 |
1,772 | from django.conf.urls import url
from dojo.google_sheet import views
urlpatterns = [
# google_sheet
url(r'^configure_google_sheets$', views.configure_google_sheets,
name='configure_google_sheets'),
url(r'^export_to_sheet/(?P<tid>\d+)$', views.export_to_sheet,
name='export_to_sheet'),
]
| 127 |
3,181 | /*
* Copyright (C) 2013-2017 microG Project Team
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.google.android.gms.auth;
import com.google.android.gms.common.api.Scope;
import org.microg.safeparcel.AutoSafeParcelable;
import org.microg.safeparcel.SafeParceled;
import java.util.List;
public class TokenData extends AutoSafeParcelable {
@SafeParceled(1)
private int versionCode = 1;
@SafeParceled(2)
public final String token;
@SafeParceled(3)
public final Long expiry;
@SafeParceled(5)
public final boolean isOAuth;
@SafeParceled(value = 6, subClass = Scope.class)
public final List<Scope> scopes;
public TokenData() {
token = null;
expiry = null;
isOAuth = false;
scopes = null;
}
public TokenData(String token, Long expiry, boolean isOAuth, List<Scope> scopes) {
this.token = token;
this.expiry = expiry;
this.isOAuth = isOAuth;
this.scopes = scopes;
}
public TokenData(String token, Long expiry) {
this.token = token;
this.expiry = expiry;
this.isOAuth = false;
this.scopes = null;
}
public static final Creator<TokenData> CREATOR = new AutoCreator<TokenData>(TokenData.class);
}
| 649 |
342 | package me.zq.youjoin.model;
import android.os.Parcel;
import android.os.Parcelable;
import java.util.List;
/**
* YouJoin-Android
* Created by ZQ on 2015/12/4.
*/
public class TweetInfo {
/**
* result : success
* tweets : [{"friend_id":"16","tweets_id":"14","comment_num":"4","upvote_num":"0","upvote_status":"0","tweets_content":"haha i love mzz!","tweets_img":"http://www.tekbroaden.com/youjoin-server/upload/16/20151206032335_lufei.jpg","tweets_time":"2015-12-06 03:23:35"},{"friend_id":"16","tweets_id":"25","comment_num":"0","upvote_num":"0","upvote_status":"0","tweets_content":"ahahah\n:smile::smile::smiley:","tweets_img":"","tweets_time":"2015-12-15 10:52:34"}]
*/
private String result;
/**
* friend_id : 16
* tweets_id : 14
* comment_num : 4
* upvote_num : 0
* upvote_status : 0
* tweets_content : haha i love mzz!
* tweets_img : http://www.tekbroaden.com/youjoin-server/upload/16/20151206032335_lufei.jpg
* tweets_time : 2015-12-06 03:23:35
*/
private List<TweetsEntity> tweets;
public void setResult(String result) {
this.result = result;
}
public void setTweets(List<TweetsEntity> tweets) {
this.tweets = tweets;
}
public String getResult() {
return result;
}
public List<TweetsEntity> getTweets() {
return tweets;
}
public static class TweetsEntity implements Parcelable {
private int friend_id;
private int tweets_id;
private int comment_num;
private int upvote_num;
private int upvote_status;
private String tweets_content;
private String tweets_img;
private String tweets_time;
public void setFriend_id(int friend_id) {
this.friend_id = friend_id;
}
public void setTweets_id(int tweets_id) {
this.tweets_id = tweets_id;
}
public void setComment_num(int comment_num) {
this.comment_num = comment_num;
}
public void setUpvote_num(int upvote_num) {
this.upvote_num = upvote_num;
}
public void setUpvote_status(int upvote_status) {
this.upvote_status = upvote_status;
}
public void setTweets_content(String tweets_content) {
this.tweets_content = tweets_content;
}
public void setTweets_img(String tweets_img) {
this.tweets_img = tweets_img;
}
public void setTweets_time(String tweets_time) {
this.tweets_time = tweets_time;
}
public int getFriend_id() {
return friend_id;
}
public int getTweets_id() {
return tweets_id;
}
public int getComment_num() {
return comment_num;
}
public int getUpvote_num() {
return upvote_num;
}
public int getUpvote_status() {
return upvote_status;
}
public String getTweets_content() {
return tweets_content;
}
public String getTweets_img() {
return tweets_img;
}
public String getTweets_time() {
return tweets_time;
}
@Override
public int describeContents() {
return 0;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
dest.writeInt(this.friend_id);
dest.writeInt(this.tweets_id);
dest.writeInt(this.comment_num);
dest.writeInt(this.upvote_num);
dest.writeInt(this.upvote_status);
dest.writeString(this.tweets_content);
dest.writeString(this.tweets_img);
dest.writeString(this.tweets_time);
}
public TweetsEntity() {
}
protected TweetsEntity(Parcel in) {
this.friend_id = in.readInt();
this.tweets_id = in.readInt();
this.comment_num = in.readInt();
this.upvote_num = in.readInt();
this.upvote_status = in.readInt();
this.tweets_content = in.readString();
this.tweets_img = in.readString();
this.tweets_time = in.readString();
}
public static final Parcelable.Creator<TweetsEntity> CREATOR = new Parcelable.Creator<TweetsEntity>() {
public TweetsEntity createFromParcel(Parcel source) {
return new TweetsEntity(source);
}
public TweetsEntity[] newArray(int size) {
return new TweetsEntity[size];
}
};
}
}
| 2,195 |
1,560 | <reponame>pierky/exabgp
# encoding: utf-8
"""
icmp.py
Created by <NAME> on 2010-01-15.
Copyright (c) 2009-2017 Exa Networks. All rights reserved.
License: 3-clause BSD. (See the COPYRIGHT file)
"""
from exabgp.protocol.resource import Resource
# ============================================================== ICMP Code Field
# https://www.iana.org/assignments/icmp-parameters
class Port(Resource):
NAME = 'port'
def __str__(self):
return str(int(self))
def name(self):
return self.names.get(self, '%d' % int(self))
names = {
1: 'tcpmux',
2: 'compressnet',
3: 'compressnet',
4: 'echo',
5: 'rje',
6: 'zip',
7: 'echo',
9: 'discard',
11: 'systat',
13: 'daytime',
17: 'qotd',
18: 'msp',
19: 'chargen',
20: 'ftp-data',
21: 'ftp',
22: 'ssh',
23: 'telnet',
25: 'smtp',
27: 'nsw-fe',
29: 'msg-icp',
31: 'msg-auth',
33: 'dsp',
37: 'time',
38: 'rap',
39: 'rlp',
41: 'graphics',
42: 'name',
43: 'nicname',
44: 'mpm-flags',
45: 'mpm',
46: 'mpm-snd',
47: 'ni-ftp',
48: 'auditd',
49: 'tacacs',
50: 're-mail-ck',
51: 'la-maint',
52: 'xns-time',
53: 'domain',
54: 'xns-ch',
55: 'isi-gl',
56: 'xns-auth',
58: 'xns-mail',
61: 'ni-mail',
62: 'acas',
63: 'whois++',
64: 'covia',
65: 'tacacs-ds',
66: 'sql*net',
67: 'bootps',
68: 'bootpc',
69: 'tftp',
70: 'gopher',
71: 'netrjs-1',
72: 'netrjs-2',
73: 'netrjs-3',
74: 'netrjs-4',
76: 'deos',
78: 'vettcp',
79: 'finger',
80: 'http',
81: 'hosts2-ns',
82: 'xfer',
83: 'mit-ml-dev',
84: 'ctf',
85: 'mit-ml-dev',
86: 'mfcobol',
88: 'kerberos',
89: 'su-mit-tg',
90: 'dnsix',
91: 'mit-dov',
92: 'npp',
93: 'dcp',
94: 'objcall',
95: 'supdup',
96: 'dixie',
97: 'swift-rvf',
98: 'tacnews',
99: 'metagram',
100: 'newacct',
101: 'hostname',
102: 'iso-tsap',
103: 'gppitnp',
104: 'acr-nema',
105: 'csnet-ns',
106: '3com-tsmux',
107: 'rtelnet',
108: 'snagas',
109: 'pop2',
110: 'pop3',
111: 'sunrpc',
112: 'mcidas',
113: 'auth',
114: 'audionews',
115: 'sftp',
116: 'ansanotify',
117: 'uucp-path',
118: 'sqlserv',
119: 'nntp',
120: 'cfdptkt',
121: 'erpc',
122: 'smakynet',
123: 'ntp',
124: 'ansatrader',
125: 'locus-map',
126: 'nxedit',
127: 'locus-con',
128: 'gss-xlicen',
129: 'pwdgen',
130: 'cisco-fna',
131: 'cisco-tna',
132: 'cisco-sys',
133: 'statsrv',
134: 'ingres-net',
135: 'epmap',
136: 'profile',
137: 'netbios-ns',
138: 'netbios-dgm',
139: 'netbios-ssn',
140: 'emfis-data',
141: 'emfis-cntl',
142: 'bl-idm',
143: 'imap',
144: 'uma',
145: 'uaac',
146: 'iso-tp0',
147: 'iso-ip',
148: 'jargon',
149: 'aed-512',
150: 'sql-net',
151: 'hems',
152: 'bftp',
153: 'sgmp',
154: 'netsc-prod',
155: 'netsc-dev',
156: 'sqlsrv',
157: 'knet-cmp',
158: 'pcmail-srv',
159: 'nss-routing',
160: 'sgmp-traps',
161: 'snmp',
162: 'snmptrap',
163: 'cmip-man',
164: 'cmip-agent',
165: 'xns-courier',
166: 's-net',
167: 'namp',
168: 'rsvd',
169: 'send',
170: 'print-srv',
171: 'multiplex',
172: 'cl/1',
173: 'xyplex-mux',
174: 'mailq',
175: 'vmnet',
176: 'genrad-mux',
177: 'xdmcp',
178: 'nextstep',
179: 'bgp',
180: 'ris',
181: 'unify',
182: 'audit',
183: 'ocbinder',
184: 'ocserver',
185: 'remote-kis',
186: 'kis',
187: 'aci',
188: 'mumps',
189: 'qft',
190: 'gacp',
191: 'prospero',
192: 'osu-nms',
193: 'srmp',
194: 'irc',
195: 'dn6-nlm-aud',
196: 'dn6-smm-red',
197: 'dls',
198: 'dls-mon',
199: 'smux',
200: 'src',
201: 'at-rtmp',
202: 'at-nbp',
203: 'at-3',
204: 'at-echo',
205: 'at-5',
206: 'at-zis',
207: 'at-7',
208: 'at-8',
209: 'qmtp',
210: 'z39.50',
211: '914c/g',
212: 'anet',
213: 'ipx',
214: 'vmpwscs',
215: 'softpc',
216: 'CAIlic',
217: 'dbase',
218: 'mpp',
219: 'uarps',
220: 'imap3',
221: 'fln-spx',
222: 'rsh-spx',
223: 'cdc',
224: 'masqdialer',
242: 'direct',
243: 'sur-meas',
244: 'inbusiness',
245: 'link',
246: 'dsp3270',
247: 'subntbcst_tftp',
248: 'bhfhs',
256: 'rap',
257: 'set',
258: 'yak-chat',
259: 'esro-gen',
260: 'openport',
261: 'nsiiops',
262: 'arcisdms',
263: 'hdap',
264: 'bgmp',
265: 'x-bone-ctl',
266: 'sst',
267: 'td-service',
268: 'td-replica',
280: 'http-mgmt',
281: 'personal-link',
282: 'cableport-ax',
283: 'rescap',
284: 'corerjd',
286: 'fxp-1',
287: 'k-block',
308: 'novastorbakcup',
309: 'entrusttime',
310: 'bhmds',
311: 'asip-webadmin',
312: 'vslmp',
313: 'magenta-logic',
314: 'opalis-robot',
315: 'dpsi',
316: 'decauth',
317: 'zannet',
318: 'pkix-timestamp',
319: 'ptp-event',
320: 'ptp-general',
321: 'pip',
322: 'rtsps',
333: 'texar',
344: 'pdap',
345: 'pawserv',
346: 'zserv',
347: 'fatserv',
348: 'csi-sgwp',
349: 'mftp',
350: 'matip-type-a',
351: 'bhoetty',
352: 'bhoedap4',
353: 'ndsauth',
354: 'bh611',
355: 'datex-asn',
356: 'cloanto-net-1',
357: 'bhevent',
358: 'shrinkwrap',
359: 'nsrmp',
360: 'scoi2odialog',
361: 'semantix',
362: 'srssend',
363: 'rsvp_tunnel',
364: 'aurora-cmgr',
365: 'dtk',
366: 'odmr',
367: 'mortgageware',
368: 'qbikgdp',
369: 'rpc2portmap',
370: 'codaauth2',
371: 'clearcase',
372: 'ulistproc',
373: 'legent-1',
374: 'legent-2',
375: 'hassle',
376: 'nip',
377: 'tnETOS',
378: 'dsETOS',
379: 'is99c',
380: 'is99s',
381: 'hp-collector',
382: 'hp-managed-node',
383: 'hp-alarm-mgr',
384: 'arns',
385: 'ibm-app',
386: 'asa',
387: 'aurp',
388: 'unidata-ldm',
389: 'ldap',
390: 'uis',
391: 'synotics-relay',
392: 'synotics-broker',
393: 'meta5',
394: 'embl-ndt',
395: 'netcp',
396: 'netware-ip',
397: 'mptn',
398: 'kryptolan',
399: 'iso-tsap-c2',
400: 'work-sol',
401: 'ups',
402: 'genie',
403: 'decap',
404: 'nced',
405: 'ncld',
406: 'imsp',
407: 'timbuktu',
408: 'prm-sm',
409: 'prm-nm',
410: 'decladebug',
411: 'rmt',
412: 'synoptics-trap',
413: 'smsp',
414: 'infoseek',
415: 'bnet',
416: 'silverplatter',
417: 'onmux',
418: 'hyper-g',
419: 'ariel1',
420: 'smpte',
421: 'ariel2',
422: 'ariel3',
423: 'opc-job-start',
424: 'opc-job-track',
425: 'icad-el',
426: 'smartsdp',
427: 'svrloc',
428: 'ocs_cmu',
429: 'ocs_amu',
430: 'utmpsd',
431: 'utmpcd',
432: 'iasd',
433: 'nnsp',
434: 'mobileip-agent',
435: 'mobilip-mn',
436: 'dna-cml',
437: 'comscm',
438: 'dsfgw',
439: 'dasp',
440: 'sgcp',
441: 'decvms-sysmgt',
442: 'cvc_hostd',
443: 'https',
444: 'snpp',
445: 'microsoft-ds',
446: 'ddm-rdb',
447: 'ddm-dfm',
448: 'ddm-ssl',
449: 'as-servermap',
450: 'tserver',
451: 'sfs-smp-net',
452: 'sfs-config',
453: 'creativeserver',
454: 'contentserver',
455: 'creativepartnr',
456: 'macon-tcp',
457: 'scohelp',
458: 'appleqtc',
459: 'ampr-rcmd',
460: 'skronk',
461: 'datasurfsrv',
462: 'datasurfsrvsec',
463: 'alpes',
464: 'kpasswd',
465: 'urd',
466: 'digital-vrc',
467: 'mylex-mapd',
468: 'photuris',
469: 'rcp',
470: 'scx-proxy',
471: 'mondex',
472: 'ljk-login',
473: 'hybrid-pop',
474: 'tn-tl-w1',
475: 'tcpnethaspsrv',
476: 'tn-tl-fd1',
477: 'ss7ns',
478: 'spsc',
479: 'iafserver',
480: 'iafdbase',
481: 'ph',
482: 'bgs-nsi',
483: 'ulpnet',
484: 'integra-sme',
485: 'powerburst',
486: 'avian',
487: 'saft',
488: 'gss-http',
489: 'nest-protocol',
490: 'micom-pfs',
491: 'go-login',
492: 'ticf-1',
493: 'ticf-2',
494: 'pov-ray',
495: 'intecourier',
496: 'pim-rp-disc',
497: 'dantz',
498: 'siam',
499: 'iso-ill',
500: 'isakmp',
501: 'stmf',
502: 'asa-appl-proto',
503: 'intrinsa',
504: 'citadel',
505: 'mailbox-lm',
506: 'ohimsrv',
507: 'crs',
508: 'xvttp',
509: 'snare',
510: 'fcp',
511: 'passgo',
512: 'comsat',
513: 'who',
514: 'syslog',
515: 'printer',
516: 'videotex',
517: 'talk',
518: 'ntalk',
519: 'utime',
520: 'efs',
521: 'ripng',
522: 'ulp',
523: 'ibm-db2',
524: 'ncp',
525: 'timed',
526: 'tempo',
527: 'stx',
528: 'custix',
529: 'irc-serv',
530: 'courier',
531: 'conference',
532: 'netnews',
533: 'netwall',
534: 'mm-admin',
535: 'iiop',
536: 'opalis-rdv',
537: 'nmsp',
538: 'gdomap',
539: 'apertus-ldp',
540: 'uucp',
541: 'uucp-rlogin',
542: 'commerce',
543: 'klogin',
544: 'kshell',
545: 'appleqtcsrvr',
546: 'dhcpv6-client',
547: 'dhcpv6-server',
548: 'afpovertcp',
549: 'idfp',
550: 'new-rwho',
551: 'cybercash',
552: 'devshr-nts',
553: 'pirp',
554: 'rtsp',
555: 'dsf',
556: 'remotefs',
557: 'openvms-sysipc',
558: 'sdnskmp',
559: 'teedtap',
560: 'rmonitor',
561: 'monitor',
562: 'chshell',
563: 'nntps',
564: '9pfs',
565: 'whoami',
566: 'streettalk',
567: 'banyan-rpc',
568: 'ms-shuttle',
569: 'ms-rome',
570: 'meter',
571: 'meter',
572: 'sonar',
573: 'banyan-vip',
574: 'ftp-agent',
575: 'vemmi',
576: 'ipcd',
577: 'vnas',
578: 'ipdd',
579: 'decbsrv',
580: 'sntp-heartbeat',
581: 'bdp',
582: 'scc-security',
583: 'philips-vc',
584: 'keyserver',
585: 'imap4-ssl',
586: 'password-chg',
587: 'submission',
588: 'cal',
589: 'eyelink',
590: 'tns-cml',
591: 'http-alt',
592: 'eudora-set',
593: 'http-rpc-epmap',
594: 'tpip',
595: 'cab-protocol',
596: 'smsd',
597: 'ptcnameservice',
598: 'sco-websrvrmg3',
599: 'acp',
600: 'ipcserver',
601: 'syslog-conn',
602: 'xmlrpc-beep',
603: 'idxp',
604: 'tunnel',
605: 'soap-beep',
606: 'urm',
607: 'nqs',
608: 'sift-uft',
609: 'npmp-trap',
610: 'npmp-local',
611: 'npmp-gui',
612: 'hmmp-ind',
613: 'hmmp-op',
614: 'sshell',
615: 'sco-inetmgr',
616: 'sco-sysmgr',
617: 'sco-dtmgr',
618: 'dei-icda',
619: 'compaq-evm',
620: 'sco-websrvrmgr',
621: 'escp-ip',
622: 'collaborator',
623: 'asf-rmcp',
624: 'cryptoadmin',
625: 'dec_dlm',
626: 'asia',
627: 'passgo-tivoli',
628: 'qmqp',
629: '3com-amp3',
630: 'rda',
631: 'ipp',
632: 'bmpp',
633: 'servstat',
634: 'ginad',
635: 'rlzdbase',
636: 'ldaps',
637: 'lanserver',
638: 'mcns-sec',
639: 'msdp',
640: 'entrust-sps',
641: 'repcmd',
642: 'esro-emsdp',
643: 'sanity',
644: 'dwr',
645: 'pssc',
646: 'ldp',
647: 'dhcp-failover',
648: 'rrp',
649: 'cadview-3d',
650: 'obex',
651: 'ieee-mms',
652: 'hello-port',
653: 'repscmd',
654: 'aodv',
655: 'tinc',
656: 'spmp',
657: 'rmc',
658: 'tenfold',
660: 'mac-srvr-admin',
661: 'hap',
662: 'pftp',
663: 'purenoise',
664: 'asf-secure-rmcp',
665: 'sun-dr',
666: 'mdqs',
667: 'disclose',
668: 'mecomm',
669: 'meregister',
670: 'vacdsm-sws',
671: 'vacdsm-app',
672: 'vpps-qua',
673: 'cimplex',
674: 'acap',
675: 'dctp',
676: 'vpps-via',
677: 'vpp',
678: 'ggf-ncp',
679: 'mrm',
680: 'entrust-aaas',
681: 'entrust-aams',
682: 'xfr',
683: 'corba-iiop',
684: 'corba-iiop-ssl',
685: 'mdc-portmapper',
686: 'hcp-wismar',
687: 'asipregistry',
688: 'realm-rusd',
689: 'nmap',
690: 'vatp',
691: 'msexch-routing',
692: 'hyperwave-isp',
693: 'connendp',
694: 'ha-cluster',
695: 'ieee-mms-ssl',
696: 'rushd',
697: 'uuidgen',
698: 'olsr',
699: 'accessnetwork',
700: 'epp',
701: 'lmp',
702: 'iris-beep',
704: 'elcsd',
705: 'agentx',
706: 'silc',
707: 'borland-dsj',
709: 'entrust-kmsh',
710: 'entrust-ash',
711: 'cisco-tdp',
712: 'tbrpf',
729: 'netviewdm1',
730: 'netviewdm2',
731: 'netviewdm3',
741: 'netgw',
742: 'netrcs',
744: 'flexlm',
747: 'fujitsu-dev',
748: 'ris-cm',
749: 'kerberos-adm',
750: 'rfile',
751: 'pump',
752: 'qrh',
753: 'rrh',
754: 'tell',
758: 'nlogin',
759: 'con',
760: 'ns',
761: 'rxe',
762: 'quotad',
763: 'cycleserv',
764: 'omserv',
765: 'webster',
767: 'phonebook',
769: 'vid',
770: 'cadlock',
771: 'rtip',
772: 'cycleserv2',
773: 'submit',
774: 'rpasswd',
775: 'entomb',
776: 'wpages',
777: 'multiling-http',
780: 'wpgs',
800: 'mdbs_daemon',
801: 'device',
810: 'fcp-udp',
828: 'itm-mcell-s',
829: 'pkix-3-ca-ra',
830: 'netconf-ssh',
831: 'netconf-beep',
832: 'netconfsoaphttp',
833: 'netconfsoapbeep',
847: 'dhcp-failover2',
848: 'gdoi',
860: 'iscsi',
861: 'owamp-control',
873: 'rsync',
886: 'iclcnet-locate',
887: 'iclcnet_svinfo',
888: 'cddbp',
900: 'omginitialrefs',
901: 'smpnameres',
902: 'ideafarm-chat',
903: 'ideafarm-catch',
910: 'kink',
911: 'xact-backup',
912: 'apex-mesh',
913: 'apex-edge',
989: 'ftps-data',
990: 'ftps',
991: 'nas',
992: 'telnets',
993: 'imaps',
994: 'ircs',
995: 'pop3s',
996: 'vsinet',
997: 'maitrd',
998: 'busboy',
999: 'garcon',
1000: 'cadlock2',
1010: 'surf',
1021: 'exp1',
1022: 'exp2',
1025: 'blackjack',
1026: 'cap',
1027: 'exosee',
1029: 'solid-mux',
1030: 'iad1',
1031: 'iad2',
1032: 'iad3',
1033: 'netinfo-local',
1034: 'activesync',
1035: 'mxxrlogin',
1036: 'pcg-radar',
1037: 'ams',
1038: 'mtqp',
1039: 'sbl',
1040: 'netarx',
1041: 'danf-ak2',
1042: 'afrog',
1043: 'boinc-client',
1044: 'dcutility',
1045: 'fpitp',
1046: 'wfremotertm',
1047: 'neod1',
1048: 'neod2',
1049: 'td-postman',
1050: 'cma',
1051: 'optima-vnet',
1052: 'ddt',
1053: 'remote-as',
1054: 'brvread',
1055: 'ansyslmd',
1056: 'vfo',
1057: 'startron',
1058: 'nim',
1059: 'nimreg',
1060: 'polestar',
1061: 'kiosk',
1062: 'veracity',
1063: 'kyoceranetdev',
1064: 'jstel',
1065: 'syscomlan',
1066: 'fpo-fns',
1067: 'instl_boots',
1068: 'instl_bootc',
1069: 'cognex-insight',
1070: 'gmrupdateserv',
1071: 'bsquare-voip',
1072: 'cardax',
1073: 'bridgecontrol',
1074: 'fastechnologlm',
1075: 'rdrmshc',
1076: 'dab-sti-c',
1077: 'imgames',
1078: 'avocent-proxy',
1079: 'asprovatalk',
1080: 'socks',
1081: 'pvuniwien',
1082: 'amt-esd-prot',
1083: 'ansoft-lm-1',
1084: 'ansoft-lm-2',
1085: 'webobjects',
1086: 'cplscrambler-lg',
1087: 'cplscrambler-in',
1088: 'cplscrambler-al',
1089: 'ff-annunc',
1090: 'ff-fms',
1091: 'ff-sm',
1092: 'obrpd',
1093: 'proofd',
1094: 'rootd',
1095: 'nicelink',
1096: 'cnrprotocol',
1097: 'sunclustermgr',
1098: 'rmiactivation',
1099: 'rmiregistry',
1100: 'mctp',
1101: 'pt2-discover',
1102: 'adobeserver-1',
1103: 'adobeserver-2',
1104: 'xrl',
1105: 'ftranhc',
1106: 'isoipsigport-1',
1107: 'isoipsigport-2',
1108: 'ratio-adp',
1110: 'nfsd-status',
1111: 'lmsocialserver',
1112: 'icp',
1113: 'ltp-deepspace',
1114: 'mini-sql',
1115: 'ardus-trns',
1116: 'ardus-cntl',
1117: 'ardus-mtrns',
1118: 'sacred',
1119: 'bnetgame',
1120: 'bnetfile',
1121: 'rmpp',
1122: 'availant-mgr',
1123: 'murray',
1124: 'hpvmmcontrol',
1125: 'hpvmmagent',
1126: 'hpvmmdata',
1127: 'kwdb-commn',
1128: 'saphostctrl',
1129: 'saphostctrls',
1130: 'casp',
1131: 'caspssl',
1132: 'kvm-via-ip',
1133: 'dfn',
1134: 'aplx',
1135: 'omnivision',
1136: 'hhb-gateway',
1137: 'trim',
1140: 'autonoc',
1141: 'mxomss',
1142: 'edtools',
1143: 'imyx',
1144: 'fuscript',
1145: 'x9-icue',
1146: 'audit-transfer',
1147: 'capioverlan',
1148: 'elfiq-repl',
1149: 'bvtsonar',
1150: 'blaze',
1151: 'unizensus',
1152: 'winpoplanmess',
1153: 'c1222-acse',
1154: 'resacommunity',
1155: 'nfa',
1156: 'iascontrol-oms',
1157: 'iascontrol',
1158: 'dbcontrol-oms',
1159: 'oracle-oms',
1160: 'olsv',
1161: 'health-polling',
1162: 'health-trap',
1163: 'sddp',
1164: 'qsm-proxy',
1165: 'qsm-gui',
1166: 'qsm-remote',
1167: 'cisco-ipsla',
1168: 'vchat',
1169: 'tripwire',
1170: 'atc-lm',
1171: 'atc-appserver',
1172: 'dnap',
1173: 'd-cinema-rrp',
1174: 'fnet-remote-ui',
1175: 'dossier',
1176: 'indigo-server',
1177: 'dkmessenger',
1178: 'sgi-storman',
1179: 'b2n',
1180: 'mc-client',
1181: '3comnetman',
1182: 'accelenet',
1183: 'llsurfup-http',
1184: 'llsurfup-https',
1185: 'catchpole',
1186: 'mysql-cluster',
1187: 'alias',
1188: 'hp-webadmin',
1189: 'unet',
1190: 'commlinx-avl',
1191: 'gpfs',
1192: 'caids-sensor',
1193: 'fiveacross',
1194: 'openvpn',
1195: 'rsf-1',
1196: 'netmagic',
1197: 'carrius-rshell',
1198: 'cajo-discovery',
1199: 'dmidi',
1200: 'scol',
1201: 'nucleus-sand',
1202: 'caiccipc',
1203: 'ssslic-mgr',
1204: 'ssslog-mgr',
1205: 'accord-mgc',
1206: 'anthony-data',
1207: 'metasage',
1208: 'seagull-ais',
1209: 'ipcd3',
1210: 'eoss',
1211: 'groove-dpp',
1212: 'lupa',
1213: 'mpc-lifenet',
1214: 'kazaa',
1215: 'scanstat-1',
1216: 'etebac5',
1217: 'hpss-ndapi',
1218: 'aeroflight-ads',
1219: 'aeroflight-ret',
1220: 'qt-serveradmin',
1221: 'sweetware-apps',
1222: 'nerv',
1223: 'tgp',
1224: 'vpnz',
1225: 'slinkysearch',
1226: 'stgxfws',
1227: 'dns2go',
1228: 'florence',
1229: 'novell-zfs',
1230: 'periscope',
1231: 'menandmice-lpm',
1233: 'univ-appserver',
1234: 'search-agent',
1235: 'mosaicsyssvc1',
1236: 'bvcontrol',
1237: 'tsdos390',
1238: 'hacl-qs',
1239: 'nmsd',
1240: 'instantia',
1241: 'nessus',
1242: 'nmasoverip',
1243: 'serialgateway',
1244: 'isbconference1',
1245: 'isbconference2',
1246: 'payrouter',
1247: 'visionpyramid',
1248: 'hermes',
1249: 'mesavistaco',
1250: 'swldy-sias',
1251: 'servergraph',
1252: 'bspne-pcc',
1253: 'q55-pcc',
1254: 'de-noc',
1255: 'de-cache-query',
1256: 'de-server',
1257: 'shockwave2',
1258: 'opennl',
1259: 'opennl-voice',
1260: 'ibm-ssd',
1261: 'mpshrsv',
1262: 'qnts-orb',
1263: 'dka',
1264: 'prat',
1265: 'dssiapi',
1266: 'dellpwrappks',
1267: 'epc',
1268: 'propel-msgsys',
1269: 'watilapp',
1270: 'opsmgr',
1271: 'dabew',
1272: 'cspmlockmgr',
1273: 'emc-gateway',
1274: 't1distproc',
1275: 'ivcollector',
1276: 'ivmanager',
1277: 'miva-mqs',
1278: 'dellwebadmin-1',
1279: 'dellwebadmin-2',
1280: 'pictrography',
1281: 'healthd',
1282: 'emperion',
1283: 'productinfo',
1284: 'iee-qfx',
1285: 'neoiface',
1286: 'netuitive',
1287: 'routematch',
1288: 'navbuddy',
1289: 'jwalkserver',
1290: 'winjaserver',
1291: 'seagulllms',
1292: 'dsdn',
1293: 'pkt-krb-ipsec',
1294: 'cmmdriver',
1295: 'ehtp',
1296: 'dproxy',
1297: 'sdproxy',
1298: 'lpcp',
1299: 'hp-sci',
1300: 'h323hostcallsc',
1301: 'ci3-software-1',
1302: 'ci3-software-2',
1303: 'sftsrv',
1304: 'boomerang',
1305: 'pe-mike',
1306: 're-conn-proto',
1307: 'pacmand',
1308: 'odsi',
1309: 'jtag-server',
1310: 'husky',
1311: 'rxmon',
1312: 'sti-envision',
1313: 'bmc_patroldb',
1314: 'pdps',
1315: 'els',
1316: 'exbit-escp',
1317: 'vrts-ipcserver',
1318: 'krb5gatekeeper',
1319: 'panja-icsp',
1320: 'panja-axbnet',
1321: 'pip',
1322: 'novation',
1323: 'brcd',
1324: 'delta-mcp',
1325: 'dx-instrument',
1326: 'wimsic',
1327: 'ultrex',
1328: 'ewall',
1329: 'netdb-export',
1330: 'streetperfect',
1331: 'intersan',
1332: 'pcia-rxp-b',
1333: 'passwrd-policy',
1334: 'writesrv',
1335: 'digital-notary',
1336: 'ischat',
1337: 'menandmice-dns',
1338: 'wmc-log-svc',
1339: 'kjtsiteserver',
1340: 'naap',
1341: 'qubes',
1342: 'esbroker',
1343: 're101',
1344: 'icap',
1345: 'vpjp',
1346: 'alta-ana-lm',
1347: 'bbn-mmc',
1348: 'bbn-mmx',
1349: 'sbook',
1350: 'editbench',
1351: 'equationbuilder',
1352: 'lotusnote',
1353: 'relief',
1354: 'rightbrain',
1355: 'intuitive-edge',
1356: 'cuillamartin',
1357: 'pegboard',
1358: 'connlcli',
1359: 'ftsrv',
1360: 'mimer',
1361: 'linx',
1362: 'timeflies',
1363: 'ndm-requester',
1364: 'ndm-server',
1365: 'adapt-sna',
1366: 'netware-csp',
1367: 'dcs',
1368: 'screencast',
1369: 'gv-us',
1370: 'us-gv',
1371: 'fc-cli',
1372: 'fc-ser',
1373: 'chromagrafx',
1374: 'molly',
1375: 'bytex',
1376: 'ibm-pps',
1377: 'cichlid',
1378: 'elan',
1379: 'dbreporter',
1380: 'telesis-licman',
1381: 'apple-licman',
1382: 'udt_os',
1383: 'gwha',
1384: 'os-licman',
1385: 'atex_elmd',
1386: 'checksum',
1387: 'cadsi-lm',
1388: 'objective-dbc',
1389: 'iclpv-dm',
1390: 'iclpv-sc',
1391: 'iclpv-sas',
1392: 'iclpv-pm',
1393: 'iclpv-nls',
1394: 'iclpv-nlc',
1395: 'iclpv-wsm',
1396: 'dvl-activemail',
1397: 'audio-activmail',
1398: 'video-activmail',
1399: 'cadkey-licman',
1400: 'cadkey-tablet',
1401: 'goldleaf-licman',
1402: 'prm-sm-np',
1403: 'prm-nm-np',
1404: 'igi-lm',
1405: 'ibm-res',
1406: 'netlabs-lm',
1407: 'dbsa-lm',
1408: 'sophia-lm',
1409: 'here-lm',
1410: 'hiq',
1411: 'af',
1412: 'innosys',
1413: 'innosys-acl',
1414: 'ibm-mqseries',
1415: 'dbstar',
1416: 'novell-lu6.2',
1417: 'timbuktu-srv1',
1418: 'timbuktu-srv2',
1419: 'timbuktu-srv3',
1420: 'timbuktu-srv4',
1421: 'gandalf-lm',
1422: 'autodesk-lm',
1423: 'essbase',
1424: 'hybrid',
1425: 'zion-lm',
1426: 'sais',
1427: 'mloadd',
1428: 'informatik-lm',
1429: 'nms',
1430: 'tpdu',
1431: 'rgtp',
1432: 'blueberry-lm',
1433: 'ms-sql-s',
1434: 'ms-sql-m',
1435: 'ibm-cics',
1436: 'saism',
1437: 'tabula',
1438: 'eicon-server',
1439: 'eicon-x25',
1440: 'eicon-slp',
1441: 'cadis-1',
1442: 'cadis-2',
1443: 'ies-lm',
1444: 'marcam-lm',
1445: 'proxima-lm',
1446: 'ora-lm',
1447: 'apri-lm',
1448: 'oc-lm',
1449: 'peport',
1450: 'dwf',
1451: 'infoman',
1452: 'gtegsc-lm',
1453: 'genie-lm',
1454: 'interhdl_elmd',
1455: 'esl-lm',
1456: 'dca',
1457: 'valisys-lm',
1458: 'nrcabq-lm',
1459: 'proshare1',
1460: 'proshare2',
1461: 'ibm_wrless_lan',
1462: 'world-lm',
1463: 'nucleus',
1464: 'msl_lmd',
1465: 'pipes',
1466: 'oceansoft-lm',
1467: 'csdmbase',
1468: 'csdm',
1469: 'aal-lm',
1470: 'uaiact',
1471: 'csdmbase',
1472: 'csdm',
1473: 'openmath',
1474: 'telefinder',
1475: 'taligent-lm',
1476: 'clvm-cfg',
1477: 'ms-sna-server',
1478: 'ms-sna-base',
1479: 'dberegister',
1480: 'pacerforum',
1481: 'airs',
1482: 'miteksys-lm',
1483: 'afs',
1484: 'confluent',
1485: 'lansource',
1486: 'nms_topo_serv',
1487: 'localinfosrvr',
1488: 'docstor',
1489: 'dmdocbroker',
1490: 'insitu-conf',
1491: 'anynetgateway',
1492: 'stone-design-1',
1493: 'netmap_lm',
1494: 'ica',
1495: 'cvc',
1496: 'liberty-lm',
1497: 'rfx-lm',
1498: 'sybase-sqlany',
1499: 'fhc',
1500: 'vlsi-lm',
1501: 'saiscm',
1502: 'shivadiscovery',
1503: 'imtc-mcs',
1504: 'evb-elm',
1505: 'funkproxy',
1506: 'utcd',
1507: 'symplex',
1508: 'diagmond',
1509: 'robcad-lm',
1510: 'mvx-lm',
1511: '3l-l1',
1512: 'wins',
1513: 'fujitsu-dtc',
1514: 'fujitsu-dtcns',
1515: 'ifor-protocol',
1516: 'vpad',
1517: 'vpac',
1518: 'vpvd',
1519: 'vpvc',
1520: 'atm-zip-office',
1521: 'ncube-lm',
1522: 'ricardo-lm',
1523: 'cichild-lm',
1524: 'ingreslock',
1525: 'orasrv',
1526: 'pdap-np',
1527: 'tlisrv',
1528: 'mciautoreg',
1529: 'coauthor',
1530: 'rap-service',
1531: 'rap-listen',
1532: 'miroconnect',
1533: 'virtual-places',
1534: 'micromuse-lm',
1535: 'ampr-info',
1536: 'ampr-inter',
1537: 'sdsc-lm',
1538: '3ds-lm',
1539: 'intellistor-lm',
1540: 'rds',
1541: 'rds2',
1542: 'gridgen-elmd',
1543: 'simba-cs',
1544: 'aspeclmd',
1545: 'vistium-share',
1546: 'abbaccuray',
1547: 'laplink',
1548: 'axon-lm',
1549: 'shivahose',
1550: '3m-image-lm',
1551: 'hecmtl-db',
1552: 'pciarray',
1553: 'sna-cs',
1554: 'caci-lm',
1555: 'livelan',
1556: 'ashwin',
1557: 'arbortext-lm',
1558: 'xingmpeg',
1559: 'web2host',
1560: 'asci-val',
1561: 'facilityview',
1562: 'pconnectmgr',
1563: 'cadabra-lm',
1564: 'pay-per-view',
1565: 'winddlb',
1566: 'corelvideo',
1567: 'jlicelmd',
1568: 'tsspmap',
1569: 'ets',
1570: 'orbixd',
1571: 'rdb-dbs-disp',
1572: 'chip-lm',
1573: 'itscomm-ns',
1574: 'mvel-lm',
1575: 'oraclenames',
1576: 'moldflow-lm',
1577: 'hypercube-lm',
1578: 'jacobus-lm',
1579: 'ioc-sea-lm',
1580: 'tn-tl-r1',
1581: 'mil-2045-47001',
1582: 'msims',
1583: 'simbaexpress',
1584: 'tn-tl-fd2',
1585: 'intv',
1586: 'ibm-abtact',
1587: 'pra_elmd',
1588: 'triquest-lm',
1589: 'vqp',
1590: 'gemini-lm',
1591: 'ncpm-pm',
1592: 'commonspace',
1593: 'mainsoft-lm',
1594: 'sixtrak',
1595: 'radio',
1596: 'radio-sm',
1597: 'orbplus-iiop',
1598: 'picknfs',
1599: 'simbaservices',
1600: 'issd',
1601: 'aas',
1602: 'inspect',
1603: 'picodbc',
1604: 'icabrowser',
1605: 'slp',
1606: 'slm-api',
1607: 'stt',
1608: 'smart-lm',
1609: 'isysg-lm',
1610: 'taurus-wh',
1611: 'ill',
1612: 'netbill-trans',
1613: 'netbill-keyrep',
1614: 'netbill-cred',
1615: 'netbill-auth',
1616: 'netbill-prod',
1617: 'nimrod-agent',
1618: 'skytelnet',
1619: 'xs-openstorage',
1620: 'faxportwinport',
1621: 'softdataphone',
1622: 'ontime',
1623: 'jaleosnd',
1624: 'udp-sr-port',
1625: 'svs-omagent',
1626: 'shockwave',
1627: 't128-gateway',
1628: 'lontalk-norm',
1629: 'lontalk-urgnt',
1630: 'oraclenet8cman',
1631: 'visitview',
1632: 'pammratc',
1633: 'pammrpc',
1634: 'loaprobe',
1635: 'edb-server1',
1636: 'cncp',
1637: 'cnap',
1638: 'cnip',
1639: 'cert-initiator',
1640: 'cert-responder',
1641: 'invision',
1642: 'isis-am',
1643: 'isis-ambc',
1644: 'saiseh',
1645: 'sightline',
1646: 'sa-msg-port',
1647: 'rsap',
1648: 'concurrent-lm',
1649: 'kermit',
1650: 'nkd',
1651: 'shiva_confsrvr',
1652: 'xnmp',
1653: 'alphatech-lm',
1654: 'stargatealerts',
1655: 'dec-mbadmin',
1656: 'dec-mbadmin-h',
1657: 'fujitsu-mmpdc',
1658: 'sixnetudr',
1659: 'sg-lm',
1660: 'skip-mc-gikreq',
1661: 'netview-aix-1',
1662: 'netview-aix-2',
1663: 'netview-aix-3',
1664: 'netview-aix-4',
1665: 'netview-aix-5',
1666: 'netview-aix-6',
1667: 'netview-aix-7',
1668: 'netview-aix-8',
1669: 'netview-aix-9',
1670: 'netview-aix-10',
1671: 'netview-aix-11',
1672: 'netview-aix-12',
1673: 'proshare-mc-1',
1674: 'proshare-mc-2',
1675: 'pdp',
1676: 'netcomm1',
1677: 'groupwise',
1678: 'prolink',
1679: 'darcorp-lm',
1680: 'microcom-sbp',
1681: 'sd-elmd',
1682: 'lanyon-lantern',
1683: 'ncpm-hip',
1684: 'snaresecure',
1685: 'n2nremote',
1686: 'cvmon',
1687: 'nsjtp-ctrl',
1688: 'nsjtp-data',
1689: 'firefox',
1690: 'ng-umds',
1691: 'empire-empuma',
1692: 'sstsys-lm',
1693: 'rrirtr',
1694: 'rrimwm',
1695: 'rrilwm',
1696: 'rrifmm',
1697: 'rrisat',
1698: 'rsvp-encap-1',
1699: 'rsvp-encap-2',
1700: 'mps-raft',
1701: 'l2f',
1702: 'deskshare',
1703: 'hb-engine',
1704: 'bcs-broker',
1705: 'slingshot',
1706: 'jetform',
1707: 'vdmplay',
1708: 'gat-lmd',
1709: 'centra',
1710: 'impera',
1711: 'pptconference',
1712: 'registrar',
1713: 'conferencetalk',
1714: 'sesi-lm',
1715: 'houdini-lm',
1716: 'xmsg',
1717: 'fj-hdnet',
1718: 'h323gatedisc',
1719: 'h323gatestat',
1720: 'h323hostcall',
1721: 'caicci',
1722: 'hks-lm',
1723: 'pptp',
1724: 'csbphonemaster',
1725: 'iden-ralp',
1726: 'iberiagames',
1727: 'winddx',
1728: 'telindus',
1729: 'citynl',
1730: 'roketz',
1731: 'msiccp',
1732: 'proxim',
1733: 'siipat',
1734: 'cambertx-lm',
1735: 'privatechat',
1736: 'street-stream',
1737: 'ultimad',
1738: 'gamegen1',
1739: 'webaccess',
1740: 'encore',
1741: 'cisco-net-mgmt',
1742: '3Com-nsd',
1743: 'cinegrfx-lm',
1744: 'ncpm-ft',
1745: 'remote-winsock',
1746: 'ftrapid-1',
1747: 'ftrapid-2',
1748: 'oracle-em1',
1749: 'aspen-services',
1750: 'sslp',
1751: 'swiftnet',
1752: 'lofr-lm',
1753: 'translogic-lm',
1754: 'oracle-em2',
1755: 'ms-streaming',
1756: 'capfast-lmd',
1757: 'cnhrp',
1758: 'tftp-mcast',
1759: 'spss-lm',
1760: 'www-ldap-gw',
1761: 'cft-0',
1762: 'cft-1',
1763: 'cft-2',
1764: 'cft-3',
1765: 'cft-4',
1766: 'cft-5',
1767: 'cft-6',
1768: 'cft-7',
1769: 'bmc-net-adm',
1770: 'bmc-net-svc',
1771: 'vaultbase',
1772: 'essweb-gw',
1773: 'kmscontrol',
1774: 'global-dtserv',
1776: 'femis',
1777: 'powerguardian',
1778: 'prodigy-intrnet',
1779: 'pharmasoft',
1780: 'dpkeyserv',
1781: 'answersoft-lm',
1782: 'hp-hcip',
1784: 'finle-lm',
1785: 'windlm',
1786: 'funk-logger',
1787: 'funk-license',
1788: 'psmond',
1789: 'hello',
1790: 'nmsp',
1791: 'ea1',
1792: 'ibm-dt-2',
1793: 'rsc-robot',
1794: 'cera-bcm',
1795: 'dpi-proxy',
1796: 'vocaltec-admin',
1797: 'uma',
1798: 'etp',
1799: 'netrisk',
1800: 'ansys-lm',
1801: 'msmq',
1802: 'concomp1',
1803: 'hp-hcip-gwy',
1804: 'enl',
1805: 'enl-name',
1806: 'musiconline',
1807: 'fhsp',
1808: 'oracle-vp2',
1809: 'oracle-vp1',
1810: 'jerand-lm',
1811: 'scientia-sdb',
1812: 'radius',
1813: 'radius-acct',
1814: 'tdp-suite',
1815: 'mmpft',
1816: 'harp',
1817: 'rkb-oscs',
1818: 'etftp',
1819: 'plato-lm',
1820: 'mcagent',
1821: 'donnyworld',
1822: 'es-elmd',
1823: 'unisys-lm',
1824: 'metrics-pas',
1825: 'direcpc-video',
1826: 'ardt',
1827: 'asi',
1828: 'itm-mcell-u',
1829: 'optika-emedia',
1830: 'net8-cman',
1831: 'myrtle',
1832: 'tht-treasure',
1833: 'udpradio',
1834: 'ardusuni',
1835: 'ardusmul',
1836: 'ste-smsc',
1837: 'csoft1',
1838: 'talnet',
1839: 'netopia-vo1',
1840: 'netopia-vo2',
1841: 'netopia-vo3',
1842: 'netopia-vo4',
1843: 'netopia-vo5',
1844: 'direcpc-dll',
1845: 'altalink',
1846: 'tunstall-pnc',
1847: 'slp-notify',
1848: 'fjdocdist',
1849: 'alpha-sms',
1850: 'gsi',
1851: 'ctcd',
1852: 'virtual-time',
1853: 'vids-avtp',
1854: 'buddy-draw',
1855: 'fiorano-rtrsvc',
1856: 'fiorano-msgsvc',
1857: 'datacaptor',
1858: 'privateark',
1859: 'gammafetchsvr',
1860: 'sunscalar-svc',
1861: 'lecroy-vicp',
1862: 'techra-server',
1863: 'msnp',
1864: 'paradym-31port',
1865: 'entp',
1866: 'swrmi',
1867: 'udrive',
1868: 'viziblebrowser',
1869: 'yestrader',
1870: 'sunscalar-dns',
1871: 'canocentral0',
1872: 'canocentral1',
1873: 'fjmpjps',
1874: 'fjswapsnp',
1875: 'westell-stats',
1876: 'ewcappsrv',
1877: 'hp-webqosdb',
1878: 'drmsmc',
1879: 'nettgain-nms',
1880: 'vsat-control',
1881: 'ibm-mqseries2',
1882: 'ecsqdmn',
1883: 'ibm-mqisdp',
1884: 'idmaps',
1885: 'vrtstrapserver',
1886: 'leoip',
1887: 'filex-lport',
1888: 'ncconfig',
1889: 'unify-adapter',
1890: 'wilkenlistener',
1891: 'childkey-notif',
1892: 'childkey-ctrl',
1893: 'elad',
1894: 'o2server-port',
1896: 'b-novative-ls',
1897: 'metaagent',
1898: 'cymtec-port',
1899: 'mc2studios',
1900: 'ssdp',
1901: 'fjicl-tep-a',
1902: 'fjicl-tep-b',
1903: 'linkname',
1904: 'fjicl-tep-c',
1905: 'sugp',
1906: 'tpmd',
1907: 'intrastar',
1908: 'dawn',
1909: 'global-wlink',
1910: 'ultrabac',
1911: 'mtp',
1912: 'rhp-iibp',
1913: 'armadp',
1914: 'elm-momentum',
1915: 'facelink',
1916: 'persona',
1917: 'noagent',
1918: 'can-nds',
1919: 'can-dch',
1920: 'can-ferret',
1921: 'noadmin',
1922: 'tapestry',
1923: 'spice',
1924: 'xiip',
1925: 'discovery-port',
1926: 'egs',
1927: 'videte-cipc',
1928: 'emsd-port',
1929: 'bandwiz-system',
1930: 'driveappserver',
1931: 'amdsched',
1932: 'ctt-broker',
1933: 'xmapi',
1934: 'xaapi',
1935: 'macromedia-fcs',
1936: 'jetcmeserver',
1937: 'jwserver',
1938: 'jwclient',
1939: 'jvserver',
1940: 'jvclient',
1941: 'dic-aida',
1942: 'res',
1943: 'beeyond-media',
1944: 'close-combat',
1945: 'dialogic-elmd',
1946: 'tekpls',
1947: 'hlserver',
1948: 'eye2eye',
1949: 'ismaeasdaqlive',
1950: 'ismaeasdaqtest',
1951: 'bcs-lmserver',
1952: 'mpnjsc',
1953: 'rapidbase',
1954: 'abr-basic',
1955: 'abr-secure',
1956: 'vrtl-vmf-ds',
1957: 'unix-status',
1958: 'dxadmind',
1959: 'simp-all',
1960: 'nasmanager',
1961: 'bts-appserver',
1962: 'biap-mp',
1963: 'webmachine',
1964: 'solid-e-engine',
1965: 'tivoli-npm',
1966: 'slush',
1967: 'sns-quote',
1968: 'lipsinc',
1969: 'lipsinc1',
1970: 'netop-rc',
1971: 'netop-school',
1972: 'intersys-cache',
1973: 'dlsrap',
1974: 'drp',
1975: 'tcoflashagent',
1976: 'tcoregagent',
1977: 'tcoaddressbook',
1978: 'unisql',
1979: 'unisql-java',
1980: 'pearldoc-xact',
1981: 'p2pq',
1982: 'estamp',
1983: 'lhtp',
1984: 'bb',
1985: 'hsrp',
1986: 'licensedaemon',
1987: 'tr-rsrb-p1',
1988: 'tr-rsrb-p2',
1989: 'mshnet',
1990: 'stun-p1',
1991: 'stun-p2',
1992: 'ipsendmsg',
1993: 'snmp-tcp-port',
1994: 'stun-port',
1995: 'perf-port',
1996: 'tr-rsrb-port',
1997: 'gdp-port',
1998: 'x25-svc-port',
1999: 'tcp-id-port',
2000: 'callbook',
2001: 'dc',
2002: 'globe',
2004: 'mailbox',
2005: 'berknet',
2006: 'invokator',
2007: 'dectalk',
2008: 'conf',
2009: 'news',
2010: 'search',
2011: 'raid-cc',
2012: 'ttyinfo',
2013: 'raid-am',
2014: 'troff',
2015: 'cypress',
2016: 'bootserver',
2017: 'cypress-stat',
2018: 'terminaldb',
2019: 'whosockami',
2020: 'xinupageserver',
2021: 'servexec',
2022: 'down',
2023: 'xinuexpansion3',
2024: 'xinuexpansion4',
2025: 'ellpack',
2026: 'scrabble',
2027: 'shadowserver',
2028: 'submitserver',
2029: 'hsrpv6',
2030: 'device2',
2031: 'mobrien-chat',
2032: 'blackboard',
2033: 'glogger',
2034: 'scoremgr',
2035: 'imsldoc',
2036: 'e-dpnet',
2037: 'p2plus',
2038: 'objectmanager',
2039: 'prizma',
2040: 'lam',
2041: 'interbase',
2042: 'isis',
2043: 'isis-bcast',
2044: 'rimsl',
2045: 'cdfunc',
2046: 'sdfunc',
2047: 'dls',
2048: 'dls-monitor',
2049: 'nfsd',
2050: 'av-emb-config',
2051: 'epnsdp',
2052: 'clearvisn',
2053: 'lot105-ds-upd',
2054: 'weblogin',
2055: 'iop',
2056: 'omnisky',
2057: 'rich-cp',
2058: 'newwavesearch',
2059: 'bmc-messaging',
2060: 'teleniumdaemon',
2061: 'netmount',
2062: 'icg-swp',
2063: 'icg-bridge',
2064: 'icg-iprelay',
2065: 'dlsrpn',
2066: 'aura',
2067: 'dlswpn',
2068: 'avauthsrvprtcl',
2069: 'event-port',
2070: 'ah-esp-encap',
2071: 'acp-port',
2072: 'msync',
2073: 'gxs-data-port',
2074: 'vrtl-vmf-sa',
2075: 'newlixengine',
2076: 'newlixconfig',
2077: 'trellisagt',
2078: 'trellissvr',
2079: 'idware-router',
2080: 'autodesk-nlm',
2081: 'kme-trap-port',
2082: 'infowave',
2083: 'radsec',
2084: 'sunclustergeo',
2085: 'ada-cip',
2086: 'gnunet',
2087: 'eli',
2088: 'ip-blf',
2089: 'sep',
2090: 'lrp',
2091: 'prp',
2092: 'descent3',
2093: 'nbx-cc',
2094: 'nbx-au',
2095: 'nbx-ser',
2096: 'nbx-dir',
2097: 'jetformpreview',
2098: 'dialog-port',
2099: 'h2250-annex-g',
2100: 'amiganetfs',
2101: 'rtcm-sc104',
2102: 'zephyr-srv',
2103: 'zephyr-clt',
2104: 'zephyr-hm',
2105: 'minipay',
2106: 'mzap',
2107: 'bintec-admin',
2108: 'comcam',
2109: 'ergolight',
2110: 'umsp',
2111: 'dsatp',
2112: 'idonix-metanet',
2113: 'hsl-storm',
2114: 'newheights',
2115: 'kdm',
2116: 'ccowcmr',
2117: 'mentaclient',
2118: 'mentaserver',
2119: 'gsigatekeeper',
2120: 'qencp',
2121: 'scientia-ssdb',
2122: 'caupc-remote',
2123: 'gtp-control',
2124: 'elatelink',
2125: 'lockstep',
2126: 'pktcable-cops',
2127: 'index-pc-wb',
2128: 'net-steward',
2129: 'cs-live',
2130: 'swc-xds',
2131: 'avantageb2b',
2132: 'avail-epmap',
2133: 'zymed-zpp',
2134: 'avenue',
2135: 'gris',
2136: 'appworxsrv',
2137: 'connect',
2138: 'unbind-cluster',
2139: 'ias-auth',
2140: 'ias-reg',
2141: 'ias-admind',
2142: 'tdm-over-ip',
2143: 'lv-jc',
2144: 'lv-ffx',
2145: 'lv-pici',
2146: 'lv-not',
2147: 'lv-auth',
2148: 'veritas-ucl',
2149: 'acptsys',
2150: 'dynamic3d',
2151: 'docent',
2152: 'gtp-user',
2159: 'gdbremote',
2160: 'apc-2160',
2161: 'apc-2161',
2162: 'navisphere',
2163: 'navisphere-sec',
2164: 'ddns-v3',
2165: 'x-bone-api',
2166: 'iwserver',
2167: 'raw-serial',
2168: 'easy-soft-mux',
2169: 'brain',
2170: 'eyetv',
2171: 'msfw-storage',
2172: 'msfw-s-storage',
2173: 'msfw-replica',
2174: 'msfw-array',
2175: 'airsync',
2176: 'rapi',
2177: 'qwave',
2178: 'bitspeer',
2180: 'mc-gt-srv',
2181: 'eforward',
2182: 'cgn-stat',
2183: 'cgn-config',
2184: 'nvd',
2185: 'onbase-dds',
2190: 'tivoconnect',
2191: 'tvbus',
2192: 'asdis',
2197: 'mnp-exchange',
2198: 'onehome-remote',
2199: 'onehome-help',
2200: 'ici',
2201: 'ats',
2202: 'imtc-map',
2203: 'b2-runtime',
2204: 'b2-license',
2205: 'jps',
2206: 'hpocbus',
2207: 'hpssd',
2208: 'hpiod',
2213: 'kali',
2214: 'rpi',
2215: 'ipcore',
2216: 'vtu-comms',
2217: 'gotodevice',
2218: 'bounzza',
2219: 'netiq-ncap',
2220: 'netiq',
2221: 'rockwell-csp1',
2222: 'rockwell-csp2',
2223: 'rockwell-csp3',
2224: 'efi-mg',
2225: 'rcip-itu',
2226: 'di-drm',
2227: 'di-msg',
2228: 'ehome-ms',
2229: 'datalens',
2230: 'queueadm',
2231: 'wimaxasncp',
2232: 'ivs-video',
2233: 'infocrypt',
2234: 'directplay',
2235: 'sercomm-wlink',
2236: 'nani',
2237: 'optech-port1-lm',
2238: 'aviva-sna',
2239: 'imagequery',
2240: 'recipe',
2241: 'ivsd',
2242: 'foliocorp',
2243: 'magicom',
2244: 'nmsserver',
2245: 'hao',
2246: 'pc-mta-addrmap',
2247: 'antidotemgrsvr',
2248: 'ums',
2249: 'rfmp',
2250: 'remote-collab',
2251: 'dif-port',
2252: 'njenet-ssl',
2253: 'dtv-chan-req',
2254: 'seispoc',
2255: 'vrtp',
2256: 'pcc-mfp',
2257: 'simple-tx-rx',
2258: 'rcts',
2259: 'acd-pm',
2260: 'apc-2260',
2261: 'comotionmaster',
2262: 'comotionback',
2263: 'ecwcfg',
2264: 'apx500api-1',
2265: 'apx500api-2',
2266: 'mfserver',
2267: 'ontobroker',
2268: 'amt',
2269: 'mikey',
2270: 'starschool',
2271: 'mmcals',
2272: 'mmcal',
2273: 'mysql-im',
2274: 'pcttunnell',
2275: 'ibridge-data',
2276: 'ibridge-mgmt',
2277: 'bluectrlproxy',
2278: 's3db',
2279: 'xmquery',
2280: 'lnvpoller',
2281: 'lnvconsole',
2282: 'lnvalarm',
2283: 'lnvstatus',
2284: 'lnvmaps',
2285: 'lnvmailmon',
2286: 'nas-metering',
2287: 'dna',
2288: 'netml',
2289: 'dict-lookup',
2290: 'sonus-logging',
2291: 'eapsp',
2292: 'mib-streaming',
2293: 'npdbgmngr',
2294: 'konshus-lm',
2295: 'advant-lm',
2296: 'theta-lm',
2297: 'd2k-datamover1',
2298: 'd2k-datamover2',
2299: 'pc-telecommute',
2300: 'cvmmon',
2301: 'cpq-wbem',
2302: 'binderysupport',
2303: 'proxy-gateway',
2304: 'attachmate-uts',
2305: 'mt-scaleserver',
2306: 'tappi-boxnet',
2307: 'pehelp',
2308: 'sdhelp',
2309: 'sdserver',
2310: 'sdclient',
2311: 'messageservice',
2312: 'wanscaler',
2313: 'iapp',
2314: 'cr-websystems',
2315: 'precise-sft',
2316: 'sent-lm',
2317: 'attachmate-g32',
2318: 'cadencecontrol',
2319: 'infolibria',
2320: 'siebel-ns',
2321: 'rdlap',
2322: 'ofsd',
2323: '3d-nfsd',
2324: 'cosmocall',
2325: 'designspace-lm',
2326: 'idcp',
2327: 'xingcsm',
2328: 'netrix-sftm',
2329: 'nvd',
2330: 'tscchat',
2331: 'agentview',
2332: 'rcc-host',
2333: 'snapp',
2334: 'ace-client',
2335: 'ace-proxy',
2336: 'appleugcontrol',
2337: 'ideesrv',
2338: 'norton-lambert',
2339: '3com-webview',
2340: 'wrs_registry',
2341: 'xiostatus',
2342: 'manage-exec',
2343: 'nati-logos',
2344: 'fcmsys',
2345: 'dbm',
2346: 'redstorm_join',
2347: 'redstorm_find',
2348: 'redstorm_info',
2349: 'redstorm_diag',
2350: 'psbserver',
2351: 'psrserver',
2352: 'pslserver',
2353: 'pspserver',
2354: 'psprserver',
2355: 'psdbserver',
2356: 'gxtelmd',
2357: 'unihub-server',
2358: 'futrix',
2359: 'flukeserver',
2360: 'nexstorindltd',
2361: 'tl1',
2362: 'digiman',
2363: 'mediacntrlnfsd',
2364: 'oi-2000',
2365: 'dbref',
2366: 'qip-login',
2367: 'service-ctrl',
2368: 'opentable',
2369: 'acs2000-dsp',
2370: 'l3-hbmon',
2371: 'worldwire',
2381: 'compaq-https',
2382: 'ms-olap3',
2383: 'ms-olap4',
2384: 'sd-request',
2385: 'sd-data',
2386: 'virtualtape',
2387: 'vsamredirector',
2388: 'mynahautostart',
2389: 'ovsessionmgr',
2390: 'rsmtp',
2391: '3com-net-mgmt',
2392: 'tacticalauth',
2393: 'ms-olap1',
2394: 'ms-olap2',
2395: 'lan900_remote',
2396: 'wusage',
2397: 'ncl',
2398: 'orbiter',
2399: 'fmpro-fdal',
2400: 'opequus-server',
2401: 'cvspserver',
2402: 'taskmaster2000',
2403: 'taskmaster2000',
2404: 'iec-104',
2405: 'trc-netpoll',
2406: 'jediserver',
2407: 'orion',
2408: 'optimanet',
2409: 'sns-protocol',
2410: 'vrts-registry',
2411: 'netwave-ap-mgmt',
2412: 'cdn',
2413: 'orion-rmi-reg',
2414: 'beeyond',
2415: 'codima-rtp',
2416: 'rmtserver',
2417: 'composit-server',
2418: 'cas',
2419: 'attachmate-s2s',
2420: 'dslremote-mgmt',
2421: 'g-talk',
2422: 'crmsbits',
2423: 'rnrp',
2424: 'kofax-svr',
2425: 'fjitsuappmgr',
2427: 'mgcp-gateway',
2428: 'ott',
2429: 'ft-role',
2430: 'venus',
2431: 'venus-se',
2432: 'codasrv',
2433: 'codasrv-se',
2434: 'pxc-epmap',
2435: 'optilogic',
2436: 'topx',
2437: 'unicontrol',
2438: 'msp',
2439: 'sybasedbsynch',
2440: 'spearway',
2441: 'pvsw-inet',
2442: 'netangel',
2443: 'powerclientcsf',
2444: 'btpp2sectrans',
2445: 'dtn1',
2446: 'bues_service',
2447: 'ovwdb',
2448: 'hpppssvr',
2449: 'ratl',
2450: 'netadmin',
2451: 'netchat',
2452: 'snifferclient',
2453: 'madge-om',
2454: 'indx-dds',
2455: 'wago-io-system',
2456: 'altav-remmgt',
2457: 'rapido-ip',
2458: 'griffin',
2459: 'community',
2460: 'ms-theater',
2461: 'qadmifoper',
2462: 'qadmifevent',
2463: 'symbios-raid',
2464: 'direcpc-si',
2465: 'lbm',
2466: 'lbf',
2467: 'high-criteria',
2468: 'qip-msgd',
2469: 'mti-tcs-comm',
2470: 'taskman-port',
2471: 'seaodbc',
2472: 'c3',
2473: 'aker-cdp',
2474: 'vitalanalysis',
2475: 'ace-server',
2476: 'ace-svr-prop',
2477: 'ssm-cvs',
2478: 'ssm-cssps',
2479: 'ssm-els',
2480: 'lingwood',
2481: 'giop',
2482: 'giop-ssl',
2483: 'ttc',
2484: 'ttc-ssl',
2485: 'netobjects1',
2486: 'netobjects2',
2487: 'pns',
2488: 'moy-corp',
2489: 'tsilb',
2490: 'qip-qdhcp',
2491: 'conclave-cpp',
2492: 'groove',
2493: 'talarian-mqs',
2494: 'bmc-ar',
2495: 'fast-rem-serv',
2496: 'dirgis',
2497: 'quaddb',
2498: 'odn-castraq',
2499: 'unicontrol',
2500: 'rtsserv',
2501: 'rtsclient',
2502: 'kentrox-prot',
2503: 'nms-dpnss',
2504: 'wlbs',
2505: 'ppcontrol',
2506: 'jbroker',
2507: 'spock',
2508: 'jdatastore',
2509: 'fjmpss',
2510: 'fjappmgrbulk',
2511: 'metastorm',
2512: 'citrixima',
2513: 'citrixadmin',
2514: 'facsys-ntp',
2515: 'facsys-router',
2516: 'maincontrol',
2517: 'call-sig-trans',
2518: 'willy',
2519: 'globmsgsvc',
2520: 'pvsw',
2521: 'adaptecmgr',
2522: 'windb',
2523: 'qke-llc-v3',
2524: 'optiwave-lm',
2525: 'ms-v-worlds',
2526: 'ema-sent-lm',
2527: 'iqserver',
2528: 'ncr_ccl',
2529: 'utsftp',
2530: 'vrcommerce',
2531: 'ito-e-gui',
2532: 'ovtopmd',
2533: 'snifferserver',
2534: 'combox-web-acc',
2535: 'madcap',
2536: 'btpp2audctr1',
2537: 'upgrade',
2538: 'vnwk-prapi',
2539: 'vsiadmin',
2540: 'lonworks',
2541: 'lonworks2',
2542: 'davinci',
2543: 'reftek',
2544: 'novell-zen',
2545: 'sis-emt',
2546: 'vytalvaultbrtp',
2547: 'vytalvaultvsmp',
2548: 'vytalvaultpipe',
2549: 'ipass',
2550: 'ads',
2551: 'isg-uda-server',
2552: 'call-logging',
2553: 'efidiningport',
2554: 'vcnet-link-v10',
2555: 'compaq-wcp',
2556: 'nicetec-nmsvc',
2557: 'nicetec-mgmt',
2558: 'pclemultimedia',
2559: 'lstp',
2560: 'labrat',
2561: 'mosaixcc',
2562: 'delibo',
2563: 'cti-redwood',
2564: 'hp-3000-telnet',
2565: 'coord-svr',
2566: 'pcs-pcw',
2567: 'clp',
2568: 'spamtrap',
2569: 'sonuscallsig',
2570: 'hs-port',
2571: 'cecsvc',
2572: 'ibp',
2573: 'trustestablish',
2574: 'blockade-bpsp',
2575: 'hl7',
2576: 'tclprodebugger',
2577: 'scipticslsrvr',
2578: 'rvs-isdn-dcp',
2579: 'mpfoncl',
2580: 'tributary',
2581: 'argis-te',
2582: 'argis-ds',
2583: 'mon',
2584: 'cyaserv',
2585: 'netx-server',
2586: 'netx-agent',
2587: 'masc',
2588: 'privilege',
2589: 'quartus-tcl',
2590: 'idotdist',
2591: 'maytagshuffle',
2592: 'netrek',
2593: 'mns-mail',
2594: 'dts',
2595: 'worldfusion1',
2596: 'worldfusion2',
2597: 'homesteadglory',
2598: 'citriximaclient',
2599: 'snapd',
2600: 'hpstgmgr',
2601: 'discp-client',
2602: 'discp-server',
2603: 'servicemeter',
2604: 'nsc-ccs',
2605: 'nsc-posa',
2606: 'netmon',
2607: 'connection',
2608: 'wag-service',
2609: 'system-monitor',
2610: 'versa-tek',
2611: 'lionhead',
2612: 'qpasa-agent',
2613: 'smntubootstrap',
2614: 'neveroffline',
2615: 'firepower',
2616: 'appswitch-emp',
2617: 'cmadmin',
2618: 'priority-e-com',
2619: 'bruce',
2620: 'lpsrecommender',
2621: 'miles-apart',
2622: 'metricadbc',
2623: 'lmdp',
2624: 'aria',
2625: 'blwnkl-port',
2626: 'gbjd816',
2627: 'moshebeeri',
2628: 'dict',
2629: 'sitaraserver',
2630: 'sitaramgmt',
2631: 'sitaradir',
2632: 'irdg-post',
2633: 'interintelli',
2634: 'pk-electronics',
2635: 'backburner',
2636: 'solve',
2637: 'imdocsvc',
2638: 'sybaseanywhere',
2639: 'aminet',
2640: 'sai_sentlm',
2641: 'hdl-srv',
2642: 'tragic',
2643: 'gte-samp',
2644: 'travsoft-ipx-t',
2645: 'novell-ipx-cmd',
2646: 'and-lm',
2647: 'syncserver',
2648: 'upsnotifyprot',
2649: 'vpsipport',
2650: 'eristwoguns',
2651: 'ebinsite',
2652: 'interpathpanel',
2653: 'sonus',
2654: 'corel_vncadmin',
2655: 'unglue',
2656: 'kana',
2657: 'sns-dispatcher',
2658: 'sns-admin',
2659: 'sns-query',
2660: 'gcmonitor',
2661: 'olhost',
2662: 'bintec-capi',
2663: 'bintec-tapi',
2664: 'patrol-mq-gm',
2665: 'patrol-mq-nm',
2666: 'extensis',
2667: 'alarm-clock-s',
2668: 'alarm-clock-c',
2669: 'toad',
2670: 'tve-announce',
2671: 'newlixreg',
2672: 'nhserver',
2673: 'firstcall42',
2674: 'ewnn',
2675: 'ttc-etap',
2676: 'simslink',
2677: 'gadgetgate1way',
2678: 'gadgetgate2way',
2679: 'syncserverssl',
2680: 'pxc-sapxom',
2681: 'mpnjsomb',
2683: 'ncdloadbalance',
2684: 'mpnjsosv',
2685: 'mpnjsocl',
2686: 'mpnjsomg',
2687: 'pq-lic-mgmt',
2688: 'md-cg-http',
2689: 'fastlynx',
2690: 'hp-nnm-data',
2691: 'itinternet',
2692: 'admins-lms',
2693: 'belarc-http',
2694: 'pwrsevent',
2695: 'vspread',
2696: 'unifyadmin',
2697: 'oce-snmp-trap',
2698: 'mck-ivpip',
2699: 'csoft-plusclnt',
2700: 'tqdata',
2701: 'sms-rcinfo',
2702: 'sms-xfer',
2703: 'sms-chat',
2704: 'sms-remctrl',
2705: 'sds-admin',
2706: 'ncdmirroring',
2707: 'emcsymapiport',
2708: 'banyan-net',
2709: 'supermon',
2710: 'sso-service',
2711: 'sso-control',
2712: 'aocp',
2713: 'raven1',
2714: 'raven2',
2715: 'hpstgmgr2',
2716: 'inova-ip-disco',
2717: 'pn-requester',
2718: 'pn-requester2',
2719: 'scan-change',
2720: 'wkars',
2721: 'smart-diagnose',
2722: 'proactivesrvr',
2723: 'watchdognt',
2724: 'qotps',
2725: 'msolap-ptp2',
2726: 'tams',
2727: 'mgcp-callagent',
2728: 'sqdr',
2729: 'tcim-control',
2730: 'nec-raidplus',
2731: 'fyre-messanger',
2732: 'g5m',
2733: 'signet-ctf',
2734: 'ccs-software',
2735: 'netiq-mc',
2736: 'radwiz-nms-srv',
2737: 'srp-feedback',
2738: 'ndl-tcp-ois-gw',
2739: 'tn-timing',
2740: 'alarm',
2741: 'tsb',
2742: 'tsb2',
2743: 'murx',
2744: 'honyaku',
2745: 'urbisnet',
2746: 'cpudpencap',
2747: 'fjippol-swrly',
2748: 'fjippol-polsvr',
2749: 'fjippol-cnsl',
2750: 'fjippol-port1',
2751: 'fjippol-port2',
2752: 'rsisysaccess',
2753: 'de-spot',
2754: 'apollo-cc',
2755: 'expresspay',
2756: 'simplement-tie',
2757: 'cnrp',
2758: 'apollo-status',
2759: 'apollo-gms',
2760: 'sabams',
2761: 'dicom-iscl',
2762: 'dicom-tls',
2763: 'desktop-dna',
2764: 'data-insurance',
2765: 'qip-audup',
2766: 'compaq-scp',
2767: 'uadtc',
2768: 'uacs',
2769: 'singlept-mvs',
2770: 'veronica',
2771: 'vergencecm',
2772: 'auris',
2773: 'rbakcup1',
2774: 'rbakcup2',
2775: 'smpp',
2776: 'ridgeway1',
2777: 'ridgeway2',
2778: 'gwen-sonya',
2779: 'lbc-sync',
2780: 'lbc-control',
2781: 'whosells',
2782: 'everydayrc',
2783: 'aises',
2784: 'www-dev',
2785: 'aic-np',
2786: 'aic-oncrpc',
2787: 'piccolo',
2788: 'fryeserv',
2789: 'media-agent',
2790: 'plgproxy',
2791: 'mtport-regist',
2792: 'f5-globalsite',
2793: 'initlsmsad',
2794: 'aaftp',
2795: 'livestats',
2796: 'ac-tech',
2797: 'esp-encap',
2798: 'tmesis-upshot',
2799: 'icon-discover',
2800: 'acc-raid',
2801: 'igcp',
2802: 'veritas-tcp1',
2803: 'btprjctrl',
2804: 'telexis-vtu',
2805: 'wta-wsp-s',
2806: 'cspuni',
2807: 'cspmulti',
2808: 'j-lan-p',
2809: 'corbaloc',
2810: 'netsteward',
2811: 'gsiftp',
2812: 'atmtcp',
2813: 'llm-pass',
2814: 'llm-csv',
2815: 'lbc-measure',
2816: 'lbc-watchdog',
2817: 'nmsigport',
2818: 'rmlnk',
2819: 'fc-faultnotify',
2820: 'univision',
2821: 'vrts-at-port',
2822: 'ka0wuc',
2823: 'cqg-netlan',
2824: 'cqg-netlan-1',
2826: 'slc-systemlog',
2827: 'slc-ctrlrloops',
2828: 'itm-lm',
2829: 'silkp1',
2830: 'silkp2',
2831: 'silkp3',
2832: 'silkp4',
2833: 'glishd',
2834: 'evtp',
2835: 'evtp-data',
2836: 'catalyst',
2837: 'repliweb',
2838: 'starbot',
2839: 'nmsigport',
2840: 'l3-exprt',
2841: 'l3-ranger',
2842: 'l3-hawk',
2843: 'pdnet',
2844: 'bpcp-poll',
2845: 'bpcp-trap',
2846: 'aimpp-hello',
2847: 'aimpp-port-req',
2848: 'amt-blc-port',
2849: 'fxp',
2850: 'metaconsole',
2851: 'webemshttp',
2852: 'bears-01',
2853: 'ispipes',
2854: 'infomover',
2856: 'cesdinv',
2857: 'simctlp',
2858: 'ecnp',
2859: 'activememory',
2860: 'dialpad-voice1',
2861: 'dialpad-voice2',
2862: 'ttg-protocol',
2863: 'sonardata',
2864: 'astromed-main',
2865: 'pit-vpn',
2866: 'iwlistener',
2867: 'esps-portal',
2868: 'npep-messaging',
2869: 'icslap',
2870: 'daishi',
2871: 'msi-selectplay',
2872: 'radix',
2873: 'paspar2-zoomin',
2874: 'dxmessagebase1',
2875: 'dxmessagebase2',
2876: 'sps-tunnel',
2877: 'bluelance',
2878: 'aap',
2879: 'ucentric-ds',
2880: 'synapse',
2881: 'ndsp',
2882: 'ndtp',
2883: 'ndnp',
2884: 'flashmsg',
2885: 'topflow',
2886: 'responselogic',
2887: 'aironetddp',
2888: 'spcsdlobby',
2889: 'rsom',
2890: 'cspclmulti',
2891: 'cinegrfx-elmd',
2892: 'snifferdata',
2893: 'vseconnector',
2894: 'abacus-remote',
2895: 'natuslink',
2896: 'ecovisiong6-1',
2897: 'citrix-rtmp',
2898: 'appliance-cfg',
2899: 'powergemplus',
2900: 'quicksuite',
2901: 'allstorcns',
2902: 'netaspi',
2903: 'suitcase',
2904: 'm2ua',
2905: 'm3ua',
2906: 'caller9',
2907: 'webmethods-b2b',
2908: 'mao',
2909: 'funk-dialout',
2910: 'tdaccess',
2911: 'blockade',
2912: 'epicon',
2913: 'boosterware',
2914: 'gamelobby',
2915: 'tksocket',
2916: 'elvin_server',
2917: 'elvin_client',
2918: 'kastenchasepad',
2919: 'roboer',
2920: 'roboeda',
2921: 'cesdcdman',
2922: 'cesdcdtrn',
2923: 'wta-wsp-wtp-s',
2924: 'precise-vip',
2926: 'mobile-file-dl',
2927: 'unimobilectrl',
2928: 'redstone-cpss',
2929: 'amx-webadmin',
2930: 'amx-weblinx',
2931: 'circle-x',
2932: 'incp',
2933: '4-tieropmgw',
2934: '4-tieropmcli',
2935: 'qtp',
2936: 'otpatch',
2937: 'pnaconsult-lm',
2938: 'sm-pas-1',
2939: 'sm-pas-2',
2940: 'sm-pas-3',
2941: 'sm-pas-4',
2942: 'sm-pas-5',
2943: 'ttnrepository',
2944: 'megaco-h248',
2945: 'h248-binary',
2946: 'fjsvmpor',
2947: 'gpsd',
2948: 'wap-push',
2949: 'wap-pushsecure',
2950: 'esip',
2951: 'ottp',
2952: 'mpfwsas',
2953: 'ovalarmsrv',
2954: 'ovalarmsrv-cmd',
2955: 'csnotify',
2956: 'ovrimosdbman',
2957: 'jmact5',
2958: 'jmact6',
2959: 'rmopagt',
2960: 'dfoxserver',
2961: 'boldsoft-lm',
2962: 'iph-policy-cli',
2963: 'iph-policy-adm',
2964: 'bullant-srap',
2965: 'bullant-rap',
2966: 'idp-infotrieve',
2967: 'ssc-agent',
2968: 'enpp',
2969: 'essp',
2970: 'index-net',
2971: 'netclip',
2972: 'pmsm-webrctl',
2973: 'svnetworks',
2974: 'signal',
2975: 'fjmpcm',
2976: 'cns-srv-port',
2977: 'ttc-etap-ns',
2978: 'ttc-etap-ds',
2979: 'h263-video',
2980: 'wimd',
2981: 'mylxamport',
2982: 'iwb-whiteboard',
2983: 'netplan',
2984: 'hpidsadmin',
2985: 'hpidsagent',
2986: 'stonefalls',
2987: 'identify',
2988: 'hippad',
2989: 'zarkov',
2990: 'boscap',
2991: 'wkstn-mon',
2992: 'itb301',
2993: 'veritas-vis1',
2994: 'veritas-vis2',
2995: 'idrs',
2996: 'vsixml',
2997: 'rebol',
2998: 'realsecure',
2999: 'remoteware-un',
3000: 'remoteware-cl',
3001: 'redwood-broker',
3002: 'remoteware-srv',
3003: 'cgms',
3004: 'csoftragent',
3005: 'geniuslm',
3006: 'ii-admin',
3007: 'lotusmtap',
3008: 'midnight-tech',
3009: 'pxc-ntfy',
3010: 'gw',
3011: 'trusted-web',
3012: 'twsdss',
3013: 'gilatskysurfer',
3014: 'broker_service',
3015: 'nati-dstp',
3016: 'notify_srvr',
3017: 'event_listener',
3018: 'srvc_registry',
3019: 'resource_mgr',
3020: 'cifs',
3021: 'agriserver',
3022: 'csregagent',
3023: 'magicnotes',
3024: 'nds_sso',
3025: 'arepa-raft',
3026: 'agri-gateway',
3027: 'LiebDevMgmt_C',
3028: 'LiebDevMgmt_DM',
3029: 'LiebDevMgmt_A',
3030: 'arepa-cas',
3031: 'eppc',
3032: 'redwood-chat',
3033: 'pdb',
3034: 'osmosis-aeea',
3035: 'fjsv-gssagt',
3036: 'hagel-dump',
3037: 'hp-san-mgmt',
3038: 'santak-ups',
3039: 'cogitate',
3040: 'tomato-springs',
3041: 'di-traceware',
3042: 'journee',
3043: 'brp',
3044: 'epp',
3045: 'responsenet',
3046: 'di-ase',
3047: 'hlserver',
3048: 'pctrader',
3049: 'nsws',
3050: 'gds_db',
3051: 'galaxy-server',
3052: 'apc-3052',
3053: 'dsom-server',
3054: 'amt-cnf-prot',
3055: 'policyserver',
3056: 'cdl-server',
3057: 'goahead-fldup',
3058: 'videobeans',
3059: 'qsoft',
3060: 'interserver',
3061: 'cautcpd',
3062: 'ncacn-ip-tcp',
3063: 'ncadg-ip-udp',
3064: 'rprt',
3065: 'slinterbase',
3066: 'netattachsdmp',
3067: 'fjhpjp',
3068: 'ls3bcast',
3069: 'ls3',
3070: 'mgxswitch',
3071: 'csd-mgmt-port',
3072: 'csd-monitor',
3073: 'vcrp',
3074: 'xbox',
3075: 'orbix-locator',
3076: 'orbix-config',
3077: 'orbix-loc-ssl',
3078: 'orbix-cfg-ssl',
3079: 'lv-frontpanel',
3080: 'stm_pproc',
3081: 'tl1-lv',
3082: 'tl1-raw',
3083: 'tl1-telnet',
3084: 'itm-mccs',
3085: 'pcihreq',
3086: 'jdl-dbkitchen',
3087: 'asoki-sma',
3088: 'xdtp',
3089: 'ptk-alink',
3090: 'rtss',
3091: '1ci-smcs',
3092: 'njfss',
3093: 'rapidmq-center',
3094: 'rapidmq-reg',
3095: 'panasas',
3096: 'ndl-aps',
3097: 'itu-bicc-stc',
3098: 'umm-port',
3099: 'chmd',
3100: 'opcon-xps',
3101: 'hp-pxpib',
3102: 'slslavemon',
3103: 'autocuesmi',
3104: 'autocuelog',
3105: 'cardbox',
3106: 'cardbox-http',
3107: 'business',
3108: 'geolocate',
3109: 'personnel',
3110: 'sim-control',
3111: 'wsynch',
3112: 'ksysguard',
3113: 'cs-auth-svr',
3114: 'ccmad',
3115: 'mctet-master',
3116: 'mctet-gateway',
3117: 'mctet-jserv',
3118: 'pkagent',
3119: 'd2000kernel',
3120: 'd2000webserver',
3121: 'epp-temp',
3122: 'vtr-emulator',
3123: 'edix',
3124: 'beacon-port',
3125: 'a13-an',
3126: 'ms-dotnetster',
3127: 'ctx-bridge',
3128: 'ndl-aas',
3129: 'netport-id',
3130: 'icpv2',
3131: 'netbookmark',
3132: 'ms-rule-engine',
3133: 'prism-deploy',
3134: 'ecp',
3135: 'peerbook-port',
3136: 'grubd',
3137: 'rtnt-1',
3138: 'rtnt-2',
3139: 'incognitorv',
3140: 'ariliamulti',
3141: 'vmodem',
3142: 'rdc-wh-eos',
3143: 'seaview',
3144: 'tarantella',
3145: 'csi-lfap',
3146: 'bears-02',
3147: 'rfio',
3148: 'nm-game-admin',
3149: 'nm-game-server',
3150: 'nm-asses-admin',
3151: 'nm-assessor',
3152: 'feitianrockey',
3153: 's8-client-port',
3154: 'ccmrmi',
3155: 'jpegmpeg',
3156: 'indura',
3157: 'e3consultants',
3158: 'stvp',
3159: 'navegaweb-port',
3160: 'tip-app-server',
3161: 'doc1lm',
3162: 'sflm',
3163: 'res-sap',
3164: 'imprs',
3165: 'newgenpay',
3166: 'qrepos',
3167: 'poweroncontact',
3168: 'poweronnud',
3169: 'serverview-as',
3170: 'serverview-asn',
3171: 'serverview-gf',
3172: 'serverview-rm',
3173: 'serverview-icc',
3174: 'armi-server',
3175: 't1-e1-over-ip',
3176: 'ars-master',
3177: 'phonex-port',
3178: 'radclientport',
3179: 'h2gf-w-2m',
3180: 'mc-brk-srv',
3181: 'bmcpatrolagent',
3182: 'bmcpatrolrnvu',
3183: 'cops-tls',
3184: 'apogeex-port',
3185: 'smpppd',
3186: 'iiw-port',
3187: 'odi-port',
3188: 'brcm-comm-port',
3189: 'pcle-infex',
3190: 'csvr-proxy',
3191: 'csvr-sslproxy',
3192: 'firemonrcc',
3193: 'cordataport',
3194: 'magbind',
3195: 'ncu-1',
3196: 'ncu-2',
3197: 'embrace-dp-s',
3198: 'embrace-dp-c',
3199: 'dmod-workspace',
3200: 'tick-port',
3201: 'cpq-tasksmart',
3202: 'intraintra',
3203: 'netwatcher-mon',
3204: 'netwatcher-db',
3205: 'isns',
3206: 'ironmail',
3207: 'vx-auth-port',
3208: 'pfu-prcallback',
3209: 'netwkpathengine',
3210: 'flamenco-proxy',
3211: 'avsecuremgmt',
3212: 'surveyinst',
3213: 'neon24x7',
3214: 'jmq-daemon-1',
3215: 'jmq-daemon-2',
3216: 'ferrari-foam',
3217: 'unite',
3218: 'smartpackets',
3219: 'wms-messenger',
3220: 'xnm-ssl',
3221: 'xnm-clear-text',
3222: 'glbp',
3223: 'digivote',
3224: 'aes-discovery',
3225: 'fcip-port',
3226: 'isi-irp',
3227: 'dwnmshttp',
3228: 'dwmsgserver',
3229: 'global-cd-port',
3230: 'sftdst-port',
3231: 'dsnl',
3232: 'mdtp',
3233: 'whisker',
3234: 'alchemy',
3235: 'mdap-port',
3236: 'apparenet-ts',
3237: 'apparenet-tps',
3238: 'apparenet-as',
3239: 'apparenet-ui',
3240: 'triomotion',
3241: 'sysorb',
3242: 'sdp-id-port',
3243: 'timelot',
3244: 'onesaf',
3245: 'vieo-fe',
3246: 'dvt-system',
3247: 'dvt-data',
3248: 'procos-lm',
3249: 'ssp',
3250: 'hicp',
3251: 'sysscanner',
3252: 'dhe',
3253: 'pda-data',
3254: 'pda-sys',
3255: 'semaphore',
3256: 'cpqrpm-agent',
3257: 'cpqrpm-server',
3258: 'ivecon-port',
3259: 'epncdp2',
3260: 'iscsi-target',
3261: 'winshadow',
3262: 'necp',
3263: 'ecolor-imager',
3264: 'ccmail',
3265: 'altav-tunnel',
3266: 'ns-cfg-server',
3267: 'ibm-dial-out',
3268: 'msft-gc',
3269: 'msft-gc-ssl',
3270: 'verismart',
3271: 'csoft-prev',
3272: 'user-manager',
3273: 'sxmp',
3274: 'ordinox-server',
3275: 'samd',
3276: 'maxim-asics',
3277: 'awg-proxy',
3278: 'lkcmserver',
3279: 'admind',
3280: 'vs-server',
3281: 'sysopt',
3282: 'datusorb',
3283: 'net-assistant',
3284: '4talk',
3285: 'plato',
3286: 'e-net',
3287: 'directvdata',
3288: 'cops',
3289: 'enpc',
3290: 'caps-lm',
3291: 'sah-lm',
3292: 'cart-o-rama',
3293: 'fg-fps',
3294: 'fg-gip',
3295: 'dyniplookup',
3296: 'rib-slm',
3297: 'cytel-lm',
3298: 'deskview',
3299: 'pdrncs',
3302: 'mcs-fastmail',
3303: 'opsession-clnt',
3304: 'opsession-srvr',
3305: 'odette-ftp',
3306: 'mysql',
3307: 'opsession-prxy',
3308: 'tns-server',
3309: 'tns-adv',
3310: 'dyna-access',
3311: 'mcns-tel-ret',
3312: 'appman-server',
3313: 'uorb',
3314: 'uohost',
3315: 'cdid',
3316: 'aicc-cmi',
3317: 'vsaiport',
3318: 'ssrip',
3319: 'sdt-lmd',
3320: 'officelink2000',
3321: 'vnsstr',
3326: 'sftu',
3327: 'bbars',
3328: 'egptlm',
3329: 'hp-device-disc',
3330: 'mcs-calypsoicf',
3331: 'mcs-messaging',
3332: 'mcs-mailsvr',
3333: 'dec-notes',
3334: 'directv-web',
3335: 'directv-soft',
3336: 'directv-tick',
3337: 'directv-catlg',
3338: 'anet-b',
3339: 'anet-l',
3340: 'anet-m',
3341: 'anet-h',
3342: 'webtie',
3343: 'ms-cluster-net',
3344: 'bnt-manager',
3345: 'influence',
3346: 'trnsprntproxy',
3347: 'phoenix-rpc',
3348: 'pangolin-laser',
3349: 'chevinservices',
3350: 'findviatv',
3351: 'btrieve',
3352: 'ssql',
3353: 'fatpipe',
3354: 'suitjd',
3355: 'ordinox-dbase',
3356: 'upnotifyps',
3357: 'adtech-test',
3358: 'mpsysrmsvr',
3359: 'wg-netforce',
3360: 'kv-server',
3361: 'kv-agent',
3362: 'dj-ilm',
3363: 'nati-vi-server',
3364: 'creativeserver',
3365: 'contentserver',
3366: 'creativepartnr',
3372: 'tip2',
3373: 'lavenir-lm',
3374: 'cluster-disc',
3375: 'vsnm-agent',
3376: 'cdbroker',
3377: 'cogsys-lm',
3378: 'wsicopy',
3379: 'socorfs',
3380: 'sns-channels',
3381: 'geneous',
3382: 'fujitsu-neat',
3383: 'esp-lm',
3384: 'hp-clic',
3385: 'qnxnetman',
3386: 'gprs-data',
3387: 'backroomnet',
3388: 'cbserver',
3389: 'ms-wbt-server',
3390: 'dsc',
3391: 'savant',
3392: 'efi-lm',
3393: 'd2k-tapestry1',
3394: 'd2k-tapestry2',
3395: 'dyna-lm',
3396: 'printer_agent',
3397: 'cloanto-lm',
3398: 'mercantile',
3399: 'csms',
3400: 'csms2',
3401: 'filecast',
3402: 'fxaengine-net',
3403: 'copysnap',
3405: 'nokia-ann-ch1',
3406: 'nokia-ann-ch2',
3407: 'ldap-admin',
3408: 'issapi',
3409: 'networklens',
3410: 'networklenss',
3411: 'biolink-auth',
3412: 'xmlblaster',
3413: 'svnet',
3414: 'wip-port',
3415: 'bcinameservice',
3416: 'commandport',
3417: 'csvr',
3418: 'rnmap',
3419: 'softaudit',
3420: 'ifcp-port',
3421: 'bmap',
3422: 'rusb-sys-port',
3423: 'xtrm',
3424: 'xtrms',
3425: 'agps-port',
3426: 'arkivio',
3427: 'websphere-snmp',
3428: 'twcss',
3429: 'gcsp',
3430: 'ssdispatch',
3431: 'ndl-als',
3432: 'osdcp',
3433: 'alta-smp',
3434: 'opencm',
3435: 'pacom',
3436: 'gc-config',
3437: 'autocueds',
3438: 'spiral-admin',
3439: 'hri-port',
3440: 'ans-console',
3441: 'connect-client',
3442: 'connect-server',
3443: 'ov-nnm-websrv',
3444: 'denali-server',
3445: 'monp',
3446: '3comfaxrpc',
3447: 'cddn',
3448: 'dnc-port',
3449: 'hotu-chat',
3450: 'castorproxy',
3451: 'asam',
3452: 'sabp-signal',
3453: 'pscupd',
3454: 'mira',
3455: 'prsvp',
3456: 'vat',
3457: 'vat-control',
3458: 'd3winosfi',
3459: 'integral',
3460: 'edm-manager',
3461: 'edm-stager',
3462: 'edm-std-notify',
3463: 'edm-adm-notify',
3464: 'edm-mgr-sync',
3465: 'edm-mgr-cntrl',
3466: 'workflow',
3467: 'rcst',
3468: 'ttcmremotectrl',
3469: 'pluribus',
3470: 'jt400',
3471: 'jt400-ssl',
3472: 'jaugsremotec-1',
3473: 'jaugsremotec-2',
3474: 'ttntspauto',
3475: 'genisar-port',
3476: 'nppmp',
3477: 'ecomm',
3478: 'nat-stun-port',
3479: 'twrpc',
3480: 'plethora',
3481: 'cleanerliverc',
3482: 'vulture',
3483: 'slim-devices',
3484: 'gbs-stp',
3485: 'celatalk',
3486: 'ifsf-hb-port',
3487: 'ltctcp',
3488: 'fs-rh-srv',
3489: 'dtp-dia',
3490: 'colubris',
3491: 'swr-port',
3492: 'tvdumtray-port',
3493: 'nut',
3494: 'ibm3494',
3495: 'seclayer-tcp',
3496: 'seclayer-tls',
3497: 'ipether232port',
3498: 'dashpas-port',
3499: 'sccip-media',
3500: 'rtmp-port',
3501: 'isoft-p2p',
3502: 'avinstalldisc',
3503: 'lsp-ping',
3504: 'ironstorm',
3505: 'ccmcomm',
3506: 'apc-3506',
3507: 'nesh-broker',
3508: 'interactionweb',
3509: 'vt-ssl',
3510: 'xss-port',
3511: 'webmail-2',
3512: 'aztec',
3513: 'arcpd',
3514: 'must-p2p',
3515: 'must-backplane',
3516: 'smartcard-port',
3517: '802-11-iapp',
3518: 'artifact-msg',
3519: 'nvmsgd',
3520: 'galileolog',
3521: 'mc3ss',
3522: 'nssocketport',
3523: 'odeumservlink',
3524: 'ecmport',
3525: 'eisport',
3526: 'starquiz-port',
3527: 'beserver-msg-q',
3528: 'jboss-iiop',
3529: 'jboss-iiop-ssl',
3530: 'gf',
3531: 'joltid',
3532: 'raven-rmp',
3533: 'raven-rdp',
3534: 'urld-port',
3535: 'ms-la',
3536: 'snac',
3537: 'ni-visa-remote',
3538: 'ibm-diradm',
3539: 'ibm-diradm-ssl',
3540: 'pnrp-port',
3541: 'voispeed-port',
3542: 'hacl-monitor',
3543: 'qftest-lookup',
3544: 'teredo',
3545: 'camac',
3547: 'symantec-sim',
3548: 'interworld',
3549: 'tellumat-nms',
3550: 'ssmpp',
3551: 'apcupsd',
3552: 'taserver',
3553: 'rbr-discovery',
3554: 'questnotify',
3555: 'razor',
3556: 'sky-transport',
3557: 'personalos-001',
3558: 'mcp-port',
3559: 'cctv-port',
3560: 'iniserve-port',
3561: 'bmc-onekey',
3562: 'sdbproxy',
3563: 'watcomdebug',
3564: 'esimport',
3565: 'm2pa',
3566: 'quest-launcher',
3567: 'emware-oft',
3568: 'emware-epss',
3569: 'mbg-ctrl',
3570: 'mccwebsvr-port',
3571: 'megardsvr-port',
3572: 'megaregsvrport',
3573: 'tag-ups-1',
3574: 'dmaf-server',
3575: 'ccm-port',
3576: 'cmc-port',
3577: 'config-port',
3578: 'data-port',
3579: 'ttat3lb',
3580: 'nati-svrloc',
3581: 'kfxaclicensing',
3582: 'press',
3583: 'canex-watch',
3584: 'u-dbap',
3585: 'emprise-lls',
3586: 'emprise-lsc',
3587: 'p2pgroup',
3588: 'sentinel',
3589: 'isomair',
3590: 'wv-csp-sms',
3591: 'gtrack-server',
3592: 'gtrack-ne',
3593: 'bpmd',
3594: 'mediaspace',
3595: 'shareapp',
3596: 'iw-mmogame',
3597: 'a14',
3598: 'a15',
3599: 'quasar-server',
3600: 'trap-daemon',
3601: 'visinet-gui',
3602: 'infiniswitchcl',
3603: 'int-rcv-cntrl',
3604: 'bmc-jmx-port',
3605: 'comcam-io',
3606: 'splitlock',
3607: 'precise-i3',
3608: 'trendchip-dcp',
3609: 'cpdi-pidas-cm',
3610: 'echonet',
3611: 'six-degrees',
3612: 'hp-dataprotect',
3613: 'alaris-disc',
3614: 'sigma-port',
3615: 'start-network',
3616: 'cd3o-protocol',
3617: 'sharp-server',
3618: 'aairnet-1',
3619: 'aairnet-2',
3620: 'ep-pcp',
3621: 'ep-nsp',
3622: 'ff-lr-port',
3623: 'haipe-discover',
3624: 'dist-upgrade',
3625: 'volley',
3626: 'bvcdaemon-port',
3627: 'jamserverport',
3628: 'ept-machine',
3629: 'escvpnet',
3630: 'cs-remote-db',
3631: 'cs-services',
3632: 'distcc',
3633: 'wacp',
3634: 'hlibmgr',
3635: 'sdo',
3636: 'opscenter',
3637: 'scservp',
3638: 'ehp-backup',
3639: 'xap-ha',
3640: 'netplay-port1',
3641: 'netplay-port2',
3642: 'juxml-port',
3643: 'audiojuggler',
3644: 'ssowatch',
3645: 'cyc',
3646: 'xss-srv-port',
3647: 'splitlock-gw',
3648: 'fjcp',
3649: 'nmmp',
3650: 'prismiq-plugin',
3651: 'xrpc-registry',
3652: 'vxcrnbuport',
3653: 'tsp',
3654: 'vaprtm',
3655: 'abatemgr',
3656: 'abatjss',
3657: 'immedianet-bcn',
3658: 'ps-ams',
3659: 'apple-sasl',
3660: 'can-nds-ssl',
3661: 'can-ferret-ssl',
3662: 'pserver',
3663: 'dtp',
3664: 'ups-engine',
3665: 'ent-engine',
3666: 'eserver-pap',
3667: 'infoexch',
3668: 'dell-rm-port',
3669: 'casanswmgmt',
3670: 'smile',
3671: 'efcp',
3672: 'lispworks-orb',
3673: 'mediavault-gui',
3674: 'wininstall-ipc',
3675: 'calltrax',
3676: 'va-pacbase',
3677: 'roverlog',
3678: 'ipr-dglt',
3679: 'newton-dock',
3680: 'npds-tracker',
3681: 'bts-x73',
3682: 'cas-mapi',
3683: 'bmc-ea',
3684: 'faxstfx-port',
3685: 'dsx-agent',
3686: 'tnmpv2',
3687: 'simple-push',
3688: 'simple-push-s',
3689: 'daap',
3690: 'svn',
3691: 'magaya-network',
3692: 'intelsync',
3693: 'gttp',
3694: 'vpncpp',
3695: 'bmc-data-coll',
3696: 'telnetcpcd',
3697: 'nw-license',
3698: 'sagectlpanel',
3699: 'kpn-icw',
3700: 'lrs-paging',
3701: 'netcelera',
3702: 'upnp-discovery',
3703: 'adobeserver-3',
3704: 'adobeserver-4',
3705: 'adobeserver-5',
3706: 'rt-event',
3707: 'rt-event-s',
3708: 'sun-as-iiops',
3709: 'ca-idms',
3710: 'portgate-auth',
3711: 'edb-server2',
3712: 'sentinel-ent',
3713: 'tftps',
3714: 'delos-dms',
3715: 'anoto-rendezv',
3716: 'wv-csp-sms-cir',
3717: 'wv-csp-udp-cir',
3718: 'opus-services',
3719: 'itelserverport',
3720: 'ufastro-instr',
3721: 'xsync',
3722: 'xserveraid',
3723: 'sychrond',
3724: 'battlenet',
3725: 'na-er-tip',
3726: 'array-manager',
3727: 'e-mdu',
3728: 'e-woa',
3729: 'fksp-audit',
3730: 'client-ctrl',
3731: 'smap',
3732: 'm-wnn',
3733: 'multip-msg',
3734: 'synel-data',
3735: 'pwdis',
3736: 'rs-rmi',
3738: 'versatalk',
3739: 'launchbird-lm',
3740: 'heartbeat',
3741: 'wysdma',
3742: 'cst-port',
3743: 'ipcs-command',
3744: 'sasg',
3745: 'gw-call-port',
3746: 'linktest',
3747: 'linktest-s',
3748: 'webdata',
3749: 'cimtrak',
3750: 'cbos-ip-port',
3751: 'gprs-cube',
3752: 'vipremoteagent',
3753: 'nattyserver',
3754: 'timestenbroker',
3755: 'sas-remote-hlp',
3756: 'canon-capt',
3757: 'grf-port',
3758: 'apw-registry',
3759: 'exapt-lmgr',
3760: 'adtempusclient',
3761: 'gsakmp',
3762: 'gbs-smp',
3763: 'xo-wave',
3764: 'mni-prot-rout',
3765: 'rtraceroute',
3767: 'listmgr-port',
3768: 'rblcheckd',
3769: 'haipe-otnk',
3770: 'cindycollab',
3771: 'paging-port',
3772: 'ctp',
3773: 'ctdhercules',
3774: 'zicom',
3775: 'ispmmgr',
3776: 'dvcprov-port',
3777: 'jibe-eb',
3778: 'c-h-it-port',
3779: 'cognima',
3780: 'nnp',
3781: 'abcvoice-port',
3782: 'iso-tp0s',
3783: 'bim-pem',
3784: 'bfd-control',
3785: 'bfd-echo',
3786: 'upstriggervsw',
3787: 'fintrx',
3788: 'isrp-port',
3789: 'remotedeploy',
3790: 'quickbooksrds',
3791: 'tvnetworkvideo',
3792: 'sitewatch',
3793: 'dcsoftware',
3794: 'jaus',
3795: 'myblast',
3796: 'spw-dialer',
3797: 'idps',
3798: 'minilock',
3799: 'radius-dynauth',
3800: 'pwgpsi',
3801: 'ibm-mgr',
3802: 'vhd',
3803: 'soniqsync',
3804: 'iqnet-port',
3805: 'tcpdataserver',
3806: 'wsmlb',
3807: 'spugna',
3808: 'sun-as-iiops-ca',
3809: 'apocd',
3810: 'wlanauth',
3811: 'amp',
3812: 'neto-wol-server',
3813: 'rap-ip',
3814: 'neto-dcs',
3815: 'lansurveyorxml',
3816: 'sunlps-http',
3817: 'tapeware',
3818: 'crinis-hb',
3819: 'epl-slp',
3820: 'scp',
3821: 'pmcp',
3822: 'acp-discovery',
3823: 'acp-conduit',
3824: 'acp-policy',
3831: 'dvapps',
3832: 'xxnetserver',
3833: 'aipn-auth',
3834: 'spectardata',
3835: 'spectardb',
3836: 'markem-dcp',
3837: 'mkm-discovery',
3838: 'sos',
3839: 'amx-rms',
3840: 'flirtmitmir',
3841: 'zfirm-shiprush3',
3842: 'nhci',
3843: 'quest-agent',
3844: 'rnm',
3845: 'v-one-spp',
3846: 'an-pcp',
3847: 'msfw-control',
3848: 'item',
3849: 'spw-dnspreload',
3850: 'qtms-bootstrap',
3851: 'spectraport',
3852: 'sse-app-config',
3853: 'sscan',
3854: 'stryker-com',
3855: 'opentrac',
3856: 'informer',
3857: 'trap-port',
3858: 'trap-port-mom',
3859: 'nav-port',
3860: 'sasp',
3861: 'winshadow-hd',
3862: 'giga-pocket',
3863: 'asap-udp',
3864: 'asap-tcp-tls',
3865: 'xpl',
3866: 'dzdaemon',
3867: 'dzoglserver',
3868: 'diameter',
3869: 'ovsam-mgmt',
3870: 'ovsam-d-agent',
3871: 'avocent-adsap',
3872: 'oem-agent',
3873: 'fagordnc',
3874: 'sixxsconfig',
3875: 'pnbscada',
3876: 'dl_agent',
3877: 'xmpcr-interface',
3878: 'fotogcad',
3879: 'appss-lm',
3880: 'igrs',
3881: 'idac',
3882: 'msdts1',
3883: 'vrpn',
3884: 'softrack-meter',
3885: 'topflow-ssl',
3886: 'nei-management',
3887: 'ciphire-data',
3888: 'ciphire-serv',
3889: 'dandv-tester',
3890: 'ndsconnect',
3891: 'rtc-pm-port',
3892: 'pcc-image-port',
3893: 'cgi-starapi',
3894: 'syam-agent',
3895: 'syam-smc',
3896: 'sdo-tls',
3897: 'sdo-ssh',
3898: 'senip',
3899: 'itv-control',
3900: 'udt_os',
3901: 'nimsh',
3902: 'nimaux',
3903: 'charsetmgr',
3904: 'omnilink-port',
3905: 'mupdate',
3906: 'topovista-data',
3907: 'imoguia-port',
3908: 'hppronetman',
3909: 'surfcontrolcpa',
3910: 'prnrequest',
3911: 'prnstatus',
3912: 'gbmt-stars',
3913: 'listcrt-port',
3914: 'listcrt-port-2',
3915: 'agcat',
3916: 'wysdmc',
3917: 'aftmux',
3918: 'pktcablemmcops',
3919: 'hyperip',
3920: 'exasoftport1',
3921: 'herodotus-net',
3922: 'sor-update',
3923: 'symb-sb-port',
3924: 'mpl-gprs-port',
3925: 'zmp',
3926: 'winport',
3927: 'natdataservice',
3928: 'netboot-pxe',
3929: 'smauth-port',
3930: 'syam-webserver',
3931: 'msr-plugin-port',
3932: 'dyn-site',
3933: 'plbserve-port',
3934: 'sunfm-port',
3935: 'sdp-portmapper',
3936: 'mailprox',
3937: 'dvbservdscport',
3938: 'dbcontrol_agent',
3939: 'aamp',
3940: 'xecp-node',
3941: 'homeportal-web',
3942: 'srdp',
3943: 'tig',
3944: 'sops',
3945: 'emcads',
3946: 'backupedge',
3947: 'ccp',
3948: 'apdap',
3949: 'drip',
3950: 'namemunge',
3951: 'pwgippfax',
3952: 'i3-sessionmgr',
3953: 'xmlink-connect',
3954: 'adrep',
3955: 'p2pcommunity',
3956: 'gvcp',
3957: 'mqe-broker',
3958: 'mqe-agent',
3959: 'treehopper',
3960: 'bess',
3961: 'proaxess',
3962: 'sbi-agent',
3963: 'thrp',
3964: 'sasggprs',
3965: 'ati-ip-to-ncpe',
3966: 'bflckmgr',
3967: 'ppsms',
3968: 'ianywhere-dbns',
3969: 'landmarks',
3970: 'lanrevagent',
3971: 'lanrevserver',
3972: 'iconp',
3973: 'progistics',
3974: 'citysearch',
3975: 'airshot',
3976: 'opswagent',
3977: 'opswmanager',
3978: 'secure-cfg-svr',
3979: 'smwan',
3980: 'acms',
3981: 'starfish',
3982: 'eis',
3983: 'eisp',
3984: 'mapper-nodemgr',
3985: 'mapper-mapethd',
3986: 'mapper-ws_ethd',
3987: 'centerline',
3988: 'dcs-config',
3989: 'bv-queryengine',
3990: 'bv-is',
3991: 'bv-smcsrv',
3992: 'bv-ds',
3993: 'bv-agent',
3994: 'objserver',
3995: 'iss-mgmt-ssl',
3996: 'abscoftware',
3997: 'agentsease-db',
4000: 'terabase',
4001: 'newoak',
4002: 'pxc-spvr-ft',
4003: 'pxc-splr-ft',
4004: 'pxc-roid',
4005: 'pxc-pin',
4006: 'pxc-spvr',
4007: 'pxc-splr',
4008: 'netcheque',
4009: 'chimera-hwm',
4010: 'samsung-unidex',
4011: 'altserviceboot',
4012: 'pda-gate',
4013: 'acl-manager',
4014: 'taiclock',
4015: 'talarian-mcast1',
4016: 'talarian-mcast2',
4017: 'talarian-mcast3',
4018: 'talarian-mcast4',
4019: 'talarian-mcast5',
4020: 'trap',
4021: 'nexus-portal',
4022: 'dnox',
4023: 'esnm-zoning',
4024: 'tnp1-port',
4025: 'partimage',
4026: 'as-debug',
4027: 'bxp',
4028: 'dtserver-port',
4029: 'ip-qsig',
4030: 'jdmn-port',
4031: 'suucp',
4032: 'vrts-auth-port',
4033: 'sanavigator',
4034: 'ubxd',
4035: 'wap-push-http',
4036: 'wap-push-https',
4037: 'ravehd',
4038: 'fazzt-ptp',
4039: 'fazzt-admin',
4040: 'yo-main',
4041: 'houston',
4042: 'ldxp',
4043: 'nirp',
4044: 'ltp',
4045: 'npp',
4046: 'acp-proto',
4047: 'ctp-state',
4048: 'objadmin',
4049: 'wafs',
4050: 'cisco-wafs',
4051: 'cppdp',
4052: 'interact',
4053: 'ccu-comm-1',
4054: 'ccu-comm-2',
4055: 'ccu-comm-3',
4056: 'lms',
4057: 'wfm',
4058: 'kingfisher',
4059: 'dlms-cosem',
4060: 'dsmeter_iatc',
4061: 'ice-location',
4062: 'ice-slocation',
4063: 'ice-router',
4064: 'ice-srouter',
4089: 'opencore',
4090: 'omasgport',
4091: 'ewinstaller',
4092: 'ewdgs',
4093: 'pvxpluscs',
4094: 'sysrqd',
4095: 'xtgui',
4096: 'bre',
4097: 'patrolview',
4098: 'drmsfsd',
4099: 'dpcp',
4100: 'igo-incognito',
4101: 'brlp-0',
4102: 'brlp-1',
4103: 'brlp-2',
4104: 'brlp-3',
4105: 'shofarplayer',
4106: 'synchronite',
4107: 'j-ac',
4108: 'accel',
4111: 'xgrid',
4112: 'apple-vpns-rp',
4113: 'aipn-reg',
4114: 'jomamqmonitor',
4115: 'cds',
4116: 'smartcard-tls',
4117: 'xmlivestream',
4118: 'netscript',
4119: 'assuria-slm',
4120: 'xtreamx',
4121: 'e-builder',
4122: 'fprams',
4132: 'nuts_dem',
4133: 'nuts_bootp',
4134: 'nifty-hmi',
4135: 'cl-db-attach',
4136: 'cl-db-request',
4137: 'cl-db-remote',
4138: 'nettest',
4139: 'thrtx',
4140: 'cedros_fds',
4141: 'oirtgsvc',
4142: 'oidocsvc',
4143: 'oidsr',
4145: 'vvr-control',
4146: 'tgcconnect',
4147: 'vrxpservman',
4154: 'atlinks',
4159: 'nss',
4160: 'jini-discovery',
4161: 'omscontact',
4162: 'omstopology',
4190: 'sieve',
4199: 'eims-admin',
4300: 'corelccam',
4301: 'd-data',
4302: 'd-data-control',
4320: 'fdt-rcatp',
4321: 'rwhois',
4325: 'geognosisman',
4326: 'geognosis',
4343: 'unicall',
4344: 'vinainstall',
4345: 'm4-network-as',
4346: 'elanlm',
4347: 'lansurveyor',
4348: 'itose',
4349: 'fsportmap',
4350: 'net-device',
4351: 'plcy-net-svcs',
4352: 'pjlink',
4353: 'f5-iquery',
4354: 'qsnet-trans',
4355: 'qsnet-workst',
4356: 'qsnet-assist',
4357: 'qsnet-cond',
4358: 'qsnet-nucl',
4368: 'wxbrief',
4369: 'epmd',
4400: 'ds-srv',
4401: 'ds-srvr',
4402: 'ds-clnt',
4403: 'ds-user',
4404: 'ds-admin',
4405: 'ds-mail',
4406: 'ds-slp',
4426: 'beacon-port-2',
4442: 'saris',
4443: 'pharos',
4444: 'nv-video',
4445: 'upnotifyp',
4446: 'n1-fwp',
4447: 'n1-rmgmt',
4448: 'asc-slmd',
4449: 'privatewire',
4450: 'camp',
4451: 'ctisystemmsg',
4452: 'ctiprogramload',
4453: 'nssalertmgr',
4454: 'nssagentmgr',
4455: 'prchat-user',
4456: 'prchat-server',
4457: 'prRegister',
4458: 'mcp',
4484: 'hpssmgmt',
4500: 'ipsec-msft',
4535: 'ehs',
4536: 'ehs-ssl',
4537: 'wssauthsvc',
4538: 'isigate',
4545: 'worldscores',
4546: 'sf-lm',
4547: 'lanner-lm',
4548: 'synchromesh',
4549: 'aegate',
4550: 'gds-adppiw-db',
4554: 'msfrs',
4555: 'rsip',
4556: 'dtn-bundle-udp',
4559: 'hylafax',
4566: 'kwtc',
4567: 'tram',
4568: 'bmc-reporting',
4569: 'iax',
4597: 'a21-an-1xbs',
4598: 'a16-an-an',
4599: 'a17-an-an',
4600: 'piranha1',
4601: 'piranha2',
4658: 'playsta2-app',
4659: 'playsta2-lob',
4660: 'smaclmgr',
4661: 'kar2ouche',
4662: 'oms',
4663: 'noteit',
4664: 'ems',
4665: 'contclientms',
4666: 'eportcomm',
4667: 'mmacomm',
4668: 'mmaeds',
4669: 'eportcommdata',
4670: 'light',
4671: 'acter',
4672: 'rfa',
4673: 'cxws',
4674: 'appiq-mgmt',
4675: 'dhct-status',
4676: 'dhct-alerts',
4677: 'bcs',
4678: 'traversal',
4679: 'mgesupervision',
4680: 'mgemanagement',
4681: 'parliant',
4682: 'finisar',
4683: 'spike',
4684: 'rfid-rp1',
4685: 'autopac',
4686: 'msp-os',
4687: 'nst',
4688: 'mobile-p2p',
4689: 'altovacentral',
4690: 'prelude',
4691: 'monotone',
4692: 'conspiracy',
4700: 'netxms-agent',
4701: 'netxms-mgmt',
4702: 'netxms-sync',
4728: 'capmux',
4737: 'ipdr-sp',
4738: 'solera-lpn',
4739: 'ipfix',
4740: 'ipfixs',
4742: 'sicct-sdp',
4743: 'openhpid',
4749: 'profilemac',
4750: 'ssad',
4751: 'spocp',
4752: 'snap',
4784: 'bfd-multi-ctl',
4800: 'iims',
4801: 'iwec',
4802: 'ilss',
4827: 'htcp',
4837: 'varadero-0',
4838: 'varadero-1',
4839: 'varadero-2',
4840: 'opcua-udp',
4841: 'quosa',
4842: 'gw-asv',
4843: 'opcua-tls',
4844: 'gw-log',
4848: 'appserv-http',
4849: 'appserv-https',
4850: 'sun-as-nodeagt',
4867: 'unify-debug',
4868: 'phrelay',
4869: 'phrelaydbg',
4870: 'cc-tracking',
4871: 'wired',
4885: 'abbs',
4894: 'lyskom',
4899: 'radmin-port',
4900: 'hfcs',
4949: 'munin',
4951: 'pwgwims',
4952: 'sagxtsds',
4969: 'ccss-qmm',
4970: 'ccss-qsm',
4983: 'att-intercom',
4986: 'mrip',
4987: 'smar-se-port1',
4988: 'smar-se-port2',
4989: 'parallel',
4999: 'hfcs-manager',
5000: 'commplex-main',
5001: 'commplex-link',
5002: 'rfe',
5003: 'fmpro-internal',
5004: 'avt-profile-1',
5005: 'avt-profile-2',
5006: 'wsm-server',
5007: 'wsm-server-ssl',
5008: 'synapsis-edge',
5009: 'winfs',
5010: 'telelpathstart',
5011: 'telelpathattack',
5020: 'zenginkyo-1',
5021: 'zenginkyo-2',
5022: 'mice',
5023: 'htuilsrv',
5024: 'scpi-telnet',
5025: 'scpi-raw',
5026: 'strexec-d',
5027: 'strexec-s',
5030: 'surfpass',
5042: 'asnaacceler8db',
5043: 'swxadmin',
5044: 'lxi-evntsvc',
5049: 'ivocalize',
5050: 'mmcc',
5051: 'ita-agent',
5052: 'ita-manager',
5055: 'unot',
5056: 'intecom-ps1',
5057: 'intecom-ps2',
5059: 'sds',
5060: 'sip',
5061: 'sip-tls',
5064: 'ca-1',
5065: 'ca-2',
5066: 'stanag-5066',
5067: 'authentx',
5069: 'i-net-2000-npr',
5070: 'vtsas',
5071: 'powerschool',
5072: 'ayiya',
5073: 'tag-pm',
5074: 'alesquery',
5081: 'sdl-ets',
5084: 'llrp',
5085: 'encrypted-llrp',
5093: 'sentinel-lm',
5099: 'sentlm-srv2srv',
5100: 'socalia',
5101: 'talarian-tcp',
5102: 'oms-nonsecure',
5112: 'pm-cmdsvr',
5133: 'nbt-pc',
5137: 'ctsd',
5145: 'rmonitor_secure',
5150: 'atmp',
5151: 'esri_sde',
5152: 'sde-discovery',
5154: 'bzflag',
5155: 'asctrl-agent',
5165: 'ife_icorp',
5166: 'winpcs',
5167: 'scte104',
5168: 'scte30',
5190: 'aol',
5191: 'aol-1',
5192: 'aol-2',
5193: 'aol-3',
5200: 'targus-getdata',
5201: 'targus-getdata1',
5202: 'targus-getdata2',
5203: 'targus-getdata3',
5222: 'jabber-client',
5225: 'hp-server',
5226: 'hp-status',
5234: 'eenet',
5236: 'padl2sim',
5250: 'igateway',
5251: 'caevms',
5252: 'movaz-ssc',
5264: '3com-njack-1',
5265: '3com-njack-2',
5269: 'jabber-server',
5272: 'pk',
5282: 'transmit-port',
5300: 'hacl-hb',
5301: 'hacl-gs',
5302: 'hacl-cfg',
5303: 'hacl-probe',
5304: 'hacl-local',
5305: 'hacl-test',
5306: 'sun-mc-grp',
5307: 'sco-aip',
5308: 'cfengine',
5309: 'jprinter',
5310: 'outlaws',
5312: 'permabit-cs',
5313: 'rrdp',
5314: 'opalis-rbt-ipc',
5315: 'hacl-poll',
5343: 'kfserver',
5344: 'xkotodrcp',
5351: 'nat-pmp',
5352: 'dns-llq',
5353: 'mdns',
5354: 'mdnsresponder',
5355: 'llmnr',
5356: 'ms-smlbiz',
5357: 'wsdapi',
5358: 'wsdapi-s',
5397: 'stresstester',
5398: 'elektron-admin',
5399: 'securitychase',
5400: 'excerpt',
5401: 'excerpts',
5402: 'mftp',
5403: 'hpoms-ci-lstn',
5404: 'hpoms-dps-lstn',
5405: 'netsupport',
5406: 'systemics-sox',
5407: 'foresyte-clear',
5408: 'foresyte-sec',
5409: 'salient-dtasrv',
5410: 'salient-usrmgr',
5411: 'actnet',
5412: 'continuus',
5413: 'wwiotalk',
5414: 'statusd',
5415: 'ns-server',
5416: 'sns-gateway',
5417: 'sns-agent',
5418: 'mcntp',
5419: 'dj-ice',
5420: 'cylink-c',
5421: 'netsupport2',
5422: 'salient-mux',
5423: 'virtualuser',
5424: 'beyond-remote',
5425: 'br-channel',
5426: 'devbasic',
5427: 'sco-peer-tta',
5428: 'telaconsole',
5429: 'base',
5430: 'radec-corp',
5431: 'park-agent',
5432: 'postgresql',
5433: 'pyrrho',
5434: 'sgi-arrayd',
5435: 'dttl',
5453: 'surebox',
5454: 'apc-5454',
5455: 'apc-5455',
5456: 'apc-5456',
5461: 'silkmeter',
5462: 'ttl-publisher',
5463: 'ttlpriceproxy',
5464: 'quailnet',
5465: 'netops-broker',
5500: 'fcp-addr-srvr1',
5501: 'fcp-addr-srvr2',
5502: 'fcp-srvr-inst1',
5503: 'fcp-srvr-inst2',
5504: 'fcp-cics-gw1',
5553: 'sgi-eventmond',
5554: 'sgi-esphttp',
5555: 'personal-agent',
5556: 'freeciv',
5566: 'udpplus',
5567: 'm-oap',
5568: 'sdt',
5580: 'tmosms0',
5581: 'tmosms1',
5584: 'bis-web',
5585: 'bis-sync',
5597: 'ininmessaging',
5598: 'mctfeed',
5599: 'esinstall',
5600: 'esmmanager',
5601: 'esmagent',
5602: 'a1-msc',
5603: 'a1-bs',
5604: 'a3-sdunode',
5605: 'a4-sdunode',
5627: 'ninaf',
5629: 'symantec-sfdb',
5630: 'precise-comm',
5631: 'pcanywheredata',
5632: 'pcanywherestat',
5633: 'beorl',
5672: 'amqp',
5673: 'jms',
5674: 'hyperscsi-port',
5675: 'v5ua',
5676: 'raadmin',
5677: 'questdb2-lnchr',
5678: 'rrac',
5679: 'dccm',
5680: 'auriga-router',
5681: 'ncxcp',
5688: 'ggz',
5689: 'qmvideo',
5713: 'proshareaudio',
5714: 'prosharevideo',
5715: 'prosharedata',
5716: 'prosharerequest',
5717: 'prosharenotify',
5718: 'dpm',
5719: 'dpm-agent',
5720: 'ms-licensing',
5721: 'dtpt',
5722: 'msdfsr',
5723: 'omhs',
5724: 'omsdk',
5729: 'openmail',
5730: 'unieng',
5741: 'ida-discover1',
5742: 'ida-discover2',
5743: 'watchdoc-pod',
5744: 'watchdoc',
5745: 'fcopy-server',
5746: 'fcopys-server',
5747: 'tunatic',
5748: 'tunalyzer',
5755: 'openmailg',
5757: 'x500ms',
5766: 'openmailns',
5767: 's-openmail',
5768: 'openmailpxy',
5769: 'spramsca',
5770: 'spramsd',
5771: 'netagent',
5777: 'dali-port',
5813: 'icmpd',
5814: 'spt-automation',
5859: 'wherehoo',
5863: 'ppsuitemsg',
5900: 'rfb',
5963: 'indy',
5968: 'mppolicy-v5',
5969: 'mppolicy-mgr',
5985: 'wsman',
5986: 'wsmans',
5987: 'wbem-rmi',
5988: 'wbem-http',
5989: 'wbem-https',
5990: 'wbem-exp-https',
5991: 'nuxsl',
5992: 'consul-insight',
5999: 'cvsup',
6064: 'ndl-ahp-svc',
6065: 'winpharaoh',
6066: 'ewctsp',
6067: 'srb',
6068: 'gsmp',
6069: 'trip',
6070: 'messageasap',
6071: 'ssdtp',
6072: 'diagnose-proc',
6073: 'directplay8',
6074: 'max',
6085: 'konspire2b',
6086: 'pdtp',
6087: 'ldss',
6100: 'synchronet-db',
6101: 'synchronet-rtc',
6102: 'synchronet-upd',
6103: 'rets',
6104: 'dbdb',
6105: 'primaserver',
6106: 'mpsserver',
6107: 'etc-control',
6108: 'sercomm-scadmin',
6109: 'globecast-id',
6110: 'softcm',
6111: 'spc',
6112: 'dtspcd',
6122: 'bex-webadmin',
6123: 'backup-express',
6133: 'nbt-wol',
6141: 'meta-corp',
6142: 'aspentec-lm',
6143: 'watershed-lm',
6144: 'statsci1-lm',
6145: 'statsci2-lm',
6146: 'lonewolf-lm',
6147: 'montage-lm',
6148: 'ricardo-lm',
6149: 'tal-pod',
6161: 'patrol-ism',
6162: 'patrol-coll',
6163: 'pscribe',
6200: 'lm-x',
6222: 'radmind',
6253: 'crip',
6268: 'grid',
6269: 'grid-alt',
6300: 'bmc-grx',
6301: 'bmc_ctd_ldap',
6320: 'repsvc',
6321: 'emp-server1',
6322: 'emp-server2',
6343: 'sflow',
6346: 'gnutella-svc',
6347: 'gnutella-rtr',
6382: 'metatude-mds',
6389: 'clariion-evr01',
6417: 'faxcomservice',
6420: 'nim-vdrshell',
6421: 'nim-wan',
6443: 'sun-sr-https',
6444: 'sge_qmaster',
6445: 'sge_execd',
6455: 'skip-cert-recv',
6456: 'skip-cert-send',
6471: 'lvision-lm',
6480: 'sun-sr-http',
6484: 'sun-sr-jms',
6485: 'sun-sr-iiop',
6486: 'sun-sr-iiops',
6487: 'sun-sr-iiop-aut',
6488: 'sun-sr-jmx',
6489: 'sun-sr-admin',
6500: 'boks',
6501: 'boks_servc',
6502: 'boks_servm',
6503: 'boks_clntd',
6505: 'badm_priv',
6506: 'badm_pub',
6507: 'bdir_priv',
6508: 'bdir_pub',
6509: 'mgcs-mfp-port',
6510: 'mcer-port',
6543: 'lds-distrib',
6544: 'lds-dump',
6547: 'apc-6547',
6548: 'apc-6548',
6549: 'apc-6549',
6550: 'fg-sysupdate',
6558: 'xdsxdm',
6566: 'sane-port',
6579: 'affiliate',
6580: 'parsec-master',
6581: 'parsec-peer',
6582: 'parsec-game',
6583: 'joaJewelSuite',
6619: 'odette-ftps',
6620: 'kftp-data',
6621: 'kftp',
6622: 'mcftp',
6623: 'ktelnet',
6626: 'wago-service',
6627: 'nexgen',
6628: 'afesc-mc',
6631: 'mach',
6670: 'vocaltec-gold',
6672: 'vision_server',
6673: 'vision_elmd',
6701: 'kti-icad-srvr',
6702: 'e-design-net',
6703: 'e-design-web',
6714: 'ibprotocol',
6715: 'fibotrader-com',
6767: 'bmc-perf-agent',
6768: 'bmc-perf-mgrd',
6769: 'adi-gxp-srvprt',
6770: 'plysrv-http',
6771: 'plysrv-https',
6785: 'dgpf-exchg',
6786: 'smc-jmx',
6787: 'smc-admin',
6788: 'smc-http',
6789: 'smc-https',
6790: 'hnmp',
6791: 'hnm',
6831: 'ambit-lm',
6841: 'netmo-default',
6842: 'netmo-http',
6850: 'iccrushmore',
6888: 'muse',
6936: 'xsmsvc',
6946: 'bioserver',
6951: 'otlp',
6961: 'jmact3',
6962: 'jmevt2',
6963: 'swismgr1',
6964: 'swismgr2',
6965: 'swistrap',
6966: 'swispol',
6969: 'acmsoda',
6998: 'iatp-highpri',
6999: 'iatp-normalpri',
7000: 'afs3-fileserver',
7001: 'afs3-callback',
7002: 'afs3-prserver',
7003: 'afs3-vlserver',
7004: 'afs3-kaserver',
7005: 'afs3-volser',
7006: 'afs3-errors',
7007: 'afs3-bos',
7008: 'afs3-update',
7009: 'afs3-rmtsys',
7010: 'ups-onlinet',
7011: 'talon-disc',
7012: 'talon-engine',
7013: 'microtalon-dis',
7014: 'microtalon-com',
7015: 'talon-webserver',
7020: 'dpserve',
7021: 'dpserveadmin',
7022: 'ctdp',
7023: 'ct2nmcs',
7024: 'vmsvc',
7025: 'vmsvc-2',
7030: 'op-probe',
7070: 'arcp',
7099: 'lazy-ptop',
7100: 'font-service',
7121: 'virprot-lm',
7128: 'scenidm',
7129: 'scenccs',
7161: 'cabsm-comm',
7162: 'caistoragemgr',
7163: 'cacsambroker',
7174: 'clutild',
7200: 'fodms',
7201: 'dlip',
7227: 'ramp',
7272: 'watchme-7272',
7273: 'oma-rlp',
7274: 'oma-rlp-s',
7275: 'oma-ulp',
7280: 'itactionserver1',
7281: 'itactionserver2',
7365: 'lcm-server',
7391: 'mindfilesys',
7392: 'mrssrendezvous',
7393: 'nfoldman',
7394: 'fse',
7395: 'winqedit',
7397: 'hexarc',
7400: 'rtps-discovery',
7401: 'rtps-dd-ut',
7402: 'rtps-dd-mt',
7410: 'ionixnetmon',
7421: 'mtportmon',
7426: 'pmdmgr',
7427: 'oveadmgr',
7428: 'ovladmgr',
7429: 'opi-sock',
7430: 'xmpv7',
7431: 'pmd',
7437: 'faximum',
7443: 'oracleas-https',
7491: 'telops-lmd',
7500: 'silhouette',
7501: 'ovbus',
7510: 'ovhpas',
7511: 'pafec-lm',
7543: 'atul',
7544: 'nta-ds',
7545: 'nta-us',
7546: 'cfs',
7547: 'cwmp',
7548: 'tidp',
7549: 'nls-tl',
7560: 'sncp',
7566: 'vsi-omega',
7570: 'aries-kfinder',
7588: 'sun-lm',
7624: 'indi',
7626: 'simco',
7627: 'soap-http',
7628: 'zen-pawn',
7629: 'xdas',
7633: 'pmdfmgt',
7648: 'cuseeme',
7674: 'imqtunnels',
7675: 'imqtunnel',
7676: 'imqbrokerd',
7677: 'sun-user-https',
7697: 'klio',
7707: 'sync-em7',
7708: 'scinet',
7720: 'medimageportal',
7725: 'nitrogen',
7726: 'freezexservice',
7727: 'trident-data',
7738: 'aiagent',
7743: 'sstp-1',
7744: 'raqmon-pdu',
7777: 'cbt',
7778: 'interwise',
7779: 'vstat',
7781: 'accu-lmgr',
7786: 'minivend',
7787: 'popup-reminders',
7789: 'office-tools',
7794: 'q3ade',
7797: 'pnet-conn',
7798: 'pnet-enc',
7800: 'asr',
7801: 'ssp-client',
7845: 'apc-7845',
7846: 'apc-7846',
7887: 'ubroker',
7900: 'mevent',
7901: 'tnos-sp',
7902: 'tnos-dp',
7903: 'tnos-dps',
7913: 'qo-secure',
7932: 't2-drm',
7933: 't2-brm',
7967: 'supercell',
7979: 'micromuse-ncps',
7980: 'quest-vista',
7999: 'irdmi2',
8000: 'irdmi',
8001: 'vcom-tunnel',
8002: 'teradataordbms',
8008: 'http-alt',
8020: 'intu-ec-svcdisc',
8021: 'intu-ec-client',
8022: 'oa-system',
8025: 'ca-audit-da',
8026: 'ca-audit-ds',
8032: 'pro-ed',
8033: 'mindprint',
8052: 'senomix01',
8053: 'senomix02',
8054: 'senomix03',
8055: 'senomix04',
8056: 'senomix05',
8057: 'senomix06',
8058: 'senomix07',
8059: 'senomix08',
8074: 'gadugadu',
8080: 'http-alt',
8081: 'sunproxyadmin',
8082: 'us-cli',
8083: 'us-srv',
8088: 'radan-http',
8097: 'sac',
8100: 'xprint-server',
8115: 'mtl8000-matrix',
8116: 'cp-cluster',
8118: 'privoxy',
8121: 'apollo-data',
8122: 'apollo-admin',
8128: 'paycash-online',
8129: 'paycash-wbp',
8130: 'indigo-vrmi',
8131: 'indigo-vbcp',
8132: 'dbabble',
8148: 'isdd',
8160: 'patrol',
8161: 'patrol-snmp',
8192: 'spytechphone',
8194: 'blp1',
8195: 'blp2',
8199: 'vvr-data',
8200: 'trivnet1',
8201: 'trivnet2',
8204: 'lm-perfworks',
8205: 'lm-instmgr',
8206: 'lm-dta',
8207: 'lm-sserver',
8208: 'lm-webwatcher',
8230: 'rexecj',
8292: 'blp3',
8294: 'blp4',
8300: 'tmi',
8301: 'amberon',
8351: 'server-find',
8376: 'cruise-enum',
8377: 'cruise-swroute',
8378: 'cruise-config',
8379: 'cruise-diags',
8380: 'cruise-update',
8383: 'm2mservices',
8400: 'cvd',
8401: 'sabarsd',
8402: 'abarsd',
8403: 'admind',
8416: 'espeech',
8417: 'espeech-rtp',
8443: 'pcsync-https',
8444: 'pcsync-http',
8450: 'npmp',
8473: 'vp2p',
8474: 'noteshare',
8500: 'fmtp',
8554: 'rtsp-alt',
8555: 'd-fence',
8668: 'natd',
8567: 'oap-admin',
8600: 'asterix',
8611: 'canon-bjnp1',
8612: 'canon-bjnp2',
8613: 'canon-bjnp3',
8614: 'canon-bjnp4',
8686: 'sun-as-jmxrmi',
8699: 'vnyx',
8733: 'ibus',
8763: 'mc-appserver',
8764: 'openqueue',
8765: 'ultraseek-http',
8770: 'dpap',
8786: 'msgclnt',
8787: 'msgsrvr',
8800: 'sunwebadmin',
8804: 'truecm',
8873: 'dxspider',
8880: 'cddbp-alt',
8888: 'ddi-tcp-1',
8889: 'ddi-tcp-2',
8890: 'ddi-tcp-3',
8891: 'ddi-tcp-4',
8892: 'ddi-tcp-5',
8893: 'ddi-tcp-6',
8894: 'ddi-tcp-7',
8900: 'jmb-cds1',
8901: 'jmb-cds2',
8910: 'manyone-http',
8911: 'manyone-xml',
8912: 'wcbackup',
8913: 'dragonfly',
8954: 'cumulus-admin',
8989: 'sunwebadmins',
8999: 'bctp',
9000: 'cslistener',
9001: 'etlservicemgr',
9002: 'dynamid',
9009: 'pichat',
9020: 'tambora',
9021: 'panagolin-ident',
9022: 'paragent',
9023: 'swa-1',
9024: 'swa-2',
9025: 'swa-3',
9026: 'swa-4',
9080: 'glrpc',
9088: 'sqlexec',
9089: 'sqlexec-ssl',
9090: 'websm',
9091: 'xmltec-xmlmail',
9092: 'XmlIpcRegSvc',
9100: 'pdl-datastream',
9101: 'bacula-dir',
9102: 'bacula-fd',
9103: 'bacula-sd',
9104: 'peerwire',
9119: 'mxit',
9131: 'dddp',
9160: 'netlock1',
9161: 'netlock2',
9162: 'netlock3',
9163: 'netlock4',
9164: 'netlock5',
9191: 'sun-as-jpda',
9200: 'wap-wsp',
9201: 'wap-wsp-wtp',
9202: 'wap-wsp-s',
9203: 'wap-wsp-wtp-s',
9204: 'wap-vcard',
9205: 'wap-vcal',
9206: 'wap-vcard-s',
9207: 'wap-vcal-s',
9208: 'rjcdb-vcards',
9209: 'almobile-system',
9210: 'lif-mlp',
9211: 'lif-mlp-s',
9212: 'serverviewdbms',
9213: 'serverstart',
9214: 'ipdcesgbs',
9215: 'insis',
9216: 'acme',
9217: 'fsc-port',
9222: 'teamcoherence',
9281: 'swtp-port1',
9282: 'swtp-port2',
9283: 'callwaveiam',
9284: 'visd',
9285: 'n2h2server',
9287: 'cumulus',
9292: 'armtechdaemon',
9293: 'storview',
9294: 'armcenterhttp',
9295: 'armcenterhttps',
9300: 'vrace',
9318: 'secure-ts',
9321: 'guibase',
9343: 'mpidcmgr',
9344: 'mphlpdmc',
9346: 'ctechlicensing',
9374: 'fjdmimgr',
9396: 'fjinvmgr',
9397: 'mpidcagt',
9418: 'git',
9443: 'tungsten-https',
9500: 'ismserver',
9535: 'mngsuite',
9555: 'trispen-sra',
9592: 'ldgateway',
9593: 'cba8',
9594: 'msgsys',
9595: 'pds',
9596: 'mercury-disc',
9597: 'pd-admin',
9598: 'vscp',
9599: 'robix',
9600: 'micromuse-ncpw',
9612: 'streamcomm-ds',
9700: 'board-roar',
9747: 'l5nas-parchan',
9750: 'board-voip',
9753: 'rasadv',
9762: 'tungsten-http',
9800: 'davsrc',
9801: 'sstp-2',
9802: 'davsrcs',
9875: 'sapv1',
9876: 'sd',
9888: 'cyborg-systems',
9898: 'monkeycom',
9899: 'sctp-tunneling',
9900: 'iua',
9901: 'enrp',
9909: 'domaintime',
9911: 'sype-transport',
9950: 'apc-9950',
9951: 'apc-9951',
9952: 'apc-9952',
9953: 'acis',
9966: 'odnsp',
9987: 'dsm-scm-target',
9990: 'osm-appsrvr',
9991: 'osm-oev',
9992: 'palace-1',
9993: 'palace-2',
9994: 'palace-3',
9995: 'palace-4',
9996: 'palace-5',
9997: 'palace-6',
9998: 'distinct32',
9999: 'distinct',
10000: 'ndmp',
10001: 'scp-config',
10007: 'mvs-capacity',
10008: 'octopus',
10009: 'swdtp-sv',
10050: 'zabbix-agent',
10051: 'zabbix-trapper',
10080: 'amanda',
10081: 'famdc',
10100: 'itap-ddtp',
10101: 'ezmeeting-2',
10102: 'ezproxy-2',
10103: 'ezrelay',
10104: 'swdtp',
10107: 'bctp-server',
10113: 'netiq-endpoint',
10114: 'netiq-qcheck',
10115: 'netiq-endpt',
10116: 'netiq-voipa',
10128: 'bmc-perf-sd',
10160: 'qb-db-server',
10200: 'trisoap',
10252: 'apollo-relay',
10260: 'axis-wimp-port',
10288: 'blocks',
10800: 'gap',
10805: 'lpdg',
10990: 'rmiaux',
11000: 'irisa',
11001: 'metasys',
11111: 'vce',
11112: 'dicom',
11161: 'suncacao-snmp',
11162: 'suncacao-jmxmp',
11163: 'suncacao-rmi',
11164: 'suncacao-csa',
11165: 'suncacao-websvc',
11201: 'smsqp',
11208: 'wifree',
11319: 'imip',
11320: 'imip-channels',
11321: 'arena-server',
11367: 'atm-uhas',
11371: 'hkp',
11600: 'tempest-port',
11720: 'h323callsigalt',
11751: 'intrepid-ssl',
11967: 'sysinfo-sp',
12000: 'entextxid',
12001: 'entextnetwk',
12002: 'entexthigh',
12003: 'entextmed',
12004: 'entextlow',
12005: 'dbisamserver1',
12006: 'dbisamserver2',
12007: 'accuracer',
12008: 'accuracer-dbms',
12012: 'vipera',
12109: 'rets-ssl',
12121: 'nupaper-ss',
12168: 'cawas',
12172: 'hivep',
12300: 'linogridengine',
12321: 'warehouse-sss',
12322: 'warehouse',
12345: 'italk',
12753: 'tsaf',
13160: 'i-zipqd',
13223: 'powwow-client',
13224: 'powwow-server',
13720: 'bprd',
13721: 'bpdbm',
13722: 'bpjava-msvc',
13724: 'vnetd',
13782: 'bpcd',
13783: 'vopied',
13785: 'nbdb',
13786: 'nomdb',
13818: 'dsmcc-config',
13819: 'dsmcc-session',
13820: 'dsmcc-passthru',
13821: 'dsmcc-download',
13822: 'dsmcc-ccp',
14001: 'sua',
14033: 'sage-best-com1',
14034: 'sage-best-com2',
14141: 'vcs-app',
14142: 'icpp',
14145: 'gcm-app',
14149: 'vrts-tdd',
14154: 'vad',
14414: 'ca-web-update',
14936: 'hde-lcesrvr-1',
14937: 'hde-lcesrvr-2',
15000: 'hydap',
15345: 'xpilot',
15363: '3link',
15555: 'cisco-snat',
15740: 'ptp',
16161: 'sun-sea-port',
16309: 'etb4j',
16310: 'pduncs',
16360: 'netserialext1',
16361: 'netserialext2',
16367: 'netserialext3',
16368: 'netserialext4',
16384: 'connected',
16991: 'intel-rci-mp',
16992: 'amt-soap-http',
16993: 'amt-soap-https',
16994: 'amt-redir-tcp',
16995: 'amt-redir-tls',
17007: 'isode-dua',
17185: 'soundsvirtual',
17219: 'chipper',
17235: 'ssh-mgmt',
17729: 'ea',
17754: 'zep',
17755: 'zigbee-ip',
17756: 'zigbee-ips',
18000: 'biimenu',
18181: 'opsec-cvp',
18182: 'opsec-ufp',
18183: 'opsec-sam',
18184: 'opsec-lea',
18185: 'opsec-omi',
18186: 'ohsc',
18187: 'opsec-ela',
18241: 'checkpoint-rtm',
18463: 'ac-cluster',
18769: 'ique',
18881: 'infotos',
18888: 'apc-necmp',
19000: 'igrid',
19191: 'opsec-uaa',
19194: 'ua-secureagent',
19283: 'keysrvr',
19315: 'keyshadow',
19398: 'mtrgtrans',
19410: 'hp-sco',
19411: 'hp-sca',
19412: 'hp-sessmon',
19539: 'fxuptp',
19540: 'sxuptp',
19541: 'jcp',
20000: 'dnp',
20001: 'microsan',
20002: 'commtact-http',
20003: 'commtact-https',
20014: 'opendeploy',
20034: 'nburn_id',
20167: 'tolfab',
20202: 'ipdtp-port',
20222: 'ipulse-ics',
20670: 'track',
20999: 'athand-mmp',
21000: 'irtrans',
21554: 'dfserver',
21590: 'vofr-gateway',
21800: 'tvpm',
21845: 'webphone',
21846: 'netspeak-is',
21847: 'netspeak-cs',
21848: 'netspeak-acd',
21849: 'netspeak-cps',
22000: 'snapenetio',
22001: 'optocontrol',
22002: 'optohost002',
22003: 'optohost003',
22004: 'optohost004',
22005: 'optohost004',
22273: 'wnn6',
22555: 'vocaltec-wconf',
22763: 'talikaserver',
22800: 'aws-brf',
22951: 'brf-gw',
23000: 'inovaport1',
23001: 'inovaport2',
23002: 'inovaport3',
23003: 'inovaport4',
23004: 'inovaport5',
23005: 'inovaport6',
23400: 'novar-dbase',
23401: 'novar-alarm',
23402: 'novar-global',
24000: 'med-ltp',
24001: 'med-fsp-rx',
24002: 'med-fsp-tx',
24003: 'med-supp',
24004: 'med-ovw',
24005: 'med-ci',
24006: 'med-net-svc',
24242: 'filesphere',
24249: 'vista-4gl',
24321: 'ild',
24386: 'intel_rci',
24554: 'binkp',
24677: 'flashfiler',
24678: 'proactivate',
24680: 'tcc-http',
24922: 'snip',
25000: 'icl-twobase1',
25001: 'icl-twobase2',
25002: 'icl-twobase3',
25003: 'icl-twobase4',
25004: 'icl-twobase5',
25005: 'icl-twobase6',
25006: 'icl-twobase7',
25007: 'icl-twobase8',
25008: 'icl-twobase9',
25009: 'icl-twobase10',
25793: 'vocaltec-hos',
25900: 'tasp-net',
25901: 'niobserver',
25903: 'niprobe',
26000: 'quake',
26208: 'wnn6-ds',
26260: 'ezproxy',
26261: 'ezmeeting',
26262: 'k3software-svr',
26263: 'k3software-cli',
26264: 'gserver',
26486: 'exoline-udp',
26487: 'exoconfig',
26489: 'exonet',
27345: 'imagepump',
27442: 'jesmsjc',
27504: 'kopek-httphead',
27782: 'ars-vista',
27999: 'tw-auth-key',
28000: 'nxlmd',
28240: 'siemensgsm',
29167: 'otmp',
30001: 'pago-services1',
30002: 'pago-services2',
30999: 'ovobs',
31416: 'xqosd',
31457: 'tetrinet',
31620: 'lm-mon',
31765: 'gamesmith-port',
31948: 'iceedcp_tx',
31949: 'iceedcp_rx',
32249: 't1distproc60',
32483: 'apm-link',
32635: 'sec-ntb-clnt',
32767: 'filenet-powsrm',
32768: 'filenet-tms',
32769: 'filenet-rpc',
32770: 'filenet-nch',
32771: 'filenet-rmi',
32772: 'filenet-pa',
32773: 'filenet-cm',
32774: 'filenet-re',
32775: 'filenet-pch',
32776: 'filenet-peior',
32777: 'filenet-obrok',
32896: 'idmgratm',
33331: 'diamondport',
33434: 'traceroute',
33656: 'snip-slave',
34249: 'turbonote-2',
34378: 'p-net-local',
34379: 'p-net-remote',
34962: 'profinet-rt',
34963: 'profinet-rtm',
34964: 'profinet-cm',
34980: 'ethercat',
36865: 'kastenxpipe',
37475: 'neckar',
37654: 'unisys-eportal',
38201: 'galaxy7-data',
38202: 'fairview',
38203: 'agpolicy',
39681: 'turbonote-1',
40000: 'safetynetp',
40841: 'cscp',
40842: 'csccredir',
40843: 'csccfirewall',
41111: 'fs-qos',
41794: 'crestron-cip',
41795: 'crestron-ctp',
42508: 'candp',
42509: 'candrp',
42510: 'caerpc',
43188: 'reachout',
43189: 'ndm-agent-port',
43190: 'ip-provision',
43441: 'ciscocsdb',
44321: 'pmcd',
44322: 'pmcdproxy',
44553: 'rbr-debug',
44818: 'rockwell-encap',
45054: 'invision-ag',
45678: 'eba',
45966: 'ssr-servermgr',
46999: 'mediabox',
47000: 'mbus',
47557: 'dbbrowse',
47624: 'directplaysrvr',
47806: 'ap',
47808: 'bacnet',
48000: 'nimcontroller',
48001: 'nimspooler',
48002: 'nimhub',
48003: 'nimgtw',
48128: 'isnetserv',
48129: 'blp5',
48556: 'com-bardac-dw',
}
codes = dict([(r, l) for (l, r) in names.items()])
# try:
# with open('/etc/services','r') as services:
# for line in services:
# line = line.strip()
# print('line %s' % line)
# if line.startswith('#'):
# continue
# parts = line.split()
# if len(parts) < 2:
# import pdb; pdb.set_trace()
# continue
# name = parts[0]
# dest = parts[1].split('/')[0]
# if not dest.isdigit():
# import pdb; pdb.set_trace()
# continue
# port = int(dest)
# Port.codes[name] = port
# Port.names[port] = name
# except Exception:
# pass
| 83,273 |
879 | import pytest
from sqlalchemy_utils.relationships import chained_join
from ..mixins import (
ThreeLevelDeepManyToMany,
ThreeLevelDeepOneToMany,
ThreeLevelDeepOneToOne
)
@pytest.mark.usefixtures('postgresql_dsn')
class TestChainedJoinFoDeepToManyToMany(ThreeLevelDeepManyToMany):
def test_simple_join(self, Catalog):
assert str(chained_join(Catalog.categories)) == (
'catalog_category JOIN category ON '
'category._id = catalog_category.category_id'
)
def test_two_relations(self, Catalog, Category):
sql = chained_join(
Catalog.categories,
Category.sub_categories
)
assert str(sql) == (
'catalog_category JOIN category ON category._id = '
'catalog_category.category_id JOIN category_subcategory ON '
'category._id = category_subcategory.category_id JOIN '
'sub_category ON sub_category._id = '
'category_subcategory.subcategory_id'
)
def test_three_relations(self, Catalog, Category, SubCategory):
sql = chained_join(
Catalog.categories,
Category.sub_categories,
SubCategory.products
)
assert str(sql) == (
'catalog_category JOIN category ON category._id = '
'catalog_category.category_id JOIN category_subcategory ON '
'category._id = category_subcategory.category_id JOIN sub_category'
' ON sub_category._id = category_subcategory.subcategory_id JOIN '
'subcategory_product ON sub_category._id = '
'subcategory_product.subcategory_id JOIN product ON product._id ='
' subcategory_product.product_id'
)
@pytest.mark.usefixtures('postgresql_dsn')
class TestChainedJoinForDeepOneToMany(ThreeLevelDeepOneToMany):
def test_simple_join(self, Catalog):
assert str(chained_join(Catalog.categories)) == 'category'
def test_two_relations(self, Catalog, Category):
sql = chained_join(
Catalog.categories,
Category.sub_categories
)
assert str(sql) == (
'category JOIN sub_category ON category._id = '
'sub_category._category_id'
)
def test_three_relations(self, Catalog, Category, SubCategory):
sql = chained_join(
Catalog.categories,
Category.sub_categories,
SubCategory.products
)
assert str(sql) == (
'category JOIN sub_category ON category._id = '
'sub_category._category_id JOIN product ON sub_category._id = '
'product._sub_category_id'
)
@pytest.mark.usefixtures('postgresql_dsn')
class TestChainedJoinForDeepOneToOne(ThreeLevelDeepOneToOne):
def test_simple_join(self, Catalog):
assert str(chained_join(Catalog.category)) == 'category'
def test_two_relations(self, Catalog, Category):
sql = chained_join(
Catalog.category,
Category.sub_category
)
assert str(sql) == (
'category JOIN sub_category ON category._id = '
'sub_category._category_id'
)
def test_three_relations(self, Catalog, Category, SubCategory):
sql = chained_join(
Catalog.category,
Category.sub_category,
SubCategory.product
)
assert str(sql) == (
'category JOIN sub_category ON category._id = '
'sub_category._category_id JOIN product ON sub_category._id = '
'product._sub_category_id'
)
| 1,572 |
30,785 | <filename>jadx-plugins/jadx-java-input/src/main/java/jadx/plugins/input/java/data/attributes/JavaAttrType.java
package jadx.plugins.input.java.data.attributes;
import java.util.HashMap;
import java.util.Map;
import org.jetbrains.annotations.Nullable;
import jadx.api.plugins.input.data.annotations.AnnotationVisibility;
import jadx.plugins.input.java.data.attributes.debuginfo.LineNumberTableAttr;
import jadx.plugins.input.java.data.attributes.debuginfo.LocalVarTypesAttr;
import jadx.plugins.input.java.data.attributes.debuginfo.LocalVarsAttr;
import jadx.plugins.input.java.data.attributes.types.CodeAttr;
import jadx.plugins.input.java.data.attributes.types.ConstValueAttr;
import jadx.plugins.input.java.data.attributes.types.IgnoredAttr;
import jadx.plugins.input.java.data.attributes.types.JavaAnnotationDefaultAttr;
import jadx.plugins.input.java.data.attributes.types.JavaAnnotationsAttr;
import jadx.plugins.input.java.data.attributes.types.JavaBootstrapMethodsAttr;
import jadx.plugins.input.java.data.attributes.types.JavaExceptionsAttr;
import jadx.plugins.input.java.data.attributes.types.JavaInnerClsAttr;
import jadx.plugins.input.java.data.attributes.types.JavaParamAnnsAttr;
import jadx.plugins.input.java.data.attributes.types.JavaSignatureAttr;
import jadx.plugins.input.java.data.attributes.types.JavaSourceFileAttr;
public final class JavaAttrType<T extends IJavaAttribute> {
private static final Map<String, JavaAttrType<?>> NAME_TO_TYPE_MAP;
public static final JavaAttrType<JavaInnerClsAttr> INNER_CLASSES;
public static final JavaAttrType<JavaBootstrapMethodsAttr> BOOTSTRAP_METHODS;
public static final JavaAttrType<ConstValueAttr> CONST_VALUE;
public static final JavaAttrType<CodeAttr> CODE;
public static final JavaAttrType<LineNumberTableAttr> LINE_NUMBER_TABLE;
public static final JavaAttrType<LocalVarsAttr> LOCAL_VAR_TABLE;
public static final JavaAttrType<LocalVarTypesAttr> LOCAL_VAR_TYPE_TABLE;
public static final JavaAttrType<JavaAnnotationsAttr> RUNTIME_ANNOTATIONS;
public static final JavaAttrType<JavaAnnotationsAttr> BUILD_ANNOTATIONS;
public static final JavaAttrType<JavaParamAnnsAttr> RUNTIME_PARAMETER_ANNOTATIONS;
public static final JavaAttrType<JavaParamAnnsAttr> BUILD_PARAMETER_ANNOTATIONS;
public static final JavaAttrType<IgnoredAttr> RUNTIME_TYPE_ANNOTATIONS;
public static final JavaAttrType<IgnoredAttr> BUILD_TYPE_ANNOTATIONS;
public static final JavaAttrType<JavaAnnotationDefaultAttr> ANNOTATION_DEFAULT;
public static final JavaAttrType<JavaSourceFileAttr> SOURCE_FILE;
public static final JavaAttrType<JavaSignatureAttr> SIGNATURE;
public static final JavaAttrType<JavaExceptionsAttr> EXCEPTIONS;
public static final JavaAttrType<IgnoredAttr> DEPRECATED;
public static final JavaAttrType<IgnoredAttr> SYNTHETIC;
public static final JavaAttrType<IgnoredAttr> STACK_MAP_TABLE;
public static final JavaAttrType<IgnoredAttr> ENCLOSING_METHOD;
public static final JavaAttrType<IgnoredAttr> MODULE;
static {
NAME_TO_TYPE_MAP = new HashMap<>();
CONST_VALUE = bind("ConstantValue", ConstValueAttr.reader());
CODE = bind("Code", CodeAttr.reader());
LINE_NUMBER_TABLE = bind("LineNumberTable", LineNumberTableAttr.reader());
LOCAL_VAR_TABLE = bind("LocalVariableTable", LocalVarsAttr.reader());
LOCAL_VAR_TYPE_TABLE = bind("LocalVariableTypeTable", LocalVarTypesAttr.reader());
INNER_CLASSES = bind("InnerClasses", JavaInnerClsAttr.reader());
BOOTSTRAP_METHODS = bind("BootstrapMethods", JavaBootstrapMethodsAttr.reader());
RUNTIME_ANNOTATIONS = bind("RuntimeVisibleAnnotations", JavaAnnotationsAttr.reader(AnnotationVisibility.RUNTIME));
BUILD_ANNOTATIONS = bind("RuntimeInvisibleAnnotations", JavaAnnotationsAttr.reader(AnnotationVisibility.BUILD));
RUNTIME_PARAMETER_ANNOTATIONS = bind("RuntimeVisibleParameterAnnotations", JavaParamAnnsAttr.reader(AnnotationVisibility.RUNTIME));
BUILD_PARAMETER_ANNOTATIONS = bind("RuntimeInvisibleParameterAnnotations", JavaParamAnnsAttr.reader(AnnotationVisibility.BUILD));
ANNOTATION_DEFAULT = bind("AnnotationDefault", JavaAnnotationDefaultAttr.reader());
SOURCE_FILE = bind("SourceFile", JavaSourceFileAttr.reader());
SIGNATURE = bind("Signature", JavaSignatureAttr.reader());
EXCEPTIONS = bind("Exceptions", JavaExceptionsAttr.reader());
// ignored
DEPRECATED = bind("Deprecated", null); // duplicated by annotation
SYNTHETIC = bind("Synthetic", null); // duplicated by access flag
STACK_MAP_TABLE = bind("StackMapTable", null);
ENCLOSING_METHOD = bind("EnclosingMethod", null);
// TODO: not supported yet
RUNTIME_TYPE_ANNOTATIONS = bind("RuntimeVisibleTypeAnnotations", null);
BUILD_TYPE_ANNOTATIONS = bind("RuntimeInvisibleTypeAnnotations", null);
MODULE = bind("Module", null);
}
private static <A extends IJavaAttribute> JavaAttrType<A> bind(String name, IJavaAttributeReader reader) {
JavaAttrType<A> attrType = new JavaAttrType<>(NAME_TO_TYPE_MAP.size(), name, reader);
NAME_TO_TYPE_MAP.put(name, attrType);
return attrType;
}
@Nullable
public static JavaAttrType<?> byName(String name) {
return NAME_TO_TYPE_MAP.get(name);
}
public static int size() {
return NAME_TO_TYPE_MAP.size();
}
private final int id;
private final String name;
private final IJavaAttributeReader reader;
private JavaAttrType(int id, String name, IJavaAttributeReader reader) {
this.id = id;
this.name = name;
this.reader = reader;
}
public int getId() {
return id;
}
public String getName() {
return name;
}
public IJavaAttributeReader getReader() {
return reader;
}
@Override
public String toString() {
return name;
}
}
| 1,895 |
2,996 | <gh_stars>1000+
// Copyright 2021 The Terasology Foundation
// SPDX-License-Identifier: Apache-2.0
package org.terasology.persistence.typeHandling.inMemory.arrays;
import com.google.common.collect.Lists;
import org.terasology.persistence.typeHandling.PersistedData;
import org.terasology.persistence.typeHandling.inMemory.PersistedString;
import java.util.Iterator;
import java.util.List;
public class PersistedStringArray extends AbstractPersistedArray {
private final List<String> data;
public PersistedStringArray(List<String> data) {
this.data = data;
}
@Override
public String getAsString() {
if (size() == 1) {
return data.get(0);
} else {
throw new IllegalStateException("Data is an array of size != 1");
}
}
@Override
public int size() {
return data.size();
}
@Override
public PersistedData getArrayItem(int index) {
return new PersistedString(data.get(index));
}
@Override
public List<String> getAsStringArray() {
return Lists.newArrayList(data);
}
@Override
public boolean isStringArray() {
return true;
}
@Override
public Iterator<PersistedData> iterator() {
return data.stream().map(PersistedString::new).map(ps -> (PersistedData) ps).iterator();
}
}
| 511 |
1,066 | /*
* Copyright 2017 GcsSloop
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* Last modified 2017-04-09 20:47:16
*
* GitHub: https://github.com/GcsSloop
* Website: http://www.gcssloop.com
* Weibo: http://weibo.com/GcsSloop
*/
package com.gcssloop.diycode.activity;
import android.content.Context;
import android.content.Intent;
import android.support.v4.app.FragmentManager;
import android.support.v4.app.FragmentTransaction;
import android.view.View;
import com.gcssloop.diycode.R;
import com.gcssloop.diycode.base.app.BaseActivity;
import com.gcssloop.diycode.base.app.ViewHolder;
import com.gcssloop.diycode.fragment.UserCollectionTopicFragment;
import com.gcssloop.diycode.fragment.UserCreateTopicFragment;
import com.gcssloop.diycode.utils.DataCache;
import com.gcssloop.diycode_sdk.api.Diycode;
import com.gcssloop.diycode_sdk.api.user.bean.UserDetail;
import java.io.IOException;
public class MyTopicActivity extends BaseActivity {
private DataCache mDataCache;
// 数据类型
enum InfoType {
MY_TOPIC, MY_COLLECT
}
private InfoType current_type = InfoType.MY_TOPIC;
public static void newInstance(Context context, InfoType type) {
Intent intent = new Intent(context, MyTopicActivity.class);
intent.putExtra("type", type);
context.startActivity(intent);
}
@Override
protected int getLayoutId() {
return R.layout.activity_fragment;
}
@Override
protected void initDatas() {
mDiycode = Diycode.getSingleInstance();
mDataCache = new DataCache(this);
Intent intent = getIntent();
InfoType type = (InfoType) intent.getSerializableExtra("type");
if (type != null) {
current_type = type;
} else {
current_type = InfoType.MY_TOPIC;
}
}
@Override
protected void initViews(ViewHolder holder, View root) {
if (!mDiycode.isLogin()) {
toastShort("用户未登录");
return;
}
// 获取用户名
if (mDataCache.getMe() == null) {
try {
UserDetail me = mDiycode.getMeNow();
mDataCache.saveMe(me);
} catch (IOException e) {
e.printStackTrace();
}
}
String username = mDataCache.getMe().getLogin();
// 初始化 Fragment
FragmentManager fragmentManager = getSupportFragmentManager();
FragmentTransaction transaction = fragmentManager.beginTransaction();
if (current_type == InfoType.MY_COLLECT){
setTitle("我的收藏");
UserCollectionTopicFragment fragment1 = UserCollectionTopicFragment.newInstance(username);
transaction.add(R.id.fragment, fragment1);
} else if (current_type == InfoType.MY_TOPIC){
setTitle("我的话题");
UserCreateTopicFragment fragment2 = UserCreateTopicFragment.newInstance(username);
transaction.add(R.id.fragment, fragment2);
}
transaction.commit();
}
}
| 1,429 |
5,169 | {
"name": "DaDataAddressSuggester",
"version": "1.1.0",
"summary": "Suggests Address to UITextField",
"description": "Suggests Address to UITextField. Gets the suggestions from DaData service.",
"homepage": "https://github.com/iNorD/DaDataAddressSuggester.git",
"license": "MIT",
"authors": {
"<NAME>": "<EMAIL>"
},
"platforms": {
"ios": "9.0"
},
"source": {
"git": "https://github.com/iNorD/DaDataAddressSuggester.git",
"tag": "1.1.0"
},
"source_files": [
"Classes",
"Classes/**/*.{h,m}"
],
"exclude_files": "Classes/Exclude"
}
| 246 |
589 | <filename>include/wrappers/debug_messenger.h
//
// Copyright (c) 2018 Advanced Micro Devices, Inc. All rights reserved.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
//
/* Provides support for debug utils messengers, introduced by VK_EXT_debug_utils extension.
*
* Also supports a fall-back path leveraging VK_EXT_debug_report if VK_EXT_debug_utils is unavailable.
*
*/
#ifndef WRAPPERS_DEBUG_MESSENGER_H
#define WRAPPERS_DEBUG_MESSENGER_H
#include "misc/types.h"
#include "misc/debug_marker.h"
#include "misc/mt_safety.h"
#include "wrappers/device.h"
namespace Anvil
{
class DebugMessenger : public MTSafetySupportProvider
{
public:
/* Public functions */
virtual ~DebugMessenger();
/* Creates a debug messenger instance.
*
* Functions exposed by this wrapper require VK_EXT_debug_utils to be available. However, portion of the offered
* functionality can be handled by implementations supporting VK_EXT_debug_report; in cases only the latter is
* available, it will be used instead. Unavailable pieces of information will not be included in the callbacks
* in such case.
*
* The function will fail if neither of the two extensions is available.
**/
static DebugMessengerUniquePtr create(Anvil::DebugMessengerCreateInfoUniquePtr in_create_info_ptr);
const Anvil::DebugMessengerCreateInfo* get_create_info_ptr() const
{
return m_create_info_ptr.get();
}
void submit_message(const Anvil::DebugMessageSeverityFlagBits& in_message_severity,
const Anvil::DebugMessageTypeFlags& in_message_type_flags,
const char* in_message_id_name_ptr,
int32_t in_message_id,
const char* in_message_ptr,
const std::vector<Anvil::DebugLabel>& in_queue_labels,
const std::vector<Anvil::DebugLabel>& in_cmd_buffer_labels,
const std::vector<Anvil::DebugObjectNameInfo>& in_objects);
private:
/* Private type definitions */
enum class DebugAPI
{
EXT_DEBUG_REPORT,
EXT_DEBUG_UTILS
};
/* Private functions */
DebugMessenger(const DebugAPI& in_debug_api,
Anvil::DebugMessengerCreateInfoUniquePtr in_create_info_ptr);
static Anvil::DebugMessageSeverityFlags get_debug_message_severity_flags_for_debug_report_flags(const VkDebugReportFlagsEXT& in_flags);
static VkDebugReportFlagsEXT get_debug_report_flags_for_debug_message_severity_flags(const Anvil::DebugMessageSeverityFlags& in_flags);
static VkBool32 VKAPI_PTR callback_handler_ext_debug_report(VkDebugReportFlagsEXT in_flags,
VkDebugReportObjectTypeEXT in_object_type,
uint64_t in_object,
size_t in_location,
int32_t in_message_code,
const char* in_layer_prefix_ptr,
const char* in_message_ptr,
void* in_user_data_ptr);
static VkBool32 VKAPI_PTR callback_handler_ext_debug_utils (VkDebugUtilsMessageSeverityFlagBitsEXT in_message_severity,
VkDebugUtilsMessageTypeFlagsEXT in_message_types,
const VkDebugUtilsMessengerCallbackDataEXT* in_callback_data_ptr,
void* in_user_data_ptr);
/* Private variables */
Anvil::DebugMessengerCreateInfoUniquePtr m_create_info_ptr;
const DebugAPI m_debug_api;
VkDebugReportCallbackEXT m_debug_callback; //< only used if m_debug_api == EXT_DEBUG_REPORT
VkDebugUtilsMessengerEXT m_messenger; //< only used if m_debug_api == EXT_DEBUG_UTILS
};
}
#endif /* WRAPPERS_DEBUG_MESSENGER_H */
| 2,940 |
5,169 | <reponame>Gantios/Specs
{
"name": "LSDailyNotes",
"version": "1.0.1",
"summary": "A Time CountDown.",
"description": "一个倒计时管理",
"homepage": "https://github.com/tianyc1019/LSDailyNotes",
"license": "MIT",
"authors": {
"John_LS": "<EMAIL>"
},
"platforms": {
"ios": "9.0"
},
"source": {
"git": "https://github.com/tianyc1019/LSDailyNotes.git",
"tag": "1.0.1"
},
"source_files": "LSDailyNotes/**/*.{swift}",
"pushed_with_swift_version": "3.0"
}
| 235 |
1,531 | package com.sleekbyte.tailor.format;
import com.sleekbyte.tailor.common.ColorSettings;
import com.sleekbyte.tailor.common.Messages;
import com.sleekbyte.tailor.output.ViolationMessage;
import org.fusesource.jansi.Ansi;
import org.fusesource.jansi.AnsiConsole;
import java.io.File;
import java.io.IOException;
import java.util.Comparator;
import java.util.List;
/**
* Formatter that displays violation messages in an Xcode compatible format.
*/
public final class XcodeFormatter extends Formatter {
public XcodeFormatter(ColorSettings colorSettings) {
super(colorSettings);
}
public int getHighestLineNumber(List<ViolationMessage> violationMessages) {
return violationMessages.stream().max(Comparator.comparing(v -> v.getLineNumber())).get().getLineNumber();
}
public int getHighestColumnNumber(List<ViolationMessage> violationMessages) {
return violationMessages.stream().max(Comparator.comparing(v -> v.getColumnNumber())).get().getColumnNumber();
}
/**
* Returns a file header used to demarcate violation messages from different files.
*
* @param inputFile The input file
* @param colorSettings Color settings
* @return String containing the file header
* @throws IOException if file cannot be opened
*/
public static String getHeader(File inputFile, ColorSettings colorSettings) throws IOException {
if (colorSettings.colorOutput) {
String textColor = colorSettings.invertColor ? "white" : "black";
return String.format("%n@|bg_blue," + textColor + " **********|@ @|bg_green," + textColor
+ " %s|@ @|bg_blue," + textColor + " **********|@", inputFile.getCanonicalPath());
} else {
return String.format("%n********** %s **********", inputFile.toString());
}
}
@Override
public void displayViolationMessages(List<ViolationMessage> violationMessages, File inputFile) throws IOException {
if (violationMessages.size() > 0) {
printColoredMessage(getHeader(inputFile, colorSettings));
}
if (colorSettings.colorOutput) {
for (ViolationMessage output : violationMessages) {
output.setColorSettings(colorSettings);
output.setLineNumberWidth(String.valueOf(getHighestLineNumber(violationMessages)).length());
output.setColumnNumberWidth(String.valueOf(getHighestColumnNumber(violationMessages)).length());
AnsiConsole.out.println(Ansi.ansi().render(output.toString()));
}
} else {
violationMessages.forEach(System.out::println);
}
}
@Override
public void displayParseErrorMessage(File inputFile) throws IOException {
printColoredMessage(getHeader(inputFile, colorSettings));
System.out.println(inputFile + Messages.COULD_NOT_BE_PARSED);
}
@Override
public void displaySummary(long numFiles, long numSkipped, long numErrors, long numWarnings) {
System.out.println(Formatter.formatSummary(numFiles, numSkipped, numErrors, numWarnings));
}
private void printColoredMessage(String msg) {
if (colorSettings.colorOutput) {
AnsiConsole.out.println(Ansi.ansi().render(msg));
} else {
System.out.println(msg);
}
}
}
| 1,249 |
543 | /**
* Copyright 2016 Twitter. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.twitter.graphjet.bipartite.segment;
import java.util.Random;
import javax.annotation.Nullable;
import com.twitter.graphjet.bipartite.api.EdgeIterator;
import com.twitter.graphjet.bipartite.api.ReusableNodeIntIterator;
import com.twitter.graphjet.bipartite.api.ReusableNodeRandomIntIterator;
/**
* This interface specifies all the read-only operations for a Bipartite graph segment that can
* reuse iterators cleanly, i.e. without allocating and reallocating memory. It is meant to
* supplement the high-level {@link com.twitter.graphjet.bipartite.api.BipartiteGraph} interface for
* allowing memory reuse.
*/
public interface ReusableRightIndexedBipartiteGraphSegment {
/**
* This operation can be O(n) so it should be used sparingly, if at all. Note that it might be
* faster if the list is populated lazily, but that is not guaranteed.
*
* @param rightNode is the right node whose edges are being fetched
* @param rightNodeEdgeIterator provides an iterator over the right node edges, but
* giving out only internal int ids for the edges
* @param rightInternalIdToLongIterator provides a mapping from an internal edge ids to their
* regular long ids
* @return the list of left nodes this rightNode is pointing to, or null if the rightNode doesn't
* exist in the graph
*/
@Nullable EdgeIterator getRightNodeEdges(
long rightNode,
ReusableNodeIntIterator rightNodeEdgeIterator,
ReusableInternalIdToLongIterator rightInternalIdToLongIterator);
/**
* This operation is expected to be O(numSamples). Note that this is sampling with replacement.
*
* @param rightNode is the right node, numSamples of whose neighbors are
* chosen at random
* @param numSamples is the number of samples to return
* @param random is the random number generator to use for all the random
* choices to be made
* @param rightNodeEdgeRandomIterator provides a random iterator over the right node edges,
* but giving out only internal int ids for the edges
* @param rightInternalIdToLongIterator provides a mapping from an internal edge ids to their
* regular long ids
* @return numSamples randomly chosen right neighbors of this rightNode, or null if the rightNode
* doesn't exist in the graph. Note that the returned list may contain repetitions.
*/
@Nullable EdgeIterator getRandomRightNodeEdges(
long rightNode,
int numSamples,
Random random,
ReusableNodeRandomIntIterator rightNodeEdgeRandomIterator,
ReusableInternalIdToLongIterator rightInternalIdToLongIterator);
}
| 1,250 |
1,273 | package org.broadinstitute.hellbender.tools.funcotator;
import htsjdk.variant.variantcontext.Allele;
import org.broadinstitute.hellbender.GATKBaseTest;
import org.broadinstitute.hellbender.tools.funcotator.dataSources.TableFuncotation;
import org.broadinstitute.hellbender.tools.funcotator.metadata.FuncotationMetadataUtils;
import org.testng.Assert;
import org.testng.annotations.DataProvider;
import org.testng.annotations.Test;
import java.util.Arrays;
import java.util.Collections;
import java.util.LinkedHashMap;
import java.util.List;
public class AliasProviderUnitTest extends GATKBaseTest {
@DataProvider
public Object[][] provideColumnNameToFieldName() {
return new Object[][] {
{
// Everything is empty
new LinkedHashMap<>(), FuncotationMap.createNoTranscriptInfo(Collections.emptyList()), FuncotationMap.NO_TRANSCRIPT_AVAILABLE_KEY,
new LinkedHashMap<>()
},{
// Trivial alias works
FuncotatorUtils.createLinkedHashMapFromLists(Collections.singletonList("FOO"), Collections.singletonList(Arrays.asList("BAR", "BAZ"))),
FuncotationMap.createNoTranscriptInfo(
Collections.singletonList(
createDummyTestFuncotations().get(0)
)
),
FuncotationMap.NO_TRANSCRIPT_AVAILABLE_KEY,
FuncotatorUtils.createLinkedHashMapFromLists(Collections.singletonList("FOO"), Collections.singletonList("BAZ"))
},{
// Trivial alias works with multiple funcotations
FuncotatorUtils.createLinkedHashMapFromLists(Collections.singletonList("FOO"), Collections.singletonList(Arrays.asList("BAR", "BAZ", "BAZ2"))),
FuncotationMap.createNoTranscriptInfo(
createDummyTestFuncotations()
),
FuncotationMap.NO_TRANSCRIPT_AVAILABLE_KEY,
FuncotatorUtils.createLinkedHashMapFromLists(Collections.singletonList("FOO"), Collections.singletonList("BAZ"))
},{
// Trivial alias works with multiple funcotations
FuncotatorUtils.createLinkedHashMapFromLists(Collections.singletonList("FOO"), Collections.singletonList(Arrays.asList("BAR", "BAZ2", "BAZ2"))),
FuncotationMap.createNoTranscriptInfo(
createDummyTestFuncotations()
),
FuncotationMap.NO_TRANSCRIPT_AVAILABLE_KEY,
FuncotatorUtils.createLinkedHashMapFromLists(Collections.singletonList("FOO"), Collections.singletonList("BAZ2"))
},{
// No alias found (returned alias should be empty string)
FuncotatorUtils.createLinkedHashMapFromLists(Collections.singletonList("FOO"), Collections.singletonList(Arrays.asList("XXX", "YYY", "ZZZ"))),
FuncotationMap.createNoTranscriptInfo(
createDummyTestFuncotations()
),
FuncotationMap.NO_TRANSCRIPT_AVAILABLE_KEY,
FuncotatorUtils.createLinkedHashMapFromLists(Collections.singletonList("FOO"), Collections.singletonList(""))
},{
// Multiple aliases
FuncotatorUtils.createLinkedHashMapFromLists(Arrays.asList("FIELD1", "FIELD2"), Arrays.asList(Arrays.asList("XXX", "GUZ2", "ZZZ"), Arrays.asList("BAZ", "BBB", "CCC"))),
FuncotationMap.createNoTranscriptInfo(
createDummyTestFuncotations()
),
FuncotationMap.NO_TRANSCRIPT_AVAILABLE_KEY,
FuncotatorUtils.createLinkedHashMapFromLists(Arrays.asList("FIELD1", "FIELD2"), Arrays.asList("GUZ2", "BAZ"))
}
};
}
private List<Funcotation> createDummyTestFuncotations() {
return Arrays.asList(
TableFuncotation.create(Arrays.asList("BAZ", "GUZ"), Arrays.asList("VAL_BAZ", "VAL_GUZ"), Allele.create("T"), "TEST",
FuncotationMetadataUtils.createWithUnknownAttributes(Arrays.asList("BAZ", "GUZ"))),
TableFuncotation.create(Arrays.asList("BAZ2", "GUZ2"), Arrays.asList("VAL_BAZ2", "VAL_GUZ2"), Allele.create("T"), "TEST2",
FuncotationMetadataUtils.createWithUnknownAttributes(Arrays.asList("BAZ2", "GUZ2")))
);
}
@Test(dataProvider = "provideColumnNameToFieldName")
public void testColumnNameToFieldName(final LinkedHashMap<String, List<String>> aliasMap, final FuncotationMap funcotationMap, final String txId, final LinkedHashMap<String, String> gt) {
final AliasProvider aliasProvider = new AliasProvider(aliasMap);
final LinkedHashMap<String, String> guess =
aliasProvider.createColumnNameToFieldNameMap(funcotationMap, txId);
Assert.assertEquals(guess, gt);
Assert.assertEquals(aliasProvider.getFields(), aliasMap.keySet());
}
}
| 2,463 |
369 | <filename>module-bluetooth/Bluetooth/interface/profiles/A2DP/AVDTP.cpp
// Copyright (c) 2017-2021, Mudita <NAME>.o. All rights reserved.
// For licensing, see https://github.com/mudita/MuditaOS/LICENSE.md
#include "AVDTP.hpp"
namespace bluetooth
{
AVDTP::SbcConfiguration AVDTP::sbcConfig;
btstack_sbc_encoder_state_t AVDTP::sbcEncoderState;
std::array<uint8_t, 4> AVDTP::sbcCodecConfiguration;
int AVDTP::sampleRate = AVDTP::defaultSampleRate;
void AVDTP::dumpSbcConfiguration()
{
LOG_INFO("Received media codec configuration:");
LOG_INFO(" - numChannels: %d", sbcConfig.numChannels);
LOG_INFO(" - samplingFrequency: %d", sbcConfig.samplingFrequency);
LOG_INFO(" - channelMode: %d", sbcConfig.channelMode);
LOG_INFO(" - blockLength: %d", sbcConfig.blockLength);
LOG_INFO(" - subbands: %d", sbcConfig.subbands);
LOG_INFO(" - allocationMethod: %d", sbcConfig.allocationMethod);
LOG_INFO(" - bitpool_value [%d, %d] ", sbcConfig.minBitpoolValue, sbcConfig.maxBitpoolValue);
}
} // namespace Bt
| 460 |
438 | {
"DESCRIPTION": "DM a user",
"USAGE": "dm <user> <message>",
"TITLE": "DM received from guild: {{NAME}}",
"SUCCESS": "Successfully sent DM to {{TAG}}."
}
| 63 |
711 | <filename>java110-generator/src/main/resources/newTemplate/IDeleteBMO.java
package com.java110.api.bmo.@@templateCode@@;
import org.springframework.http.ResponseEntity;
public interface IDelete@@TemplateCode@@BMO {
/**
* 修改@@templateName@@
* add by wuxw
* @param @@templateCode@@Po
* @return
*/
ResponseEntity<String> delete(@@TemplateCode@@Po @@templateCode@@Po);
}
| 154 |
564 | <reponame>timgates42/libsrt
/*
* imgd.c
*
* Image comparison/diff example using libsrt
*
* Copyright (c) 2015-2019 <NAME>. All rights reserved.
* Released under the BSD 3-Clause License (see the doc/LICENSE)
*
* Observations:
* - In order to have PNG and JPEG support: make imgc HAS_JPG=1 HAS_PNG=1
*/
#include "imgtools.h"
static int exit_with_error(const char **argv, const char *msg, int exit_code);
int main(int argc, const char **argv)
{
size_t in_size = 0, enc_bytes, rgb1_bytes, rgb2_bytes;
ssize_t written;
struct RGB_Info ri1, ri2;
srt_string *iobuf = NULL, *rgb1_buf = NULL, *rgb2_buf = NULL,
*rgb3_buf = NULL;
int exit_code = 2;
FILE *fin = NULL, *fout = NULL;
const char *exit_msg = "not enough parameters";
srt_bool ro;
enum ImgTypes t_in1, t_in2, t_out;
#define IMGC_XTEST(test, m, c) \
if (test) { \
exit_msg = m; \
exit_code = c; \
break; \
}
for (;;) {
if (argc < 2)
break;
ro = argc < 3 ? S_TRUE : S_FALSE;
t_in1 = file_type(argv[1]);
t_in2 = file_type(argv[2]);
t_out = argc < 4 ? IMG_none : file_type(argv[3]);
IMGC_XTEST(t_in1 == IMG_error || t_in2 == IMG_error
|| t_out == IMG_error,
"invalid parameters",
t_in1 == IMG_error || t_in2 == IMG_error ? 3 : 4);
fin = fopen(argv[1], "rb");
iobuf = ss_dup_read(fin, MAX_FILE_SIZE);
in_size = ss_size(iobuf);
IMGC_XTEST(!in_size, "input #1 read error", 5);
rgb1_bytes = any2rgb(&rgb1_buf, &ri1, iobuf, t_in1);
IMGC_XTEST(!rgb1_bytes, "can not process input file #1", 6);
fclose(fin);
fin = fopen(argv[2], "rb");
ss_read(&iobuf, fin, MAX_FILE_SIZE);
in_size = ss_size(iobuf);
IMGC_XTEST(!in_size, "input #2 read error", 7);
rgb2_bytes = any2rgb(&rgb2_buf, &ri2, iobuf, t_in2);
IMGC_XTEST(!rgb2_bytes, "can not process input file #2", 8);
IMGC_XTEST(ss_size(rgb1_buf) != ss_size(rgb2_buf),
"can not process input file #2", 9);
exit_code = rgbdiff(&rgb3_buf, rgb1_buf, &ri1, rgb2_buf, &ri2)
? 1
: 0;
if (exit_code == 1)
fprintf(stderr, "Image files %s and %s differ\n",
argv[1], argv[2]);
if (t_out != IMG_none) {
enc_bytes =
rgb2type(&iobuf, t_out, rgb3_buf, &ri1, F_None);
IMGC_XTEST(!enc_bytes, "output file encoding error",
10);
fout = fopen(argv[3], "wb+");
written = ss_write(fout, iobuf, 0, ss_size(iobuf));
IMGC_XTEST(!ro
&& (written < 0
|| (size_t)written
!= ss_size(iobuf)),
"write error", 11);
}
break;
}
#ifdef S_USE_VA_ARGS
ss_free(&iobuf, &rgb1_buf, &rgb2_buf, &rgb3_buf);
#else
ss_free(&iobuf);
ss_free(&rgb1_buf);
ss_free(&rgb2_buf);
ss_free(&rgb3_buf);
#endif
if (fin)
fclose(fin);
if (fout)
fclose(fout);
return exit_code > 1 ? exit_with_error(argv, exit_msg, exit_code) : 0;
}
static int exit_with_error(const char **argv, const char *msg, int exit_code)
{
const char *v0 = argv[0];
fprintf(stderr,
"Image diff (libsrt example)\n\n"
"Error [%i]: %s\nSyntax: %s in1." FMT_IMGS_IN " in2."
FMT_IMGS_IN " [out." FMT_IMGS_OUT "]\nExit code 0: matching "
"images, not 0: not matching or syntax error\n\nExamples:\n"
IF_PNG("%s i1.png i2.png o.ppm # i1.png vs i2.png to o.ppm\n")
IF_JPG("%s i1.jpg i2.jpg o.tga # i1.jpg vs i2.jpg to o.tga\n")
"%s i1.ppm i2.tga o.tga # i1.ppm vs i2.tga to o.tga\n",
exit_code, msg, v0, IF_PNG(v0 MY_COMMA) IF_JPG(v0 MY_COMMA) v0);
return exit_code;
}
| 1,947 |
5,279 | /*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.beam.sdk.extensions.sql.meta.provider.bigtable;
import com.google.auto.service.AutoService;
import org.apache.beam.sdk.annotations.Experimental;
import org.apache.beam.sdk.annotations.Internal;
import org.apache.beam.sdk.extensions.sql.meta.BeamSqlTable;
import org.apache.beam.sdk.extensions.sql.meta.Table;
import org.apache.beam.sdk.extensions.sql.meta.provider.InMemoryMetaTableProvider;
import org.apache.beam.sdk.extensions.sql.meta.provider.TableProvider;
/**
* {@link TableProvider} for {@link BigtableTable}.
*
* <p>A sample of BigTable table is:
*
* <pre>{@code
* CREATE EXTERNAL TABLE beamTable(
* key VARCHAR NOT NULL,
* familyTest ROW<
* boolColumn BOOLEAN NOT NULL,
* longColumnWithTsAndLabels ROW<
* val BIGINT NOT NULL,
* timestampMicros BIGINT NOT NULL,
* labels VARCHAR
* > NOT NULL,
* stringArrayColumn ARRAY<VARCHAR> NOT NULL,
* doubleColumn DOUBLE NOT NULL,
* binaryColumn BINARY NOT NULL
* > NOT NULL
* )
* TYPE 'bigtable'
* LOCATION 'googleapis.com/bigtable/projects/<project_id>/instances/<instance_id>/tables/<table_name>'
* </pre>
*
* <p>Flat-schema table is also supported. It requires an additional property "columnsMapping" which
* describes which familyColumn describes which value in the form "familyName:columnQualifier":
*
* <pre>{@code
* CREATE EXTERNAL TABLE beamTable(
* key VARCHAR NOT NULL,
* boolColumn BOOLEAN NOT NULL,
* longColumn BIGINT NOT NULL,
* stringColumn VARCHAR NOT NULL,
* doubleColumn DOUBLE NOT NULL,
* binaryColumn BINARY NOT NULL
* )
* TYPE 'bigtable'
* LOCATION 'googleapis.com/bigtable/projects/<project_id>/instances/<instance_id>/tables/<table_name>'
* TBLPROPERTIES '{
* "columnsMapping": "f:boolColumn,f:longColumn,f:stringColumn,f2:doubleColumn,f2:binaryColumn"
* }'
* </pre>
*/
@Internal
@Experimental
@AutoService(TableProvider.class)
public class BigtableTableProvider extends InMemoryMetaTableProvider {
@Override
public String getTableType() {
return "bigtable";
}
@Override
public BeamSqlTable buildBeamSqlTable(Table table) {
return new BigtableTable(table);
}
}
| 1,029 |
359 | import torch
def is_gpu_available():
return torch.cuda.is_available()
def get_device_id(device):
if device == "cpu":
return -1
elif device == "auto":
return 0 if is_gpu_available() else -1
elif device.startswith("cuda:"):
device_no = device.replace("cuda:", "")
if device_no.isnumeric():
return int(device_no)
raise Exception(f"Invalid device: '{device}'")
| 181 |
7,883 | // Copyright (c) 2019 Computer Vision Center (CVC) at the Universitat Autonoma
// de Barcelona (UAB).
//
// This work is licensed under the terms of the MIT license.
// For a copy, see <https://opensource.org/licenses/MIT>.
#pragma once
#include "carla/client/Actor.h"
#include "carla/client/detail/WalkerNavigation.h"
#include "carla/geom/Vector3D.h"
#include <boost/optional.hpp>
namespace carla {
namespace client {
class WalkerAIController : public Actor {
public:
explicit WalkerAIController(ActorInitializer init);
void Start();
void Stop();
boost::optional<geom::Location> GetRandomLocation();
void GoToLocation(const carla::geom::Location &destination);
void SetMaxSpeed(const float max_speed);
};
} // namespace client
} // namespace carla
| 258 |
2,453 | <gh_stars>1000+
//
// Generated by class-dump 3.5 (64 bit) (Debug version compiled Sep 30 2020 21:18:12).
//
// Copyright (C) 1997-2019 <NAME>.
//
#import <DVTKit/NSObject-Protocol.h>
@class NSAttributedString, NSString, NSUndoManager;
@protocol DVTDiffSessionTextEditBuffer <NSObject>
@property(readonly, copy) NSString *string;
- (void)setAttributedString:(NSAttributedString *)arg1;
- (void)replaceCharactersInRange:(struct _NSRange)arg1 withString:(NSString *)arg2 withUndoManager:(NSUndoManager *)arg3;
- (void)replaceCharactersInRange:(struct _NSRange)arg1 withString:(NSString *)arg2;
- (void)endEditing;
- (void)beginEditing;
@end
| 226 |
892 | <gh_stars>100-1000
{
"schema_version": "1.2.0",
"id": "GHSA-pwqf-9h7j-7mv8",
"modified": "2021-09-23T19:05:25Z",
"published": "2020-08-21T16:25:26Z",
"aliases": [
"CVE-2020-6174"
],
"summary": "Incorrect threshold signature computation in TUF",
"details": "### Impact\nMetadadata signature verification, as used in `tuf.client.updater`, counted each of multiple signatures with identical authorized keyids separately towards the threshold. Therefore, an attacker with access to a valid signing key could create multiple valid signatures in order to meet the minimum threshold of keys before the metadata was considered valid.\n\nThe tuf maintainers would like to thank <NAME> of Analog Devices, Inc. for reporting this issue.\n\n### Patches\nA [fix](https://github.com/theupdateframework/tuf/pull/974) is available in version [0.12.2](https://github.com/theupdateframework/tuf/releases/tag/v0.12.2) or newer.\n\n### Workarounds\nNo workarounds are known for this issue.\n\n### References\n* [CVE-2020-6174](https://nvd.nist.gov/vuln/detail/CVE-2020-6174)\n* Pull request resolving the issue [PR 974](https://github.com/theupdateframework/tuf/pull/974)",
"severity": [
{
"type": "CVSS_V3",
"score": "CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:H/I:H/A:H"
}
],
"affected": [
{
"package": {
"ecosystem": "PyPI",
"name": "tuf"
},
"ecosystem_specific": {
"affected_functions": [
"tuf.sig.verify"
]
},
"ranges": [
{
"type": "ECOSYSTEM",
"events": [
{
"introduced": "0"
},
{
"fixed": "0.12.2"
}
]
}
]
}
],
"references": [
{
"type": "WEB",
"url": "https://github.com/theupdateframework/tuf/security/advisories/GHSA-pwqf-9h7j-7mv8"
},
{
"type": "ADVISORY",
"url": "https://nvd.nist.gov/vuln/detail/CVE-2020-6174"
},
{
"type": "WEB",
"url": "https://github.com/theupdateframework/tuf/pull/974"
},
{
"type": "WEB",
"url": "https://github.com/theupdateframework/tuf/pull/974/commits/a0397c7c820ec1c30ebc793cc9469b61c8d3f50e"
},
{
"type": "PACKAGE",
"url": "https://github.com/theupdateframework/tuf"
}
],
"database_specific": {
"cwe_ids": [
"CWE-347"
],
"severity": "CRITICAL",
"github_reviewed": true
}
} | 1,164 |
1,355 | <filename>include/jet/apic_solver3.h
// Copyright (c) 2018 <NAME>
//
// I am making my contributions/submissions to this project solely in my
// personal capacity and am not conveying any rights to any intellectual
// property of any third parties.
#ifndef INCLUDE_JET_APIC_SOLVER3_H_
#define INCLUDE_JET_APIC_SOLVER3_H_
#include <jet/pic_solver3.h>
namespace jet {
//!
//! \brief 3-D Affine Particle-in-Cell (APIC) implementation
//!
//! This class implements 3-D Affine Particle-in-Cell (APIC) solver from the
//! SIGGRAPH paper, Jiang 2015.
//!
//! \see Jiang, Chenfanfu, et al. "The affine particle-in-cell method."
//! ACM Transactions on Graphics (TOG) 34.4 (2015): 51.
//!
class ApicSolver3 : public PicSolver3 {
public:
class Builder;
//! Default constructor.
ApicSolver3();
//! Constructs solver with initial grid size.
ApicSolver3(
const Size3& resolution,
const Vector3D& gridSpacing,
const Vector3D& gridOrigin);
//! Default destructor.
virtual ~ApicSolver3();
//! Returns builder fox ApicSolver3.
static Builder builder();
protected:
//! Transfers velocity field from particles to grids.
void transferFromParticlesToGrids() override;
//! Transfers velocity field from grids to particles.
void transferFromGridsToParticles() override;
private:
Array1<Vector3D> _cX;
Array1<Vector3D> _cY;
Array1<Vector3D> _cZ;
};
//! Shared pointer type for the ApicSolver3.
typedef std::shared_ptr<ApicSolver3> ApicSolver3Ptr;
//!
//! \brief Front-end to create ApicSolver3 objects step by step.
//!
class ApicSolver3::Builder final
: public GridFluidSolverBuilderBase3<ApicSolver3::Builder> {
public:
//! Builds ApicSolver3.
ApicSolver3 build() const;
//! Builds shared pointer of ApicSolver3 instance.
ApicSolver3Ptr makeShared() const;
};
} // namespace jet
#endif // INCLUDE_JET_APIC_SOLVER3_H_
| 726 |
892 | {
"schema_version": "1.2.0",
"id": "GHSA-55m3-2rm2-4mpv",
"modified": "2022-05-01T17:54:39Z",
"published": "2022-05-01T17:54:39Z",
"aliases": [
"CVE-2007-1534"
],
"details": "DFSR.exe in Windows Meeting Space in Microsoft Windows Vista remains available for remote connections on TCP port 5722 for 2 minutes after Windows Meeting Space is closed, which allows remote attackers to have an unknown impact by connecting to this port during the time window.",
"severity": [
],
"affected": [
],
"references": [
{
"type": "ADVISORY",
"url": "https://nvd.nist.gov/vuln/detail/CVE-2007-1534"
},
{
"type": "WEB",
"url": "http://osvdb.org/33668"
},
{
"type": "WEB",
"url": "http://www.securityfocus.com/archive/1/462793/100/0/threaded"
},
{
"type": "WEB",
"url": "http://www.securityfocus.com/archive/1/464617/100/0/threaded"
},
{
"type": "WEB",
"url": "http://www.symantec.com/avcenter/reference/Vista_Network_Attack_Surface_RTM.pdf"
},
{
"type": "WEB",
"url": "http://www.symantec.com/enterprise/security_response/weblog/2007/04/microsofts_inaccurate_teredo_d.html"
}
],
"database_specific": {
"cwe_ids": [
],
"severity": "HIGH",
"github_reviewed": false
}
} | 585 |
459 | <gh_stars>100-1000
/*
* This file is part of choco-solver, http://choco-solver.org/
*
* Copyright (c) 2021, IMT Atlantique. All rights reserved.
*
* Licensed under the BSD 4-clause license.
*
* See LICENSE file in the project root for full license information.
*/
package org.chocosolver.util.tools;
import org.chocosolver.solver.expression.continuous.arithmetic.RealIntervalConstant;
import org.chocosolver.util.objects.RealInterval;
import org.testng.Assert;
import org.testng.annotations.DataProvider;
import org.testng.annotations.Test;
/**
* <br/>
*
* @author <NAME>
* @since 08/07/2020
*/
public class RealUtilsTest {
@DataProvider
public Object[][] forDiv() {
return new Object[][]{
{1., 3., 1., 3., 1. / 3., 3.}, // ++
{-3., -1., 1., 3., -3, -1. / 3.}, // -+
{1., 3., -3., -1., -3., -1. / 3.}, // +-
{-3., -1., -3., -1., 1. / 3., 3.}, // --
{-3., 2., 1., 3., -3., 2.}, // 0+
{-3., 2., -3., -1., -2., 3.}, // 0-
{-3., 2., -1., 4., Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY}, // 00
{-2., 3., -4., 1., Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY}, // 00
{.0, .2, -2., 2., Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY}, // +0
{-.2, 0., -2., 2., Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY},// -0
};
}
@Test(groups = "1s", dataProvider = "forDiv")
public void testOdiv1(double xl, double xh, double yl, double yh, double rl, double rh) {
RealInterval x = new RealIntervalConstant(xl, xh);
RealInterval y = new RealIntervalConstant(yl, yh);
RealInterval r = RealUtils.odiv(x, y);
Assert.assertEquals(RealUtils.prevFloat(rl), r.getLB());
Assert.assertEquals(RealUtils.nextFloat(rh), r.getUB());
}
@Test(groups = "1s", expectedExceptions = ArithmeticException.class)
public void testOdiv2() {
testOdiv1(1., 2., 0., 0., Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY);
}
@DataProvider
public Object[][] forMul() {
return new Object[][]{
{1., 3., 1., 3., 1., 9.},
{-3., -1., 1., 3., -9, -1.},
{1., 3., -1., 3., -3., 9.},
{1., 3., -3., -1., -9., -1.},
{-3., -1., -3., -1., 1., 9.},
{-3., -1., -3., 1., -3., 9.},
{-3., 2., 1., 3., -9., 6.},
{-3., 2., -3., -1., -6, 9.},
{-3., 2., -1., 4., -12., 8},
{-2., 3., -4., 1., -12., 8},
{0., 0., -4., 1., RealUtils.nextFloat(-0.), RealUtils.prevFloat(0.)},
{-2., 3., 0., 0., RealUtils.nextFloat(-0.), RealUtils.prevFloat(0.)},
};
}
@Test(groups = "1s", dataProvider = "forMul")
public void testMul1(double xl, double xh, double yl, double yh, double rl, double rh) {
RealInterval x = new RealIntervalConstant(xl, xh);
RealInterval y = new RealIntervalConstant(yl, yh);
RealInterval r = RealUtils.mul(x, y);
Assert.assertEquals(RealUtils.prevFloat(rl), r.getLB());
Assert.assertEquals(RealUtils.nextFloat(rh), r.getUB());
}
} | 1,628 |
14,668 | <filename>encrypted-media/polyfill/make-polyfill-tests.py
#!/usr/bin/python
from __future__ import print_function
import os, re, os.path, glob
head = re.compile( r"^(\s*</head>)", re.MULTILINE )
runtest = re.compile( r"runTest\(\s*(\S.*?)\s*\)", re.DOTALL )
scripts = '''
<!-- Polyfill files (NOTE: These are added by auto-generation script) -->
<script src=/encrypted-media/polyfill/chrome-polyfill.js></script>
<script src=/encrypted-media/polyfill/firefox-polyfill.js></script>
<script src=/encrypted-media/polyfill/edge-persistent-usage-record.js></script>
<script src=/encrypted-media/polyfill/edge-keystatuses.js></script>
<script src=/encrypted-media/polyfill/clearkey-polyfill.js></script>'''
def process_file( infile, outfile ) :
with open( outfile, "w" ) as output :
with open( infile, "r" ) as input :
output.write( runtest.sub( r"runTest( \1, 'polyfill: ' )", head.sub( scripts + r"\1", input.read() ) ) )
if __name__ == '__main__' :
if (not os.getcwd().endswith('polyfill')) :
print("Please run from polyfill directory")
exit( 1 )
for infile in glob.glob( "../*.html" ) :
process_file( infile, os.path.basename( infile ) )
for infile in glob.glob( "../resources/*.html" ) :
process_file( infile, os.path.join( "resources", os.path.basename( infile ) ) )
| 539 |
516 | /*
* Copyright (c) 2002-2017, the original author or authors.
*
* This software is distributable under the BSD license. See the terms of the
* BSD license in the documentation provided with this software.
*
* https://opensource.org/licenses/BSD-3-Clause
*/
package org.jline.utils;
import java.io.IOException;
import java.io.InterruptedIOException;
import java.io.Reader;
import java.nio.ByteBuffer;
import java.nio.CharBuffer;
import java.nio.charset.Charset;
import java.nio.charset.CharsetEncoder;
import java.nio.charset.CoderResult;
import java.nio.charset.CodingErrorAction;
public class PumpReader extends Reader {
private static final int EOF = -1;
private static final int DEFAULT_BUFFER_SIZE = 4096;
// Read and write buffer are backed by the same array
private final CharBuffer readBuffer;
private final CharBuffer writeBuffer;
private final Writer writer;
private boolean closed;
public PumpReader() {
this(DEFAULT_BUFFER_SIZE);
}
public PumpReader(int bufferSize) {
char[] buf = new char[bufferSize];
this.readBuffer = CharBuffer.wrap(buf);
this.writeBuffer = CharBuffer.wrap(buf);
this.writer = new Writer(this);
// There are no bytes available to read after initialization
readBuffer.limit(0);
}
public java.io.Writer getWriter() {
return this.writer;
}
public java.io.InputStream createInputStream(Charset charset) {
return new InputStream(this, charset);
}
private boolean wait(CharBuffer buffer) throws InterruptedIOException {
if (closed) {
return false;
}
while (!buffer.hasRemaining()) {
// Wake up waiting readers/writers
notifyAll();
try {
wait();
} catch (InterruptedException e) {
throw new InterruptedIOException();
}
if (closed) {
return false;
}
}
return true;
}
/**
* Blocks until more input is available or the reader is closed.
*
* @return true if more input is available, false if the reader is closed
* @throws InterruptedIOException If {@link #wait()} is interrupted
*/
private boolean waitForInput() throws InterruptedIOException {
return wait(readBuffer);
}
/**
* Blocks until there is new space available for buffering or the
* reader is closed.
*
* @throws InterruptedIOException If {@link #wait()} is interrupted
* @throws ClosedException If the reader was closed
*/
private void waitForBufferSpace() throws InterruptedIOException, ClosedException {
if (!wait(writeBuffer)) {
throw new ClosedException();
}
}
private static boolean rewind(CharBuffer buffer, CharBuffer other) {
// Extend limit of other buffer if there is additional input/output available
if (buffer.position() > other.position()) {
other.limit(buffer.position());
}
// If we have reached the end of the buffer, rewind and set the new limit
if (buffer.position() == buffer.capacity()) {
buffer.rewind();
buffer.limit(other.position());
return true;
} else {
return false;
}
}
/**
* Attempts to find additional input by rewinding the {@link #readBuffer}.
* Updates the {@link #writeBuffer} to make read bytes available for buffering.
*
* @return If more input is available
*/
private boolean rewindReadBuffer() {
return rewind(readBuffer, writeBuffer) && readBuffer.hasRemaining();
}
/**
* Attempts to find additional buffer space by rewinding the {@link #writeBuffer}.
* Updates the {@link #readBuffer} to make written bytes available to the reader.
*/
private void rewindWriteBuffer() {
rewind(writeBuffer, readBuffer);
}
@Override
public synchronized boolean ready() {
return readBuffer.hasRemaining();
}
public synchronized int available() {
int count = readBuffer.remaining();
if (writeBuffer.position() < readBuffer.position()) {
count += writeBuffer.position();
}
return count;
}
@Override
public synchronized int read() throws IOException {
if (!waitForInput()) {
return EOF;
}
int b = readBuffer.get();
rewindReadBuffer();
return b;
}
private int copyFromBuffer(char[] cbuf, int off, int len) {
len = Math.min(len, readBuffer.remaining());
readBuffer.get(cbuf, off, len);
return len;
}
@Override
public synchronized int read(char[] cbuf, int off, int len) throws IOException {
if (len == 0) {
return 0;
}
if (!waitForInput()) {
return EOF;
}
int count = copyFromBuffer(cbuf, off, len);
if (rewindReadBuffer() && count < len) {
count += copyFromBuffer(cbuf, off + count, len - count);
rewindReadBuffer();
}
return count;
}
@Override
public int read(CharBuffer target) throws IOException {
if (!target.hasRemaining()) {
return 0;
}
if (!waitForInput()) {
return EOF;
}
int count = readBuffer.read(target);
if (rewindReadBuffer() && target.hasRemaining()) {
count += readBuffer.read(target);
rewindReadBuffer();
}
return count;
}
private void encodeBytes(CharsetEncoder encoder, ByteBuffer output) throws IOException {
CoderResult result = encoder.encode(readBuffer, output, false);
if (rewindReadBuffer() && result.isUnderflow()) {
encoder.encode(readBuffer, output, false);
rewindReadBuffer();
}
}
synchronized int readBytes(CharsetEncoder encoder, byte[] b, int off, int len) throws IOException {
if (!waitForInput()) {
return 0;
}
ByteBuffer output = ByteBuffer.wrap(b, off, len);
encodeBytes(encoder, output);
return output.position() - off;
}
synchronized void readBytes(CharsetEncoder encoder, ByteBuffer output) throws IOException {
if (!waitForInput()) {
return;
}
encodeBytes(encoder, output);
}
synchronized void write(char c) throws IOException {
waitForBufferSpace();
writeBuffer.put(c);
rewindWriteBuffer();
}
synchronized void write(char[] cbuf, int off, int len) throws IOException {
while (len > 0) {
waitForBufferSpace();
// Copy as much characters as we can
int count = Math.min(len, writeBuffer.remaining());
writeBuffer.put(cbuf, off, count);
off += count;
len -= count;
// Update buffer states and rewind if necessary
rewindWriteBuffer();
}
}
synchronized void write(String str, int off, int len) throws IOException {
char[] buf = writeBuffer.array();
while (len > 0) {
waitForBufferSpace();
// Copy as much characters as we can
int count = Math.min(len, writeBuffer.remaining());
// CharBuffer.put(String) doesn't use getChars so do it manually
str.getChars(off, off + count, buf, writeBuffer.position());
writeBuffer.position(writeBuffer.position() + count);
off += count;
len -= count;
// Update buffer states and rewind if necessary
rewindWriteBuffer();
}
}
synchronized void flush() {
// Avoid waking up readers when there is nothing to read
if (readBuffer.hasRemaining()) {
// Notify readers
notifyAll();
}
}
@Override
public synchronized void close() throws IOException {
this.closed = true;
notifyAll();
}
private static class Writer extends java.io.Writer {
private final PumpReader reader;
private Writer(PumpReader reader) {
this.reader = reader;
}
@Override
public void write(int c) throws IOException {
reader.write((char) c);
}
@Override
public void write(char[] cbuf, int off, int len) throws IOException {
reader.write(cbuf, off, len);
}
@Override
public void write(String str, int off, int len) throws IOException {
reader.write(str, off, len);
}
@Override
public void flush() throws IOException {
reader.flush();
}
@Override
public void close() throws IOException {
reader.close();
}
}
private static class InputStream extends java.io.InputStream {
private final PumpReader reader;
private final CharsetEncoder encoder;
// To encode a character with multiple bytes (e.g. certain Unicode characters)
// we need enough space to encode them. Reading would fail if the read() method
// is used to read a single byte in these cases.
// Use this buffer to ensure we always have enough space to encode a character.
private final ByteBuffer buffer;
private InputStream(PumpReader reader, Charset charset) {
this.reader = reader;
this.encoder = charset.newEncoder()
.onUnmappableCharacter(CodingErrorAction.REPLACE)
.onMalformedInput(CodingErrorAction.REPLACE);
this.buffer = ByteBuffer.allocate((int) Math.ceil(encoder.maxBytesPerChar()));
// No input available after initialization
buffer.limit(0);
}
@Override
public int available() throws IOException {
return (int) (reader.available() * (double) this.encoder.averageBytesPerChar()) + buffer.remaining();
}
@Override
public int read() throws IOException {
if (!buffer.hasRemaining() && !readUsingBuffer()) {
return EOF;
}
return buffer.get();
}
private boolean readUsingBuffer() throws IOException {
buffer.clear(); // Reset buffer
reader.readBytes(encoder, buffer);
buffer.flip();
return buffer.hasRemaining();
}
private int copyFromBuffer(byte[] b, int off, int len) {
len = Math.min(len, buffer.remaining());
buffer.get(b, off, len);
return len;
}
@Override
public int read(byte[] b, int off, int len) throws IOException {
if (len == 0) {
return 0;
}
int read;
if (buffer.hasRemaining()) {
read = copyFromBuffer(b, off, len);
if (read == len) {
return len;
}
off += read;
len -= read;
} else {
read = 0;
}
// Do we have enough space to avoid buffering?
if (len >= buffer.capacity()) {
read += reader.readBytes(this.encoder, b, off, len);
} else if (readUsingBuffer()) {
read += copyFromBuffer(b, off, len);
}
// Return EOF if we didn't read any bytes
return read == 0 ? EOF : read;
}
@Override
public void close() throws IOException {
reader.close();
}
}
}
| 4,981 |
852 | #ifndef GENERS_IOISCLASSTYPE_HH_
#define GENERS_IOISCLASSTYPE_HH_
namespace gs {
template <typename T>
class IOIsClassType {
typedef char One;
typedef struct {
char a[2];
} Two;
template <typename C>
static One test(int C::*);
template <typename C>
static Two test(...);
public:
enum { value = sizeof(IOIsClassType<T>::template test<T>(nullptr)) == 1 };
};
} // namespace gs
#endif // GENERS_IOISCLASSTYPE_HH_
| 200 |
825 | <reponame>jiangkang/Hummer<filename>android/hummer-sdk/src/main/java/com/didi/hummer/lifecycle/IFullLifeCycle.java
package com.didi.hummer.lifecycle;
public interface IFullLifeCycle extends ILifeCycle {
void onStart();
void onResume();
void onPause();
void onStop();
}
| 110 |
556 | <reponame>AndersonALAC/Conf-for-Surge-Shadowrocket<gh_stars>100-1000
#!/usr/bin/env python3
# coding=utf-8
#
# 感谢dalao
# https://www.logcg.com
import urllib3
import re
import datetime
import certifi
import codecs
def getList(listUrl):
http = urllib3.PoolManager(
cert_reqs='CERT_REQUIRED', # Force certificate check.
ca_certs=certifi.where(), # Path to the Certifi bundle.
)
data = http.request('GET', listUrl, timeout=10).data
return data
def getGfwList():
# the url of gfwlist
baseurl = 'https://raw.githubusercontent.com/gfwlist/gfwlist/master/gfwlist.txt'
comment_pattern = '^\!|\[|^@@|^\d+\.\d+\.\d+\.\d+'
domain_pattern = '([\w\-\_]+\.[\w\.\-\_]+)[\/\*]*'
tmpfile = './list/tmp'
gfwListTxt = codecs.open('./list/gfwlist.txt', 'w', 'utf-8')
gfwListTxt.write('# gfw list updated on ' + datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S") + '\n')
gfwListTxt.write('\n')
#add Surge RULESETFILE
gfwSurgeRULESETFile = codecs.open('./configFileHere/Surge3_RULESET/GFW.list', 'w', 'utf-8')
gfwSurgeRULESETFile.write('# gfw list updated on ' + datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S") + '\n')
gfwSurgeRULESETFile.write('\n')
try:
data = getList(baseurl)
content = codecs.decode(data, 'base64_codec').decode('utf-8')
# write the decoded content to file then read line by line
tfs = codecs.open(tmpfile, 'w', 'utf-8')
tfs.write(content)
tfs.close()
print('GFW list fetched, writing...')
except:
print('GFW list fetch failed, use tmp instead...')
tfs = codecs.open(tmpfile, 'r', 'utf-8')
# Store all domains, deduplicate records
domainList = []
# Write list
for line in tfs.readlines():
if re.findall(comment_pattern, line):
continue
else:
domain = re.findall(domain_pattern, line)
if domain:
try:
found = domainList.index(domain[0])
except ValueError:
if "spotify.com" in domain[0]:
continue
else:
domainList.append(domain[0])
gfwListTxt.write('DOMAIN-SUFFIX,%s,Proxy\n' % (domain[0]))
gfwSurgeRULESETFile.write('DOMAIN-SUFFIX,%s\n' % (domain[0]))
else:
continue
tfs.close()
gfwListTxt.close()
def getSurgeChinaIPList():
# the url of chinaIP
baseurl = 'https://raw.githubusercontent.com/17mon/china_ip_list/master/china_ip_list.txt'
try:
content = getList(baseurl)
content = content.decode('utf-8')
f = codecs.open('./list/chinaIPlist', 'w', 'utf-8')
f.write(content)
f.close()
except:
print('Get IPlist update failed,use cache to update instead.')
ipList = codecs.open('./list/chinaIPlist', 'r', 'utf-8')
ipListTxt = codecs.open('./list/suchinaIPlist.txt', 'w', 'utf-8')
ipListTxt.write('# chinaIP list updated on ' + datetime.datetime.now().strftime(
"%Y-%m-%d %H:%M:%S" + '\n'))
ipListTxt.write('\n')
#add Surge RULESETFILE
ipsurgeRULESETFile = codecs.open('./configFileHere/Surge3_RULESET/CNIP.list', 'w', 'utf-8')
ipsurgeRULESETFile.write('# chinaIP list updated on ' + datetime.datetime.now().strftime(
"%Y-%m-%d %H:%M:%S" + '\n'))
ipsurgeRULESETFile.write('\n')
# Write list
for line in ipList.readlines():
ip = re.findall(r'\d+\.\d+\.\d+\.\d+/\d+', line)
if len(ip) > 0:
ipListTxt.write('IP-CIDR,%s,CNProxy\n' % (ip[0]))
ipsurgeRULESETFile.write('IP-CIDR,%s\n' % (ip[0]))
ipListTxt.close()
ipListTxt.close()
def getShadowrocketChinaIPList():
# the url of chinaIP
ipList = codecs.open('./list/chinaIPlist', 'r', 'utf-8')
ipListTxt = codecs.open('./list/srchinaIPlist.txt', 'w', 'utf-8')
ipListTxt.write('# chinaIP list updated on ' + datetime.datetime.now().strftime(
"%Y-%m-%d %H:%M:%S" + '\n'))
# Write list
for line in ipList.readlines():
ip = re.findall(r'\d+\.\d+\.\d+\.\d+/\d+', line)
if len(ip) > 0:
ipListTxt.write('IP-CIDR,%s,DIRECT\n' % (ip[0]))
ipListTxt.close()
ipListTxt.close()
def getQuanChinaIPList():
# the url of chinaIP
ipList = codecs.open('./list/chinaIPlist', 'r', 'utf-8')
ipListTxt = codecs.open('./list/sqchinaIPlist.txt', 'w', 'utf-8')
ipListTxt.write('# chinaIP list updated on ' + datetime.datetime.now().strftime(
"%Y-%m-%d %H:%M:%S" + '\n'))
# Write list
for line in ipList.readlines():
ip = re.findall(r'\d+\.\d+\.\d+\.\d+/\d+', line)
if len(ip) > 0:
ipListTxt.write('IP-CIDR,%s,国内\n' % (ip[0]))
ipListTxt.close()
ipListTxt.close()
def genSurgeGFWAndChinaIPConf():
f = codecs.open('template/surge_gfwlist&whiteIP_conf', 'r', 'utf-8')
gfwlist = codecs.open('list/gfwlist.txt', 'r', 'utf-8')
iplist = codecs.open('list/suchinaIPlist.txt', 'r', 'utf-8')
file_content = f.read()
iplist_buffer = iplist.read()
gfwlist_buffer = gfwlist.read()
gfwlist.close()
iplist.close()
f.close()
GEOIPList = 'GEOIP,CN,CNProxy'
file_content = file_content.replace('__GFWLIST__', gfwlist_buffer)
file_content = file_content.replace('__CHINAIP__', GEOIPList)
confs = codecs.open('configFileHere/surge_gfwlist&GEOIP.conf', 'w', 'utf-8')
confs.write(file_content)
confs.close()
file_content = file_content.replace(GEOIPList, iplist_buffer)
confw = codecs.open('configFileHere/surge_gfwlist&whiteIP.conf', 'w', 'utf-8')
confw.write(file_content)
confw.close()
def genShadowrocketGFWAndChinaIPConf():
f = codecs.open('template/shadowrocket_gfwlist&whiteIP_conf', 'r', 'utf-8')
gfwlist = codecs.open('list/gfwlist.txt', 'r', 'utf-8')
iplist = codecs.open('list/srchinaIPlist.txt', 'r', 'utf-8')
file_content = f.read()
iplist_buffer = iplist.read()
gfwlist_buffer = gfwlist.read()
gfwlist.close()
iplist.close()
f.close()
GEOIPList = 'GEOIP,CN,DIRECT'
file_content = file_content.replace('__GFWLIST__', gfwlist_buffer.replace('Proxy', 'PROXY'))
file_content = file_content.replace('__CHINAIP__', GEOIPList)
confs = codecs.open('configFileHere/shadowrocket_gfwlist&GEOIP.conf', 'w', 'utf-8')
confs.write(file_content)
confs.close()
file_content = file_content.replace(GEOIPList, iplist_buffer)
confw = codecs.open('configFileHere/shadowrocket_gfwlist&whiteIP.conf', 'w', 'utf-8')
confw.write(file_content)
confw.close()
def genQuantumultGFWAndChinaIPConf():
f = codecs.open('template/quan_gfwlist&whiteIP_conf', 'r', 'utf-8')
fx = codecs.open('template/quan_x_conf', 'r', 'utf-8')
gfwlist = codecs.open('list/gfwlist.txt', 'r', 'utf-8')
iplist = codecs.open('list/sqchinaIPlist.txt', 'r', 'utf-8')
file_content = f.read()
fileX_content = fx.read()
iplist_buffer = iplist.read()
gfwlist_buffer = gfwlist.read()
gfwlist.close()
iplist.close()
f.close()
GEOIPList = 'GEOIP,CN,国内'
file_content = file_content.replace('__GFWLIST__', gfwlist_buffer.replace('DOMAIN-SUFFIX,', 'HOST-SUFFIX,')).replace('Proxy', '代理')
file_content = file_content.replace('__CHINAIP__', GEOIPList)
confs = codecs.open('configFileHere/quan_gfwlist&GEOIP.conf', 'w', 'utf-8')
confs.write(file_content)
confs.close()
fileX_content = fileX_content.replace('__GFWLIST__',gfwlist_buffer.replace('DOMAIN-SUFFIX,', 'HOST-SUFFIX,')).replace('Proxy','代理')
confx = codecs.open('configFileHere/quan_x.conf', 'w', 'utf-8')
confx.write(fileX_content)
confx.close()
file_content = file_content.replace(GEOIPList, iplist_buffer)
confw = codecs.open('configFileHere/quan_gfwlist&whiteIP.conf', 'w', 'utf-8')
confw.write(file_content)
confw.close()
confiplist = codecs.open('configFileHere/Quantumult_RULELIST/CNIP.list', 'w', 'utf-8')
confiplist.write(iplist_buffer)
confiplist.close()
confgfwlist = codecs.open('configFileHere/Quantumult_RULELIST/GFW.list', 'w', 'utf-8')
confgfwlist.write(gfwlist_buffer.replace('DOMAIN-SUFFIX,', 'HOST-SUFFIX,').replace(',Proxy', ',代理'))
confgfwlist.close()
def genClashConf():
f = codecs.open('template/clash_conf', 'r', 'utf-8')
file_content = f.read()
gfwlist = codecs.open('list/gfwlist.txt', 'r', 'utf-8')
gfwlist_buffer = gfwlist.read()
gfwlist.close()
f.close()
file_content = file_content.replace('__GFWLIST__',gfwlist_buffer.replace('DOMAIN-SUFFIX,', '- DOMAIN-SUFFIX,'))
confs = codecs.open('configFileHere/clash_config.yaml', 'w', 'utf-8')
confs.write(file_content)
confs.close()
def main():
print('Getting GFW list...')
getGfwList()
print('Getting chinaIP list...')
getSurgeChinaIPList()
getShadowrocketChinaIPList()
getQuanChinaIPList()
print('Generate config file:surge shadowrocket quantumult clash conf files success')
genSurgeGFWAndChinaIPConf()
genShadowrocketGFWAndChinaIPConf()
genQuantumultGFWAndChinaIPConf()
genClashConf()
print('All done!')
print('Now you need edit config file to add your server infomation.')
if __name__ == '__main__':
main()
| 4,384 |
442 | #!/usr/bin/env python
import npyscreen
class EditorFormExample(npyscreen.FormMutt):
MAIN_WIDGET_CLASS = npyscreen.MultiLineEdit
class TestApp(npyscreen.NPSApp):
def main(self):
F = EditorFormExample()
F.wStatus1.value = "Status Line "
F.wStatus2.value = "Second Status Line "
F.edit()
if __name__ == "__main__":
App = TestApp()
App.run()
| 177 |
1,364 | package kilim.test.ex;
public class ExA {
}
| 19 |
14,425 | <gh_stars>1000+
/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.hadoop.hdfs.server.common.sps;
import org.apache.hadoop.classification.InterfaceAudience;
import org.apache.hadoop.classification.InterfaceStability;
import org.apache.hadoop.fs.StorageType;
import org.apache.hadoop.hdfs.protocol.Block;
import org.apache.hadoop.hdfs.protocol.DatanodeInfo;
/**
* This class represents status from a block movement task. This will have the
* information of the task which was successful or failed due to errors.
*/
@InterfaceAudience.Private
@InterfaceStability.Evolving
public class BlockMovementAttemptFinished {
private final Block block;
private final DatanodeInfo src;
private final DatanodeInfo target;
private final StorageType targetType;
private final BlockMovementStatus status;
/**
* Construct movement attempt finished info.
*
* @param block
* block
* @param src
* src datanode
* @param target
* target datanode
* @param targetType
* target storage type
* @param status
* movement status
*/
public BlockMovementAttemptFinished(Block block, DatanodeInfo src,
DatanodeInfo target, StorageType targetType, BlockMovementStatus status) {
this.block = block;
this.src = src;
this.target = target;
this.targetType = targetType;
this.status = status;
}
/**
* @return details of the block, which attempted to move from src to target
* node.
*/
public Block getBlock() {
return block;
}
/**
* @return the target datanode where it moved the block.
*/
public DatanodeInfo getTargetDatanode() {
return target;
}
/**
* @return target storage type.
*/
public StorageType getTargetType() {
return targetType;
}
/**
* @return block movement status code.
*/
public BlockMovementStatus getStatus() {
return status;
}
@Override
public String toString() {
return new StringBuilder().append("Block movement attempt finished(\n ")
.append(" block : ").append(block).append(" src node: ").append(src)
.append(" target node: ").append(target).append(" target type: ")
.append(targetType).append(" movement status: ")
.append(status).append(")").toString();
}
} | 975 |
1,884 | <filename>tests/test_models/test_backbones/test_sr_backbones/test_real_basicvsr_net.py
# Copyright (c) OpenMMLab. All rights reserved.
import pytest
import torch
from mmedit.models.backbones.sr_backbones.real_basicvsr_net import \
RealBasicVSRNet
def test_real_basicvsr_net():
"""Test RealBasicVSR."""
# cpu
# is_fix_cleaning = False
real_basicvsr = RealBasicVSRNet(is_fix_cleaning=False)
# is_sequential_cleaning = False
real_basicvsr = RealBasicVSRNet(
is_fix_cleaning=True, is_sequential_cleaning=False)
input_tensor = torch.rand(1, 5, 3, 64, 64)
real_basicvsr.init_weights(pretrained=None)
output = real_basicvsr(input_tensor)
assert output.shape == (1, 5, 3, 256, 256)
# is_sequential_cleaning = True, return_lq = True
real_basicvsr = RealBasicVSRNet(
is_fix_cleaning=True, is_sequential_cleaning=True)
output, lq = real_basicvsr(input_tensor, return_lqs=True)
assert output.shape == (1, 5, 3, 256, 256)
assert lq.shape == (1, 5, 3, 64, 64)
with pytest.raises(TypeError):
# pretrained should be str or None
real_basicvsr.init_weights(pretrained=[1])
# gpu
if torch.cuda.is_available():
# is_fix_cleaning = False
real_basicvsr = RealBasicVSRNet(is_fix_cleaning=False).cuda()
# is_sequential_cleaning = False
real_basicvsr = RealBasicVSRNet(
is_fix_cleaning=True, is_sequential_cleaning=False).cuda()
input_tensor = torch.rand(1, 5, 3, 64, 64).cuda()
real_basicvsr.init_weights(pretrained=None)
output = real_basicvsr(input_tensor)
assert output.shape == (1, 5, 3, 256, 256)
# is_sequential_cleaning = True, return_lq = True
real_basicvsr = RealBasicVSRNet(
is_fix_cleaning=True, is_sequential_cleaning=True).cuda()
output, lq = real_basicvsr(input_tensor, return_lqs=True)
assert output.shape == (1, 5, 3, 256, 256)
assert lq.shape == (1, 5, 3, 64, 64)
with pytest.raises(TypeError):
# pretrained should be str or None
real_basicvsr.init_weights(pretrained=[1])
| 944 |
488 | // anonymous inline struct fields
// originally found in package elinks_0.9.3-1
// a.i:4:62: error: field `dummy2' is not a class member
// ERR-MATCH: is not a class member
int main () {
// invalid, rejected by gcc-3.4.3
//ERROR(1): int x = (int) &((struct {int dummy1; int dummy2;} *) 0)->dummy2;
// all these are invalid
//ERROR(2): (struct { int x; }*)0;
//ERROR(3): const_cast<struct { int x; }*>(0);
//ERROR(4): static_cast<struct { int x; }*>(0);
//ERROR(5): dynamic_cast<struct { int x; }*>(0);
//ERROR(6): reinterpret_cast<struct { int x; }*>(0);
}
| 251 |
14,668 | # Copyright 2014 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
from telemetry.page import shared_page_state
from telemetry import story
from page_sets import top_pages
def _IssueMarkerAndScroll(action_runner, scroll_forever):
with action_runner.CreateGestureInteraction('ScrollAction'):
action_runner.ScrollPage()
if scroll_forever:
while True:
action_runner.ScrollPage(direction='up')
action_runner.ScrollPage(direction='down')
def _CreatePageClassWithSmoothInteractions(page_cls):
class DerivedSmoothPage(page_cls): # pylint: disable=no-init
def RunPageInteractions(self, action_runner):
action_runner.Wait(1)
_IssueMarkerAndScroll(action_runner, self.story_set.scroll_forever)
return DerivedSmoothPage
class Top25SmoothPage(top_pages.TopPages):
def RunPageInteractions(self, action_runner):
action_runner.Wait(1)
_IssueMarkerAndScroll(action_runner, self.story_set.scroll_forever)
class GmailSmoothPage(top_pages.GmailPage):
""" Why: productivity, top google properties """
def RunPageInteractions(self, action_runner):
action_runner.ExecuteJavaScript("""
gmonkey.load('2.0', function(api) {
window.__scrollableElementForTelemetry = api.getScrollableElement();
});""")
action_runner.WaitForJavaScriptCondition(
'window.__scrollableElementForTelemetry != null')
action_runner.Wait(1)
with action_runner.CreateGestureInteraction('ScrollAction'):
action_runner.ScrollElement(
element_function='window.__scrollableElementForTelemetry')
if self.story_set.scroll_forever:
while True:
action_runner.ScrollElement(
direction='up',
element_function='window.__scrollableElementForTelemetry')
action_runner.ScrollElement(
direction='down',
element_function='window.__scrollableElementForTelemetry')
class GoogleCalendarSmoothPage(top_pages.GoogleCalendarPage):
""" Why: productivity, top google properties """
def RunPageInteractions(self, action_runner):
action_runner.Wait(1)
with action_runner.CreateGestureInteraction('ScrollAction'):
action_runner.ScrollElement(selector='#scrolltimedeventswk')
if self.story_set.scroll_forever:
while True:
action_runner.ScrollElement(
direction='up', selector='#scrolltimedeventswk')
action_runner.ScrollElement(
direction='down', selector='#scrolltimedeventswk')
class GoogleDocSmoothPage(top_pages.GoogleDocPage):
""" Why: productivity, top google properties; Sample doc in the link """
def RunPageInteractions(self, action_runner):
action_runner.Wait(1)
with action_runner.CreateGestureInteraction('ScrollAction'):
action_runner.ScrollElement(selector='.kix-appview-editor')
if self.story_set.scroll_forever:
while True:
action_runner.ScrollElement(
direction='up', selector='.kix-appview-editor')
action_runner.ScrollElement(
direction='down', selector='.kix-appview-editor')
class ESPNSmoothPage(top_pages.ESPNPage):
""" Why: #1 sports """
def RunPageInteractions(self, action_runner):
action_runner.Wait(1)
with action_runner.CreateGestureInteraction('ScrollAction'):
action_runner.ScrollPage(left_start_ratio=0.1)
if self.story_set.scroll_forever:
while True:
action_runner.ScrollPage(direction='up', left_start_ratio=0.1)
action_runner.ScrollPage(direction='down', left_start_ratio=0.1)
_SMOOTH_PAGE_CLASSES = [
(GmailSmoothPage, 'gmail'),
(GoogleCalendarSmoothPage, 'google_calendar'),
(GoogleDocSmoothPage, 'google_docs'),
(ESPNSmoothPage, 'espn'),
]
_NON_SMOOTH_PAGE_CLASSES = [
(top_pages.GoogleWebSearchPage, 'google_web_search'),
(top_pages.GoogleImageSearchPage, 'google_image_search'),
(top_pages.GooglePlusPage, 'google_plus'),
(top_pages.YoutubePage, 'youtube'),
(top_pages.BlogspotPage, 'blogspot'),
(top_pages.WordpressPage, 'wordpress'),
(top_pages.FacebookPage, 'facebook'),
(top_pages.LinkedinPage, 'linkedin'),
(top_pages.WikipediaPage, 'wikipedia'),
(top_pages.TwitterPage, 'twitter'),
(top_pages.PinterestPage, 'pinterest'),
(top_pages.WeatherPage, 'weather.com'),
(top_pages.YahooGamesPage, 'yahoo_games'),
]
_PAGE_URLS = [
# Why: #1 news worldwide (Alexa global)
('http://news.yahoo.com', 'yahoo_news'),
# Why: #2 news worldwide
('http://www.cnn.com', 'cnn'),
# Why: #1 world commerce website by visits; #3 commerce in the US by
# time spent
('http://www.amazon.com', 'amazon'),
# Why: #1 commerce website by time spent by users in US
('http://www.ebay.com', 'ebay'),
# Why: #1 Alexa recreation
('http://booking.com', 'booking.com'),
# Why: #1 Alexa reference
('http://answers.yahoo.com', 'yahoo_answers'),
# Why: #1 Alexa sports
('http://sports.yahoo.com/', 'yahoo_sports'),
# Why: top tech blog
('http://techcrunch.com', 'techcrunch'),
]
def AddPagesToPageSet(
page_set,
shared_page_state_class=shared_page_state.SharedDesktopPageState,
name_func=lambda name: name,
extra_browser_args=None):
for page_class, page_name in _SMOOTH_PAGE_CLASSES:
page_set.AddStory(
page_class(
page_set=page_set,
shared_page_state_class=shared_page_state_class,
name=name_func(page_name),
extra_browser_args=extra_browser_args))
for page_class, page_name in _NON_SMOOTH_PAGE_CLASSES:
page_set.AddStory(
_CreatePageClassWithSmoothInteractions(page_class)(
page_set=page_set,
shared_page_state_class=shared_page_state_class,
name=name_func(page_name),
extra_browser_args=extra_browser_args))
for page_url, page_name in _PAGE_URLS:
page_set.AddStory(
Top25SmoothPage(
url=page_url,
page_set=page_set,
shared_page_state_class=shared_page_state_class,
name=name_func(page_name),
extra_browser_args=extra_browser_args))
class Top25SmoothPageSet(story.StorySet):
""" Pages hand-picked for 2012 CrOS scrolling tuning efforts. """
def __init__(self, scroll_forever=False):
super(Top25SmoothPageSet, self).__init__(
archive_data_file='data/top_25_smooth.json',
cloud_storage_bucket=story.PARTNER_BUCKET)
self.scroll_forever = scroll_forever
AddPagesToPageSet(self)
| 2,535 |
1,644 | // Copyright 2018 The Nomulus Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package google.registry.rde;
import static org.bouncycastle.openpgp.PGPLiteralData.BINARY;
import static org.joda.time.DateTimeZone.UTC;
import google.registry.util.ImprovedInputStream;
import google.registry.util.ImprovedOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import javax.annotation.CheckReturnValue;
import javax.annotation.WillNotClose;
import org.bouncycastle.openpgp.PGPLiteralData;
import org.bouncycastle.openpgp.PGPLiteralDataGenerator;
import org.joda.time.DateTime;
/**
* Input/Output stream for reading/writing PGP literal data layer.
*
* <p>OpenPGP messages are like an onion; there can be many layers like compression and encryption.
* It's important to wrap out plaintext in a literal data layer such as this so the code that's
* unwrapping the onion knows when to stop.
*
* <p>According to escrow spec, the PGP message should contain a single tar file.
*/
final class RydeFileEncoding {
private static final int BUFFER_SIZE = 64 * 1024;
/**
* Creates an OutputStream that encodes the data as a PGP file blob.
*
* <p>TODO(b/110465964): document where the input comes from / output goes to. Something like
* documenting that os is the result of openCompressor and the result is used for the actual file
* data (Ghostryde) / goes in to openTarEncoder (RyDE).
*
* @param os where to write the file blob. Is not closed by this object.
* @param filename the filename to set in the file's metadata.
* @param modified the modification time to set in the file's metadata.
*/
@CheckReturnValue
static ImprovedOutputStream openPgpFileWriter(
@WillNotClose OutputStream os, String filename, DateTime modified) {
try {
return new ImprovedOutputStream(
"PgpFileWriter",
new PGPLiteralDataGenerator()
.open(os, BINARY, filename, modified.toDate(), new byte[BUFFER_SIZE]));
} catch (IOException e) {
throw new RuntimeException(e);
}
}
/** Input stream to a PGP file's data that also holds the file's metadata. */
static class PgpFileInputStream extends ImprovedInputStream {
private final String filename;
private final DateTime modified;
private PgpFileInputStream(PGPLiteralData literal) {
super("PgpFileReader", literal.getDataStream());
filename = literal.getFileName();
modified = new DateTime(literal.getModificationTime(), UTC);
}
/** Returns the name of the original file. */
String getFilename() {
return filename;
}
/** Returns the time this file was created or modified. */
DateTime getModified() {
return modified;
}
}
/**
* Opens an InputStream to a PGP file blob's data.
*
* <p>The result includes the file's metadata - the file name and modification time.
*
* <p>TODO(b/110465964): document where the input comes from / output goes to. Something like
* documenting that input is the result of openDecompressor and the result is the final file
* (Ghostryde) / goes into openTarDecoder (RyDE).
*
* @param input from where to read the file blob.
*/
@CheckReturnValue
static PgpFileInputStream openPgpFileReader(@WillNotClose InputStream input) {
return new PgpFileInputStream(PgpUtils.readSinglePgpObject(input, PGPLiteralData.class));
}
private RydeFileEncoding() {}
}
| 1,240 |
379 | package am.appwise.components.ni;
/**
* Created by robertlevonyan on 11/21/17.
*/
interface ConnectionListener {
void onWifiTurnedOn();
void onWifiTurnedOff();
}
| 65 |
831 | <gh_stars>100-1000
from siuba.spec.series import spec
from siuba.siu import CallTreeLocal, FunctionLookupError
from siuba.experimental.pd_groups.translate import SeriesGroupBy, GroupByAgg, GROUP_METHODS
from siuba.experimental.pd_groups.groupby import broadcast_agg, is_compatible
# TODO: make into CallTreeLocal factory function
out = {}
call_props = set()
for name, entry in spec.items():
#if entry['result']['type']: continue
kind = entry['action'].get('kind') or entry['action'].get('status')
key = (kind.title(), entry['action']['data_arity'])
# add properties like df.dtype, so we know they are method calls
if entry['is_property'] and not entry['accessor']:
call_props.add(name)
meth = GROUP_METHODS[key](
name = name.split('.')[-1],
is_property = entry['is_property'],
accessor = entry['accessor']
)
# TODO: returning this exception class from group methods is weird, but I
# think also used in tests
if meth is NotImplementedError:
continue
out[name] = meth
call_listener = CallTreeLocal(
out,
call_sub_attr = ('str', 'dt', 'cat', 'sparse'),
chain_sub_attr = True,
dispatch_cls = GroupByAgg,
result_cls = SeriesGroupBy,
call_props = call_props
)
# Fast group by verbs =========================================================
from siuba.siu import Call
from siuba.dply.verbs import mutate, filter, summarize, singledispatch2, DataFrameGroupBy
from pandas.core.dtypes.inference import is_scalar
import warnings
def fallback_warning(expr, reason):
warnings.warn(
"The expression below cannot be executed quickly. "
"Using the slow (but general) pandas apply method."
"\n\nExpression: {}\nReason: {}"
.format(expr, reason)
)
def grouped_eval(__data, expr, require_agg = False):
if is_scalar(expr):
return expr
if isinstance(expr, Call):
try:
call = call_listener.enter(expr)
except FunctionLookupError as e:
fallback_warning(expr, str(e))
call = expr
#
grouped_res = call(__data)
if isinstance(grouped_res, SeriesGroupBy):
if not is_compatible(grouped_res, __data):
raise ValueError("Incompatible groupers")
# TODO: may want to validate result is correct length / index?
# e.g. a SeriesGroupBy could be compatible and not an agg
if require_agg:
return grouped_res.obj
else:
# broadcast from aggregate to original length (like transform)
return broadcast_agg(grouped_res)
else:
# can happen right now if user selects, e.g., a property of the
# groupby object, like .dtype, which returns a single value
# in the future, could restrict set of operations user could perform
raise ValueError("Result must be subclass of SeriesGroupBy")
raise ValueError("Grouped expressions must be a siu expression or scalar")
# Fast mutate ----
def _transform_args(args):
out = []
for expr in args:
if is_scalar(expr):
out.append(expr)
elif isinstance(expr, Call):
try:
call = call_listener.enter(expr)
out.append(call)
except FunctionLookupError as e:
fallback_warning(expr, str(e))
return None
elif callable(expr):
return None
return out
def _copy_dispatch(dispatcher, cls, func = None):
if func is None:
return lambda f: _copy_dispatch(dispatcher, cls, f)
# Note stripping symbolics may occur twice. Once in the original, and once
# in this dispatcher.
new_dispatch = singledispatch2(cls, func)
new_dispatch.register(object, dispatcher)
return new_dispatch
@_copy_dispatch(mutate, DataFrameGroupBy)
def fast_mutate(__data, **kwargs):
"""Warning: this function is experimental"""
# transform call trees, potentially bail out to slow method --------
new_vals = _transform_args(kwargs.values())
if new_vals is None:
return mutate(__data, **kwargs)
# perform fast method ----
out = __data.obj.copy()
groupings = __data.grouper.groupings
for name, expr in zip(kwargs, new_vals):
res = grouped_eval(__data, expr)
out[name] = res
return out.groupby(groupings)
# Fast filter ----
@_copy_dispatch(filter, DataFrameGroupBy)
def fast_filter(__data, *args):
"""Warning: this function is experimental"""
# transform call trees, potentially bail out to slow method --------
new_vals = _transform_args(args)
if new_vals is None:
return filter(__data, *args)
# perform fast method ----
out = []
groupings = __data.grouper.groupings
for expr in args:
res = grouped_eval(__data, expr)
out.append(res)
filter_df = filter.dispatch(__data.obj.__class__)
df_result = filter_df(__data.obj, *out)
# TODO: research how to efficiently & robustly subset groupings
group_names = [ping.name for ping in groupings]
return df_result.groupby(group_names)
# Fast summarize ----
@_copy_dispatch(summarize, DataFrameGroupBy)
def fast_summarize(__data, **kwargs):
"""Warning: this function is experimental"""
# transform call trees, potentially bail out to slow method --------
new_vals = _transform_args(kwargs.values())
if new_vals is None:
return summarize(__data, **kwargs)
# perform fast method ----
groupings = __data.grouper.groupings
# TODO: better way of getting this frame?
out = __data.grouper.result_index.to_frame()
for name, expr in kwargs.items():
# special case: set scalars directly
res = grouped_eval(__data, expr, require_agg = True)
out[name] = res
return out.reset_index(drop = True)
| 2,396 |
563 | <filename>ldm/models/autoencoder.py
import torch
import pytorch_lightning as pl
import torch.nn.functional as F
from contextlib import contextmanager
from taming.modules.vqvae.quantize import VectorQuantizer2 as VectorQuantizer
from ldm.modules.diffusionmodules.model import Encoder, Decoder
from ldm.modules.distributions.distributions import DiagonalGaussianDistribution
from ldm.util import instantiate_from_config
class VQModel(pl.LightningModule):
def __init__(self,
ddconfig,
lossconfig,
n_embed,
embed_dim,
ckpt_path=None,
ignore_keys=[],
image_key="image",
colorize_nlabels=None,
monitor=None,
batch_resize_range=None,
scheduler_config=None,
lr_g_factor=1.0,
remap=None,
sane_index_shape=False, # tell vector quantizer to return indices as bhw
use_ema=False
):
super().__init__()
self.embed_dim = embed_dim
self.n_embed = n_embed
self.image_key = image_key
self.encoder = Encoder(**ddconfig)
self.decoder = Decoder(**ddconfig)
self.loss = instantiate_from_config(lossconfig)
self.quantize = VectorQuantizer(n_embed, embed_dim, beta=0.25,
remap=remap,
sane_index_shape=sane_index_shape)
self.quant_conv = torch.nn.Conv2d(ddconfig["z_channels"], embed_dim, 1)
self.post_quant_conv = torch.nn.Conv2d(embed_dim, ddconfig["z_channels"], 1)
if colorize_nlabels is not None:
assert type(colorize_nlabels)==int
self.register_buffer("colorize", torch.randn(3, colorize_nlabels, 1, 1))
if monitor is not None:
self.monitor = monitor
self.batch_resize_range = batch_resize_range
if self.batch_resize_range is not None:
print(f"{self.__class__.__name__}: Using per-batch resizing in range {batch_resize_range}.")
self.use_ema = use_ema
if self.use_ema:
self.model_ema = LitEma(self)
print(f"Keeping EMAs of {len(list(self.model_ema.buffers()))}.")
if ckpt_path is not None:
self.init_from_ckpt(ckpt_path, ignore_keys=ignore_keys)
self.scheduler_config = scheduler_config
self.lr_g_factor = lr_g_factor
@contextmanager
def ema_scope(self, context=None):
if self.use_ema:
self.model_ema.store(self.parameters())
self.model_ema.copy_to(self)
if context is not None:
print(f"{context}: Switched to EMA weights")
try:
yield None
finally:
if self.use_ema:
self.model_ema.restore(self.parameters())
if context is not None:
print(f"{context}: Restored training weights")
def init_from_ckpt(self, path, ignore_keys=list()):
sd = torch.load(path, map_location="cpu")["state_dict"]
keys = list(sd.keys())
for k in keys:
for ik in ignore_keys:
if k.startswith(ik):
print("Deleting key {} from state_dict.".format(k))
del sd[k]
missing, unexpected = self.load_state_dict(sd, strict=False)
print(f"Restored from {path} with {len(missing)} missing and {len(unexpected)} unexpected keys")
if len(missing) > 0:
print(f"Missing Keys: {missing}")
print(f"Unexpected Keys: {unexpected}")
def on_train_batch_end(self, *args, **kwargs):
if self.use_ema:
self.model_ema(self)
def encode(self, x):
h = self.encoder(x)
h = self.quant_conv(h)
quant, emb_loss, info = self.quantize(h)
return quant, emb_loss, info
def encode_to_prequant(self, x):
h = self.encoder(x)
h = self.quant_conv(h)
return h
def decode(self, quant):
quant = self.post_quant_conv(quant)
dec = self.decoder(quant)
return dec
def decode_code(self, code_b):
quant_b = self.quantize.embed_code(code_b)
dec = self.decode(quant_b)
return dec
def forward(self, input, return_pred_indices=False):
quant, diff, (_,_,ind) = self.encode(input)
dec = self.decode(quant)
if return_pred_indices:
return dec, diff, ind
return dec, diff
def get_input(self, batch, k):
x = batch[k]
if len(x.shape) == 3:
x = x[..., None]
x = x.permute(0, 3, 1, 2).to(memory_format=torch.contiguous_format).float()
if self.batch_resize_range is not None:
lower_size = self.batch_resize_range[0]
upper_size = self.batch_resize_range[1]
if self.global_step <= 4:
# do the first few batches with max size to avoid later oom
new_resize = upper_size
else:
new_resize = np.random.choice(np.arange(lower_size, upper_size+16, 16))
if new_resize != x.shape[2]:
x = F.interpolate(x, size=new_resize, mode="bicubic")
x = x.detach()
return x
def training_step(self, batch, batch_idx, optimizer_idx):
# https://github.com/pytorch/pytorch/issues/37142
# try not to fool the heuristics
x = self.get_input(batch, self.image_key)
xrec, qloss, ind = self(x, return_pred_indices=True)
if optimizer_idx == 0:
# autoencode
aeloss, log_dict_ae = self.loss(qloss, x, xrec, optimizer_idx, self.global_step,
last_layer=self.get_last_layer(), split="train",
predicted_indices=ind)
self.log_dict(log_dict_ae, prog_bar=False, logger=True, on_step=True, on_epoch=True)
return aeloss
if optimizer_idx == 1:
# discriminator
discloss, log_dict_disc = self.loss(qloss, x, xrec, optimizer_idx, self.global_step,
last_layer=self.get_last_layer(), split="train")
self.log_dict(log_dict_disc, prog_bar=False, logger=True, on_step=True, on_epoch=True)
return discloss
def validation_step(self, batch, batch_idx):
log_dict = self._validation_step(batch, batch_idx)
with self.ema_scope():
log_dict_ema = self._validation_step(batch, batch_idx, suffix="_ema")
return log_dict
def _validation_step(self, batch, batch_idx, suffix=""):
x = self.get_input(batch, self.image_key)
xrec, qloss, ind = self(x, return_pred_indices=True)
aeloss, log_dict_ae = self.loss(qloss, x, xrec, 0,
self.global_step,
last_layer=self.get_last_layer(),
split="val"+suffix,
predicted_indices=ind
)
discloss, log_dict_disc = self.loss(qloss, x, xrec, 1,
self.global_step,
last_layer=self.get_last_layer(),
split="val"+suffix,
predicted_indices=ind
)
rec_loss = log_dict_ae[f"val{suffix}/rec_loss"]
self.log(f"val{suffix}/rec_loss", rec_loss,
prog_bar=True, logger=True, on_step=False, on_epoch=True, sync_dist=True)
self.log(f"val{suffix}/aeloss", aeloss,
prog_bar=True, logger=True, on_step=False, on_epoch=True, sync_dist=True)
if version.parse(pl.__version__) >= version.parse('1.4.0'):
del log_dict_ae[f"val{suffix}/rec_loss"]
self.log_dict(log_dict_ae)
self.log_dict(log_dict_disc)
return self.log_dict
def configure_optimizers(self):
lr_d = self.learning_rate
lr_g = self.lr_g_factor*self.learning_rate
print("lr_d", lr_d)
print("lr_g", lr_g)
opt_ae = torch.optim.Adam(list(self.encoder.parameters())+
list(self.decoder.parameters())+
list(self.quantize.parameters())+
list(self.quant_conv.parameters())+
list(self.post_quant_conv.parameters()),
lr=lr_g, betas=(0.5, 0.9))
opt_disc = torch.optim.Adam(self.loss.discriminator.parameters(),
lr=lr_d, betas=(0.5, 0.9))
if self.scheduler_config is not None:
scheduler = instantiate_from_config(self.scheduler_config)
print("Setting up LambdaLR scheduler...")
scheduler = [
{
'scheduler': LambdaLR(opt_ae, lr_lambda=scheduler.schedule),
'interval': 'step',
'frequency': 1
},
{
'scheduler': LambdaLR(opt_disc, lr_lambda=scheduler.schedule),
'interval': 'step',
'frequency': 1
},
]
return [opt_ae, opt_disc], scheduler
return [opt_ae, opt_disc], []
def get_last_layer(self):
return self.decoder.conv_out.weight
def log_images(self, batch, only_inputs=False, plot_ema=False, **kwargs):
log = dict()
x = self.get_input(batch, self.image_key)
x = x.to(self.device)
if only_inputs:
log["inputs"] = x
return log
xrec, _ = self(x)
if x.shape[1] > 3:
# colorize with random projection
assert xrec.shape[1] > 3
x = self.to_rgb(x)
xrec = self.to_rgb(xrec)
log["inputs"] = x
log["reconstructions"] = xrec
if plot_ema:
with self.ema_scope():
xrec_ema, _ = self(x)
if x.shape[1] > 3: xrec_ema = self.to_rgb(xrec_ema)
log["reconstructions_ema"] = xrec_ema
return log
def to_rgb(self, x):
assert self.image_key == "segmentation"
if not hasattr(self, "colorize"):
self.register_buffer("colorize", torch.randn(3, x.shape[1], 1, 1).to(x))
x = F.conv2d(x, weight=self.colorize)
x = 2.*(x-x.min())/(x.max()-x.min()) - 1.
return x
class VQModelInterface(VQModel):
def __init__(self, embed_dim, *args, **kwargs):
super().__init__(embed_dim=embed_dim, *args, **kwargs)
self.embed_dim = embed_dim
def encode(self, x):
h = self.encoder(x)
h = self.quant_conv(h)
return h
def decode(self, h, force_not_quantize=False):
# also go through quantization layer
if not force_not_quantize:
quant, emb_loss, info = self.quantize(h)
else:
quant = h
quant = self.post_quant_conv(quant)
dec = self.decoder(quant)
return dec
class AutoencoderKL(pl.LightningModule):
def __init__(self,
ddconfig,
lossconfig,
embed_dim,
ckpt_path=None,
ignore_keys=[],
image_key="image",
colorize_nlabels=None,
monitor=None,
):
super().__init__()
self.image_key = image_key
self.encoder = Encoder(**ddconfig)
self.decoder = Decoder(**ddconfig)
self.loss = instantiate_from_config(lossconfig)
assert ddconfig["double_z"]
self.quant_conv = torch.nn.Conv2d(2*ddconfig["z_channels"], 2*embed_dim, 1)
self.post_quant_conv = torch.nn.Conv2d(embed_dim, ddconfig["z_channels"], 1)
self.embed_dim = embed_dim
if colorize_nlabels is not None:
assert type(colorize_nlabels)==int
self.register_buffer("colorize", torch.randn(3, colorize_nlabels, 1, 1))
if monitor is not None:
self.monitor = monitor
if ckpt_path is not None:
self.init_from_ckpt(ckpt_path, ignore_keys=ignore_keys)
def init_from_ckpt(self, path, ignore_keys=list()):
sd = torch.load(path, map_location="cpu")["state_dict"]
keys = list(sd.keys())
for k in keys:
for ik in ignore_keys:
if k.startswith(ik):
print("Deleting key {} from state_dict.".format(k))
del sd[k]
self.load_state_dict(sd, strict=False)
print(f"Restored from {path}")
def encode(self, x):
h = self.encoder(x)
moments = self.quant_conv(h)
posterior = DiagonalGaussianDistribution(moments)
return posterior
def decode(self, z):
z = self.post_quant_conv(z)
dec = self.decoder(z)
return dec
def forward(self, input, sample_posterior=True):
posterior = self.encode(input)
if sample_posterior:
z = posterior.sample()
else:
z = posterior.mode()
dec = self.decode(z)
return dec, posterior
def get_input(self, batch, k):
x = batch[k]
if len(x.shape) == 3:
x = x[..., None]
x = x.permute(0, 3, 1, 2).to(memory_format=torch.contiguous_format).float()
return x
def training_step(self, batch, batch_idx, optimizer_idx):
inputs = self.get_input(batch, self.image_key)
reconstructions, posterior = self(inputs)
if optimizer_idx == 0:
# train encoder+decoder+logvar
aeloss, log_dict_ae = self.loss(inputs, reconstructions, posterior, optimizer_idx, self.global_step,
last_layer=self.get_last_layer(), split="train")
self.log("aeloss", aeloss, prog_bar=True, logger=True, on_step=True, on_epoch=True)
self.log_dict(log_dict_ae, prog_bar=False, logger=True, on_step=True, on_epoch=False)
return aeloss
if optimizer_idx == 1:
# train the discriminator
discloss, log_dict_disc = self.loss(inputs, reconstructions, posterior, optimizer_idx, self.global_step,
last_layer=self.get_last_layer(), split="train")
self.log("discloss", discloss, prog_bar=True, logger=True, on_step=True, on_epoch=True)
self.log_dict(log_dict_disc, prog_bar=False, logger=True, on_step=True, on_epoch=False)
return discloss
def validation_step(self, batch, batch_idx):
inputs = self.get_input(batch, self.image_key)
reconstructions, posterior = self(inputs)
aeloss, log_dict_ae = self.loss(inputs, reconstructions, posterior, 0, self.global_step,
last_layer=self.get_last_layer(), split="val")
discloss, log_dict_disc = self.loss(inputs, reconstructions, posterior, 1, self.global_step,
last_layer=self.get_last_layer(), split="val")
self.log("val/rec_loss", log_dict_ae["val/rec_loss"])
self.log_dict(log_dict_ae)
self.log_dict(log_dict_disc)
return self.log_dict
def configure_optimizers(self):
lr = self.learning_rate
opt_ae = torch.optim.Adam(list(self.encoder.parameters())+
list(self.decoder.parameters())+
list(self.quant_conv.parameters())+
list(self.post_quant_conv.parameters()),
lr=lr, betas=(0.5, 0.9))
opt_disc = torch.optim.Adam(self.loss.discriminator.parameters(),
lr=lr, betas=(0.5, 0.9))
return [opt_ae, opt_disc], []
def get_last_layer(self):
return self.decoder.conv_out.weight
@torch.no_grad()
def log_images(self, batch, only_inputs=False, **kwargs):
log = dict()
x = self.get_input(batch, self.image_key)
x = x.to(self.device)
if not only_inputs:
xrec, posterior = self(x)
if x.shape[1] > 3:
# colorize with random projection
assert xrec.shape[1] > 3
x = self.to_rgb(x)
xrec = self.to_rgb(xrec)
log["samples"] = self.decode(torch.randn_like(posterior.sample()))
log["reconstructions"] = xrec
log["inputs"] = x
return log
def to_rgb(self, x):
assert self.image_key == "segmentation"
if not hasattr(self, "colorize"):
self.register_buffer("colorize", torch.randn(3, x.shape[1], 1, 1).to(x))
x = F.conv2d(x, weight=self.colorize)
x = 2.*(x-x.min())/(x.max()-x.min()) - 1.
return x
class IdentityFirstStage(torch.nn.Module):
def __init__(self, *args, vq_interface=False, **kwargs):
self.vq_interface = vq_interface # TODO: Should be true by default but check to not break older stuff
super().__init__()
def encode(self, x, *args, **kwargs):
return x
def decode(self, x, *args, **kwargs):
return x
def quantize(self, x, *args, **kwargs):
if self.vq_interface:
return x, None, [None, None, None]
return x
def forward(self, x, *args, **kwargs):
return x
| 9,251 |
2,116 | <reponame>therodfather/neko<gh_stars>1000+
{
"go.formatTool": "goformat",
"go.inferGopath": false,
"go.autocompleteUnimportedPackages": true,
"go.delveConfig": {
"useApiV1": false,
"dlvLoadConfig": {
"followPointers": true,
"maxVariableRecurse": 3,
"maxStringLen": 400,
"maxArrayValues": 400,
"maxStructFields": -1
}
},
"[go]": {
"editor.formatOnSave": true,
"editor.codeActionsOnSave": {
"source.organizeImports": true
}
}
}
| 272 |
1,921 | <gh_stars>1000+
def get_first_recurring(string):
seen = set()
for char in string:
if char in seen:
return char
seen.add(char)
return None
# Tests
assert get_first_recurring("acbbac") == "b"
assert not get_first_recurring("abcdef")
| 117 |
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