/* * Copyright (c) 2011 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #include "trace_impl.h" #include <cassert> #include <string.h> // memset #ifdef _WIN32 #include "trace_win.h" #else #include <stdio.h> #include <time.h> #include <stdarg.h> #include "trace_posix.h" #endif // _WIN32 #define KEY_LEN_CHARS 31 #ifdef _WIN32 #pragma warning(disable:4355) // VS 2005: Disable warnings for default initialized arrays. #pragma warning(disable:4351) #endif // _WIN32 namespace webrtc { static WebRtc_UWord32 levelFilter = kTraceDefault; // Construct On First Use idiom. Avoids "static initialization order fiasco". TraceImpl* TraceImpl::StaticInstance(CountOperation count_operation, const TraceLevel level) { // Sanities to avoid taking lock unless absolutely necessary (for // performance reasons). // count_operation == kAddRefNoCreate implies that a message will be // written to file. if((level != kTraceAll) && (count_operation == kAddRefNoCreate)) { if(!(level & levelFilter)) { return NULL; } } TraceImpl* impl = GetStaticInstance<TraceImpl>(count_operation); return impl; } TraceImpl* TraceImpl::GetTrace(const TraceLevel level) { return StaticInstance(kAddRefNoCreate, level); } TraceImpl* TraceImpl::CreateInstance() { #if defined(_WIN32) return new TraceWindows(); #else return new TracePosix(); #endif } TraceImpl::TraceImpl() : _critsectInterface(CriticalSectionWrapper::CreateCriticalSection()), _callback(NULL), _rowCountText(0), _fileCountText(0), _traceFile(*FileWrapper::Create()), _thread(*ThreadWrapper::CreateThread(TraceImpl::Run, this, kHighestPriority, "Trace")), _event(*EventWrapper::Create()), _critsectArray(CriticalSectionWrapper::CreateCriticalSection()), _nextFreeIdx(), _level(), _length(), _messageQueue(), _activeQueue(0) { _nextFreeIdx[0] = 0; _nextFreeIdx[1] = 0; unsigned int tid = 0; _thread.Start(tid); for(int m = 0; m < WEBRTC_TRACE_NUM_ARRAY; m++) { for(int n = 0; n < WEBRTC_TRACE_MAX_QUEUE; n++) { _messageQueue[m][n] = new WebRtc_Word8[WEBRTC_TRACE_MAX_MESSAGE_SIZE]; } } } bool TraceImpl::StopThread() { // Release the worker thread so that it can flush any lingering messages. _event.Set(); // Allow 10 ms for pending messages to be flushed out. // TODO (hellner): why not use condition variables to do this? Or let the // worker thread die and let this thread flush remaining // messages? #ifdef _WIN32 Sleep(10); #else timespec t; t.tv_sec = 0; t.tv_nsec = 10*1000000; nanosleep(&t,NULL); #endif _thread.SetNotAlive(); // Make sure the thread finishes as quickly as possible (instead of having // to wait for the timeout). _event.Set(); bool stopped = _thread.Stop(); CriticalSectionScoped lock(_critsectInterface); _traceFile.Flush(); _traceFile.CloseFile(); return stopped; } TraceImpl::~TraceImpl() { StopThread(); delete &_event; delete &_traceFile; delete &_thread; delete _critsectInterface; delete _critsectArray; for(int m = 0; m < WEBRTC_TRACE_NUM_ARRAY; m++) { for(int n = 0; n < WEBRTC_TRACE_MAX_QUEUE; n++) { delete [] _messageQueue[m][n]; } } } WebRtc_Word32 TraceImpl::AddLevel(char* szMessage, const TraceLevel level) const { switch (level) { case kTraceStateInfo: sprintf (szMessage, "STATEINFO ; "); break; case kTraceWarning: sprintf (szMessage, "WARNING ; "); break; case kTraceError: sprintf (szMessage, "ERROR ; "); break; case kTraceCritical: sprintf (szMessage, "CRITICAL ; "); break; case kTraceInfo: sprintf (szMessage, "DEBUGINFO ; "); break; case kTraceModuleCall: sprintf (szMessage, "MODULECALL; "); break; case kTraceMemory: sprintf (szMessage, "MEMORY ; "); break; case kTraceTimer: sprintf (szMessage, "TIMER ; "); break; case kTraceStream: sprintf (szMessage, "STREAM ; "); break; case kTraceApiCall: sprintf (szMessage, "APICALL ; "); break; case kTraceDebug: sprintf (szMessage, "DEBUG ; "); break; default: assert(false); return 0; } // All messages are 12 characters. return 12; } WebRtc_Word32 TraceImpl::AddModuleAndId(char* traceMessage, const TraceModule module, const WebRtc_Word32 id) const { // Use long int to prevent problems with different definitions of // WebRtc_Word32. // TODO (hellner): is this actually a problem? If so, it should be better to // clean up WebRtc_Word32 const long int idl = id; if(idl != -1) { const unsigned long int idEngine = id>>16; const unsigned long int idChannel = id & 0xffff; switch (module) { case kTraceVoice: sprintf(traceMessage, " VOICE:%5ld %5ld;", idEngine, idChannel); break; case kTraceVideo: sprintf(traceMessage, " VIDEO:%5ld %5ld;", idEngine, idChannel); break; case kTraceUtility: sprintf(traceMessage, " UTILITY:%5ld %5ld;", idEngine, idChannel); break; case kTraceRtpRtcp: sprintf(traceMessage, " RTP/RTCP:%5ld %5ld;", idEngine, idChannel); break; case kTraceTransport: sprintf(traceMessage, " TRANSPORT:%5ld %5ld;", idEngine, idChannel); break; case kTraceAudioCoding: sprintf(traceMessage, "AUDIO CODING:%5ld %5ld;", idEngine, idChannel); break; case kTraceSrtp: sprintf(traceMessage, " SRTP:%5ld %5ld;", idEngine, idChannel); break; case kTraceAudioMixerServer: sprintf(traceMessage, " AUDIO MIX/S:%5ld %5ld;", idEngine, idChannel); break; case kTraceAudioMixerClient: sprintf(traceMessage, " AUDIO MIX/C:%5ld %5ld;", idEngine, idChannel); break; case kTraceVideoCoding: sprintf(traceMessage, "VIDEO CODING:%5ld %5ld;", idEngine, idChannel); break; case kTraceVideoMixer: // Print sleep time and API call sprintf(traceMessage, " VIDEO MIX:%5ld %5ld;", idEngine, idChannel); break; case kTraceFile: sprintf(traceMessage, " FILE:%5ld %5ld;", idEngine, idChannel); break; case kTraceAudioProcessing: sprintf(traceMessage, " AUDIO PROC:%5ld %5ld;", idEngine, idChannel); break; case kTraceAudioDevice: sprintf(traceMessage, "AUDIO DEVICE:%5ld %5ld;", idEngine, idChannel); break; case kTraceVideoRenderer: sprintf(traceMessage, "VIDEO RENDER:%5ld %5ld;", idEngine, idChannel); break; case kTraceVideoCapture: sprintf(traceMessage, "VIDEO CAPTUR:%5ld %5ld;", idEngine, idChannel); break; case kTraceVideoPreocessing: sprintf(traceMessage, " VIDEO PROC:%5ld %5ld;", idEngine, idChannel); break; default: assert(false); return 0; } } else { switch (module) { case kTraceVoice: sprintf (traceMessage, " VOICE:%11ld;", idl); break; case kTraceVideo: sprintf (traceMessage, " VIDEO:%11ld;", idl); break; case kTraceUtility: sprintf (traceMessage, " UTILITY:%11ld;", idl); break; case kTraceRtpRtcp: sprintf (traceMessage, " RTP/RTCP:%11ld;", idl); break; case kTraceTransport: sprintf (traceMessage, " TRANSPORT:%11ld;", idl); break; case kTraceAudioCoding: sprintf (traceMessage, "AUDIO CODING:%11ld;", idl); break; case kTraceSrtp: sprintf (traceMessage, " SRTP:%11ld;", idl); break; case kTraceAudioMixerServer: sprintf (traceMessage, " AUDIO MIX/S:%11ld;", idl); break; case kTraceAudioMixerClient: sprintf (traceMessage, " AUDIO MIX/C:%11ld;", idl); break; case kTraceVideoCoding: sprintf (traceMessage, "VIDEO CODING:%11ld;", idl); break; case kTraceVideoMixer: sprintf (traceMessage, " VIDEO MIX:%11ld;", idl); break; case kTraceFile: sprintf (traceMessage, " FILE:%11ld;", idl); break; case kTraceAudioProcessing: sprintf (traceMessage, " AUDIO PROC:%11ld;", idl); break; case kTraceAudioDevice: sprintf (traceMessage, "AUDIO DEVICE:%11ld;", idl); break; case kTraceVideoRenderer: sprintf (traceMessage, "VIDEO RENDER:%11ld;", idl); break; case kTraceVideoCapture: sprintf (traceMessage, "VIDEO CAPTUR:%11ld;", idl); break; case kTraceVideoPreocessing: sprintf (traceMessage, " VIDEO PROC:%11ld;", idl); break; default: assert(false); return 0; } } // All messages are 25 characters. return 25; } WebRtc_Word32 TraceImpl::SetTraceFileImpl(const WebRtc_Word8* fileNameUTF8, const bool addFileCounter) { CriticalSectionScoped lock(_critsectInterface); _traceFile.Flush(); _traceFile.CloseFile(); if(fileNameUTF8) { if(addFileCounter) { _fileCountText = 1; WebRtc_Word8 fileNameWithCounterUTF8[FileWrapper::kMaxFileNameSize]; CreateFileName(fileNameUTF8, fileNameWithCounterUTF8, _fileCountText); if(_traceFile.OpenFile(fileNameWithCounterUTF8, false, false, true) == -1) { return -1; } }else { _fileCountText = 0; if(_traceFile.OpenFile(fileNameUTF8, false, false, true) == -1) { return -1; } } } _rowCountText = 0; return 0; } WebRtc_Word32 TraceImpl::TraceFileImpl( WebRtc_Word8 fileNameUTF8[FileWrapper::kMaxFileNameSize]) { CriticalSectionScoped lock(_critsectInterface); return _traceFile.FileName(fileNameUTF8, FileWrapper::kMaxFileNameSize); } WebRtc_Word32 TraceImpl::SetTraceCallbackImpl(TraceCallback* callback) { CriticalSectionScoped lock(_critsectInterface); _callback = callback; return 0; } WebRtc_Word32 TraceImpl::AddMessage( char* traceMessage, const char msg[WEBRTC_TRACE_MAX_MESSAGE_SIZE], const WebRtc_UWord16 writtenSoFar) const { int length = 0; if(writtenSoFar >= WEBRTC_TRACE_MAX_MESSAGE_SIZE) { return -1; } // - 2 to leave room for newline and NULL termination #ifdef _WIN32 length = _snprintf(traceMessage, WEBRTC_TRACE_MAX_MESSAGE_SIZE - writtenSoFar - 2, "%s",msg); if(length < 0) { length = WEBRTC_TRACE_MAX_MESSAGE_SIZE - writtenSoFar - 2; traceMessage[length] = 0; } #else length = snprintf(traceMessage, WEBRTC_TRACE_MAX_MESSAGE_SIZE-writtenSoFar-2, "%s",msg); if(length < 0 || length > WEBRTC_TRACE_MAX_MESSAGE_SIZE-writtenSoFar - 2) { length = WEBRTC_TRACE_MAX_MESSAGE_SIZE - writtenSoFar - 2; traceMessage[length] = 0; } #endif // Length with NULL termination. return length+1; } void TraceImpl::AddMessageToList( const char traceMessage[WEBRTC_TRACE_MAX_MESSAGE_SIZE], const WebRtc_UWord16 length, const TraceLevel level) { CriticalSectionScoped lock(_critsectArray); if(_nextFreeIdx[_activeQueue] >= WEBRTC_TRACE_MAX_QUEUE) { if( ! _traceFile.Open() && !_callback) { // Keep at least the last 1/4 of old messages when not logging. // TODO (hellner): isn't this redundant. The user will make it known // when to start logging. Why keep messages before // that? for(int n = 0; n < WEBRTC_TRACE_MAX_QUEUE/4; n++) { const int lastQuarterOffset = (3*WEBRTC_TRACE_MAX_QUEUE/4); memcpy(_messageQueue[_activeQueue][n], _messageQueue[_activeQueue][n + lastQuarterOffset], WEBRTC_TRACE_MAX_MESSAGE_SIZE); } _nextFreeIdx[_activeQueue] = WEBRTC_TRACE_MAX_QUEUE/4; } else { // More messages are being written than there is room for in the // buffer. Drop any new messages. // TODO (hellner): its probably better to drop old messages instead // of new ones. One step further: if this happens // it's due to writing faster than what can be // processed. Maybe modify the filter at this point. // E.g. turn of STREAM. return; } } WebRtc_UWord16 idx = _nextFreeIdx[_activeQueue]; _nextFreeIdx[_activeQueue]++; _level[_activeQueue][idx] = level; _length[_activeQueue][idx] = length; memcpy(_messageQueue[_activeQueue][idx], traceMessage, length); if(_nextFreeIdx[_activeQueue] == WEBRTC_TRACE_MAX_QUEUE-1) { // Logging more messages than can be worked off. Log a warning. const char warning_msg[] = "WARNING MISSING TRACE MESSAGES\n"; _level[_activeQueue][_nextFreeIdx[_activeQueue]] = kTraceWarning; _length[_activeQueue][_nextFreeIdx[_activeQueue]] = strlen(warning_msg); memcpy(_messageQueue[_activeQueue][_nextFreeIdx[_activeQueue]], warning_msg, _length[_activeQueue][idx]); _nextFreeIdx[_activeQueue]++; } } bool TraceImpl::Run(void* obj) { return static_cast<TraceImpl*>(obj)->Process(); } bool TraceImpl::Process() { if(_event.Wait(1000) == kEventSignaled) { if(_traceFile.Open() || _callback) { // File mode (not calback mode). WriteToFile(); } } else { _traceFile.Flush(); } return true; } void TraceImpl::WriteToFile() { WebRtc_UWord8 localQueueActive = 0; WebRtc_UWord16 localNextFreeIdx = 0; // There are two buffer. One for reading (for writing to file) and one for // writing (for storing new messages). Let new messages be posted to the // unused buffer so that the current buffer can be flushed safely. { CriticalSectionScoped lock(_critsectArray); localNextFreeIdx = _nextFreeIdx[_activeQueue]; _nextFreeIdx[_activeQueue] = 0; localQueueActive = _activeQueue; if(_activeQueue == 0) { _activeQueue = 1; } else { _activeQueue = 0; } } if(localNextFreeIdx == 0) { return; } CriticalSectionScoped lock(_critsectInterface); for(WebRtc_UWord16 idx = 0; idx <localNextFreeIdx; idx++) { TraceLevel localLevel = _level[localQueueActive][idx]; if(_callback) { _callback->Print(localLevel, _messageQueue[localQueueActive][idx], _length[localQueueActive][idx]); } if(_traceFile.Open()) { if(_rowCountText > WEBRTC_TRACE_MAX_FILE_SIZE) { // wrap file _rowCountText = 0; _traceFile.Flush(); if(_fileCountText == 0) { _traceFile.Rewind(); } else { WebRtc_Word8 oldFileName[FileWrapper::kMaxFileNameSize]; WebRtc_Word8 newFileName[FileWrapper::kMaxFileNameSize]; // get current name _traceFile.FileName(oldFileName, FileWrapper::kMaxFileNameSize); _traceFile.CloseFile(); _fileCountText++; UpdateFileName(oldFileName, newFileName, _fileCountText); if(_traceFile.OpenFile(newFileName, false, false, true) == -1) { return; } } } if(_rowCountText == 0) { WebRtc_Word8 message[WEBRTC_TRACE_MAX_MESSAGE_SIZE + 1]; WebRtc_Word32 length = AddDateTimeInfo(message); if(length != -1) { message[length] = 0; message[length-1] = '\n'; _traceFile.Write(message, length); _rowCountText++; } length = AddBuildInfo(message); if(length != -1) { message[length+1] = 0; message[length] = '\n'; message[length-1] = '\n'; _traceFile.Write(message, length+1); _rowCountText++; _rowCountText++; } } WebRtc_UWord16 length = _length[localQueueActive][idx]; _messageQueue[localQueueActive][idx][length] = 0; _messageQueue[localQueueActive][idx][length-1] = '\n'; _traceFile.Write(_messageQueue[localQueueActive][idx], length); _rowCountText++; } } } void TraceImpl::AddImpl(const TraceLevel level, const TraceModule module, const WebRtc_Word32 id, const char msg[WEBRTC_TRACE_MAX_MESSAGE_SIZE]) { if (TraceCheck(level)) { char traceMessage[WEBRTC_TRACE_MAX_MESSAGE_SIZE]; char* meassagePtr = traceMessage; WebRtc_Word32 len = 0; WebRtc_Word32 ackLen = 0; len = AddLevel(meassagePtr, level); if(len == -1) { return; } meassagePtr += len; ackLen += len; len = AddTime(meassagePtr, level); if(len == -1) { return; } meassagePtr += len; ackLen += len; len = AddModuleAndId(meassagePtr, module, id); if(len == -1) { return; } meassagePtr += len; ackLen += len; len = AddThreadId(meassagePtr); if(len == -1) { return; } meassagePtr += len; ackLen += len; len = AddMessage(meassagePtr, msg, (WebRtc_UWord16)ackLen); if(len == -1) { return; } ackLen += len; AddMessageToList(traceMessage,(WebRtc_UWord16)ackLen, level); // Make sure that messages are written as soon as possible. _event.Set(); } } bool TraceImpl::TraceCheck(const TraceLevel level) const { return (level & levelFilter)? true:false; } bool TraceImpl::UpdateFileName( const WebRtc_Word8 fileNameUTF8[FileWrapper::kMaxFileNameSize], WebRtc_Word8 fileNameWithCounterUTF8[FileWrapper::kMaxFileNameSize], const WebRtc_UWord32 newCount) const { WebRtc_Word32 length = (WebRtc_Word32)strlen(fileNameUTF8); if(length < 0) { return false; } WebRtc_Word32 lengthWithoutFileEnding = length-1; while(lengthWithoutFileEnding > 0) { if(fileNameUTF8[lengthWithoutFileEnding] == '.') { break; } else { lengthWithoutFileEnding--; } } if(lengthWithoutFileEnding == 0) { lengthWithoutFileEnding = length; } WebRtc_Word32 lengthTo_ = lengthWithoutFileEnding - 1; while(lengthTo_ > 0) { if(fileNameUTF8[lengthTo_] == '_') { break; } else { lengthTo_--; } } memcpy(fileNameWithCounterUTF8, fileNameUTF8, lengthTo_); sprintf(fileNameWithCounterUTF8+lengthTo_, "_%lu%s", static_cast<long unsigned int> (newCount), fileNameUTF8+lengthWithoutFileEnding); return true; } bool TraceImpl::CreateFileName( const WebRtc_Word8 fileNameUTF8[FileWrapper::kMaxFileNameSize], WebRtc_Word8 fileNameWithCounterUTF8[FileWrapper::kMaxFileNameSize], const WebRtc_UWord32 newCount) const { WebRtc_Word32 length = (WebRtc_Word32)strlen(fileNameUTF8); if(length < 0) { return false; } WebRtc_Word32 lengthWithoutFileEnding = length-1; while(lengthWithoutFileEnding > 0) { if(fileNameUTF8[lengthWithoutFileEnding] == '.') { break; }else { lengthWithoutFileEnding--; } } if(lengthWithoutFileEnding == 0) { lengthWithoutFileEnding = length; } memcpy(fileNameWithCounterUTF8, fileNameUTF8, lengthWithoutFileEnding); sprintf(fileNameWithCounterUTF8+lengthWithoutFileEnding, "_%lu%s", static_cast<long unsigned int> (newCount), fileNameUTF8+lengthWithoutFileEnding); return true; } void Trace::CreateTrace() { TraceImpl::StaticInstance(kAddRef); } void Trace::ReturnTrace() { TraceImpl::StaticInstance(kRelease); } WebRtc_Word32 Trace::SetLevelFilter(WebRtc_UWord32 filter) { levelFilter = filter; return 0; } WebRtc_Word32 Trace::LevelFilter(WebRtc_UWord32& filter) { filter = levelFilter; return 0; } WebRtc_Word32 Trace::TraceFile(WebRtc_Word8 fileName[FileWrapper::kMaxFileNameSize]) { TraceImpl* trace = TraceImpl::GetTrace(); if(trace) { int retVal = trace->TraceFileImpl(fileName); ReturnTrace(); return retVal; } return -1; } WebRtc_Word32 Trace::SetTraceFile(const WebRtc_Word8* fileName, const bool addFileCounter) { TraceImpl* trace = TraceImpl::GetTrace(); if(trace) { int retVal = trace->SetTraceFileImpl(fileName, addFileCounter); ReturnTrace(); return retVal; } return -1; } WebRtc_Word32 Trace::SetTraceCallback(TraceCallback* callback) { TraceImpl* trace = TraceImpl::GetTrace(); if(trace) { int retVal = trace->SetTraceCallbackImpl(callback); ReturnTrace(); return retVal; } return -1; } void Trace::Add(const TraceLevel level, const TraceModule module, const WebRtc_Word32 id, const char* msg, ...) { TraceImpl* trace = TraceImpl::GetTrace(level); if(trace) { if(trace->TraceCheck(level)) { char tempBuff[WEBRTC_TRACE_MAX_MESSAGE_SIZE]; char* buff = 0; if(msg) { va_list args; va_start(args, msg); #ifdef _WIN32 _vsnprintf(tempBuff,WEBRTC_TRACE_MAX_MESSAGE_SIZE-1,msg,args); #else vsnprintf(tempBuff,WEBRTC_TRACE_MAX_MESSAGE_SIZE-1,msg,args); #endif va_end(args); buff = tempBuff; } trace->AddImpl(level, module, id, buff); } ReturnTrace(); } } } // namespace webrtc