/* * Copyright (c) 2008, 2009 Nicira Networks. * * 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. */ #include #include "fatal-signal.h" #include #include #include #include #include #include #include #include #include #include "poll-loop.h" #include "shash.h" #include "socket-util.h" #include "util.h" #define THIS_MODULE VLM_fatal_signal #include "vlog.h" /* Signals to catch. */ static const int fatal_signals[] = { SIGTERM, SIGINT, SIGHUP, SIGALRM }; /* Signals to catch as a sigset_t. */ static sigset_t fatal_signal_set; /* Hooks to call upon catching a signal */ struct hook { void (*func)(void *aux); void *aux; bool run_at_exit; }; #define MAX_HOOKS 32 static struct hook hooks[MAX_HOOKS]; static size_t n_hooks; static int signal_fds[2]; static volatile sig_atomic_t stored_sig_nr = SIG_ATOMIC_MAX; /* Disabled by fatal_signal_fork()? */ static bool disabled; static void fatal_signal_init(void); static void atexit_handler(void); static void call_hooks(int sig_nr); static void fatal_signal_init(void) { static bool inited = false; if (!inited) { size_t i; inited = true; if (pipe(signal_fds)) { ovs_fatal(errno, "could not create pipe"); } set_nonblocking(signal_fds[0]); set_nonblocking(signal_fds[1]); sigemptyset(&fatal_signal_set); for (i = 0; i < ARRAY_SIZE(fatal_signals); i++) { int sig_nr = fatal_signals[i]; struct sigaction old_sa; sigaddset(&fatal_signal_set, sig_nr); if (sigaction(sig_nr, NULL, &old_sa)) { ovs_fatal(errno, "sigaction"); } if (old_sa.sa_handler == SIG_DFL && signal(sig_nr, fatal_signal_handler) == SIG_ERR) { ovs_fatal(errno, "signal"); } } atexit(atexit_handler); } } /* Registers 'hook' to be called when a process termination signal is raised. * If 'run_at_exit' is true, 'hook' is also called during normal process * termination, e.g. when exit() is called or when main() returns. * * The hook is not called immediately from the signal handler but rather the * next time the poll loop iterates, so it is freed from the usual restrictions * on signal handler functions. */ void fatal_signal_add_hook(void (*func)(void *aux), void *aux, bool run_at_exit) { fatal_signal_init(); assert(n_hooks < MAX_HOOKS); hooks[n_hooks].func = func; hooks[n_hooks].aux = aux; hooks[n_hooks].run_at_exit = run_at_exit; n_hooks++; } /* Handles fatal signal number 'sig_nr'. * * Ordinarily this is the actual signal handler. When other code needs to * handle one of our signals, however, it can register for that signal and, if * and when necessary, call this function to do fatal signal processing for it * and terminate the process. Currently only timeval.c does this, for SIGALRM. * (It is not important whether the other code sets up its signal handler * before or after this file, because this file will only set up a signal * handler in the case where the signal has its default handling.) */ void fatal_signal_handler(int sig_nr) { ignore(write(signal_fds[1], "", 1)); stored_sig_nr = sig_nr; } void fatal_signal_run(void) { int sig_nr = stored_sig_nr; if (sig_nr != SIG_ATOMIC_MAX) { call_hooks(sig_nr); /* Re-raise the signal with the default handling so that the program * termination status reflects that we were killed by this signal */ signal(sig_nr, SIG_DFL); raise(sig_nr); } } void fatal_signal_wait(void) { poll_fd_wait(signal_fds[0], POLLIN); } static void atexit_handler(void) { if (!disabled) { call_hooks(0); } } static void call_hooks(int sig_nr) { static volatile sig_atomic_t recurse = 0; if (!recurse) { size_t i; recurse = 1; for (i = 0; i < n_hooks; i++) { struct hook *h = &hooks[i]; if (sig_nr || h->run_at_exit) { h->func(h->aux); } } } } static struct shash files = SHASH_INITIALIZER(&files); static void unlink_files(void *aux); static void do_unlink_files(void); /* Registers 'file' to be unlinked when the program terminates via exit() or a * fatal signal. */ void fatal_signal_add_file_to_unlink(const char *file) { static bool added_hook = false; if (!added_hook) { added_hook = true; fatal_signal_add_hook(unlink_files, NULL, true); } if (!shash_find(&files, file)) { shash_add(&files, file, NULL); } } /* Unregisters 'file' from being unlinked when the program terminates via * exit() or a fatal signal. */ void fatal_signal_remove_file_to_unlink(const char *file) { struct shash_node *node; node = shash_find(&files, file); if (node) { shash_delete(&files, node); } } /* Like fatal_signal_remove_file_to_unlink(), but also unlinks 'file'. * Returns 0 if successful, otherwise a positive errno value. */ int fatal_signal_unlink_file_now(const char *file) { int error = unlink(file) ? errno : 0; if (error) { VLOG_WARN("could not unlink \"%s\" (%s)", file, strerror(error)); } fatal_signal_remove_file_to_unlink(file); return error; } static void unlink_files(void *aux UNUSED) { do_unlink_files(); } static void do_unlink_files(void) { struct shash_node *node; SHASH_FOR_EACH (node, &files) { unlink(node->name); } } /* Disables the fatal signal hook mechanism. Following a fork, one of the * resulting processes can call this function to allow it to terminate without * triggering fatal signal processing or removing files. Fatal signal * processing is still enabled in the other process. */ void fatal_signal_fork(void) { size_t i; disabled = true; for (i = 0; i < ARRAY_SIZE(fatal_signals); i++) { int sig_nr = fatal_signals[i]; if (signal(sig_nr, SIG_DFL) == SIG_IGN) { signal(sig_nr, SIG_IGN); } } /* Raise any signals that we have already received with the default * handler. */ if (stored_sig_nr != SIG_ATOMIC_MAX) { raise(stored_sig_nr); } }