/** * WinPR: Windows Portable Runtime * WinPR Logger * * Copyright 2013 Marc-Andre Moreau * * 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. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #if defined(ANDROID) #include #endif #include #include "wlog/wlog.h" #include "../../log.h" /** * References for general logging concepts: * * Short introduction to log4j: * http://logging.apache.org/log4j/1.2/manual.html * * logging - Logging facility for Python: * http://docs.python.org/2/library/logging.html */ const char* WLOG_LEVELS[7] = { "TRACE", "DEBUG", "INFO", "WARN", "ERROR", "FATAL", "OFF" }; static DWORD g_FilterCount = 0; static wLogFilter* g_Filters = NULL; static void log_recursion(const char* file, const char* fkt, int line) { size_t used, i; void* bt = winpr_backtrace(20); char** msg = winpr_backtrace_symbols(bt, &used); #if defined(ANDROID) const char* tag = WINPR_TAG("utils.wlog"); __android_log_print(ANDROID_LOG_FATAL, tag, "Recursion detected!!!"); __android_log_print(ANDROID_LOG_FATAL, tag, "Check %s [%s:%d]", fkt, file, line); for (i=0; iState) WLog_OpenAppender(log); if (!appender->WriteMessage) return -1; EnterCriticalSection(&appender->lock); if (appender->recursive) log_recursion(message->FileName, message->FunctionName, message->LineNumber); else { appender->recursive = TRUE; status = appender->WriteMessage(log, appender, message); appender->recursive = FALSE; } LeaveCriticalSection(&appender->lock); return status; } int WLog_WriteData(wLog* log, wLogMessage* message) { int status = -1; wLogAppender* appender; appender = WLog_GetLogAppender(log); if (!appender) return -1; if (!appender->State) WLog_OpenAppender(log); if (!appender->WriteDataMessage) return -1; EnterCriticalSection(&appender->lock); if (appender->recursive) log_recursion(message->FileName, message->FunctionName, message->LineNumber); else { appender->recursive = TRUE; status = appender->WriteDataMessage(log, appender, message); appender->recursive = FALSE; } LeaveCriticalSection(&appender->lock); return status; } int WLog_WriteImage(wLog* log, wLogMessage* message) { int status = -1; wLogAppender* appender; appender = WLog_GetLogAppender(log); if (!appender) return -1; if (!appender->State) WLog_OpenAppender(log); if (!appender->WriteImageMessage) return -1; EnterCriticalSection(&appender->lock); if (appender->recursive) log_recursion(message->FileName, message->FunctionName, message->LineNumber); else { appender->recursive = TRUE; status = appender->WriteImageMessage(log, appender, message); appender->recursive = FALSE; } LeaveCriticalSection(&appender->lock); return status; } int WLog_WritePacket(wLog* log, wLogMessage* message) { int status = -1; wLogAppender* appender; appender = WLog_GetLogAppender(log); if (!appender) return -1; if (!appender->State) WLog_OpenAppender(log); if (!appender->WritePacketMessage) return -1; EnterCriticalSection(&appender->lock); if (appender->recursive) log_recursion(message->FileName, message->FunctionName, message->LineNumber); else { appender->recursive = TRUE; status = appender->WritePacketMessage(log, appender, message); appender->recursive = FALSE; } LeaveCriticalSection(&appender->lock); return status; } int WLog_PrintMessageVA(wLog* log, wLogMessage* message, va_list args) { int status = -1; if (message->Type == WLOG_MESSAGE_TEXT) { if (!strchr(message->FormatString, '%')) { message->TextString = (LPSTR) message->FormatString; status = WLog_Write(log, message); } else { char formattedLogMessage[WLOG_MAX_STRING_SIZE]; wvsnprintfx(formattedLogMessage, WLOG_MAX_STRING_SIZE - 1, message->FormatString, args); message->TextString = formattedLogMessage; status = WLog_Write(log, message); } } else if (message->Type == WLOG_MESSAGE_DATA) { message->Data = va_arg(args, void*); message->Length = va_arg(args, int); status = WLog_WriteData(log, message); } else if (message->Type == WLOG_MESSAGE_IMAGE) { message->ImageData = va_arg(args, void*); message->ImageWidth = va_arg(args, int); message->ImageHeight = va_arg(args, int); message->ImageBpp = va_arg(args, int); status = WLog_WriteImage(log, message); } else if (message->Type == WLOG_MESSAGE_PACKET) { message->PacketData = va_arg(args, void*); message->PacketLength = va_arg(args, int); message->PacketFlags = va_arg(args, int); status = WLog_WritePacket(log, message); } return status; } void WLog_PrintMessage(wLog* log, wLogMessage* message, ...) { int status; va_list args; va_start(args, message); status = WLog_PrintMessageVA(log, message, args); va_end(args); } DWORD WLog_GetLogLevel(wLog* log) { if (log->Level == WLOG_LEVEL_INHERIT) { return WLog_GetLogLevel(log->Parent); } else { return log->Level; } } void WLog_SetLogLevel(wLog* log, DWORD logLevel) { if ((logLevel > WLOG_OFF) && (logLevel != WLOG_LEVEL_INHERIT)) { logLevel = WLOG_OFF; } log->Level = logLevel; } int WLog_ParseLogLevel(const char* level) { int iLevel = -1; if (!level) return -1; if (_stricmp(level, "TRACE") == 0) iLevel = WLOG_TRACE; else if (_stricmp(level, "DEBUG") == 0) iLevel = WLOG_DEBUG; else if (_stricmp(level, "INFO") == 0) iLevel = WLOG_INFO; else if (_stricmp(level, "WARN") == 0) iLevel = WLOG_WARN; else if (_stricmp(level, "ERROR") == 0) iLevel = WLOG_ERROR; else if (_stricmp(level, "FATAL") == 0) iLevel = WLOG_FATAL; else if (_stricmp(level, "OFF") == 0) iLevel = WLOG_OFF; return iLevel; } int WLog_ParseFilter(wLogFilter* filter, LPCSTR name) { char* p; char* q; int count; LPSTR names; int iLevel; count = 1; p = (char*) name; while ((p = strchr(p, '.')) != NULL) { count++; p++; } names = _strdup(name); filter->NameCount = count; filter->Names = (LPSTR*) malloc(sizeof(LPSTR) * (count + 1)); filter->Names[count] = NULL; count = 0; p = (char*) names; filter->Names[count++] = p; q = strrchr(p, ':'); if (!q) return -1; *q = '\0'; q++; iLevel = WLog_ParseLogLevel(q); if (iLevel < 0) return -1; filter->Level = (DWORD) iLevel; while ((p = strchr(p, '.')) != NULL) { filter->Names[count++] = p + 1; *p = '\0'; p++; } return 0; } int WLog_ParseFilters() { char* p; char* env; DWORD count; DWORD nSize; int status; char** strs; nSize = GetEnvironmentVariableA("WLOG_FILTER", NULL, 0); if (nSize < 1) return 0; env = (LPSTR) malloc(nSize); if (!env) return -1; nSize = GetEnvironmentVariableA("WLOG_FILTER", env, nSize); count = 1; p = env; while ((p = strchr(p, ',')) != NULL) { count++; p++; } g_FilterCount = count; p = env; count = 0; strs = (char**) calloc(g_FilterCount, sizeof(char*)); strs[count++] = p; while ((p = strchr(p, ',')) != NULL) { strs[count++] = p + 1; *p = '\0'; p++; } g_Filters = calloc(g_FilterCount, sizeof(wLogFilter)); if (!g_Filters) { free(strs); return -1; } for (count = 0; count < g_FilterCount; count++) { status = WLog_ParseFilter(&g_Filters[count], strs[count]); if (status < 0) { free(strs); return -1; } } free(strs); return 0; } int WLog_GetFilterLogLevel(wLog* log) { DWORD i, j; int iLevel = -1; BOOL match = FALSE; for (i = 0; i < g_FilterCount; i++) { for (j = 0; j < g_Filters[i].NameCount; j++) { if (j >= log->NameCount) break; if (_stricmp(g_Filters[i].Names[j], "*") == 0) { match = TRUE; break; } if (_stricmp(g_Filters[i].Names[j], log->Names[j]) != 0) break; if (j == (log->NameCount - 1)) { match = TRUE; break; } } if (match) break; } if (match) { iLevel = (int) g_Filters[i].Level; } return iLevel; } int WLog_ParseName(wLog* log, LPCSTR name) { char* p; int count; LPSTR names; count = 1; p = (char*) name; while ((p = strchr(p, '.')) != NULL) { count++; p++; } names = _strdup(name); log->NameCount = count; log->Names = (LPSTR*) malloc(sizeof(LPSTR) * (count + 1)); log->Names[count] = NULL; count = 0; p = (char*) names; log->Names[count++] = p; while ((p = strchr(p, '.')) != NULL) { log->Names[count++] = p + 1; *p = '\0'; p++; } return 0; } wLog* WLog_New(LPCSTR name, wLog* rootLogger) { wLog* log; char* env; DWORD nSize; int iLevel; log = (wLog*) calloc(1, sizeof(wLog)); if (log) { log->Name = _strdup(name); if (!log->Name) return NULL; WLog_ParseName(log, name); log->Parent = rootLogger; log->ChildrenCount = 0; log->ChildrenSize = 16; log->Children = (wLog**) calloc(log->ChildrenSize, sizeof(wLog*)); if (!log->Children) return NULL; log->Appender = NULL; if (rootLogger) { log->Level = WLOG_LEVEL_INHERIT; } else { log->Level = WLOG_INFO; nSize = GetEnvironmentVariableA("WLOG_LEVEL", NULL, 0); if (nSize) { env = (LPSTR) malloc(nSize); nSize = GetEnvironmentVariableA("WLOG_LEVEL", env, nSize); iLevel = WLog_ParseLogLevel(env); if (iLevel >= 0) log->Level = (DWORD) iLevel; free(env); } } iLevel = WLog_GetFilterLogLevel(log); if (iLevel >= 0) log->Level = (DWORD) iLevel; } return log; } void WLog_Free(wLog* log) { if (log) { if (log->Appender) { WLog_Appender_Free(log, log->Appender); log->Appender = NULL; } free(log->Name); free(log->Names[0]); free(log->Names); free(log->Children); free(log); } } static wLog* g_RootLog = NULL; wLog* WLog_GetRoot() { char* env; DWORD nSize; DWORD logAppenderType; if (!g_RootLog) { g_RootLog = WLog_New("", NULL); g_RootLog->IsRoot = TRUE; WLog_ParseFilters(); logAppenderType = WLOG_APPENDER_CONSOLE; nSize = GetEnvironmentVariableA("WLOG_APPENDER", NULL, 0); if (nSize) { env = (LPSTR) malloc(nSize); nSize = GetEnvironmentVariableA("WLOG_APPENDER", env, nSize); if (env) { if (_stricmp(env, "CONSOLE") == 0) logAppenderType = WLOG_APPENDER_CONSOLE; else if (_stricmp(env, "FILE") == 0) logAppenderType = WLOG_APPENDER_FILE; else if (_stricmp(env, "BINARY") == 0) logAppenderType = WLOG_APPENDER_BINARY; free(env); } } WLog_SetLogAppenderType(g_RootLog, logAppenderType); } return g_RootLog; } int WLog_AddChild(wLog* parent, wLog* child) { if (parent->ChildrenCount >= parent->ChildrenSize) { wLog **tmp; parent->ChildrenSize *= 2; if (!parent->ChildrenSize) { if (parent->Children) free (parent->Children); parent->Children = NULL; } else { tmp = (wLog**) realloc(parent->Children, sizeof(wLog*) * parent->ChildrenSize); if (!tmp) { if (parent->Children) free (parent->Children); parent->Children = NULL; return -1; } parent->Children = tmp } } parent->Children[parent->ChildrenCount++] = child; child->Parent = parent; return 0; } wLog* WLog_FindChild(LPCSTR name) { DWORD index; wLog* root; wLog* child = NULL; BOOL found = FALSE; root = WLog_GetRoot(); for (index = 0; index < root->ChildrenCount; index++) { child = root->Children[index]; if (strcmp(child->Name, name) == 0) { found = TRUE; break; } } return (found) ? child : NULL; } wLog* WLog_Get(LPCSTR name) { wLog* log; wLog* root; root = WLog_GetRoot(); log = WLog_FindChild(name); if (!log) { log = WLog_New(name,root); WLog_AddChild(root, log); } return log; } void WLog_Init() { WLog_GetRoot(); } void WLog_Uninit() { wLog* root = WLog_GetRoot(); DWORD index; wLog* child = NULL; for (index = 0; index < root->ChildrenCount; index++) { child = root->Children[index]; WLog_Free(child); } WLog_Free(root); g_RootLog = NULL; }