/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include "SigUtil.hpp" #if !defined(__ANDROID__) # include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "Common.hpp" #include "Log.hpp" static std::atomic TerminationFlag(false); static std::atomic DumpGlobalState(false); #if MOBILEAPP std::atomic MobileTerminationFlag(false); #else // Mobile defines its own, which is constexpr. static std::atomic ShutdownRequestFlag(false); #endif namespace SigUtil { bool getShutdownRequestFlag() { return ShutdownRequestFlag; } bool getTerminationFlag() { return TerminationFlag; } void setTerminationFlag() { TerminationFlag = true; } #if MOBILEAPP void resetTerminationFlag() { TerminationFlag = false; } #endif bool getDumpGlobalState() { return DumpGlobalState; } void resetDumpGlobalState() { DumpGlobalState = false; } } #if !MOBILEAPP namespace SigUtil { /// This traps the signal-handler so we don't _Exit /// while dumping stack trace. It's re-entrant. /// Used to safely increment and decrement the signal-handler trap. class SigHandlerTrap { static std::atomic SigHandling; public: SigHandlerTrap() { ++SigHandlerTrap::SigHandling; } ~SigHandlerTrap() { --SigHandlerTrap::SigHandling; } /// Check that we have exclusive access to the trap. /// Otherwise, there is another signal in progress. bool isExclusive() const { // Return true if we are alone. return SigHandlerTrap::SigHandling == 1; } /// Wait for the trap to clear. static void wait() { while (SigHandlerTrap::SigHandling) sleep(1); } }; std::atomic SigHandlerTrap::SigHandling; void waitSigHandlerTrap() { SigHandlerTrap::wait(); } const char *signalName(const int signo) { switch (signo) { #define CASE(x) case SIG##x: return "SIG" #x CASE(HUP); CASE(INT); CASE(QUIT); CASE(ILL); CASE(ABRT); CASE(FPE); CASE(KILL); CASE(SEGV); CASE(PIPE); CASE(ALRM); CASE(TERM); CASE(USR1); CASE(USR2); CASE(CHLD); CASE(CONT); CASE(STOP); CASE(TSTP); CASE(TTIN); CASE(TTOU); CASE(BUS); #ifdef SIGPOLL CASE(POLL); #endif CASE(PROF); CASE(SYS); CASE(TRAP); CASE(URG); CASE(VTALRM); CASE(XCPU); CASE(XFSZ); #ifdef SIGEMT CASE(EMT); #endif #ifdef SIGSTKFLT CASE(STKFLT); #endif #if defined(SIGIO) && SIGIO != SIGPOLL CASE(IO); #endif #ifdef SIGPWR CASE(PWR); #endif #ifdef SIGLOST CASE(LOST); #endif CASE(WINCH); #if defined(SIGINFO) && SIGINFO != SIGPWR CASE(INFO); #endif #undef CASE default: return "unknown"; } } static void handleTerminationSignal(const int signal) { bool hardExit = false; const char *domain; if (!ShutdownRequestFlag && (signal == SIGINT || signal == SIGTERM)) { domain = " Shutdown signal received: "; ShutdownRequestFlag = true; } else if (!TerminationFlag) { domain = " Forced-Termination signal received: "; TerminationFlag = true; } else { domain = " ok, ok - hard-termination signal received: "; hardExit = true; } Log::signalLogPrefix(); Log::signalLog(domain); Log::signalLog(signalName(signal)); Log::signalLog("\n"); if (!hardExit) SocketPoll::wakeupWorld(); else { ::signal (signal, SIG_DFL); ::raise (signal); } } void requestShutdown() { ShutdownRequestFlag = true; SocketPoll::wakeupWorld(); } void setTerminationSignals() { struct sigaction action; sigemptyset(&action.sa_mask); action.sa_flags = 0; action.sa_handler = handleTerminationSignal; sigaction(SIGINT, &action, nullptr); sigaction(SIGTERM, &action, nullptr); sigaction(SIGQUIT, &action, nullptr); sigaction(SIGHUP, &action, nullptr); } static char FatalGdbString[256] = { '\0' }; static void handleFatalSignal(const int signal) { SigHandlerTrap guard; bool bReEntered = !guard.isExclusive(); Log::signalLogPrefix(); // Heap corruption can re-enter through backtrace. if (bReEntered) Log::signalLog(" Fatal double signal received: "); else Log::signalLog(" Fatal signal received: "); Log::signalLog(signalName(signal)); struct sigaction action; sigemptyset(&action.sa_mask); action.sa_flags = 0; action.sa_handler = SIG_DFL; sigaction(signal, &action, nullptr); if (!bReEntered) dumpBacktrace(); // let default handler process the signal ::raise(signal); } void dumpBacktrace() { #if !defined(__ANDROID__) Log::signalLog("\nBacktrace "); Log::signalLogNumber(getpid()); Log::signalLog(":\n"); const int maxSlots = 50; void *backtraceBuffer[maxSlots]; const int numSlots = backtrace(backtraceBuffer, maxSlots); if (numSlots > 0) { backtrace_symbols_fd(backtraceBuffer, numSlots, STDERR_FILENO); } #else LOG_SYS("Backtrace not available on Android."); #endif if (std::getenv("LOOL_DEBUG")) { Log::signalLog(FatalGdbString); LOG_ERR("Sleeping 30s to allow debugging."); sleep(30); } } void setFatalSignals() { struct sigaction action; sigemptyset(&action.sa_mask); action.sa_flags = 0; action.sa_handler = handleFatalSignal; sigaction(SIGSEGV, &action, nullptr); sigaction(SIGBUS, &action, nullptr); sigaction(SIGABRT, &action, nullptr); sigaction(SIGILL, &action, nullptr); sigaction(SIGFPE, &action, nullptr); // Prepare this in advance just in case. std::ostringstream stream; stream << "\nERROR: Fatal signal! Attach debugger with:\n" << "sudo gdb --pid=" << getpid() << "\n or \n" << "sudo gdb --q --n --ex 'thread apply all backtrace full' --batch --pid=" << getpid() << '\n'; std::string streamStr = stream.str(); assert (sizeof (FatalGdbString) > strlen(streamStr.c_str()) + 1); strncpy(FatalGdbString, streamStr.c_str(), sizeof(FatalGdbString)-1); FatalGdbString[sizeof(FatalGdbString)-1] = '\0'; } static void handleUserSignal(const int signal) { Log::signalLogPrefix(); Log::signalLog(" User signal received: "); Log::signalLog(signalName(signal)); Log::signalLog("\n"); if (signal == SIGUSR1) { DumpGlobalState = true; SocketPoll::wakeupWorld(); } } static void handleDebuggerSignal(const int /*signal*/) {} void setUserSignals() { struct sigaction action; sigemptyset(&action.sa_mask); action.sa_flags = 0; action.sa_handler = handleUserSignal; sigaction(SIGUSR1, &action, nullptr); } void setDebuggerSignal() { struct sigaction action; sigemptyset(&action.sa_mask); action.sa_flags = 0; action.sa_handler = handleDebuggerSignal; sigaction(SIGUSR1, &action, nullptr); } /// Kill the given pid with SIGTERM. Returns true when the pid does not exist any more. bool killChild(const int pid) { LOG_DBG("Killing PID: " << pid); // Don't kill anything in the fuzzer case: pid == 0 would kill the fuzzer itself, and // killing random other processes is not a great idea, either. if (Util::isFuzzing() || kill(pid, SIGKILL) == 0 || errno == ESRCH) { // Killed or doesn't exist. return true; } LOG_SYS("Error when trying to kill PID: " << pid << ". Will wait for termination."); const int sleepMs = 50; const int count = std::max(CHILD_REBALANCE_INTERVAL_MS / sleepMs, 2); for (int i = 0; i < count; ++i) { if (kill(pid, 0) == 0 || errno == ESRCH) { // Doesn't exist. return true; } std::this_thread::sleep_for(std::chrono::milliseconds(sleepMs)); } return false; } } #endif // !MOBILEAPP /* vim:set shiftwidth=4 softtabstop=4 expandtab: */