freebsd-skq/lib/libc/isc/ev_timers.c

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/*
* Copyright (c) 2004 by Internet Systems Consortium, Inc. ("ISC")
* Copyright (c) 1995-1999 by Internet Software Consortium
*
* 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 ISC DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL ISC 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.
*/
/* ev_timers.c - implement timers for the eventlib
* vix 09sep95 [initial]
*/
#if !defined(LINT) && !defined(CODECENTER)
static const char rcsid[] = "$Id: ev_timers.c,v 1.5.18.1 2005/04/27 05:01:06 sra Exp $";
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#endif
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
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/* Import. */
#include "port_before.h"
#ifndef _LIBC
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#include "fd_setsize.h"
#endif
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#include <errno.h>
#ifndef _LIBC
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#include <isc/assertions.h>
#endif
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#include <isc/eventlib.h>
#include "eventlib_p.h"
#include "port_after.h"
/* Constants. */
#define MILLION 1000000
#define BILLION 1000000000
/* Forward. */
#ifdef _LIBC
static int __evOptMonoTime;
#else
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static int due_sooner(void *, void *);
static void set_index(void *, int);
static void free_timer(void *, void *);
static void print_timer(void *, void *);
static void idle_timeout(evContext, void *, struct timespec, struct timespec);
/* Private type. */
typedef struct {
evTimerFunc func;
void * uap;
struct timespec lastTouched;
struct timespec max_idle;
evTimer * timer;
} idle_timer;
#endif
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/* Public. */
struct timespec
evConsTime(time_t sec, long nsec) {
struct timespec x;
x.tv_sec = sec;
x.tv_nsec = nsec;
return (x);
}
struct timespec
evAddTime(struct timespec addend1, struct timespec addend2) {
struct timespec x;
x.tv_sec = addend1.tv_sec + addend2.tv_sec;
x.tv_nsec = addend1.tv_nsec + addend2.tv_nsec;
if (x.tv_nsec >= BILLION) {
x.tv_sec++;
x.tv_nsec -= BILLION;
}
return (x);
}
struct timespec
evSubTime(struct timespec minuend, struct timespec subtrahend) {
struct timespec x;
x.tv_sec = minuend.tv_sec - subtrahend.tv_sec;
if (minuend.tv_nsec >= subtrahend.tv_nsec)
x.tv_nsec = minuend.tv_nsec - subtrahend.tv_nsec;
else {
x.tv_nsec = BILLION - subtrahend.tv_nsec + minuend.tv_nsec;
x.tv_sec--;
}
return (x);
}
int
evCmpTime(struct timespec a, struct timespec b) {
long x = a.tv_sec - b.tv_sec;
if (x == 0L)
x = a.tv_nsec - b.tv_nsec;
return (x < 0L ? (-1) : x > 0L ? (1) : (0));
}
struct timespec
evNowTime() {
struct timeval now;
#ifdef CLOCK_REALTIME
struct timespec tsnow;
int m = CLOCK_REALTIME;
#ifdef CLOCK_MONOTONIC
if (__evOptMonoTime)
m = CLOCK_MONOTONIC;
#endif
if (clock_gettime(m, &tsnow) == 0)
return (tsnow);
#endif
if (gettimeofday(&now, NULL) < 0)
return (evConsTime(0, 0));
return (evTimeSpec(now));
}
struct timespec
evUTCTime() {
struct timeval now;
#ifdef CLOCK_REALTIME
struct timespec tsnow;
if (clock_gettime(CLOCK_REALTIME, &tsnow) == 0)
return (tsnow);
#endif
if (gettimeofday(&now, NULL) < 0)
return (evConsTime(0, 0));
return (evTimeSpec(now));
}
#ifndef _LIBC
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struct timespec
evLastEventTime(evContext opaqueCtx) {
evContext_p *ctx = opaqueCtx.opaque;
return (ctx->lastEventTime);
}
#endif
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struct timespec
evTimeSpec(struct timeval tv) {
struct timespec ts;
ts.tv_sec = tv.tv_sec;
ts.tv_nsec = tv.tv_usec * 1000;
return (ts);
}
#if !defined(USE_KQUEUE) || !defined(_LIBC)
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struct timeval
evTimeVal(struct timespec ts) {
struct timeval tv;
tv.tv_sec = ts.tv_sec;
tv.tv_usec = ts.tv_nsec / 1000;
return (tv);
}
#endif
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#ifndef _LIBC
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int
evSetTimer(evContext opaqueCtx,
evTimerFunc func,
void *uap,
struct timespec due,
struct timespec inter,
evTimerID *opaqueID
) {
evContext_p *ctx = opaqueCtx.opaque;
evTimer *id;
evPrintf(ctx, 1,
"evSetTimer(ctx %p, func %p, uap %p, due %ld.%09ld, inter %ld.%09ld)\n",
ctx, func, uap,
(long)due.tv_sec, due.tv_nsec,
(long)inter.tv_sec, inter.tv_nsec);
#ifdef __hpux
/*
* tv_sec and tv_nsec are unsigned.
*/
if (due.tv_nsec >= BILLION)
EV_ERR(EINVAL);
if (inter.tv_nsec >= BILLION)
EV_ERR(EINVAL);
#else
if (due.tv_sec < 0 || due.tv_nsec < 0 || due.tv_nsec >= BILLION)
EV_ERR(EINVAL);
if (inter.tv_sec < 0 || inter.tv_nsec < 0 || inter.tv_nsec >= BILLION)
EV_ERR(EINVAL);
#endif
/* due={0,0} is a magic cookie meaning "now." */
if (due.tv_sec == (time_t)0 && due.tv_nsec == 0L)
due = evNowTime();
/* Allocate and fill. */
OKNEW(id);
id->func = func;
id->uap = uap;
id->due = due;
id->inter = inter;
if (heap_insert(ctx->timers, id) < 0)
return (-1);
/* Remember the ID if the caller provided us a place for it. */
if (opaqueID)
opaqueID->opaque = id;
if (ctx->debug > 7) {
evPrintf(ctx, 7, "timers after evSetTimer:\n");
(void) heap_for_each(ctx->timers, print_timer, (void *)ctx);
}
return (0);
}
int
evClearTimer(evContext opaqueCtx, evTimerID id) {
evContext_p *ctx = opaqueCtx.opaque;
evTimer *del = id.opaque;
if (ctx->cur != NULL &&
ctx->cur->type == Timer &&
ctx->cur->u.timer.this == del) {
evPrintf(ctx, 8, "deferring delete of timer (executing)\n");
/*
* Setting the interval to zero ensures that evDrop() will
* clean up the timer.
*/
del->inter = evConsTime(0, 0);
return (0);
}
if (heap_element(ctx->timers, del->index) != del)
EV_ERR(ENOENT);
if (heap_delete(ctx->timers, del->index) < 0)
return (-1);
FREE(del);
if (ctx->debug > 7) {
evPrintf(ctx, 7, "timers after evClearTimer:\n");
(void) heap_for_each(ctx->timers, print_timer, (void *)ctx);
}
return (0);
}
int
evConfigTimer(evContext opaqueCtx,
evTimerID id,
const char *param,
int value
) {
evContext_p *ctx = opaqueCtx.opaque;
evTimer *timer = id.opaque;
int result=0;
UNUSED(value);
if (heap_element(ctx->timers, timer->index) != timer)
EV_ERR(ENOENT);
if (strcmp(param, "rate") == 0)
timer->mode |= EV_TMR_RATE;
else if (strcmp(param, "interval") == 0)
timer->mode &= ~EV_TMR_RATE;
else
EV_ERR(EINVAL);
return (result);
}
int
evResetTimer(evContext opaqueCtx,
evTimerID id,
evTimerFunc func,
void *uap,
struct timespec due,
struct timespec inter
) {
evContext_p *ctx = opaqueCtx.opaque;
evTimer *timer = id.opaque;
struct timespec old_due;
int result=0;
if (heap_element(ctx->timers, timer->index) != timer)
EV_ERR(ENOENT);
#ifdef __hpux
/*
* tv_sec and tv_nsec are unsigned.
*/
if (due.tv_nsec >= BILLION)
EV_ERR(EINVAL);
if (inter.tv_nsec >= BILLION)
EV_ERR(EINVAL);
#else
if (due.tv_sec < 0 || due.tv_nsec < 0 || due.tv_nsec >= BILLION)
EV_ERR(EINVAL);
if (inter.tv_sec < 0 || inter.tv_nsec < 0 || inter.tv_nsec >= BILLION)
EV_ERR(EINVAL);
#endif
old_due = timer->due;
timer->func = func;
timer->uap = uap;
timer->due = due;
timer->inter = inter;
switch (evCmpTime(due, old_due)) {
case -1:
result = heap_increased(ctx->timers, timer->index);
break;
case 0:
result = 0;
break;
case 1:
result = heap_decreased(ctx->timers, timer->index);
break;
}
if (ctx->debug > 7) {
evPrintf(ctx, 7, "timers after evResetTimer:\n");
(void) heap_for_each(ctx->timers, print_timer, (void *)ctx);
}
return (result);
}
int
evSetIdleTimer(evContext opaqueCtx,
evTimerFunc func,
void *uap,
struct timespec max_idle,
evTimerID *opaqueID
) {
evContext_p *ctx = opaqueCtx.opaque;
idle_timer *tt;
/* Allocate and fill. */
OKNEW(tt);
tt->func = func;
tt->uap = uap;
tt->lastTouched = ctx->lastEventTime;
tt->max_idle = max_idle;
if (evSetTimer(opaqueCtx, idle_timeout, tt,
evAddTime(ctx->lastEventTime, max_idle),
max_idle, opaqueID) < 0) {
FREE(tt);
return (-1);
}
tt->timer = opaqueID->opaque;
return (0);
}
int
evClearIdleTimer(evContext opaqueCtx, evTimerID id) {
evTimer *del = id.opaque;
idle_timer *tt = del->uap;
FREE(tt);
return (evClearTimer(opaqueCtx, id));
}
int
evResetIdleTimer(evContext opaqueCtx,
evTimerID opaqueID,
evTimerFunc func,
void *uap,
struct timespec max_idle
) {
evContext_p *ctx = opaqueCtx.opaque;
evTimer *timer = opaqueID.opaque;
idle_timer *tt = timer->uap;
tt->func = func;
tt->uap = uap;
tt->lastTouched = ctx->lastEventTime;
tt->max_idle = max_idle;
return (evResetTimer(opaqueCtx, opaqueID, idle_timeout, tt,
evAddTime(ctx->lastEventTime, max_idle),
max_idle));
}
int
evTouchIdleTimer(evContext opaqueCtx, evTimerID id) {
evContext_p *ctx = opaqueCtx.opaque;
evTimer *t = id.opaque;
idle_timer *tt = t->uap;
tt->lastTouched = ctx->lastEventTime;
return (0);
}
/* Public to the rest of eventlib. */
heap_context
evCreateTimers(const evContext_p *ctx) {
UNUSED(ctx);
return (heap_new(due_sooner, set_index, 2048));
}
void
evDestroyTimers(const evContext_p *ctx) {
(void) heap_for_each(ctx->timers, free_timer, NULL);
(void) heap_free(ctx->timers);
}
/* Private. */
static int
due_sooner(void *a, void *b) {
evTimer *a_timer, *b_timer;
a_timer = a;
b_timer = b;
return (evCmpTime(a_timer->due, b_timer->due) < 0);
}
static void
set_index(void *what, int index) {
evTimer *timer;
timer = what;
timer->index = index;
}
static void
free_timer(void *what, void *uap) {
evTimer *t = what;
UNUSED(uap);
FREE(t);
}
static void
print_timer(void *what, void *uap) {
evTimer *cur = what;
evContext_p *ctx = uap;
cur = what;
evPrintf(ctx, 7,
" func %p, uap %p, due %ld.%09ld, inter %ld.%09ld\n",
cur->func, cur->uap,
(long)cur->due.tv_sec, cur->due.tv_nsec,
(long)cur->inter.tv_sec, cur->inter.tv_nsec);
}
static void
idle_timeout(evContext opaqueCtx,
void *uap,
struct timespec due,
struct timespec inter
) {
evContext_p *ctx = opaqueCtx.opaque;
idle_timer *this = uap;
struct timespec idle;
UNUSED(due);
UNUSED(inter);
idle = evSubTime(ctx->lastEventTime, this->lastTouched);
if (evCmpTime(idle, this->max_idle) >= 0) {
(this->func)(opaqueCtx, this->uap, this->timer->due,
this->max_idle);
/*
* Setting the interval to zero will cause the timer to
* be cleaned up in evDrop().
*/
this->timer->inter = evConsTime(0, 0);
FREE(this);
} else {
/* evDrop() will reschedule the timer. */
this->timer->inter = evSubTime(this->max_idle, idle);
}
}
#endif
/*! \file */