/*---------------------------------------------------------------------------* * plog.c * * * * Copyright 2007, 2008 Nuance Communciations, Inc. * * * * Licensed under the Apache License, Version 2.0 (the 'License'); * * you may not use this file except in compliance with the License. * * * * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * * * Unless required by applicable law or agreed to in writing, software * * distributed under the License is distributed on an 'AS IS' BASIS, * * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * * See the License for the specific language governing permissions and * * limitations under the License. * * * *---------------------------------------------------------------------------*/ #include #include #include "PFileSystem.h" #include "ptypes.h" #include "plog.h" #include "pmemory.h" #include "pstdio.h" #include "ptimestamp.h" #include "passert.h" #ifdef USE_STACKTRACE #include "PStackTrace.h" #endif #ifdef USE_THREAD #include "ptrd.h" #include "pmutex.h" #endif #if defined (ANDROID) #if defined (HAVE_ANDROID_OS) #define LOG_TAG "Srec" #include #endif #endif #include "phashtable.h" #define MTAG __FILE__ #define FILTER_MSG_1 "ESR_BUFFER_OVERFLOW" #define FILTER_MSG_1_SIZE ( sizeof ( FILTER_MSG_1 ) - 1 ) #define FILTER_MSG_2 "ESR_NO_MATCH_ERROR" #define FILTER_MSG_2_SIZE ( sizeof ( FILTER_MSG_2 ) - 1 ) static unsigned int GlogLevel = 0; static PLogger *Glogger = NULL; static LOG_OUTPUT_FORMAT GlogFormat = LOG_OUTPUT_FORMAT_MODULE_NAME | LOG_OUTPUT_FORMAT_DATE_TIME; /** * Used to detect endless recursion where the PLog module calls itself. */ static ESR_BOOL locked = ESR_FALSE; #ifdef USE_THREAD static PtrdMutex* Gmutex = NULL; #endif typedef struct FileLogger_t { PLogger base; PFile* fp; } FileLogger; /** * Prints and formats a message to the log. * * @param self the PLogger. * * @param format the format string specifying the next arguments (a la * printf). * * @param args variable argument list. * * @return The number of bytes written to the PLogger or -1 if an error * occurs. */ static ESR_ReturnCode FileLoggerPrintf(PLogger *self, const LCHAR *format, ...) { FileLogger *p = STATIC_CAST(self, FileLogger, base); ESR_ReturnCode rc; va_list args; va_start(args, format); rc = pvfprintf(p->fp, format, args); va_end(args); return rc; } static ESR_ReturnCode FileLoggerFlush(PLogger *self) { FileLogger *p = STATIC_CAST(self, FileLogger, base); return pfflush(p->fp) == 0 ? ESR_SUCCESS : ESR_FATAL_ERROR; } /** * Destroys the logger. This function is responsible to deallocate any * resources used by the logger. In particular, if buffering is internally * used, it needs to flush the buffer. */ static void FileLoggerDestroy(PLogger *self) { FileLogger *p = STATIC_CAST(self, FileLogger, base); pfflush(p->fp); if (p->fp != PSTDERR && p->fp != PSTDOUT) pfclose(p->fp); FREE(p); } static ESR_ReturnCode createPFileLogger(PFile* fp, PLogger** logger) { FileLogger* fileLogger; if (fp == NULL) return ESR_INVALID_ARGUMENT; fileLogger = NEW(FileLogger, MTAG); if (fileLogger == NULL) return ESR_OUT_OF_MEMORY; fileLogger->base.printf = FileLoggerPrintf; fileLogger->base.flush = FileLoggerFlush; fileLogger->base.destroy = FileLoggerDestroy; fileLogger->fp = fp; *logger = &fileLogger->base; return ESR_SUCCESS; } /** * Initializes the LOG library. This function must be called before any * logging can take place. * * @param logger The logger to be used to output the messages. If NULL, then * logging goes to PSTDERR. @param logLevel The level of logging requested. * * @return ESR_SUCCESS if success, anything else if an error occurs. * */ ESR_ReturnCode PLogInit(PLogger *logger, unsigned int logLevel) { ESR_ReturnCode rc = ESR_SUCCESS; if (Glogger != NULL) return ESR_INVALID_STATE; GlogLevel = logLevel; #ifdef USE_THREAD if ((rc = PtrdMutexCreate(&Gmutex)) != ESR_SUCCESS) return rc; #endif if (logger != NULL) Glogger = logger; else { rc = createPFileLogger(PSTDERR, &Glogger); if (rc != ESR_SUCCESS) goto CLEANUP; } return rc; CLEANUP: #ifdef USE_THREAD if (Gmutex != NULL) { PtrdMutexDestroy(Gmutex); Gmutex = NULL; } #endif return rc; } ESR_ReturnCode PLogIsInitialized(ESR_BOOL* isInit) { if (isInit == NULL) return ESR_INVALID_STATE; *isInit = Glogger != NULL; return ESR_SUCCESS; } ESR_ReturnCode PLogIsLocked(ESR_BOOL* isLocked) { if (isLocked == NULL) return ESR_INVALID_STATE; *isLocked = locked; return ESR_SUCCESS; } /** * Shutdowns the LOG library. Once this function is called, no logging activity can be performed. * Also, the logger that was given to pLogInit is destroyed. * * @return ESR_SUCCESS if success, anything else if an error occurs. * */ ESR_ReturnCode PLogShutdown() { ESR_ReturnCode rc = ESR_SUCCESS; if (Glogger == NULL) return ESR_INVALID_STATE; #ifdef USE_THREAD if ((rc = PtrdMutexDestroy(Gmutex)) != ESR_SUCCESS) return rc; Gmutex = NULL; #endif if (Glogger->flush != NULL) Glogger->flush(Glogger); Glogger->destroy(Glogger); Glogger = NULL; return rc; } ESR_ReturnCode PLogGetLevel(unsigned int *logLevel) { if (Glogger == NULL) return ESR_INVALID_STATE; if (logLevel == NULL) return ESR_INVALID_ARGUMENT; *logLevel = GlogLevel; return ESR_SUCCESS; } ESR_ReturnCode PLogSetLevel(unsigned int logLevel) { if (Glogger == NULL) return ESR_INVALID_STATE; GlogLevel = logLevel; return ESR_SUCCESS; } #define TIME_BUF_SIZE 24 #define TIME_FORMAT L("%Y/%m/%d %H:%M:%S") #define PLOG_PANIC(x, rc) \ do \ { \ { \ pfprintf(PSTDERR, L("[%s:%d] %s failed with %s\n"), __FILE__, __LINE__, x, ESR_rc2str(rc)); \ pfflush(PSTDERR); \ } \ } while (0) static ESR_ReturnCode logIt(const LCHAR *format, va_list args, ESR_BOOL showStackTrace) { ESR_ReturnCode rc = ESR_SUCCESS; ESR_ReturnCode flushRC = ESR_SUCCESS; #ifdef USE_STACKTRACE #define BUFFER_SIZE P_MAX_STACKTRACE + 2000 #else #define BUFFER_SIZE 2000 #endif LCHAR buffer[BUFFER_SIZE] = L(""); // TODO: Remove once logging subsystem supports "warn" level if (strstr(format, "ESR_BUFFER_OVERFLOW")==format) return ESR_SUCCESS; #ifdef USE_STACKTRACE if (Glogger == NULL) { /* * There are three possible scenerios for why logging would occur although the PLog module * is uninitialized: * * 1) The code fails before PLog is initialized (perhaps in other portable components) * 2) The user forgets to initialize the PLog module * 3) The code fails after PLog is uninitialized (on shutdown) * * We do our best by logging any errors but this might result in the memory leak of * the PStackTrace module in case 3. */ rc = PStackTraceCreate(); if (rc != ESR_SUCCESS) { PLOG_PANIC(L("PStackTraceCreate"), rc); goto CLEANUP; } } else { #ifdef USE_THREAD rc = PtrdMutexLock(Gmutex); if (rc != ESR_SUCCESS) return rc; #endif } if (locked) return ESR_INVALID_STATE; locked = ESR_TRUE; if (GlogFormat & LOG_OUTPUT_FORMAT_DATE_TIME) { PTimeStamp now; struct tm* loctime; LCHAR timeStr[TIME_BUF_SIZE]; size_t timeStrSize; PTimeStampSet(&now); loctime = localtime(&now.secs); timeStrSize = LSTRFTIME(timeStr, TIME_BUF_SIZE, TIME_FORMAT, loctime); passert(timeStrSize == (TIME_BUF_SIZE - 5)); psprintf(timeStr + (TIME_BUF_SIZE - 5), ".%03hu", now.msecs); psprintf(buffer + LSTRLEN(buffer), L("%s|"), timeStr); passert(LSTRLEN(buffer) < BUFFER_SIZE); } if (GlogFormat & LOG_OUTPUT_FORMAT_THREAD_ID) { rc = psprintf(buffer + LSTRLEN(buffer), L("trd=%u|"), PtrdGetCurrentThreadId()); passert(LSTRLEN(buffer) < BUFFER_SIZE); } if (GlogFormat & LOG_OUTPUT_FORMAT_MODULE_NAME && showStackTrace) { size_t len = P_MAX_STACKTRACE; LCHAR text[P_MAX_STACKTRACE]; LCHAR* index; size_t i; rc = PStackTraceGetValue((LCHAR*) & text, &len); if (rc == ESR_SUCCESS) { for (i = 0; i < 2; ++i) { rc = PStackTracePopLevel((LCHAR*) & text); if (rc != ESR_SUCCESS) { PLOG_PANIC(L("PStackTracePopLevel"), rc); goto CLEANUP; } } index = text; while (index) { index = LSTRSTR(index, L(" at\n")); if (index != NULL) { *(index + 1) = L('<'); *(index + 2) = L('-'); *(index + 3) = L(' '); } } } else if (rc == ESR_NOT_SUPPORTED) LSTRCPY(text, L("")); else if (rc != ESR_SUCCESS) { PLOG_PANIC(L("PStackTraceGetValue"), rc); goto CLEANUP; } rc = psprintf(buffer + LSTRLEN(buffer), L("Module=%s|"), text); passert(LSTRLEN(buffer) < BUFFER_SIZE); } pvsprintf(buffer + LSTRLEN(buffer), format, args); #else pvsprintf(buffer + LSTRLEN(buffer), format, args); #endif passert(LSTRLEN(buffer) < BUFFER_SIZE); psprintf(buffer + LSTRLEN(buffer), L("\n")); passert(LSTRLEN(buffer) < BUFFER_SIZE); if (Glogger != NULL) { rc = Glogger->printf(Glogger, L("%s"), buffer); if (rc != ESR_SUCCESS) goto CLEANUP; flushRC = Glogger->flush(Glogger); } else { /* We need to log but the logging module is disabled or is locked so we output to stderr instead */ { pfprintf(PSTDERR, L("%s"), buffer); pfflush(PSTDERR); } } locked = ESR_FALSE; #ifdef USE_THREAD PtrdMutexUnlock(Gmutex); #endif return flushRC; CLEANUP: if (Glogger != NULL && Glogger->flush != NULL) flushRC = Glogger->flush(Glogger); locked = ESR_FALSE; #ifdef USE_THREAD PtrdMutexUnlock(Gmutex); #endif return rc != ESR_SUCCESS ? rc : flushRC; } /** * Conditionally PLogs a message. The message is logged only if module is enabled. * * @param msg The message format specification (ala printf). * @return ESR_SUCCESS if success, anything else if an error occurs. */ ESR_ReturnCode PLogMessage(const char* msg, ...) { va_list args; ESR_ReturnCode rc; #if USE_STACKTRACE size_t depth; #endif #if defined (ANDROID) #if defined (HAVE_ANDROID_OS) return ( ESR_SUCCESS );/* Get rid of this for phone device */ #endif #endif if (Glogger == NULL) return ESR_INVALID_STATE; #ifdef USE_STACKTRACE return ESR_SUCCESS; rc = PStackTraceGetDepth(&depth); if (rc == ESR_NOT_SUPPORTED) { /* Debugging symbols are missing */ return ESR_SUCCESS; } else if (rc != ESR_SUCCESS) { pfprintf(PSTDERR, L("PStackTraceGetDepth"), ESR_rc2str(rc)); goto CLEANUP; } /* Remove PLogMessage() from depth */ --depth; if (GlogLevel < depth) return ESR_SUCCESS; #endif va_start(args, msg); rc = logIt(msg, args, ESR_FALSE); va_end(args); return rc; #if USE_STACKTRACE CLEANUP: return rc; #endif } /** * Unconditionally logs an error message. * * @param msg The message format specification (ala printf). * @return ESR_SUCCESS if success, anything else if an error occurs. */ ESR_ReturnCode PLogError(const char* msg, ...) { va_list args; ESR_ReturnCode rc; #if defined (ANDROID) #if defined (HAVE_ANDROID_OS) char log_text [2048]; #endif #endif va_start(args, msg); #if defined (ANDROID) #if defined (HAVE_ANDROID_OS) pvsprintf ( log_text, msg, args); /* We need to disable some error messages because they are frequently not * errors but due to sloppy use of some functions. This prevents us from * getting flooded with bad error messages. SteveR */ if ( ( strncmp ( log_text, FILTER_MSG_1, FILTER_MSG_1_SIZE ) != 0 ) && ( strncmp ( log_text, FILTER_MSG_2, FILTER_MSG_2_SIZE ) != 0 ) ) { LOGE ( log_text ); } rc = 0; #else rc = logIt(msg, args, ESR_TRUE); #endif #else rc = logIt(msg, args, ESR_TRUE); #endif va_end(args); return rc; } ESR_ReturnCode PLogCreateFileLogger(PFile* file, PLogger **logger) { if (logger == NULL || file == NULL) return ESR_INVALID_ARGUMENT; return createPFileLogger(file, logger); } /** * Creates a logger that logs to a circular file. * * @param filename The name of the file to be created. * @param maxsize The maximum number of bytes that the file may have. * @param logger logger handle receiving the created logger. */ ESR_ReturnCode PLogCreateCircularFileLogger(const LCHAR *filename, unsigned int maxsize, PLogger **logger) { return ESR_NOT_SUPPORTED; } ESR_ReturnCode PLogSetFormat(LOG_OUTPUT_FORMAT format) { GlogFormat = format; return ESR_SUCCESS; }