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|
/*
* Copyright (c) 2008 Cisco Systems, Inc. All rights reserved.
* Copyright (c) 2008-2009 The University of Tennessee and The University
* of Tennessee Research Foundation. All rights
* reserved.
* Copyright (c) 2000-2004 Niels Provos <provos@citi.umich.edu>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "opal_config.h"
#ifdef HAVE_SYS_TYPES_H
#include <sys/types.h>
#endif
#ifdef WIN32
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#undef WIN32_LEAN_AND_MEAN
#endif
#ifdef HAVE_SYS_TIME_H
#include <sys/time.h>
#else
# ifndef HAVE_WINSOCK2_H
#include <sys/_libevent_time.h>
# endif
#endif
#ifndef HAVE_TIMERADD
#include <sys/_timeradd.h>
#endif
#include <sys/queue.h>
#include <stdio.h>
#include <stdlib.h>
#ifndef WIN32
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#endif
#include <errno.h>
#include <signal.h>
#include <string.h>
#include <assert.h>
#include <time.h>
#include "opal/event/event.h"
#include "opal/class/opal_object.h"
#include "opal/threads/mutex.h"
#include "opal/threads/threads.h"
#include "opal/util/output.h"
#include "opal/constants.h"
#include "opal/util/argv.h"
#include "opal/mca/base/mca_base_param.h"
#include "event-internal.h"
#include "evutil.h"
#include "log.h"
#if defined(HAVE_EVENT_PORTS) && HAVE_EVENT_PORTS
extern const struct eventop evportops;
#endif
#if defined(HAVE_SELECT) && HAVE_SELECT
extern const struct eventop selectops;
#endif
#if defined(HAVE_POLL) && HAVE_POLL && HAVE_WORKING_POLL
extern const struct eventop pollops;
#endif
#if defined(HAVE_EPOLL) && HAVE_EPOLL
extern const struct eventop epollops;
#endif
#if defined(HAVE_WORKING_KQUEUE) && HAVE_WORKING_KQUEUE
extern const struct eventop kqops;
#endif
#ifdef HAVE_DEVPOLL
extern const struct eventop devpollops;
#endif
#ifdef WIN32
extern const struct eventop win32ops;
#endif
/* In order of preference */
static const struct eventop *eventops[] = {
#if defined(HAVE_EVENT_PORTS) && HAVE_EVENT_PORTS
&evportops,
#endif
#if defined(HAVE_WORKING_KQUEUE) && HAVE_WORKING_KQUEUE
&kqops,
#endif
#if defined(HAVE_EPOLL) && HAVE_EPOLL
&epollops,
#endif
#if defined(HAVE_DEVPOLL) && HAVE_DEVPOLL
&devpollops,
#endif
#if defined(HAVE_POLL) && HAVE_POLL && HAVE_WORKING_POLL
&pollops,
#endif
#if defined(HAVE_SELECT) && HAVE_SELECT
&selectops,
#endif
#ifdef WIN32
&win32ops,
#endif
NULL
};
/* Global state */
struct event_base *current_base = NULL;
extern struct event_base *evsignal_base;
#if defined(HAVE_CLOCK_GETTIME) && defined(CLOCK_MONOTONIC)
static int use_monotonic;
#endif /* defined(HAVE_CLOCK_GETTIME) && defined(CLOCK_MONOTONIC) */
/* Prototypes */
static void event_queue_insert(struct event_base *, struct event *, int);
static void event_queue_remove(struct event_base *, struct event *, int);
static int event_haveevents(struct event_base *);
static void event_process_active(struct event_base *);
static int timeout_next(struct event_base *, struct timeval **);
static void timeout_process(struct event_base *);
#if 0
/* Let's not delete this yet */
static void timeout_correct(struct event_base *, struct timeval *);
#endif
static void
detect_monotonic(void)
{
#if defined(HAVE_CLOCK_GETTIME) && defined(CLOCK_MONOTONIC)
struct timespec ts;
if (clock_gettime(CLOCK_MONOTONIC, &ts) == 0)
use_monotonic = 1;
#endif
}
static int
gettime(struct event_base *base, struct timeval *tp)
{
if (base->tv_cache.tv_sec) {
*tp = base->tv_cache;
return (0);
}
#if defined(HAVE_CLOCK_GETTIME) && defined(CLOCK_MONOTONIC)
if (use_monotonic) {
struct timespec ts;
if (clock_gettime(CLOCK_MONOTONIC, &ts) == -1)
return (-1);
tp->tv_sec = ts.tv_sec;
tp->tv_usec = ts.tv_nsec / 1000;
return (0);
}
#endif
return (evutil_gettimeofday(tp, NULL));
}
OPAL_DECLSPEC opal_mutex_t opal_event_lock;
static int opal_event_inited = 0;
static bool opal_event_enabled = false;
#if OPAL_ENABLE_PROGRESS_THREADS
static opal_thread_t opal_event_thread;
static opal_event_t opal_event_pipe_event;
static int opal_event_pipe[2];
static int opal_event_pipe_signalled;
#endif
bool opal_event_progress_thread(void)
{
#if OPAL_ENABLE_PROGRESS_THREADS
return opal_using_threads() ? opal_thread_self_compare(&opal_event_thread) : true;
#else
return true;
#endif
}
#if OPAL_ENABLE_PROGRESS_THREADS
/* run loop for dispatch thread */
static void* opal_event_run(opal_object_t* arg)
{
/* Open MPI: Prevent compiler warnings about unused variables */
#if defined(NDEBUG)
event_loop(0);
#else
int rc = event_loop(0);
assert(rc >= 0);
#endif
opal_mutex_lock(&opal_event_lock);
event_del(&opal_event_pipe_event);
close(opal_event_pipe[0]);
close(opal_event_pipe[1]);
opal_event_pipe[0] = -1;
opal_event_pipe[1] = -1;
opal_mutex_unlock(&opal_event_lock);
return NULL;
}
#endif /* OPAL_ENABLE_PROGRESS_THREADS */
#if OPAL_ENABLE_PROGRESS_THREADS
static void opal_event_pipe_handler(int sd, short flags, void* user)
{
unsigned char byte;
if(read(sd, &byte, 1) < 0) {
opal_output(0, "opal_event_pipe: read failed with: errno=%d\n", errno);
opal_event_del(&opal_event_pipe_event);
}
}
#endif /* OPAL_ENABLE_PROGRESS_THREADS */
static char** opal_event_module_include = NULL;
static int opal_event_allow_system( const char* eventop_name)
{
char** argv = opal_event_module_include;
/* if the user specified an event interface - use these exclusively */
while(argv && *argv) {
if( 0 == strcmp(*argv, "all") ) return 1; /* all match */
if( 0 == strcmp(*argv, eventop_name) ) return 1;
argv++;
}
return 0;
}
int
opal_event_init(void)
{
struct event_base *base;
char* event_module_include;
if(opal_event_inited++ != 0)
return OPAL_SUCCESS;
#if OPAL_HAVE_WORKING_EVENTOPS
/* Retrieve the upper level specified event system, if any.
* Default to select() on OS X and poll() everywhere else because
* various parts of OMPI / ORTE use libevent with pty's. pty's
* *only* work with select on OS X (tested on Tiger and Leopard);
* we *know* that both select and poll works with pty's everywhere
* else we care about (other mechansisms such as epoll *may* work
* with pty's -- we have not tested comprehensively with newer
* versions of Linux, etc.). So the safe thing to do is:
*
* - On OS X, default to using "select" only
* - Everywhere else, default to using "poll" only (because poll
* is more scalable than select)
*
* An upper layer may override this setting if it knows that pty's
* won't be used with libevent. For example, we currently have
* ompi_mpi_init() set to use "all" (to include epoll and friends)
* so that the TCP BTL can be a bit more scalable -- because we
* *know* that MPI apps don't use pty's with libevent.
* Note that other tools explicitly *do* use pty's with libevent:
*
* - orted
* - orterun (probably only if it launches locally)
* - ...?
*/
{
const struct eventop** _eventop = eventops;
char available_eventops[1024] = "none";
char* help_msg = NULL;
int position = 0;
while( NULL != (*_eventop) ) {
if( 0 != position ) {
position += snprintf( available_eventops + position,
(size_t)(1024 - position),
", %s", (*_eventop)->name );
} else {
position += snprintf( available_eventops + position,
(size_t)(1024 - position),
"%s", (*_eventop)->name );
}
available_eventops[position] = '\0';
_eventop++; /* go to the next available eventop */
}
asprintf( &help_msg,
"Comma-delimited list of libevent subsystems "
"to use (%s -- available on your platform)",
available_eventops );
mca_base_param_reg_string_name("opal", "event_include",
help_msg, false, false,
#ifdef __APPLE__
"select",
#else
# ifdef __WINDOWS__
"win32",
# else
"poll",
# endif
#endif
&event_module_include);
free(help_msg); /* release the help message */
}
if (NULL == event_module_include) {
/* Shouldn't happen, but... */
event_module_include = strdup("select");
}
opal_event_module_include = opal_argv_split(event_module_include,',');
free(event_module_include);
base = event_base_new();
OBJ_CONSTRUCT(&opal_event_lock, opal_mutex_t);
if (base != NULL)
opal_current_base = base;
opal_event_enable();
#endif
return OPAL_SUCCESS;
}
struct event_base *
event_base_new(void)
{
int i;
struct event_base *base;
if ((base = calloc(1, sizeof(struct event_base))) == NULL)
event_err(1, "%s: calloc", __func__);
detect_monotonic();
gettime(base, &base->event_tv);
min_heap_ctor(&base->timeheap);
TAILQ_INIT(&base->eventqueue);
base->sig.ev_signal_pair[0] = -1;
base->sig.ev_signal_pair[1] = -1;
base->evbase = NULL;
for (i = 0; eventops[i] && !base->evbase; i++) {
/* Allow only the user selected event mechanisms to be initialized */
if( !opal_event_allow_system(eventops[i]->name) ) continue;
base->evsel = eventops[i];
base->evbase = base->evsel->init(base);
}
if (base->evbase == NULL)
event_errx(1, "%s: no event mechanism available", __func__);
if (evutil_getenv("EVENT_SHOW_METHOD"))
event_msgx("libevent using: %s\n",
base->evsel->name);
/* allocate a single active event queue */
event_base_priority_init(base, 1);
return (base);
}
int opal_event_fini(void)
{
opal_event_disable();
opal_event_inited--;
if (NULL != opal_event_module_include) {
opal_argv_free(opal_event_module_include);
}
if( NULL != opal_current_base ) {
event_base_free(opal_current_base);
opal_current_base = NULL;
}
return OPAL_SUCCESS;
}
int opal_event_enable(void)
{
#if OPAL_ENABLE_PROGRESS_THREADS
if(opal_using_threads()) {
int rc;
opal_mutex_lock(&opal_event_lock);
if(opal_event_inited > 0 && opal_event_enabled == true) {
opal_mutex_unlock(&opal_event_lock);
return OPAL_SUCCESS;
}
/* create a pipe to signal the event thread */
if(pipe(opal_event_pipe) != 0) {
opal_output(0, "opal_event_init: pipe() failed with errno=%d\n", errno);
opal_mutex_unlock(&opal_event_lock);
return OPAL_ERROR;
}
opal_event_pipe_signalled = 1;
event_set(
&opal_event_pipe_event,
opal_event_pipe[0],
EV_READ|EV_PERSIST,
opal_event_pipe_handler,
0);
event_add(&opal_event_pipe_event, 0);
opal_event_pipe_signalled = 0;
/* spin up a thread to dispatch events */
OBJ_CONSTRUCT(&opal_event_thread, opal_thread_t);
opal_event_enabled = true;
opal_event_thread.t_run = opal_event_run;
if((rc = opal_thread_start(&opal_event_thread)) != OPAL_SUCCESS) {
opal_mutex_unlock(&opal_event_lock);
return rc;
}
opal_mutex_unlock(&opal_event_lock);
} else {
opal_event_pipe[0] = -1;
opal_event_pipe[1] = -1;
opal_event_enabled = true;
}
#else
opal_event_enabled = true;
#endif
return OPAL_SUCCESS;
}
int opal_event_disable(void)
{
#if OPAL_ENABLE_PROGRESS_THREADS
if(opal_using_threads()) {
opal_mutex_lock(&opal_event_lock);
if(opal_event_inited > 0 && opal_event_enabled == false) {
opal_mutex_unlock(&opal_event_lock);
return OPAL_SUCCESS;
}
opal_event_enabled = false;
if(opal_event_pipe_signalled == 0) {
unsigned char byte = 0;
if(write(opal_event_pipe[1], &byte, 1) != 1)
opal_output(0, "opal_event_add: write() to opal_event_pipe[1] failed with errno=%d\n", errno);
opal_event_pipe_signalled++;
}
opal_mutex_unlock(&opal_event_lock);
opal_thread_join(&opal_event_thread, NULL);
} else {
opal_event_enabled = false;
}
#else
opal_event_enabled = false;
#endif
return OPAL_SUCCESS;
}
int opal_event_restart(void)
{
#if OPAL_HAVE_WORKING_EVENTOPS && !defined(__WINDOWS__)
#if OPAL_ENABLE_PROGRESS_THREADS
opal_mutex_lock(&opal_event_lock);
if(opal_event_pipe[0] >= 0) {
event_del(&opal_event_pipe_event);
/* do not close pipes - in case of bproc_vrfork they are not open
* and we may close something else
*/
opal_event_pipe[0] = -1;
opal_event_pipe[1] = -1;
}
opal_event_enabled = false;
opal_mutex_unlock(&opal_event_lock);
#endif
opal_event_enable();
return (OPAL_SUCCESS);
#else /* OPAL_HAVE_WORKING_EVENTOPS */
return OPAL_ERR_NOT_SUPPORTED;
#endif
}
void
event_base_free(struct event_base *base)
{
int i, n_deleted=0;
struct event *ev;
if (base == NULL && current_base)
base = current_base;
if (base == current_base)
current_base = NULL;
/* XXX(niels) - check for internal events first */
assert(base);
/* Delete all non-internal events. */
for (ev = TAILQ_FIRST(&base->eventqueue); ev; ) {
struct event *next = TAILQ_NEXT(ev, ev_next);
if (!(ev->ev_flags & EVLIST_INTERNAL)) {
opal_event_del(ev);
++n_deleted;
}
ev = next;
}
while ((ev = min_heap_top(&base->timeheap)) != NULL) {
opal_event_del(ev);
++n_deleted;
}
for (i = 0; i < base->nactivequeues; ++i) {
for (ev = TAILQ_FIRST(base->activequeues[i]); ev; ) {
struct event *next = TAILQ_NEXT(ev, ev_active_next);
if (!(ev->ev_flags & EVLIST_INTERNAL)) {
event_del(ev);
++n_deleted;
}
ev = next;
}
}
if (n_deleted)
event_debug(("%s: %d events were still set in base",
__func__, n_deleted));
if (base->evsel->dealloc != NULL)
base->evsel->dealloc(base, base->evbase);
#if 0
/* Per ticket #1805
(https://svn.open-mpi.org/trac/ompi/ticket/1805), these
asserts are temporarily removed until we can have the rest
of the code base absolutely clean up all pending libevents,
we're #if 0'ing out these asserts so that we stop dumping
core. :-\ */
for (i = 0; i < base->nactivequeues; ++i)
assert(TAILQ_EMPTY(base->activequeues[i]));
assert(min_heap_empty(&base->timeheap));
#endif
min_heap_dtor(&base->timeheap);
for (i = 0; i < base->nactivequeues; ++i)
free(base->activequeues[i]);
free(base->activequeues);
assert(TAILQ_EMPTY(&base->eventqueue));
free(base);
}
/* reinitialized the event base after a fork */
int
event_reinit(struct event_base *base)
{
const struct eventop *evsel = base->evsel;
void *evbase = base->evbase;
int res = 0;
struct event *ev;
/* check if this event mechanism requires reinit */
if (!evsel->need_reinit)
return (0);
/* prevent internal delete */
if (base->sig.ev_signal_added) {
/* we cannot call event_del here because the base has
* not been reinitialized yet. */
event_queue_remove(base, &base->sig.ev_signal,
EVLIST_INSERTED);
if (base->sig.ev_signal.ev_flags & EVLIST_ACTIVE)
event_queue_remove(base, &base->sig.ev_signal,
EVLIST_ACTIVE);
base->sig.ev_signal_added = 0;
}
if (base->evsel->dealloc != NULL)
base->evsel->dealloc(base, base->evbase);
evbase = base->evbase = evsel->init(base);
if (base->evbase == NULL)
event_errx(1, "%s: could not reinitialize event mechanism",
__func__);
TAILQ_FOREACH(ev, &base->eventqueue, ev_next) {
if (evsel->add(evbase, ev) == -1)
res = -1;
}
return (res);
}
int
event_priority_init(int npriorities)
{
return event_base_priority_init(current_base, npriorities);
}
int
event_base_priority_init(struct event_base *base, int npriorities)
{
int i;
if (base->event_count_active)
return (-1);
if (base->nactivequeues && npriorities != base->nactivequeues) {
for (i = 0; i < base->nactivequeues; ++i) {
free(base->activequeues[i]);
}
free(base->activequeues);
}
/* Allocate our priority queues */
base->nactivequeues = npriorities;
base->activequeues = (struct event_list **)
calloc(base->nactivequeues, sizeof(struct event_list *));
if (base->activequeues == NULL)
event_err(1, "%s: calloc", __func__);
for (i = 0; i < base->nactivequeues; ++i) {
base->activequeues[i] = malloc(sizeof(struct event_list));
if (base->activequeues[i] == NULL)
event_err(1, "%s: malloc", __func__);
TAILQ_INIT(base->activequeues[i]);
}
return (0);
}
int
event_haveevents(struct event_base *base)
{
return (base->event_count > 0);
}
/*
* Active events are stored in priority queues. Lower priorities are always
* process before higher priorities. Low priority events can starve high
* priority ones.
*/
static void
event_process_active(struct event_base *base)
{
struct event *ev;
struct event_list *activeq = NULL;
int i;
short ncalls;
for (i = 0; i < base->nactivequeues; ++i) {
if (TAILQ_FIRST(base->activequeues[i]) != NULL) {
activeq = base->activequeues[i];
break;
}
}
assert(activeq != NULL);
for (ev = TAILQ_FIRST(activeq); ev; ev = TAILQ_FIRST(activeq)) {
if (ev->ev_events & EV_PERSIST)
event_queue_remove(base, ev, EVLIST_ACTIVE);
else
event_del(ev);
/* Allows deletes to work */
ncalls = ev->ev_ncalls;
ev->ev_pncalls = &ncalls;
while (ncalls) {
ncalls--;
ev->ev_ncalls = ncalls;
OPAL_THREAD_UNLOCK(&opal_event_lock);
(*ev->ev_callback)((int)ev->ev_fd, ev->ev_res, ev->ev_arg);
OPAL_THREAD_LOCK(&opal_event_lock);
if (base->event_break)
return;
}
}
}
/*
* Wait continously for events. We exit only if no events are left.
*/
int
event_dispatch(void)
{
return (event_loop(0));
}
int
event_base_dispatch(struct event_base *event_base)
{
return (event_base_loop(event_base, 0));
}
const char *
event_base_get_method(struct event_base *base)
{
assert(base);
return (base->evsel->name);
}
static void
event_loopexit_cb(int fd, short what, void *arg)
{
#if OPAL_HAVE_WORKING_EVENTOPS
struct event_base *base = arg;
base->event_gotterm = 1;
#endif /* OPAL_HAVE_WORKING_EVENTOPS */
}
/* not thread safe */
int
event_loopexit(const struct timeval *tv)
{
return (event_once(-1, EV_TIMEOUT, event_loopexit_cb,
current_base, tv));
}
int
event_base_loopexit(struct event_base *event_base, const struct timeval *tv)
{
return (event_base_once(event_base, -1, EV_TIMEOUT, event_loopexit_cb,
event_base, tv));
}
/* not thread safe */
int
event_loopbreak(void)
{
return (event_base_loopbreak(current_base));
}
int
event_base_loopbreak(struct event_base *event_base)
{
if (event_base == NULL)
return (-1);
event_base->event_break = 1;
return (0);
}
/* not thread safe */
int
event_loop(int flags)
{
return event_base_loop(current_base, flags);
}
int
event_base_loop(struct event_base *base, int flags)
{
#if OPAL_HAVE_WORKING_EVENTOPS
const struct eventop *evsel = base->evsel;
void *evbase = base->evbase;
struct timeval tv;
struct timeval *tv_p;
int res, done;
#endif /* OPAL_HAVE_WORKING_EVENTOPS */
if (opal_event_inited == false)
return(0);
#if OPAL_HAVE_WORKING_EVENTOPS
/* clear time cache */
base->tv_cache.tv_sec = 0;
res = OPAL_THREAD_TRYLOCK(&opal_event_lock);
if (0 != res) return 0;
if (base->sig.ev_signal_added)
evsignal_base = base;
done = 0;
while (!done && opal_event_enabled) {
/* Terminate the loop if we have been asked to */
if (base->event_gotterm) {
base->event_gotterm = 0;
break;
}
if (base->event_break) {
base->event_break = 0;
break;
}
#if 0
/* OMPI: George wants to comment this out for now */
OPAL_THREAD_UNLOCK(&opal_event_lock);
timeout_correct(base, &tv);
#endif
tv_p = &tv;
if (!base->event_count_active && !(flags & EVLOOP_NONBLOCK)) {
timeout_next(base, &tv_p);
} else {
/*
* if we have active events, we just poll new events
* without waiting.
*/
evutil_timerclear(&tv);
}
/* If we have no events, we just exit */
if (!event_haveevents(base)) {
OPAL_THREAD_UNLOCK(&opal_event_lock);
event_debug(("%s: no events registered.", __func__));
return (1);
}
/* update last old time */
gettime(base, &base->event_tv);
/* clear time cache */
base->tv_cache.tv_sec = 0;
#if OPAL_ENABLE_PROGRESS_THREADS
opal_event_pipe_signalled = 0;
#endif
res = evsel->dispatch(base, evbase, tv_p);
#if OPAL_ENABLE_PROGRESS_THREADS
opal_event_pipe_signalled = 1;
#endif
if (res == -1)
{
opal_output(0, "%s: ompi_evesel->dispatch() failed.", __func__);
OPAL_THREAD_UNLOCK(&opal_event_lock);
return (-1);
}
gettime(base, &base->tv_cache);
timeout_process(base);
if (base->event_count_active) {
event_process_active(base);
if (!base->event_count_active && (flags & (EVLOOP_ONCE|EVLOOP_ONELOOP)))
done = 1;
} else if (flags & (EVLOOP_NONBLOCK|EVLOOP_ONELOOP))
done = 1;
}
/* clear time cache */
base->tv_cache.tv_sec = 0;
event_debug(("%s: asked to terminate loop.", __func__));
OPAL_THREAD_UNLOCK(&opal_event_lock);
return (base->event_count_active);
#else
return 0;
#endif
}
/* Sets up an event for processing once */
struct event_once {
struct event ev;
void (*cb)(int, short, void *);
void *arg;
};
/* One-time callback, it deletes itself */
static void
event_once_cb(int fd, short events, void *arg)
{
struct event_once *eonce = arg;
(*eonce->cb)(fd, events, eonce->arg);
free(eonce);
}
/* not threadsafe, event scheduled once. */
int
event_once(int fd, short events,
void (*callback)(int, short, void *), void *arg, const struct timeval *tv)
{
return event_base_once(current_base, fd, events, callback, arg, tv);
}
/* Schedules an event once */
int
event_base_once(struct event_base *base, int fd, short events,
void (*callback)(int, short, void *), void *arg, const struct timeval *tv)
{
struct event_once *eonce;
struct timeval etv;
int res;
/* We cannot support signals that just fire once */
if (events & EV_SIGNAL)
return (-1);
if ((eonce = (struct event_once *)calloc(1, sizeof(struct event_once))) == NULL)
return (-1);
eonce->cb = callback;
eonce->arg = arg;
if (events == EV_TIMEOUT) {
if (tv == NULL) {
evutil_timerclear(&etv);
tv = &etv;
}
opal_evtimer_set(&eonce->ev, event_once_cb, eonce);
} else if (events & (EV_READ|EV_WRITE)) {
events &= EV_READ|EV_WRITE;
event_set(&eonce->ev, fd, events, event_once_cb, eonce);
} else {
/* Bad event combination */
free(eonce);
return (-1);
}
res = event_base_set(base, &eonce->ev);
if (res == 0)
res = event_add(&eonce->ev, tv);
if (res != 0) {
free(eonce);
return (res);
}
return (0);
}
void
event_set(struct event *ev, int fd, short events,
void (*callback)(int, short, void *), void *arg)
{
/* Take the current base - caller needs to set the real base later */
ev->ev_base = current_base;
ev->ev_callback = callback;
ev->ev_arg = arg;
ev->ev_fd = fd;
ev->ev_events = events;
ev->ev_res = 0;
ev->ev_flags = EVLIST_INIT;
ev->ev_ncalls = 0;
ev->ev_pncalls = NULL;
min_heap_elem_init(ev);
/* by default, we put new events into the middle priority */
if(current_base)
ev->ev_pri = current_base->nactivequeues/2;
}
int
event_base_set(struct event_base *base, struct event *ev)
{
/* Only innocent events may be assigned to a different base */
if (ev->ev_flags != EVLIST_INIT)
return (-1);
ev->ev_base = base;
ev->ev_pri = base->nactivequeues/2;
return (0);
}
/*
* Set's the priority of an event - if an event is already scheduled
* changing the priority is going to fail.
*/
int
event_priority_set(struct event *ev, int pri)
{
if (ev->ev_flags & EVLIST_ACTIVE)
return (-1);
if (pri < 0 || pri >= ev->ev_base->nactivequeues)
return (-1);
ev->ev_pri = pri;
return (0);
}
/*
* Checks if a specific event is pending or scheduled.
*/
int
event_pending(struct event *ev, short event, struct timeval *tv)
{
struct timeval now, res;
int flags = 0;
if (ev->ev_flags & EVLIST_INSERTED)
flags |= (ev->ev_events & (EV_READ|EV_WRITE|EV_SIGNAL));
if (ev->ev_flags & EVLIST_ACTIVE)
flags |= ev->ev_res;
if (ev->ev_flags & EVLIST_TIMEOUT)
flags |= EV_TIMEOUT;
event &= (EV_TIMEOUT|EV_READ|EV_WRITE|EV_SIGNAL);
/* See if there is a timeout that we should report */
if (tv != NULL && (flags & event & EV_TIMEOUT)) {
gettime(ev->ev_base, &now);
evutil_timersub(&ev->ev_timeout, &now, &res);
/* correctly remap to real time */
evutil_gettimeofday(&now, NULL);
evutil_timeradd(&now, &res, tv);
}
return (flags & event);
}
int
event_add(struct event *ev, const struct timeval *tv)
{
struct event_base *base = ev->ev_base;
const struct eventop *evsel = base->evsel;
void *evbase = base->evbase;
int res = 0;
event_debug((
"event_add: event: %p, %s%s%scall %p",
ev,
ev->ev_events & EV_READ ? "EV_READ " : " ",
ev->ev_events & EV_WRITE ? "EV_WRITE " : " ",
tv ? "EV_TIMEOUT " : " ",
ev->ev_callback));
assert(!(ev->ev_flags & ~EVLIST_ALL));
/*
* prepare for timeout insertion further below, if we get a
* failure on any step, we should not change any state.
*/
if (tv != NULL && !(ev->ev_flags & EVLIST_TIMEOUT)) {
if (min_heap_reserve(&base->timeheap,
1 + min_heap_size(&base->timeheap)) == -1)
return (-1); /* ENOMEM == errno */
}
if ((ev->ev_events & (EV_READ|EV_WRITE|EV_SIGNAL)) &&
!(ev->ev_flags & (EVLIST_INSERTED|EVLIST_ACTIVE))) {
res = evsel->add(evbase, ev);
if (res != -1)
event_queue_insert(base, ev, EVLIST_INSERTED);
}
/*
* we should change the timout state only if the previous event
* addition succeeded.
*/
if (res != -1 && tv != NULL) {
struct timeval now;
/*
* we already reserved memory above for the case where we
* are not replacing an exisiting timeout.
*/
if (ev->ev_flags & EVLIST_TIMEOUT)
event_queue_remove(base, ev, EVLIST_TIMEOUT);
/* Check if it is active due to a timeout. Rescheduling
* this timeout before the callback can be executed
* removes it from the active list. */
if ((ev->ev_flags & EVLIST_ACTIVE) &&
(ev->ev_res & EV_TIMEOUT)) {
/* See if we are just active executing this
* event in a loop
*/
if (ev->ev_ncalls && ev->ev_pncalls) {
/* Abort loop */
*ev->ev_pncalls = 0;
}
event_queue_remove(base, ev, EVLIST_ACTIVE);
}
gettime(base, &now);
evutil_timeradd(&now, tv, &ev->ev_timeout);
event_debug((
"event_add: timeout in %ld seconds, call %p",
tv->tv_sec, ev->ev_callback));
event_queue_insert(base, ev, EVLIST_TIMEOUT);
}
#if OPAL_ENABLE_PROGRESS_THREADS
if(opal_using_threads() && opal_event_pipe_signalled == 0) {
unsigned char byte = 0;
if(write(opal_event_pipe[1], &byte, 1) != 1)
opal_output(0, "opal_event_add: write() to opal_event_pipe[1] failed with errno=%d\n", errno);
opal_event_pipe_signalled++;
}
#endif
return (res);
}
int
event_del(struct event *ev)
{
int rc = 0;
struct event_base *base;
const struct eventop *evsel;
void *evbase;
event_debug(("event_del: %p, callback %p",
ev, ev->ev_callback));
/* An event without a base has not been added */
if (ev->ev_base == NULL)
return (-1);
base = ev->ev_base;
evsel = base->evsel;
evbase = base->evbase;
assert(!(ev->ev_flags & ~EVLIST_ALL));
/* See if we are just active executing this event in a loop */
if (ev->ev_ncalls && ev->ev_pncalls) {
/* Abort loop */
*ev->ev_pncalls = 0;
}
if (ev->ev_flags & EVLIST_TIMEOUT)
event_queue_remove(base, ev, EVLIST_TIMEOUT);
if (ev->ev_flags & EVLIST_ACTIVE)
event_queue_remove(base, ev, EVLIST_ACTIVE);
if (ev->ev_flags & EVLIST_INSERTED) {
event_queue_remove(base, ev, EVLIST_INSERTED);
rc = (evsel->del(evbase, ev));
}
#if OPAL_ENABLE_PROGRESS_THREADS
if(opal_using_threads() && opal_event_pipe_signalled == 0) {
unsigned char byte = 0;
if(write(opal_event_pipe[1], &byte, 1) != 1)
opal_output(0, "opal_event_add: write() to opal_event_pipe[1] failed with errno=%d\n", errno);
opal_event_pipe_signalled++;
}
#endif
return (rc);
}
void
event_active(struct event *ev, int res, short ncalls)
{
/* We get different kinds of events, add them together */
if (ev->ev_flags & EVLIST_ACTIVE) {
ev->ev_res |= res;
return;
}
ev->ev_res = res;
ev->ev_ncalls = ncalls;
ev->ev_pncalls = NULL;
event_queue_insert(ev->ev_base, ev, EVLIST_ACTIVE);
}
static int
timeout_next(struct event_base *base, struct timeval **tv_p)
{
struct timeval now = OPAL_TIMEOUT_DEFAULT;
struct event *ev;
struct timeval *tv = *tv_p;
if ((ev = min_heap_top(&base->timeheap)) == NULL) {
/* if no time-based events are active wait for I/O */
*tv = now;
return (0);
}
if (gettime(base, &now) == -1)
return (-1);
if (evutil_timercmp(&ev->ev_timeout, &now, <=)) {
evutil_timerclear(tv);
return (0);
}
evutil_timersub(&ev->ev_timeout, &now, tv);
assert(tv->tv_sec >= 0);
assert(tv->tv_usec >= 0);
event_debug(("timeout_next: in %ld seconds", tv->tv_sec));
return (0);
}
#if 0
/* Let's not delete this yet, but it doesn't look necessary right now */
/*
* Determines if the time is running backwards by comparing the current
* time against the last time we checked. Not needed when using clock
* monotonic.
*/
static void
timeout_correct(struct event_base *base, struct timeval *tv)
{
struct event **pev;
unsigned int size;
struct timeval off;
if (use_monotonic)
return;
/* Check if time is running backwards */
gettime(base, tv);
if (evutil_timercmp(tv, &base->event_tv, >=)) {
base->event_tv = *tv;
return;
}
event_debug(("%s: time is running backwards, corrected",
__func__));
evutil_timersub(&base->event_tv, tv, &off);
/*
* We can modify the key element of the node without destroying
* the key, beause we apply it to all in the right order.
*/
pev = base->timeheap.p;
size = base->timeheap.n;
for (; size-- > 0; ++pev) {
struct timeval *ev_tv = &(**pev).ev_timeout;
evutil_timersub(ev_tv, &off, ev_tv);
}
/* Now remember what the new time turned out to be. */
base->event_tv = *tv;
}
#endif
void
timeout_process(struct event_base *base)
{
struct timeval now;
struct event *ev;
if (min_heap_empty(&base->timeheap))
return;
gettime(base, &now);
while ((ev = min_heap_top(&base->timeheap))) {
if (evutil_timercmp(&ev->ev_timeout, &now, >))
break;
/* delete this event from the I/O queues */
event_del(ev);
event_debug(("timeout_process: call %p",
ev->ev_callback));
event_active(ev, EV_TIMEOUT, 1);
}
}
void
event_queue_remove(struct event_base *base, struct event *ev, int queue)
{
if (!(ev->ev_flags & queue))
event_errx(1, "%s: %p(fd %d) not on queue %x", __func__,
(void*)ev, ev->ev_fd, queue);
if (~ev->ev_flags & EVLIST_INTERNAL)
base->event_count--;
ev->ev_flags &= ~queue;
switch (queue) {
case EVLIST_INSERTED:
TAILQ_REMOVE(&base->eventqueue, ev, ev_next);
break;
case EVLIST_ACTIVE:
base->event_count_active--;
TAILQ_REMOVE(base->activequeues[ev->ev_pri],
ev, ev_active_next);
break;
case EVLIST_TIMEOUT:
min_heap_erase(&base->timeheap, ev);
break;
default:
event_errx(1, "%s: unknown queue %x", __func__, queue);
}
}
void
event_queue_insert(struct event_base *base, struct event *ev, int queue)
{
if (ev->ev_flags & queue) {
/* Double insertion is possible for active events */
if (queue & EVLIST_ACTIVE)
return;
event_errx(1, "%s: %p(fd %d) already on queue %x", __func__,
(void*)ev, ev->ev_fd, queue);
}
if (~ev->ev_flags & EVLIST_INTERNAL)
base->event_count++;
ev->ev_flags |= queue;
switch (queue) {
case EVLIST_INSERTED:
TAILQ_INSERT_TAIL(&base->eventqueue, ev, ev_next);
break;
case EVLIST_ACTIVE:
base->event_count_active++;
TAILQ_INSERT_TAIL(base->activequeues[ev->ev_pri],
ev,ev_active_next);
break;
case EVLIST_TIMEOUT: {
min_heap_push(&base->timeheap, ev);
break;
}
default:
event_errx(1, "%s: unknown queue %x", __func__, queue);
}
}
/* Functions for debugging */
const char *
event_get_version(void)
{
return ("OpenMPI");
}
/*
* No thread-safe interface needed - the information should be the same
* for all threads.
*/
const char *
event_get_method(void)
{
return (current_base->evsel->name);
}
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