/* $NetBSD: callout.c,v 1.3 1995/12/10 10:06:56 mycroft Exp $ */ /* * The mrouted program is covered by the license in the accompanying file * named "LICENSE". Use of the mrouted program represents acceptance of * the terms and conditions listed in that file. * * The mrouted program is COPYRIGHT 1989 by The Board of Trustees of * Leland Stanford Junior University. */ #include "defs.h" /* the code below implements a callout queue */ static int id = 0; static struct timeout_q *Q = 0; /* pointer to the beginning of timeout queue */ static int in_callout = 0; struct timeout_q { struct timeout_q *next; /* next event */ int id; cfunc_t func; /* function to call */ char *data; /* func's data */ int time; /* time offset to next event*/ }; #ifdef IGMP_DEBUG static void print_Q(void); #else #define print_Q() #endif void callout_init(void) { Q = (struct timeout_q *) 0; } /* * signal handler for SIGALARM that is called once every second */ void age_callout_queue(void) { struct timeout_q *ptr; if (in_callout) return; in_callout = 1; ptr = Q; while (ptr) { if (!ptr->time) { /* timeout has happened */ Q = Q->next; in_callout = 0; if (ptr->func) ptr->func(ptr->data); in_callout = 1; free(ptr); ptr = Q; } else { ptr->time --; #ifdef IGMP_DEBUG log(LOG_DEBUG,0,"[callout, age_callout_queue] -- time (%d)", ptr->time); #endif /* IGMP_DEBUG */ in_callout = 0; return; } } in_callout = 0; return; } /* * sets the timer * delay number of units for timeout * action function to be called on timeout * data what to call the timeout function with */ int timer_setTimer(int delay, cfunc_t action, char *data) { struct timeout_q *ptr, *node, *prev; if (in_callout) return -1; in_callout = 1; /* create a node */ node = (struct timeout_q *)malloc(sizeof(struct timeout_q)); if (node == 0) { log(LOG_WARNING, 0, "Malloc Failed in timer_settimer\n"); in_callout = 0; return -1; } node->func = action; node->data = data; node->time = delay; node->next = 0; node->id = ++id; prev = ptr = Q; /* insert node in the queue */ /* if the queue is empty, insert the node and return */ if (!Q) Q = node; else { /* chase the pointer looking for the right place */ while (ptr) { if (delay < ptr->time) { /* right place */ node->next = ptr; if (ptr == Q) Q = node; else prev->next = node; ptr->time -= node->time; print_Q(); in_callout = 0; return node->id; } else { /* keep moving */ delay -= ptr->time; node->time = delay; prev = ptr; ptr = ptr->next; } } prev->next = node; } print_Q(); in_callout = 0; return node->id; } /* clears the associated timer */ void timer_clearTimer(int timer_id) { struct timeout_q *ptr, *prev; if (in_callout) return; if (!timer_id) return; in_callout = 1; prev = ptr = Q; /* * find the right node, delete it. the subsequent node's time * gets bumped up */ print_Q(); while (ptr) { if (ptr->id == timer_id) { /* got the right node */ /* unlink it from the queue */ if (ptr == Q) Q = Q->next; else prev->next = ptr->next; /* increment next node if any */ if (ptr->next != 0) (ptr->next)->time += ptr->time; free(ptr->data); free(ptr); print_Q(); in_callout = 0; return; } prev = ptr; ptr = ptr->next; } print_Q(); in_callout = 0; } #ifdef IGMP_DEBUG /* * debugging utility */ static void print_Q(void) { struct timeout_q *ptr; for(ptr = Q; ptr; ptr = ptr->next) log(LOG_DEBUG,0,"(%d,%d) ", ptr->id, ptr->time); } #endif /* IGMP_DEBUG */ int secs_remaining(int timer_id) { struct timeout_q *ptr; int left=0; for (ptr = Q; ptr && ptr->id != timer_id; ptr = ptr->next) left += ptr->time; if (!ptr) /* not found */ return 0; return left + ptr->time; }