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asterisk/res/res_timing_pthread.c
Matthew Jordan a0c363e227 Refactor ast_timer_ack to return an error and handle the error in timer users 
Currently, if an acknowledgement of a timer fails Asterisk will not realize
that a serious error occurred and will continue attempting to use the timer's
file descriptor.  This can lead to situations where errors stream to the
CLI/log file.  This consumes significant resources, masks the actual problem
that occurred (whatever caused the timer to fail in the first place), and
can leave channels in odd states.

This patch propagates the errors in the timing resource modules up through
the timer core, and makes users of these timers handle acknowledgement
failures.  It also adds some defensive coding around the use of timers
to prevent using bad file descriptors in off nominal code paths.

Note that the patch created by the issue reporter was modified slightly for
this commit and backported to 1.8, as it was originally written for
Asterisk 10.

Review: https://reviewboard.asterisk.org/r/2178/

(issue ASTERISK-20032)
Reported by: Jeremiah Gowdy
patches:
  jgowdy-timerfd-6-22-2012.diff uploaded by Jeremiah Gowdy (license 6358)
........

Merged revisions 375893 from http://svn.asterisk.org/svn/asterisk/branches/1.8
........

Merged revisions 375894 from http://svn.asterisk.org/svn/asterisk/branches/10
........

Merged revisions 375895 from http://svn.asterisk.org/svn/asterisk/branches/11


git-svn-id: https://origsvn.digium.com/svn/asterisk/trunk@375896 65c4cc65-6c06-0410-ace0-fbb531ad65f3
2012-11-05 23:10:14 +00:00

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/*
* Asterisk -- An open source telephony toolkit.
*
* Copyright (C) 2008, Digium, Inc.
*
* Russell Bryant <russell@digium.com>
*
* See http://www.asterisk.org for more information about
* the Asterisk project. Please do not directly contact
* any of the maintainers of this project for assistance;
* the project provides a web site, mailing lists and IRC
* channels for your use.
*
* This program is free software, distributed under the terms of
* the GNU General Public License Version 2. See the LICENSE file
* at the top of the source tree.
*/
/*!
* \file
* \author Russell Bryant <russell@digium.com>
*
* \brief pthread timing interface
*/
/*** MODULEINFO
<support_level>extended</support_level>
***/
#include "asterisk.h"
ASTERISK_FILE_VERSION(__FILE__, "$Revision$");
#include <math.h>
#include <sys/select.h>
#include "asterisk/module.h"
#include "asterisk/timing.h"
#include "asterisk/utils.h"
#include "asterisk/astobj2.h"
#include "asterisk/time.h"
#include "asterisk/lock.h"
#include "asterisk/poll-compat.h"
static void *timing_funcs_handle;
static int pthread_timer_open(void);
static void pthread_timer_close(int handle);
static int pthread_timer_set_rate(int handle, unsigned int rate);
static int pthread_timer_ack(int handle, unsigned int quantity);
static int pthread_timer_enable_continuous(int handle);
static int pthread_timer_disable_continuous(int handle);
static enum ast_timer_event pthread_timer_get_event(int handle);
static unsigned int pthread_timer_get_max_rate(int handle);
static struct ast_timing_interface pthread_timing = {
.name = "pthread",
.priority = 0, /* use this as a last resort */
.timer_open = pthread_timer_open,
.timer_close = pthread_timer_close,
.timer_set_rate = pthread_timer_set_rate,
.timer_ack = pthread_timer_ack,
.timer_enable_continuous = pthread_timer_enable_continuous,
.timer_disable_continuous = pthread_timer_disable_continuous,
.timer_get_event = pthread_timer_get_event,
.timer_get_max_rate = pthread_timer_get_max_rate,
};
/* 1 tick / 10 ms */
#define MAX_RATE 100
static struct ao2_container *pthread_timers;
#define PTHREAD_TIMER_BUCKETS 563
enum {
PIPE_READ = 0,
PIPE_WRITE = 1
};
enum pthread_timer_state {
TIMER_STATE_IDLE,
TIMER_STATE_TICKING,
};
struct pthread_timer {
int pipe[2];
enum pthread_timer_state state;
unsigned int rate;
/*! Interval in ms for current rate */
unsigned int interval;
unsigned int tick_count;
unsigned int pending_ticks;
struct timeval start;
unsigned int continuous:1;
};
static void pthread_timer_destructor(void *obj);
static struct pthread_timer *find_timer(int handle, int unlinkobj);
static void write_byte(struct pthread_timer *timer);
static int read_pipe(struct pthread_timer *timer, unsigned int num);
/*!
* \brief Data for the timing thread
*/
static struct {
pthread_t thread;
ast_mutex_t lock;
ast_cond_t cond;
unsigned int stop:1;
} timing_thread;
static int pthread_timer_open(void)
{
struct pthread_timer *timer;
int fd;
if (!(timer = ao2_alloc(sizeof(*timer), pthread_timer_destructor))) {
errno = ENOMEM;
return -1;
}
timer->pipe[PIPE_READ] = timer->pipe[PIPE_WRITE] = -1;
timer->state = TIMER_STATE_IDLE;
if (pipe(timer->pipe)) {
ao2_ref(timer, -1);
return -1;
}
ao2_lock(pthread_timers);
if (!ao2_container_count(pthread_timers)) {
ast_mutex_lock(&timing_thread.lock);
ast_cond_signal(&timing_thread.cond);
ast_mutex_unlock(&timing_thread.lock);
}
ao2_link(pthread_timers, timer);
ao2_unlock(pthread_timers);
fd = timer->pipe[PIPE_READ];
ao2_ref(timer, -1);
return fd;
}
static void pthread_timer_close(int handle)
{
struct pthread_timer *timer;
if (!(timer = find_timer(handle, 1))) {
return;
}
ao2_ref(timer, -1);
}
static int pthread_timer_set_rate(int handle, unsigned int rate)
{
struct pthread_timer *timer;
if (!(timer = find_timer(handle, 0))) {
errno = EINVAL;
return -1;
}
if (rate > MAX_RATE) {
ast_log(LOG_ERROR, "res_timing_pthread only supports timers at a "
"max rate of %d / sec\n", MAX_RATE);
errno = EINVAL;
return -1;
}
ao2_lock(timer);
if ((timer->rate = rate)) {
timer->interval = roundf(1000.0 / ((float) rate));
timer->start = ast_tvnow();
timer->state = TIMER_STATE_TICKING;
} else {
timer->interval = 0;
timer->start = ast_tv(0, 0);
timer->state = TIMER_STATE_IDLE;
}
timer->tick_count = 0;
ao2_unlock(timer);
ao2_ref(timer, -1);
return 0;
}
static int pthread_timer_ack(int handle, unsigned int quantity)
{
struct pthread_timer *timer;
int res;
ast_assert(quantity > 0);
if (!(timer = find_timer(handle, 0))) {
return -1;
}
ao2_lock(timer);
res = read_pipe(timer, quantity);
ao2_unlock(timer);
ao2_ref(timer, -1);
return res;
}
static int pthread_timer_enable_continuous(int handle)
{
struct pthread_timer *timer;
if (!(timer = find_timer(handle, 0))) {
errno = EINVAL;
return -1;
}
ao2_lock(timer);
if (!timer->continuous) {
timer->continuous = 1;
write_byte(timer);
}
ao2_unlock(timer);
ao2_ref(timer, -1);
return 0;
}
static int pthread_timer_disable_continuous(int handle)
{
struct pthread_timer *timer;
if (!(timer = find_timer(handle, 0))) {
errno = EINVAL;
return -1;
}
ao2_lock(timer);
if (timer->continuous) {
timer->continuous = 0;
if (read_pipe(timer, 1) != 0) {
/* Let the errno from read_pipe propagate up */
ao2_unlock(timer);
ao2_ref(timer, -1);
return -1;
}
}
ao2_unlock(timer);
ao2_ref(timer, -1);
return 0;
}
static enum ast_timer_event pthread_timer_get_event(int handle)
{
struct pthread_timer *timer;
enum ast_timer_event res = AST_TIMING_EVENT_EXPIRED;
if (!(timer = find_timer(handle, 0))) {
return res;
}
ao2_lock(timer);
if (timer->continuous && timer->pending_ticks == 1) {
res = AST_TIMING_EVENT_CONTINUOUS;
}
ao2_unlock(timer);
ao2_ref(timer, -1);
return res;
}
static unsigned int pthread_timer_get_max_rate(int handle)
{
return MAX_RATE;
}
static struct pthread_timer *find_timer(int handle, int unlinkobj)
{
struct pthread_timer *timer;
struct pthread_timer tmp_timer;
int flags = OBJ_POINTER;
tmp_timer.pipe[PIPE_READ] = handle;
if (unlinkobj) {
flags |= OBJ_UNLINK;
}
if (!(timer = ao2_find(pthread_timers, &tmp_timer, flags))) {
ast_assert(timer != NULL);
return NULL;
}
return timer;
}
static void pthread_timer_destructor(void *obj)
{
struct pthread_timer *timer = obj;
if (timer->pipe[PIPE_READ] > -1) {
close(timer->pipe[PIPE_READ]);
timer->pipe[PIPE_READ] = -1;
}
if (timer->pipe[PIPE_WRITE] > -1) {
close(timer->pipe[PIPE_WRITE]);
timer->pipe[PIPE_WRITE] = -1;
}
}
/*!
* \note only PIPE_READ is guaranteed valid
*/
static int pthread_timer_hash(const void *obj, const int flags)
{
const struct pthread_timer *timer = obj;
return timer->pipe[PIPE_READ];
}
/*!
* \note only PIPE_READ is guaranteed valid
*/
static int pthread_timer_cmp(void *obj, void *arg, int flags)
{
struct pthread_timer *timer1 = obj, *timer2 = arg;
return (timer1->pipe[PIPE_READ] == timer2->pipe[PIPE_READ]) ? CMP_MATCH | CMP_STOP : 0;
}
/*!
* \retval 0 no timer tick needed
* \retval non-zero write to the timing pipe needed
*/
static int check_timer(struct pthread_timer *timer)
{
struct timeval now;
if (timer->state == TIMER_STATE_IDLE) {
return 0;
}
now = ast_tvnow();
if (timer->tick_count < (ast_tvdiff_ms(now, timer->start) / timer->interval)) {
timer->tick_count++;
if (!timer->tick_count) {
/* Handle overflow. */
timer->start = now;
}
return 1;
}
return 0;
}
/*!
* \internal
* \pre timer is locked
* \retval 0 if nothing to read or read success
* \retval -1 on error
*/
static int read_pipe(struct pthread_timer *timer, unsigned int quantity)
{
int rd_fd = timer->pipe[PIPE_READ];
int pending_ticks = timer->pending_ticks;
ast_assert(quantity);
if (timer->continuous && pending_ticks) {
pending_ticks--;
}
if (quantity > pending_ticks) {
quantity = pending_ticks;
}
if (!quantity) {
return 0;
}
do {
unsigned char buf[1024];
ssize_t res;
struct pollfd pfd = {
.fd = rd_fd,
.events = POLLIN,
};
if (ast_poll(&pfd, 1, 0) != 1) {
ast_debug(1, "Reading not available on timing pipe, "
"quantity: %u\n", quantity);
return -1;
}
res = read(rd_fd, buf,
(quantity < sizeof(buf)) ? quantity : sizeof(buf));
if (res == -1) {
if (errno == EAGAIN) {
continue;
}
ast_log(LOG_ERROR, "read failed on timing pipe: %s\n",
strerror(errno));
return -1;
}
quantity -= res;
timer->pending_ticks -= res;
} while (quantity);
return 0;
}
/*!
* \internal
* \pre timer is locked
*/
static void write_byte(struct pthread_timer *timer)
{
ssize_t res;
unsigned char x = 42;
do {
res = write(timer->pipe[PIPE_WRITE], &x, 1);
} while (res == -1 && errno == EAGAIN);
if (res == -1) {
ast_log(LOG_ERROR, "Error writing to timing pipe: %s\n",
strerror(errno));
} else {
timer->pending_ticks++;
}
}
static int run_timer(void *obj, void *arg, int flags)
{
struct pthread_timer *timer = obj;
if (timer->state == TIMER_STATE_IDLE) {
return 0;
}
ao2_lock(timer);
if (check_timer(timer)) {
write_byte(timer);
}
ao2_unlock(timer);
return 0;
}
static void *do_timing(void *arg)
{
struct timeval next_wakeup = ast_tvnow();
while (!timing_thread.stop) {
struct timespec ts = { 0, };
ao2_callback(pthread_timers, OBJ_NODATA, run_timer, NULL);
next_wakeup = ast_tvadd(next_wakeup, ast_tv(0, 5000));
ts.tv_sec = next_wakeup.tv_sec;
ts.tv_nsec = next_wakeup.tv_usec * 1000;
ast_mutex_lock(&timing_thread.lock);
if (!timing_thread.stop) {
if (ao2_container_count(pthread_timers)) {
ast_cond_timedwait(&timing_thread.cond, &timing_thread.lock, &ts);
} else {
ast_cond_wait(&timing_thread.cond, &timing_thread.lock);
}
}
ast_mutex_unlock(&timing_thread.lock);
}
return NULL;
}
static int init_timing_thread(void)
{
ast_mutex_init(&timing_thread.lock);
ast_cond_init(&timing_thread.cond, NULL);
if (ast_pthread_create_background(&timing_thread.thread, NULL, do_timing, NULL)) {
ast_log(LOG_ERROR, "Unable to start timing thread.\n");
return -1;
}
return 0;
}
static int load_module(void)
{
if (!(pthread_timers = ao2_container_alloc(PTHREAD_TIMER_BUCKETS,
pthread_timer_hash, pthread_timer_cmp))) {
return AST_MODULE_LOAD_DECLINE;
}
if (init_timing_thread()) {
ao2_ref(pthread_timers, -1);
pthread_timers = NULL;
return AST_MODULE_LOAD_DECLINE;
}
return (timing_funcs_handle = ast_register_timing_interface(&pthread_timing)) ?
AST_MODULE_LOAD_SUCCESS : AST_MODULE_LOAD_DECLINE;
}
static int unload_module(void)
{
int res;
ast_mutex_lock(&timing_thread.lock);
timing_thread.stop = 1;
ast_cond_signal(&timing_thread.cond);
ast_mutex_unlock(&timing_thread.lock);
pthread_join(timing_thread.thread, NULL);
if (!(res = ast_unregister_timing_interface(timing_funcs_handle))) {
ao2_ref(pthread_timers, -1);
pthread_timers = NULL;
}
return res;
}
AST_MODULE_INFO(ASTERISK_GPL_KEY, AST_MODFLAG_LOAD_ORDER, "pthread Timing Interface",
.load = load_module,
.unload = unload_module,
.load_pri = AST_MODPRI_TIMING,
);
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