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|
/*
* %CopyrightBegin%
*
* Copyright Ericsson AB 2009-2016. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* %CopyrightEnd%
*/
/*
* Author: Rickard Green
*/
#define ETHR_INLINE_FUNC_NAME_(X) X ## __
#define ETHR_EVENT_IMPL__
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#if defined(__APPLE__) && defined(__MACH__) && !defined(__DARWIN__)
# define __DARWIN__ 1
#endif
#ifdef __DARWIN__
# define _DARWIN_UNLIMITED_SELECT
#endif
#include "ethread.h"
#undef ETHR_INCLUDE_MONOTONIC_CLOCK__
#define ETHR_INCLUDE_MONOTONIC_CLOCK__
#include "ethr_internal.h"
#if defined(ETHR_LINUX_FUTEX_IMPL__)
/* --- Linux futex implementation of ethread events ------------------------- */
#include <sched.h>
#include <errno.h>
#define ETHR_YIELD_AFTER_BUSY_LOOPS 50
void
ethr_init_event__(void)
{
}
int
ethr_event_init(ethr_event *e)
{
ethr_atomic32_init(&e->futex, ETHR_EVENT_OFF__);
return 0;
}
int
ethr_event_prepare_timed(ethr_event *e)
{
return 0;
}
int
ethr_event_destroy(ethr_event *e)
{
return 0;
}
static ETHR_INLINE int
wait__(ethr_event *e, int spincount, ethr_sint64_t timeout)
{
unsigned sc = spincount;
int res;
ethr_sint32_t val;
int until_yield = ETHR_YIELD_AFTER_BUSY_LOOPS;
ethr_sint64_t time = 0; /* SHUT UP annoying faulty warning... */
struct timespec ts, *tsp;
#ifdef ETHR_HAVE_ETHR_GET_MONOTONIC_TIME
ethr_sint64_t start = 0; /* SHUT UP annoying faulty warning... */
#endif
if (spincount < 0)
ETHR_FATAL_ERROR__(EINVAL);
if (timeout < 0) {
tsp = NULL;
}
else {
#ifdef ETHR_HAVE_ETHR_GET_MONOTONIC_TIME
start = ethr_get_monotonic_time();
#endif
tsp = &ts;
time = timeout;
if (spincount == 0) {
val = ethr_atomic32_read(&e->futex);
if (val == ETHR_EVENT_ON__)
goto return_event_on;
goto set_timeout;
}
}
while (1) {
while (1) {
val = ethr_atomic32_read(&e->futex);
if (val == ETHR_EVENT_ON__)
goto return_event_on;
if (sc == 0)
break;
sc--;
ETHR_SPIN_BODY;
if (--until_yield == 0) {
until_yield = ETHR_YIELD_AFTER_BUSY_LOOPS;
res = ETHR_YIELD();
if (res != 0)
ETHR_FATAL_ERROR__(res);
}
}
if (timeout >= 0) {
#ifdef ETHR_HAVE_ETHR_GET_MONOTONIC_TIME
time = timeout - (ethr_get_monotonic_time() - start);
#endif
set_timeout:
if (time <= 0) {
val = ethr_atomic32_read(&e->futex);
if (val == ETHR_EVENT_ON__)
goto return_event_on;
return ETIMEDOUT;
}
ts.tv_sec = time / (1000*1000*1000);
ts.tv_nsec = time % (1000*1000*1000);
}
if (val != ETHR_EVENT_OFF_WAITER__) {
val = ethr_atomic32_cmpxchg(&e->futex,
ETHR_EVENT_OFF_WAITER__,
ETHR_EVENT_OFF__);
if (val == ETHR_EVENT_ON__)
goto return_event_on;
ETHR_ASSERT(val == ETHR_EVENT_OFF__);
}
res = ETHR_FUTEX__(&e->futex,
ETHR_FUTEX_WAIT__,
ETHR_EVENT_OFF_WAITER__,
tsp);
switch (res) {
case EINTR:
case ETIMEDOUT:
return res;
case 0:
case EWOULDBLOCK:
break;
default:
ETHR_FATAL_ERROR__(res);
}
}
return_event_on:
ETHR_MEMBAR(ETHR_LoadLoad|ETHR_LoadStore);
return 0;
}
#elif defined(ETHR_PTHREADS)
/* --- Posix mutex/cond pipe/select implementation of events ---------------- */
#include <fcntl.h>
#include <sys/types.h>
#include <sys/uio.h>
#include <unistd.h>
#include <sys/select.h>
#include <errno.h>
#include <string.h>
#ifdef __DARWIN__
struct ethr_event_fdsets___ {
fd_set *rsetp;
fd_set *esetp;
size_t mem_size;
fd_mask mem[1];
};
#endif
static void
setup_nonblocking_pipe(ethr_event *e)
{
int flgs;
int res;
res = pipe(e->fd);
if (res != 0)
ETHR_FATAL_ERROR__(errno);
ETHR_ASSERT(e->fd[0] >= 0 && e->fd[1] >= 0);
flgs = fcntl(e->fd[0], F_GETFL, 0);
fcntl(e->fd[0], F_SETFL, flgs | O_NONBLOCK);
flgs = fcntl(e->fd[1], F_GETFL, 0);
fcntl(e->fd[1], F_SETFL, flgs | O_NONBLOCK);
#ifndef __DARWIN__
if (e->fd[0] >= FD_SETSIZE)
ETHR_FATAL_ERROR__(ENOTSUP);
#else
{
int nmasks;
ethr_event_fdsets__ *fdsets;
size_t mem_size;
nmasks = (e->fd[0]+NFDBITS)/NFDBITS;
mem_size = 2*nmasks*sizeof(fd_mask);
if (mem_size < 2*sizeof(fd_set)) {
mem_size = 2*sizeof(fd_set);
nmasks = mem_size/(2*sizeof(fd_mask));
}
fdsets = malloc(sizeof(ethr_event_fdsets__)
+ mem_size
- sizeof(fd_mask));
if (!fdsets)
ETHR_FATAL_ERROR__(ENOMEM);
fdsets->rsetp = (fd_set *) (char *) &fdsets->mem[0];
fdsets->esetp = (fd_set *) (char *) &fdsets->mem[nmasks];
fdsets->mem_size = mem_size;
e->fdsets = fdsets;
}
#endif
ETHR_MEMBAR(ETHR_StoreStore);
}
#define ETHR_EVENT_INVALID_FD__ -1
#define ETHR_EVENT_COND_TIMEDWAIT__ -2
#ifdef ETHR_HAVE_PTHREAD_COND_TIMEDWAIT_MONOTONIC
static pthread_condattr_t monotonic_clock_cond_attr;
#endif
static pthread_condattr_t *monotonic_clock_cond_attr_p;
#ifndef ETHR_HAVE_ETHR_GET_MONOTONIC_TIME
# undef ETHR_HAVE_PTHREAD_COND_TIMEDWAIT_MONOTONIC
#endif
#ifndef ETHR_MONOTONIC_CLOCK_ID
# undef ETHR_HAVE_PTHREAD_COND_TIMEDWAIT_MONOTONIC
#endif
void
ethr_init_event__(void)
{
monotonic_clock_cond_attr_p = NULL;
#ifdef ETHR_HAVE_PTHREAD_COND_TIMEDWAIT_MONOTONIC
if (!ethr_get_monotonic_time_is_broken()
&& pthread_condattr_init(&monotonic_clock_cond_attr) == 0) {
if (pthread_condattr_setclock(&monotonic_clock_cond_attr,
ETHR_MONOTONIC_CLOCK_ID) == 0)
monotonic_clock_cond_attr_p = &monotonic_clock_cond_attr;
else
pthread_condattr_destroy(&monotonic_clock_cond_attr);
}
#endif
}
int
ethr_event_init(ethr_event *e)
{
int res;
ethr_atomic32_init(&e->state, ETHR_EVENT_OFF__);
res = pthread_mutex_init(&e->mtx, NULL);
if (res != 0)
return res;
res = pthread_cond_init(&e->cnd, monotonic_clock_cond_attr_p);
if (res != 0) {
pthread_mutex_destroy(&e->mtx);
return res;
}
#ifdef ETHR_HAVE_PTHREAD_COND_TIMEDWAIT_MONOTONIC
/*
* If ethr_get_monotonic_time() is broken we
* fall back on the pipe/select solution...
*/
if (monotonic_clock_cond_attr_p) {
e->fd[0] = e->fd[1] = ETHR_EVENT_COND_TIMEDWAIT__;
return 0;
}
#endif
e->fd[0] = e->fd[1] = ETHR_EVENT_INVALID_FD__;
#ifdef __DARWIN__
e->fdsets = NULL;
#endif
return 0;
}
int
ethr_event_prepare_timed(ethr_event *e)
{
if (e->fd[0] == ETHR_EVENT_INVALID_FD__)
setup_nonblocking_pipe(e);
return 0;
}
int
ethr_event_destroy(ethr_event *e)
{
int res;
if (e->fd[0] >= 0) {
close(e->fd[0]);
close(e->fd[1]);
}
#ifdef __DARWIN__
if (e->fdsets)
free(e->fdsets);
#endif
res = pthread_mutex_destroy(&e->mtx);
if (res != 0)
return res;
return pthread_cond_destroy(&e->cnd);
}
static ETHR_INLINE int
wait__(ethr_event *e, int spincount, ethr_sint64_t timeout)
{
int sc = spincount;
ethr_sint32_t val;
int res, ulres;
int until_yield = ETHR_YIELD_AFTER_BUSY_LOOPS;
ethr_sint64_t time = 0; /* SHUT UP annoying faulty warning... */
#ifdef ETHR_HAVE_ETHR_GET_MONOTONIC_TIME
ethr_sint64_t start = 0; /* SHUT UP annoying faulty warning... */
#endif
#ifdef ETHR_HAVE_PTHREAD_COND_TIMEDWAIT_MONOTONIC
struct timespec cond_timeout;
#endif
val = ethr_atomic32_read(&e->state);
if (val == ETHR_EVENT_ON__)
goto return_event_on;
if (timeout < 0) {
if (spincount == 0)
goto set_event_off_waiter;
}
if (timeout == 0)
return ETIMEDOUT;
else {
time = timeout;
switch (e->fd[0]) {
case ETHR_EVENT_INVALID_FD__:
#ifdef ETHR_HAVE_ETHR_GET_MONOTONIC_TIME
start = ethr_get_monotonic_time();
#endif
setup_nonblocking_pipe(e);
break;
#ifdef ETHR_HAVE_PTHREAD_COND_TIMEDWAIT_MONOTONIC
case ETHR_EVENT_COND_TIMEDWAIT__:
time += ethr_get_monotonic_time();
cond_timeout.tv_sec = time / (1000*1000*1000);
cond_timeout.tv_nsec = time % (1000*1000*1000);
if (spincount == 0)
goto set_event_off_waiter;
break;
#endif
default:
/* Already initialized pipe... */
if (spincount == 0)
goto set_select_timeout;
#ifdef ETHR_HAVE_ETHR_GET_MONOTONIC_TIME
start = ethr_get_monotonic_time();
#endif
break;
}
}
if (spincount < 0)
ETHR_FATAL_ERROR__(EINVAL);
while (1) {
val = ethr_atomic32_read(&e->state);
if (val == ETHR_EVENT_ON__)
goto return_event_on;
if (sc == 0)
break;
sc--;
ETHR_SPIN_BODY;
if (--until_yield == 0) {
until_yield = ETHR_YIELD_AFTER_BUSY_LOOPS;
res = ETHR_YIELD();
if (res != 0)
ETHR_FATAL_ERROR__(res);
}
}
if (timeout < 0
#ifdef ETHR_HAVE_PTHREAD_COND_TIMEDWAIT_MONOTONIC
|| e->fd[0] == ETHR_EVENT_COND_TIMEDWAIT__
#endif
) {
set_event_off_waiter:
if (val != ETHR_EVENT_OFF_WAITER__) {
ethr_sint32_t act;
act = ethr_atomic32_cmpxchg(&e->state,
ETHR_EVENT_OFF_WAITER__,
val);
if (act == ETHR_EVENT_ON__)
goto return_event_on;
ETHR_ASSERT(act == val);
}
res = pthread_mutex_lock(&e->mtx);
if (res != 0)
ETHR_FATAL_ERROR__(res);
while (1) {
val = ethr_atomic32_read(&e->state);
if (val == ETHR_EVENT_ON__) {
ETHR_ASSERT(res == 0);
ETHR_MEMBAR(ETHR_LoadLoad|ETHR_LoadStore);
break;
}
#ifdef ETHR_HAVE_PTHREAD_COND_TIMEDWAIT_MONOTONIC
if (timeout > 0) {
res = pthread_cond_timedwait(&e->cnd, &e->mtx, &cond_timeout);
if (res == EINTR || res == ETIMEDOUT)
break;
}
else
#endif
{
res = pthread_cond_wait(&e->cnd, &e->mtx);
if (res == EINTR)
break;
}
if (res != 0)
ETHR_FATAL_ERROR__(res);
}
ulres = pthread_mutex_unlock(&e->mtx);
if (ulres != 0)
ETHR_FATAL_ERROR__(ulres);
}
else {
int fd;
int sres;
ssize_t rres;
#ifndef __DARWIN__
fd_set rset, eset;
#endif
fd_set *rsetp, *esetp;
struct timeval select_timeout;
#ifdef ETHR_HAVE_ETHR_GET_MONOTONIC_TIME
time -= ethr_get_monotonic_time() - start;
if (time <= 0)
return ETIMEDOUT;
#endif
set_select_timeout:
ETHR_ASSERT(time > 0);
/*
* timeout in nano-second, but we can only wait
* for micro-seconds...
*/
time = ((time - 1) / 1000) + 1;
select_timeout.tv_sec = time / (1000*1000);
select_timeout.tv_usec = time % (1000*1000);
ETHR_ASSERT(val != ETHR_EVENT_ON__);
fd = e->fd[0];
/* Cleanup pipe... */
do {
char buf[64];
rres = read(fd, buf, sizeof(buf));
} while (rres > 0 || (rres < 0 && errno == EINTR));
if (rres < 0 && errno != EAGAIN && errno != EWOULDBLOCK)
ETHR_FATAL_ERROR__(errno);
/*
* Need to verify that state is still off
* after cleaning the pipe...
*/
if (val == ETHR_EVENT_OFF_WAITER_SELECT__) {
val = ethr_atomic32_read(&e->state);
if (val == ETHR_EVENT_ON__)
goto return_event_on;
}
else {
ethr_sint32_t act;
act = ethr_atomic32_cmpxchg(&e->state,
ETHR_EVENT_OFF_WAITER_SELECT__,
val);
if (act == ETHR_EVENT_ON__)
goto return_event_on;
ETHR_ASSERT(act == val);
}
#ifdef __DARWIN__
rsetp = e->fdsets->rsetp;
esetp = e->fdsets->esetp;
memset((void *) &e->fdsets->mem[0], 0, e->fdsets->mem_size);
#else
FD_ZERO(&rset);
FD_ZERO(&eset);
rsetp = &rset;
esetp = &eset;
#endif
FD_SET(fd, rsetp);
FD_SET(fd, esetp);
sres = select(fd + 1, rsetp, NULL, esetp, &select_timeout);
if (sres == 0)
res = ETIMEDOUT;
else {
res = EINTR;
if (sres < 0 && errno != EINTR)
ETHR_FATAL_ERROR__(errno);
/* else:
* Event is *probably* set, but it can be a
* lingering writer. That is, it is important
* that we verify that it actually is set. If
* it isn't, return EINTR (spurious wakeup).
*/
}
val = ethr_atomic32_read(&e->state);
if (val == ETHR_EVENT_ON__)
goto return_event_on;
}
return res;
return_event_on:
ETHR_MEMBAR(ETHR_LoadLoad|ETHR_LoadStore);
return 0;
}
#else
#error No ethread event implementation
#endif
void
ethr_event_reset(ethr_event *e)
{
ethr_event_reset__(e);
}
void
ethr_event_set(ethr_event *e)
{
ethr_event_set__(e);
}
int
ethr_event_wait(ethr_event *e)
{
return wait__(e, 0, -1);
}
int
ethr_event_swait(ethr_event *e, int spincount)
{
return wait__(e, spincount, -1);
}
int
ethr_event_twait(ethr_event *e, ethr_sint64_t timeout)
{
return wait__(e, 0, timeout);
}
int
ethr_event_stwait(ethr_event *e, int spincount, ethr_sint64_t timeout)
{
return wait__(e, spincount, timeout);
}
|
