/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 2016, Fairview 5 Engineering, LLC * * George Joseph * * 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 * * \brief res_pjsip Scheduler * * \author George Joseph */ #include "asterisk.h" #include "asterisk/res_pjsip.h" #include "include/res_pjsip_private.h" #include "asterisk/res_pjsip_cli.h" #include "asterisk/taskprocessor.h" #define TASK_BUCKETS 53 static struct ast_sched_context *scheduler_context; static struct ao2_container *tasks; static int task_count; struct ast_sip_sched_task { /*! The serializer to be used (if any) (Holds a ref) */ struct ast_taskprocessor *serializer; /*! task data */ void *task_data; /*! task function */ ast_sip_task task; /*! the time the task was originally scheduled/queued */ struct timeval when_queued; /*! the last time the task was started */ struct timeval last_start; /*! the last time the task was ended */ struct timeval last_end; /*! When the periodic task is next expected to run */ struct timeval next_periodic; /*! reschedule interval in milliseconds */ int interval; /*! ast_sched scheudler id */ int current_scheduler_id; /*! task is currently running */ int is_running; /*! times run */ int run_count; /*! the task reschedule, cleanup and policy flags */ enum ast_sip_scheduler_task_flags flags; /*! A name to be associated with the task */ char name[0]; }; AO2_STRING_FIELD_HASH_FN(ast_sip_sched_task, name); AO2_STRING_FIELD_CMP_FN(ast_sip_sched_task, name); AO2_STRING_FIELD_SORT_FN(ast_sip_sched_task, name); static int push_to_serializer(const void *data); /* * This function is run in the context of the serializer. * It runs the task with a simple call and reschedules based on the result. */ static int run_task(void *data) { RAII_VAR(struct ast_sip_sched_task *, schtd, data, ao2_cleanup); int res; int delay; if (!schtd->interval) { /* Task was cancelled while waiting to be executed by the serializer */ return -1; } if (schtd->flags & AST_SIP_SCHED_TASK_TRACK) { ast_log(LOG_DEBUG, "Sched %p: Running %s\n", schtd, schtd->name); } ao2_lock(schtd); schtd->last_start = ast_tvnow(); schtd->is_running = 1; ++schtd->run_count; ao2_unlock(schtd); res = schtd->task(schtd->task_data); ao2_lock(schtd); schtd->is_running = 0; schtd->last_end = ast_tvnow(); /* * Don't restart if the task returned <= 0 or if the interval * was set to 0 while the task was running */ if (res <= 0 || !schtd->interval) { schtd->interval = 0; ao2_unlock(schtd); ao2_unlink(tasks, schtd); return -1; } if (schtd->flags & AST_SIP_SCHED_TASK_VARIABLE) { schtd->interval = res; } if (schtd->flags & AST_SIP_SCHED_TASK_DELAY) { delay = schtd->interval; } else { int64_t diff; /* Determine next periodic interval we need to expire. */ do { schtd->next_periodic = ast_tvadd(schtd->next_periodic, ast_samp2tv(schtd->interval, 1000)); diff = ast_tvdiff_ms(schtd->next_periodic, schtd->last_end); } while (diff <= 0); delay = diff; } schtd->current_scheduler_id = ast_sched_add(scheduler_context, delay, push_to_serializer, schtd); if (schtd->current_scheduler_id < 0) { schtd->interval = 0; ao2_unlock(schtd); ast_log(LOG_ERROR, "Sched %p: Failed to reschedule task %s\n", schtd, schtd->name); ao2_unlink(tasks, schtd); return -1; } ao2_unlock(schtd); if (schtd->flags & AST_SIP_SCHED_TASK_TRACK) { ast_log(LOG_DEBUG, "Sched %p: Rescheduled %s for %d ms\n", schtd, schtd->name, delay); } return 0; } /* * This function is run by the scheduler thread. Its only job is to push the task * to the serialize and return. It returns 0 so it's not rescheduled. */ static int push_to_serializer(const void *data) { struct ast_sip_sched_task *schtd = (struct ast_sip_sched_task *)data; int sched_id; ao2_lock(schtd); sched_id = schtd->current_scheduler_id; schtd->current_scheduler_id = -1; ao2_unlock(schtd); if (sched_id < 0) { /* Task was cancelled while waiting on the lock */ return 0; } if (schtd->flags & AST_SIP_SCHED_TASK_TRACK) { ast_log(LOG_DEBUG, "Sched %p: Ready to run %s\n", schtd, schtd->name); } ao2_t_ref(schtd, +1, "Give ref to run_task()"); if (ast_sip_push_task(schtd->serializer, run_task, schtd)) { /* * Oh my. Have to cancel the scheduled item because we * unexpectedly cannot run it anymore. */ ao2_unlink(tasks, schtd); ao2_lock(schtd); schtd->interval = 0; ao2_unlock(schtd); ao2_t_ref(schtd, -1, "Failed so release run_task() ref"); } return 0; } int ast_sip_sched_task_cancel(struct ast_sip_sched_task *schtd) { int res; int sched_id; if (schtd->flags & AST_SIP_SCHED_TASK_TRACK) { ast_log(LOG_DEBUG, "Sched %p: Canceling %s\n", schtd, schtd->name); } /* * Prevent any tasks in the serializer queue from * running and restarting the scheduled item on us * first. */ ao2_lock(schtd); schtd->interval = 0; sched_id = schtd->current_scheduler_id; schtd->current_scheduler_id = -1; ao2_unlock(schtd); res = ast_sched_del(scheduler_context, sched_id); ao2_unlink(tasks, schtd); return res; } int ast_sip_sched_task_cancel_by_name(const char *name) { int res; struct ast_sip_sched_task *schtd; if (ast_strlen_zero(name)) { return -1; } schtd = ao2_find(tasks, name, OBJ_SEARCH_KEY); if (!schtd) { return -1; } res = ast_sip_sched_task_cancel(schtd); ao2_ref(schtd, -1); return res; } int ast_sip_sched_task_get_times(struct ast_sip_sched_task *schtd, struct timeval *queued, struct timeval *last_start, struct timeval *last_end) { ao2_lock(schtd); if (queued) { memcpy(queued, &schtd->when_queued, sizeof(struct timeval)); } if (last_start) { memcpy(last_start, &schtd->last_start, sizeof(struct timeval)); } if (last_end) { memcpy(last_end, &schtd->last_end, sizeof(struct timeval)); } ao2_unlock(schtd); return 0; } int ast_sip_sched_task_get_times_by_name(const char *name, struct timeval *queued, struct timeval *last_start, struct timeval *last_end) { int res; struct ast_sip_sched_task *schtd; if (ast_strlen_zero(name)) { return -1; } schtd = ao2_find(tasks, name, OBJ_SEARCH_KEY); if (!schtd) { return -1; } res = ast_sip_sched_task_get_times(schtd, queued, last_start, last_end); ao2_ref(schtd, -1); return res; } int ast_sip_sched_task_get_name(struct ast_sip_sched_task *schtd, char *name, size_t maxlen) { if (maxlen <= 0) { return -1; } ao2_lock(schtd); ast_copy_string(name, schtd->name, maxlen); ao2_unlock(schtd); return 0; } int ast_sip_sched_task_get_next_run(struct ast_sip_sched_task *schtd) { int delay; struct timeval since_when; struct timeval now; ao2_lock(schtd); if (schtd->interval) { delay = schtd->interval; now = ast_tvnow(); if (schtd->flags & AST_SIP_SCHED_TASK_DELAY) { since_when = schtd->is_running ? now : schtd->last_end; } else { since_when = schtd->last_start.tv_sec ? schtd->last_start : schtd->when_queued; } delay -= ast_tvdiff_ms(now, since_when); delay = delay < 0 ? 0 : delay; } else { delay = -1; } ao2_unlock(schtd); return delay; } int ast_sip_sched_task_get_next_run_by_name(const char *name) { int next_run; struct ast_sip_sched_task *schtd; if (ast_strlen_zero(name)) { return -1; } schtd = ao2_find(tasks, name, OBJ_SEARCH_KEY); if (!schtd) { return -1; } next_run = ast_sip_sched_task_get_next_run(schtd); ao2_ref(schtd, -1); return next_run; } int ast_sip_sched_is_task_running(struct ast_sip_sched_task *schtd) { return schtd ? schtd->is_running : 0; } int ast_sip_sched_is_task_running_by_name(const char *name) { int is_running; struct ast_sip_sched_task *schtd; if (ast_strlen_zero(name)) { return 0; } schtd = ao2_find(tasks, name, OBJ_SEARCH_KEY); if (!schtd) { return 0; } is_running = schtd->is_running; ao2_ref(schtd, -1); return is_running; } static void schtd_dtor(void *data) { struct ast_sip_sched_task *schtd = data; if (schtd->flags & AST_SIP_SCHED_TASK_TRACK) { ast_log(LOG_DEBUG, "Sched %p: Destructor %s\n", schtd, schtd->name); } if (schtd->flags & AST_SIP_SCHED_TASK_DATA_AO2) { /* release our own ref, then release the callers if asked to do so */ ao2_ref(schtd->task_data, (schtd->flags & AST_SIP_SCHED_TASK_DATA_FREE) ? -2 : -1); } else if (schtd->task_data && (schtd->flags & AST_SIP_SCHED_TASK_DATA_FREE)) { ast_free(schtd->task_data); } ast_taskprocessor_unreference(schtd->serializer); } struct ast_sip_sched_task *ast_sip_schedule_task(struct ast_taskprocessor *serializer, int interval, ast_sip_task sip_task, const char *name, void *task_data, enum ast_sip_scheduler_task_flags flags) { #define ID_LEN 13 /* task_deadbeef */ struct ast_sip_sched_task *schtd; int res; if (interval <= 0) { return NULL; } schtd = ao2_alloc((sizeof(*schtd) + (!ast_strlen_zero(name) ? strlen(name) : ID_LEN) + 1), schtd_dtor); if (!schtd) { return NULL; } schtd->serializer = ao2_bump(serializer); schtd->task_data = task_data; schtd->task = sip_task; schtd->interval = interval; schtd->flags = flags; if (!ast_strlen_zero(name)) { strcpy(schtd->name, name); /* Safe */ } else { uint32_t task_id; task_id = ast_atomic_fetchadd_int(&task_count, 1); sprintf(schtd->name, "task_%08x", task_id); } if (schtd->flags & AST_SIP_SCHED_TASK_TRACK) { ast_log(LOG_DEBUG, "Sched %p: Scheduling %s for %d ms\n", schtd, schtd->name, interval); } schtd->when_queued = ast_tvnow(); if (!(schtd->flags & AST_SIP_SCHED_TASK_DELAY)) { schtd->next_periodic = ast_tvadd(schtd->when_queued, ast_samp2tv(schtd->interval, 1000)); } if (flags & AST_SIP_SCHED_TASK_DATA_AO2) { ao2_ref(task_data, +1); } /* * We must put it in the 'tasks' container before scheduling * the task because we don't want the push_to_serializer() * sched task to "remove" it on failure before we even put * it in. If this happens then nothing would remove it from * the 'tasks' container. */ ao2_link(tasks, schtd); /* * Lock so we are guaranteed to get the sched id set before * the push_to_serializer() sched task can clear it. */ ao2_lock(schtd); res = ast_sched_add(scheduler_context, interval, push_to_serializer, schtd); schtd->current_scheduler_id = res; ao2_unlock(schtd); if (res < 0) { ao2_unlink(tasks, schtd); ao2_ref(schtd, -1); return NULL; } return schtd; #undef ID_LEN } static char *cli_show_tasks(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { struct ao2_iterator iter; struct ao2_container *sorted_tasks; struct ast_sip_sched_task *schtd; const char *log_format; struct ast_tm tm; char queued[32]; char last_start[32]; char next_start[32]; int datelen; struct timeval now; static const char separator[] = "============================================="; switch (cmd) { case CLI_INIT: e->command = "pjsip show scheduled_tasks"; e->usage = "Usage: pjsip show scheduled_tasks\n" " Show all scheduled tasks\n"; return NULL; case CLI_GENERATE: return NULL; } if (a->argc != 3) { return CLI_SHOWUSAGE; } /* Get a sorted snapshot of the scheduled tasks */ sorted_tasks = ao2_container_alloc_rbtree(AO2_ALLOC_OPT_LOCK_NOLOCK, 0, ast_sip_sched_task_sort_fn, NULL); if (!sorted_tasks) { return CLI_SUCCESS; } if (ao2_container_dup(sorted_tasks, tasks, 0)) { ao2_ref(sorted_tasks, -1); return CLI_SUCCESS; } now = ast_tvnow(); log_format = ast_logger_get_dateformat(); ast_localtime(&now, &tm, NULL); datelen = ast_strftime(queued, sizeof(queued), log_format, &tm); ast_cli(a->fd, "PJSIP Scheduled Tasks:\n\n"); ast_cli(a->fd, "%1$-45s %2$-9s %3$-9s %4$-5s %6$-*5$s %7$-*5$s %8$-*5$s %9$7s\n", "Task Name", "Interval", "Times Run", "State", datelen, "Queued", "Last Started", "Next Start", "( secs)"); ast_cli(a->fd, "%1$-45.45s %2$-9.9s %3$-9.9s %4$-5.5s %6$-*5$.*5$s %7$-*5$.*5$s %9$-*8$.*8$s\n", separator, separator, separator, separator, datelen, separator, separator, datelen + 8, separator); iter = ao2_iterator_init(sorted_tasks, AO2_ITERATOR_UNLINK); for (; (schtd = ao2_iterator_next(&iter)); ao2_ref(schtd, -1)) { int next_run_sec; struct timeval next; ao2_lock(schtd); next_run_sec = ast_sip_sched_task_get_next_run(schtd) / 1000; if (next_run_sec < 0) { /* Scheduled task is now canceled */ ao2_unlock(schtd); continue; } next = ast_tvadd(now, ast_tv(next_run_sec, 0)); ast_localtime(&schtd->when_queued, &tm, NULL); ast_strftime(queued, sizeof(queued), log_format, &tm); if (ast_tvzero(schtd->last_start)) { strcpy(last_start, "not yet started"); } else { ast_localtime(&schtd->last_start, &tm, NULL); ast_strftime(last_start, sizeof(last_start), log_format, &tm); } ast_localtime(&next, &tm, NULL); ast_strftime(next_start, sizeof(next_start), log_format, &tm); ast_cli(a->fd, "%1$-46.46s%2$9.3f %3$9d %4$-5s %6$-*5$s %7$-*5$s %8$-*5$s (%9$5d)\n", schtd->name, schtd->interval / 1000.0, schtd->run_count, schtd->is_running ? "run" : "wait", datelen, queued, last_start, next_start, next_run_sec); ao2_unlock(schtd); } ao2_iterator_destroy(&iter); ao2_ref(sorted_tasks, -1); ast_cli(a->fd, "\n"); return CLI_SUCCESS; } static struct ast_cli_entry cli_commands[] = { AST_CLI_DEFINE(cli_show_tasks, "Show all scheduled tasks"), }; int ast_sip_initialize_scheduler(void) { scheduler_context = ast_sched_context_create(); if (!scheduler_context) { ast_log(LOG_ERROR, "Failed to create scheduler. Aborting load\n"); return -1; } if (ast_sched_start_thread(scheduler_context)) { ast_log(LOG_ERROR, "Failed to start scheduler. Aborting load\n"); ast_sched_context_destroy(scheduler_context); return -1; } tasks = ao2_container_alloc_hash(AO2_ALLOC_OPT_LOCK_RWLOCK, AO2_CONTAINER_ALLOC_OPT_DUPS_REJECT, TASK_BUCKETS, ast_sip_sched_task_hash_fn, ast_sip_sched_task_sort_fn, ast_sip_sched_task_cmp_fn); if (!tasks) { ast_log(LOG_ERROR, "Failed to allocate task container. Aborting load\n"); ast_sched_context_destroy(scheduler_context); return -1; } ast_cli_register_multiple(cli_commands, ARRAY_LEN(cli_commands)); return 0; } int ast_sip_destroy_scheduler(void) { ast_cli_unregister_multiple(cli_commands, ARRAY_LEN(cli_commands)); if (scheduler_context) { if (tasks) { struct ao2_iterator iter; struct ast_sip_sched_task *schtd; /* Cancel all scheduled tasks */ iter = ao2_iterator_init(tasks, 0); while ((schtd = ao2_iterator_next(&iter))) { ast_sip_sched_task_cancel(schtd); ao2_ref(schtd, -1); } ao2_iterator_destroy(&iter); } ast_sched_context_destroy(scheduler_context); scheduler_context = NULL; } ao2_cleanup(tasks); tasks = NULL; return 0; }