/* * Copyright (C) 2008 The Android Open Source Project * * 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. */ /* * This is a thread that catches signals and does something useful. For * example, when a SIGQUIT (Ctrl-\) arrives, suspend the VM and dump the * status of all threads. */ #include "Dalvik.h" #include <stdlib.h> #include <unistd.h> #include <signal.h> #include <pthread.h> #include <sys/file.h> #include <sys/time.h> #include <fcntl.h> #include <errno.h> #include <cutils/open_memstream.h> static void* signalCatcherThreadStart(void* arg); /* * Crank up the signal catcher thread. * * Returns immediately. */ bool dvmSignalCatcherStartup() { gDvm.haltSignalCatcher = false; if (!dvmCreateInternalThread(&gDvm.signalCatcherHandle, "Signal Catcher", signalCatcherThreadStart, NULL)) return false; return true; } /* * Shut down the signal catcher thread if it was started. * * Since we know the thread is just sitting around waiting for signals * to arrive, send it one. */ void dvmSignalCatcherShutdown() { gDvm.haltSignalCatcher = true; if (gDvm.signalCatcherHandle == 0) // not started yet return; pthread_kill(gDvm.signalCatcherHandle, SIGQUIT); pthread_join(gDvm.signalCatcherHandle, NULL); ALOGV("signal catcher has shut down"); } /* * Print the name of the current process, if we can get it. */ static void printProcessName(const DebugOutputTarget* target) { int fd = -1; fd = open("/proc/self/cmdline", O_RDONLY, 0); if (fd < 0) goto bail; char tmpBuf[256]; ssize_t actual; actual = read(fd, tmpBuf, sizeof(tmpBuf)-1); if (actual <= 0) goto bail; tmpBuf[actual] = '\0'; dvmPrintDebugMessage(target, "Cmd line: %s\n", tmpBuf); bail: if (fd >= 0) close(fd); } /* * Dump the stack traces for all threads to the supplied file, putting * a timestamp header on it. */ static void logThreadStacks(FILE* fp) { DebugOutputTarget target; dvmCreateFileOutputTarget(&target, fp); pid_t pid = getpid(); time_t now = time(NULL); struct tm* ptm; #ifdef HAVE_LOCALTIME_R struct tm tmbuf; ptm = localtime_r(&now, &tmbuf); #else ptm = localtime(&now); #endif dvmPrintDebugMessage(&target, "\n\n----- pid %d at %04d-%02d-%02d %02d:%02d:%02d -----\n", pid, ptm->tm_year + 1900, ptm->tm_mon+1, ptm->tm_mday, ptm->tm_hour, ptm->tm_min, ptm->tm_sec); printProcessName(&target); dvmPrintDebugMessage(&target, "\n"); dvmDumpAllThreadsEx(&target, true); fprintf(fp, "----- end %d -----\n", pid); } /* * Respond to a SIGQUIT by dumping the thread stacks. Optionally dump * a few other things while we're at it. * * Thread stacks can either go to the log or to a file designated for holding * ANR traces. If we're writing to a file, we want to do it in one shot, * so we can use a single O_APPEND write instead of contending for exclusive * access with flock(). There may be an advantage in resuming the VM * before doing the file write, so we don't stall the VM if disk I/O is * bottlenecked. * * If JIT tuning is compiled in, dump compiler stats as well. */ static void handleSigQuit() { char* traceBuf = NULL; size_t traceLen; dvmSuspendAllThreads(SUSPEND_FOR_STACK_DUMP); dvmDumpLoaderStats("sig"); if (gDvm.stackTraceFile == NULL) { /* just dump to log */ DebugOutputTarget target; dvmCreateLogOutputTarget(&target, ANDROID_LOG_INFO, LOG_TAG); dvmDumpAllThreadsEx(&target, true); } else { /* write to memory buffer */ FILE* memfp = open_memstream(&traceBuf, &traceLen); if (memfp == NULL) { ALOGE("Unable to create memstream for stack traces"); traceBuf = NULL; /* make sure it didn't touch this */ /* continue on */ } else { logThreadStacks(memfp); fclose(memfp); } } #if defined(WITH_JIT) && defined(WITH_JIT_TUNING) dvmCompilerDumpStats(); #endif if (false) dvmDumpTrackedAllocations(true); dvmResumeAllThreads(SUSPEND_FOR_STACK_DUMP); if (traceBuf != NULL) { /* * We don't know how long it will take to do the disk I/O, so put us * into VMWAIT for the duration. */ ThreadStatus oldStatus = dvmChangeStatus(dvmThreadSelf(), THREAD_VMWAIT); /* * Open the stack trace output file, creating it if necessary. It * needs to be world-writable so other processes can write to it. */ int fd = open(gDvm.stackTraceFile, O_WRONLY | O_APPEND | O_CREAT, 0666); if (fd < 0) { ALOGE("Unable to open stack trace file '%s': %s", gDvm.stackTraceFile, strerror(errno)); } else { ssize_t actual = write(fd, traceBuf, traceLen); if (actual != (ssize_t) traceLen) { ALOGE("Failed to write stack traces to %s (%d of %zd): %s", gDvm.stackTraceFile, (int) actual, traceLen, strerror(errno)); } else { ALOGI("Wrote stack traces to '%s'", gDvm.stackTraceFile); } close(fd); } free(traceBuf); dvmChangeStatus(dvmThreadSelf(), oldStatus); } } /* * Respond to a SIGUSR1 by forcing a GC. */ static void handleSigUsr1() { ALOGI("SIGUSR1 forcing GC (no HPROF)"); dvmCollectGarbage(); } #if defined(WITH_JIT) && defined(WITH_JIT_TUNING) /* Sample callback function for dvmJitScanAllClassPointers */ void printAllClass(void *ptr) { ClassObject **classPP = (ClassObject **) ptr; ALOGE("class %s", (*classPP)->descriptor); } /* * Respond to a SIGUSR2 by dumping some JIT stats and possibly resetting * the code cache. */ static void handleSigUsr2() { static int codeCacheResetCount = 0; gDvmJit.receivedSIGUSR2 ^= true; if ((--codeCacheResetCount & 7) == 0) { /* Dump all class pointers in the traces */ dvmJitScanAllClassPointers(printAllClass); gDvmJit.codeCacheFull = true; } else { dvmCompilerDumpStats(); /* Stress-test unchain all */ dvmJitUnchainAll(); ALOGD("Send %d more signals to reset the code cache", codeCacheResetCount & 7); } dvmCheckInterpStateConsistency(); } #endif /* * Sleep in sigwait() until a signal arrives. */ static void* signalCatcherThreadStart(void* arg) { Thread* self = dvmThreadSelf(); sigset_t mask; int cc; UNUSED_PARAMETER(arg); ALOGV("Signal catcher thread started (threadid=%d)", self->threadId); /* set up mask with signals we want to handle */ sigemptyset(&mask); sigaddset(&mask, SIGQUIT); sigaddset(&mask, SIGUSR1); #if defined(WITH_JIT) && defined(WITH_JIT_TUNING) sigaddset(&mask, SIGUSR2); #endif while (true) { int rcvd; dvmChangeStatus(self, THREAD_VMWAIT); /* * Signals for sigwait() must be blocked but not ignored. We * block signals like SIGQUIT for all threads, so the condition * is met. When the signal hits, we wake up, without any signal * handlers being invoked. * * When running under GDB we occasionally return from sigwait() * with EINTR (e.g. when other threads exit). */ loop: cc = sigwait(&mask, &rcvd); if (cc != 0) { if (cc == EINTR) { //ALOGV("sigwait: EINTR"); goto loop; } assert(!"bad result from sigwait"); } if (!gDvm.haltSignalCatcher) { ALOGI("threadid=%d: reacting to signal %d", dvmThreadSelf()->threadId, rcvd); } /* set our status to RUNNING, self-suspending if GC in progress */ dvmChangeStatus(self, THREAD_RUNNING); if (gDvm.haltSignalCatcher) break; switch (rcvd) { case SIGQUIT: handleSigQuit(); break; case SIGUSR1: handleSigUsr1(); break; #if defined(WITH_JIT) && defined(WITH_JIT_TUNING) case SIGUSR2: handleSigUsr2(); break; #endif default: ALOGE("unexpected signal %d", rcvd); break; } } return NULL; }