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Diffstat (limited to '')
-rw-r--r-- | src/wdt.c | 189 |
1 files changed, 189 insertions, 0 deletions
diff --git a/src/wdt.c b/src/wdt.c new file mode 100644 index 0000000..6bb7d85 --- /dev/null +++ b/src/wdt.c @@ -0,0 +1,189 @@ +/* + * Thread lockup detection + * + * Copyright 2000-2019 Willy Tarreau <willy@haproxy.org>. + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version + * 2 of the License, or (at your option) any later version. + */ + +#include <signal.h> +#include <time.h> + +#include <haproxy/api.h> +#include <haproxy/clock.h> +#include <haproxy/debug.h> +#include <haproxy/errors.h> +#include <haproxy/global.h> +#include <haproxy/signal-t.h> +#include <haproxy/thread.h> +#include <haproxy/tools.h> + + +/* + * It relies on timer_create() and timer_settime() which are only available in + * this case. + */ +#if defined(USE_RT) && defined(_POSIX_TIMERS) && (_POSIX_TIMERS > 0) && defined(_POSIX_THREAD_CPUTIME) + +/* define a dummy value to designate "no timer". Use only 32 bits. */ +#ifndef TIMER_INVALID +#define TIMER_INVALID ((timer_t)(unsigned long)(0xfffffffful)) +#endif + +static timer_t per_thread_wd_timer[MAX_THREADS]; + +/* Setup (or ping) the watchdog timer for thread <thr>. Returns non-zero on + * success, zero on failure. It interrupts once per second of CPU time. It + * happens that timers based on the CPU time are not automatically re-armed + * so we only use the value and leave the interval unset. + */ +int wdt_ping(int thr) +{ + struct itimerspec its; + + its.it_value.tv_sec = 1; its.it_value.tv_nsec = 0; + its.it_interval.tv_sec = 0; its.it_interval.tv_nsec = 0; + return timer_settime(per_thread_wd_timer[thr], 0, &its, NULL) == 0; +} + +/* This is the WDTSIG signal handler */ +void wdt_handler(int sig, siginfo_t *si, void *arg) +{ + unsigned long long n, p; + int thr; + + switch (si->si_code) { + case SI_TIMER: + /* A thread's timer fired, the thread ID is in si_int. We have + * no guarantee that the thread handling this signal is in any + * way related to the one triggering it, so we need to retrieve + * the thread number from there. Note: this thread might + * continue to execute in parallel. + */ + thr = si->si_value.sival_int; + + /* cannot happen unless an unknown timer tries to play with our + * nerves. Let's die for now if this happens. + */ + if (thr < 0 || thr >= global.nbthread) + break; + + p = ha_thread_ctx[thr].prev_cpu_time; + n = now_cpu_time_thread(thr); + + /* not yet reached the deadline of 1 sec, + * or p wasn't initialized yet + */ + if (!p || n - p < 1000000000UL) + goto update_and_leave; + + if ((threads_harmless_mask|sleeping_thread_mask|threads_to_dump) & (1UL << thr)) { + /* This thread is currently doing exactly nothing + * waiting in the poll loop (unlikely but possible), + * waiting for all other threads to join the rendez-vous + * point (common), or waiting for another thread to + * finish an isolated operation (unlikely but possible). + */ + goto update_and_leave; + } + + /* So the thread indeed appears locked up. In order to be + * certain that we're not witnessing an exceptional spike of + * CPU usage due to a configuration issue (like running tens + * of thousands of tasks in a single loop), we'll check if the + * scheduler is still alive by setting the TH_FL_STUCK flag + * that the scheduler clears when switching to the next task. + * If it's already set, then it's our second call with no + * progress and the thread is dead. + */ + if (!(ha_thread_ctx[thr].flags & TH_FL_STUCK)) { + _HA_ATOMIC_OR(&ha_thread_ctx[thr].flags, TH_FL_STUCK); + goto update_and_leave; + } + + /* No doubt now, there's no hop to recover, die loudly! */ + break; + +#if defined(USE_THREAD) && defined(SI_TKILL) /* Linux uses this */ + + case SI_TKILL: + /* we got a pthread_kill, stop on it */ + thr = tid; + break; + +#elif defined(USE_THREAD) && defined(SI_LWP) /* FreeBSD uses this */ + + case SI_LWP: + /* we got a pthread_kill, stop on it */ + thr = tid; + break; + +#endif + default: + /* unhandled other conditions */ + return; + } + + /* By default we terminate. If we're not on the victim thread, better + * bounce the signal there so that we produce a cleaner stack trace + * with the other thread interrupted exactly where it was running and + * the current one not involved in this. + */ +#ifdef USE_THREAD + if (thr != tid) + ha_tkill(thr, sig); + else +#endif + ha_panic(); + return; + + update_and_leave: + wdt_ping(thr); +} + +int init_wdt_per_thread() +{ + if (!clock_setup_signal_timer(&per_thread_wd_timer[tid], WDTSIG, tid)) + goto fail1; + + if (!wdt_ping(tid)) + goto fail2; + + return 1; + + fail2: + timer_delete(per_thread_wd_timer[tid]); + fail1: + per_thread_wd_timer[tid] = TIMER_INVALID; + ha_warning("Failed to setup watchdog timer for thread %u, disabling lockup detection.\n", tid); + return 1; +} + +void deinit_wdt_per_thread() +{ + if (per_thread_wd_timer[tid] != TIMER_INVALID) + timer_delete(per_thread_wd_timer[tid]); +} + +/* registers the watchdog signal handler and returns 0. This sets up the signal + * handler for WDTSIG, so it must be called once per process. + */ +int init_wdt() +{ + struct sigaction sa; + + sa.sa_handler = NULL; + sa.sa_sigaction = wdt_handler; + sigemptyset(&sa.sa_mask); + sa.sa_flags = SA_SIGINFO; + sigaction(WDTSIG, &sa, NULL); + return ERR_NONE; +} + +REGISTER_POST_CHECK(init_wdt); +REGISTER_PER_THREAD_INIT(init_wdt_per_thread); +REGISTER_PER_THREAD_DEINIT(deinit_wdt_per_thread); +#endif |