/////////////////////////////////////////////////////////////////////////////// // Name: tests/streams/zlibstream.cpp // Purpose: Test wxZlibInputStream/wxZlibOutputStream // Author: Hans Van Leemputten // Copyright: (c) 2004 Hans Van Leemputten // Licence: wxWindows licence /////////////////////////////////////////////////////////////////////////////// // For compilers that support precompilation, includes "wx/wx.h". // and "wx/cppunit.h" #include "testprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif // for all others, include the necessary headers #ifndef WX_PRECOMP #include "wx/wx.h" #endif #include "wx/zstream.h" #include "wx/wfstream.h" #include "wx/mstream.h" #include "wx/txtstrm.h" #include "wx/buffer.h" #include "bstream.h" using std::string; #define DATABUFFER_SIZE 1024 static const wxString FILENAME_GZ = wxT("zlibtest.gz"); /////////////////////////////////////////////////////////////////////////////// // The test case // // Try to fully test wxZlibInputStream and wxZlibOutputStream class zlibStream : public BaseStreamTestCase { public: zlibStream(); virtual ~zlibStream(); CPPUNIT_TEST_SUITE(zlibStream); // Base class stream tests the zlibstream supports. CPPUNIT_TEST(Input_GetSizeFail); CPPUNIT_TEST(Input_GetC); CPPUNIT_TEST(Input_Read); CPPUNIT_TEST(Input_Eof); CPPUNIT_TEST(Input_LastRead); CPPUNIT_TEST(Input_CanRead); CPPUNIT_TEST(Input_SeekIFail); CPPUNIT_TEST(Input_TellI); CPPUNIT_TEST(Input_Peek); CPPUNIT_TEST(Input_Ungetch); CPPUNIT_TEST(Output_PutC); CPPUNIT_TEST(Output_Write); CPPUNIT_TEST(Output_LastWrite); CPPUNIT_TEST(Output_SeekOFail); CPPUNIT_TEST(Output_TellO); // Other test specific for zlib stream test case. CPPUNIT_TEST(TestStream_NoHeader_Default); CPPUNIT_TEST(TestStream_NoHeader_NoComp); CPPUNIT_TEST(TestStream_NoHeader_SpeedComp); CPPUNIT_TEST(TestStream_NoHeader_BestComp); CPPUNIT_TEST(TestStream_NoHeader_Dictionary); CPPUNIT_TEST(TestStream_ZLib_Default); CPPUNIT_TEST(TestStream_ZLib_NoComp); CPPUNIT_TEST(TestStream_ZLib_SpeedComp); CPPUNIT_TEST(TestStream_ZLib_BestComp); CPPUNIT_TEST(TestStream_GZip_Default); CPPUNIT_TEST(TestStream_GZip_NoComp); CPPUNIT_TEST(TestStream_GZip_SpeedComp); CPPUNIT_TEST(TestStream_GZip_BestComp); CPPUNIT_TEST(TestStream_GZip_Dictionary); CPPUNIT_TEST(TestStream_ZLibGZip); CPPUNIT_TEST(Decompress_BadData); CPPUNIT_TEST(Decompress_wx251_zlib114_Data_NoHeader); CPPUNIT_TEST(Decompress_wx251_zlib114_Data_ZLib); CPPUNIT_TEST(Decompress_gzip135Data); CPPUNIT_TEST_SUITE_END(); protected: // Test different stream construct settings. void TestStream_NoHeader_Default(); void TestStream_NoHeader_NoComp(); void TestStream_NoHeader_SpeedComp(); void TestStream_NoHeader_BestComp(); void TestStream_NoHeader_Dictionary(); void TestStream_ZLib_Default(); void TestStream_ZLib_NoComp(); void TestStream_ZLib_SpeedComp(); void TestStream_ZLib_BestComp(); void TestStream_GZip_Default(); void TestStream_GZip_NoComp(); void TestStream_GZip_SpeedComp(); void TestStream_GZip_BestComp(); void TestStream_GZip_Dictionary(); void TestStream_ZLibGZip(); // Try to decompress bad data. void Decompress_BadData(); // Decompress data that was compress by an external app. // (like test wx 2.4.2, 2.5.1 and gzip data) // Note: This test is limited in testing range! void Decompress_wx251_zlib114_Data_NoHeader(); void Decompress_wx251_zlib114_Data_ZLib(); void Decompress_gzip135Data(); private: const char *GetDataBuffer(); const unsigned char *GetCompressedData(); void doTestStreamData(int input_flag, int output_flag, int compress_level, const wxMemoryBuffer *buf = NULL); void doDecompress_ExternalData(const unsigned char *data, const char *value, size_t data_size, size_t value_size, int flag = wxZLIB_AUTO); private: // Implement base class functions. virtual wxZlibInputStream *DoCreateInStream(); virtual wxZlibOutputStream *DoCreateOutStream(); virtual void DoDeleteInStream(); virtual void DoDeleteOutStream(); // Helper that can be used to create new wx compatibility tests... // Otherwise not used by the tests. void genExtTestData(wxTextOutputStream &out, const char *buf, int flag); private: char m_DataBuffer[DATABUFFER_SIZE]; size_t m_SizeCompressedData; unsigned char *m_pCompressedData; wxMemoryBuffer m_Dictionary; // Used by the base Creat[In|Out]Stream and Delete[In|Out]Stream. wxMemoryInputStream *m_pTmpMemInStream; wxMemoryOutputStream *m_pTmpMemOutStream; }; zlibStream::zlibStream() :m_SizeCompressedData(0), m_pCompressedData(NULL), m_pTmpMemInStream(NULL), m_pTmpMemOutStream(NULL) { // Init the data buffer. for (size_t i = 0; i < DATABUFFER_SIZE; i++) m_DataBuffer[i] = (i % 0xFF); m_Dictionary.AppendData(m_DataBuffer, sizeof(m_DataBuffer) / 2); // Set extra base config settings. m_bSimpleTellITest = true; m_bSimpleTellOTest = true; /* Example code on how to produce test data... { wxFFileOutputStream fstream_out(wxT("gentest.cpp")); wxTextOutputStream out( fstream_out ); genExtTestData(out, "zlib data created with wxWidgets 2.5.x [March 27], wxZLIB_NO_HEADER, zlib 1.1.4", wxZLIB_NO_HEADER); genExtTestData(out, "zlib data created with wxWidgets 2.5.x [March 27], wxZLIB_ZLIB, zlib 1.1.4", wxZLIB_ZLIB); } */ } zlibStream::~zlibStream() { delete[] m_pCompressedData; delete m_pTmpMemInStream; delete m_pTmpMemOutStream; } void zlibStream::TestStream_NoHeader_Default() { doTestStreamData(wxZLIB_NO_HEADER, wxZLIB_NO_HEADER, wxZ_DEFAULT_COMPRESSION); } void zlibStream::TestStream_NoHeader_NoComp() { doTestStreamData(wxZLIB_NO_HEADER, wxZLIB_NO_HEADER, wxZ_NO_COMPRESSION); } void zlibStream::TestStream_NoHeader_SpeedComp() { doTestStreamData(wxZLIB_NO_HEADER, wxZLIB_NO_HEADER, wxZ_BEST_SPEED); } void zlibStream::TestStream_NoHeader_BestComp() { doTestStreamData(wxZLIB_NO_HEADER, wxZLIB_NO_HEADER, wxZ_BEST_COMPRESSION); } void zlibStream::TestStream_NoHeader_Dictionary() { doTestStreamData(wxZLIB_NO_HEADER, wxZLIB_NO_HEADER, wxZ_DEFAULT_COMPRESSION, &m_Dictionary); } void zlibStream::TestStream_ZLib_Default() { doTestStreamData(wxZLIB_ZLIB, wxZLIB_ZLIB, wxZ_DEFAULT_COMPRESSION); } void zlibStream::TestStream_ZLib_NoComp() { doTestStreamData(wxZLIB_ZLIB, wxZLIB_ZLIB, wxZ_NO_COMPRESSION); } void zlibStream::TestStream_ZLib_SpeedComp() { doTestStreamData(wxZLIB_ZLIB, wxZLIB_ZLIB, wxZ_BEST_SPEED); } void zlibStream::TestStream_ZLib_BestComp() { doTestStreamData(wxZLIB_ZLIB, wxZLIB_ZLIB, wxZ_BEST_COMPRESSION); } void zlibStream::TestStream_GZip_Default() { doTestStreamData(wxZLIB_GZIP, wxZLIB_GZIP, wxZ_DEFAULT_COMPRESSION); } void zlibStream::TestStream_GZip_NoComp() { doTestStreamData(wxZLIB_GZIP, wxZLIB_GZIP, wxZ_NO_COMPRESSION); } void zlibStream::TestStream_GZip_SpeedComp() { doTestStreamData(wxZLIB_GZIP, wxZLIB_GZIP, wxZ_BEST_SPEED); } void zlibStream::TestStream_GZip_BestComp() { doTestStreamData(wxZLIB_GZIP, wxZLIB_GZIP, wxZ_BEST_COMPRESSION); } void zlibStream::TestStream_GZip_Dictionary() { doTestStreamData(wxZLIB_GZIP, wxZLIB_GZIP, wxZ_DEFAULT_COMPRESSION, &m_Dictionary); } void zlibStream::TestStream_ZLibGZip() { // Only use default compression level, as this test is // for testing if the streams can determine the stream type info them self... doTestStreamData(wxZLIB_AUTO, wxZLIB_ZLIB, wxZ_DEFAULT_COMPRESSION); doTestStreamData(wxZLIB_AUTO, wxZLIB_GZIP, wxZ_DEFAULT_COMPRESSION); } void zlibStream::Decompress_BadData() { // Setup the bad data stream and the zlib stream. wxMemoryInputStream memstream_in(GetDataBuffer(), DATABUFFER_SIZE); CPPUNIT_ASSERT(memstream_in.IsOk()); wxZlibInputStream zstream_in(memstream_in); CPPUNIT_ASSERT(zstream_in.IsOk()); // We did not yet read from the stream // so it should still be OK. // Try to force the stream to go to bad status. CPPUNIT_ASSERT(!zstream_in.Eof()); if (zstream_in.IsOk()) zstream_in.GetC(); // Because of the bad data in the input stream the zlib // stream should be marked as NOT OK. CPPUNIT_ASSERT(!zstream_in.IsOk()); } void zlibStream::Decompress_wx251_zlib114_Data_NoHeader() { const unsigned char data[] = {171,202,201,76,82,72,73,44,73,84,72,46,74,77,44,73,77,81,40,207,44,201,80,40,175,8,207,76,73,79,45,41,86,48,210,51,213,171,80,136,246,77,44,74,206,80,48,50,143,213,1,202,69,249,120,58,197,251,249,199,123,184,58,186,184,6,233,40,84,129,12,49,212,51,212,51,1,0,32}; const char *value = "zlib data created with wxWidgets 2.5.x [March 27], wxZLIB_NO_HEADER, zlib 1.1.4"; const size_t data_size = sizeof(data); const size_t value_size = strlen(value); // We need to specify wxZLIB_NO_HEADER because wxZLIB_AUTO can't find it his self. doDecompress_ExternalData(data, value, data_size, value_size, wxZLIB_NO_HEADER); } void zlibStream::Decompress_wx251_zlib114_Data_ZLib() { const unsigned char data[] = {120,156,171,202,201,76,82,72,73,44,73,84,72,46,74,77,44,73,77,81,40,207,44,201,80,40,175,8,207,76,73,79,45,41,86,48,210,51,213,171,80,136,246,77,44,74,206,80,48,50,143,213,1,202,69,249,120,58,197,131,8,29,133,42,144,126,67,61,67,61,19,0,191,86,23,216}; const char *value = "zlib data created with wxWidgets 2.5.x [March 27], wxZLIB_ZLIB, zlib 1.1.4"; const size_t data_size = sizeof(data); const size_t value_size = strlen(value); doDecompress_ExternalData(data, value, data_size, value_size); } void zlibStream::Decompress_gzip135Data() { // Compressed data was on the command line with gzip 1.3.5. const unsigned char gzip135_data[] = {31,139,8,0,177,248,112,64,4,3,115,206,207,45,40,74,45,46,78,77,81,72,73,44,73,84,72,46,74,77,44,1,114,202,51,75,50,20,220,253,66,21,210,171,50,11,20,12,245,140,245,76,185,0,1,107,16,80,44,0,0,0,0}; const char *gzip135_value = "Compressed data created with GNU gzip 1.3.5\n"; // Size of the value and date items. const size_t data_size = sizeof(gzip135_data); const size_t value_size = strlen(gzip135_value); // Perform a generic data test on the data. doDecompress_ExternalData(gzip135_data, gzip135_value, data_size, value_size); } const char *zlibStream::GetDataBuffer() { return m_DataBuffer; } const unsigned char *zlibStream::GetCompressedData() { if (!m_pCompressedData) { // Construct the compressed data live. wxMemoryOutputStream memstream_out; { const char *buf = "01234567890123456789012345678901234567890123456789"; /* = 50 */ wxZlibOutputStream zstream_out(memstream_out); zstream_out.Write(buf, strlen(buf)); } // Copy the to the m_SizeCompressedData = memstream_out.GetSize(); m_pCompressedData = new unsigned char[m_SizeCompressedData]; memstream_out.CopyTo(m_pCompressedData, m_SizeCompressedData); } CPPUNIT_ASSERT(m_pCompressedData != NULL); return m_pCompressedData; } void zlibStream::doTestStreamData(int input_flag, int output_flag, int compress_level, const wxMemoryBuffer *buf) { size_t fail_pos; char last_value = 0; bool bWasEOF; { // Part one: Create a compressed file. wxFileOutputStream fstream_out(FILENAME_GZ); CPPUNIT_ASSERT(fstream_out.IsOk()); { wxZlibOutputStream zstream_out(fstream_out, compress_level, output_flag); CPPUNIT_ASSERT_MESSAGE("Could not create the output stream", zstream_out.IsOk()); if (buf) zstream_out.SetDictionary(*buf); // Next: Compress some data so the file is containing something. zstream_out.Write(GetDataBuffer(), DATABUFFER_SIZE); } // Next thing is required by zlib versions pre 1.2.0. if (input_flag == wxZLIB_NO_HEADER) fstream_out.PutC(' '); } { // Part two: Verify that the compressed data when uncompressed // matches the original data. wxFileInputStream fstream_in(FILENAME_GZ); CPPUNIT_ASSERT(fstream_in.IsOk()); wxZlibInputStream zstream_in(fstream_in, input_flag); CPPUNIT_ASSERT_MESSAGE("Could not create the input stream", zstream_in.IsOk()); if (buf) zstream_in.SetDictionary(*buf); // Next: Check char per char if the returned data is valid. const char *pbuf = GetDataBuffer(); for (fail_pos = 0; !zstream_in.Eof(); fail_pos++) { last_value = zstream_in.GetC(); if (zstream_in.LastRead() != 1 || last_value != pbuf[fail_pos]) break; } bWasEOF = zstream_in.Eof(); } // Remove the temp file... ::wxRemoveFile(FILENAME_GZ); // Check state of the verify action. if (fail_pos != DATABUFFER_SIZE || !bWasEOF) { wxString msg; msg << wxT("Wrong data item at pos ") << fail_pos << wxT(" (Org_val ") << GetDataBuffer()[fail_pos] << wxT(" != Zlib_val ") << last_value << wxT("), with compression level ") << compress_level; CPPUNIT_FAIL(string(msg.mb_str())); } } void zlibStream::doDecompress_ExternalData(const unsigned char *data, const char *value, size_t data_size, size_t value_size, int flag) { // See that the input is ok. wxASSERT(data != NULL); wxASSERT(value != NULL); wxASSERT(data_size > 0); wxASSERT(value_size > 0); // Quickly try to see if the data is valid. switch (flag) { case wxZLIB_NO_HEADER: break; case wxZLIB_ZLIB: if (!(data_size >= 1 && data[0] == 0x78)) { wxLogError(wxT("zlib data seems to not be zlib data!")); } break; case wxZLIB_GZIP: if (!(data_size >= 2 && data[0] == 0x1F && data[1] == 0x8B)) { wxLogError(wxT("gzip data seems to not be gzip data!")); } break; case wxZLIB_AUTO: if (!(data_size >= 1 && data[0] == 0x78) || !(data_size >= 2 && data[0] == 0x1F && data[1] == 0x8B)) { wxLogError(wxT("Data seems to not be zlib or gzip data!")); } break; default: wxLogError(wxT("Unknown flag, skipping quick test.")); }; // Creat the needed streams. wxMemoryInputStream memstream_in(data, data_size); CPPUNIT_ASSERT(memstream_in.IsOk()); wxZlibInputStream zstream_in(memstream_in, flag); CPPUNIT_ASSERT(zstream_in.IsOk()); bool bValueEq = true; size_t i; for (i = 0; !zstream_in.Eof(); i++) { char last_value = zstream_in.GetC(); // First check if it is a valid read. if (zstream_in.LastRead() == 1) { // Check the values if (last_value != value[i]) { bValueEq = false; break; } } else { // If the read failed and turned the stream to Eof we stop reading. if (zstream_in.Eof()) break; CPPUNIT_ASSERT_MESSAGE("Stream is no longer ok!", zstream_in.IsOk()); } // Don't go over the end of the value buffer... if (i == value_size) { // And if we do then try to see how long the stream actually is. while (!zstream_in.Eof()) { // Move one item along in the stream. (void)zstream_in.GetC(); i++; // Check if we are in an infinite loop by multiplying value_size // by 5 to have a *much* bigger range then the real range. // Note: In case you ask yourself, why 5, the answer is no reason... // it is not too big and not to small a size, nothing more // nothing less to it. if (i > (value_size*5)) { // Note: Please make sure Input_Eof test passed. CPPUNIT_FAIL("Infinite stream detected, breaking the infinite loop"); return; } } } } CPPUNIT_ASSERT_EQUAL( i, value_size ); CPPUNIT_ASSERT( bValueEq ); } wxZlibInputStream *zlibStream::DoCreateInStream() { const unsigned char *buf = GetCompressedData(); m_pTmpMemInStream = new wxMemoryInputStream(buf, m_SizeCompressedData); CPPUNIT_ASSERT(m_pTmpMemInStream->IsOk()); wxZlibInputStream *pzstream_in = new wxZlibInputStream(*m_pTmpMemInStream); CPPUNIT_ASSERT(pzstream_in->IsOk()); return pzstream_in; } wxZlibOutputStream *zlibStream::DoCreateOutStream() { m_pTmpMemOutStream = new wxMemoryOutputStream(); CPPUNIT_ASSERT(m_pTmpMemOutStream->IsOk()); wxZlibOutputStream *pzstream_out = new wxZlibOutputStream(*m_pTmpMemOutStream); CPPUNIT_ASSERT(pzstream_out->IsOk()); return pzstream_out; } void zlibStream::DoDeleteInStream() { delete m_pTmpMemInStream; m_pTmpMemInStream = NULL; } void zlibStream::DoDeleteOutStream() { delete m_pTmpMemOutStream; m_pTmpMemOutStream = NULL; } void zlibStream::genExtTestData(wxTextOutputStream &out, const char *buf, int flag) { unsigned char *data; size_t size; { // Gen data wxMemoryOutputStream memstream_out; { wxZlibOutputStream zstream_out(memstream_out, wxZ_DEFAULT_COMPRESSION, flag); zstream_out.Write(buf, strlen(buf)); } if (flag == wxZLIB_NO_HEADER) memstream_out.PutC(' '); size = memstream_out.GetSize(); data = new unsigned char[size]; memstream_out.CopyTo(data, size); } out << wxT("void zlibStream::Decompress_wxXXXData()") << wxT("\n"); out << wxT("{") << wxT("\n") << wxT(" const unsigned char data[] = {"); size_t i; for (i = 0; i < size; i++) { if (i+1 != size) out << wxString::Format(wxT("%d,"), data[i]); else out << wxString::Format(wxT("%d"), data[i]); } delete [] data; out << wxT("};") << wxT("\n"); out << wxT(" const char *value = \"") << wxString(buf, wxConvUTF8) << wxT("\";") << wxT("\n"); out << wxT(" const size_t data_size = sizeof(data);") << wxT("\n"); out << wxT(" const size_t value_size = strlen(value);") << wxT("\n"); out << wxT(" doDecompress_ExternalData(data, value, data_size, value_size);") << wxT("\n"); out << wxT("}") << wxT("\n"); } // Register the stream sub suite, by using some stream helper macro. // Note: Don't forget to connect it to the base suite (See: bstream.cpp => StreamCase::suite()) STREAM_TEST_SUBSUITE_NAMED_REGISTRATION(zlibStream)