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construct/rb/event.c

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/*
* ircd-ratbox: A slightly useful ircd.
* event.c: Event functions.
*
* Copyright (C) 1998-2000 Regents of the University of California
* Copyright (C) 2001-2002 Hybrid Development Team
* Copyright (C) 2002-2005 ircd-ratbox development team
*
* Code borrowed from the squid web cache by Adrian Chadd.
* Original header:
*
* DEBUG: section 41 Event Processing
* AUTHOR: Henrik Nordstrom
*
* SQUID Internet Object Cache http://squid.nlanr.net/Squid/
* ----------------------------------------------------------
*
* Squid is the result of efforts by numerous individuals from the
* Internet community. Development is led by Duane Wessels of the
* National Laboratory for Applied Network Research and funded by the
* National Science Foundation. Squid is Copyrighted (C) 1998 by
* the Regents of the University of California. Please see the
* COPYRIGHT file for full details. Squid incorporates software
* developed and/or copyrighted by other sources. Please see the
* CREDITS file for full details.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301
* USA
*
*/
#include <rb/rb.h>
#include <rb/commio_int.h>
#include <rb/event_int.h>
#define EV_NAME_LEN 33
static char last_event_ran[EV_NAME_LEN];
static rb_dlink_list event_list;
static time_t event_time_min = -1;
/*
* struct ev_entry *
* rb_event_find(EVH *func, void *arg)
*
* Input: Event function and the argument passed to it
* Output: Index to the slow in the event_table
* Side Effects: None
*/
static struct ev_entry *
rb_event_find(EVH * func, void *arg)
{
rb_dlink_node *ptr;
struct ev_entry *ev;
RB_DLINK_FOREACH(ptr, event_list.head)
{
ev = ptr->data;
if((ev->func == func) && (ev->arg == arg))
return ev;
}
return NULL;
}
static
struct ev_entry *
rb_event_add_common(const char *name, EVH * func, void *arg, time_t when, time_t frequency)
{
struct ev_entry *ev;
ev = rb_malloc(sizeof(struct ev_entry));
ev->func = func;
ev->name = rb_strndup(name, EV_NAME_LEN);
ev->arg = arg;
ev->when = rb_current_time() + when;
ev->next = when;
ev->frequency = frequency;
if((ev->when < event_time_min) || (event_time_min == -1))
event_time_min = ev->when;
rb_dlinkAdd(ev, &ev->node, &event_list);
rb_io_sched_event(ev, when);
return ev;
}
/*
* struct ev_entry *
* rb_event_add(const char *name, EVH *func, void *arg, time_t when)
*
* Input: Name of event, function to call, arguments to pass, and frequency
* of the event.
* Output: None
* Side Effects: Adds the event to the event list.
*/
struct ev_entry *
rb_event_add(const char *name, EVH * func, void *arg, time_t when)
{
if (rb_unlikely(when <= 0)) {
rb_lib_log("rb_event_add: tried to schedule %s event with a delay of "
"%d seconds", name, (int) when);
when = 1;
}
return rb_event_add_common(name, func, arg, when, when);
}
struct ev_entry *
rb_event_addonce(const char *name, EVH * func, void *arg, time_t when)
{
if (rb_unlikely(when <= 0)) {
rb_lib_log("rb_event_addonce: tried to schedule %s event to run in "
"%d seconds", name, (int) when);
when = 1;
}
return rb_event_add_common(name, func, arg, when, 0);
}
/*
* void rb_event_delete(struct ev_entry *ev)
*
* Input: pointer to ev_entry for the event
* Output: None
* Side Effects: Removes the event from the event list
*/
void
rb_event_delete(struct ev_entry *ev)
{
if(ev == NULL)
return;
rb_dlinkDelete(&ev->node, &event_list);
rb_io_unsched_event(ev);
rb_free(ev->name);
rb_free(ev);
}
/*
* void rb_event_find_delete(EVH *func, void *arg)
*
* Input: pointer to func and data
* Output: None
* Side Effects: Removes the event from the event list
*/
void
rb_event_find_delete(EVH * func, void *arg)
{
rb_event_delete(rb_event_find(func, arg));
}
static time_t
rb_event_frequency(time_t frequency)
{
if(frequency < 0)
{
const time_t two_third = (2 * labs(frequency)) / 3;
frequency = two_third + ((rand() % 1000) * two_third) / 1000;
}
return frequency;
}
/*
* struct ev_entry *
* rb_event_addish(const char *name, EVH *func, void *arg, time_t delta_isa)
*
* Input: Name of event, function to call, arguments to pass, and frequency
* of the event.
* Output: None
* Side Effects: Adds the event to the event list within +- 1/3 of the
* specified frequency.
*/
struct ev_entry *
rb_event_addish(const char *name, EVH * func, void *arg, time_t delta_ish)
{
delta_ish = labs(delta_ish);
if(delta_ish >= 3.0)
delta_ish = -delta_ish;
return rb_event_add_common(name, func, arg,
rb_event_frequency(delta_ish), delta_ish);
}
void
rb_run_one_event(struct ev_entry *ev)
{
rb_strlcpy(last_event_ran, ev->name, sizeof(last_event_ran));
ev->func(ev->arg);
if(!ev->frequency)
{
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rb_event_delete(ev);
return;
}
ev->when = rb_current_time() + rb_event_frequency(ev->frequency);
if((ev->when < event_time_min) || (event_time_min == -1))
event_time_min = ev->when;
}
/*
* void rb_event_run(void)
*
* Input: None
* Output: None
* Side Effects: Runs pending events in the event list
*/
void
rb_event_run(void)
{
rb_dlink_node *ptr, *next;
struct ev_entry *ev;
if(rb_io_supports_event())
return;
event_time_min = -1;
RB_DLINK_FOREACH_SAFE(ptr, next, event_list.head)
{
ev = ptr->data;
if(ev->when <= rb_current_time())
{
rb_strlcpy(last_event_ran, ev->name, sizeof(last_event_ran));
ev->func(ev->arg);
/* event is scheduled more than once */
if(ev->frequency)
{
ev->when = rb_current_time() + rb_event_frequency(ev->frequency);
if((ev->when < event_time_min) || (event_time_min == -1))
event_time_min = ev->when;
}
else
{
rb_dlinkDelete(&ev->node, &event_list);
rb_free(ev);
}
}
else
{
if((ev->when < event_time_min) || (event_time_min == -1))
event_time_min = ev->when;
}
}
}
void
rb_event_io_register_all(void)
{
rb_dlink_node *ptr;
struct ev_entry *ev;
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if(!rb_io_supports_event())
return;
RB_DLINK_FOREACH(ptr, event_list.head)
{
ev = ptr->data;
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rb_io_sched_event(ev, ev->next);
}
}
/*
* void rb_event_init(void)
*
* Input: None
* Output: None
* Side Effects: Initializes the event system.
*/
void
rb_event_init(void)
{
rb_strlcpy(last_event_ran, "NONE", sizeof(last_event_ran));
}
void
rb_dump_events(void (*func) (char *, void *), void *ptr)
{
int len;
char buf[512];
rb_dlink_node *dptr;
struct ev_entry *ev;
len = sizeof(buf);
snprintf(buf, len, "Last event to run: %s", last_event_ran);
func(buf, ptr);
rb_strlcpy(buf, "Operation Next Execution", len);
func(buf, ptr);
RB_DLINK_FOREACH(dptr, event_list.head)
{
ev = dptr->data;
snprintf(buf, len, "%-28s %-4ld seconds (frequency=%d)", ev->name,
ev->when - (long)rb_current_time(), (int)ev->frequency);
func(buf, ptr);
}
}
/*
* void rb_set_back_events(time_t by)
* Input: Time to set back events by.
* Output: None.
* Side-effects: Sets back all events by "by" seconds.
*/
void
rb_set_back_events(time_t by)
{
rb_dlink_node *ptr;
struct ev_entry *ev;
RB_DLINK_FOREACH(ptr, event_list.head)
{
ev = ptr->data;
if(ev->when > by)
ev->when -= by;
else
ev->when = 0;
}
}
void
rb_event_update(struct ev_entry *ev, time_t freq)
{
if(ev == NULL)
return;
ev->frequency = freq;
/* update when it's scheduled to run if it's higher
* than the new frequency
*/
time_t next = rb_event_frequency(freq);
if((rb_current_time() + next) < ev->when)
ev->when = rb_current_time() + next;
return;
}
time_t
rb_event_next(void)
{
return event_time_min;
}