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asterisk/res/res_timing_pthread.c
David Vossel 8e2f88caf5 Merged revisions 199743 via svnmerge from 
https://origsvn.digium.com/svn/asterisk/trunk

........
  r199743 | dvossel | 2009-06-09 11:22:04 -0500 (Tue, 09 Jun 2009) | 11 lines
  
  module load priority
  
  This patch adds the option to give a module a load priority. The value represents the order in which a module's load() function is initialized.  The lower the value, the higher the priority.  The value is only checked if the AST_MODFLAG_LOAD_ORDER flag is set.  If the AST_MODFLAG_LOAD_ORDER flag is not set, the value will never be read and the module will be given the lowest possible priority
  on load.  Since some modules are reliant on a timing interface, the timing modules have been given a high load priorty.
  
  (closes issue #15191)
  Reported by: alecdavis
  Tested by: dvossel
  
  Review: https://reviewboard.asterisk.org/r/262/
........


git-svn-id: https://origsvn.digium.com/svn/asterisk/branches/1.6.1@199745 65c4cc65-6c06-0410-ace0-fbb531ad65f3
2009-06-09 16:33:31 +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
*/
#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"
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 void 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 void 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 void pthread_timer_ack(int handle, unsigned int quantity)
{
struct pthread_timer *timer;
ast_assert(quantity > 0);
if (!(timer = find_timer(handle, 0))) {
return;
}
ao2_lock(timer);
read_pipe(timer, quantity);
ao2_unlock(timer);
ao2_ref(timer, -1);
}
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;
read_pipe(timer, 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
*/
static void 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;
}
do {
unsigned char buf[1024];
ssize_t res;
fd_set rfds;
struct timeval timeout = {
.tv_sec = 0,
};
/* Make sure there is data to read */
FD_ZERO(&rfds);
FD_SET(rd_fd, &rfds);
if (select(rd_fd + 1, &rfds, NULL, NULL, &timeout) != 1) {
ast_debug(1, "Reading not available on timing pipe, "
"quantity: %u\n", quantity);
break;
}
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));
break;
}
quantity -= res;
timer->pending_ticks -= res;
} while (quantity);
}
/*!
* \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 = 10,
);
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