/* * eventtest.c: Test the libvirtd event loop impl * * Copyright (C) 2009, 2011 Red Hat, 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; either * version 2.1 of the License, or (at your option) any later version. * * 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * Author: Daniel P. Berrange */ #include #include #include #include #include "testutils.h" #include "internal.h" #include "threads.h" #include "logging.h" #include "util.h" #include "event.h" #include "event_poll.h" #define NUM_FDS 31 #define NUM_TIME 31 static struct handleInfo { int pipeFD[2]; int fired; int watch; int error; int delete; } handles[NUM_FDS]; static struct timerInfo { int timeout; int timer; int fired; int error; int delete; } timers[NUM_TIME]; enum { EV_ERROR_NONE, EV_ERROR_WATCH, EV_ERROR_FD, EV_ERROR_EVENT, EV_ERROR_DATA, }; static void testPipeReader(int watch, int fd, int events, void *data) { struct handleInfo *info = data; char one; info->fired = 1; if (watch != info->watch) { info->error = EV_ERROR_WATCH; return; } if (fd != info->pipeFD[0]) { info->error = EV_ERROR_FD; return; } if (!(events & VIR_EVENT_HANDLE_READABLE)) { info->error = EV_ERROR_EVENT; return; } if (read(fd, &one, 1) != 1) { info->error = EV_ERROR_DATA; return; } info->error = EV_ERROR_NONE; if (info->delete != -1) virEventPollRemoveHandle(info->delete); } static void testTimer(int timer, void *data) { struct timerInfo *info = data; info->fired = 1; if (timer != info->timer) { info->error = EV_ERROR_WATCH; return; } info->error = EV_ERROR_NONE; if (info->delete != -1) virEventPollRemoveTimeout(info->delete); } static pthread_mutex_t eventThreadMutex = PTHREAD_MUTEX_INITIALIZER; static pthread_cond_t eventThreadRunCond = PTHREAD_COND_INITIALIZER; static int eventThreadRunOnce = 0; static pthread_cond_t eventThreadJobCond = PTHREAD_COND_INITIALIZER; static int eventThreadJobDone = 0; ATTRIBUTE_NORETURN static void *eventThreadLoop(void *data ATTRIBUTE_UNUSED) { while (1) { pthread_mutex_lock(&eventThreadMutex); while (!eventThreadRunOnce) { pthread_cond_wait(&eventThreadRunCond, &eventThreadMutex); } eventThreadRunOnce = 0; pthread_mutex_unlock(&eventThreadMutex); virEventPollRunOnce(); pthread_mutex_lock(&eventThreadMutex); eventThreadJobDone = 1; pthread_cond_signal(&eventThreadJobCond); pthread_mutex_unlock(&eventThreadMutex); } } static int verifyFired(const char *name, int handle, int timer) { int handleFired = 0; int timerFired = 0; int i; for (i = 0 ; i < NUM_FDS ; i++) { if (handles[i].fired) { if (i != handle) { virtTestResult(name, 1, "Handle %d fired, but expected %d\n", i, handle); return EXIT_FAILURE; } else { if (handles[i].error != EV_ERROR_NONE) { virtTestResult(name, 1, "Handle %d fired, but had error %d\n", i, handles[i].error); return EXIT_FAILURE; } handleFired = 1; } } else { if (i == handle) { virtTestResult(name, 1, "Handle %d should have fired, but didn't\n", handle); return EXIT_FAILURE; } } } if (handleFired != 1 && handle != -1) { virtTestResult(name, 1, "Something weird happened, expecting handle %d\n", handle); return EXIT_FAILURE; } for (i = 0 ; i < NUM_TIME ; i++) { if (timers[i].fired) { if (i != timer) { virtTestResult(name, 1, "Timer %d fired, but expected %d\n", i, timer); return EXIT_FAILURE; } else { if (timers[i].error != EV_ERROR_NONE) { virtTestResult(name, 1, "Timer %d fired, but had error %d\n", i, timers[i].error); return EXIT_FAILURE; } timerFired = 1; } } else { if (i == timer) { virtTestResult(name, 1, "Timer %d should have fired, but didn't\n", timer); return EXIT_FAILURE; } } } if (timerFired != 1 && timer != -1) { virtTestResult(name, 1, "Something weird happened, expecting timer %d\n", timer); return EXIT_FAILURE; } return EXIT_SUCCESS; } static void startJob(void) { eventThreadRunOnce = 1; eventThreadJobDone = 0; pthread_cond_signal(&eventThreadRunCond); pthread_mutex_unlock(&eventThreadMutex); sched_yield(); pthread_mutex_lock(&eventThreadMutex); } static int finishJob(const char *name, int handle, int timer) { struct timespec waitTime; int rc; clock_gettime(CLOCK_REALTIME, &waitTime); waitTime.tv_sec += 5; rc = 0; while (!eventThreadJobDone && rc == 0) rc = pthread_cond_timedwait(&eventThreadJobCond, &eventThreadMutex, &waitTime); if (rc != 0) { virtTestResult(name, 1, "Timed out waiting for pipe event\n"); return EXIT_FAILURE; } if (verifyFired(name, handle, timer) != EXIT_SUCCESS) return EXIT_FAILURE; virtTestResult(name, 0, NULL); return EXIT_SUCCESS; } static void resetAll(void) { int i; for (i = 0 ; i < NUM_FDS ; i++) { handles[i].fired = 0; handles[i].error = EV_ERROR_NONE; } for (i = 0 ; i < NUM_TIME ; i++) { timers[i].fired = 0; timers[i].error = EV_ERROR_NONE; } } static int mymain(void) { int i; pthread_t eventThread; char one = '1'; for (i = 0 ; i < NUM_FDS ; i++) { if (pipe(handles[i].pipeFD) < 0) { fprintf(stderr, "Cannot create pipe: %d", errno); return EXIT_FAILURE; } } if (virThreadInitialize() < 0) return EXIT_FAILURE; char *debugEnv = getenv("LIBVIRT_DEBUG"); if (debugEnv && *debugEnv && (virLogParseDefaultPriority(debugEnv) == -1)) { fprintf(stderr, "Invalid log level setting.\n"); return EXIT_FAILURE; } virEventPollInit(); for (i = 0 ; i < NUM_FDS ; i++) { handles[i].delete = -1; handles[i].watch = virEventPollAddHandle(handles[i].pipeFD[0], VIR_EVENT_HANDLE_READABLE, testPipeReader, &handles[i], NULL); } for (i = 0 ; i < NUM_TIME ; i++) { timers[i].delete = -1; timers[i].timeout = -1; timers[i].timer = virEventPollAddTimeout(timers[i].timeout, testTimer, &timers[i], NULL); } pthread_create(&eventThread, NULL, eventThreadLoop, NULL); pthread_mutex_lock(&eventThreadMutex); /* First time, is easy - just try triggering one of our * registered handles */ startJob(); if (safewrite(handles[1].pipeFD[1], &one, 1) != 1) return EXIT_FAILURE; if (finishJob("Simple write", 1, -1) != EXIT_SUCCESS) return EXIT_FAILURE; resetAll(); /* Now lets delete one before starting poll(), and * try triggering another handle */ virEventPollRemoveHandle(handles[0].watch); startJob(); if (safewrite(handles[1].pipeFD[1], &one, 1) != 1) return EXIT_FAILURE; if (finishJob("Deleted before poll", 1, -1) != EXIT_SUCCESS) return EXIT_FAILURE; resetAll(); /* Next lets delete *during* poll, which should interrupt * the loop with no event showing */ /* NB: this case is subject to a bit of a race condition. * We yield & sleep, and pray that the other thread gets * scheduled before we run EventRemoveHandle */ startJob(); pthread_mutex_unlock(&eventThreadMutex); sched_yield(); usleep(100 * 1000); pthread_mutex_lock(&eventThreadMutex); virEventPollRemoveHandle(handles[1].watch); if (finishJob("Interrupted during poll", -1, -1) != EXIT_SUCCESS) return EXIT_FAILURE; resetAll(); /* Getting more fun, lets delete a later handle during dispatch */ /* NB: this case is subject to a bit of a race condition. * Only 1 time in 3 does the 2nd write get triggered by * before poll() exits for the first safewrite(). We don't * see a hard failure in other cases, so nothing to worry * about */ startJob(); handles[2].delete = handles[3].watch; if (safewrite(handles[2].pipeFD[1], &one, 1) != 1 || safewrite(handles[3].pipeFD[1], &one, 1) != 1) return EXIT_FAILURE; if (finishJob("Deleted during dispatch", 2, -1) != EXIT_SUCCESS) return EXIT_FAILURE; resetAll(); /* Extreme fun, lets delete ourselves during dispatch */ startJob(); handles[2].delete = handles[2].watch; if (safewrite(handles[2].pipeFD[1], &one, 1) != 1) return EXIT_FAILURE; if (finishJob("Deleted during dispatch", 2, -1) != EXIT_SUCCESS) return EXIT_FAILURE; resetAll(); /* Run a timer on its own */ virEventPollUpdateTimeout(timers[1].timer, 100); startJob(); if (finishJob("Firing a timer", -1, 1) != EXIT_SUCCESS) return EXIT_FAILURE; virEventPollUpdateTimeout(timers[1].timer, -1); resetAll(); /* Now lets delete one before starting poll(), and * try triggering another timer */ virEventPollUpdateTimeout(timers[1].timer, 100); virEventPollRemoveTimeout(timers[0].timer); startJob(); if (finishJob("Deleted before poll", -1, 1) != EXIT_SUCCESS) return EXIT_FAILURE; virEventPollUpdateTimeout(timers[1].timer, -1); resetAll(); /* Next lets delete *during* poll, which should interrupt * the loop with no event showing */ /* NB: this case is subject to a bit of a race condition. * We yield & sleep, and pray that the other thread gets * scheduled before we run EventRemoveTimeout */ startJob(); pthread_mutex_unlock(&eventThreadMutex); sched_yield(); usleep(100 * 1000); pthread_mutex_lock(&eventThreadMutex); virEventPollRemoveTimeout(timers[1].timer); if (finishJob("Interrupted during poll", -1, -1) != EXIT_SUCCESS) return EXIT_FAILURE; resetAll(); /* Getting more fun, lets delete a later timer during dispatch */ /* NB: this case is subject to a bit of a race condition. * Only 1 time in 3 does the 2nd write get triggered by * before poll() exits for the first safewrite(). We don't * see a hard failure in other cases, so nothing to worry * about */ virEventPollUpdateTimeout(timers[2].timer, 100); virEventPollUpdateTimeout(timers[3].timer, 100); startJob(); timers[2].delete = timers[3].timer; if (finishJob("Deleted during dispatch", -1, 2) != EXIT_SUCCESS) return EXIT_FAILURE; virEventPollUpdateTimeout(timers[2].timer, -1); resetAll(); /* Extreme fun, lets delete ourselves during dispatch */ virEventPollUpdateTimeout(timers[2].timer, 100); startJob(); timers[2].delete = timers[2].timer; if (finishJob("Deleted during dispatch", -1, 2) != EXIT_SUCCESS) return EXIT_FAILURE; for (i = 0 ; i < NUM_FDS - 1 ; i++) virEventPollRemoveHandle(handles[i].watch); for (i = 0 ; i < NUM_TIME - 1 ; i++) virEventPollRemoveTimeout(timers[i].timer); resetAll(); /* Make sure the last handle still works several times in a row. */ for (i = 0; i < 4; i++) { startJob(); if (safewrite(handles[NUM_FDS - 1].pipeFD[1], &one, 1) != 1) return EXIT_FAILURE; if (finishJob("Simple write", NUM_FDS - 1, -1) != EXIT_SUCCESS) return EXIT_FAILURE; resetAll(); } /* Final test, register same FD twice, once with no * events, and make sure the right callback runs */ handles[0].pipeFD[0] = handles[1].pipeFD[0]; handles[0].pipeFD[1] = handles[1].pipeFD[1]; handles[0].watch = virEventPollAddHandle(handles[0].pipeFD[0], 0, testPipeReader, &handles[0], NULL); handles[1].watch = virEventPollAddHandle(handles[1].pipeFD[0], VIR_EVENT_HANDLE_READABLE, testPipeReader, &handles[1], NULL); startJob(); if (safewrite(handles[1].pipeFD[1], &one, 1) != 1) return EXIT_FAILURE; if (finishJob("Write duplicate", 1, -1) != EXIT_SUCCESS) return EXIT_FAILURE; //pthread_kill(eventThread, SIGTERM); return EXIT_SUCCESS; } VIRT_TEST_MAIN(mymain)