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Methods2Test_java_unit_test_code

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train · 624k rows

target stringlengths 20 113k	src_fm stringlengths 11 86.3k	src_fm_fc stringlengths 21 86.4k	src_fm_fc_co stringlengths 30 86.4k	src_fm_fc_ms stringlengths 42 86.8k	src_fm_fc_ms_ff stringlengths 43 86.8k
@Test (expected = IllegalArgumentException.class) public void testParseInvalidInvalidAlg () { MIC.parse ("VGVzdA==, blub"); }	@Nullable public static MIC parse (@Nullable final String sMIC) { if (StringHelper.hasNoText (sMIC)) return null; final StringTokenizer st = new StringTokenizer (sMIC, ", \t\r\n"); final String sMICBytes = st.nextToken (); final byte [] aMICBytes = Base64.safeDecode (sMICBytes); if (aMICBytes == null) throw new IllegalArgumentException ("Failed to base64 decode '" + sMICBytes + "'"); if (!st.hasMoreTokens ()) throw new IllegalArgumentException ("Separator after Base64 bytes is missing"); final String sAlgorithm = st.nextToken (); final ECryptoAlgorithmSign eDigestAlgorithm = ECryptoAlgorithmSign.getFromIDOrNull (sAlgorithm); if (eDigestAlgorithm == null) throw new IllegalArgumentException ("Failed to parse digest algorithm '" + sAlgorithm + "'"); return new MIC (aMICBytes, eDigestAlgorithm); }	MIC implements Serializable { @Nullable public static MIC parse (@Nullable final String sMIC) { if (StringHelper.hasNoText (sMIC)) return null; final StringTokenizer st = new StringTokenizer (sMIC, ", \t\r\n"); final String sMICBytes = st.nextToken (); final byte [] aMICBytes = Base64.safeDecode (sMICBytes); if (aMICBytes == null) throw new IllegalArgumentException ("Failed to base64 decode '" + sMICBytes + "'"); if (!st.hasMoreTokens ()) throw new IllegalArgumentException ("Separator after Base64 bytes is missing"); final String sAlgorithm = st.nextToken (); final ECryptoAlgorithmSign eDigestAlgorithm = ECryptoAlgorithmSign.getFromIDOrNull (sAlgorithm); if (eDigestAlgorithm == null) throw new IllegalArgumentException ("Failed to parse digest algorithm '" + sAlgorithm + "'"); return new MIC (aMICBytes, eDigestAlgorithm); } }	MIC implements Serializable { @Nullable public static MIC parse (@Nullable final String sMIC) { if (StringHelper.hasNoText (sMIC)) return null; final StringTokenizer st = new StringTokenizer (sMIC, ", \t\r\n"); final String sMICBytes = st.nextToken (); final byte [] aMICBytes = Base64.safeDecode (sMICBytes); if (aMICBytes == null) throw new IllegalArgumentException ("Failed to base64 decode '" + sMICBytes + "'"); if (!st.hasMoreTokens ()) throw new IllegalArgumentException ("Separator after Base64 bytes is missing"); final String sAlgorithm = st.nextToken (); final ECryptoAlgorithmSign eDigestAlgorithm = ECryptoAlgorithmSign.getFromIDOrNull (sAlgorithm); if (eDigestAlgorithm == null) throw new IllegalArgumentException ("Failed to parse digest algorithm '" + sAlgorithm + "'"); return new MIC (aMICBytes, eDigestAlgorithm); } MIC(@Nonnull final byte [] aMICBytes, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm); }	MIC implements Serializable { @Nullable public static MIC parse (@Nullable final String sMIC) { if (StringHelper.hasNoText (sMIC)) return null; final StringTokenizer st = new StringTokenizer (sMIC, ", \t\r\n"); final String sMICBytes = st.nextToken (); final byte [] aMICBytes = Base64.safeDecode (sMICBytes); if (aMICBytes == null) throw new IllegalArgumentException ("Failed to base64 decode '" + sMICBytes + "'"); if (!st.hasMoreTokens ()) throw new IllegalArgumentException ("Separator after Base64 bytes is missing"); final String sAlgorithm = st.nextToken (); final ECryptoAlgorithmSign eDigestAlgorithm = ECryptoAlgorithmSign.getFromIDOrNull (sAlgorithm); if (eDigestAlgorithm == null) throw new IllegalArgumentException ("Failed to parse digest algorithm '" + sAlgorithm + "'"); return new MIC (aMICBytes, eDigestAlgorithm); } MIC(@Nonnull final byte [] aMICBytes, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm); @Nonnull byte [] micBytes(); @Nonnull ECryptoAlgorithmSign getDigestAlgorithm(); @Nonnull @Nonempty String getAsAS2String(); @Override boolean equals(final Object o); @Override int hashCode(); @Override String toString(); @Nullable static MIC parse(@Nullable final String sMIC); }	MIC implements Serializable { @Nullable public static MIC parse (@Nullable final String sMIC) { if (StringHelper.hasNoText (sMIC)) return null; final StringTokenizer st = new StringTokenizer (sMIC, ", \t\r\n"); final String sMICBytes = st.nextToken (); final byte [] aMICBytes = Base64.safeDecode (sMICBytes); if (aMICBytes == null) throw new IllegalArgumentException ("Failed to base64 decode '" + sMICBytes + "'"); if (!st.hasMoreTokens ()) throw new IllegalArgumentException ("Separator after Base64 bytes is missing"); final String sAlgorithm = st.nextToken (); final ECryptoAlgorithmSign eDigestAlgorithm = ECryptoAlgorithmSign.getFromIDOrNull (sAlgorithm); if (eDigestAlgorithm == null) throw new IllegalArgumentException ("Failed to parse digest algorithm '" + sAlgorithm + "'"); return new MIC (aMICBytes, eDigestAlgorithm); } MIC(@Nonnull final byte [] aMICBytes, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm); @Nonnull byte [] micBytes(); @Nonnull ECryptoAlgorithmSign getDigestAlgorithm(); @Nonnull @Nonempty String getAsAS2String(); @Override boolean equals(final Object o); @Override int hashCode(); @Override String toString(); @Nullable static MIC parse(@Nullable final String sMIC); }
@Test (expected = EOFException.class) public void testReadChunkLenEOS () throws Exception { final InputStream noNewLine = new StringInputStream ("1", StandardCharsets.UTF_8); HTTPHelper.readChunkLen (noNewLine); fail ("An EOFException should have been thrown"); }	public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); static final String MA_HTTP_REQ_TYPE; static final String MA_HTTP_REQ_URL; static final String MA_HTTP_REQ_VERSION; }
@Test public void testReadChunkLenWithHeader () throws Exception { final NonBlockingByteArrayInputStream noNewLine = new NonBlockingByteArrayInputStream ("1A;name=value\r\n".getBytes (StandardCharsets.UTF_8)); final int res = HTTPHelper.readChunkLen (noNewLine); assertEquals ("Chunk size with header", 26, res); }	public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); static final String MA_HTTP_REQ_TYPE; static final String MA_HTTP_REQ_URL; static final String MA_HTTP_REQ_VERSION; }
@Test public void testReadChunkLenNoHeader () throws Exception { final NonBlockingByteArrayInputStream noNewLine = new NonBlockingByteArrayInputStream ("1f\n".getBytes (StandardCharsets.UTF_8)); final int res = HTTPHelper.readChunkLen (noNewLine); assertEquals ("Chunk size with header", 31, res); }	public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); static final String MA_HTTP_REQ_TYPE; static final String MA_HTTP_REQ_URL; static final String MA_HTTP_REQ_VERSION; }
@Test public void testReadChunkLenEmpty () throws Exception { final NonBlockingByteArrayInputStream noNewLine = new NonBlockingByteArrayInputStream ("\n".getBytes (StandardCharsets.UTF_8)); final int res = HTTPHelper.readChunkLen (noNewLine); assertEquals ("Chunk size with header", 0, res); }	public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); }	HTTPHelper { public static int readChunkLen (@Nonnull @WillNotClose final InputStream aIS) throws IOException { int nRes = 0; boolean bHeadersStarted = false; for (;;) { int ch = aIS.read (); if (ch < 0) throw new EOFException (); if (ch == '\n') break; if (ch >= 'a' && ch <= 'f') ch -= ('a' - 10); else if (ch >= 'A' && ch <= 'F') ch -= ('A' - 10); else if (ch >= '0' && ch <= '9') ch -= '0'; else if (ch == ';') bHeadersStarted = true; else continue; if (!bHeadersStarted) nRes = (nRes * 16) + ch; } return nRes; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); static final String MA_HTTP_REQ_TYPE; static final String MA_HTTP_REQ_URL; static final String MA_HTTP_REQ_VERSION; }
@Test public void testReadHttpRequestRegularMessage () throws Exception { NonBlockingByteArrayInputStream is = new NonBlockingByteArrayInputStream (m_sRegularMessage.getBytes (StandardCharsets.UTF_8)); AS2Message aMsg = new AS2Message (); IAS2InputStreamProvider mockStreamProvider = new MockAS2InputStreamProvider (is); final DataSource resRegular = HTTPHelper.readHttpRequest (mockStreamProvider, MOCK_RH, aMsg, INCOMING_DUMPER); is = new NonBlockingByteArrayInputStream (m_sRegularMessage.getBytes (StandardCharsets.UTF_8)); aMsg = new AS2Message (); mockStreamProvider = new MockAS2InputStreamProvider (is); final DataSource resStream = HTTPHelper.readHttpRequest (mockStreamProvider, MOCK_RH, aMsg, INCOMING_DUMPER); assertTrue ("Compare regular and stream read", _compareLineByLine (resRegular.getInputStream (), resStream.getInputStream ())); }	@Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); static final String MA_HTTP_REQ_TYPE; static final String MA_HTTP_REQ_URL; static final String MA_HTTP_REQ_VERSION; }
@SuppressWarnings ("deprecation") @Test public void testSignWithAllAlgorithms () throws Exception { final MimeBodyPart aPart = new MimeBodyPart (); aPart.setText ("Hello world"); for (int nIncludeCert = 0; nIncludeCert < 2; ++nIncludeCert) for (final ECryptoAlgorithmSign eAlgo : ECryptoAlgorithmSign.values ()) if (eAlgo != ECryptoAlgorithmSign.DIGEST_RSA_MD5 && eAlgo != ECryptoAlgorithmSign.DIGEST_RSA_SHA1) { final MimeBodyPart aSigned = AS2Helper.getCryptoHelper () .sign (aPart, (X509Certificate) PKE.getCertificate (), PKE.getPrivateKey (), eAlgo, nIncludeCert == 1, eAlgo.isRFC3851Algorithm (), EContentTransferEncoding.BASE64); assertNotNull (aSigned); final String [] aContentTypes = aSigned.getHeader (CHttpHeader.CONTENT_TYPE); assertNotNull (aContentTypes); assertEquals (1, aContentTypes.length); final String sContentType = aContentTypes[0]; final String sExpectedStart = "multipart/signed; protocol=\"application/pkcs7-signature\"; micalg=" + eAlgo.getID () + "; \r\n\tboundary=\"----=_Part"; assertTrue (sContentType + " does not start with " + sExpectedStart, sContentType.startsWith (sExpectedStart)); } }	@Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }
@Test public void testReadHttpRequestStreamMessage () throws Exception { NonBlockingByteArrayInputStream is = new NonBlockingByteArrayInputStream (m_sChunkedMessage.getBytes (StandardCharsets.UTF_8)); AS2Message aMsg = new AS2Message (); IAS2InputStreamProvider mockStreamProvider = new MockAS2InputStreamProvider (is); final DataSource resRegular = HTTPHelper.readHttpRequest (mockStreamProvider, MOCK_RH, aMsg, INCOMING_DUMPER); is = new NonBlockingByteArrayInputStream (m_sChunkedMessage.getBytes (StandardCharsets.UTF_8)); aMsg = new AS2Message (); mockStreamProvider = new MockAS2InputStreamProvider (is); final DataSource resStream = HTTPHelper.readHttpRequest (mockStreamProvider, MOCK_RH, aMsg, INCOMING_DUMPER); assertTrue ("Compare regular and stream read", _compareLineByLine (resRegular.getInputStream (), resStream.getInputStream ())); }	@Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); static final String MA_HTTP_REQ_TYPE; static final String MA_HTTP_REQ_URL; static final String MA_HTTP_REQ_VERSION; }
@Test (expected = IOException.class) public void testNoLengthMessageRegular () throws Exception { final NonBlockingByteArrayInputStream is = new NonBlockingByteArrayInputStream (m_sNoLengthMessage.getBytes (StandardCharsets.UTF_8)); final AS2Message aMsg = new AS2Message (); final IAS2InputStreamProvider mockStreamProvider = new MockAS2InputStreamProvider (is); HTTPHelper.readHttpRequest (mockStreamProvider, MOCK_RH, aMsg, INCOMING_DUMPER); }	@Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); static final String MA_HTTP_REQ_TYPE; static final String MA_HTTP_REQ_URL; static final String MA_HTTP_REQ_VERSION; }
@Test (expected = IOException.class) public void testNoLengthMessageStream () throws Exception { final NonBlockingByteArrayInputStream is = new NonBlockingByteArrayInputStream (m_sNoLengthMessage.getBytes (StandardCharsets.UTF_8)); final AS2Message aMsg = new AS2Message (); final IAS2InputStreamProvider mockStreamProvider = new MockAS2InputStreamProvider (is); HTTPHelper.readHttpRequest (mockStreamProvider, MOCK_RH, aMsg, INCOMING_DUMPER); }	@Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); static final String MA_HTTP_REQ_TYPE; static final String MA_HTTP_REQ_URL; static final String MA_HTTP_REQ_VERSION; }
@Test (expected = IOException.class) public void testBadTRansferEncodingMessageRegular () throws Exception { final NonBlockingByteArrayInputStream is = new NonBlockingByteArrayInputStream (m_sBadTransferEncodingMessage.getBytes (StandardCharsets.UTF_8)); final AS2Message aMsg = new AS2Message (); final IAS2InputStreamProvider mockStreamProvider = new MockAS2InputStreamProvider (is); HTTPHelper.readHttpRequest (mockStreamProvider, MOCK_RH, aMsg, INCOMING_DUMPER); }	@Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); static final String MA_HTTP_REQ_TYPE; static final String MA_HTTP_REQ_URL; static final String MA_HTTP_REQ_VERSION; }
@Test (expected = IOException.class) public void testBadTRansferEncodingMessageStream () throws Exception { final NonBlockingByteArrayInputStream is = new NonBlockingByteArrayInputStream (m_sBadTransferEncodingMessage.getBytes (StandardCharsets.UTF_8)); final AS2Message aMsg = new AS2Message (); final IAS2InputStreamProvider mockStreamProvider = new MockAS2InputStreamProvider (is); HTTPHelper.readHttpRequest (mockStreamProvider, MOCK_RH, aMsg, INCOMING_DUMPER); }	@Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); }	HTTPHelper { @Nonnull public static DataSource readHttpRequest (@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper) throws IOException, MessagingException { final InputStream aIS = aISP.getInputStream (); final String [] aRequest = _readRequestInfo (aIS); aMsg.attrs ().putIn (MA_HTTP_REQ_TYPE, aRequest[0]); aMsg.attrs ().putIn (MA_HTTP_REQ_URL, aRequest[1]); aMsg.attrs ().putIn (MA_HTTP_REQ_VERSION, aRequest[2]); final InternetHeaders aHeaders = new InternetHeaders (aIS); final Enumeration <Header> aEnum = aHeaders.getAllHeaders (); while (aEnum.hasMoreElements ()) { final Header aHeader = aEnum.nextElement (); aMsg.headers ().addHeader (aHeader.getName (), aHeader.getValue ()); } final String sReceivedContentType = AS2HttpHelper.getCleanContentType (aMsg.getHeader (CHttpHeader.CONTENT_TYPE)); byte [] aBytePayLoad = null; final DataSource aPayload; final String sContentLength = aMsg.getHeader (CHttpHeader.CONTENT_LENGTH); if (sContentLength == null) { final InputStream aRealIS; final String sTransferEncoding = aMsg.getHeader (CHttpHeader.TRANSFER_ENCODING); if (sTransferEncoding != null) { if (AS2Helper.getWithoutSpaces (sTransferEncoding).equalsIgnoreCase ("chunked")) { @WillNotClose final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (new ChunkedInputStream (aIS), aMsg.getMessageID ()); aRealIS = aSharedIS; aMsg.setTempSharedFileInputStream (aSharedIS); } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Transfer-Encoding unimplemented: " + sTransferEncoding); } } else { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length missing"); } aPayload = new InputStreamDataSource (aRealIS, aMsg.getAS2From () == null ? "" : aMsg.getAS2From (), sReceivedContentType, true); } else { final long nContentLength = StringParser.parseLong (sContentLength, -1); if (nContentLength < 0 \|\| nContentLength > Integer.MAX_VALUE) { sendSimpleHTTPResponse (aResponseHandler, CHttp.HTTP_LENGTH_REQUIRED); throw new IOException ("Content-Length '" + sContentLength + "' is invalid. Only values between 0 and " + Integer.MAX_VALUE + " are allowed."); } aBytePayLoad = new byte [(int) nContentLength]; try (final DataInputStream aDataIS = new DataInputStream (aIS)) { aDataIS.readFully (aBytePayLoad); } aPayload = new ByteArrayDataSource (aBytePayLoad, sReceivedContentType, null); } if (aIncomingDumper != null) aIncomingDumper.dumpIncomingRequest (getAllHTTPHeaderLines (aHeaders), aBytePayLoad != null ? aBytePayLoad : "Payload body was not read yet, and therefore it cannot be dumped (yet) - sorry".getBytes (StandardCharsets.ISO_8859_1), aMsg); return aPayload; } private HTTPHelper(); @Nonnull @ReturnsMutableCopy static ICommonsList <String> getAllHTTPHeaderLines(@Nonnull final InternetHeaders aHeaders); @Nullable static IHTTPIncomingDumper getHTTPIncomingDumper(); @Nonnull static ISupplier <? extends IHTTPIncomingDumper> getHTTPIncomingDumperFactory(); static void setHTTPIncomingDumperFactory(@Nonnull final ISupplier <? extends IHTTPIncomingDumper> aHttpDumperFactory); @Nonnull static DataSource readHttpRequest(@Nonnull final IAS2InputStreamProvider aISP, @Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnull final IMessage aMsg, @Nullable final IHTTPIncomingDumper aIncomingDumper); static void sendSimpleHTTPResponse(@Nonnull final IAS2HttpResponseHandler aResponseHandler, @Nonnegative final int nResponseCode); static int readChunkLen(@Nonnull @WillNotClose final InputStream aIS); static void readTillNexLine(@Nonnull @WillNotClose final InputStream aIS); static final String MA_HTTP_REQ_TYPE; static final String MA_HTTP_REQ_URL; static final String MA_HTTP_REQ_VERSION; }
@Test (expected = EOFException.class) @SuppressFBWarnings ("RR_NOT_CHECKED") public void readBufferFromEmpty () throws Exception { final InputStream empty = new NonBlockingByteArrayInputStream ("".getBytes ()); final byte [] buf = new byte [17]; try (final ChunkedInputStream cIS = new ChunkedInputStream (empty)) { cIS.read (buf, 0, buf.length); fail ("An EOFException should have been thrown"); } }	@Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }
@Test public void readPastEOS () throws Exception { try (final InputStream empty = new NonBlockingByteArrayInputStream ("3\n123\r\n0\r\n".getBytes ()); final ChunkedInputStream cIS = new ChunkedInputStream (empty)) { final byte [] buf = new byte [17]; int ret = cIS.read (buf, 0, buf.length); assertEquals ("read correct num of bytes", 3, ret); assertEquals ("read the chunk", new String (buf, 0, ret), "123"); ret = cIS.read (buf, 0, buf.length); assertEquals ("read past EOS", -1, ret); } }	@Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }
@Test (expected = EOFException.class) public void readByteFromEmpty () throws Exception { try (final InputStream empty = new NonBlockingByteArrayInputStream (ArrayHelper.EMPTY_BYTE_ARRAY); final ChunkedInputStream cIS = new ChunkedInputStream (empty)) { cIS.read (); fail ("An EOFException should have been thrown"); } }	@Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }
@Test public void readOneChunkBuffer () throws Exception { try (final InputStream empty = new NonBlockingByteArrayInputStream ("3\n123".getBytes ()); final ChunkedInputStream cIS = new ChunkedInputStream (empty)) { final byte [] buf = new byte [3]; final int ret = cIS.read (buf, 0, buf.length); assertEquals ("Read one chunk: 3 chars read", 3, ret); assertEquals ("Read one Chunk: corect data returned", "123", new String (buf, StandardCharsets.ISO_8859_1)); } }	@Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }
@Test public void readOneChunkBytes () throws Exception { try (final InputStream empty = new NonBlockingByteArrayInputStream ("3\n123".getBytes ()); final ChunkedInputStream cIS = new ChunkedInputStream (empty)) { int ret = cIS.read (); assertEquals ("Read first char", '1', ret); ret = cIS.read (); assertEquals ("Read second char", '2', ret); ret = cIS.read (); assertEquals ("Read third char", '3', ret); } }	@Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }
@Test public void testSignWithAllCTEs () throws Exception { final MimeBodyPart aPart = new MimeBodyPart (); aPart.setText ("Hello world"); for (final EContentTransferEncoding eCTE : EContentTransferEncoding.values ()) { final MimeBodyPart aSigned = AS2Helper.getCryptoHelper () .sign (aPart, (X509Certificate) PKE.getCertificate (), PKE.getPrivateKey (), ECryptoAlgorithmSign.DIGEST_SHA_512, true, false, eCTE); assertNotNull (aSigned); final String [] aContentTypes = aSigned.getHeader (CHttpHeader.CONTENT_TYPE); assertNotNull (aContentTypes); assertEquals (1, aContentTypes.length); final String sContentType = aContentTypes[0]; final String sExpectedStart = "multipart/signed; protocol=\"application/pkcs7-signature\"; micalg=sha-512; \r\n\tboundary=\"----=_Part"; assertTrue (sContentType + " does not start with " + sExpectedStart, sContentType.startsWith (sExpectedStart)); } }	@Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }
@Test public void readTwoChunkBuffer () throws Exception { try (final InputStream empty = new NonBlockingByteArrayInputStream ("2\r\n12\r\n1\na\r\n0\r\n".getBytes ()); final ChunkedInputStream cIS = new ChunkedInputStream (empty)) { final byte [] buf = new byte [3]; final int ret = cIS.read (buf, 0, buf.length); assertEquals ("Read two chunk: 3 chars read", 3, ret); assertEquals ("Read one Chunk: corect data returned", "12a", new String (buf)); } }	@Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }
@Test public void readTwoChunkBufferMultipleReads () throws Exception { try (final InputStream empty = new NonBlockingByteArrayInputStream ("2\r\n12\r\n1\na\r\n0\r\n".getBytes ()); final ChunkedInputStream cIS = new ChunkedInputStream (empty)) { final byte [] buf = new byte [3]; int ret = cIS.read (buf, 0, 1); assertEquals ("Read two chunk-1: 1 chars read", 1, ret); assertEquals ("Read one Chunk-1: correct data returned", '1', buf[0]); ret = cIS.read (buf, 0, 1); assertEquals ("Read two chunk-1: 1 chars read", 1, ret); assertEquals ("Read one Chunk-1: correct data returned", '2', buf[0]); ret = cIS.read (buf, 0, 1); assertEquals ("Read two chunk-1: 1 chars read", 1, ret); assertEquals ("Read one Chunk-1: correct data returned", 'a', buf[0]); } }	@Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }
@Test public void readTwoChunkByteMultipleReads () throws Exception { try (final InputStream empty = new NonBlockingByteArrayInputStream ("2\r\n12\r\n1\na\r\n0\r\n".getBytes ()); final ChunkedInputStream cIS = new ChunkedInputStream (empty)) { int ret = cIS.read (); assertEquals ("Read one Chunk-1: correct data returned", '1', ret); ret = cIS.read (); assertEquals ("Read one Chunk-1: correct data returned", '2', ret); ret = cIS.read (); assertEquals ("Read one Chunk-1: correct data returned", 'a', ret); } }	@Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }	ChunkedInputStream extends FilterInputStream { @Override public final int read () throws IOException { if (m_nLeft < 0) return -1; if (m_nLeft == 0) { if (m_bAfterFirstChunk) { HTTPHelper.readTillNexLine (m_aIS); } else { m_bAfterFirstChunk = true; } m_nLeft = HTTPHelper.readChunkLen (m_aIS); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Read chunk size: " + m_nLeft); if (m_nLeft <= 0) { m_nLeft = -1; return -1; } } m_nLeft--; return super.read (); } ChunkedInputStream(@Nonnull final InputStream aIS); @Override final int read(); @Override final int read(@Nonnull final byte [] aBuf, final int nOffset, final int nLength); }
@Test public void testGetTempSharedFileInputStream () throws Exception { final String inData = "123456"; try (final InputStream is = new NonBlockingByteArrayInputStream (inData.getBytes ()); final SharedFileInputStream sis = TempSharedFileInputStream.getTempSharedFileInputStream (is, "myName"); final NonBlockingByteArrayOutputStream baos = new NonBlockingByteArrayOutputStream ()) { StreamHelper.copyInputStreamToOutputStream (sis, baos); final String res = baos.getAsString (StandardCharsets.ISO_8859_1); assertEquals ("read the data", inData, res); sis.close (); } }	@Nonnull public static TempSharedFileInputStream getTempSharedFileInputStream (@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName) throws IOException { final File aDest = storeContentToTempFile (aIS, sName); return new TempSharedFileInputStream (aDest); }	TempSharedFileInputStream extends SharedFileInputStream { @Nonnull public static TempSharedFileInputStream getTempSharedFileInputStream (@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName) throws IOException { final File aDest = storeContentToTempFile (aIS, sName); return new TempSharedFileInputStream (aDest); } }	TempSharedFileInputStream extends SharedFileInputStream { @Nonnull public static TempSharedFileInputStream getTempSharedFileInputStream (@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName) throws IOException { final File aDest = storeContentToTempFile (aIS, sName); return new TempSharedFileInputStream (aDest); } private TempSharedFileInputStream(@Nonnull final File aFile); }	TempSharedFileInputStream extends SharedFileInputStream { @Nonnull public static TempSharedFileInputStream getTempSharedFileInputStream (@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName) throws IOException { final File aDest = storeContentToTempFile (aIS, sName); return new TempSharedFileInputStream (aDest); } private TempSharedFileInputStream(@Nonnull final File aFile); @Override void close(); void closeAll(); @Nonnull static TempSharedFileInputStream getTempSharedFileInputStream(@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName); }	TempSharedFileInputStream extends SharedFileInputStream { @Nonnull public static TempSharedFileInputStream getTempSharedFileInputStream (@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName) throws IOException { final File aDest = storeContentToTempFile (aIS, sName); return new TempSharedFileInputStream (aDest); } private TempSharedFileInputStream(@Nonnull final File aFile); @Override void close(); void closeAll(); @Nonnull static TempSharedFileInputStream getTempSharedFileInputStream(@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName); }
@Test public void testStoreContentToTempFile () throws Exception { final String inData = "123456"; final String name = "xxy"; try (final InputStream is = new NonBlockingByteArrayInputStream (inData.getBytes (StandardCharsets.ISO_8859_1))) { final File file = TempSharedFileInputStream.storeContentToTempFile (is, name); assertTrue ("Temp file exists", file.exists ()); assertTrue ("Temp file name includes given name", file.getName ().indexOf (name) > 0); FileOperations.deleteFileIfExisting (file); } }	@Nonnull protected static File storeContentToTempFile (@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName) throws IOException { final String sSuffix = FilenameHelper.getAsSecureValidASCIIFilename (StringHelper.hasText (sName) ? sName : "tmp"); final File aDestFile = File.createTempFile ("AS2TempSharedFileIS", sSuffix); try (final FileOutputStream aOS = new FileOutputStream (aDestFile)) { final MutableLong aCount = new MutableLong (0); StreamHelper.copyInputStreamToOutputStream (aIS, aOS, aCount); if (LOGGER.isInfoEnabled ()) { if (aCount.longValue () > 1024) LOGGER.info (aCount.longValue () + " bytes copied to " + aDestFile.getAbsolutePath ()); } } return aDestFile; }	TempSharedFileInputStream extends SharedFileInputStream { @Nonnull protected static File storeContentToTempFile (@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName) throws IOException { final String sSuffix = FilenameHelper.getAsSecureValidASCIIFilename (StringHelper.hasText (sName) ? sName : "tmp"); final File aDestFile = File.createTempFile ("AS2TempSharedFileIS", sSuffix); try (final FileOutputStream aOS = new FileOutputStream (aDestFile)) { final MutableLong aCount = new MutableLong (0); StreamHelper.copyInputStreamToOutputStream (aIS, aOS, aCount); if (LOGGER.isInfoEnabled ()) { if (aCount.longValue () > 1024) LOGGER.info (aCount.longValue () + " bytes copied to " + aDestFile.getAbsolutePath ()); } } return aDestFile; } }	TempSharedFileInputStream extends SharedFileInputStream { @Nonnull protected static File storeContentToTempFile (@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName) throws IOException { final String sSuffix = FilenameHelper.getAsSecureValidASCIIFilename (StringHelper.hasText (sName) ? sName : "tmp"); final File aDestFile = File.createTempFile ("AS2TempSharedFileIS", sSuffix); try (final FileOutputStream aOS = new FileOutputStream (aDestFile)) { final MutableLong aCount = new MutableLong (0); StreamHelper.copyInputStreamToOutputStream (aIS, aOS, aCount); if (LOGGER.isInfoEnabled ()) { if (aCount.longValue () > 1024) LOGGER.info (aCount.longValue () + " bytes copied to " + aDestFile.getAbsolutePath ()); } } return aDestFile; } private TempSharedFileInputStream(@Nonnull final File aFile); }	TempSharedFileInputStream extends SharedFileInputStream { @Nonnull protected static File storeContentToTempFile (@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName) throws IOException { final String sSuffix = FilenameHelper.getAsSecureValidASCIIFilename (StringHelper.hasText (sName) ? sName : "tmp"); final File aDestFile = File.createTempFile ("AS2TempSharedFileIS", sSuffix); try (final FileOutputStream aOS = new FileOutputStream (aDestFile)) { final MutableLong aCount = new MutableLong (0); StreamHelper.copyInputStreamToOutputStream (aIS, aOS, aCount); if (LOGGER.isInfoEnabled ()) { if (aCount.longValue () > 1024) LOGGER.info (aCount.longValue () + " bytes copied to " + aDestFile.getAbsolutePath ()); } } return aDestFile; } private TempSharedFileInputStream(@Nonnull final File aFile); @Override void close(); void closeAll(); @Nonnull static TempSharedFileInputStream getTempSharedFileInputStream(@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName); }	TempSharedFileInputStream extends SharedFileInputStream { @Nonnull protected static File storeContentToTempFile (@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName) throws IOException { final String sSuffix = FilenameHelper.getAsSecureValidASCIIFilename (StringHelper.hasText (sName) ? sName : "tmp"); final File aDestFile = File.createTempFile ("AS2TempSharedFileIS", sSuffix); try (final FileOutputStream aOS = new FileOutputStream (aDestFile)) { final MutableLong aCount = new MutableLong (0); StreamHelper.copyInputStreamToOutputStream (aIS, aOS, aCount); if (LOGGER.isInfoEnabled ()) { if (aCount.longValue () > 1024) LOGGER.info (aCount.longValue () + " bytes copied to " + aDestFile.getAbsolutePath ()); } } return aDestFile; } private TempSharedFileInputStream(@Nonnull final File aFile); @Override void close(); void closeAll(); @Nonnull static TempSharedFileInputStream getTempSharedFileInputStream(@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName); }
@Test public void testFinalize () throws Exception { for (int i = 0; i < 10000; i++) { final String sSrcData = "123456"; try (final InputStream is = new NonBlockingByteArrayInputStream (sSrcData.getBytes (StandardCharsets.ISO_8859_1)); final TempSharedFileInputStream aSharedIS = TempSharedFileInputStream.getTempSharedFileInputStream (is, "myName")) { final int t = aSharedIS.read (); assertEquals (t, sSrcData.charAt (0)); aSharedIS.closeAll (); } } }	@Override protected void finalize () throws Throwable { try { closeAll (); } catch (final Exception ex) { LOGGER.error ("Exception in finalize()", ex); } super.finalize (); }	TempSharedFileInputStream extends SharedFileInputStream { @Override protected void finalize () throws Throwable { try { closeAll (); } catch (final Exception ex) { LOGGER.error ("Exception in finalize()", ex); } super.finalize (); } }	TempSharedFileInputStream extends SharedFileInputStream { @Override protected void finalize () throws Throwable { try { closeAll (); } catch (final Exception ex) { LOGGER.error ("Exception in finalize()", ex); } super.finalize (); } private TempSharedFileInputStream(@Nonnull final File aFile); }	TempSharedFileInputStream extends SharedFileInputStream { @Override protected void finalize () throws Throwable { try { closeAll (); } catch (final Exception ex) { LOGGER.error ("Exception in finalize()", ex); } super.finalize (); } private TempSharedFileInputStream(@Nonnull final File aFile); @Override void close(); void closeAll(); @Nonnull static TempSharedFileInputStream getTempSharedFileInputStream(@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName); }	TempSharedFileInputStream extends SharedFileInputStream { @Override protected void finalize () throws Throwable { try { closeAll (); } catch (final Exception ex) { LOGGER.error ("Exception in finalize()", ex); } super.finalize (); } private TempSharedFileInputStream(@Nonnull final File aFile); @Override void close(); void closeAll(); @Nonnull static TempSharedFileInputStream getTempSharedFileInputStream(@Nonnull @WillClose final InputStream aIS, @Nonnull final String sName); }
@Test public void testGetFilenameFromMessageID () { assertNull (AS2IOHelper.getFilenameFromMessageID ("")); assertNull (AS2IOHelper.getFilenameFromMessageID ("<<<<>>>>")); assertEquals ("a", AS2IOHelper.getFilenameFromMessageID ("a")); assertEquals ("a", AS2IOHelper.getFilenameFromMessageID ("<a>")); assertEquals ("a", AS2IOHelper.getFilenameFromMessageID ("<<<<<a>>>>>")); assertEquals ("[email protected]", AS2IOHelper.getFilenameFromMessageID ("<<<<<[email protected]>>>>>")); }	@Nullable public static String getFilenameFromMessageID (@Nonnull final String sMessageID) { String s = StringHelper.removeAll (sMessageID, '<'); s = StringHelper.removeAll (s, '>'); return FilenameHelper.getAsSecureValidASCIIFilename (s); }	AS2IOHelper { @Nullable public static String getFilenameFromMessageID (@Nonnull final String sMessageID) { String s = StringHelper.removeAll (sMessageID, '<'); s = StringHelper.removeAll (s, '>'); return FilenameHelper.getAsSecureValidASCIIFilename (s); } }	AS2IOHelper { @Nullable public static String getFilenameFromMessageID (@Nonnull final String sMessageID) { String s = StringHelper.removeAll (sMessageID, '<'); s = StringHelper.removeAll (s, '>'); return FilenameHelper.getAsSecureValidASCIIFilename (s); } private AS2IOHelper(); }	AS2IOHelper { @Nullable public static String getFilenameFromMessageID (@Nonnull final String sMessageID) { String s = StringHelper.removeAll (sMessageID, '<'); s = StringHelper.removeAll (s, '>'); return FilenameHelper.getAsSecureValidASCIIFilename (s); } private AS2IOHelper(); @Nonnull static FileOperationManager getFileOperationManager(); @Nonnull static File getDirectoryFile(@Nonnull final String sDirectory); @Nonnull @Nonempty static String getTransferRate(final long nBytes, @Nonnull final StopWatch aSW); @Nonnull static File getUniqueFile(@Nonnull final File aDir, @Nullable final String sFilename); static void handleError(@Nonnull final File aFile, @Nonnull final String sErrorDirectory); @Nonnull static File moveFile(@Nonnull final File aSrc, @Nonnull final File aDestFile, final boolean bOverwrite, final boolean bRename); @Nullable static String getFilenameFromMessageID(@Nonnull final String sMessageID); @Nullable static String getSafeFileAndFolderName(@Nullable final String s); @Nonnull @ReturnsMutableCopy static byte [] getAllAsciiBytes(@Nonnull final String sString); @Nonnull static OutputStream getContentTransferEncodingAwareOutputStream(@Nonnull final OutputStream aOS, @Nullable final String sEncoding); @Nonnull static InputStream getContentTransferEncodingAwareInputStream(@Nonnull final InputStream aIS, @Nullable final String sEncoding); }	AS2IOHelper { @Nullable public static String getFilenameFromMessageID (@Nonnull final String sMessageID) { String s = StringHelper.removeAll (sMessageID, '<'); s = StringHelper.removeAll (s, '>'); return FilenameHelper.getAsSecureValidASCIIFilename (s); } private AS2IOHelper(); @Nonnull static FileOperationManager getFileOperationManager(); @Nonnull static File getDirectoryFile(@Nonnull final String sDirectory); @Nonnull @Nonempty static String getTransferRate(final long nBytes, @Nonnull final StopWatch aSW); @Nonnull static File getUniqueFile(@Nonnull final File aDir, @Nullable final String sFilename); static void handleError(@Nonnull final File aFile, @Nonnull final String sErrorDirectory); @Nonnull static File moveFile(@Nonnull final File aSrc, @Nonnull final File aDestFile, final boolean bOverwrite, final boolean bRename); @Nullable static String getFilenameFromMessageID(@Nonnull final String sMessageID); @Nullable static String getSafeFileAndFolderName(@Nullable final String s); @Nonnull @ReturnsMutableCopy static byte [] getAllAsciiBytes(@Nonnull final String sString); @Nonnull static OutputStream getContentTransferEncodingAwareOutputStream(@Nonnull final OutputStream aOS, @Nullable final String sEncoding); @Nonnull static InputStream getContentTransferEncodingAwareInputStream(@Nonnull final InputStream aIS, @Nullable final String sEncoding); }
@Test public void testgetSafeFileAndFolderName () { assertNull (AS2IOHelper.getSafeFileAndFolderName (null)); assertEquals ("", AS2IOHelper.getSafeFileAndFolderName ("")); assertEquals ("abc", AS2IOHelper.getSafeFileAndFolderName ("abc")); assertEquals ("abc/def", AS2IOHelper.getSafeFileAndFolderName ("abc/def")); assertEquals ("abc/def", AS2IOHelper.getSafeFileAndFolderName ("abc\\def")); assertEquals ("abc/def/blub", AS2IOHelper.getSafeFileAndFolderName ("abc/def\\blub")); assertEquals ("abc_/d_ef/g_hi", AS2IOHelper.getSafeFileAndFolderName ("abc</d\|ef\\ghi")); assertEquals ("/abc", AS2IOHelper.getSafeFileAndFolderName ("/abc")); assertEquals ("/abc", AS2IOHelper.getSafeFileAndFolderName ("\\abc")); assertEquals ("abc", AS2IOHelper.getSafeFileAndFolderName ("abc/")); assertEquals ("abc", AS2IOHelper.getSafeFileAndFolderName ("abc\\")); assertEquals ("/abc", AS2IOHelper.getSafeFileAndFolderName ("/abc/")); assertEquals ("/abc", AS2IOHelper.getSafeFileAndFolderName ("/abc\\")); assertEquals ("/abc", AS2IOHelper.getSafeFileAndFolderName ("\\abc/")); assertEquals ("/abc", AS2IOHelper.getSafeFileAndFolderName ("\\abc\\")); assertEquals ("z:/abc", AS2IOHelper.getSafeFileAndFolderName ("z:\\abc\\")); assertEquals ("z:/abc/test.txt", AS2IOHelper.getSafeFileAndFolderName ("z:\\abc/test.txt")); assertEquals ("z:/a_bc/tes_t.txt", AS2IOHelper.getSafeFileAndFolderName ("z:\\abc/tesät.txt")); assertEquals ("z:/com1", AS2IOHelper.getSafeFileAndFolderName ("z:\\com1")); assertEquals ("z:/_com2", AS2IOHelper.getSafeFileAndFolderName ("z:\\com2")); }	@Nullable public static String getSafeFileAndFolderName (@Nullable final String s) { if (StringHelper.hasNoText (s)) return s; final File aBase = new File (FilenameHelper.getPathUsingUnixSeparator (s)); final StringBuilder aSB = new StringBuilder (); File f = aBase; while (f != null) { final String sName = f.getName (); if (sName.length () == 0) { aSB.insert (0, FilenameHelper.getPathUsingUnixSeparator (f.getPath ())); } else { final String sSecuredName = FilenameHelper.getAsSecureValidASCIIFilename (sName); aSB.insert (0, StringHelper.getNotNull (sSecuredName, "") + FilenameHelper.UNIX_SEPARATOR); } f = f.getParentFile (); } return aSB.deleteCharAt (aSB.length () - 1).toString (); }	AS2IOHelper { @Nullable public static String getSafeFileAndFolderName (@Nullable final String s) { if (StringHelper.hasNoText (s)) return s; final File aBase = new File (FilenameHelper.getPathUsingUnixSeparator (s)); final StringBuilder aSB = new StringBuilder (); File f = aBase; while (f != null) { final String sName = f.getName (); if (sName.length () == 0) { aSB.insert (0, FilenameHelper.getPathUsingUnixSeparator (f.getPath ())); } else { final String sSecuredName = FilenameHelper.getAsSecureValidASCIIFilename (sName); aSB.insert (0, StringHelper.getNotNull (sSecuredName, "") + FilenameHelper.UNIX_SEPARATOR); } f = f.getParentFile (); } return aSB.deleteCharAt (aSB.length () - 1).toString (); } }	AS2IOHelper { @Nullable public static String getSafeFileAndFolderName (@Nullable final String s) { if (StringHelper.hasNoText (s)) return s; final File aBase = new File (FilenameHelper.getPathUsingUnixSeparator (s)); final StringBuilder aSB = new StringBuilder (); File f = aBase; while (f != null) { final String sName = f.getName (); if (sName.length () == 0) { aSB.insert (0, FilenameHelper.getPathUsingUnixSeparator (f.getPath ())); } else { final String sSecuredName = FilenameHelper.getAsSecureValidASCIIFilename (sName); aSB.insert (0, StringHelper.getNotNull (sSecuredName, "") + FilenameHelper.UNIX_SEPARATOR); } f = f.getParentFile (); } return aSB.deleteCharAt (aSB.length () - 1).toString (); } private AS2IOHelper(); }	AS2IOHelper { @Nullable public static String getSafeFileAndFolderName (@Nullable final String s) { if (StringHelper.hasNoText (s)) return s; final File aBase = new File (FilenameHelper.getPathUsingUnixSeparator (s)); final StringBuilder aSB = new StringBuilder (); File f = aBase; while (f != null) { final String sName = f.getName (); if (sName.length () == 0) { aSB.insert (0, FilenameHelper.getPathUsingUnixSeparator (f.getPath ())); } else { final String sSecuredName = FilenameHelper.getAsSecureValidASCIIFilename (sName); aSB.insert (0, StringHelper.getNotNull (sSecuredName, "") + FilenameHelper.UNIX_SEPARATOR); } f = f.getParentFile (); } return aSB.deleteCharAt (aSB.length () - 1).toString (); } private AS2IOHelper(); @Nonnull static FileOperationManager getFileOperationManager(); @Nonnull static File getDirectoryFile(@Nonnull final String sDirectory); @Nonnull @Nonempty static String getTransferRate(final long nBytes, @Nonnull final StopWatch aSW); @Nonnull static File getUniqueFile(@Nonnull final File aDir, @Nullable final String sFilename); static void handleError(@Nonnull final File aFile, @Nonnull final String sErrorDirectory); @Nonnull static File moveFile(@Nonnull final File aSrc, @Nonnull final File aDestFile, final boolean bOverwrite, final boolean bRename); @Nullable static String getFilenameFromMessageID(@Nonnull final String sMessageID); @Nullable static String getSafeFileAndFolderName(@Nullable final String s); @Nonnull @ReturnsMutableCopy static byte [] getAllAsciiBytes(@Nonnull final String sString); @Nonnull static OutputStream getContentTransferEncodingAwareOutputStream(@Nonnull final OutputStream aOS, @Nullable final String sEncoding); @Nonnull static InputStream getContentTransferEncodingAwareInputStream(@Nonnull final InputStream aIS, @Nullable final String sEncoding); }	AS2IOHelper { @Nullable public static String getSafeFileAndFolderName (@Nullable final String s) { if (StringHelper.hasNoText (s)) return s; final File aBase = new File (FilenameHelper.getPathUsingUnixSeparator (s)); final StringBuilder aSB = new StringBuilder (); File f = aBase; while (f != null) { final String sName = f.getName (); if (sName.length () == 0) { aSB.insert (0, FilenameHelper.getPathUsingUnixSeparator (f.getPath ())); } else { final String sSecuredName = FilenameHelper.getAsSecureValidASCIIFilename (sName); aSB.insert (0, StringHelper.getNotNull (sSecuredName, "") + FilenameHelper.UNIX_SEPARATOR); } f = f.getParentFile (); } return aSB.deleteCharAt (aSB.length () - 1).toString (); } private AS2IOHelper(); @Nonnull static FileOperationManager getFileOperationManager(); @Nonnull static File getDirectoryFile(@Nonnull final String sDirectory); @Nonnull @Nonempty static String getTransferRate(final long nBytes, @Nonnull final StopWatch aSW); @Nonnull static File getUniqueFile(@Nonnull final File aDir, @Nullable final String sFilename); static void handleError(@Nonnull final File aFile, @Nonnull final String sErrorDirectory); @Nonnull static File moveFile(@Nonnull final File aSrc, @Nonnull final File aDestFile, final boolean bOverwrite, final boolean bRename); @Nullable static String getFilenameFromMessageID(@Nonnull final String sMessageID); @Nullable static String getSafeFileAndFolderName(@Nullable final String s); @Nonnull @ReturnsMutableCopy static byte [] getAllAsciiBytes(@Nonnull final String sString); @Nonnull static OutputStream getContentTransferEncodingAwareOutputStream(@Nonnull final OutputStream aOS, @Nullable final String sEncoding); @Nonnull static InputStream getContentTransferEncodingAwareInputStream(@Nonnull final InputStream aIS, @Nullable final String sEncoding); }
@Test public void testParseContentType () { assertNull (AS2HttpHelper.parseContentType (null)); assertNull (AS2HttpHelper.parseContentType ("")); assertNull (AS2HttpHelper.parseContentType (" ")); assertNull (AS2HttpHelper.parseContentType ("abc")); assertNull (AS2HttpHelper.parseContentType ("abc/")); assertNotNull (AS2HttpHelper.parseContentType ("abc/def")); assertNotNull (AS2HttpHelper.parseContentType ("abc/def; a=b")); assertNotNull (AS2HttpHelper.parseContentType (" abc/def ; a = b ")); assertNotNull (AS2HttpHelper.parseContentType ("abc/def; a=b; c=d")); assertNotNull (AS2HttpHelper.parseContentType (" abc/def ; a = b ; c = d ")); }	@Nullable public static ContentType parseContentType (@Nullable final String sContentType) { if (StringHelper.hasText (sContentType)) { final String sRealContentType = RFC2616Codec.isMaybeEncoded (sContentType) ? new RFC2616Codec ().getDecodedAsString (sContentType) : sContentType; try { return new ContentType (sRealContentType); } catch (final ParseException ex) { if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Error parsing Content-Type '" + sContentType + "'", ex); } } return null; }	AS2HttpHelper { @Nullable public static ContentType parseContentType (@Nullable final String sContentType) { if (StringHelper.hasText (sContentType)) { final String sRealContentType = RFC2616Codec.isMaybeEncoded (sContentType) ? new RFC2616Codec ().getDecodedAsString (sContentType) : sContentType; try { return new ContentType (sRealContentType); } catch (final ParseException ex) { if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Error parsing Content-Type '" + sContentType + "'", ex); } } return null; } }	AS2HttpHelper { @Nullable public static ContentType parseContentType (@Nullable final String sContentType) { if (StringHelper.hasText (sContentType)) { final String sRealContentType = RFC2616Codec.isMaybeEncoded (sContentType) ? new RFC2616Codec ().getDecodedAsString (sContentType) : sContentType; try { return new ContentType (sRealContentType); } catch (final ParseException ex) { if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Error parsing Content-Type '" + sContentType + "'", ex); } } return null; } private AS2HttpHelper(); }	AS2HttpHelper { @Nullable public static ContentType parseContentType (@Nullable final String sContentType) { if (StringHelper.hasText (sContentType)) { final String sRealContentType = RFC2616Codec.isMaybeEncoded (sContentType) ? new RFC2616Codec ().getDecodedAsString (sContentType) : sContentType; try { return new ContentType (sRealContentType); } catch (final ParseException ex) { if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Error parsing Content-Type '" + sContentType + "'", ex); } } return null; } private AS2HttpHelper(); @Nullable static ContentType parseContentType(@Nullable final String sContentType); @Nullable static String getCleanContentType(@Nullable final String sContentType); @Nonnull static InternetHeaders getAsInternetHeaders(@Nonnull final HttpHeaderMap aHeaders); }	AS2HttpHelper { @Nullable public static ContentType parseContentType (@Nullable final String sContentType) { if (StringHelper.hasText (sContentType)) { final String sRealContentType = RFC2616Codec.isMaybeEncoded (sContentType) ? new RFC2616Codec ().getDecodedAsString (sContentType) : sContentType; try { return new ContentType (sRealContentType); } catch (final ParseException ex) { if (LOGGER.isDebugEnabled ()) LOGGER.debug ("Error parsing Content-Type '" + sContentType + "'", ex); } } return null; } private AS2HttpHelper(); @Nullable static ContentType parseContentType(@Nullable final String sContentType); @Nullable static String getCleanContentType(@Nullable final String sContentType); @Nonnull static InternetHeaders getAsInternetHeaders(@Nonnull final HttpHeaderMap aHeaders); }
@Test public void testGetCleanContentType () { assertNull (AS2HttpHelper.getCleanContentType (null)); assertNull (AS2HttpHelper.getCleanContentType ("")); assertNull (AS2HttpHelper.getCleanContentType (" ")); assertNull (AS2HttpHelper.getCleanContentType ("abc")); assertNull (AS2HttpHelper.getCleanContentType ("abc/")); assertEquals ("abc/def", AS2HttpHelper.getCleanContentType ("abc/def")); assertEquals ("abc/def; a=b", AS2HttpHelper.getCleanContentType ("abc/def; a=b")); assertEquals ("abc/def; a=b", AS2HttpHelper.getCleanContentType (" abc/def ; a = b ")); assertEquals ("abc/def; a=b; c=d", AS2HttpHelper.getCleanContentType ("abc/def; a=b; c=d")); assertEquals ("abc/def; a=b; c=d", AS2HttpHelper.getCleanContentType (" abc/def ; a = b ; c = d ")); }	@Nullable public static String getCleanContentType (@Nullable final String sContentType) { final ContentType aCT = parseContentType (sContentType); return aCT != null ? aCT.toString () : null; }	AS2HttpHelper { @Nullable public static String getCleanContentType (@Nullable final String sContentType) { final ContentType aCT = parseContentType (sContentType); return aCT != null ? aCT.toString () : null; } }	AS2HttpHelper { @Nullable public static String getCleanContentType (@Nullable final String sContentType) { final ContentType aCT = parseContentType (sContentType); return aCT != null ? aCT.toString () : null; } private AS2HttpHelper(); }	AS2HttpHelper { @Nullable public static String getCleanContentType (@Nullable final String sContentType) { final ContentType aCT = parseContentType (sContentType); return aCT != null ? aCT.toString () : null; } private AS2HttpHelper(); @Nullable static ContentType parseContentType(@Nullable final String sContentType); @Nullable static String getCleanContentType(@Nullable final String sContentType); @Nonnull static InternetHeaders getAsInternetHeaders(@Nonnull final HttpHeaderMap aHeaders); }	AS2HttpHelper { @Nullable public static String getCleanContentType (@Nullable final String sContentType) { final ContentType aCT = parseContentType (sContentType); return aCT != null ? aCT.toString () : null; } private AS2HttpHelper(); @Nullable static ContentType parseContentType(@Nullable final String sContentType); @Nullable static String getCleanContentType(@Nullable final String sContentType); @Nonnull static InternetHeaders getAsInternetHeaders(@Nonnull final HttpHeaderMap aHeaders); }
@Test public void testSign_Base64 () throws Exception { final MimeBodyPart aPart = new MimeBodyPart (); aPart.setText ("Hello world", StandardCharsets.ISO_8859_1.name ()); final MimeBodyPart aSigned = AS2Helper.getCryptoHelper () .sign (aPart, (X509Certificate) PKE.getCertificate (), PKE.getPrivateKey (), ECryptoAlgorithmSign.DIGEST_SHA_256, false, false, EContentTransferEncoding.BASE64); assertNotNull (aSigned); final String sBoundary = AS2HttpHelper.parseContentType (aSigned.getContentType ()).getParameter ("boundary"); assertNotNull (sBoundary); final NonBlockingByteArrayOutputStream aBAOS = new NonBlockingByteArrayOutputStream (); aSigned.writeTo (aBAOS); final String sExpectedStart = "Content-Type: multipart/signed; protocol=\"application/pkcs7-signature\"; micalg=sha-256; \r\n" + "\tboundary=\"" + sBoundary + "\"\r\n" + "\r\n" + "--" + sBoundary + "\r\n" + "Content-Type: text/plain; charset=ISO-8859-1\r\n" + "Content-Transfer-Encoding: 7bit\r\n" + "\r\n" + "Hello world\r\n" + "--" + sBoundary + "\r\n" + "Content-Type: application/pkcs7-signature; name=smime.p7s; smime-type=signed-data\r\n" + "Content-Transfer-Encoding: base64\r\n" + "Content-Disposition: attachment; filename=\"smime.p7s\"\r\n" + "Content-Description: S/MIME Cryptographic Signature\r\n" + "\r\n" + "MIAGCSqGSIb3DQEHAqCAMIACAQExDzANBglghkgBZQMEAgEFADCABgkqhkiG9w0BBwEAADGCAqgw\r\n" + "ggKkAgEBMIHDMIG6MSMwIQYJKoZIhvcNAQkBFhRzZXJ2aWNlQG1lbmRlbHNvbi5kZTELMAkGA1UE\r\n" + "BhMCREUxDzANBgNVBAgMBkJlcmxpbjEPMA0GA1UEBwwGQmVybGluMSIwIAYDVQQKDBltZW5kZWxz\r\n" + "b24tZS1jb21tZXJjZSBHbWJIMSEwHwYDVQQLDBhEbyBub3QgdXNlIGluIHByb2R1Y3Rpb24xHTAb\r\n" + "BgNVBAMMFG1lbmRlbHNvbiB0ZXN0IGtleSAzAgRaKlscMA0GCWCGSAFlAwQCAQUAoIG2MBgGCSqG\r\n"; final String sExpectedEnd = "\r\n" + "--" + sBoundary + "--\r\n"; final String sReal = aBAOS.getAsString (StandardCharsets.ISO_8859_1); assertTrue (sReal.startsWith (sExpectedStart)); assertTrue (sReal.endsWith (sExpectedEnd)); }	@Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }
@Test public void testBasic () throws AS2InvalidParameterException { final AS2Message aMsg = new AS2Message (); aMsg.headers ().addHeader ("message-id", "12345"); aMsg.partnership ().setSenderAS2ID ("s1"); aMsg.partnership ().setReceiverAS2ID ("r1"); final ZonedDateTime aTestDT = PDTFactory.getCurrentZonedDateTime (); final CompositeParameters aParams = new CompositeParameters (false).add ("date", new DateParameters (aTestDT)) .add ("msg", new MessageParameters (aMsg)); final String sNow = PDTFormatter.getForPattern ("uuuuMMddhhmmss").format (aTestDT); String sName = aParams.format ("$date.uuuuMMddhhmmss$"); assertEquals (sNow, sName); sName = aParams.format ("any$date.uuuuMMddhhmmss$else"); assertEquals ("any" + sNow + "else", sName); sName = aParams.format ("$date.uuuuMMddhhmmss$$date.uuuuMMddhhmmss$"); assertEquals (sNow + sNow, sName); assertEquals ("sender.as2_id, receiver.as2_id, headers.message-id", aParams.format ("sender.as2_id, receiver.as2_id, headers.message-id")); assertEquals ("s1, r1, 12345", aParams.format ("$msg.sender.as2_id$, $msg.receiver.as2_id$, $msg.headers.message-id$")); try { aParams.format ("$dummy$"); fail (); } catch (final AS2InvalidParameterException ex) {} assertEquals ("$s1", aParams.format ("$$$msg.sender.as2_id$")); assertEquals ("$$s1", aParams.format ("$$$$$msg.sender.as2_id$")); assertEquals ("s1$", aParams.format ("$msg.sender.as2_id$$$")); assertEquals ("s1$$", aParams.format ("$msg.sender.as2_id$$$$$")); assertEquals ("s1$r1", aParams.format ("$msg.sender.as2_id$$$$msg.receiver.as2_id$")); assertEquals ("s1$$r1", aParams.format ("$msg.sender.as2_id$$$$$$msg.receiver.as2_id$")); assertEquals ("$$s1$$r1$$", aParams.format ("$$$$$msg.sender.as2_id$$$$$$msg.receiver.as2_id$$$$$")); }	@Nonnull public CompositeParameters add (final String sKey, final AbstractParameterParser aParam) { getParameterParsers ().put (sKey, aParam); return this; }	CompositeParameters extends AbstractParameterParser { @Nonnull public CompositeParameters add (final String sKey, final AbstractParameterParser aParam) { getParameterParsers ().put (sKey, aParam); return this; } }	CompositeParameters extends AbstractParameterParser { @Nonnull public CompositeParameters add (final String sKey, final AbstractParameterParser aParam) { getParameterParsers ().put (sKey, aParam); return this; } CompositeParameters(final boolean bIgnoreMissingParsers); CompositeParameters(final boolean bIgnoreMissingParsers, @Nonnull final Map <String, ? extends AbstractParameterParser> aParameterParsers); }	CompositeParameters extends AbstractParameterParser { @Nonnull public CompositeParameters add (final String sKey, final AbstractParameterParser aParam) { getParameterParsers ().put (sKey, aParam); return this; } CompositeParameters(final boolean bIgnoreMissingParsers); CompositeParameters(final boolean bIgnoreMissingParsers, @Nonnull final Map <String, ? extends AbstractParameterParser> aParameterParsers); @Nonnull CompositeParameters add(final String sKey, final AbstractParameterParser aParam); void setIgnoreMissingParsers(final boolean bIgnoreMissingParsers); boolean isIgnoreMissingParsers(); @Override void setParameter(final String sKey, final String sValue); @Override String getParameter(final String sKey); void setParameterParsers(@Nullable final ICommonsMap <String, AbstractParameterParser> aParameterParsers); }	CompositeParameters extends AbstractParameterParser { @Nonnull public CompositeParameters add (final String sKey, final AbstractParameterParser aParam) { getParameterParsers ().put (sKey, aParam); return this; } CompositeParameters(final boolean bIgnoreMissingParsers); CompositeParameters(final boolean bIgnoreMissingParsers, @Nonnull final Map <String, ? extends AbstractParameterParser> aParameterParsers); @Nonnull CompositeParameters add(final String sKey, final AbstractParameterParser aParam); void setIgnoreMissingParsers(final boolean bIgnoreMissingParsers); boolean isIgnoreMissingParsers(); @Override void setParameter(final String sKey, final String sValue); @Override String getParameter(final String sKey); void setParameterParsers(@Nullable final ICommonsMap <String, AbstractParameterParser> aParameterParsers); }
@Test public void testIgnore () throws AS2InvalidParameterException { final AS2Message aMsg = new AS2Message (); aMsg.headers ().addHeader ("message-id", "12345"); aMsg.partnership ().setSenderAS2ID ("s1"); aMsg.partnership ().setReceiverAS2ID ("r1"); final CompositeParameters aParams = new CompositeParameters (true).add ("msg", new MessageParameters (aMsg)); assertEquals ("sender.as2_id, receiver.as2_id, headers.message-id", aParams.format ("sender.as2_id, receiver.as2_id, headers.message-id")); assertEquals ("s1, r1, 12345", aParams.format ("$msg.sender.as2_id$, $msg.receiver.as2_id$, $msg.headers.message-id$")); assertEquals ("", aParams.format ("$dummy$")); assertEquals ("any", aParams.format ("any$dummy$")); assertEquals ("any", aParams.format ("$dummy$any")); assertEquals ("foobar", aParams.format ("foo$dummy$bar")); }	@Nonnull public CompositeParameters add (final String sKey, final AbstractParameterParser aParam) { getParameterParsers ().put (sKey, aParam); return this; }	CompositeParameters extends AbstractParameterParser { @Nonnull public CompositeParameters add (final String sKey, final AbstractParameterParser aParam) { getParameterParsers ().put (sKey, aParam); return this; } }	CompositeParameters extends AbstractParameterParser { @Nonnull public CompositeParameters add (final String sKey, final AbstractParameterParser aParam) { getParameterParsers ().put (sKey, aParam); return this; } CompositeParameters(final boolean bIgnoreMissingParsers); CompositeParameters(final boolean bIgnoreMissingParsers, @Nonnull final Map <String, ? extends AbstractParameterParser> aParameterParsers); }	CompositeParameters extends AbstractParameterParser { @Nonnull public CompositeParameters add (final String sKey, final AbstractParameterParser aParam) { getParameterParsers ().put (sKey, aParam); return this; } CompositeParameters(final boolean bIgnoreMissingParsers); CompositeParameters(final boolean bIgnoreMissingParsers, @Nonnull final Map <String, ? extends AbstractParameterParser> aParameterParsers); @Nonnull CompositeParameters add(final String sKey, final AbstractParameterParser aParam); void setIgnoreMissingParsers(final boolean bIgnoreMissingParsers); boolean isIgnoreMissingParsers(); @Override void setParameter(final String sKey, final String sValue); @Override String getParameter(final String sKey); void setParameterParsers(@Nullable final ICommonsMap <String, AbstractParameterParser> aParameterParsers); }	CompositeParameters extends AbstractParameterParser { @Nonnull public CompositeParameters add (final String sKey, final AbstractParameterParser aParam) { getParameterParsers ().put (sKey, aParam); return this; } CompositeParameters(final boolean bIgnoreMissingParsers); CompositeParameters(final boolean bIgnoreMissingParsers, @Nonnull final Map <String, ? extends AbstractParameterParser> aParameterParsers); @Nonnull CompositeParameters add(final String sKey, final AbstractParameterParser aParam); void setIgnoreMissingParsers(final boolean bIgnoreMissingParsers); boolean isIgnoreMissingParsers(); @Override void setParameter(final String sKey, final String sValue); @Override String getParameter(final String sKey); void setParameterParsers(@Nullable final ICommonsMap <String, AbstractParameterParser> aParameterParsers); }
@Test public void testAddPartnership () throws AS2Exception { final Partnership partnership = new Partnership ("Test partnership"); assertTrue (mongoDBPartnershipFactory.addPartnership (partnership).isChanged ()); assertEquals (1, collection.countDocuments ()); assertNotNull (mongoDBPartnershipFactory.getPartnershipByName ("Test partnership")); }	@Override public EChange addPartnership (final Partnership aPartnership) throws AS2Exception { m_aPartnerships.insertOne (_toDocument (aPartnership)); return EChange.CHANGED; }	MongoDBPartnershipFactory extends AbstractDynamicComponent implements IPartnershipFactory { @Override public EChange addPartnership (final Partnership aPartnership) throws AS2Exception { m_aPartnerships.insertOne (_toDocument (aPartnership)); return EChange.CHANGED; } }	MongoDBPartnershipFactory extends AbstractDynamicComponent implements IPartnershipFactory { @Override public EChange addPartnership (final Partnership aPartnership) throws AS2Exception { m_aPartnerships.insertOne (_toDocument (aPartnership)); return EChange.CHANGED; } MongoDBPartnershipFactory(final MongoCollection <Document> aPartnerships, final Logger aLogger); }	MongoDBPartnershipFactory extends AbstractDynamicComponent implements IPartnershipFactory { @Override public EChange addPartnership (final Partnership aPartnership) throws AS2Exception { m_aPartnerships.insertOne (_toDocument (aPartnership)); return EChange.CHANGED; } MongoDBPartnershipFactory(final MongoCollection <Document> aPartnerships, final Logger aLogger); @Override EChange addPartnership(final Partnership aPartnership); @Override EChange removePartnership(final Partnership aPartnership); @Override void updatePartnership(final IMessage aMsg, final boolean bOverwrite); @Override void updatePartnership(final IMessageMDN aMdn, final boolean bOverwrite); @Override Partnership getPartnership(final Partnership aPartnership); @Override Partnership getPartnershipByName(final String sName); @Override ICommonsSet <String> getAllPartnershipNames(); @Override ICommonsList <Partnership> getAllPartnerships(); }	MongoDBPartnershipFactory extends AbstractDynamicComponent implements IPartnershipFactory { @Override public EChange addPartnership (final Partnership aPartnership) throws AS2Exception { m_aPartnerships.insertOne (_toDocument (aPartnership)); return EChange.CHANGED; } MongoDBPartnershipFactory(final MongoCollection <Document> aPartnerships, final Logger aLogger); @Override EChange addPartnership(final Partnership aPartnership); @Override EChange removePartnership(final Partnership aPartnership); @Override void updatePartnership(final IMessage aMsg, final boolean bOverwrite); @Override void updatePartnership(final IMessageMDN aMdn, final boolean bOverwrite); @Override Partnership getPartnership(final Partnership aPartnership); @Override Partnership getPartnershipByName(final String sName); @Override ICommonsSet <String> getAllPartnershipNames(); @Override ICommonsList <Partnership> getAllPartnerships(); }
@Test public void testSign_Binary () throws Exception { final MimeBodyPart aPart = new MimeBodyPart (); aPart.setText ("Hello world", StandardCharsets.ISO_8859_1.name ()); final MimeBodyPart aSigned = AS2Helper.getCryptoHelper () .sign (aPart, (X509Certificate) PKE.getCertificate (), PKE.getPrivateKey (), ECryptoAlgorithmSign.DIGEST_SHA_256, false, false, EContentTransferEncoding.BINARY); assertNotNull (aSigned); final String sBoundary = AS2HttpHelper.parseContentType (aSigned.getContentType ()).getParameter ("boundary"); assertNotNull (sBoundary); final NonBlockingByteArrayOutputStream aBAOS = new NonBlockingByteArrayOutputStream (); aSigned.writeTo (aBAOS); final String sExpectedStart = "Content-Type: multipart/signed; protocol=\"application/pkcs7-signature\"; micalg=sha-256; \r\n" + "\tboundary=\"" + sBoundary + "\"\r\n" + "\r\n" + "--" + sBoundary + "\r\n" + "Content-Type: text/plain; charset=ISO-8859-1\r\n" + "Content-Transfer-Encoding: 7bit\r\n" + "\r\n" + "Hello world\r\n" + "--" + sBoundary + "\r\n" + "Content-Type: application/pkcs7-signature; name=smime.p7s; smime-type=signed-data\r\n" + "Content-Transfer-Encoding: binary\r\n" + "Content-Disposition: attachment; filename=\"smime.p7s\"\r\n" + "Content-Description: S/MIME Cryptographic Signature\r\n" + "\r\n"; final String sExpectedEnd = "\r\n" + "--" + sBoundary + "--\r\n"; final String sReal = aBAOS.getAsString (StandardCharsets.ISO_8859_1); assertTrue (sReal.startsWith (sExpectedStart)); assertTrue (sReal.endsWith (sExpectedEnd)); }	@Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }
@Test public void testSign_QuotedPrintable () throws Exception { final MimeBodyPart aPart = new MimeBodyPart (); aPart.setText ("Hello world", StandardCharsets.ISO_8859_1.name ()); final MimeBodyPart aSigned = AS2Helper.getCryptoHelper () .sign (aPart, (X509Certificate) PKE.getCertificate (), PKE.getPrivateKey (), ECryptoAlgorithmSign.DIGEST_SHA_256, false, false, EContentTransferEncoding.QUOTED_PRINTABLE); assertNotNull (aSigned); final String sBoundary = AS2HttpHelper.parseContentType (aSigned.getContentType ()).getParameter ("boundary"); assertNotNull (sBoundary); final NonBlockingByteArrayOutputStream aBAOS = new NonBlockingByteArrayOutputStream (); aSigned.writeTo (aBAOS); final String sExpectedStart = "Content-Type: multipart/signed; protocol=\"application/pkcs7-signature\"; micalg=sha-256; \r\n" + "\tboundary=\"" + sBoundary + "\"\r\n" + "\r\n" + "--" + sBoundary + "\r\n" + "Content-Type: text/plain; charset=ISO-8859-1\r\n" + "Content-Transfer-Encoding: 7bit\r\n" + "\r\n" + "Hello world\r\n" + "--" + sBoundary + "\r\n" + "Content-Type: application/pkcs7-signature; name=smime.p7s; smime-type=signed-data\r\n" + "Content-Transfer-Encoding: quoted-printable\r\n" + "Content-Disposition: attachment; filename=\"smime.p7s\"\r\n" + "Content-Description: S/MIME Cryptographic Signature\r\n" + "\r\n" + "0=80=06=09=86H=86=F7\r\n" + "=01=07=02=A0=800=80=02=01=011=0F0\r\n" + "=06=09`=86H=01e=03=04=02=01=05=000=80=06=09=86H=86=F7\r\n" + "=01=07=01=00=001=82=02=A80=82=02=A4=02=01=010=81=C30=81=BA1#0!=06=09=86H=\r\n" + "=86=F7\r\n" + "[email protected]=0B0=09=06=03U=04=06=13=02DE1=0F0\r\n" + "=06=03U=04=08=0C=06Berlin1=0F0\r\n" + "=06=03U=04=07=0C=06Berlin1\"0 =06=03U=04\r\n" + "=0C=19mendelson-e-commerce GmbH1!0=1F=06=03U=04=0B=0C=18Do not use in produ=\r\n" + "ction1=1D0=1B=06=03U=04=03=0C=14mendelson test key 3=02=04Z[=1C0\r\n" + "=06=09`=86H=01e=03=04=02=01=05=00=A0=81=B60=18=06=09=86H=86=F7\r\n" + "=01=09=031=0B=06=09=86H=86=F7\r\n" + "=01=07=010=1C=06=09*=86H=86=F7\r\n" + "=01=09=051=0F=17\r\n"; final String sExpectedEnd = "\r\n" + "--" + sBoundary + "--\r\n"; final String sReal = aBAOS.getAsString (StandardCharsets.ISO_8859_1); assertTrue (sReal.startsWith (sExpectedStart)); assertTrue (sReal.endsWith (sExpectedEnd)); }	@Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart sign (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, MessagingException, OperatorCreationException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (aPrivateKey, "PrivateKey"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.sign; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; includeCertificateInSignedContent=" + bIncludeCertificateInSignedContent + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ICommonsList <X509Certificate> aCertList = new CommonsArrayList <> (aX509Cert); final JcaCertStore aCertStore = new JcaCertStore (aCertList); final ASN1EncodableVector aSignedAttrs = new ASN1EncodableVector (); final SMIMECapabilityVector aCapabilities = new SMIMECapabilityVector (); aCapabilities.addCapability (eAlgorithm.getOID ()); aSignedAttrs.add (new SMIMECapabilitiesAttribute (aCapabilities)); final SMIMESignedGenerator aSGen = new SMIMESignedGenerator (bUseOldRFC3851MicAlgs ? SMIMESignedGenerator.RFC3851_MICALGS : SMIMESignedGenerator.RFC5751_MICALGS); aSGen.setContentTransferEncoding (eCTE.getID ()); aSGen.addSignerInfoGenerator (new JcaSimpleSignerInfoGeneratorBuilder ().setProvider (m_sSecurityProviderName) .setSignedAttributeGenerator (new AttributeTable (aSignedAttrs)) .build (eAlgorithm.getSignAlgorithmName (), aPrivateKey, aX509Cert)); if (bIncludeCertificateInSignedContent) { aSGen.addCertificates (aCertStore); } final MimeMultipart aSignedData = aSGen.generate (aPart); final MimeBodyPart aSignedPart = new MimeBodyPart (); aSignedPart.setContent (aSignedData); aSignedPart.setHeader (CHttpHeader.CONTENT_TYPE, aSignedData.getContentType ()); return aSignedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }
@Test public void testEncryptWithAllAlgorithms () throws Exception { final MimeBodyPart aPart = new MimeBodyPart (); aPart.setText ("Hello world"); for (final ECryptoAlgorithmCrypt eAlgo : ECryptoAlgorithmCrypt.values ()) { final MimeBodyPart aEncrypted = AS2Helper.getCryptoHelper ().encrypt (aPart, CERT_ENCRYPT, eAlgo, EContentTransferEncoding.BASE64); assertNotNull (aEncrypted); assertArrayEquals (new String [] { "application/pkcs7-mime; name=\"smime.p7m\"; smime-type=enveloped-data" }, aEncrypted.getHeader (CHttpHeader.CONTENT_TYPE)); assertArrayEquals (new String [] { "attachment; filename=\"smime.p7m\"" }, aEncrypted.getHeader (CHttpHeader.CONTENT_DISPOSITION)); } }	@Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }
@Test public void testEncryptWithAllCTEs () throws Exception { final MimeBodyPart aPart = new MimeBodyPart (); aPart.setText ("Hello world"); for (final EContentTransferEncoding eCTE : EContentTransferEncoding.values ()) { final MimeBodyPart aEncrypted = AS2Helper.getCryptoHelper () .encrypt (aPart, CERT_ENCRYPT, ECryptoAlgorithmCrypt.CRYPT_AES256_GCM, eCTE); assertNotNull (aEncrypted); assertArrayEquals (new String [] { "application/pkcs7-mime; name=\"smime.p7m\"; smime-type=enveloped-data" }, aEncrypted.getHeader (CHttpHeader.CONTENT_TYPE)); assertArrayEquals (new String [] { "attachment; filename=\"smime.p7m\"" }, aEncrypted.getHeader (CHttpHeader.CONTENT_DISPOSITION)); } }	@Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }
@Test public void testEncryptCTE_Base64 () throws Exception { final MimeBodyPart aPart = new MimeBodyPart (); aPart.setText ("Hello world"); final MimeBodyPart aEncrypted = AS2Helper.getCryptoHelper () .encrypt (aPart, CERT_ENCRYPT, ECryptoAlgorithmCrypt.CRYPT_3DES, EContentTransferEncoding.BASE64); final NonBlockingByteArrayOutputStream aBAOS = new NonBlockingByteArrayOutputStream (); aEncrypted.writeTo (aBAOS); final String sExpectedStart = "Content-Type: application/pkcs7-mime; name=\"smime.p7m\"; smime-type=enveloped-data\r\n" + "Content-Transfer-Encoding: base64\r\n" + "Content-Disposition: attachment; filename=\"smime.p7m\"\r\n" + "Content-Description: S/MIME Encrypted Message\r\n" + "\r\n" + "MIAGCSqGSIb3DQEHA6CAMIACAQAxggHgMIIB3AIBADCBwzCBujEjMCEGCSqGSIb3DQEJARYUc2Vy\r\n" + "dmljZUBtZW5kZWxzb24uZGUxCzAJBgNVBAYTAkRFMQ8wDQYDVQQIDAZCZXJsaW4xDzANBgNVBAcM\r\n" + "BkJlcmxpbjEiMCAGA1UECgwZbWVuZGVsc29uLWUtY29tbWVyY2UgR21iSDEhMB8GA1UECwwYRG8g\r\n" + "bm90IHVzZSBpbiBwcm9kdWN0aW9uMR0wGwYDVQQDDBRtZW5kZWxzb24gdGVzdCBrZXkgNAIEWipb\r\n"; final String sReal = aBAOS.getAsString (StandardCharsets.ISO_8859_1); assertTrue (sReal.startsWith (sExpectedStart)); }	@Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }
@Test public void testEncryptCTE_Binary () throws Exception { final MimeBodyPart aPart = new MimeBodyPart (); aPart.setText ("Hello world"); final MimeBodyPart aEncrypted = AS2Helper.getCryptoHelper () .encrypt (aPart, CERT_ENCRYPT, ECryptoAlgorithmCrypt.CRYPT_3DES, EContentTransferEncoding.BINARY); final NonBlockingByteArrayOutputStream aBAOS = new NonBlockingByteArrayOutputStream (); aEncrypted.writeTo (aBAOS); final String sExpectedStart = "Content-Type: application/pkcs7-mime; name=\"smime.p7m\"; smime-type=enveloped-data\r\n" + "Content-Transfer-Encoding: binary\r\n" + "Content-Disposition: attachment; filename=\"smime.p7m\"\r\n" + "Content-Description: S/MIME Encrypted Message\r\n" + "\r\n"; final String sReal = aBAOS.getAsString (StandardCharsets.ISO_8859_1); assertTrue (sReal.startsWith (sExpectedStart)); }	@Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }	BCCryptoHelper implements ICryptoHelper { @Nonnull public MimeBodyPart encrypt (@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE) throws GeneralSecurityException, SMIMEException, CMSException { ValueEnforcer.notNull (aPart, "MimeBodyPart"); ValueEnforcer.notNull (aX509Cert, "X509Cert"); ValueEnforcer.notNull (eAlgorithm, "Algorithm"); ValueEnforcer.notNull (eCTE, "ContentTransferEncoding"); if (LOGGER.isDebugEnabled ()) LOGGER.debug ("BCCryptoHelper.encrypt; X509 subject=" + aX509Cert.getSubjectX500Principal ().getName () + "; algorithm=" + eAlgorithm + "; CTE=" + eCTE); aX509Cert.checkValidity (); final ASN1ObjectIdentifier aEncAlg = eAlgorithm.getOID (); final SMIMEEnvelopedGenerator aGen = new SMIMEEnvelopedGenerator (); aGen.addRecipientInfoGenerator (new JceKeyTransRecipientInfoGenerator (aX509Cert).setProvider (m_sSecurityProviderName)); aGen.setContentTransferEncoding (eCTE.getID ()); final OutputEncryptor aEncryptor = new JceCMSContentEncryptorBuilder (aEncAlg).setProvider (m_sSecurityProviderName).build (); final MimeBodyPart aEncryptedPart = aGen.generate (aPart, aEncryptor); return aEncryptedPart; } BCCryptoHelper(); @Nonnull @Nonempty String getSecurityProviderName(); @Nonnull BCCryptoHelper setSecurityProviderName(@Nonnull @Nonempty final String sSecurityProviderName); @Nonnull KeyStore createNewKeyStore(@Nonnull final IKeyStoreType aKeyStoreType); @Nonnull KeyStore loadKeyStore(@Nonnull final IKeyStoreType aKeyStoreType, @Nullable @WillNotClose final InputStream aIS, @Nonnull final char [] aPassword); boolean isEncrypted(@Nonnull final MimeBodyPart aPart); boolean isSigned(@Nonnull final MimeBodyPart aPart); boolean isCompressed(@Nonnull final String sContentType); @Nonnull MIC calculateMIC(@Nonnull final MimeBodyPart aPart, @Nonnull final ECryptoAlgorithmSign eDigestAlgorithm, final boolean bIncludeHeaders); @Nonnull MimeBodyPart decrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, final boolean bForceDecrypt, @Nonnull final AS2ResourceHelper aResHelper); @Nonnull MimeBodyPart encrypt(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final ECryptoAlgorithmCrypt eAlgorithm, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart sign(@Nonnull final MimeBodyPart aPart, @Nonnull final X509Certificate aX509Cert, @Nonnull final PrivateKey aPrivateKey, @Nonnull final ECryptoAlgorithmSign eAlgorithm, final boolean bIncludeCertificateInSignedContent, final boolean bUseOldRFC3851MicAlgs, @Nonnull final EContentTransferEncoding eCTE); @Nonnull MimeBodyPart verify(@Nonnull final MimeBodyPart aPart, @Nullable final X509Certificate aX509Cert, final boolean bUseCertificateInBodyPart, final boolean bForceVerify, @Nullable final Consumer <X509Certificate> aEffectiveCertificateConsumer, @Nonnull final AS2ResourceHelper aResHelper); }
@Test public void testStatus() { final DiscreteAnnealSubclass anneal = new DiscreteAnnealSubclass(1000, 4000, 1); assertEquals("k=0,kMax=1000,t=0.0,prob=0.0", anneal.getStatus()); }	public String getStatus() { final StringBuilder result = new StringBuilder(); result.append("k="); result.append(this.k); result.append(",kMax="); result.append(this.kMax); result.append(",t="); result.append(this.currentTemperature); result.append(",prob="); result.append(this.lastProbability); return result.toString(); }	DiscreteAnneal { public String getStatus() { final StringBuilder result = new StringBuilder(); result.append("k="); result.append(this.k); result.append(",kMax="); result.append(this.kMax); result.append(",t="); result.append(this.currentTemperature); result.append(",prob="); result.append(this.lastProbability); return result.toString(); } }	DiscreteAnneal { public String getStatus() { final StringBuilder result = new StringBuilder(); result.append("k="); result.append(this.k); result.append(",kMax="); result.append(this.kMax); result.append(",t="); result.append(this.currentTemperature); result.append(",prob="); result.append(this.lastProbability); return result.toString(); } DiscreteAnneal(final int theKMax, final double theStartingTemperature, final double theEndingTemperature); }	DiscreteAnneal { public String getStatus() { final StringBuilder result = new StringBuilder(); result.append("k="); result.append(this.k); result.append(",kMax="); result.append(this.kMax); result.append(",t="); result.append(this.currentTemperature); result.append(",prob="); result.append(this.lastProbability); return result.toString(); } DiscreteAnneal(final int theKMax, final double theStartingTemperature, final double theEndingTemperature); double coolingSchedule(); void iteration(); abstract void backupState(); abstract void restoreState(); abstract void foundNewBest(); abstract void moveToNeighbor(); abstract double evaluate(); boolean done(); double getBestScore(); double calcProbability(final double ecurrent, final double enew, final double t); int getK(); int getCycles(); void setCycles(final int cycles); String getStatus(); }	DiscreteAnneal { public String getStatus() { final StringBuilder result = new StringBuilder(); result.append("k="); result.append(this.k); result.append(",kMax="); result.append(this.kMax); result.append(",t="); result.append(this.currentTemperature); result.append(",prob="); result.append(this.lastProbability); return result.toString(); } DiscreteAnneal(final int theKMax, final double theStartingTemperature, final double theEndingTemperature); double coolingSchedule(); void iteration(); abstract void backupState(); abstract void restoreState(); abstract void foundNewBest(); abstract void moveToNeighbor(); abstract double evaluate(); boolean done(); double getBestScore(); double calcProbability(final double ecurrent, final double enew, final double t); int getK(); int getCycles(); void setCycles(final int cycles); String getStatus(); }
@Test(expected = AIFHError.class) public void testNoObservations() { final List<BasicData> list = new ArrayList<BasicData>(); final KMeans kmeans = new KMeans(3); kmeans.initForgy(list); }	public void initForgy(final List<BasicData> theObservations) { final int dimensions = findDimensions(theObservations); this.clusters.clear(); final Set<Integer> usedObservations = new HashSet<Integer>(); for (int i = 0; i < this.k; i++) { final Cluster cluster = new Cluster(dimensions); this.clusters.add(cluster); int observationIndex = -1; while (observationIndex == -1) { observationIndex = this.randomGeneration.nextInt(theObservations.size()); if (usedObservations.contains(observationIndex)) { observationIndex = -1; } } final double[] observation = theObservations.get(observationIndex).getInput(); System.arraycopy(observation, 0, cluster.getCenter(), 0, dimensions); usedObservations.add(observationIndex); } for (final BasicData observation : theObservations) { final Cluster cluster = findNearestCluster(observation.getInput()); cluster.getObservations().add(observation); } updateStep(); }	KMeans { public void initForgy(final List<BasicData> theObservations) { final int dimensions = findDimensions(theObservations); this.clusters.clear(); final Set<Integer> usedObservations = new HashSet<Integer>(); for (int i = 0; i < this.k; i++) { final Cluster cluster = new Cluster(dimensions); this.clusters.add(cluster); int observationIndex = -1; while (observationIndex == -1) { observationIndex = this.randomGeneration.nextInt(theObservations.size()); if (usedObservations.contains(observationIndex)) { observationIndex = -1; } } final double[] observation = theObservations.get(observationIndex).getInput(); System.arraycopy(observation, 0, cluster.getCenter(), 0, dimensions); usedObservations.add(observationIndex); } for (final BasicData observation : theObservations) { final Cluster cluster = findNearestCluster(observation.getInput()); cluster.getObservations().add(observation); } updateStep(); } }	KMeans { public void initForgy(final List<BasicData> theObservations) { final int dimensions = findDimensions(theObservations); this.clusters.clear(); final Set<Integer> usedObservations = new HashSet<Integer>(); for (int i = 0; i < this.k; i++) { final Cluster cluster = new Cluster(dimensions); this.clusters.add(cluster); int observationIndex = -1; while (observationIndex == -1) { observationIndex = this.randomGeneration.nextInt(theObservations.size()); if (usedObservations.contains(observationIndex)) { observationIndex = -1; } } final double[] observation = theObservations.get(observationIndex).getInput(); System.arraycopy(observation, 0, cluster.getCenter(), 0, dimensions); usedObservations.add(observationIndex); } for (final BasicData observation : theObservations) { final Cluster cluster = findNearestCluster(observation.getInput()); cluster.getObservations().add(observation); } updateStep(); } KMeans(final int theK); }	KMeans { public void initForgy(final List<BasicData> theObservations) { final int dimensions = findDimensions(theObservations); this.clusters.clear(); final Set<Integer> usedObservations = new HashSet<Integer>(); for (int i = 0; i < this.k; i++) { final Cluster cluster = new Cluster(dimensions); this.clusters.add(cluster); int observationIndex = -1; while (observationIndex == -1) { observationIndex = this.randomGeneration.nextInt(theObservations.size()); if (usedObservations.contains(observationIndex)) { observationIndex = -1; } } final double[] observation = theObservations.get(observationIndex).getInput(); System.arraycopy(observation, 0, cluster.getCenter(), 0, dimensions); usedObservations.add(observationIndex); } for (final BasicData observation : theObservations) { final Cluster cluster = findNearestCluster(observation.getInput()); cluster.getObservations().add(observation); } updateStep(); } KMeans(final int theK); void initRandom(final List<BasicData> theObservations); void initForgy(final List<BasicData> theObservations); Cluster findNearestCluster(final double[] observation); boolean iteration(); int iteration(final int maxIterations); GenerateRandom getRandomGeneration(); void setRandomGeneration(final GenerateRandom randomGeneration); CalculateDistance getDistanceMetric(); void setDistanceMetric(final CalculateDistance distanceMetric); int getK(); List<Cluster> getClusters(); }	KMeans { public void initForgy(final List<BasicData> theObservations) { final int dimensions = findDimensions(theObservations); this.clusters.clear(); final Set<Integer> usedObservations = new HashSet<Integer>(); for (int i = 0; i < this.k; i++) { final Cluster cluster = new Cluster(dimensions); this.clusters.add(cluster); int observationIndex = -1; while (observationIndex == -1) { observationIndex = this.randomGeneration.nextInt(theObservations.size()); if (usedObservations.contains(observationIndex)) { observationIndex = -1; } } final double[] observation = theObservations.get(observationIndex).getInput(); System.arraycopy(observation, 0, cluster.getCenter(), 0, dimensions); usedObservations.add(observationIndex); } for (final BasicData observation : theObservations) { final Cluster cluster = findNearestCluster(observation.getInput()); cluster.getObservations().add(observation); } updateStep(); } KMeans(final int theK); void initRandom(final List<BasicData> theObservations); void initForgy(final List<BasicData> theObservations); Cluster findNearestCluster(final double[] observation); boolean iteration(); int iteration(final int maxIterations); GenerateRandom getRandomGeneration(); void setRandomGeneration(final GenerateRandom randomGeneration); CalculateDistance getDistanceMetric(); void setDistanceMetric(final CalculateDistance distanceMetric); int getK(); List<Cluster> getClusters(); }
@Test(expected = AIFHError.class) public void testNoDimension() { final List<BasicData> list = new ArrayList<BasicData>(); list.add(new BasicData(0)); final KMeans kmeans = new KMeans(3); kmeans.initForgy(list); }	public void initForgy(final List<BasicData> theObservations) { final int dimensions = findDimensions(theObservations); this.clusters.clear(); final Set<Integer> usedObservations = new HashSet<Integer>(); for (int i = 0; i < this.k; i++) { final Cluster cluster = new Cluster(dimensions); this.clusters.add(cluster); int observationIndex = -1; while (observationIndex == -1) { observationIndex = this.randomGeneration.nextInt(theObservations.size()); if (usedObservations.contains(observationIndex)) { observationIndex = -1; } } final double[] observation = theObservations.get(observationIndex).getInput(); System.arraycopy(observation, 0, cluster.getCenter(), 0, dimensions); usedObservations.add(observationIndex); } for (final BasicData observation : theObservations) { final Cluster cluster = findNearestCluster(observation.getInput()); cluster.getObservations().add(observation); } updateStep(); }	KMeans { public void initForgy(final List<BasicData> theObservations) { final int dimensions = findDimensions(theObservations); this.clusters.clear(); final Set<Integer> usedObservations = new HashSet<Integer>(); for (int i = 0; i < this.k; i++) { final Cluster cluster = new Cluster(dimensions); this.clusters.add(cluster); int observationIndex = -1; while (observationIndex == -1) { observationIndex = this.randomGeneration.nextInt(theObservations.size()); if (usedObservations.contains(observationIndex)) { observationIndex = -1; } } final double[] observation = theObservations.get(observationIndex).getInput(); System.arraycopy(observation, 0, cluster.getCenter(), 0, dimensions); usedObservations.add(observationIndex); } for (final BasicData observation : theObservations) { final Cluster cluster = findNearestCluster(observation.getInput()); cluster.getObservations().add(observation); } updateStep(); } }	KMeans { public void initForgy(final List<BasicData> theObservations) { final int dimensions = findDimensions(theObservations); this.clusters.clear(); final Set<Integer> usedObservations = new HashSet<Integer>(); for (int i = 0; i < this.k; i++) { final Cluster cluster = new Cluster(dimensions); this.clusters.add(cluster); int observationIndex = -1; while (observationIndex == -1) { observationIndex = this.randomGeneration.nextInt(theObservations.size()); if (usedObservations.contains(observationIndex)) { observationIndex = -1; } } final double[] observation = theObservations.get(observationIndex).getInput(); System.arraycopy(observation, 0, cluster.getCenter(), 0, dimensions); usedObservations.add(observationIndex); } for (final BasicData observation : theObservations) { final Cluster cluster = findNearestCluster(observation.getInput()); cluster.getObservations().add(observation); } updateStep(); } KMeans(final int theK); }	KMeans { public void initForgy(final List<BasicData> theObservations) { final int dimensions = findDimensions(theObservations); this.clusters.clear(); final Set<Integer> usedObservations = new HashSet<Integer>(); for (int i = 0; i < this.k; i++) { final Cluster cluster = new Cluster(dimensions); this.clusters.add(cluster); int observationIndex = -1; while (observationIndex == -1) { observationIndex = this.randomGeneration.nextInt(theObservations.size()); if (usedObservations.contains(observationIndex)) { observationIndex = -1; } } final double[] observation = theObservations.get(observationIndex).getInput(); System.arraycopy(observation, 0, cluster.getCenter(), 0, dimensions); usedObservations.add(observationIndex); } for (final BasicData observation : theObservations) { final Cluster cluster = findNearestCluster(observation.getInput()); cluster.getObservations().add(observation); } updateStep(); } KMeans(final int theK); void initRandom(final List<BasicData> theObservations); void initForgy(final List<BasicData> theObservations); Cluster findNearestCluster(final double[] observation); boolean iteration(); int iteration(final int maxIterations); GenerateRandom getRandomGeneration(); void setRandomGeneration(final GenerateRandom randomGeneration); CalculateDistance getDistanceMetric(); void setDistanceMetric(final CalculateDistance distanceMetric); int getK(); List<Cluster> getClusters(); }	KMeans { public void initForgy(final List<BasicData> theObservations) { final int dimensions = findDimensions(theObservations); this.clusters.clear(); final Set<Integer> usedObservations = new HashSet<Integer>(); for (int i = 0; i < this.k; i++) { final Cluster cluster = new Cluster(dimensions); this.clusters.add(cluster); int observationIndex = -1; while (observationIndex == -1) { observationIndex = this.randomGeneration.nextInt(theObservations.size()); if (usedObservations.contains(observationIndex)) { observationIndex = -1; } } final double[] observation = theObservations.get(observationIndex).getInput(); System.arraycopy(observation, 0, cluster.getCenter(), 0, dimensions); usedObservations.add(observationIndex); } for (final BasicData observation : theObservations) { final Cluster cluster = findNearestCluster(observation.getInput()); cluster.getObservations().add(observation); } updateStep(); } KMeans(final int theK); void initRandom(final List<BasicData> theObservations); void initForgy(final List<BasicData> theObservations); Cluster findNearestCluster(final double[] observation); boolean iteration(); int iteration(final int maxIterations); GenerateRandom getRandomGeneration(); void setRandomGeneration(final GenerateRandom randomGeneration); CalculateDistance getDistanceMetric(); void setDistanceMetric(final CalculateDistance distanceMetric); int getK(); List<Cluster> getClusters(); }
@Test public void testToString() { final BasicData data = new BasicData(2); assertEquals("[BasicData: input:[0.0, 0.0], ideal:[], label:null]", data.toString()); }	public String toString() { final StringBuilder result = new StringBuilder(); result.append("[BasicData: input:"); result.append(Arrays.toString(this.input)); result.append(", ideal:"); result.append(Arrays.toString(this.ideal)); result.append(", label:"); result.append(this.label); result.append("]"); return result.toString(); }	BasicData { public String toString() { final StringBuilder result = new StringBuilder(); result.append("[BasicData: input:"); result.append(Arrays.toString(this.input)); result.append(", ideal:"); result.append(Arrays.toString(this.ideal)); result.append(", label:"); result.append(this.label); result.append("]"); return result.toString(); } }	BasicData { public String toString() { final StringBuilder result = new StringBuilder(); result.append("[BasicData: input:"); result.append(Arrays.toString(this.input)); result.append(", ideal:"); result.append(Arrays.toString(this.ideal)); result.append(", label:"); result.append(this.label); result.append("]"); return result.toString(); } BasicData(final int theInputDimensions); BasicData(final int theInputDimensions, final int theIdealDimensions); BasicData(final int theInputDimensions, final int theIdealDimensions, final String theLabel); BasicData(final double[] theInputData, final double[] theIdealData, final String theLabel); BasicData(final double[] theInputData, final String theLabel); BasicData(final double[] theInputData); }	BasicData { public String toString() { final StringBuilder result = new StringBuilder(); result.append("[BasicData: input:"); result.append(Arrays.toString(this.input)); result.append(", ideal:"); result.append(Arrays.toString(this.ideal)); result.append(", label:"); result.append(this.label); result.append("]"); return result.toString(); } BasicData(final int theInputDimensions); BasicData(final int theInputDimensions, final int theIdealDimensions); BasicData(final int theInputDimensions, final int theIdealDimensions, final String theLabel); BasicData(final double[] theInputData, final double[] theIdealData, final String theLabel); BasicData(final double[] theInputData, final String theLabel); BasicData(final double[] theInputData); double[] getInput(); double[] getIdeal(); String getLabel(); void setLabel(final String label); String toString(); static List<BasicData> convertArrays(final double[][] inputData, final double[][] idealData); }	BasicData { public String toString() { final StringBuilder result = new StringBuilder(); result.append("[BasicData: input:"); result.append(Arrays.toString(this.input)); result.append(", ideal:"); result.append(Arrays.toString(this.ideal)); result.append(", label:"); result.append(this.label); result.append("]"); return result.toString(); } BasicData(final int theInputDimensions); BasicData(final int theInputDimensions, final int theIdealDimensions); BasicData(final int theInputDimensions, final int theIdealDimensions, final String theLabel); BasicData(final double[] theInputData, final double[] theIdealData, final String theLabel); BasicData(final double[] theInputData, final String theLabel); BasicData(final double[] theInputData); double[] getInput(); double[] getIdeal(); String getLabel(); void setLabel(final String label); String toString(); static List<BasicData> convertArrays(final double[][] inputData, final double[][] idealData); }
@Test public void testMaxIndex() { final double[] a = {2, 4, 10, 8}; assertEquals(2, VectorUtil.maxIndex(a), AIFH.DEFAULT_PRECISION); }	public static int maxIndex(final double[] a) { int result = -1; double max = Double.NEGATIVE_INFINITY; for (int i = 0; i < a.length; i++) { if (a[i] > max) { max = a[i]; result = i; } } return result; }	VectorUtil { public static int maxIndex(final double[] a) { int result = -1; double max = Double.NEGATIVE_INFINITY; for (int i = 0; i < a.length; i++) { if (a[i] > max) { max = a[i]; result = i; } } return result; } }	VectorUtil { public static int maxIndex(final double[] a) { int result = -1; double max = Double.NEGATIVE_INFINITY; for (int i = 0; i < a.length; i++) { if (a[i] > max) { max = a[i]; result = i; } } return result; } private VectorUtil(); }	VectorUtil { public static int maxIndex(final double[] a) { int result = -1; double max = Double.NEGATIVE_INFINITY; for (int i = 0; i < a.length; i++) { if (a[i] > max) { max = a[i]; result = i; } } return result; } private VectorUtil(); static int maxIndex(final double[] a); }	VectorUtil { public static int maxIndex(final double[] a) { int result = -1; double max = Double.NEGATIVE_INFINITY; for (int i = 0; i < a.length; i++) { if (a[i] > max) { max = a[i]; result = i; } } return result; } private VectorUtil(); static int maxIndex(final double[] a); }
@Test public void testEvaluate() { final LogLinkFunction fn = new LogLinkFunction(); final double[] x = {2}; final double y = fn.evaluate(x); assertEquals(0.6931471805599453, y, AIFH.DEFAULT_PRECISION); }	@Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return Math.log(x[0]); }	LogLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return Math.log(x[0]); } }	LogLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return Math.log(x[0]); } }	LogLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return Math.log(x[0]); } @Override double evaluate(final double[] x); }	LogLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return Math.log(x[0]); } @Override double evaluate(final double[] x); }
@Test(expected = AIFHError.class) public void testException() { final LogLinkFunction fn = new LogLinkFunction(); final double[] x = {1, 2}; fn.evaluate(x); }	@Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return Math.log(x[0]); }	LogLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return Math.log(x[0]); } }	LogLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return Math.log(x[0]); } }	LogLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return Math.log(x[0]); } @Override double evaluate(final double[] x); }	LogLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return Math.log(x[0]); } @Override double evaluate(final double[] x); }
@Test public void testEvaluate() { final IdentityLinkFunction fn = new IdentityLinkFunction(); final double[] x = {2}; final double y = fn.evaluate(x); assertEquals(2, y, AIFH.DEFAULT_PRECISION); }	@Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The linear link function can only accept one parameter."); } return x[0]; }	IdentityLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The linear link function can only accept one parameter."); } return x[0]; } }	IdentityLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The linear link function can only accept one parameter."); } return x[0]; } }	IdentityLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The linear link function can only accept one parameter."); } return x[0]; } @Override double evaluate(final double[] x); }	IdentityLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The linear link function can only accept one parameter."); } return x[0]; } @Override double evaluate(final double[] x); }
@Test(expected = AIFHError.class) public void testException() { final IdentityLinkFunction fn = new IdentityLinkFunction(); final double[] x = {1, 2}; fn.evaluate(x); }	@Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The linear link function can only accept one parameter."); } return x[0]; }	IdentityLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The linear link function can only accept one parameter."); } return x[0]; } }	IdentityLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The linear link function can only accept one parameter."); } return x[0]; } }	IdentityLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The linear link function can only accept one parameter."); } return x[0]; } @Override double evaluate(final double[] x); }	IdentityLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The linear link function can only accept one parameter."); } return x[0]; } @Override double evaluate(final double[] x); }
@Test public void testEvaluate() { final InverseLinkFunction fn = new InverseLinkFunction(); final double[] x = {2}; final double y = fn.evaluate(x); assertEquals(-0.5, y, AIFH.DEFAULT_PRECISION); }	@Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse link function can only accept one parameter."); } return -Math.pow(x[0], -1); }	InverseLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse link function can only accept one parameter."); } return -Math.pow(x[0], -1); } }	InverseLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse link function can only accept one parameter."); } return -Math.pow(x[0], -1); } }	InverseLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse link function can only accept one parameter."); } return -Math.pow(x[0], -1); } @Override double evaluate(final double[] x); }	InverseLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse link function can only accept one parameter."); } return -Math.pow(x[0], -1); } @Override double evaluate(final double[] x); }
@Test(expected = AIFHError.class) public void testException() { final InverseLinkFunction fn = new InverseLinkFunction(); final double[] x = {1, 2}; fn.evaluate(x); }	@Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse link function can only accept one parameter."); } return -Math.pow(x[0], -1); }	InverseLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse link function can only accept one parameter."); } return -Math.pow(x[0], -1); } }	InverseLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse link function can only accept one parameter."); } return -Math.pow(x[0], -1); } }	InverseLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse link function can only accept one parameter."); } return -Math.pow(x[0], -1); } @Override double evaluate(final double[] x); }	InverseLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse link function can only accept one parameter."); } return -Math.pow(x[0], -1); } @Override double evaluate(final double[] x); }
@Test public void testCoolingSchedule() { final DiscreteAnnealSubclass anneal = new DiscreteAnnealSubclass(1000, 400, 1); assertEquals(400, anneal.coolingSchedule(), AIFH.DEFAULT_PRECISION); anneal.iteration(); assertEquals(397.61057939346017, anneal.coolingSchedule(), AIFH.DEFAULT_PRECISION); }	public double coolingSchedule() { final double ex = (double) k / (double) kMax; return this.startingTemperature * Math.pow(this.endingTemperature / this.startingTemperature, ex); }	DiscreteAnneal { public double coolingSchedule() { final double ex = (double) k / (double) kMax; return this.startingTemperature * Math.pow(this.endingTemperature / this.startingTemperature, ex); } }	DiscreteAnneal { public double coolingSchedule() { final double ex = (double) k / (double) kMax; return this.startingTemperature * Math.pow(this.endingTemperature / this.startingTemperature, ex); } DiscreteAnneal(final int theKMax, final double theStartingTemperature, final double theEndingTemperature); }	DiscreteAnneal { public double coolingSchedule() { final double ex = (double) k / (double) kMax; return this.startingTemperature * Math.pow(this.endingTemperature / this.startingTemperature, ex); } DiscreteAnneal(final int theKMax, final double theStartingTemperature, final double theEndingTemperature); double coolingSchedule(); void iteration(); abstract void backupState(); abstract void restoreState(); abstract void foundNewBest(); abstract void moveToNeighbor(); abstract double evaluate(); boolean done(); double getBestScore(); double calcProbability(final double ecurrent, final double enew, final double t); int getK(); int getCycles(); void setCycles(final int cycles); String getStatus(); }	DiscreteAnneal { public double coolingSchedule() { final double ex = (double) k / (double) kMax; return this.startingTemperature * Math.pow(this.endingTemperature / this.startingTemperature, ex); } DiscreteAnneal(final int theKMax, final double theStartingTemperature, final double theEndingTemperature); double coolingSchedule(); void iteration(); abstract void backupState(); abstract void restoreState(); abstract void foundNewBest(); abstract void moveToNeighbor(); abstract double evaluate(); boolean done(); double getBestScore(); double calcProbability(final double ecurrent, final double enew, final double t); int getK(); int getCycles(); void setCycles(final int cycles); String getStatus(); }
@Test public void testEvaluate() { final LogitLinkFunction fn = new LogitLinkFunction(); final double[] x = {2}; final double y = fn.evaluate(x); assertEquals(0.8807970779778823, y, AIFH.DEFAULT_PRECISION); }	@Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return 1.0 / (1.0 + Math.exp(-x[0])); }	LogitLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return 1.0 / (1.0 + Math.exp(-x[0])); } }	LogitLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return 1.0 / (1.0 + Math.exp(-x[0])); } }	LogitLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return 1.0 / (1.0 + Math.exp(-x[0])); } @Override double evaluate(final double[] x); }	LogitLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return 1.0 / (1.0 + Math.exp(-x[0])); } @Override double evaluate(final double[] x); }
@Test(expected = AIFHError.class) public void testException() { final LogitLinkFunction fn = new LogitLinkFunction(); final double[] x = {1, 2}; fn.evaluate(x); }	@Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return 1.0 / (1.0 + Math.exp(-x[0])); }	LogitLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return 1.0 / (1.0 + Math.exp(-x[0])); } }	LogitLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return 1.0 / (1.0 + Math.exp(-x[0])); } }	LogitLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return 1.0 / (1.0 + Math.exp(-x[0])); } @Override double evaluate(final double[] x); }	LogitLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The logistic link function can only accept one parameter."); } return 1.0 / (1.0 + Math.exp(-x[0])); } @Override double evaluate(final double[] x); }
@Test public void testEvaluate() { final InverseSquaredLinkFunction fn = new InverseSquaredLinkFunction(); final double[] x = {2}; final double y = fn.evaluate(x); assertEquals(-0.25, y, AIFH.DEFAULT_PRECISION); }	@Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse squared link function can only accept one parameter."); } return -Math.pow(x[0], -2); }	InverseSquaredLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse squared link function can only accept one parameter."); } return -Math.pow(x[0], -2); } }	InverseSquaredLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse squared link function can only accept one parameter."); } return -Math.pow(x[0], -2); } }	InverseSquaredLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse squared link function can only accept one parameter."); } return -Math.pow(x[0], -2); } @Override double evaluate(final double[] x); }	InverseSquaredLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse squared link function can only accept one parameter."); } return -Math.pow(x[0], -2); } @Override double evaluate(final double[] x); }
@Test(expected = AIFHError.class) public void testException() { final InverseSquaredLinkFunction fn = new InverseSquaredLinkFunction(); final double[] x = {1, 2}; fn.evaluate(x); }	@Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse squared link function can only accept one parameter."); } return -Math.pow(x[0], -2); }	InverseSquaredLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse squared link function can only accept one parameter."); } return -Math.pow(x[0], -2); } }	InverseSquaredLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse squared link function can only accept one parameter."); } return -Math.pow(x[0], -2); } }	InverseSquaredLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse squared link function can only accept one parameter."); } return -Math.pow(x[0], -2); } @Override double evaluate(final double[] x); }	InverseSquaredLinkFunction implements Fn { @Override public double evaluate(final double[] x) { if (x.length > 1) { throw new AIFHError("The inverse squared link function can only accept one parameter."); } return -Math.pow(x[0], -2); } @Override double evaluate(final double[] x); }
@Test public void testEvaluate() { final double[] params = {5, 0, 0, 0}; final GaussianFunction funct = new GaussianFunction(3, params, 0); final double[] x = {-1, 0, 1}; final double y = funct.evaluate(x); assertEquals(0.9607894391523232, y, AIFH.DEFAULT_PRECISION); }	@Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); value += Math.pow(x[i] - center, 2) / (2.0 * width * width); } return Math.exp(-value); }	GaussianFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); value += Math.pow(x[i] - center, 2) / (2.0 * width * width); } return Math.exp(-value); } }	GaussianFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); value += Math.pow(x[i] - center, 2) / (2.0 * width * width); } return Math.exp(-value); } GaussianFunction(final int theDimensions, final double[] theParams, final int theIndex); }	GaussianFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); value += Math.pow(x[i] - center, 2) / (2.0 * width * width); } return Math.exp(-value); } GaussianFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }	GaussianFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); value += Math.pow(x[i] - center, 2) / (2.0 * width * width); } return Math.exp(-value); } GaussianFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }
@Test public void testToString() { final double[] params = {5, 0, 0, 0}; final GaussianFunction funct = new GaussianFunction(3, params, 0); final double[] x = {-1, 0, 1}; funct.evaluate(x); assertEquals("[GaussianFunction:width=5.00,center=0.00,0.00,0.00]", funct.toString()); }	@Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); value += Math.pow(x[i] - center, 2) / (2.0 * width * width); } return Math.exp(-value); }	GaussianFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); value += Math.pow(x[i] - center, 2) / (2.0 * width * width); } return Math.exp(-value); } }	GaussianFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); value += Math.pow(x[i] - center, 2) / (2.0 * width * width); } return Math.exp(-value); } GaussianFunction(final int theDimensions, final double[] theParams, final int theIndex); }	GaussianFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); value += Math.pow(x[i] - center, 2) / (2.0 * width * width); } return Math.exp(-value); } GaussianFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }	GaussianFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); value += Math.pow(x[i] - center, 2) / (2.0 * width * width); } return Math.exp(-value); } GaussianFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }
@Test public void testEvaluate() { final double[] params = {5, 0, 0, 0}; final MultiquadricFunction funct = new MultiquadricFunction(3, params, 0); final double[] x = {-1, 0, 1}; final double y = funct.evaluate(x); assertEquals(8.774964387392123, y, AIFH.DEFAULT_PRECISION); }	@Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return Math.sqrt(value); }	MultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return Math.sqrt(value); } }	MultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return Math.sqrt(value); } MultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); }	MultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return Math.sqrt(value); } MultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }	MultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return Math.sqrt(value); } MultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }
@Test public void testToString() { final double[] params = {5, 0, 0, 0}; final MultiquadricFunction funct = new MultiquadricFunction(3, params, 0); final double[] x = {-1, 0, 1}; funct.evaluate(x); assertEquals("[MultiquadricFunction:width=5.00,center=0.00,0.00,0.00]", funct.toString()); }	@Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return Math.sqrt(value); }	MultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return Math.sqrt(value); } }	MultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return Math.sqrt(value); } MultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); }	MultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return Math.sqrt(value); } MultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }	MultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return Math.sqrt(value); } MultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }
@Test public void testEvaluate() { final double[] params = {5, 0, 0, 0}; final InverseMultiquadricFunction funct = new InverseMultiquadricFunction(3, params, 0); final double[] x = {-1, 0, 1}; final double y = funct.evaluate(x); assertEquals(0.11396057645963795, y, AIFH.DEFAULT_PRECISION); }	@Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return 1 / Math.sqrt(value); }	InverseMultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return 1 / Math.sqrt(value); } }	InverseMultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return 1 / Math.sqrt(value); } InverseMultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); }	InverseMultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return 1 / Math.sqrt(value); } InverseMultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }	InverseMultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return 1 / Math.sqrt(value); } InverseMultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }
@Test public void testToString() { final double[] params = {5, 0, 0, 0}; final InverseMultiquadricFunction funct = new InverseMultiquadricFunction(3, params, 0); final double[] x = {-1, 0, 1}; funct.evaluate(x); assertEquals("[InverseMultiquadricFunction:width=5.00,center=0.00,0.00,0.00]", funct.toString()); }	@Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return 1 / Math.sqrt(value); }	InverseMultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return 1 / Math.sqrt(value); } }	InverseMultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return 1 / Math.sqrt(value); } InverseMultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); }	InverseMultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return 1 / Math.sqrt(value); } InverseMultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }	InverseMultiquadricFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double value = 0; final double width = getWidth(); for (int i = 0; i < getDimensions(); i++) { final double center = getCenter(i); value += Math.pow(x[i] - center, 2) + (width * width); } return 1 / Math.sqrt(value); } InverseMultiquadricFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }
@Test public void testClassification() { final double[] ACTUAL = {0.0, 1.0, 0.0, 0.0}; final List<BasicData> training = BasicData.convertArrays(TEST_INPUT, TEST_IDEAL); final ScoreClassificationData score = new ScoreClassificationData(training); final SimpleAlgo simple = new SimpleAlgo(ACTUAL); final double s = score.calculateScore(simple); assertEquals(0.25, s, AIFH.DEFAULT_PRECISION); }	@Override public double calculateScore(final MachineLearningAlgorithm algo) { int incorrectCount = 0; int totalCount = 0; final ClassificationAlgorithm ralgo = (ClassificationAlgorithm) algo; for (final BasicData aTrainingData : this.trainingData) { totalCount++; final int output = ralgo.computeClassification(aTrainingData.getInput()); if (output != (int) aTrainingData.getIdeal()[0]) { incorrectCount++; } } return (double) incorrectCount / (double) totalCount; }	ScoreClassificationData implements ScoreFunction { @Override public double calculateScore(final MachineLearningAlgorithm algo) { int incorrectCount = 0; int totalCount = 0; final ClassificationAlgorithm ralgo = (ClassificationAlgorithm) algo; for (final BasicData aTrainingData : this.trainingData) { totalCount++; final int output = ralgo.computeClassification(aTrainingData.getInput()); if (output != (int) aTrainingData.getIdeal()[0]) { incorrectCount++; } } return (double) incorrectCount / (double) totalCount; } }	ScoreClassificationData implements ScoreFunction { @Override public double calculateScore(final MachineLearningAlgorithm algo) { int incorrectCount = 0; int totalCount = 0; final ClassificationAlgorithm ralgo = (ClassificationAlgorithm) algo; for (final BasicData aTrainingData : this.trainingData) { totalCount++; final int output = ralgo.computeClassification(aTrainingData.getInput()); if (output != (int) aTrainingData.getIdeal()[0]) { incorrectCount++; } } return (double) incorrectCount / (double) totalCount; } ScoreClassificationData(final List<BasicData> theTrainingData); }	ScoreClassificationData implements ScoreFunction { @Override public double calculateScore(final MachineLearningAlgorithm algo) { int incorrectCount = 0; int totalCount = 0; final ClassificationAlgorithm ralgo = (ClassificationAlgorithm) algo; for (final BasicData aTrainingData : this.trainingData) { totalCount++; final int output = ralgo.computeClassification(aTrainingData.getInput()); if (output != (int) aTrainingData.getIdeal()[0]) { incorrectCount++; } } return (double) incorrectCount / (double) totalCount; } ScoreClassificationData(final List<BasicData> theTrainingData); @Override double calculateScore(final MachineLearningAlgorithm algo); }	ScoreClassificationData implements ScoreFunction { @Override public double calculateScore(final MachineLearningAlgorithm algo) { int incorrectCount = 0; int totalCount = 0; final ClassificationAlgorithm ralgo = (ClassificationAlgorithm) algo; for (final BasicData aTrainingData : this.trainingData) { totalCount++; final int output = ralgo.computeClassification(aTrainingData.getInput()); if (output != (int) aTrainingData.getIdeal()[0]) { incorrectCount++; } } return (double) incorrectCount / (double) totalCount; } ScoreClassificationData(final List<BasicData> theTrainingData); @Override double calculateScore(final MachineLearningAlgorithm algo); }
@Test public void testEvaluate() { final double[] params = {5, 0, 0, 0}; final MexicanHatFunction funct = new MexicanHatFunction(3, params, 0); final double[] x = {-1, 0, 1}; final double y = funct.evaluate(x); assertEquals(-0.36787944117144233, y, AIFH.DEFAULT_PRECISION); }	@Override public double evaluate(final double[] x) { double norm = 0; for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); norm += Math.pow(x[i] - center, 2); } return (1 - norm) * Math.exp(-norm / 2); }	MexicanHatFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double norm = 0; for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); norm += Math.pow(x[i] - center, 2); } return (1 - norm) * Math.exp(-norm / 2); } }	MexicanHatFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double norm = 0; for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); norm += Math.pow(x[i] - center, 2); } return (1 - norm) * Math.exp(-norm / 2); } MexicanHatFunction(final int theDimensions, final double[] theParams, final int theIndex); }	MexicanHatFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double norm = 0; for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); norm += Math.pow(x[i] - center, 2); } return (1 - norm) * Math.exp(-norm / 2); } MexicanHatFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }	MexicanHatFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double norm = 0; for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); norm += Math.pow(x[i] - center, 2); } return (1 - norm) * Math.exp(-norm / 2); } MexicanHatFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }
@Test public void testToString() { final double[] params = {5, 0, 0, 0}; final MexicanHatFunction funct = new MexicanHatFunction(3, params, 0); final double[] x = {-1, 0, 1}; funct.evaluate(x); assertEquals("[MexicanHatFunction:width=5.00,center=0.00,0.00,0.00]", funct.toString()); }	@Override public double evaluate(final double[] x) { double norm = 0; for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); norm += Math.pow(x[i] - center, 2); } return (1 - norm) * Math.exp(-norm / 2); }	MexicanHatFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double norm = 0; for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); norm += Math.pow(x[i] - center, 2); } return (1 - norm) * Math.exp(-norm / 2); } }	MexicanHatFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double norm = 0; for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); norm += Math.pow(x[i] - center, 2); } return (1 - norm) * Math.exp(-norm / 2); } MexicanHatFunction(final int theDimensions, final double[] theParams, final int theIndex); }	MexicanHatFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double norm = 0; for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); norm += Math.pow(x[i] - center, 2); } return (1 - norm) * Math.exp(-norm / 2); } MexicanHatFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }	MexicanHatFunction extends AbstractRBF { @Override public double evaluate(final double[] x) { double norm = 0; for (int i = 0; i < getDimensions(); i++) { final double center = this.getCenter(i); norm += Math.pow(x[i] - center, 2); } return (1 - norm) * Math.exp(-norm / 2); } MexicanHatFunction(final int theDimensions, final double[] theParams, final int theIndex); @Override double evaluate(final double[] x); }
@Test public void testEqual() { final DataSet ds1 = generateTestData(); final DataSet ds2 = generateTestData(); assertTrue(ds1.equals(ds2)); }	@Override public boolean equals(final Object other) { if (!(other instanceof DataSet)) { return false; } final DataSet otherSet = (DataSet) other; if (getHeaderCount() != otherSet.getHeaderCount()) { return false; } if (size() != otherSet.size()) { return false; } for (int i = 0; i < getHeaderCount(); i++) { if (!this.headers[i].equals(otherSet.getHeaders()[i])) { return false; } } for (int i = 0; i < size(); i++) { final Object[] row1 = this.data.get(i); final Object[] row2 = ((DataSet) other).getData().get(i); for (int j = 0; j < getHeaderCount(); j++) { if (!row1[j].equals(row2[j])) { return false; } } } return true; }	DataSet { @Override public boolean equals(final Object other) { if (!(other instanceof DataSet)) { return false; } final DataSet otherSet = (DataSet) other; if (getHeaderCount() != otherSet.getHeaderCount()) { return false; } if (size() != otherSet.size()) { return false; } for (int i = 0; i < getHeaderCount(); i++) { if (!this.headers[i].equals(otherSet.getHeaders()[i])) { return false; } } for (int i = 0; i < size(); i++) { final Object[] row1 = this.data.get(i); final Object[] row2 = ((DataSet) other).getData().get(i); for (int j = 0; j < getHeaderCount(); j++) { if (!row1[j].equals(row2[j])) { return false; } } } return true; } }	DataSet { @Override public boolean equals(final Object other) { if (!(other instanceof DataSet)) { return false; } final DataSet otherSet = (DataSet) other; if (getHeaderCount() != otherSet.getHeaderCount()) { return false; } if (size() != otherSet.size()) { return false; } for (int i = 0; i < getHeaderCount(); i++) { if (!this.headers[i].equals(otherSet.getHeaders()[i])) { return false; } } for (int i = 0; i < size(); i++) { final Object[] row1 = this.data.get(i); final Object[] row2 = ((DataSet) other).getData().get(i); for (int j = 0; j < getHeaderCount(); j++) { if (!row1[j].equals(row2[j])) { return false; } } } return true; } DataSet(final String[] theHeaders); }	DataSet { @Override public boolean equals(final Object other) { if (!(other instanceof DataSet)) { return false; } final DataSet otherSet = (DataSet) other; if (getHeaderCount() != otherSet.getHeaderCount()) { return false; } if (size() != otherSet.size()) { return false; } for (int i = 0; i < getHeaderCount(); i++) { if (!this.headers[i].equals(otherSet.getHeaders()[i])) { return false; } } for (int i = 0; i < size(); i++) { final Object[] row1 = this.data.get(i); final Object[] row2 = ((DataSet) other).getData().get(i); for (int j = 0; j < getHeaderCount(); j++) { if (!row1[j].equals(row2[j])) { return false; } } } return true; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { @Override public boolean equals(final Object other) { if (!(other instanceof DataSet)) { return false; } final DataSet otherSet = (DataSet) other; if (getHeaderCount() != otherSet.getHeaderCount()) { return false; } if (size() != otherSet.size()) { return false; } for (int i = 0; i < getHeaderCount(); i++) { if (!this.headers[i].equals(otherSet.getHeaders()[i])) { return false; } } for (int i = 0; i < size(); i++) { final Object[] row1 = this.data.get(i); final Object[] row2 = ((DataSet) other).getData().get(i); for (int j = 0; j < getHeaderCount(); j++) { if (!row1[j].equals(row2[j])) { return false; } } } return true; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testNotEqualOtherObject() { final DataSet ds1 = generateTestData(); assertFalse(ds1.equals("")); }	@Override public boolean equals(final Object other) { if (!(other instanceof DataSet)) { return false; } final DataSet otherSet = (DataSet) other; if (getHeaderCount() != otherSet.getHeaderCount()) { return false; } if (size() != otherSet.size()) { return false; } for (int i = 0; i < getHeaderCount(); i++) { if (!this.headers[i].equals(otherSet.getHeaders()[i])) { return false; } } for (int i = 0; i < size(); i++) { final Object[] row1 = this.data.get(i); final Object[] row2 = ((DataSet) other).getData().get(i); for (int j = 0; j < getHeaderCount(); j++) { if (!row1[j].equals(row2[j])) { return false; } } } return true; }	DataSet { @Override public boolean equals(final Object other) { if (!(other instanceof DataSet)) { return false; } final DataSet otherSet = (DataSet) other; if (getHeaderCount() != otherSet.getHeaderCount()) { return false; } if (size() != otherSet.size()) { return false; } for (int i = 0; i < getHeaderCount(); i++) { if (!this.headers[i].equals(otherSet.getHeaders()[i])) { return false; } } for (int i = 0; i < size(); i++) { final Object[] row1 = this.data.get(i); final Object[] row2 = ((DataSet) other).getData().get(i); for (int j = 0; j < getHeaderCount(); j++) { if (!row1[j].equals(row2[j])) { return false; } } } return true; } }	DataSet { @Override public boolean equals(final Object other) { if (!(other instanceof DataSet)) { return false; } final DataSet otherSet = (DataSet) other; if (getHeaderCount() != otherSet.getHeaderCount()) { return false; } if (size() != otherSet.size()) { return false; } for (int i = 0; i < getHeaderCount(); i++) { if (!this.headers[i].equals(otherSet.getHeaders()[i])) { return false; } } for (int i = 0; i < size(); i++) { final Object[] row1 = this.data.get(i); final Object[] row2 = ((DataSet) other).getData().get(i); for (int j = 0; j < getHeaderCount(); j++) { if (!row1[j].equals(row2[j])) { return false; } } } return true; } DataSet(final String[] theHeaders); }	DataSet { @Override public boolean equals(final Object other) { if (!(other instanceof DataSet)) { return false; } final DataSet otherSet = (DataSet) other; if (getHeaderCount() != otherSet.getHeaderCount()) { return false; } if (size() != otherSet.size()) { return false; } for (int i = 0; i < getHeaderCount(); i++) { if (!this.headers[i].equals(otherSet.getHeaders()[i])) { return false; } } for (int i = 0; i < size(); i++) { final Object[] row1 = this.data.get(i); final Object[] row2 = ((DataSet) other).getData().get(i); for (int j = 0; j < getHeaderCount(); j++) { if (!row1[j].equals(row2[j])) { return false; } } } return true; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { @Override public boolean equals(final Object other) { if (!(other instanceof DataSet)) { return false; } final DataSet otherSet = (DataSet) other; if (getHeaderCount() != otherSet.getHeaderCount()) { return false; } if (size() != otherSet.size()) { return false; } for (int i = 0; i < getHeaderCount(); i++) { if (!this.headers[i].equals(otherSet.getHeaders()[i])) { return false; } } for (int i = 0; i < size(); i++) { final Object[] row1 = this.data.get(i); final Object[] row2 = ((DataSet) other).getData().get(i); for (int j = 0; j < getHeaderCount(); j++) { if (!row1[j].equals(row2[j])) { return false; } } } return true; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testMin() { final DataSet ds1 = generateTestData(); assertEquals(1.0, ds1.getMin(1), AIFH.DEFAULT_PRECISION); assertEquals(1.0, ds1.getMin(1), AIFH.DEFAULT_PRECISION); }	public double getMin(final int column) { double result = Double.POSITIVE_INFINITY; for (final Object[] obj : this.data) { result = Math.min(result, convertNumeric(obj, column)); } return result; }	DataSet { public double getMin(final int column) { double result = Double.POSITIVE_INFINITY; for (final Object[] obj : this.data) { result = Math.min(result, convertNumeric(obj, column)); } return result; } }	DataSet { public double getMin(final int column) { double result = Double.POSITIVE_INFINITY; for (final Object[] obj : this.data) { result = Math.min(result, convertNumeric(obj, column)); } return result; } DataSet(final String[] theHeaders); }	DataSet { public double getMin(final int column) { double result = Double.POSITIVE_INFINITY; for (final Object[] obj : this.data) { result = Math.min(result, convertNumeric(obj, column)); } return result; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public double getMin(final int column) { double result = Double.POSITIVE_INFINITY; for (final Object[] obj : this.data) { result = Math.min(result, convertNumeric(obj, column)); } return result; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testMax() { final DataSet ds1 = generateTestData(); assertEquals(3.0, ds1.getMax(1), AIFH.DEFAULT_PRECISION); assertEquals(3.0, ds1.getMax(1), AIFH.DEFAULT_PRECISION); }	public double getMax(final int column) { double result = Double.NEGATIVE_INFINITY; for (final Object[] obj : this.data) { result = Math.max(result, convertNumeric(obj, column)); } return result; }	DataSet { public double getMax(final int column) { double result = Double.NEGATIVE_INFINITY; for (final Object[] obj : this.data) { result = Math.max(result, convertNumeric(obj, column)); } return result; } }	DataSet { public double getMax(final int column) { double result = Double.NEGATIVE_INFINITY; for (final Object[] obj : this.data) { result = Math.max(result, convertNumeric(obj, column)); } return result; } DataSet(final String[] theHeaders); }	DataSet { public double getMax(final int column) { double result = Double.NEGATIVE_INFINITY; for (final Object[] obj : this.data) { result = Math.max(result, convertNumeric(obj, column)); } return result; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public double getMax(final int column) { double result = Double.NEGATIVE_INFINITY; for (final Object[] obj : this.data) { result = Math.max(result, convertNumeric(obj, column)); } return result; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testNormalizeRange() { final DataSet ds1 = generateTestData(); ds1.normalizeRange(1, -1, 1); assertEquals(-1.0, Double.parseDouble(ds1.getData().get(0)[1].toString()) , AIFH.DEFAULT_PRECISION); }	public void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = ((x - dataLow) / (dataHigh - dataLow)) * (normalizedHigh - normalizedLow) + normalizedLow; } }	DataSet { public void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = ((x - dataLow) / (dataHigh - dataLow)) * (normalizedHigh - normalizedLow) + normalizedLow; } } }	DataSet { public void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = ((x - dataLow) / (dataHigh - dataLow)) * (normalizedHigh - normalizedLow) + normalizedLow; } } DataSet(final String[] theHeaders); }	DataSet { public void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = ((x - dataLow) / (dataHigh - dataLow)) * (normalizedHigh - normalizedLow) + normalizedLow; } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = ((x - dataLow) / (dataHigh - dataLow)) * (normalizedHigh - normalizedLow) + normalizedLow; } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testDeNormalizeRange() { final DataSet ds1 = generateTestData(); final double min = ds1.getMin(2); final double max = ds1.getMax(2); ds1.normalizeRange(2, min, max, -1, 1); assertEquals(-1.0, Double.parseDouble(ds1.getData().get(0)[2].toString()) , AIFH.DEFAULT_PRECISION); ds1.deNormalizeRange(2, min, max, -1, 1); assertEquals(0.1, Double.parseDouble(ds1.getData().get(0)[2].toString()) , AIFH.DEFAULT_PRECISION); }	public void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = ((dataLow - dataHigh) * x - normalizedHigh * dataLow + dataHigh * normalizedLow) / (normalizedLow - normalizedHigh); } }	DataSet { public void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = ((dataLow - dataHigh) * x - normalizedHigh * dataLow + dataHigh * normalizedLow) / (normalizedLow - normalizedHigh); } } }	DataSet { public void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = ((dataLow - dataHigh) * x - normalizedHigh * dataLow + dataHigh * normalizedLow) / (normalizedLow - normalizedHigh); } } DataSet(final String[] theHeaders); }	DataSet { public void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = ((dataLow - dataHigh) * x - normalizedHigh * dataLow + dataHigh * normalizedLow) / (normalizedLow - normalizedHigh); } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = ((dataLow - dataHigh) * x - normalizedHigh * dataLow + dataHigh * normalizedLow) / (normalizedLow - normalizedHigh); } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testNormalizeReciprocal() { final DataSet ds1 = generateTestData(); ds1.normalizeReciprocal(1); assertEquals(0.5, Double.parseDouble(ds1.getData().get(1)[1].toString()) , AIFH.DEFAULT_PRECISION); ds1.deNormalizeReciprocal(1); assertEquals(2.0, Double.parseDouble(ds1.getData().get(1)[1].toString()) , AIFH.DEFAULT_PRECISION); }	public void normalizeReciprocal(final int column) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = 1 / x; } }	DataSet { public void normalizeReciprocal(final int column) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = 1 / x; } } }	DataSet { public void normalizeReciprocal(final int column) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = 1 / x; } } DataSet(final String[] theHeaders); }	DataSet { public void normalizeReciprocal(final int column) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = 1 / x; } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public void normalizeReciprocal(final int column) { for (final Object[] obj : this.data) { final double x = convertNumeric(obj, column); obj[column] = 1 / x; } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testEncodeNumeric() { final DataSet ds1 = generateTestData(); ds1.encodeNumeric(0); }	public Map<String, Integer> encodeNumeric(final int column) { final Map<String, Integer> classes = enumerateClasses(column); for (final Object[] obj : this.data) { final int index = classes.get(obj[column].toString()); obj[column] = index; } return classes; }	DataSet { public Map<String, Integer> encodeNumeric(final int column) { final Map<String, Integer> classes = enumerateClasses(column); for (final Object[] obj : this.data) { final int index = classes.get(obj[column].toString()); obj[column] = index; } return classes; } }	DataSet { public Map<String, Integer> encodeNumeric(final int column) { final Map<String, Integer> classes = enumerateClasses(column); for (final Object[] obj : this.data) { final int index = classes.get(obj[column].toString()); obj[column] = index; } return classes; } DataSet(final String[] theHeaders); }	DataSet { public Map<String, Integer> encodeNumeric(final int column) { final Map<String, Integer> classes = enumerateClasses(column); for (final Object[] obj : this.data) { final int index = classes.get(obj[column].toString()); obj[column] = index; } return classes; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public Map<String, Integer> encodeNumeric(final int column) { final Map<String, Integer> classes = enumerateClasses(column); for (final Object[] obj : this.data) { final int index = classes.get(obj[column].toString()); obj[column] = index; } return classes; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testComputeRegression() { final RBFNetwork network = new RBFNetwork(2, 1, 1); final double[] ltm = { 2.0, 2.0, 5.0, 2.0, 4.0, 3.0, 4.0}; System.arraycopy(ltm, 0, network.getLongTermMemory(), 0, ltm.length); final double[] x = {1, 2}; final double y = network.computeRegression(x)[0]; assertEquals(7, y, AIFH.DEFAULT_PRECISION); }	@Override public double[] computeRegression(final double[] input) { final double[] rbfOutput = new double[rbf.length + 1]; rbfOutput[rbfOutput.length - 1] = 1; for (int rbfIndex = 0; rbfIndex < rbf.length; rbfIndex++) { final double[] weightedInput = new double[input.length]; for (int inputIndex = 0; inputIndex < input.length; inputIndex++) { final int memoryIndex = this.indexInputWeights + (rbfIndex * this.inputCount) + inputIndex; weightedInput[inputIndex] = input[inputIndex] * this.longTermMemory[memoryIndex]; } rbfOutput[rbfIndex] = this.rbf[rbfIndex].evaluate(weightedInput); } final double[] result = new double[this.outputCount]; for (int outputIndex = 0; outputIndex < result.length; outputIndex++) { double sum = 0; for (int rbfIndex = 0; rbfIndex < rbfOutput.length; rbfIndex++) { final int memoryIndex = this.indexOutputWeights + (outputIndex * (rbf.length + 1)) + rbfIndex; sum += rbfOutput[rbfIndex] * this.longTermMemory[memoryIndex]; } result[outputIndex] = sum; } return result; }	RBFNetwork implements RegressionAlgorithm, ClassificationAlgorithm { @Override public double[] computeRegression(final double[] input) { final double[] rbfOutput = new double[rbf.length + 1]; rbfOutput[rbfOutput.length - 1] = 1; for (int rbfIndex = 0; rbfIndex < rbf.length; rbfIndex++) { final double[] weightedInput = new double[input.length]; for (int inputIndex = 0; inputIndex < input.length; inputIndex++) { final int memoryIndex = this.indexInputWeights + (rbfIndex * this.inputCount) + inputIndex; weightedInput[inputIndex] = input[inputIndex] * this.longTermMemory[memoryIndex]; } rbfOutput[rbfIndex] = this.rbf[rbfIndex].evaluate(weightedInput); } final double[] result = new double[this.outputCount]; for (int outputIndex = 0; outputIndex < result.length; outputIndex++) { double sum = 0; for (int rbfIndex = 0; rbfIndex < rbfOutput.length; rbfIndex++) { final int memoryIndex = this.indexOutputWeights + (outputIndex * (rbf.length + 1)) + rbfIndex; sum += rbfOutput[rbfIndex] * this.longTermMemory[memoryIndex]; } result[outputIndex] = sum; } return result; } }	RBFNetwork implements RegressionAlgorithm, ClassificationAlgorithm { @Override public double[] computeRegression(final double[] input) { final double[] rbfOutput = new double[rbf.length + 1]; rbfOutput[rbfOutput.length - 1] = 1; for (int rbfIndex = 0; rbfIndex < rbf.length; rbfIndex++) { final double[] weightedInput = new double[input.length]; for (int inputIndex = 0; inputIndex < input.length; inputIndex++) { final int memoryIndex = this.indexInputWeights + (rbfIndex * this.inputCount) + inputIndex; weightedInput[inputIndex] = input[inputIndex] * this.longTermMemory[memoryIndex]; } rbfOutput[rbfIndex] = this.rbf[rbfIndex].evaluate(weightedInput); } final double[] result = new double[this.outputCount]; for (int outputIndex = 0; outputIndex < result.length; outputIndex++) { double sum = 0; for (int rbfIndex = 0; rbfIndex < rbfOutput.length; rbfIndex++) { final int memoryIndex = this.indexOutputWeights + (outputIndex * (rbf.length + 1)) + rbfIndex; sum += rbfOutput[rbfIndex] * this.longTermMemory[memoryIndex]; } result[outputIndex] = sum; } return result; } RBFNetwork(final int theInputCount, final int rbfCount, final int theOutputCount); }	RBFNetwork implements RegressionAlgorithm, ClassificationAlgorithm { @Override public double[] computeRegression(final double[] input) { final double[] rbfOutput = new double[rbf.length + 1]; rbfOutput[rbfOutput.length - 1] = 1; for (int rbfIndex = 0; rbfIndex < rbf.length; rbfIndex++) { final double[] weightedInput = new double[input.length]; for (int inputIndex = 0; inputIndex < input.length; inputIndex++) { final int memoryIndex = this.indexInputWeights + (rbfIndex * this.inputCount) + inputIndex; weightedInput[inputIndex] = input[inputIndex] * this.longTermMemory[memoryIndex]; } rbfOutput[rbfIndex] = this.rbf[rbfIndex].evaluate(weightedInput); } final double[] result = new double[this.outputCount]; for (int outputIndex = 0; outputIndex < result.length; outputIndex++) { double sum = 0; for (int rbfIndex = 0; rbfIndex < rbfOutput.length; rbfIndex++) { final int memoryIndex = this.indexOutputWeights + (outputIndex * (rbf.length + 1)) + rbfIndex; sum += rbfOutput[rbfIndex] * this.longTermMemory[memoryIndex]; } result[outputIndex] = sum; } return result; } RBFNetwork(final int theInputCount, final int rbfCount, final int theOutputCount); @Override double[] computeRegression(final double[] input); @Override double[] getLongTermMemory(); void reset(final GenerateRandom rnd); @Override int computeClassification(final double[] input); @Override String toString(); }	RBFNetwork implements RegressionAlgorithm, ClassificationAlgorithm { @Override public double[] computeRegression(final double[] input) { final double[] rbfOutput = new double[rbf.length + 1]; rbfOutput[rbfOutput.length - 1] = 1; for (int rbfIndex = 0; rbfIndex < rbf.length; rbfIndex++) { final double[] weightedInput = new double[input.length]; for (int inputIndex = 0; inputIndex < input.length; inputIndex++) { final int memoryIndex = this.indexInputWeights + (rbfIndex * this.inputCount) + inputIndex; weightedInput[inputIndex] = input[inputIndex] * this.longTermMemory[memoryIndex]; } rbfOutput[rbfIndex] = this.rbf[rbfIndex].evaluate(weightedInput); } final double[] result = new double[this.outputCount]; for (int outputIndex = 0; outputIndex < result.length; outputIndex++) { double sum = 0; for (int rbfIndex = 0; rbfIndex < rbfOutput.length; rbfIndex++) { final int memoryIndex = this.indexOutputWeights + (outputIndex * (rbf.length + 1)) + rbfIndex; sum += rbfOutput[rbfIndex] * this.longTermMemory[memoryIndex]; } result[outputIndex] = sum; } return result; } RBFNetwork(final int theInputCount, final int rbfCount, final int theOutputCount); @Override double[] computeRegression(final double[] input); @Override double[] getLongTermMemory(); void reset(final GenerateRandom rnd); @Override int computeClassification(final double[] input); @Override String toString(); }
@Test public void testEncodeOneOfN() { final DataSet ds1 = generateTestData(); ds1.encodeOneOfN(0); }	public Map<String, Integer> encodeOneOfN(final int column) { return encodeOneOfN(column, 0, 1); }	DataSet { public Map<String, Integer> encodeOneOfN(final int column) { return encodeOneOfN(column, 0, 1); } }	DataSet { public Map<String, Integer> encodeOneOfN(final int column) { return encodeOneOfN(column, 0, 1); } DataSet(final String[] theHeaders); }	DataSet { public Map<String, Integer> encodeOneOfN(final int column) { return encodeOneOfN(column, 0, 1); } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public Map<String, Integer> encodeOneOfN(final int column) { return encodeOneOfN(column, 0, 1); } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testEncodeEquilateral() { final DataSet ds1 = generateTestData(); ds1.encodeEquilateral(0,-1,1); assertEquals(4,ds1.getHeaderCount()); Set<Double> col1=new HashSet<>(); Set<Double> col2=new HashSet<>(); for (Object[] row:ds1.getData()){ col1.add(round((Double)row[0])); col2.add(round((Double)row[1])); } Set<Double> expected1=new HashSet<>(Arrays.<Double>asList(0.0,-0.866,0.866)); Set<Double> expected2=new HashSet<>(Arrays.<Double>asList(1.0,-0.5)); assertEquals(expected1,col1); assertEquals(expected2,col2); }	public Map<String, Integer> encodeEquilateral(final int column) { return encodeEquilateral(column, 0, 1); }	DataSet { public Map<String, Integer> encodeEquilateral(final int column) { return encodeEquilateral(column, 0, 1); } }	DataSet { public Map<String, Integer> encodeEquilateral(final int column) { return encodeEquilateral(column, 0, 1); } DataSet(final String[] theHeaders); }	DataSet { public Map<String, Integer> encodeEquilateral(final int column) { return encodeEquilateral(column, 0, 1); } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public Map<String, Integer> encodeEquilateral(final int column) { return encodeEquilateral(column, 0, 1); } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testDeleteColumn() { final DataSet ds1 = generateTestData(); ds1.deleteColumn(0); assertEquals(2, ds1.getHeaderCount()); assertTrue(ds1.getHeaders()[0].equals("numeric")); assertTrue(ds1.getHeaders()[1].equals("dec")); }	public void deleteColumn(final int col) { final String[] headers2 = new String[headers.length - 1]; int h2Index = 0; for (int i = 0; i < headers.length; i++) { if (i != col) { headers2[h2Index++] = headers[i]; } } this.headers = headers2; int rowIndex = 0; for (final Object[] row : this.data) { final Object[] row2 = new Object[headers.length]; int r2Index = 0; for (int i = 0; i <= headers.length; i++) { if (i != col) { row2[r2Index++] = row[i]; } } this.data.set(rowIndex++, row2); } }	DataSet { public void deleteColumn(final int col) { final String[] headers2 = new String[headers.length - 1]; int h2Index = 0; for (int i = 0; i < headers.length; i++) { if (i != col) { headers2[h2Index++] = headers[i]; } } this.headers = headers2; int rowIndex = 0; for (final Object[] row : this.data) { final Object[] row2 = new Object[headers.length]; int r2Index = 0; for (int i = 0; i <= headers.length; i++) { if (i != col) { row2[r2Index++] = row[i]; } } this.data.set(rowIndex++, row2); } } }	DataSet { public void deleteColumn(final int col) { final String[] headers2 = new String[headers.length - 1]; int h2Index = 0; for (int i = 0; i < headers.length; i++) { if (i != col) { headers2[h2Index++] = headers[i]; } } this.headers = headers2; int rowIndex = 0; for (final Object[] row : this.data) { final Object[] row2 = new Object[headers.length]; int r2Index = 0; for (int i = 0; i <= headers.length; i++) { if (i != col) { row2[r2Index++] = row[i]; } } this.data.set(rowIndex++, row2); } } DataSet(final String[] theHeaders); }	DataSet { public void deleteColumn(final int col) { final String[] headers2 = new String[headers.length - 1]; int h2Index = 0; for (int i = 0; i < headers.length; i++) { if (i != col) { headers2[h2Index++] = headers[i]; } } this.headers = headers2; int rowIndex = 0; for (final Object[] row : this.data) { final Object[] row2 = new Object[headers.length]; int r2Index = 0; for (int i = 0; i <= headers.length; i++) { if (i != col) { row2[r2Index++] = row[i]; } } this.data.set(rowIndex++, row2); } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public void deleteColumn(final int col) { final String[] headers2 = new String[headers.length - 1]; int h2Index = 0; for (int i = 0; i < headers.length; i++) { if (i != col) { headers2[h2Index++] = headers[i]; } } this.headers = headers2; int rowIndex = 0; for (final Object[] row : this.data) { final Object[] row2 = new Object[headers.length]; int r2Index = 0; for (int i = 0; i <= headers.length; i++) { if (i != col) { row2[r2Index++] = row[i]; } } this.data.set(rowIndex++, row2); } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testExtractUnsupervisedLabeled() { final DataSet ds1 = generateTestData(); final List<BasicData> result = ds1.extractUnsupervisedLabeled(0); assertEquals(3, result.size()); assertTrue(result.get(0).getLabel().equals("One")); }	public List<BasicData> extractUnsupervisedLabeled(final int labelIndex) { final List<BasicData> result = new ArrayList<BasicData>(); final int dimensions = getHeaderCount() - 1; for (int rowIndex = 0; rowIndex < size(); rowIndex++) { final Object[] raw = this.data.get(rowIndex); final BasicData row = new BasicData(dimensions, 0, raw[labelIndex].toString()); int colIndex = 0; for (int rawColIndex = 0; rawColIndex < getHeaderCount(); rawColIndex++) { if (rawColIndex != labelIndex) { row.getInput()[colIndex++] = convertNumeric(raw, rawColIndex); } } result.add(row); } return result; }	DataSet { public List<BasicData> extractUnsupervisedLabeled(final int labelIndex) { final List<BasicData> result = new ArrayList<BasicData>(); final int dimensions = getHeaderCount() - 1; for (int rowIndex = 0; rowIndex < size(); rowIndex++) { final Object[] raw = this.data.get(rowIndex); final BasicData row = new BasicData(dimensions, 0, raw[labelIndex].toString()); int colIndex = 0; for (int rawColIndex = 0; rawColIndex < getHeaderCount(); rawColIndex++) { if (rawColIndex != labelIndex) { row.getInput()[colIndex++] = convertNumeric(raw, rawColIndex); } } result.add(row); } return result; } }	DataSet { public List<BasicData> extractUnsupervisedLabeled(final int labelIndex) { final List<BasicData> result = new ArrayList<BasicData>(); final int dimensions = getHeaderCount() - 1; for (int rowIndex = 0; rowIndex < size(); rowIndex++) { final Object[] raw = this.data.get(rowIndex); final BasicData row = new BasicData(dimensions, 0, raw[labelIndex].toString()); int colIndex = 0; for (int rawColIndex = 0; rawColIndex < getHeaderCount(); rawColIndex++) { if (rawColIndex != labelIndex) { row.getInput()[colIndex++] = convertNumeric(raw, rawColIndex); } } result.add(row); } return result; } DataSet(final String[] theHeaders); }	DataSet { public List<BasicData> extractUnsupervisedLabeled(final int labelIndex) { final List<BasicData> result = new ArrayList<BasicData>(); final int dimensions = getHeaderCount() - 1; for (int rowIndex = 0; rowIndex < size(); rowIndex++) { final Object[] raw = this.data.get(rowIndex); final BasicData row = new BasicData(dimensions, 0, raw[labelIndex].toString()); int colIndex = 0; for (int rawColIndex = 0; rawColIndex < getHeaderCount(); rawColIndex++) { if (rawColIndex != labelIndex) { row.getInput()[colIndex++] = convertNumeric(raw, rawColIndex); } } result.add(row); } return result; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public List<BasicData> extractUnsupervisedLabeled(final int labelIndex) { final List<BasicData> result = new ArrayList<BasicData>(); final int dimensions = getHeaderCount() - 1; for (int rowIndex = 0; rowIndex < size(); rowIndex++) { final Object[] raw = this.data.get(rowIndex); final BasicData row = new BasicData(dimensions, 0, raw[labelIndex].toString()); int colIndex = 0; for (int rawColIndex = 0; rawColIndex < getHeaderCount(); rawColIndex++) { if (rawColIndex != labelIndex) { row.getInput()[colIndex++] = convertNumeric(raw, rawColIndex); } } result.add(row); } return result; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testExtractSupervised() { final DataSet ds1 = generateTestData(); final List<BasicData> result = ds1.extractSupervised(1, 1, 2, 1); assertEquals(3, result.size()); }	public List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount) { final List<BasicData> result = new ArrayList<BasicData>(); for (int rowIndex = 0; rowIndex < size(); rowIndex++) { final Object[] raw = this.data.get(rowIndex); final BasicData row = new BasicData(inputCount, idealCount); for (int i = 0; i < inputCount; i++) { row.getInput()[i] = convertNumeric(raw, inputBegin + i); } for (int i = 0; i < idealCount; i++) { row.getIdeal()[i] = convertNumeric(raw, idealBegin + i); } result.add(row); } return result; }	DataSet { public List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount) { final List<BasicData> result = new ArrayList<BasicData>(); for (int rowIndex = 0; rowIndex < size(); rowIndex++) { final Object[] raw = this.data.get(rowIndex); final BasicData row = new BasicData(inputCount, idealCount); for (int i = 0; i < inputCount; i++) { row.getInput()[i] = convertNumeric(raw, inputBegin + i); } for (int i = 0; i < idealCount; i++) { row.getIdeal()[i] = convertNumeric(raw, idealBegin + i); } result.add(row); } return result; } }	DataSet { public List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount) { final List<BasicData> result = new ArrayList<BasicData>(); for (int rowIndex = 0; rowIndex < size(); rowIndex++) { final Object[] raw = this.data.get(rowIndex); final BasicData row = new BasicData(inputCount, idealCount); for (int i = 0; i < inputCount; i++) { row.getInput()[i] = convertNumeric(raw, inputBegin + i); } for (int i = 0; i < idealCount; i++) { row.getIdeal()[i] = convertNumeric(raw, idealBegin + i); } result.add(row); } return result; } DataSet(final String[] theHeaders); }	DataSet { public List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount) { final List<BasicData> result = new ArrayList<BasicData>(); for (int rowIndex = 0; rowIndex < size(); rowIndex++) { final Object[] raw = this.data.get(rowIndex); final BasicData row = new BasicData(inputCount, idealCount); for (int i = 0; i < inputCount; i++) { row.getInput()[i] = convertNumeric(raw, inputBegin + i); } for (int i = 0; i < idealCount; i++) { row.getIdeal()[i] = convertNumeric(raw, idealBegin + i); } result.add(row); } return result; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount) { final List<BasicData> result = new ArrayList<BasicData>(); for (int rowIndex = 0; rowIndex < size(); rowIndex++) { final Object[] raw = this.data.get(rowIndex); final BasicData row = new BasicData(inputCount, idealCount); for (int i = 0; i < inputCount; i++) { row.getInput()[i] = convertNumeric(raw, inputBegin + i); } for (int i = 0; i < idealCount; i++) { row.getIdeal()[i] = convertNumeric(raw, idealBegin + i); } result.add(row); } return result; } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testReplaceColumn() { final DataSet ds1 = generateTestData(); ds1.replaceColumn(1, 2, 1, 0); final List<BasicData> result = ds1.extractSupervised(1, 1, 2, 1); assertEquals(0.0, result.get(0).getInput()[0], AIFH.DEFAULT_PRECISION); assertEquals(1.0, result.get(1).getInput()[0], AIFH.DEFAULT_PRECISION); }	public void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others) { for (final Object[] row : this.data) { final double d = convertNumeric(row, columnIndex); if (Math.abs(d - searchFor) < 0.0001) { row[columnIndex] = replaceWith; } else { row[columnIndex] = others; } } }	DataSet { public void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others) { for (final Object[] row : this.data) { final double d = convertNumeric(row, columnIndex); if (Math.abs(d - searchFor) < 0.0001) { row[columnIndex] = replaceWith; } else { row[columnIndex] = others; } } } }	DataSet { public void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others) { for (final Object[] row : this.data) { final double d = convertNumeric(row, columnIndex); if (Math.abs(d - searchFor) < 0.0001) { row[columnIndex] = replaceWith; } else { row[columnIndex] = others; } } } DataSet(final String[] theHeaders); }	DataSet { public void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others) { for (final Object[] row : this.data) { final double d = convertNumeric(row, columnIndex); if (Math.abs(d - searchFor) < 0.0001) { row[columnIndex] = replaceWith; } else { row[columnIndex] = others; } } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others) { for (final Object[] row : this.data) { final double d = convertNumeric(row, columnIndex); if (Math.abs(d - searchFor) < 0.0001) { row[columnIndex] = replaceWith; } else { row[columnIndex] = others; } } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testDeleteUnknowns() { final DataSet ds1 = generateTestData(); ds1.getData().get(1)[2] = "?"; ds1.deleteUnknowns(); assertEquals(2, ds1.getData().size()); }	public void deleteUnknowns() { int rowIndex = 0; while (rowIndex < this.data.size()) { final Object[] row = data.get(rowIndex); boolean remove = false; for (final Object aRow : row) { if (aRow.toString().equals("?")) { remove = true; break; } } if (remove) { data.remove(rowIndex); } else { rowIndex++; } } }	DataSet { public void deleteUnknowns() { int rowIndex = 0; while (rowIndex < this.data.size()) { final Object[] row = data.get(rowIndex); boolean remove = false; for (final Object aRow : row) { if (aRow.toString().equals("?")) { remove = true; break; } } if (remove) { data.remove(rowIndex); } else { rowIndex++; } } } }	DataSet { public void deleteUnknowns() { int rowIndex = 0; while (rowIndex < this.data.size()) { final Object[] row = data.get(rowIndex); boolean remove = false; for (final Object aRow : row) { if (aRow.toString().equals("?")) { remove = true; break; } } if (remove) { data.remove(rowIndex); } else { rowIndex++; } } } DataSet(final String[] theHeaders); }	DataSet { public void deleteUnknowns() { int rowIndex = 0; while (rowIndex < this.data.size()) { final Object[] row = data.get(rowIndex); boolean remove = false; for (final Object aRow : row) { if (aRow.toString().equals("?")) { remove = true; break; } } if (remove) { data.remove(rowIndex); } else { rowIndex++; } } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }	DataSet { public void deleteUnknowns() { int rowIndex = 0; while (rowIndex < this.data.size()) { final Object[] row = data.get(rowIndex); boolean remove = false; for (final Object aRow : row) { if (aRow.toString().equals("?")) { remove = true; break; } } if (remove) { data.remove(rowIndex); } else { rowIndex++; } } } DataSet(final String[] theHeaders); static DataSet load(final File filename); static DataSet load(final InputStream is); static void save(final File filename, final DataSet ds); static void save(final OutputStream os, final DataSet ds); int getHeaderCount(); String[] getHeaders(); void add(final Object[] row); List<Object[]> getData(); double getMax(final int column); double getMin(final int column); void normalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeRange(final int column, final double normalizedLow, final double normalizedHigh); void deNormalizeRange(final int column, final double dataLow, final double dataHigh, final double normalizedLow, final double normalizedHigh); void normalizeReciprocal(final int column); void deNormalizeReciprocal(final int column); Map<String, Integer> enumerateClasses(final int column); Map<String, Integer> encodeNumeric(final int column); Map<String, Integer> encodeOneOfN(final int column); Map<String, Integer> encodeOneOfN(final int column, final double offValue, final double onValue); Map<String, Integer> encodeEquilateral(final int column); Map<String, Integer> encodeEquilateral(final int column, final double offValue, final double onValue); int size(); void appendColumns(final int count); void insertColumns(final int column, final int columnCount); @Override boolean equals(final Object other); List<BasicData> extractUnsupervisedLabeled(final int labelIndex); List<BasicData> extractSupervised(final int inputBegin, final int inputCount, final int idealBegin, final int idealCount); void deleteUnknowns(); void deleteColumn(final int col); void replaceColumn(final int columnIndex, final double searchFor, final double replaceWith, final double others); }
@Test public void testEncode() { final Equilateral eq = new Equilateral(3, -1, 1); final double[] d = eq.encode(1); assertEquals(0.8660254037844386, d[0], AIFH.DEFAULT_PRECISION); assertEquals(-0.5, d[1], AIFH.DEFAULT_PRECISION); }	public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } Equilateral(final int count, final double low, final double high); }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } Equilateral(final int count, final double low, final double high); final int decode(final double[] activations); final double[] encode(final int set); final double getDistance(final double[] data, final int set); }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } Equilateral(final int count, final double low, final double high); final int decode(final double[] activations); final double[] encode(final int set); final double getDistance(final double[] data, final int set); static final int MIN_EQ; }
@Test public void testDecode() { final Equilateral eq = new Equilateral(3, -1, 1); final double[] d0 = {0.866, 0.5}; final double[] d1 = {-0.866, 0.5}; final double[] d2 = {0, -1}; assertEquals(2, eq.decode(d0)); assertEquals(2, eq.decode(d1)); assertEquals(0, eq.decode(d2)); }	public final int decode(final double[] activations) { double minValue = Double.POSITIVE_INFINITY; int minSet = -1; for (int i = 0; i < this.matrix.length; i++) { final double dist = getDistance(activations, i); if (dist < minValue) { minValue = dist; minSet = i; } } return minSet; }	Equilateral implements Serializable { public final int decode(final double[] activations) { double minValue = Double.POSITIVE_INFINITY; int minSet = -1; for (int i = 0; i < this.matrix.length; i++) { final double dist = getDistance(activations, i); if (dist < minValue) { minValue = dist; minSet = i; } } return minSet; } }	Equilateral implements Serializable { public final int decode(final double[] activations) { double minValue = Double.POSITIVE_INFINITY; int minSet = -1; for (int i = 0; i < this.matrix.length; i++) { final double dist = getDistance(activations, i); if (dist < minValue) { minValue = dist; minSet = i; } } return minSet; } Equilateral(final int count, final double low, final double high); }	Equilateral implements Serializable { public final int decode(final double[] activations) { double minValue = Double.POSITIVE_INFINITY; int minSet = -1; for (int i = 0; i < this.matrix.length; i++) { final double dist = getDistance(activations, i); if (dist < minValue) { minValue = dist; minSet = i; } } return minSet; } Equilateral(final int count, final double low, final double high); final int decode(final double[] activations); final double[] encode(final int set); final double getDistance(final double[] data, final int set); }	Equilateral implements Serializable { public final int decode(final double[] activations) { double minValue = Double.POSITIVE_INFINITY; int minSet = -1; for (int i = 0; i < this.matrix.length; i++) { final double dist = getDistance(activations, i); if (dist < minValue) { minValue = dist; minSet = i; } } return minSet; } Equilateral(final int count, final double low, final double high); final int decode(final double[] activations); final double[] encode(final int set); final double getDistance(final double[] data, final int set); static final int MIN_EQ; }
@Test(expected = AIFHError.class) public void testError() { final Equilateral eq = new Equilateral(3, -1, 1); eq.encode(10); }	public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } Equilateral(final int count, final double low, final double high); }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } Equilateral(final int count, final double low, final double high); final int decode(final double[] activations); final double[] encode(final int set); final double getDistance(final double[] data, final int set); }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } Equilateral(final int count, final double low, final double high); final int decode(final double[] activations); final double[] encode(final int set); final double getDistance(final double[] data, final int set); static final int MIN_EQ; }
@Test public void testComputeClassification() { final RBFNetwork network = new RBFNetwork(2, 1, 2); final double[] ltm = { 2.0, 2.0, 5.0, 2.0, 4.0, 3.0, 4.0, 5.0, 6.0}; System.arraycopy(ltm, 0, network.getLongTermMemory(), 0, ltm.length); final double[] x = {1, 2}; final double[] y = network.computeRegression(x); assertEquals(7, y[0], AIFH.DEFAULT_PRECISION); assertEquals(11, y[1], AIFH.DEFAULT_PRECISION); final int cls = network.computeClassification(x); assertEquals(1, cls); }	@Override public int computeClassification(final double[] input) { final double[] output = computeRegression(input); return VectorUtil.maxIndex(output); }	RBFNetwork implements RegressionAlgorithm, ClassificationAlgorithm { @Override public int computeClassification(final double[] input) { final double[] output = computeRegression(input); return VectorUtil.maxIndex(output); } }	RBFNetwork implements RegressionAlgorithm, ClassificationAlgorithm { @Override public int computeClassification(final double[] input) { final double[] output = computeRegression(input); return VectorUtil.maxIndex(output); } RBFNetwork(final int theInputCount, final int rbfCount, final int theOutputCount); }	RBFNetwork implements RegressionAlgorithm, ClassificationAlgorithm { @Override public int computeClassification(final double[] input) { final double[] output = computeRegression(input); return VectorUtil.maxIndex(output); } RBFNetwork(final int theInputCount, final int rbfCount, final int theOutputCount); @Override double[] computeRegression(final double[] input); @Override double[] getLongTermMemory(); void reset(final GenerateRandom rnd); @Override int computeClassification(final double[] input); @Override String toString(); }	RBFNetwork implements RegressionAlgorithm, ClassificationAlgorithm { @Override public int computeClassification(final double[] input) { final double[] output = computeRegression(input); return VectorUtil.maxIndex(output); } RBFNetwork(final int theInputCount, final int rbfCount, final int theOutputCount); @Override double[] computeRegression(final double[] input); @Override double[] getLongTermMemory(); void reset(final GenerateRandom rnd); @Override int computeClassification(final double[] input); @Override String toString(); }
@Test public void testAllEqual() { final Equilateral eq = new Equilateral(10, -1, 1); final CalculateDistance dc = new EuclideanDistance(); double compareDist = 0; for (int x = 0; x < 10; x++) { double[] baseClass = eq.encode(x); for (int y = 0; y < 10; y++) { if (x != y) { double[] otherClass = eq.encode(y); double dist = dc.calculate(baseClass, otherClass); if (compareDist < AIFH.DEFAULT_PRECISION) { compareDist = dist; } else { assertEquals(compareDist, dist, AIFH.DEFAULT_PRECISION); } } } } }	public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } Equilateral(final int count, final double low, final double high); }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } Equilateral(final int count, final double low, final double high); final int decode(final double[] activations); final double[] encode(final int set); final double getDistance(final double[] data, final int set); }	Equilateral implements Serializable { public final double[] encode(final int set) { if (set < 0 \|\| set > this.matrix.length) { throw new AIFHError("Class out of range for equilateral: " + set); } return this.matrix[set]; } Equilateral(final int count, final double low, final double high); final int decode(final double[] activations); final double[] encode(final int set); final double getDistance(final double[] data, final int set); static final int MIN_EQ; }
@Test public void testGenerateBoolean() { final BasicGenerateRandom rnd = new BasicGenerateRandom(1); for (final boolean aBOOLEAN_TEST : BOOLEAN_TEST) { final boolean g = rnd.nextBoolean(); assertEquals(g, aBOOLEAN_TEST); } }	@Override public boolean nextBoolean() { return this.rand.nextBoolean(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public boolean nextBoolean() { return this.rand.nextBoolean(); } }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public boolean nextBoolean() { return this.rand.nextBoolean(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public boolean nextBoolean() { return this.rand.nextBoolean(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public boolean nextBoolean() { return this.rand.nextBoolean(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }
@Test public void testDoubleRange() { final BasicGenerateRandom rnd = new BasicGenerateRandom(1); for (final double aDOUBLE_RANGE_TEST : DOUBLE_RANGE_TEST) { final double g = rnd.nextDouble(-1, 1); assertEquals(g, aDOUBLE_RANGE_TEST, AIFH.DEFAULT_PRECISION); } }	@Override public double nextDouble() { return this.rand.nextDouble(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextDouble() { return this.rand.nextDouble(); } }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextDouble() { return this.rand.nextDouble(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextDouble() { return this.rand.nextDouble(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextDouble() { return this.rand.nextDouble(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }
@Test public void testDouble() { final BasicGenerateRandom rnd = new BasicGenerateRandom(1); for (final double aDOUBLE_TEST : DOUBLE_TEST) { final double g = rnd.nextDouble(); assertEquals(g, aDOUBLE_TEST, AIFH.DEFAULT_PRECISION); } }	@Override public double nextDouble() { return this.rand.nextDouble(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextDouble() { return this.rand.nextDouble(); } }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextDouble() { return this.rand.nextDouble(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextDouble() { return this.rand.nextDouble(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextDouble() { return this.rand.nextDouble(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }
@Test public void testLong() { final BasicGenerateRandom rnd = new BasicGenerateRandom(1); for (final long aLONG_TEST : LONG_TEST) { final long l = rnd.nextLong(); assertEquals(l, aLONG_TEST, AIFH.DEFAULT_PRECISION); } }	@Override public long nextLong() { return this.rand.nextLong(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public long nextLong() { return this.rand.nextLong(); } }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public long nextLong() { return this.rand.nextLong(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public long nextLong() { return this.rand.nextLong(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public long nextLong() { return this.rand.nextLong(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }
@Test public void testFloat() { final BasicGenerateRandom rnd = new BasicGenerateRandom(1); for (final float aFLOAT_TEST : FLOAT_TEST) { final float l = (float) rnd.nextFloat(); assertEquals(l, aFLOAT_TEST, AIFH.DEFAULT_PRECISION); } }	@Override public float nextFloat() { return this.rand.nextFloat(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public float nextFloat() { return this.rand.nextFloat(); } }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public float nextFloat() { return this.rand.nextFloat(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public float nextFloat() { return this.rand.nextFloat(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public float nextFloat() { return this.rand.nextFloat(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }
@Test public void testGaussianFloat() { final BasicGenerateRandom rnd = new BasicGenerateRandom(1); for (final double aGAUSSIAN_TEST : GAUSSIAN_TEST) { final double g = rnd.nextGaussian(); assertEquals(g, aGAUSSIAN_TEST, AIFH.DEFAULT_PRECISION); } }	@Override public double nextGaussian() { return this.rand.nextGaussian(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextGaussian() { return this.rand.nextGaussian(); } }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextGaussian() { return this.rand.nextGaussian(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextGaussian() { return this.rand.nextGaussian(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public double nextGaussian() { return this.rand.nextGaussian(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }
@Test public void testInt() { final BasicGenerateRandom rnd = new BasicGenerateRandom(1); for (final int aINT_TEST : INT_TEST) { final int g = rnd.nextInt(); assertEquals(g, aINT_TEST, AIFH.DEFAULT_PRECISION); } }	@Override public int nextInt() { return this.rand.nextInt(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public int nextInt() { return this.rand.nextInt(); } }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public int nextInt() { return this.rand.nextInt(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public int nextInt() { return this.rand.nextInt(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public int nextInt() { return this.rand.nextInt(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }
@Test public void testIntRange() { final BasicGenerateRandom rnd = new BasicGenerateRandom(1); for (final int aINT_RANGE_TEST : INT_RANGE_TEST) { final int g = rnd.nextInt(0, 10); assertEquals(g, aINT_RANGE_TEST); } }	@Override public int nextInt() { return this.rand.nextInt(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public int nextInt() { return this.rand.nextInt(); } }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public int nextInt() { return this.rand.nextInt(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public int nextInt() { return this.rand.nextInt(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }	BasicGenerateRandom extends AbstractGenerateRandom { @Override public int nextInt() { return this.rand.nextInt(); } BasicGenerateRandom(final long seed); BasicGenerateRandom(); @Override int nextInt(); @Override double nextDouble(); @Override float nextFloat(); @Override long nextLong(); @Override boolean nextBoolean(); @Override double nextGaussian(); }
@Test public void testGenerateBoolean() { final MultiplyWithCarryGenerateRandom rnd = new MultiplyWithCarryGenerateRandom(1); for (final boolean aBOOLEAN_TEST : BOOLEAN_TEST) { final boolean g = rnd.nextBoolean(); assertEquals(g, aBOOLEAN_TEST); } }	@Override public boolean nextBoolean() { return nextDouble() > 0.5; }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public boolean nextBoolean() { return nextDouble() > 0.5; } }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public boolean nextBoolean() { return nextDouble() > 0.5; } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public boolean nextBoolean() { return nextDouble() > 0.5; } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public boolean nextBoolean() { return nextDouble() > 0.5; } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }
@Test public void testDistanceCalc() { final CalculateDistance calc = new ChebyshevDistance(); final double[] pos1 = {0.5, 1.0, 2.5,}; final double[] pos2 = {0.1, 2.0, -2.5,}; assertEquals(5.0, calc.calculate(pos1, pos2), 0.001); }	@Override public double calculate(final double[] position1, final int pos1, final double[] position2, final int pos2, final int length) { double result = 0; for (int i = 0; i < length; i++) { final double d = Math.abs(position1[pos1 + i] - position2[pos2 + i]); result = Math.max(d, result); } return result; }	ChebyshevDistance extends AbstractDistance { @Override public double calculate(final double[] position1, final int pos1, final double[] position2, final int pos2, final int length) { double result = 0; for (int i = 0; i < length; i++) { final double d = Math.abs(position1[pos1 + i] - position2[pos2 + i]); result = Math.max(d, result); } return result; } }	ChebyshevDistance extends AbstractDistance { @Override public double calculate(final double[] position1, final int pos1, final double[] position2, final int pos2, final int length) { double result = 0; for (int i = 0; i < length; i++) { final double d = Math.abs(position1[pos1 + i] - position2[pos2 + i]); result = Math.max(d, result); } return result; } }	ChebyshevDistance extends AbstractDistance { @Override public double calculate(final double[] position1, final int pos1, final double[] position2, final int pos2, final int length) { double result = 0; for (int i = 0; i < length; i++) { final double d = Math.abs(position1[pos1 + i] - position2[pos2 + i]); result = Math.max(d, result); } return result; } @Override double calculate(final double[] position1, final int pos1, final double[] position2, final int pos2, final int length); }	ChebyshevDistance extends AbstractDistance { @Override public double calculate(final double[] position1, final int pos1, final double[] position2, final int pos2, final int length) { double result = 0; for (int i = 0; i < length; i++) { final double d = Math.abs(position1[pos1 + i] - position2[pos2 + i]); result = Math.max(d, result); } return result; } @Override double calculate(final double[] position1, final int pos1, final double[] position2, final int pos2, final int length); }
@Test public void testDoubleRange() { final MultiplyWithCarryGenerateRandom rnd = new MultiplyWithCarryGenerateRandom(1); for (final double aDOUBLE_RANGE_TEST : DOUBLE_RANGE_TEST) { final double g = rnd.nextDouble(-1, 1); assertEquals(g, aDOUBLE_RANGE_TEST, AIFH.DEFAULT_PRECISION); } }	@Override public double nextDouble() { return (((long) next(26) << 27) + next(27)) / (double) (1L << 53); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public double nextDouble() { return (((long) next(26) << 27) + next(27)) / (double) (1L << 53); } }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public double nextDouble() { return (((long) next(26) << 27) + next(27)) / (double) (1L << 53); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public double nextDouble() { return (((long) next(26) << 27) + next(27)) / (double) (1L << 53); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public double nextDouble() { return (((long) next(26) << 27) + next(27)) / (double) (1L << 53); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }
@Test public void testDouble() { final MultiplyWithCarryGenerateRandom rnd = new MultiplyWithCarryGenerateRandom(1); for (final double aDOUBLE_TEST : DOUBLE_TEST) { final double g = rnd.nextDouble(); assertEquals(g, aDOUBLE_TEST, AIFH.DEFAULT_PRECISION); } }	@Override public double nextDouble() { return (((long) next(26) << 27) + next(27)) / (double) (1L << 53); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public double nextDouble() { return (((long) next(26) << 27) + next(27)) / (double) (1L << 53); } }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public double nextDouble() { return (((long) next(26) << 27) + next(27)) / (double) (1L << 53); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public double nextDouble() { return (((long) next(26) << 27) + next(27)) / (double) (1L << 53); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public double nextDouble() { return (((long) next(26) << 27) + next(27)) / (double) (1L << 53); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }
@Test public void testLong() { final MultiplyWithCarryGenerateRandom rnd = new MultiplyWithCarryGenerateRandom(1); for (final long aLONG_TEST : LONG_TEST) { final long l = rnd.nextLong(); assertEquals(l, aLONG_TEST); } }	@Override public long nextLong() { return ((long) next(32) << 32) + next(32); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public long nextLong() { return ((long) next(32) << 32) + next(32); } }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public long nextLong() { return ((long) next(32) << 32) + next(32); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public long nextLong() { return ((long) next(32) << 32) + next(32); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public long nextLong() { return ((long) next(32) << 32) + next(32); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }
@Test public void testFloat() { final MultiplyWithCarryGenerateRandom rnd = new MultiplyWithCarryGenerateRandom(1); for (final float aFLOAT_TEST : FLOAT_TEST) { final float l = (float) rnd.nextFloat(); assertEquals(l, aFLOAT_TEST, AIFH.DEFAULT_PRECISION); } }	@Override public float nextFloat() { return (float) nextDouble(); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public float nextFloat() { return (float) nextDouble(); } }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public float nextFloat() { return (float) nextDouble(); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public float nextFloat() { return (float) nextDouble(); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public float nextFloat() { return (float) nextDouble(); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }
@Test public void testInt() { final MultiplyWithCarryGenerateRandom rnd = new MultiplyWithCarryGenerateRandom(1); for (final int aINT_TEST : INT_TEST) { final int g = rnd.nextInt(); assertEquals(g, aINT_TEST); } }	@Override public int nextInt() { return (int) nextLong(); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public int nextInt() { return (int) nextLong(); } }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public int nextInt() { return (int) nextLong(); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public int nextInt() { return (int) nextLong(); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public int nextInt() { return (int) nextLong(); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }
@Test public void testIntRange() { final MultiplyWithCarryGenerateRandom rnd = new MultiplyWithCarryGenerateRandom(1); for (final int aINT_RANGE_TEST : INT_RANGE_TEST) { final int g = rnd.nextInt(0, 10); assertEquals(g, aINT_RANGE_TEST); } }	@Override public int nextInt() { return (int) nextLong(); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public int nextInt() { return (int) nextLong(); } }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public int nextInt() { return (int) nextLong(); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public int nextInt() { return (int) nextLong(); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }	MultiplyWithCarryGenerateRandom extends AbstractBoxMuller { @Override public int nextInt() { return (int) nextLong(); } MultiplyWithCarryGenerateRandom(final long seed); MultiplyWithCarryGenerateRandom(); MultiplyWithCarryGenerateRandom(long[] seeds, final long carry, final int r, final long multiplier); @Override double nextDouble(); @Override long nextLong(); @Override boolean nextBoolean(); @Override float nextFloat(); @Override int nextInt(); }

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