/** * @file llerror.cpp * @date December 2006 * @brief error message system * * $LicenseInfo:firstyear=2006&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, Linden Research, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #include "linden_common.h" #include "llerror.h" #include "llerrorcontrol.h" #include #ifdef __GNUC__ # include #endif // __GNUC__ #include #if !LL_WINDOWS # include # include #endif // !LL_WINDOWS #include #include "llapp.h" #include "llapr.h" #include "llfile.h" #include "lllivefile.h" #include "llsd.h" #include "llsdserialize.h" #include "llsingleton.h" #include "llstl.h" #include "lltimer.h" namespace { #if LL_WINDOWS void debugger_print(const std::string& s) { // Be careful when calling OutputDebugString as it throws DBG_PRINTEXCEPTION_C // which works just fine under the windows debugger, but can cause users who // have enabled SEHOP exception chain validation to crash due to interactions // between the Win 32-bit exception handling and boost coroutine fiber stacks. BUG-2707 // if (IsDebuggerPresent()) { // Need UTF16 for Unicode OutputDebugString // if (s.size()) { OutputDebugString(utf8str_to_utf16str(s).c_str()); OutputDebugString(TEXT("\n")); } } } #else class RecordToSyslog : public LLError::Recorder { public: RecordToSyslog(const std::string& identity) : mIdentity(identity) { openlog(mIdentity.c_str(), LOG_CONS|LOG_PID, LOG_LOCAL0); // we need to set the string from a local copy of the string // since apparanetly openlog expects the const char* to remain // valid even after it returns (presumably until closelog) } ~RecordToSyslog() { closelog(); } virtual void recordMessage(LLError::ELevel level, const std::string& message) { int syslogPriority = LOG_CRIT; switch (level) { case LLError::LEVEL_DEBUG: syslogPriority = LOG_DEBUG; break; case LLError::LEVEL_INFO: syslogPriority = LOG_INFO; break; case LLError::LEVEL_WARN: syslogPriority = LOG_WARNING; break; case LLError::LEVEL_ERROR: syslogPriority = LOG_CRIT; break; default: syslogPriority = LOG_CRIT; } syslog(syslogPriority, "%s", message.c_str()); } private: std::string mIdentity; }; #endif class RecordToFile : public LLError::Recorder { public: RecordToFile(const std::string& filename) { mFile.open(filename, llofstream::out | llofstream::app); if (!mFile) { LL_INFOS() << "Error setting log file to " << filename << LL_ENDL; } mWantsTime = true; } ~RecordToFile() { mFile.close(); } bool okay() { return mFile.good(); } virtual void recordMessage(LLError::ELevel level, const std::string& message) { mFile << message << std::endl; } private: llofstream mFile; }; class RecordToStderr : public LLError::Recorder { public: RecordToStderr(bool timestamp) : mUseANSI(ANSI_PROBE) { mWantsTime = timestamp; } virtual void recordMessage(LLError::ELevel level, const std::string& message) { if (ANSI_PROBE == mUseANSI) mUseANSI = (checkANSI() ? ANSI_YES : ANSI_NO); if (ANSI_YES == mUseANSI) { // Default all message levels to bold so we can distinguish our own messages from those dumped by subprocesses and libraries. colorANSI("1"); // bold switch (level) { case LLError::LEVEL_ERROR: colorANSI("31"); // red break; case LLError::LEVEL_WARN: colorANSI("34"); // blue break; case LLError::LEVEL_DEBUG: colorANSI("35"); // magenta break; default: break; } } fprintf(stderr, "%s\n", message.c_str()); if (ANSI_YES == mUseANSI) colorANSI("0"); // reset } private: enum ANSIState { ANSI_PROBE, ANSI_YES, ANSI_NO } mUseANSI; void colorANSI(const std::string color) { // ANSI color code escape sequence fprintf(stderr, "\033[%sm", color.c_str() ); }; bool checkANSI(void) { #if LL_LINUX || LL_DARWIN // Check whether it's okay to use ANSI; if stderr is // a tty then we assume yes. Can be turned off with // the LL_NO_ANSI_COLOR env var. return (0 != isatty(2)) && (NULL == getenv("LL_NO_ANSI_COLOR")); #endif // LL_LINUX return false; }; }; class RecordToFixedBuffer : public LLError::Recorder { public: RecordToFixedBuffer(LLLineBuffer* buffer) : mBuffer(buffer) { } virtual void recordMessage(LLError::ELevel level, const std::string& message) { mBuffer->addLine(message); } private: LLLineBuffer* mBuffer; }; #if LL_WINDOWS class RecordToWinDebug: public LLError::Recorder { public: RecordToWinDebug() {} virtual void recordMessage(LLError::ELevel level, const std::string& message) { debugger_print(message); } }; #endif } namespace { std::string className(const std::type_info& type) { #ifdef __GNUC__ // GCC: type_info::name() returns a mangled class name,st demangle static size_t abi_name_len = 100; static char* abi_name_buf = (char*)malloc(abi_name_len); // warning: above is voodoo inferred from the GCC manual, // do NOT change int status; // We don't use status, and shouldn't have to pass apointer to it // but gcc 3.3 libstc++'s implementation of demangling is broken // and fails without. char* name = abi::__cxa_demangle(type.name(), abi_name_buf, &abi_name_len, &status); // this call can realloc the abi_name_buf pointer (!) return name ? name : type.name(); #elif LL_WINDOWS // DevStudio: type_info::name() includes the text "class " at the start static const std::string class_prefix = "class "; std::string name = type.name(); std::string::size_type p = name.find(class_prefix); if (p == std::string::npos) { return name; } return name.substr(p + class_prefix.size()); #else return type.name(); #endif } std::string functionName(const std::string& preprocessor_name) { #if LL_WINDOWS // DevStudio: the __FUNCTION__ macro string includes // the type and/or namespace prefixes std::string::size_type p = preprocessor_name.rfind(':'); if (p == std::string::npos) { return preprocessor_name; } return preprocessor_name.substr(p + 1); #else return preprocessor_name; #endif } class LogControlFile : public LLLiveFile { LOG_CLASS(LogControlFile); public: static LogControlFile& fromDirectory(const std::string& dir); virtual bool loadFile(); private: LogControlFile(const std::string &filename) : LLLiveFile(filename) { } }; LogControlFile& LogControlFile::fromDirectory(const std::string& dir) { std::string dirBase = dir + "/"; // NB: We have no abstraction in llcommon for the "proper" // delimiter but it turns out that "/" works on all three platforms std::string file = dirBase + "logcontrol-dev.xml"; llstat stat_info; if (LLFile::stat(file, &stat_info)) { // NB: stat returns non-zero if it can't read the file, for example // if it doesn't exist. LLFile has no better abstraction for // testing for file existence. file = dirBase + "logcontrol.xml"; } return * new LogControlFile(file); // NB: This instance is never freed } bool LogControlFile::loadFile() { LLSD configuration; { llifstream file(filename()); if (file.is_open()) { LLSDSerialize::fromXML(configuration, file); } if (configuration.isUndefined()) { LL_WARNS() << filename() << " missing, ill-formed," " or simply undefined; not changing configuration" << LL_ENDL; return false; } } LLError::configure(configuration); LL_INFOS() << "logging reconfigured from " << filename() << LL_ENDL; return true; } typedef std::map LevelMap; typedef std::vector Recorders; typedef std::vector CallSiteVector; class Globals : public LLSingleton { public: Globals(); std::ostringstream messageStream; bool messageStreamInUse; void addCallSite(LLError::CallSite&); void invalidateCallSites(); private: CallSiteVector callSites; }; Globals::Globals() : messageStream(), messageStreamInUse(false), callSites() { } void Globals::addCallSite(LLError::CallSite& site) { callSites.push_back(&site); } void Globals::invalidateCallSites() { for (CallSiteVector::const_iterator i = callSites.begin(); i != callSites.end(); ++i) { (*i)->invalidate(); } callSites.clear(); } } namespace LLError { class SettingsConfig : public LLRefCount { friend class Settings; public: virtual ~SettingsConfig(); bool mPrintLocation; LLError::ELevel mDefaultLevel; LevelMap mFunctionLevelMap; LevelMap mClassLevelMap; LevelMap mFileLevelMap; LevelMap mTagLevelMap; std::map mUniqueLogMessages; LLError::FatalFunction mCrashFunction; LLError::TimeFunction mTimeFunction; Recorders mRecorders; RecorderPtr mFileRecorder; RecorderPtr mFixedBufferRecorder; std::string mFileRecorderFileName; int mShouldLogCallCounter; private: SettingsConfig(); }; typedef LLPointer SettingsConfigPtr; class Settings : public LLSingleton { public: Settings(); SettingsConfigPtr getSettingsConfig(); void reset(); SettingsStoragePtr saveAndReset(); void restore(SettingsStoragePtr pSettingsStorage); private: SettingsConfigPtr mSettingsConfig; }; SettingsConfig::SettingsConfig() : LLRefCount(), mPrintLocation(false), mDefaultLevel(LLError::LEVEL_DEBUG), mFunctionLevelMap(), mClassLevelMap(), mFileLevelMap(), mTagLevelMap(), mUniqueLogMessages(), mCrashFunction(NULL), mTimeFunction(NULL), mRecorders(), mFileRecorder(), mFixedBufferRecorder(), mFileRecorderFileName(), mShouldLogCallCounter(0) { } SettingsConfig::~SettingsConfig() { mRecorders.clear(); } Settings::Settings() : LLSingleton(), mSettingsConfig(new SettingsConfig()) { } SettingsConfigPtr Settings::getSettingsConfig() { return mSettingsConfig; } void Settings::reset() { Globals::getInstance()->invalidateCallSites(); mSettingsConfig = new SettingsConfig(); } SettingsStoragePtr Settings::saveAndReset() { SettingsStoragePtr oldSettingsConfig(mSettingsConfig.get()); reset(); return oldSettingsConfig; } void Settings::restore(SettingsStoragePtr pSettingsStorage) { Globals::getInstance()->invalidateCallSites(); SettingsConfigPtr newSettingsConfig(dynamic_cast(pSettingsStorage.get())); mSettingsConfig = newSettingsConfig; } } namespace LLError { CallSite::CallSite(ELevel level, const char* file, int line, const std::type_info& class_info, const char* function, bool printOnce, const char** tags, size_t tag_count) : mLevel(level), mFile(file), mLine(line), mClassInfo(class_info), mFunction(function), mCached(false), mShouldLog(false), mPrintOnce(printOnce), mTags(new const char* [tag_count]), mTagCount(tag_count) { for (int i = 0; i < tag_count; i++) { mTags[i] = tags[i]; } switch (mLevel) { case LEVEL_DEBUG: mLevelString = "DEBUG:"; break; case LEVEL_INFO: mLevelString = "INFO:"; break; case LEVEL_WARN: mLevelString = "WARNING:"; break; case LEVEL_ERROR: mLevelString = "ERROR:"; break; default: mLevelString = "XXX:"; break; }; mLocationString = llformat("%s(%d) :", abbreviateFile(mFile).c_str(), mLine); #if LL_WINDOWS // DevStudio: __FUNCTION__ already includes the full class name #else #if LL_LINUX // gross, but typeid comparison seems to always fail here with gcc4.1 if (0 != strcmp(mClassInfo.name(), typeid(NoClassInfo).name())) #else if (mClassInfo != typeid(NoClassInfo)) #endif // LL_LINUX { mFunctionString = className(mClassInfo) + "::"; } #endif mFunctionString += std::string(mFunction) + ":"; for (size_t i = 0; i < mTagCount; i++) { mTagString += std::string("#") + mTags[i] + ((i == mTagCount - 1) ? "" : " "); } } CallSite::~CallSite() { delete []mTags; } void CallSite::invalidate() { mCached = false; } } namespace { bool shouldLogToStderr() { #if LL_DARWIN // On Mac OS X, stderr from apps launched from the Finder goes to the // console log. It's generally considered bad form to spam too much // there. // If stdin is a tty, assume the user launched from the command line and // therefore wants to see stderr. Otherwise, assume we've been launched // from the finder and shouldn't spam stderr. return isatty(0); #else return true; #endif } bool stderrLogWantsTime() { #if LL_WINDOWS return false; #else return true; #endif } void commonInit(const std::string& dir, bool log_to_stderr = true) { LLError::Settings::getInstance()->reset(); LLError::setDefaultLevel(LLError::LEVEL_INFO); LLError::setFatalFunction(LLError::crashAndLoop); LLError::setTimeFunction(LLError::utcTime); // log_to_stderr is only false in the unit and integration tests to keep builds quieter if (log_to_stderr && shouldLogToStderr()) { LLError::RecorderPtr recordToStdErr(new RecordToStderr(stderrLogWantsTime())); LLError::addRecorder(recordToStdErr); } #if LL_WINDOWS LLError::RecorderPtr recordToWinDebug(new RecordToWinDebug()); LLError::addRecorder(recordToWinDebug); #endif LogControlFile& e = LogControlFile::fromDirectory(dir); // NOTE: We want to explicitly load the file before we add it to the event timer // that checks for changes to the file. Else, we're not actually loading the file yet, // and most of the initialization happens without any attention being paid to the // log control file. Not to mention that when it finally gets checked later, // all log statements that have been evaluated already become dirty and need to be // evaluated for printing again. So, make sure to call checkAndReload() // before addToEventTimer(). e.checkAndReload(); e.addToEventTimer(); } } namespace LLError { void initForServer(const std::string& identity) { std::string dir = "/opt/linden/etc"; if (LLApp::instance()) { dir = LLApp::instance()->getOption("configdir").asString(); } commonInit(dir); #if !LL_WINDOWS LLError::RecorderPtr recordToSyslog(new RecordToSyslog(identity)); addRecorder(recordToSyslog); #endif } void initForApplication(const std::string& dir, bool log_to_stderr) { commonInit(dir, log_to_stderr); } void setPrintLocation(bool print) { SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mPrintLocation = print; } void setFatalFunction(const FatalFunction& f) { SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mCrashFunction = f; } FatalFunction getFatalFunction() { SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); return s->mCrashFunction; } void setTimeFunction(TimeFunction f) { SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mTimeFunction = f; } void setDefaultLevel(ELevel level) { Globals::getInstance()->invalidateCallSites(); SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mDefaultLevel = level; } ELevel getDefaultLevel() { SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); return s->mDefaultLevel; } void setFunctionLevel(const std::string& function_name, ELevel level) { Globals::getInstance()->invalidateCallSites(); SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mFunctionLevelMap[function_name] = level; } void setClassLevel(const std::string& class_name, ELevel level) { Globals::getInstance()->invalidateCallSites(); SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mClassLevelMap[class_name] = level; } void setFileLevel(const std::string& file_name, ELevel level) { Globals::getInstance()->invalidateCallSites(); SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mFileLevelMap[file_name] = level; } void setTagLevel(const std::string& tag_name, ELevel level) { Globals::getInstance()->invalidateCallSites(); SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mTagLevelMap[tag_name] = level; } LLError::ELevel decodeLevel(std::string name) { static LevelMap level_names; if (level_names.empty()) { level_names["ALL"] = LLError::LEVEL_ALL; level_names["DEBUG"] = LLError::LEVEL_DEBUG; level_names["INFO"] = LLError::LEVEL_INFO; level_names["WARN"] = LLError::LEVEL_WARN; level_names["ERROR"] = LLError::LEVEL_ERROR; level_names["NONE"] = LLError::LEVEL_NONE; } std::transform(name.begin(), name.end(), name.begin(), toupper); LevelMap::const_iterator i = level_names.find(name); if (i == level_names.end()) { LL_WARNS() << "unrecognized logging level: '" << name << "'" << LL_ENDL; return LLError::LEVEL_INFO; } return i->second; } } namespace { void setLevels(LevelMap& map, const LLSD& list, LLError::ELevel level) { LLSD::array_const_iterator i, end; for (i = list.beginArray(), end = list.endArray(); i != end; ++i) { map[*i] = level; } } } namespace LLError { void configure(const LLSD& config) { Globals::getInstance()->invalidateCallSites(); SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mFunctionLevelMap.clear(); s->mClassLevelMap.clear(); s->mFileLevelMap.clear(); s->mTagLevelMap.clear(); s->mUniqueLogMessages.clear(); setPrintLocation(config["print-location"]); setDefaultLevel(decodeLevel(config["default-level"])); LLSD sets = config["settings"]; LLSD::array_const_iterator a, end; for (a = sets.beginArray(), end = sets.endArray(); a != end; ++a) { const LLSD& entry = *a; ELevel level = decodeLevel(entry["level"]); setLevels(s->mFunctionLevelMap, entry["functions"], level); setLevels(s->mClassLevelMap, entry["classes"], level); setLevels(s->mFileLevelMap, entry["files"], level); setLevels(s->mTagLevelMap, entry["tags"], level); } } } namespace LLError { Recorder::Recorder() : mWantsTime(false), mWantsTags(false), mWantsLevel(true), mWantsLocation(false), mWantsFunctionName(true) { } Recorder::~Recorder() { } bool Recorder::wantsTime() { return mWantsTime; } // virtual bool Recorder::wantsTags() { return mWantsTags; } // virtual bool Recorder::wantsLevel() { return mWantsLevel; } // virtual bool Recorder::wantsLocation() { return mWantsLocation; } // virtual bool Recorder::wantsFunctionName() { return mWantsFunctionName; } void addRecorder(RecorderPtr recorder) { if (!recorder) { return; } SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mRecorders.push_back(recorder); } void removeRecorder(RecorderPtr recorder) { if (!recorder) { return; } SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mRecorders.erase(std::remove(s->mRecorders.begin(), s->mRecorders.end(), recorder), s->mRecorders.end()); } } namespace LLError { void logToFile(const std::string& file_name) { SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); removeRecorder(s->mFileRecorder); s->mFileRecorder.reset(); s->mFileRecorderFileName.clear(); if (file_name.empty()) { return; } RecorderPtr recordToFile(new RecordToFile(file_name)); if (boost::dynamic_pointer_cast(recordToFile)->okay()) { s->mFileRecorderFileName = file_name; s->mFileRecorder = recordToFile; addRecorder(recordToFile); } } void logToFixedBuffer(LLLineBuffer* fixedBuffer) { SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); removeRecorder(s->mFixedBufferRecorder); s->mFixedBufferRecorder.reset(); if (!fixedBuffer) { return; } RecorderPtr recordToFixedBuffer(new RecordToFixedBuffer(fixedBuffer)); s->mFixedBufferRecorder = recordToFixedBuffer; addRecorder(recordToFixedBuffer); } std::string logFileName() { SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); return s->mFileRecorderFileName; } } namespace { void writeToRecorders(const LLError::CallSite& site, const std::string& message, bool show_location = true, bool show_time = true, bool show_tags = true, bool show_level = true, bool show_function = true) { LLError::ELevel level = site.mLevel; LLError::SettingsConfigPtr s = LLError::Settings::getInstance()->getSettingsConfig(); for (Recorders::const_iterator i = s->mRecorders.begin(); i != s->mRecorders.end(); ++i) { LLError::RecorderPtr r = *i; std::ostringstream message_stream; if (show_location && (r->wantsLocation() || level == LLError::LEVEL_ERROR || s->mPrintLocation)) { message_stream << site.mLocationString << " "; } if (show_time && r->wantsTime() && s->mTimeFunction != NULL) { message_stream << s->mTimeFunction() << " "; } if (show_level && r->wantsLevel()) { message_stream << site.mLevelString << " "; } if (show_tags && r->wantsTags()) { message_stream << site.mTagString << " "; } if (show_function && r->wantsFunctionName()) { message_stream << site.mFunctionString << " "; } message_stream << message; r->recordMessage(level, message_stream.str()); } } } namespace { bool checkLevelMap(const LevelMap& map, const std::string& key, LLError::ELevel& level) { bool stop_checking; LevelMap::const_iterator i = map.find(key); if (i == map.end()) { return stop_checking = false; } level = i->second; return stop_checking = true; } bool checkLevelMap( const LevelMap& map, const char *const * keys, size_t count, LLError::ELevel& level) { bool found_level = false; LLError::ELevel tag_level = LLError::LEVEL_NONE; for (size_t i = 0; i < count; i++) { LevelMap::const_iterator it = map.find(keys[i]); if (it != map.end()) { found_level = true; tag_level = llmin(tag_level, it->second); } } if (found_level) { level = tag_level; } return found_level; } class LogLock { public: LogLock(); ~LogLock(); bool ok() const { return mOK; } private: bool mLocked; bool mOK; }; LogLock::LogLock() : mLocked(false), mOK(false) { if (!gLogMutexp) { mOK = true; return; } const int MAX_RETRIES = 5; for (int attempts = 0; attempts < MAX_RETRIES; ++attempts) { apr_status_t s = apr_thread_mutex_trylock(gLogMutexp); if (!APR_STATUS_IS_EBUSY(s)) { mLocked = true; mOK = true; return; } ms_sleep(1); //apr_thread_yield(); // Just yielding won't necessarily work, I had problems with // this on Linux - doug 12/02/04 } // We're hosed, we can't get the mutex. Blah. std::cerr << "LogLock::LogLock: failed to get mutex for log" << std::endl; } LogLock::~LogLock() { if (mLocked) { apr_thread_mutex_unlock(gLogMutexp); } } } namespace LLError { bool Log::shouldLog(CallSite& site) { LogLock lock; if (!lock.ok()) { return false; } SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); s->mShouldLogCallCounter++; const std::string& class_name = className(site.mClassInfo); std::string function_name = functionName(site.mFunction); #if LL_LINUX // gross, but typeid comparison seems to always fail here with gcc4.1 if (0 != strcmp(site.mClassInfo.name(), typeid(NoClassInfo).name())) #else if (site.mClassInfo != typeid(NoClassInfo)) #endif // LL_LINUX { function_name = class_name + "::" + function_name; } ELevel compareLevel = s->mDefaultLevel; // The most specific match found will be used as the log level, // since the computation short circuits. // So, in increasing order of importance: // Default < Tags < File < Class < Function checkLevelMap(s->mFunctionLevelMap, function_name, compareLevel) || checkLevelMap(s->mClassLevelMap, class_name, compareLevel) || checkLevelMap(s->mFileLevelMap, abbreviateFile(site.mFile), compareLevel) || (site.mTagCount > 0 ? checkLevelMap(s->mTagLevelMap, site.mTags, site.mTagCount, compareLevel) : false); site.mCached = true; Globals::getInstance()->addCallSite(site); return site.mShouldLog = site.mLevel >= compareLevel; } std::ostringstream* Log::out() { LogLock lock; if (lock.ok()) { Globals* g = Globals::getInstance(); if (!g->messageStreamInUse) { g->messageStreamInUse = true; return &g->messageStream; } } return new std::ostringstream; } void Log::flush(std::ostringstream* out, char* message) { LogLock lock; if (!lock.ok()) { return; } if(strlen(out->str().c_str()) < 128) { strcpy(message, out->str().c_str()); } else { strncpy(message, out->str().c_str(), 127); message[127] = '\0' ; } Globals* g = Globals::getInstance(); if (out == &g->messageStream) { g->messageStream.clear(); g->messageStream.str(""); g->messageStreamInUse = false; } else { delete out; } return ; } void Log::flush(std::ostringstream* out, const CallSite& site) { LogLock lock; if (!lock.ok()) { return; } Globals* g = Globals::getInstance(); SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); std::string message = out->str(); if (out == &g->messageStream) { g->messageStream.clear(); g->messageStream.str(""); g->messageStreamInUse = false; } else { delete out; } if (site.mLevel == LEVEL_ERROR) { writeToRecorders(site, "error", true, true, true, false, false); } std::ostringstream message_stream; if (site.mPrintOnce) { std::map::iterator messageIter = s->mUniqueLogMessages.find(message); if (messageIter != s->mUniqueLogMessages.end()) { messageIter->second++; unsigned int num_messages = messageIter->second; if (num_messages == 10 || num_messages == 50 || (num_messages % 100) == 0) { message_stream << "ONCE (" << num_messages << "th time seen): "; } else { return; } } else { message_stream << "ONCE: "; s->mUniqueLogMessages[message] = 1; } } message_stream << message; writeToRecorders(site, message_stream.str()); if (site.mLevel == LEVEL_ERROR && s->mCrashFunction) { s->mCrashFunction(message_stream.str()); } } } namespace LLError { SettingsStoragePtr saveAndResetSettings() { return Settings::getInstance()->saveAndReset(); } void restoreSettings(SettingsStoragePtr pSettingsStorage) { return Settings::getInstance()->restore(pSettingsStorage); } std::string removePrefix(std::string& s, const std::string& p) { std::string::size_type where = s.find(p); if (where == std::string::npos) { return s; } return std::string(s, where + p.size()); } void replaceChar(std::string& s, char old, char replacement) { std::string::size_type i = 0; std::string::size_type len = s.length(); for ( ; i < len; i++ ) { if (s[i] == old) { s[i] = replacement; } } } std::string abbreviateFile(const std::string& filePath) { std::string f = filePath; #if LL_WINDOWS replaceChar(f, '\\', '/'); #endif static std::string indra_prefix = "indra/"; f = removePrefix(f, indra_prefix); #if LL_DARWIN static std::string newview_prefix = "newview/../"; f = removePrefix(f, newview_prefix); #endif return f; } int shouldLogCallCount() { SettingsConfigPtr s = Settings::getInstance()->getSettingsConfig(); return s->mShouldLogCallCounter; } #if LL_WINDOWS // VC80 was optimizing the error away. #pragma optimize("", off) #endif void crashAndLoop(const std::string& message) { // Now, we go kaboom! int* make_me_crash = NULL; *make_me_crash = 0; while(true) { // Loop forever, in case the crash didn't work? } // this is an attempt to let Coverity and other semantic scanners know that this function won't be returning ever. exit(EXIT_FAILURE); } #if LL_WINDOWS #pragma optimize("", on) #endif std::string utcTime() { time_t now = time(NULL); const size_t BUF_SIZE = 64; char time_str[BUF_SIZE]; /* Flawfinder: ignore */ int chars = strftime(time_str, BUF_SIZE, "%Y-%m-%dT%H:%M:%SZ", gmtime(&now)); return chars ? time_str : "time error"; } } namespace LLError { char** LLCallStacks::sBuffer = NULL ; S32 LLCallStacks::sIndex = 0 ; #define SINGLE_THREADED 1 class CallStacksLogLock { public: CallStacksLogLock(); ~CallStacksLogLock(); #if SINGLE_THREADED bool ok() const { return true; } #else bool ok() const { return mOK; } private: bool mLocked; bool mOK; #endif }; #if SINGLE_THREADED CallStacksLogLock::CallStacksLogLock() { } CallStacksLogLock::~CallStacksLogLock() { } #else CallStacksLogLock::CallStacksLogLock() : mLocked(false), mOK(false) { if (!gCallStacksLogMutexp) { mOK = true; return; } const int MAX_RETRIES = 5; for (int attempts = 0; attempts < MAX_RETRIES; ++attempts) { apr_status_t s = apr_thread_mutex_trylock(gCallStacksLogMutexp); if (!APR_STATUS_IS_EBUSY(s)) { mLocked = true; mOK = true; return; } ms_sleep(1); } // We're hosed, we can't get the mutex. Blah. std::cerr << "CallStacksLogLock::CallStacksLogLock: failed to get mutex for log" << std::endl; } CallStacksLogLock::~CallStacksLogLock() { if (mLocked) { apr_thread_mutex_unlock(gCallStacksLogMutexp); } } #endif //static void LLCallStacks::allocateStackBuffer() { if(sBuffer == NULL) { sBuffer = new char*[512] ; sBuffer[0] = new char[512 * 128] ; for(S32 i = 1 ; i < 512 ; i++) { sBuffer[i] = sBuffer[i-1] + 128 ; } sIndex = 0 ; } } void LLCallStacks::freeStackBuffer() { if(sBuffer != NULL) { delete [] sBuffer[0] ; delete [] sBuffer ; sBuffer = NULL ; } } //static void LLCallStacks::push(const char* function, const int line) { CallStacksLogLock lock; if (!lock.ok()) { return; } if(sBuffer == NULL) { allocateStackBuffer(); } if(sIndex > 511) { clear() ; } strcpy(sBuffer[sIndex], function) ; sprintf(sBuffer[sIndex] + strlen(function), " line: %d ", line) ; sIndex++ ; return ; } //static std::ostringstream* LLCallStacks::insert(const char* function, const int line) { std::ostringstream* _out = LLError::Log::out(); *_out << function << " line " << line << " " ; return _out ; } //static void LLCallStacks::end(std::ostringstream* _out) { CallStacksLogLock lock; if (!lock.ok()) { return; } if(sBuffer == NULL) { allocateStackBuffer(); } if(sIndex > 511) { clear() ; } LLError::Log::flush(_out, sBuffer[sIndex++]) ; } //static void LLCallStacks::print() { CallStacksLogLock lock; if (!lock.ok()) { return; } if(sIndex > 0) { LL_INFOS() << " ************* PRINT OUT LL CALL STACKS ************* " << LL_ENDL; while(sIndex > 0) { sIndex-- ; LL_INFOS() << sBuffer[sIndex] << LL_ENDL; } LL_INFOS() << " *************** END OF LL CALL STACKS *************** " << LL_ENDL; } if(sBuffer != NULL) { freeStackBuffer(); } } //static void LLCallStacks::clear() { sIndex = 0 ; } //static void LLCallStacks::cleanup() { freeStackBuffer(); } }