/* * $Id$ * * Copyright (C) 2009 iptelorg GmbH * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* * timer_proc.c - separate process timers * (unrelated to the main fast and slow timers) */ /* * History: * -------- * 2009-03-10 initial version (andrei) */ /** * @file * @brief SIP-router core :: timer - separate process timers * * (unrelated to the main fast and slow timers) * * @ingroup core * Module: @ref core */ #include "timer_proc.h" #include "cfg/cfg_struct.h" #include "pt.h" #include "ut.h" #include "mem/shm_mem.h" #include /** * \brief update internal counters for running new basic sec. timers * @param timers number of basic timer processes * @return 0 on success; -1 on error */ int register_basic_timers(int timers) { if(register_procs(timers)<0) return -1; cfg_register_child(timers); return 0; } /** * \brief Forks a separate simple sleep() periodic timer * * Forks a very basic periodic timer process, that just sleep()s for * the specified interval and then calls the timer function. * The new "basic timer" process execution start immediately, the sleep() * is called first (so the first call to the timer function will happen * \ seconds after the call to fork_basic_timer) * @param child_id @see fork_process() * @param desc @see fork_process() * @param make_sock @see fork_process() * @param f timer function/callback * @param param parameter passed to the timer function * @param interval interval in seconds. * @return pid of the new process on success, -1 on error * (doesn't return anything in the child process) */ int fork_basic_timer(int child_id, char* desc, int make_sock, timer_function* f, void* param, int interval) { int pid; pid=fork_process(child_id, desc, make_sock); if (pid<0) return -1; if (pid==0){ /* child */ if (cfg_child_init()) return -1; for(;;){ sleep(interval); cfg_update(); f(get_ticks(), param); /* ticks in s for compatibility with old timers */ } } /* parent */ return pid; } /** * \brief Forks a separate simple milisecond-sleep() periodic timer * * Forks a very basic periodic timer process, that just ms-sleep()s for * the specified interval and then calls the timer function. * The new "basic timer" process execution start immediately, the ms-sleep() * is called first (so the first call to the timer function will happen * \ seconds after the call to fork_basic_utimer) * @param child_id @see fork_process() * @param desc @see fork_process() * @param make_sock @see fork_process() * @param f timer function/callback * @param param parameter passed to the timer function * @param uinterval interval in mili-seconds. * @return pid of the new process on success, -1 on error * (doesn't return anything in the child process) */ int fork_basic_utimer(int child_id, char* desc, int make_sock, utimer_function* f, void* param, int uinterval) { int pid; ticks_t ts; pid=fork_process(child_id, desc, make_sock); if (pid<0) return -1; if (pid==0){ /* child */ if (cfg_child_init()) return -1; for(;;){ sleep_us(uinterval); cfg_update(); ts = get_ticks_raw(); f(TICKS_TO_MS(ts), param); /* ticks in mili-seconds */ } } /* parent */ return pid; } /** * \brief Forks a timer process based on the local timer * * Forks a separate timer process running a local_timer.h type of timer * A pointer to the local_timer handle (allocated in shared memory) is * returned in lt_h. It can be used to add/delete more timers at runtime * (via local_timer_add()/local_timer_del() a.s.o). * If timers are added from separate processes, some form of locking must be * used (all the calls to local_timer* must be enclosed by locks if it * cannot be guaranteed that they cannot execute in the same time) * The timer "engine" must be run manually from the child process. For * example a very simple local timer process that just runs a single * periodic timer can be started in the following way: * struct local_timer* lt_h; * * pid=fork_local_timer_process(...., <_h); * if (pid==0){ * timer_init(&my_timer, my_timer_f, 0, 0); * local_timer_add(<_h, &my_timer, S_TO_TICKS(10), get_ticks_raw()); * while(1) { sleep(1); local_timer_run(lt, get_ticks_raw()); } * } * * @param child_id @see fork_process() * @param desc @see fork_process() * @param make_sock @see fork_process() * @param lt_h local_timer handler * @return pid to the parent, 0 to the child, -1 if error. */ int fork_local_timer_process(int child_id, char* desc, int make_sock, struct local_timer** lt_h) { int pid; struct local_timer* lt; lt=shm_malloc(sizeof(*lt)); if (lt==0) goto error; if (init_local_timer(lt, get_ticks_raw())<0) goto error; pid=fork_process(child_id, desc, make_sock); if (pid<0) goto error; *lt_h=lt; return pid; error: if (lt) shm_free(lt); return -1; } /** * \brief update internal counters for running new sync sec. timers * @param timers number of basic timer processes * @return 0 on success; -1 on error */ int register_sync_timers(int timers) { if(register_procs(timers)<0) return -1; cfg_register_child(timers); return 0; } /** * \brief Forks a separate simple sleep() -&- sync periodic timer * * Forks a very basic periodic timer process, that just sleep()s for * the specified interval and then calls the timer function. * The new "sync timer" process execution start immediately, the sleep() * is called first (so the first call to the timer function will happen * \ seconds after the call to fork_sync_timer) * @param child_id @see fork_process() * @param desc @see fork_process() * @param make_sock @see fork_process() * @param f timer function/callback * @param param parameter passed to the timer function * @param interval interval in seconds. * @return pid of the new process on success, -1 on error * (doesn't return anything in the child process) */ int fork_sync_timer(int child_id, char* desc, int make_sock, timer_function* f, void* param, int interval) { int pid; ticks_t ts1 = 0; ticks_t ts2 = 0; pid=fork_process(child_id, desc, make_sock); if (pid<0) return -1; if (pid==0){ /* child */ ts2 = interval; if (cfg_child_init()) return -1; for(;;){ if(ts2>0) sleep(ts2); else sleep(1); ts1 = get_ticks(); cfg_update(); f(get_ticks(), param); /* ticks in s for compatibility with old timers */ ts2 = interval - get_ticks() + ts1; } } /* parent */ return pid; } /** * \brief Forks a separate simple milisecond-sleep() -&- sync periodic timer * * Forks a very basic periodic timer process, that just ms-sleep()s for * the specified interval and then calls the timer function. * The new "sync timer" process execution start immediately, the ms-sleep() * is called first (so the first call to the timer function will happen * \ seconds after the call to fork_basic_utimer) * @param child_id @see fork_process() * @param desc @see fork_process() * @param make_sock @see fork_process() * @param f timer function/callback * @param param parameter passed to the timer function * @param uinterval interval in mili-seconds. * @return pid of the new process on success, -1 on error * (doesn't return anything in the child process) */ int fork_sync_utimer(int child_id, char* desc, int make_sock, utimer_function* f, void* param, int uinterval) { int pid; ticks_t ts1 = 0; ticks_t ts2 = 0; pid=fork_process(child_id, desc, make_sock); if (pid<0) return -1; if (pid==0){ /* child */ ts2 = uinterval; if (cfg_child_init()) return -1; for(;;){ if(ts2>0) sleep_us(uinterval); else sleep_us(1); ts1 = get_ticks_raw(); cfg_update(); f(TICKS_TO_MS(ts1), param); /* ticks in mili-seconds */ ts2 = uinterval - get_ticks_raw() + ts1; } } /* parent */ return pid; } /* vi: set ts=4 sw=4 tw=79:ai:cindent: */