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File Name: mfx_dispatcher_log.h \* ****************************************************************************** */ #if defined(MFX_DISPATCHER_LOG) #include "mfx_dispatcher_log.h" #include "mfxstructures.h" #if defined(_WIN32) || defined(_WIN64) #include #if defined(DISPATCHER_LOG_REGISTER_EVENT_PROVIDER) #include #include #endif #endif // #if defined(_WIN32) || defined(_WIN64) #include #include #include #include struct CodeStringTable { int code; const char *string; } LevelStrings []= { {DL_INFO, "INFO: "}, {DL_WRN, "WARNING:"}, {DL_ERROR, "ERROR: "} }; #define DEFINE_CODE(code)\ {code, #code} static CodeStringTable StringsOfImpl[] = { DEFINE_CODE(MFX_IMPL_AUTO), DEFINE_CODE(MFX_IMPL_SOFTWARE), DEFINE_CODE(MFX_IMPL_HARDWARE), DEFINE_CODE(MFX_IMPL_AUTO_ANY), DEFINE_CODE(MFX_IMPL_HARDWARE_ANY), DEFINE_CODE(MFX_IMPL_HARDWARE2), DEFINE_CODE(MFX_IMPL_HARDWARE3), DEFINE_CODE(MFX_IMPL_HARDWARE4), DEFINE_CODE(MFX_IMPL_UNSUPPORTED) }; static CodeStringTable StringsOfImplVIA[] = { DEFINE_CODE(MFX_IMPL_VIA_ANY), DEFINE_CODE(MFX_IMPL_VIA_D3D9), DEFINE_CODE(MFX_IMPL_VIA_D3D11), }; static CodeStringTable StringsOfStatus[] = { DEFINE_CODE(MFX_ERR_NONE ), DEFINE_CODE(MFX_ERR_UNKNOWN ), DEFINE_CODE(MFX_ERR_NULL_PTR ), DEFINE_CODE(MFX_ERR_UNSUPPORTED ), DEFINE_CODE(MFX_ERR_MEMORY_ALLOC ), DEFINE_CODE(MFX_ERR_NOT_ENOUGH_BUFFER ), DEFINE_CODE(MFX_ERR_INVALID_HANDLE ), DEFINE_CODE(MFX_ERR_LOCK_MEMORY ), DEFINE_CODE(MFX_ERR_NOT_INITIALIZED ), DEFINE_CODE(MFX_ERR_NOT_FOUND ), DEFINE_CODE(MFX_ERR_MORE_DATA ), DEFINE_CODE(MFX_ERR_MORE_SURFACE ), DEFINE_CODE(MFX_ERR_ABORTED ), DEFINE_CODE(MFX_ERR_DEVICE_LOST ), DEFINE_CODE(MFX_ERR_INCOMPATIBLE_VIDEO_PARAM), DEFINE_CODE(MFX_ERR_INVALID_VIDEO_PARAM ), DEFINE_CODE(MFX_ERR_UNDEFINED_BEHAVIOR ), DEFINE_CODE(MFX_ERR_DEVICE_FAILED ), DEFINE_CODE(MFX_WRN_IN_EXECUTION ), DEFINE_CODE(MFX_WRN_DEVICE_BUSY ), DEFINE_CODE(MFX_WRN_VIDEO_PARAM_CHANGED ), DEFINE_CODE(MFX_WRN_PARTIAL_ACCELERATION ), DEFINE_CODE(MFX_WRN_INCOMPATIBLE_VIDEO_PARAM), DEFINE_CODE(MFX_WRN_VALUE_NOT_CHANGED ), DEFINE_CODE(MFX_WRN_OUT_OF_RANGE ), }; #define CODE_TO_STRING(code, array)\ CodeToString(code, array, sizeof(array)/sizeof(array[0])) const char* CodeToString(int code, CodeStringTable array[], int len ) { for (int i = 0 ; i < len; i++) { if (array[i].code == code) return array[i].string; } return "undef"; } std::string DispatcherLog_GetMFXImplString(int impl) { std::string str1 = CODE_TO_STRING(impl & ~(-MFX_IMPL_VIA_ANY), StringsOfImpl); std::string str2 = CODE_TO_STRING(impl & (-MFX_IMPL_VIA_ANY), StringsOfImplVIA); return str1 + (str2 == "undef" ? "" : "|"+str2); } const char *DispatcherLog_GetMFXStatusString(int sts) { return CODE_TO_STRING(sts, StringsOfStatus); } ////////////////////////////////////////////////////////////////////////// void DispatcherLogBracketsHelper::Write(const char * str, ...) { va_list argsptr; va_start(argsptr, str); DispatchLog::get().Write(m_level, m_opcode, str, argsptr); va_end(argsptr); } void DispatchLogBlockHelper::Write(const char * str, ...) { va_list argsptr; va_start(argsptr, str); DispatchLog::get().Write(m_level, DL_EVENT_START, str, argsptr); va_end(argsptr); } DispatchLogBlockHelper::~DispatchLogBlockHelper() { DispatchLog::get().Write(m_level, DL_EVENT_STOP, NULL, NULL); } ////////////////////////////////////////////////////////////////////////// DispatchLog::DispatchLog() : m_DispatcherLogSink(DL_SINK_PRINTF) { } void DispatchLog::SetSink(int nSink, IMsgHandler * pHandler) { DetachAllSinks(); AttachSink(nSink, pHandler); } void DispatchLog::AttachSink(int nsink, IMsgHandler *pHandler) { m_DispatcherLogSink |= nsink; if (NULL != pHandler) m_Recepients.push_back(pHandler); } void DispatchLog::DetachSink(int nsink, IMsgHandler *pHandler) { if (nsink & DL_SINK_IMsgHandler) { m_Recepients.remove(pHandler); } m_DispatcherLogSink &= ~nsink; } void DispatchLog::ExchangeSink(int nsink, IMsgHandler *oldHdl, IMsgHandler *newHdl) { if (nsink & DL_SINK_IMsgHandler) { std::list :: iterator it = std::find(m_Recepients.begin(), m_Recepients.end(), oldHdl); //cannot exchange in that case if (m_Recepients.end() == it) return; *it = newHdl; } } void DispatchLog::DetachAllSinks() { m_Recepients.clear(); m_DispatcherLogSink = DL_SINK_NULL; } void DispatchLog::Write(int level, int opcode, const char * msg, va_list argptr) { int sinkTable[] = { DL_SINK_PRINTF, DL_SINK_IMsgHandler, }; for (size_t i = 0; i < sizeof(sinkTable) / sizeof(sinkTable[0]); i++) { switch(m_DispatcherLogSink & sinkTable[i]) { case DL_SINK_NULL: break; case DL_SINK_PRINTF: { char msg_formated[8048] = {0}; if (NULL != msg && level != DL_LOADED_LIBRARY) { #if _MSC_VER >= 1400 vsprintf_s(msg_formated, sizeof(msg_formated)/sizeof(msg_formated[0]), msg, argptr); #else vsnprintf(msg_formated, sizeof(msg_formated)/sizeof(msg_formated[0]), msg, argptr); #endif //TODO: improve this , add opcode handling printf("%s %s", CODE_TO_STRING(level, LevelStrings), msg_formated); } break; } case DL_SINK_IMsgHandler: { std::list::iterator it; for (it = m_Recepients.begin(); it != m_Recepients.end(); ++it) { (*it)->Write(level, opcode, msg, argptr); } break; } } } } #if defined(DISPATCHER_LOG_REGISTER_EVENT_PROVIDER) class ETWHandler : public IMsgHandler { public: ETWHandler(const wchar_t * guid_str) : m_bUseFormatter(DISPATCHER_LOG_USE_FORMATING) , m_EventHandle() , m_bProviderEnable() { GUID rguid = GUID_NULL; if (FAILED(CLSIDFromString(guid_str, &rguid))) { return; } EventRegister(&rguid, NULL, NULL, &m_EventHandle); m_bProviderEnable = 0 != EventProviderEnabled(m_EventHandle, 1,0); } ~ETWHandler() { if (m_EventHandle) { EventUnregister(m_EventHandle); } } virtual void Write(int level, int opcode, const char * msg, va_list argptr) { //event not registered if (0==m_EventHandle) { return; } if (!m_bProviderEnable) { return; } if (level == DL_LOADED_LIBRARY) { return; } char msg_formated[1024]; EVENT_DESCRIPTOR descriptor; EVENT_DATA_DESCRIPTOR data_descriptor; EventDescZero(&descriptor); descriptor.Opcode = (UCHAR)opcode; descriptor.Level = (UCHAR)level; if (m_bUseFormatter) { if (NULL != msg) { #if _MSC_VER >= 1400 vsprintf_s(msg_formated, sizeof (msg_formated) / sizeof (msg_formated[0]), msg, argptr); #else vsnprintf(msg_formated, sizeof (msg_formated) / sizeof (msg_formated[0]), msg, argptr); #endif EventDataDescCreate(&data_descriptor, msg_formated, (ULONG)(strlen(msg_formated) + 1)); }else { EventDataDescCreate(&data_descriptor, NULL, 0); } }else { //TODO: non formated events supports under zbb } EventWrite(m_EventHandle, &descriptor, 1, &data_descriptor); } protected: //we may not use formatter in some cases described in dispatch_log macro //it significantly increases performance by eliminating any vsprintf operations bool m_bUseFormatter; //consumer is attached, dispatcher trace to reduce formating overhead //submits event only if consumer attached bool m_bProviderEnable; REGHANDLE m_EventHandle; }; // IMsgHandler *ETWHandlerFactory::GetSink(const wchar_t* sguid) { _storage_type::iterator it; it = m_storage.find(sguid); if (it == m_storage.end()) { ETWHandler * handler = new ETWHandler(sguid); _storage_type::_Pairib it_bool = m_storage.insert(_storage_type::value_type(sguid, handler)); it = it_bool.first; } return it->second; } ETWHandlerFactory::~ETWHandlerFactory() { for each(_storage_type::value_type val in m_storage) { delete val.second; } } class EventRegistrator : public IMsgHandler { const wchar_t * m_sguid; public: EventRegistrator(const wchar_t* sguid = DISPATCHER_LOG_EVENT_GUID) :m_sguid(sguid) { DispatchLog::get().AttachSink( DL_SINK_IMsgHandler , this); } virtual void Write(int level, int opcode, const char * msg, va_list argptr) { //we cannot call attach sink since we may have been called from iteration //we axchanging preserve that placeholding IMsgHandler * pSink = NULL; DispatchLog::get().ExchangeSink(DL_SINK_IMsgHandler, this, pSink = ETWHandlerFactory::get().GetSink(m_sguid)); //need to call only once here all next calls will be done inside dispatcherlog if (NULL != pSink) { pSink->Write(level, opcode, msg, argptr); } } }; #endif template class SinkRegistrator { }; #if defined(DISPATCHER_LOG_REGISTER_EVENT_PROVIDER) template <> class SinkRegistrator { public: SinkRegistrator(const wchar_t* sguid = DISPATCHER_LOG_EVENT_GUID) { DispatchLog::get().AttachSink( DL_SINK_IMsgHandler , ETWHandlerFactory::get().GetSink(sguid)); } }; #endif #if defined(DISPATCHER_LOG_REGISTER_FILE_WRITER) template <> class SinkRegistrator { public: SinkRegistrator() { DispatchLog::get().AttachSink( DL_SINK_IMsgHandler, &FileSink::get(DISPACTHER_LOG_FW_PATH)); } }; void FileSink::Write(int level, int /*opcode*/, const char * msg, va_list argptr) { if (NULL != m_hdl && NULL != msg) { fprintf(m_hdl, "%s", CODE_TO_STRING(level, LevelStrings)); vfprintf(m_hdl, msg, argptr); } } #endif ////////////////////////////////////////////////////////////////////////// //singletons initialization section #ifdef DISPATCHER_LOG_REGISTER_EVENT_PROVIDER static SinkRegistrator g_registrator1; #endif #ifdef DISPATCHER_LOG_REGISTER_FILE_WRITER static SinkRegistrator g_registrator2; #endif #endif//(MFX_DISPATCHER_LOG)