blob: 14e4f1ef90956c567bc1aa9f11ede86feada4716 [file] [log] [blame]
Willy Tarreau8f38bd02009-05-10 08:53:33 +02001/*
2 * Asynchronous signal delivery functions.
3 *
Willy Tarreau24f4efa2010-08-27 17:56:48 +02004 * Copyright 2000-2010 Willy Tarreau <w@1wt.eu>
Willy Tarreau8f38bd02009-05-10 08:53:33 +02005 *
6 * This program is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU General Public License
8 * as published by the Free Software Foundation; either version
9 * 2 of the License, or (at your option) any later version.
10 *
11 */
12
13#include <signal.h>
Willy Tarreaube8c7362009-07-23 13:40:20 +020014#include <string.h>
15
Willy Tarreau8f38bd02009-05-10 08:53:33 +020016#include <proto/signal.h>
17#include <proto/log.h>
Willy Tarreau24f4efa2010-08-27 17:56:48 +020018#include <proto/task.h>
Willy Tarreau8f38bd02009-05-10 08:53:33 +020019
20/* Principle : we keep an in-order list of the first occurrence of all received
21 * signals. All occurrences of a same signal are grouped though. The signal
22 * queue does not need to be deeper than the number of signals we can handle.
23 * The handlers will be called asynchronously with the signal number. They can
24 * check themselves the number of calls by checking the descriptor this signal.
25 */
26
27int signal_queue_len; /* length of signal queue, <= MAX_SIGNAL (1 entry per signal max) */
28int signal_queue[MAX_SIGNAL]; /* in-order queue of received signals */
29struct signal_descriptor signal_state[MAX_SIGNAL];
Willy Tarreau24f4efa2010-08-27 17:56:48 +020030struct pool_head *pool2_sig_handlers = NULL;
Willy Tarreau8f38bd02009-05-10 08:53:33 +020031sigset_t blocked_sig;
Willy Tarreaud0807c32010-08-27 18:26:11 +020032int signal_pending = 0; /* non-zero if t least one signal remains unprocessed */
Willy Tarreau8f38bd02009-05-10 08:53:33 +020033
Christopher Fauletb79a94c2017-05-30 15:34:30 +020034#ifdef USE_THREAD
35HA_SPINLOCK_T signals_lock;
36#endif
37
Willy Tarreaud0807c32010-08-27 18:26:11 +020038/* Common signal handler, used by all signals. Received signals are queued.
39 * Signal number zero has a specific status, as it cannot be delivered by the
40 * system, any function may call it to perform asynchronous signal delivery.
41 */
42void signal_handler(int sig)
Willy Tarreau8f38bd02009-05-10 08:53:33 +020043{
Willy Tarreau1a53b5e2013-01-24 02:06:05 +010044 if (sig < 0 || sig >= MAX_SIGNAL) {
Willy Tarreau8f38bd02009-05-10 08:53:33 +020045 /* unhandled signal */
Willy Tarreau8f38bd02009-05-10 08:53:33 +020046 signal(sig, SIG_IGN);
Willy Tarreau24f4efa2010-08-27 17:56:48 +020047 qfprintf(stderr, "Received unhandled signal %d. Signal has been disabled.\n", sig);
Willy Tarreau8f38bd02009-05-10 08:53:33 +020048 return;
49 }
50
51 if (!signal_state[sig].count) {
52 /* signal was not queued yet */
53 if (signal_queue_len < MAX_SIGNAL)
54 signal_queue[signal_queue_len++] = sig;
55 else
56 qfprintf(stderr, "Signal %d : signal queue is unexpectedly full.\n", sig);
57 }
Willy Tarreaud0807c32010-08-27 18:26:11 +020058
Willy Tarreau8f38bd02009-05-10 08:53:33 +020059 signal_state[sig].count++;
Willy Tarreaud0807c32010-08-27 18:26:11 +020060 if (sig)
61 signal(sig, signal_handler); /* re-arm signal */
Willy Tarreau8f38bd02009-05-10 08:53:33 +020062}
63
Willy Tarreau8f38bd02009-05-10 08:53:33 +020064/* Call handlers of all pending signals and clear counts and queue length. The
65 * handlers may unregister themselves by calling signal_register() while they
66 * are called, just like it is done with normal signal handlers.
67 * Note that it is more efficient to call the inline version which checks the
68 * queue length before getting here.
69 */
70void __signal_process_queue()
71{
72 int sig, cur_pos = 0;
73 struct signal_descriptor *desc;
74 sigset_t old_sig;
75
Christopher Fauletb79a94c2017-05-30 15:34:30 +020076 if (SPIN_TRYLOCK(SIGNALS_LOCK, &signals_lock))
77 return;
78
Willy Tarreau8f38bd02009-05-10 08:53:33 +020079 /* block signal delivery during processing */
80 sigprocmask(SIG_SETMASK, &blocked_sig, &old_sig);
81
Willy Tarreaud0807c32010-08-27 18:26:11 +020082 /* It is important that we scan the queue forwards so that we can
83 * catch any signal that would have been queued by another signal
84 * handler. That allows real signal handlers to redistribute signals
85 * to tasks subscribed to signal zero.
86 */
Willy Tarreau8f38bd02009-05-10 08:53:33 +020087 for (cur_pos = 0; cur_pos < signal_queue_len; cur_pos++) {
88 sig = signal_queue[cur_pos];
89 desc = &signal_state[sig];
90 if (desc->count) {
Willy Tarreau24f4efa2010-08-27 17:56:48 +020091 struct sig_handler *sh, *shb;
92 list_for_each_entry_safe(sh, shb, &desc->handlers, list) {
93 if ((sh->flags & SIG_F_TYPE_FCT) && sh->handler)
94 ((void (*)(struct sig_handler *))sh->handler)(sh);
95 else if ((sh->flags & SIG_F_TYPE_TASK) && sh->handler)
96 task_wakeup(sh->handler, sh->arg | TASK_WOKEN_SIGNAL);
97 }
Willy Tarreau8f38bd02009-05-10 08:53:33 +020098 desc->count = 0;
99 }
100 }
101 signal_queue_len = 0;
102
103 /* restore signal delivery */
104 sigprocmask(SIG_SETMASK, &old_sig, NULL);
Christopher Fauletb79a94c2017-05-30 15:34:30 +0200105 SPIN_UNLOCK(SIGNALS_LOCK, &signals_lock);
Willy Tarreau8f38bd02009-05-10 08:53:33 +0200106}
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200107
108/* perform minimal intializations, report 0 in case of error, 1 if OK. */
109int signal_init()
110{
111 int sig;
112
113 signal_queue_len = 0;
114 memset(signal_queue, 0, sizeof(signal_queue));
115 memset(signal_state, 0, sizeof(signal_state));
Willy Tarreaud50b4ac2016-04-20 10:33:15 +0200116
Christopher Fauletb79a94c2017-05-30 15:34:30 +0200117 SPIN_INIT(&signals_lock);
118
Willy Tarreaud50b4ac2016-04-20 10:33:15 +0200119 /* Ensure signals are not blocked. Some shells or service managers may
120 * accidently block all of our signals unfortunately, causing lots of
121 * zombie processes to remain in the background during reloads.
122 */
123 sigemptyset(&blocked_sig);
William Lallemand73b85e72017-06-01 17:38:51 +0200124 /* Ensure that SIGUSR2 is blocked until the end of configuration
125 * parsing We don't want the process to be killed by an unregistered
126 * USR2 signal when the master-worker is reloading */
127 sigaddset(&blocked_sig, SIGUSR2);
Willy Tarreaud50b4ac2016-04-20 10:33:15 +0200128 sigprocmask(SIG_SETMASK, &blocked_sig, NULL);
129
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200130 sigfillset(&blocked_sig);
Willy Tarreau6747e272013-01-04 16:20:20 +0100131 sigdelset(&blocked_sig, SIGPROF);
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200132 for (sig = 0; sig < MAX_SIGNAL; sig++)
133 LIST_INIT(&signal_state[sig].handlers);
134
135 pool2_sig_handlers = create_pool("sig_handlers", sizeof(struct sig_handler), MEM_F_SHARED);
136 return pool2_sig_handlers != NULL;
137}
138
139/* releases all registered signal handlers */
140void deinit_signals()
141{
142 int sig;
143 struct sig_handler *sh, *shb;
144
145 for (sig = 0; sig < MAX_SIGNAL; sig++) {
Willy Tarreau6747e272013-01-04 16:20:20 +0100146 if (sig != SIGPROF)
147 signal(sig, SIG_DFL);
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200148 list_for_each_entry_safe(sh, shb, &signal_state[sig].handlers, list) {
149 LIST_DEL(&sh->list);
150 pool_free2(pool2_sig_handlers, sh);
151 }
152 }
Christopher Fauletb79a94c2017-05-30 15:34:30 +0200153 SPIN_DESTROY(&signals_lock);
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200154}
155
156/* Register a function and an integer argument on a signal. A pointer to the
157 * newly allocated sig_handler is returned, or NULL in case of any error. The
158 * caller is responsible for unregistering the function when not used anymore.
159 * Note that passing a NULL as the function pointer enables interception of the
Willy Tarreaud0807c32010-08-27 18:26:11 +0200160 * signal without processing, which is identical to SIG_IGN. If the signal is
161 * zero (which the system cannot deliver), only internal functions will be able
162 * to notify the registered functions.
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200163 */
164struct sig_handler *signal_register_fct(int sig, void (*fct)(struct sig_handler *), int arg)
165{
166 struct sig_handler *sh;
167
Willy Tarreau1a53b5e2013-01-24 02:06:05 +0100168 if (sig < 0 || sig >= MAX_SIGNAL)
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200169 return NULL;
170
Willy Tarreaud0807c32010-08-27 18:26:11 +0200171 if (sig)
Willy Tarreauc39b0d12012-10-04 19:19:36 +0200172 signal(sig, fct ? signal_handler : SIG_IGN);
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200173
174 if (!fct)
175 return NULL;
176
177 sh = pool_alloc2(pool2_sig_handlers);
178 if (!sh)
179 return NULL;
180
181 sh->handler = fct;
182 sh->arg = arg;
183 sh->flags = SIG_F_TYPE_FCT;
184 LIST_ADDQ(&signal_state[sig].handlers, &sh->list);
185 return sh;
186}
187
188/* Register a task and a wake-up reason on a signal. A pointer to the newly
189 * allocated sig_handler is returned, or NULL in case of any error. The caller
190 * is responsible for unregistering the task when not used anymore. Note that
191 * passing a NULL as the task pointer enables interception of the signal
Willy Tarreaud0807c32010-08-27 18:26:11 +0200192 * without processing, which is identical to SIG_IGN. If the signal is zero
193 * (which the system cannot deliver), only internal functions will be able to
194 * notify the registered functions.
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200195 */
196struct sig_handler *signal_register_task(int sig, struct task *task, int reason)
197{
198 struct sig_handler *sh;
199
Willy Tarreau1a53b5e2013-01-24 02:06:05 +0100200 if (sig < 0 || sig >= MAX_SIGNAL)
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200201 return NULL;
202
Willy Tarreaud0807c32010-08-27 18:26:11 +0200203 if (sig)
204 signal(sig, signal_handler);
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200205
206 if (!task)
207 return NULL;
208
209 sh = pool_alloc2(pool2_sig_handlers);
210 if (!sh)
211 return NULL;
212
213 sh->handler = task;
214 sh->arg = reason & ~TASK_WOKEN_ANY;
215 sh->flags = SIG_F_TYPE_TASK;
216 LIST_ADDQ(&signal_state[sig].handlers, &sh->list);
217 return sh;
218}
219
220/* Immediately unregister a handler so that no further signals may be delivered
221 * to it. The struct is released so the caller may not reference it anymore.
222 */
223void signal_unregister_handler(struct sig_handler *handler)
224{
225 LIST_DEL(&handler->list);
226 pool_free2(pool2_sig_handlers, handler);
227}
228
229/* Immediately unregister a handler so that no further signals may be delivered
230 * to it. The handler struct does not need to be known, only the function or
231 * task pointer. This method is expensive because it scans all the list, so it
232 * should only be used for rare cases (eg: exit). The struct is released so the
233 * caller may not reference it anymore.
234 */
235void signal_unregister_target(int sig, void *target)
236{
237 struct sig_handler *sh, *shb;
238
Willy Tarreau1a53b5e2013-01-24 02:06:05 +0100239 if (sig < 0 || sig >= MAX_SIGNAL)
Willy Tarreau24f4efa2010-08-27 17:56:48 +0200240 return;
241
242 if (!target)
243 return;
244
245 list_for_each_entry_safe(sh, shb, &signal_state[sig].handlers, list) {
246 if (sh->handler == target) {
247 LIST_DEL(&sh->list);
248 pool_free2(pool2_sig_handlers, sh);
249 break;
250 }
251 }
252}