/** * @file llapp.cpp * @brief Implementation of the LLApp class. * * $LicenseInfo:firstyear=2003&license=viewergpl$ * * Copyright (c) 2003-2008, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #include "linden_common.h" #include "llapp.h" #include "llcommon.h" #include "llapr.h" #include "llerrorcontrol.h" #include "llerrorthread.h" #include "llframetimer.h" #include "llmemory.h" #include "lltimer.h" // // Signal handling // // Windows uses structured exceptions, so it's handled a bit differently. // #if LL_WINDOWS LONG WINAPI default_windows_exception_handler(struct _EXCEPTION_POINTERS *exception_infop); BOOL ConsoleCtrlHandler(DWORD fdwCtrlType); #else # include # include // for fork() void setup_signals(); void default_unix_signal_handler(int signum, siginfo_t *info, void *); # if LL_DARWIN /* OSX doesn't support SIGRT* */ S32 LL_SMACKDOWN_SIGNAL = SIGUSR1; S32 LL_HEARTBEAT_SIGNAL = SIGUSR2; # else /* We want reliable delivery of our signals - SIGRT* is it. */ /* Old LinuxThreads versions eat SIGRTMIN+0 to SIGRTMIN+2, avoid those. */ /* Note that SIGRTMIN/SIGRTMAX may expand to a glibc function call with a nonconstant result so these are not consts and cannot be used in constant- expressions. SIGRTMAX may return -1 on rare broken setups. */ S32 LL_SMACKDOWN_SIGNAL = (SIGRTMAX >= 0) ? (SIGRTMAX-1) : SIGUSR1; S32 LL_HEARTBEAT_SIGNAL = (SIGRTMAX >= 0) ? (SIGRTMAX-0) : SIGUSR2; # endif // LL_DARWIN #endif // LL_WINDOWS // the static application instance LLApp* LLApp::sApplication = NULL; // Local flag for whether or not to do logging in signal handlers. //static BOOL LLApp::sLogInSignal = FALSE; // static LLApp::EAppStatus LLApp::sStatus = LLApp::APP_STATUS_STOPPED; // Keeps track of application status LLAppErrorHandler LLApp::sErrorHandler = NULL; LLAppErrorHandler LLApp::sSyncErrorHandler = NULL; BOOL LLApp::sErrorThreadRunning = FALSE; #if !LL_WINDOWS LLApp::child_map LLApp::sChildMap; LLAtomicU32* LLApp::sSigChildCount = NULL; LLAppChildCallback LLApp::sDefaultChildCallback = NULL; #endif LLApp::LLApp() : mThreadErrorp(NULL) { // Set our status to running setStatus(APP_STATUS_RUNNING); LLCommon::initClass(); #if !LL_WINDOWS // This must be initialized before the error handler. sSigChildCount = new LLAtomicU32(0); #endif // Setup error handling setupErrorHandling(); // initialize the options structure. We need to make this an array // because the structured data will not auto-allocate if we // reference an invalid location with the [] operator. mOptions = LLSD::emptyArray(); LLSD sd; for(int i = 0; i < PRIORITY_COUNT; ++i) { mOptions.append(sd); } // Make sure we clean up APR when we exit // Don't need to do this if we're cleaning up APR in the destructor //atexit(ll_cleanup_apr); // Set the application to this instance. sApplication = this; } LLApp::~LLApp() { #if !LL_WINDOWS delete sSigChildCount; sSigChildCount = NULL; #endif setStopped(); // HACK: wait for the error thread to clean itself ms_sleep(20); if (mThreadErrorp) { delete mThreadErrorp; mThreadErrorp = NULL; } LLCommon::cleanupClass(); } // static LLApp* LLApp::instance() { return sApplication; } LLSD LLApp::getOption(const std::string& name) const { LLSD rv; LLSD::array_const_iterator iter = mOptions.beginArray(); LLSD::array_const_iterator end = mOptions.endArray(); for(; iter != end; ++iter) { rv = (*iter)[name]; if(rv.isDefined()) break; } return rv; } bool LLApp::parseCommandOptions(int argc, char** argv) { LLSD commands; std::string name; std::string value; for(int ii = 1; ii < argc; ++ii) { if(argv[ii][0] != '-') { llinfos << "Did not find option identifier while parsing token: " << argv[ii] << llendl; return false; } int offset = 1; if(argv[ii][1] == '-') ++offset; name.assign(&argv[ii][offset]); if(((ii+1) >= argc) || (argv[ii+1][0] == '-')) { // we found another option after this one or we have // reached the end. simply record that this option was // found and continue. int flag = name.compare("logfile"); if (0 == flag) { commands[name] = "log"; } else { commands[name] = true; } continue; } ++ii; value.assign(argv[ii]); commands[name] = value; } setOptionData(PRIORITY_COMMAND_LINE, commands); return true; } bool LLApp::setOptionData(OptionPriority level, LLSD data) { if((level < 0) || (level >= PRIORITY_COUNT) || (data.type() != LLSD::TypeMap)) { return false; } mOptions[level] = data; return true; } LLSD LLApp::getOptionData(OptionPriority level) { if((level < 0) || (level >= PRIORITY_COUNT)) { return LLSD(); } return mOptions[level]; } void LLApp::stepFrame() { LLFrameTimer::updateFrameTime(); LLFrameTimer::updateFrameCount(); LLEventTimer::updateClass(); mRunner.run(); } void LLApp::setupErrorHandling() { // Error handling is done by starting up an error handling thread, which just sleeps and // occasionally checks to see if the app is in an error state, and sees if it needs to be run. #if LL_WINDOWS // Windows doesn't have the same signal handling mechanisms as UNIX, thus APR doesn't provide // a signal handling thread implementation. // What we do is install an unhandled exception handler, which will try to do the right thing // in the case of an error (generate a minidump) // Disable this until the viewer gets ported so server crashes can be JIT debugged. //LPTOP_LEVEL_EXCEPTION_FILTER prev_filter; //prev_filter = SetUnhandledExceptionFilter(default_windows_exception_handler); // This sets a callback to handle w32 signals to the console window. // The viewer shouldn't be affected, sicne its a windowed app. SetConsoleCtrlHandler( (PHANDLER_ROUTINE) ConsoleCtrlHandler, TRUE); #else // // Start up signal handling. // // There are two different classes of signals. Synchronous signals are delivered to a specific // thread, asynchronous signals can be delivered to any thread (in theory) // setup_signals(); #endif // // Start the error handling thread, which is responsible for taking action // when the app goes into the APP_STATUS_ERROR state // llinfos << "LLApp::setupErrorHandling - Starting error thread" << llendl; mThreadErrorp = new LLErrorThread(); mThreadErrorp->setUserData((void *) this); mThreadErrorp->start(); } void LLApp::setErrorHandler(LLAppErrorHandler handler) { LLApp::sErrorHandler = handler; } void LLApp::setSyncErrorHandler(LLAppErrorHandler handler) { LLApp::sSyncErrorHandler = handler; } // static void LLApp::runSyncErrorHandler() { if (LLApp::sSyncErrorHandler) { LLApp::sSyncErrorHandler(); } } // static void LLApp::runErrorHandler() { if (LLApp::sErrorHandler) { LLApp::sErrorHandler(); } //llinfos << "App status now STOPPED" << llendl; LLApp::setStopped(); } // static void LLApp::setStatus(EAppStatus status) { sStatus = status; } // static void LLApp::setError() { if (!isError()) { // perform any needed synchronous error-handling runSyncErrorHandler(); // set app status to ERROR so that the LLErrorThread notices setStatus(APP_STATUS_ERROR); } } // static void LLApp::setQuitting() { if (!isExiting()) { // If we're already exiting, we don't want to reset our state back to quitting. llinfos << "Setting app state to QUITTING" << llendl; setStatus(APP_STATUS_QUITTING); } } // static void LLApp::setStopped() { setStatus(APP_STATUS_STOPPED); } // static bool LLApp::isStopped() { return (APP_STATUS_STOPPED == sStatus); } // static bool LLApp::isRunning() { return (APP_STATUS_RUNNING == sStatus); } // static bool LLApp::isError() { return (APP_STATUS_ERROR == sStatus); } // static bool LLApp::isQuitting() { return (APP_STATUS_QUITTING == sStatus); } bool LLApp::isExiting() { return isQuitting() || isError(); } #if !LL_WINDOWS // static U32 LLApp::getSigChildCount() { if (sSigChildCount) { return U32(*sSigChildCount); } return 0; } // static void LLApp::incSigChildCount() { if (sSigChildCount) { (*sSigChildCount)++; } } #endif // static int LLApp::getPid() { #if LL_WINDOWS return 0; #else return getpid(); #endif } #if LL_WINDOWS LONG WINAPI default_windows_exception_handler(struct _EXCEPTION_POINTERS *exception_infop) { // Translate the signals/exceptions into cross-platform stuff // Windows implementation // Make sure the user sees something to indicate that the app crashed. LONG retval; if (LLApp::isError()) { llwarns << "Got another fatal signal while in the error handler, die now!" << llendl; retval = EXCEPTION_EXECUTE_HANDLER; return retval; } // Flag status to error, so thread_error starts its work LLApp::setError(); // Block in the exception handler until the app has stopped // This is pretty sketchy, but appears to work just fine while (!LLApp::isStopped()) { ms_sleep(10); } // // Generate a minidump if we can. // // TODO: This needs to be ported over form the viewer-specific // LLWinDebug class // // At this point, we always want to exit the app. There's no graceful // recovery for an unhandled exception. // // Just kill the process. retval = EXCEPTION_EXECUTE_HANDLER; return retval; } // Win32 doesn't support signals. This is used instead. BOOL ConsoleCtrlHandler(DWORD fdwCtrlType) { switch (fdwCtrlType) { case CTRL_BREAK_EVENT: case CTRL_LOGOFF_EVENT: case CTRL_SHUTDOWN_EVENT: case CTRL_CLOSE_EVENT: // From end task or the window close button. case CTRL_C_EVENT: // from CTRL-C on the keyboard // Just set our state to quitting, not error if (LLApp::isQuitting() || LLApp::isError()) { // We're already trying to die, just ignore this signal if (LLApp::sLogInSignal) { llinfos << "Signal handler - Already trying to quit, ignoring signal!" << llendl; } return TRUE; } LLApp::setQuitting(); return TRUE; default: return FALSE; } } #else //!LL_WINDOWS void LLApp::setChildCallback(pid_t pid, LLAppChildCallback callback) { LLChildInfo child_info; child_info.mCallback = callback; LLApp::sChildMap[pid] = child_info; } void LLApp::setDefaultChildCallback(LLAppChildCallback callback) { LLApp::sDefaultChildCallback = callback; } pid_t LLApp::fork() { fflush(NULL); // flush all buffers before the child inherits them pid_t pid = ::fork(); if( pid < 0 ) { int system_error = errno; llwarns << "Unable to fork! Operating system error code: " << system_error << llendl; } else if (pid == 0) { // Sleep a bit to allow the parent to set up child callbacks. ms_sleep(10); // We need to disable signal handling, because we don't have a // signal handling thread anymore. setupErrorHandling(); } else { llinfos << "Forked child process " << pid << llendl; } return pid; } void setup_signals() { // // Set up signal handlers that may result in program termination // struct sigaction act; act.sa_sigaction = default_unix_signal_handler; sigemptyset( &act.sa_mask ); act.sa_flags = SA_SIGINFO; // Synchronous signals sigaction(SIGABRT, &act, NULL); sigaction(SIGALRM, &act, NULL); sigaction(SIGBUS, &act, NULL); sigaction(SIGFPE, &act, NULL); sigaction(SIGHUP, &act, NULL); sigaction(SIGILL, &act, NULL); sigaction(SIGPIPE, &act, NULL); sigaction(SIGSEGV, &act, NULL); sigaction(SIGSYS, &act, NULL); sigaction(LL_HEARTBEAT_SIGNAL, &act, NULL); sigaction(LL_SMACKDOWN_SIGNAL, &act, NULL); // Asynchronous signals that are normally ignored sigaction(SIGCHLD, &act, NULL); sigaction(SIGUSR2, &act, NULL); // Asynchronous signals that result in attempted graceful exit sigaction(SIGHUP, &act, NULL); sigaction(SIGTERM, &act, NULL); sigaction(SIGINT, &act, NULL); // Asynchronous signals that result in core sigaction(SIGQUIT, &act, NULL); } void clear_signals() { struct sigaction act; act.sa_handler = SIG_DFL; sigemptyset( &act.sa_mask ); act.sa_flags = SA_SIGINFO; // Synchronous signals sigaction(SIGABRT, &act, NULL); sigaction(SIGALRM, &act, NULL); sigaction(SIGBUS, &act, NULL); sigaction(SIGFPE, &act, NULL); sigaction(SIGHUP, &act, NULL); sigaction(SIGILL, &act, NULL); sigaction(SIGPIPE, &act, NULL); sigaction(SIGSEGV, &act, NULL); sigaction(SIGSYS, &act, NULL); sigaction(LL_HEARTBEAT_SIGNAL, &act, NULL); sigaction(LL_SMACKDOWN_SIGNAL, &act, NULL); // Asynchronous signals that are normally ignored sigaction(SIGCHLD, &act, NULL); // Asynchronous signals that result in attempted graceful exit sigaction(SIGHUP, &act, NULL); sigaction(SIGTERM, &act, NULL); sigaction(SIGINT, &act, NULL); // Asynchronous signals that result in core sigaction(SIGUSR2, &act, NULL); sigaction(SIGQUIT, &act, NULL); } void default_unix_signal_handler(int signum, siginfo_t *info, void *) { // Unix implementation of synchronous signal handler // This runs in the thread that threw the signal. // We do the somewhat sketchy operation of blocking in here until the error handler // has gracefully stopped the app. if (LLApp::sLogInSignal) { llinfos << "Signal handler - Got signal " << signum << " - " << apr_signal_description_get(signum) << llendl; } switch (signum) { case SIGCHLD: if (LLApp::sLogInSignal) { llinfos << "Signal handler - Got SIGCHLD from " << info->si_pid << llendl; } // Check result code for all child procs for which we've // registered callbacks THIS WILL NOT WORK IF SIGCHLD IS SENT // w/o killing the child (Go, launcher!) // TODO: Now that we're using SIGACTION, we can actually // implement the launcher behavior to determine who sent the // SIGCHLD even if it doesn't result in child termination if (LLApp::sChildMap.count(info->si_pid)) { LLApp::sChildMap[info->si_pid].mGotSigChild = TRUE; } LLApp::incSigChildCount(); return; case SIGABRT: // Abort just results in termination of the app, no funky error handling. if (LLApp::sLogInSignal) { llwarns << "Signal handler - Got SIGABRT, terminating" << llendl; } clear_signals(); raise(signum); return; case SIGINT: case SIGHUP: case SIGTERM: if (LLApp::sLogInSignal) { llwarns << "Signal handler - Got SIGINT, HUP, or TERM, exiting gracefully" << llendl; } // Graceful exit // Just set our state to quitting, not error if (LLApp::isQuitting() || LLApp::isError()) { // We're already trying to die, just ignore this signal if (LLApp::sLogInSignal) { llinfos << "Signal handler - Already trying to quit, ignoring signal!" << llendl; } return; } LLApp::setQuitting(); return; case SIGALRM: case SIGPIPE: case SIGUSR2: default: if (signum == LL_SMACKDOWN_SIGNAL || signum == SIGBUS || signum == SIGILL || signum == SIGFPE || signum == SIGSEGV || signum == SIGQUIT) { if (signum == LL_SMACKDOWN_SIGNAL) { // Smackdown treated just like any other app termination, for now if (LLApp::sLogInSignal) { llwarns << "Signal handler - Handling smackdown signal!" << llendl; } else { // Don't log anything, even errors - this is because this signal could happen anywhere. LLError::setDefaultLevel(LLError::LEVEL_NONE); } // Change the signal that we reraise to SIGABRT, so we generate a core dump. signum = SIGABRT; } if (LLApp::sLogInSignal) { llwarns << "Signal handler - Handling fatal signal!" << llendl; } if (LLApp::isError()) { // Received second fatal signal while handling first, just die right now // Set the signal handlers back to default before handling the signal - this makes the next signal wipe out the app. clear_signals(); if (LLApp::sLogInSignal) { llwarns << "Signal handler - Got another fatal signal while in the error handler, die now!" << llendl; } raise(signum); return; } if (LLApp::sLogInSignal) { llwarns << "Signal handler - Flagging error status and waiting for shutdown" << llendl; } // Flag status to ERROR, so thread_error does its work. LLApp::setError(); // Block in the signal handler until somebody says that we're done. while (LLApp::sErrorThreadRunning && !LLApp::isStopped()) { ms_sleep(10); } if (LLApp::sLogInSignal) { llwarns << "Signal handler - App is stopped, reraising signal" << llendl; } clear_signals(); raise(signum); return; } else { if (LLApp::sLogInSignal) { llinfos << "Signal handler - Unhandled signal " << signum << ", ignoring!" << llendl; } } } } #endif // !WINDOWS