-/* $Id$ */
-
/* xbt_os_thread -- portability layer over the pthread API */
/* Used in RL to get win/lin portability, and in SG when CONTEXT_THREAD */
/* in SG, when using CONTEXT_UCONTEXT, xbt_os_thread_stub is used instead */
-/* Copyright 2006,2007 Malek Cherier, Martin Quinson
- * All right reserved. */
+/* Copyright (c) 2007, 2008, 2009, 2010. The SimGrid Team.
+ * All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
+#include "gras_config.h"
#include "xbt/sysdep.h"
#include "xbt/ex.h"
-#include "xbt/ex_interface.h" /* We play crude games with exceptions */
+#include "xbt/ex_interface.h" /* We play crude games with exceptions */
#include "portable.h"
-#include "xbt/xbt_os_time.h" /* Portable time facilities */
-#include "xbt/xbt_os_thread.h" /* This module */
-#include "xbt_modinter.h" /* Initialization/finalization of this module */
+#include "xbt/xbt_os_time.h" /* Portable time facilities */
+#include "xbt/xbt_os_thread.h" /* This module */
+#include "xbt_modinter.h" /* Initialization/finalization of this module */
-XBT_LOG_NEW_DEFAULT_SUBCATEGORY(xbt_sync_os,xbt,"Synchronization mechanism (OS-level)");
+XBT_LOG_NEW_DEFAULT_SUBCATEGORY(xbt_sync_os, xbt,
+ "Synchronization mechanism (OS-level)");
/* ********************************* PTHREAD IMPLEMENTATION ************************************ */
#ifdef HAVE_PTHREAD_H
-#include <pthread.h>
#include <semaphore.h>
#ifdef HAVE_MUTEX_TIMEDLOCK
/* redefine the function header since we fail to get this from system headers on amd (at least) */
-int pthread_mutex_timedlock(pthread_mutex_t *mutex,
+int pthread_mutex_timedlock(pthread_mutex_t * mutex,
const struct timespec *abs_timeout);
#endif
typedef struct xbt_os_thread_ {
pthread_t t;
+ int detached;
char *name;
void *param;
pvoid_f_pvoid_t start_routine;
- ex_ctx_t *exception;
-} s_xbt_os_thread_t ;
+ xbt_running_ctx_t *running_ctx;
+ void *extra_data;
+} s_xbt_os_thread_t;
static xbt_os_thread_t main_thread = NULL;
/* thread-specific data containing the xbt_os_thread_t structure */
static int thread_mod_inited = 0;
/* frees the xbt_os_thread_t corresponding to the current thread */
-static void xbt_os_thread_free_thread_data(void*d){
- free(d);
+static void xbt_os_thread_free_thread_data(xbt_os_thread_t thread)
+{
+ if (thread == main_thread) /* just killed main thread */
+ main_thread = NULL;
+
+ free(thread->running_ctx);
+ free(thread->name);
+ free(thread);
}
/* callback: context fetching */
-static ex_ctx_t *_os_thread_ex_ctx(void) {
- return xbt_os_thread_self()->exception;
+static xbt_running_ctx_t *_os_thread_get_running_ctx(void)
+{
+ return xbt_os_thread_self()->running_ctx;
}
/* callback: termination */
-static void _os_thread_ex_terminate(xbt_ex_t * e) {
+static void _os_thread_ex_terminate(xbt_ex_t * e)
+{
xbt_ex_display(e);
abort();
/* FIXME: there should be a configuration variable to choose to kill everyone or only this one */
}
-void xbt_os_thread_mod_init(void) {
+void xbt_os_thread_mod_preinit(void)
+{
int errcode;
if (thread_mod_inited)
return;
- if ((errcode=pthread_key_create(&xbt_self_thread_key, NULL)))
- THROW0(system_error,errcode,"pthread_key_create failed for xbt_self_thread_key");
-
- main_thread=xbt_new(s_xbt_os_thread_t,1);
- main_thread->name = (char*)"main";
+ if ((errcode = pthread_key_create(&xbt_self_thread_key, NULL)))
+ THROWF(system_error, errcode,
+ "pthread_key_create failed for xbt_self_thread_key");
+
+ main_thread = xbt_new(s_xbt_os_thread_t, 1);
+ main_thread->name = (char *) "main";
main_thread->start_routine = NULL;
main_thread->param = NULL;
- main_thread->exception = xbt_new(ex_ctx_t, 1);
- XBT_CTX_INITIALIZE(main_thread->exception);
+ main_thread->running_ctx = xbt_new(xbt_running_ctx_t, 1);
+ XBT_RUNNING_CTX_INITIALIZE(main_thread->running_ctx);
+
+ if ((errcode = pthread_setspecific(xbt_self_thread_key, main_thread)))
+ THROWF(system_error, errcode,
+ "pthread_setspecific failed for xbt_self_thread_key");
- __xbt_ex_ctx = _os_thread_ex_ctx;
+
+ __xbt_running_ctx_fetch = _os_thread_get_running_ctx;
__xbt_ex_terminate = _os_thread_ex_terminate;
thread_mod_inited = 1;
-#ifndef HAVE_SEM_WAIT
+#ifndef HAVE_SEM_INIT
next_sem_ID_lock = xbt_os_mutex_init();
#endif
}
-void xbt_os_thread_mod_exit(void) {
+
+void xbt_os_thread_mod_postexit(void)
+{
/* FIXME: don't try to free our key on shutdown.
- Valgrind detects no leak if we don't, and whine if we try to */
+ Valgrind detects no leak if we don't, and whine if we try to */
// int errcode;
// if ((errcode=pthread_key_delete(xbt_self_thread_key)))
- // THROW0(system_error,errcode,"pthread_key_delete failed for xbt_self_thread_key");
- free(main_thread->exception);
+ // THROWF(system_error,errcode,"pthread_key_delete failed for xbt_self_thread_key");
+ free(main_thread->running_ctx);
free(main_thread);
main_thread = NULL;
- thread_mod_inited=0;
-#ifndef HAVE_SEM_WAIT
+ thread_mod_inited = 0;
+#ifndef HAVE_SEM_INIT
xbt_os_mutex_destroy(next_sem_ID_lock);
#endif
+
+ /* Restore the default exception setup */
+ __xbt_running_ctx_fetch = &__xbt_ex_ctx_default;
+ __xbt_ex_terminate = &__xbt_ex_terminate_default;
}
-static void * wrapper_start_routine(void *s) {
+int xbt_os_thread_atfork(void (*prepare)(void),
+ void (*parent)(void), void (*child)(void))
+{
+#ifdef WIN32
+ THROW_UNIMPLEMENTED; //pthread_atfork is not implemented in pthread.h on windows
+#else
+ return pthread_atfork(prepare, parent, child);
+#endif
+}
+
+static void *wrapper_start_routine(void *s)
+{
xbt_os_thread_t t = s;
int errcode;
- if ((errcode=pthread_setspecific(xbt_self_thread_key,t)))
- THROW0(system_error,errcode,
+ if ((errcode = pthread_setspecific(xbt_self_thread_key, t)))
+ THROWF(system_error, errcode,
"pthread_setspecific failed for xbt_self_thread_key");
- return (*(t->start_routine))(t->param);
+ void *res = t->start_routine(t->param);
+ if (t->detached)
+ xbt_os_thread_free_thread_data(t);
+ return res;
}
-xbt_os_thread_t xbt_os_thread_create(const char*name,
+xbt_os_thread_t xbt_os_thread_create(const char *name,
pvoid_f_pvoid_t start_routine,
- void* param) {
+ void *param,
+ void *extra_data)
+{
int errcode;
- xbt_os_thread_t res_thread=xbt_new(s_xbt_os_thread_t,1);
+ xbt_os_thread_t res_thread = xbt_new(s_xbt_os_thread_t, 1);
+ res_thread->detached = 0;
res_thread->name = xbt_strdup(name);
res_thread->start_routine = start_routine;
res_thread->param = param;
- res_thread->exception = xbt_new(ex_ctx_t, 1);
- XBT_CTX_INITIALIZE(res_thread->exception);
-
+ res_thread->running_ctx = xbt_new(xbt_running_ctx_t, 1);
+ XBT_RUNNING_CTX_INITIALIZE(res_thread->running_ctx);
+ res_thread->extra_data = extra_data;
+
if ((errcode = pthread_create(&(res_thread->t), NULL,
wrapper_start_routine, res_thread)))
- THROW1(system_error,errcode,
- "pthread_create failed: %s",strerror(errcode));
+ THROWF(system_error, errcode,
+ "pthread_create failed: %s", strerror(errcode));
return res_thread;
}
-const char* xbt_os_thread_name(xbt_os_thread_t t) {
+const char *xbt_os_thread_name(xbt_os_thread_t t)
+{
return t->name;
}
-const char* xbt_os_thread_self_name(void) {
- xbt_os_thread_t self = xbt_os_thread_self();
- return self?self->name:"main";
+const char *xbt_os_thread_self_name(void)
+{
+ xbt_os_thread_t me = xbt_os_thread_self();
+ return me ? me->name : "main";
}
-void
-xbt_os_thread_join(xbt_os_thread_t thread,void ** thread_return) {
+
+void xbt_os_thread_join(xbt_os_thread_t thread, void **thread_return)
+{
int errcode;
- if ((errcode = pthread_join(thread->t,thread_return)))
- THROW1(system_error,errcode, "pthread_join failed: %s",
+ if ((errcode = pthread_join(thread->t, thread_return)))
+ THROWF(system_error, errcode, "pthread_join failed: %s",
strerror(errcode));
- if (thread->exception)
- free(thread->exception);
-
- if (thread->name)
- free(thread->name);
-
- if (thread == main_thread) /* just killed main thread */
- main_thread = NULL;
-
- free(thread);
+ xbt_os_thread_free_thread_data(thread);
}
-void xbt_os_thread_exit(int *retval) {
+void xbt_os_thread_exit(int *retval)
+{
pthread_exit(retval);
}
-xbt_os_thread_t xbt_os_thread_self(void) {
+xbt_os_thread_t xbt_os_thread_self(void)
+{
xbt_os_thread_t res;
if (!thread_mod_inited)
return NULL;
res = pthread_getspecific(xbt_self_thread_key);
- if (!res)
- res = main_thread;
return res;
}
+void xbt_os_thread_key_create(xbt_os_thread_key_t* key) {
+
+ int errcode;
+ if ((errcode = pthread_key_create(key, NULL)))
+ THROWF(system_error, errcode, "pthread_key_create failed");
+}
+
+void xbt_os_thread_set_specific(xbt_os_thread_key_t key, void* value) {
+
+ int errcode;
+ if ((errcode = pthread_setspecific(key, value)))
+ THROWF(system_error, errcode, "pthread_setspecific failed");
+}
+
+void* xbt_os_thread_get_specific(xbt_os_thread_key_t key) {
+ return pthread_getspecific(key);
+}
+
+void xbt_os_thread_detach(xbt_os_thread_t thread)
+{
+ thread->detached = 1;
+ pthread_detach(thread->t);
+}
+
#include <sched.h>
-void xbt_os_thread_yield(void) {
+void xbt_os_thread_yield(void)
+{
sched_yield();
}
-void xbt_os_thread_cancel(xbt_os_thread_t t) {
+
+void xbt_os_thread_cancel(xbt_os_thread_t t)
+{
pthread_cancel(t->t);
}
+
/****** mutex related functions ******/
typedef struct xbt_os_mutex_ {
/* KEEP IT IN SYNC WITH xbt_thread.c */
#include <time.h>
#include <math.h>
-xbt_os_mutex_t xbt_os_mutex_init(void) {
- xbt_os_mutex_t res = xbt_new(s_xbt_os_mutex_t,1);
+xbt_os_mutex_t xbt_os_mutex_init(void)
+{
+ xbt_os_mutex_t res = xbt_new(s_xbt_os_mutex_t, 1);
int errcode;
- if ((errcode = pthread_mutex_init(&(res->m),NULL)))
- THROW1(system_error,errcode,"pthread_mutex_init() failed: %s",
+ if ((errcode = pthread_mutex_init(&(res->m), NULL)))
+ THROWF(system_error, errcode, "pthread_mutex_init() failed: %s",
strerror(errcode));
return res;
}
-void xbt_os_mutex_acquire(xbt_os_mutex_t mutex) {
+void xbt_os_mutex_acquire(xbt_os_mutex_t mutex)
+{
int errcode;
- if ((errcode=pthread_mutex_lock(&(mutex->m))))
- THROW2(system_error,errcode,"pthread_mutex_lock(%p) failed: %s",
+ if ((errcode = pthread_mutex_lock(&(mutex->m))))
+ THROWF(system_error, errcode, "pthread_mutex_lock(%p) failed: %s",
mutex, strerror(errcode));
}
-void xbt_os_mutex_timedacquire(xbt_os_mutex_t mutex, double delay) {
+void xbt_os_mutex_timedacquire(xbt_os_mutex_t mutex, double delay)
+{
int errcode;
if (delay < 0) {
xbt_os_mutex_acquire(mutex);
} else if (delay == 0) {
- errcode=pthread_mutex_trylock(&(mutex->m));
+ errcode = pthread_mutex_trylock(&(mutex->m));
switch (errcode) {
- case 0:
- return;
- case ETIMEDOUT:
- THROW1(timeout_error,0,"mutex %p not ready",mutex);
- default:
- THROW2(system_error,errcode,"xbt_mutex_timedacquire(%p) failed: %s",mutex, strerror(errcode));
+ case 0:
+ return;
+ case ETIMEDOUT:
+ THROWF(timeout_error, 0, "mutex %p not ready", mutex);
+ default:
+ THROWF(system_error, errcode,
+ "xbt_mutex_timedacquire(%p) failed: %s", mutex,
+ strerror(errcode));
}
double end = delay + xbt_os_time();
ts_end.tv_sec = (time_t) floor(end);
- ts_end.tv_nsec = (long) ( ( end - ts_end.tv_sec) * 1000000000);
- DEBUG2("pthread_mutex_timedlock(%p,%p)",&(mutex->m), &ts_end);
+ ts_end.tv_nsec = (long) ((end - ts_end.tv_sec) * 1000000000);
+ XBT_DEBUG("pthread_mutex_timedlock(%p,%p)", &(mutex->m), &ts_end);
- errcode=pthread_mutex_timedlock(&(mutex->m),&ts_end);
+ errcode = pthread_mutex_timedlock(&(mutex->m), &ts_end);
-#else /* Well, let's reimplement it since those lazy libc dudes didn't */
+#else /* Well, let's reimplement it since those lazy libc dudes didn't */
double start = xbt_os_time();
do {
errcode = pthread_mutex_trylock(&(mutex->m));
if (errcode == EBUSY)
xbt_os_thread_yield();
- } while (errcode == EBUSY && xbt_os_time()-start <delay);
+ } while (errcode == EBUSY && xbt_os_time() - start < delay);
if (errcode == EBUSY)
errcode = ETIMEDOUT;
-#endif /* HAVE_MUTEX_TIMEDLOCK */
+#endif /* HAVE_MUTEX_TIMEDLOCK */
switch (errcode) {
- case 0:
- return;
+ case 0:
+ return;
- case ETIMEDOUT:
- THROW2(timeout_error,delay,"mutex %p wasn't signaled before timeout (%f)",mutex,delay);
+ case ETIMEDOUT:
+ THROWF(timeout_error, delay,
+ "mutex %p wasn't signaled before timeout (%f)", mutex, delay);
- default:
- THROW3(system_error,errcode,"pthread_mutex_timedlock(%p,%f) failed: %s",mutex,delay, strerror(errcode));
+ default:
+ THROWF(system_error, errcode,
+ "pthread_mutex_timedlock(%p,%f) failed: %s", mutex, delay,
+ strerror(errcode));
}
}
}
-void xbt_os_mutex_release(xbt_os_mutex_t mutex) {
+void xbt_os_mutex_release(xbt_os_mutex_t mutex)
+{
int errcode;
- if ((errcode=pthread_mutex_unlock(&(mutex->m))))
- THROW2(system_error,errcode,"pthread_mutex_unlock(%p) failed: %s",
+ if ((errcode = pthread_mutex_unlock(&(mutex->m))))
+ THROWF(system_error, errcode, "pthread_mutex_unlock(%p) failed: %s",
mutex, strerror(errcode));
}
-void xbt_os_mutex_destroy(xbt_os_mutex_t mutex) {
+void xbt_os_mutex_destroy(xbt_os_mutex_t mutex)
+{
int errcode;
- if (!mutex) return;
+ if (!mutex)
+ return;
- if ((errcode=pthread_mutex_destroy(&(mutex->m))))
- THROW2(system_error,errcode,"pthread_mutex_destroy(%p) failed: %s",
+ if ((errcode = pthread_mutex_destroy(&(mutex->m))))
+ THROWF(system_error, errcode, "pthread_mutex_destroy(%p) failed: %s",
mutex, strerror(errcode));
free(mutex);
}
pthread_cond_t c;
} s_xbt_os_cond_t;
-xbt_os_cond_t xbt_os_cond_init(void) {
- xbt_os_cond_t res = xbt_new(s_xbt_os_cond_t,1);
+xbt_os_cond_t xbt_os_cond_init(void)
+{
+ xbt_os_cond_t res = xbt_new(s_xbt_os_cond_t, 1);
int errcode;
- if ((errcode=pthread_cond_init(&(res->c),NULL)))
- THROW1(system_error,errcode,"pthread_cond_init() failed: %s",
+ if ((errcode = pthread_cond_init(&(res->c), NULL)))
+ THROWF(system_error, errcode, "pthread_cond_init() failed: %s",
strerror(errcode));
return res;
}
-void xbt_os_cond_wait(xbt_os_cond_t cond, xbt_os_mutex_t mutex) {
+void xbt_os_cond_wait(xbt_os_cond_t cond, xbt_os_mutex_t mutex)
+{
int errcode;
- if ((errcode=pthread_cond_wait(&(cond->c),&(mutex->m))))
- THROW3(system_error,errcode,"pthread_cond_wait(%p,%p) failed: %s",
- cond,mutex, strerror(errcode));
+ if ((errcode = pthread_cond_wait(&(cond->c), &(mutex->m))))
+ THROWF(system_error, errcode, "pthread_cond_wait(%p,%p) failed: %s",
+ cond, mutex, strerror(errcode));
}
-void xbt_os_cond_timedwait(xbt_os_cond_t cond, xbt_os_mutex_t mutex, double delay) {
+void xbt_os_cond_timedwait(xbt_os_cond_t cond, xbt_os_mutex_t mutex,
+ double delay)
+{
int errcode;
struct timespec ts_end;
double end = delay + xbt_os_time();
if (delay < 0) {
- xbt_os_cond_wait(cond,mutex);
+ xbt_os_cond_wait(cond, mutex);
} else {
ts_end.tv_sec = (time_t) floor(end);
- ts_end.tv_nsec = (long) ( ( end - ts_end.tv_sec) * 1000000000);
- DEBUG3("pthread_cond_timedwait(%p,%p,%p)",&(cond->c),&(mutex->m), &ts_end);
- switch ( (errcode=pthread_cond_timedwait(&(cond->c),&(mutex->m), &ts_end)) ) {
- case 0:
- return;
- case ETIMEDOUT:
- THROW3(timeout_error,errcode,"condition %p (mutex %p) wasn't signaled before timeout (%f)",
- cond,mutex, delay);
- default:
- THROW4(system_error,errcode,"pthread_cond_timedwait(%p,%p,%f) failed: %s",
- cond,mutex, delay, strerror(errcode));
+ ts_end.tv_nsec = (long) ((end - ts_end.tv_sec) * 1000000000);
+ XBT_DEBUG("pthread_cond_timedwait(%p,%p,%p)", &(cond->c), &(mutex->m),
+ &ts_end);
+ switch ((errcode =
+ pthread_cond_timedwait(&(cond->c), &(mutex->m), &ts_end))) {
+ case 0:
+ return;
+ case ETIMEDOUT:
+ THROWF(timeout_error, errcode,
+ "condition %p (mutex %p) wasn't signaled before timeout (%f)",
+ cond, mutex, delay);
+ default:
+ THROWF(system_error, errcode,
+ "pthread_cond_timedwait(%p,%p,%f) failed: %s", cond, mutex,
+ delay, strerror(errcode));
}
}
}
-void xbt_os_cond_signal(xbt_os_cond_t cond) {
+void xbt_os_cond_signal(xbt_os_cond_t cond)
+{
int errcode;
- if ((errcode=pthread_cond_signal(&(cond->c))))
- THROW2(system_error,errcode,"pthread_cond_signal(%p) failed: %s",
+ if ((errcode = pthread_cond_signal(&(cond->c))))
+ THROWF(system_error, errcode, "pthread_cond_signal(%p) failed: %s",
cond, strerror(errcode));
}
-void xbt_os_cond_broadcast(xbt_os_cond_t cond){
+void xbt_os_cond_broadcast(xbt_os_cond_t cond)
+{
int errcode;
- if ((errcode=pthread_cond_broadcast(&(cond->c))))
- THROW2(system_error,errcode,"pthread_cond_broadcast(%p) failed: %s",
+ if ((errcode = pthread_cond_broadcast(&(cond->c))))
+ THROWF(system_error, errcode, "pthread_cond_broadcast(%p) failed: %s",
cond, strerror(errcode));
}
-void xbt_os_cond_destroy(xbt_os_cond_t cond){
+
+void xbt_os_cond_destroy(xbt_os_cond_t cond)
+{
int errcode;
- if (!cond) return;
+ if (!cond)
+ return;
- if ((errcode=pthread_cond_destroy(&(cond->c))))
- THROW2(system_error,errcode,"pthread_cond_destroy(%p) failed: %s",
+ if ((errcode = pthread_cond_destroy(&(cond->c))))
+ THROWF(system_error, errcode, "pthread_cond_destroy(%p) failed: %s",
cond, strerror(errcode));
free(cond);
}
-void *xbt_os_thread_getparam(void) {
+void *xbt_os_thread_getparam(void)
+{
xbt_os_thread_t t = xbt_os_thread_self();
- return t?t->param:NULL;
+ return t ? t->param : NULL;
}
typedef struct xbt_os_sem_ {
#ifndef HAVE_SEM_INIT
- char* name;
+ char *name;
#endif
sem_t s;
sem_t *ps;
-}s_xbt_os_sem_t ;
+} s_xbt_os_sem_t;
#ifndef SEM_FAILED
#define SEM_FAILED (-1)
#endif
-xbt_os_sem_t
-xbt_os_sem_init(unsigned int value) {
- xbt_os_sem_t res = xbt_new(s_xbt_os_sem_t,1);
+xbt_os_sem_t xbt_os_sem_init(unsigned int value)
+{
+ xbt_os_sem_t res = xbt_new(s_xbt_os_sem_t, 1);
/* On some systems (MAC OS X), only the stub of sem_init is to be found.
* Any attempt to use it leads to ENOSYS (function not implemented).
* If such a prehistoric system is detected, do the job with sem_open instead
*/
#ifdef HAVE_SEM_INIT
- if(sem_init(&(res->s),0,value) != 0)
- THROW1(system_error,errno,"sem_init() failed: %s", strerror(errno));
+ if (sem_init(&(res->s), 0, value) != 0)
+ THROWF(system_error, errno, "sem_init() failed: %s", strerror(errno));
res->ps = &(res->s);
-#else /* damn, no sem_init(). Reimplement it */
+#else /* damn, no sem_init(). Reimplement it */
xbt_os_mutex_acquire(next_sem_ID_lock);
- res->name = bprintf("/%d.%d",(*xbt_getpid)(),++next_sem_ID);
+ res->name = bprintf("/%d", ++next_sem_ID);
xbt_os_mutex_release(next_sem_ID_lock);
res->ps = sem_open(res->name, O_CREAT, 0644, value);
- if ((res->ps == (sem_t *)SEM_FAILED) && (errno == ENAMETOOLONG)) {
+ if ((res->ps == (sem_t *) SEM_FAILED) && (errno == ENAMETOOLONG)) {
/* Old darwins only allow 13 chars. Did you create *that* amount of semaphores? */
res->name[13] = '\0';
- res->ps = sem_open(res->name, O_CREAT, 0644, 1);
+ res->ps = sem_open(res->name, O_CREAT, 0644, value);
}
- if ((res->ps == (sem_t *)SEM_FAILED))
- THROW1(system_error,errno,"sem_open() failed: %s",strerror(errno));
+ if ((res->ps == (sem_t *) SEM_FAILED))
+ THROWF(system_error, errno, "sem_open() failed: %s", strerror(errno));
/* Remove the name from the semaphore namespace: we never join on it */
- if(sem_unlink(res->name) < 0)
- THROW1(system_error,errno,"sem_unlink() failed: %s", strerror(errno));
+ if (sem_unlink(res->name) < 0)
+ THROWF(system_error, errno, "sem_unlink() failed: %s",
+ strerror(errno));
#endif
return res;
}
-void
-xbt_os_sem_acquire(xbt_os_sem_t sem) {
- if(!sem)
- THROW0(arg_error,EINVAL,"Cannot acquire of the NULL semaphore");
- if(sem_wait(sem->ps) < 0)
- THROW1(system_error,errno,"sem_wait() failed: %s", strerror(errno));
+void xbt_os_sem_acquire(xbt_os_sem_t sem)
+{
+ if (!sem)
+ THROWF(arg_error, EINVAL, "Cannot acquire of the NULL semaphore");
+ if (sem_wait(sem->ps) < 0)
+ THROWF(system_error, errno, "sem_wait() failed: %s", strerror(errno));
}
-void xbt_os_sem_timedacquire(xbt_os_sem_t sem, double delay) {
+void xbt_os_sem_timedacquire(xbt_os_sem_t sem, double delay)
+{
int errcode;
- if(!sem)
- THROW0(arg_error,EINVAL,"Cannot acquire of the NULL semaphore");
+ if (!sem)
+ THROWF(arg_error, EINVAL, "Cannot acquire of the NULL semaphore");
if (delay < 0) {
xbt_os_sem_acquire(sem);
- } else if (delay==0) {
+ } else if (delay == 0) {
errcode = sem_trywait(sem->ps);
switch (errcode) {
- case 0:
- return;
- case ETIMEDOUT:
- THROW1(timeout_error,0,"semaphore %p not ready",sem);
- default:
- THROW2(system_error,errcode,"xbt_os_sem_timedacquire(%p) failed: %s",sem, strerror(errcode));
+ case 0:
+ return;
+ case ETIMEDOUT:
+ THROWF(timeout_error, 0, "semaphore %p not ready", sem);
+ default:
+ THROWF(system_error, errcode,
+ "xbt_os_sem_timedacquire(%p) failed: %s", sem,
+ strerror(errcode));
}
} else {
double end = delay + xbt_os_time();
ts_end.tv_sec = (time_t) floor(end);
- ts_end.tv_nsec = (long) ( ( end - ts_end.tv_sec) * 1000000000);
- DEBUG2("sem_timedwait(%p,%p)",sem->ps,&ts_end);
- errcode = sem_timedwait(sem->s,&ts_end);
+ ts_end.tv_nsec = (long) ((end - ts_end.tv_sec) * 1000000000);
+ XBT_DEBUG("sem_timedwait(%p,%p)", sem->ps, &ts_end);
+ errcode = sem_timedwait(sem->s, &ts_end);
-#else /* Okay, reimplement this function then */
+#else /* Okay, reimplement this function then */
double start = xbt_os_time();
do {
errcode = sem_trywait(sem->ps);
if (errcode == EBUSY)
xbt_os_thread_yield();
- } while (errcode == EBUSY && xbt_os_time()-start <delay);
+ } while (errcode == EBUSY && xbt_os_time() - start < delay);
if (errcode == EBUSY)
errcode = ETIMEDOUT;
#endif
switch (errcode) {
- case 0:
- return;
+ case 0:
+ return;
- case ETIMEDOUT:
- THROW2(timeout_error,delay,"semaphore %p wasn't signaled before timeout (%f)",sem,delay);
+ case ETIMEDOUT:
+ THROWF(timeout_error, delay,
+ "semaphore %p wasn't signaled before timeout (%f)", sem,
+ delay);
- default:
- THROW3(system_error,errcode,"sem_timedwait(%p,%f) failed: %s",sem,delay, strerror(errcode));
+ default:
+ THROWF(system_error, errcode, "sem_timedwait(%p,%f) failed: %s", sem,
+ delay, strerror(errcode));
}
}
}
-void
-xbt_os_sem_release(xbt_os_sem_t sem)
+void xbt_os_sem_release(xbt_os_sem_t sem)
{
- if(!sem)
- THROW0(arg_error,EINVAL,"Cannot release of the NULL semaphore");
+ if (!sem)
+ THROWF(arg_error, EINVAL, "Cannot release of the NULL semaphore");
- if(sem_post(sem->ps) < 0)
- THROW1(system_error,errno,"sem_post() failed: %s",
- strerror(errno));
+ if (sem_post(sem->ps) < 0)
+ THROWF(system_error, errno, "sem_post() failed: %s", strerror(errno));
}
-void
-xbt_os_sem_destroy(xbt_os_sem_t sem)
+void xbt_os_sem_destroy(xbt_os_sem_t sem)
{
- if(!sem)
- THROW0(arg_error,EINVAL,"Cannot destroy the NULL sempahore");
+ if (!sem)
+ THROWF(arg_error, EINVAL, "Cannot destroy the NULL sempahore");
#ifdef HAVE_SEM_INIT
- if(sem_destroy(sem->ps)) < 0)
- THROW1(system_error,errno,"sem_destroy() failed: %s",
- strerror(errno));
-#else
- if(sem_close(sem->ps) < 0)
- THROW1(system_error,errno,"sem_close() failed: %s",
+ if (sem_destroy(sem->ps) < 0)
+ THROWF(system_error, errno, "sem_destroy() failed: %s",
strerror(errno));
+#else
+ if (sem_close(sem->ps) < 0)
+ THROWF(system_error, errno, "sem_close() failed: %s", strerror(errno));
xbt_free(sem->name);
#endif
xbt_free(sem);
}
-void
-xbt_os_sem_get_value(xbt_os_sem_t sem, int* svalue)
+void xbt_os_sem_get_value(xbt_os_sem_t sem, int *svalue)
{
- if(!sem)
- THROW0(arg_error,EINVAL,"Cannot get the value of the NULL semaphore");
+ if (!sem)
+ THROWF(arg_error, EINVAL,
+ "Cannot get the value of the NULL semaphore");
- if(sem_getvalue(&(sem->s),svalue) < 0)
- THROW1(system_error,errno,"sem_getvalue() failed: %s",
+ if (sem_getvalue(&(sem->s), svalue) < 0)
+ THROWF(system_error, errno, "sem_getvalue() failed: %s",
strerror(errno));
}
/* ********************************* WINDOWS IMPLEMENTATION ************************************ */
-#elif defined(WIN32)
+#elif defined(_XBT_WIN32)
#include <math.h>
typedef struct xbt_os_thread_ {
char *name;
- HANDLE handle; /* the win thread handle */
- unsigned long id; /* the win thread id */
+ HANDLE handle; /* the win thread handle */
+ unsigned long id; /* the win thread id */
pvoid_f_pvoid_t start_routine;
- void* param;
-} s_xbt_os_thread_t ;
+ void *param;
+ void *extra_data;
+} s_xbt_os_thread_t;
/* so we can specify the size of the stack of the threads */
#ifndef STACK_SIZE_PARAM_IS_A_RESERVATION
#endif
/* the default size of the stack of the threads (in bytes)*/
-#define XBT_DEFAULT_THREAD_STACK_SIZE 4096
+#define XBT_DEFAULT_THREAD_STACK_SIZE 4096
/* key to the TLS containing the xbt_os_thread_t structure */
static unsigned long xbt_self_thread_key;
-void xbt_os_thread_mod_init(void) {
+void xbt_os_thread_mod_preinit(void)
+{
xbt_self_thread_key = TlsAlloc();
}
-void xbt_os_thread_mod_exit(void) {
+
+void xbt_os_thread_mod_postexit(void)
+{
if (!TlsFree(xbt_self_thread_key))
- THROW0(system_error,(int)GetLastError(),"TlsFree() failed to cleanup the thread submodule");
+ THROWF(system_error, (int) GetLastError(),
+ "TlsFree() failed to cleanup the thread submodule");
}
-static DWORD WINAPI wrapper_start_routine(void *s) {
- xbt_os_thread_t t = (xbt_os_thread_t)s;
- DWORD* rv;
+int xbt_os_thread_atfork(void (*prepare)(void),
+ void (*parent)(void), void (*child)(void))
+{
+ return 0;
+}
- if(!TlsSetValue(xbt_self_thread_key,t))
- THROW0(system_error,(int)GetLastError(),"TlsSetValue of data describing the created thread failed");
+static DWORD WINAPI wrapper_start_routine(void *s)
+{
+ xbt_os_thread_t t = (xbt_os_thread_t) s;
+ DWORD *rv;
- rv = (DWORD*)((t->start_routine)(t->param));
+ if (!TlsSetValue(xbt_self_thread_key, t))
+ THROWF(system_error, (int) GetLastError(),
+ "TlsSetValue of data describing the created thread failed");
+
+ rv = (DWORD *) ((t->start_routine) (t->param));
return rv ? *rv : 0;
}
-xbt_os_thread_t xbt_os_thread_create(const char *name,pvoid_f_pvoid_t start_routine,
- void* param) {
+xbt_os_thread_t xbt_os_thread_create(const char *name,
+ pvoid_f_pvoid_t start_routine,
+ void *param,
+ void *extra_data)
+{
- xbt_os_thread_t t = xbt_new(s_xbt_os_thread_t,1);
+ xbt_os_thread_t t = xbt_new(s_xbt_os_thread_t, 1);
t->name = xbt_strdup(name);
- t->start_routine = start_routine ;
+ t->start_routine = start_routine;
t->param = param;
+ t->extra_data = extra_data;
+ t->handle = CreateThread(NULL, XBT_DEFAULT_THREAD_STACK_SIZE,
+ (LPTHREAD_START_ROUTINE) wrapper_start_routine,
+ t, STACK_SIZE_PARAM_IS_A_RESERVATION, &(t->id));
- t->handle = CreateThread(NULL,XBT_DEFAULT_THREAD_STACK_SIZE,
- (LPTHREAD_START_ROUTINE)wrapper_start_routine,
- t,STACK_SIZE_PARAM_IS_A_RESERVATION,&(t->id));
-
- if(!t->handle) {
+ if (!t->handle) {
xbt_free(t);
- THROW0(system_error,(int)GetLastError(),"CreateThread failed");
+ THROWF(system_error, (int) GetLastError(), "CreateThread failed");
}
return t;
}
-const char* xbt_os_thread_name(xbt_os_thread_t t) {
+const char *xbt_os_thread_name(xbt_os_thread_t t)
+{
return t->name;
}
-const char* xbt_os_thread_self_name(void) {
+const char *xbt_os_thread_self_name(void)
+{
xbt_os_thread_t t = xbt_os_thread_self();
- return t?t->name:"main";
+ return t ? t->name : "main";
}
-void
-xbt_os_thread_join(xbt_os_thread_t thread,void ** thread_return) {
+void xbt_os_thread_join(xbt_os_thread_t thread, void **thread_return)
+{
- if(WAIT_OBJECT_0 != WaitForSingleObject(thread->handle,INFINITE))
- THROW0(system_error,(int)GetLastError(), "WaitForSingleObject failed");
+ if (WAIT_OBJECT_0 != WaitForSingleObject(thread->handle, INFINITE))
+ THROWF(system_error, (int) GetLastError(),
+ "WaitForSingleObject failed");
- if(thread_return){
+ if (thread_return) {
- if(!GetExitCodeThread(thread->handle,(DWORD*)(*thread_return)))
- THROW0(system_error,(int)GetLastError(), "GetExitCodeThread failed");
+ if (!GetExitCodeThread(thread->handle, (DWORD *) (*thread_return)))
+ THROWF(system_error, (int) GetLastError(),
+ "GetExitCodeThread failed");
}
CloseHandle(thread->handle);
- if(thread->name)
- free(thread->name);
+ free(thread->name);
free(thread);
}
-void xbt_os_thread_exit(int *retval) {
- if(retval)
+void xbt_os_thread_exit(int *retval)
+{
+ if (retval)
ExitThread(*retval);
else
ExitThread(0);
}
-xbt_os_thread_t xbt_os_thread_self(void) {
+void xbt_os_thread_key_create(xbt_os_thread_key_t* key) {
+
+ *key = TlsAlloc();
+}
+
+void xbt_os_thread_set_specific(xbt_os_thread_key_t key, void* value) {
+
+ if (!TlsSetValue(key, value))
+ THROWF(system_error, (int) GetLastError(), "TlsSetValue() failed");
+}
+
+void* xbt_os_thread_get_specific(xbt_os_thread_key_t key) {
+ return TlsGetValue(key);
+}
+
+void xbt_os_thread_detach(xbt_os_thread_t thread)
+{
+ THROW_UNIMPLEMENTED;
+}
+
+
+xbt_os_thread_t xbt_os_thread_self(void)
+{
return TlsGetValue(xbt_self_thread_key);
}
-void *xbt_os_thread_getparam(void) {
+void *xbt_os_thread_getparam(void)
+{
xbt_os_thread_t t = xbt_os_thread_self();
return t->param;
}
-void xbt_os_thread_yield(void) {
+void xbt_os_thread_yield(void)
+{
Sleep(0);
}
-void xbt_os_thread_cancel(xbt_os_thread_t t) {
- if(!TerminateThread(t->handle,0))
- THROW0(system_error,(int)GetLastError(), "TerminateThread failed");
+
+void xbt_os_thread_cancel(xbt_os_thread_t t)
+{
+ if (!TerminateThread(t->handle, 0))
+ THROWF(system_error, (int) GetLastError(), "TerminateThread failed");
}
/****** mutex related functions ******/
CRITICAL_SECTION lock;
} s_xbt_os_mutex_t;
-xbt_os_mutex_t xbt_os_mutex_init(void) {
- xbt_os_mutex_t res = xbt_new(s_xbt_os_mutex_t,1);
+xbt_os_mutex_t xbt_os_mutex_init(void)
+{
+ xbt_os_mutex_t res = xbt_new(s_xbt_os_mutex_t, 1);
/* initialize the critical section object */
InitializeCriticalSection(&(res->lock));
return res;
}
-void xbt_os_mutex_acquire(xbt_os_mutex_t mutex) {
- EnterCriticalSection(& mutex->lock);
+void xbt_os_mutex_acquire(xbt_os_mutex_t mutex)
+{
+ EnterCriticalSection(&mutex->lock);
}
-void xbt_os_mutex_timedacquire(xbt_os_mutex_t mutex, double delay) {
+void xbt_os_mutex_timedacquire(xbt_os_mutex_t mutex, double delay)
+{
THROW_UNIMPLEMENTED;
}
-void xbt_os_mutex_release(xbt_os_mutex_t mutex) {
+void xbt_os_mutex_release(xbt_os_mutex_t mutex)
+{
- LeaveCriticalSection (&mutex->lock);
+ LeaveCriticalSection(&mutex->lock);
}
-void xbt_os_mutex_destroy(xbt_os_mutex_t mutex) {
+void xbt_os_mutex_destroy(xbt_os_mutex_t mutex)
+{
- if (!mutex) return;
+ if (!mutex)
+ return;
- DeleteCriticalSection(& mutex->lock);
+ DeleteCriticalSection(&mutex->lock);
free(mutex);
}
/***** condition related functions *****/
-enum { /* KEEP IT IN SYNC WITH xbt_thread.c */
+enum { /* KEEP IT IN SYNC WITH xbt_thread.c */
SIGNAL = 0,
BROADCAST = 1,
MAX_EVENTS = 2
/* KEEP IT IN SYNC WITH xbt_thread.c */
HANDLE events[MAX_EVENTS];
- unsigned int waiters_count; /* the number of waiters */
+ unsigned int waiters_count; /* the number of waiters */
CRITICAL_SECTION waiters_count_lock; /* protect access to waiters_count */
} s_xbt_os_cond_t;
-xbt_os_cond_t xbt_os_cond_init(void) {
+xbt_os_cond_t xbt_os_cond_init(void)
+{
- xbt_os_cond_t res = xbt_new0(s_xbt_os_cond_t,1);
+ xbt_os_cond_t res = xbt_new0(s_xbt_os_cond_t, 1);
- memset(& res->waiters_count_lock,0,sizeof(CRITICAL_SECTION));
+ memset(&res->waiters_count_lock, 0, sizeof(CRITICAL_SECTION));
/* initialize the critical section object */
- InitializeCriticalSection(& res->waiters_count_lock);
+ InitializeCriticalSection(&res->waiters_count_lock);
res->waiters_count = 0;
/* Create an auto-reset event */
- res->events[SIGNAL] = CreateEvent (NULL, FALSE, FALSE, NULL);
+ res->events[SIGNAL] = CreateEvent(NULL, FALSE, FALSE, NULL);
- if(!res->events[SIGNAL]){
- DeleteCriticalSection(& res->waiters_count_lock);
+ if (!res->events[SIGNAL]) {
+ DeleteCriticalSection(&res->waiters_count_lock);
free(res);
- THROW0(system_error,0,"CreateEvent failed for the signals");
+ THROWF(system_error, 0, "CreateEvent failed for the signals");
}
/* Create a manual-reset event. */
- res->events[BROADCAST] = CreateEvent (NULL, TRUE, FALSE,NULL);
+ res->events[BROADCAST] = CreateEvent(NULL, TRUE, FALSE, NULL);
- if(!res->events[BROADCAST]){
+ if (!res->events[BROADCAST]) {
- DeleteCriticalSection(& res->waiters_count_lock);
+ DeleteCriticalSection(&res->waiters_count_lock);
CloseHandle(res->events[SIGNAL]);
free(res);
- THROW0(system_error,0,"CreateEvent failed for the broadcasts");
+ THROWF(system_error, 0, "CreateEvent failed for the broadcasts");
}
return res;
}
-void xbt_os_cond_wait(xbt_os_cond_t cond, xbt_os_mutex_t mutex) {
+void xbt_os_cond_wait(xbt_os_cond_t cond, xbt_os_mutex_t mutex)
+{
unsigned long wait_result;
int is_last_waiter;
/* lock the threads counter and increment it */
- EnterCriticalSection (& cond->waiters_count_lock);
+ EnterCriticalSection(&cond->waiters_count_lock);
cond->waiters_count++;
- LeaveCriticalSection (& cond->waiters_count_lock);
+ LeaveCriticalSection(&cond->waiters_count_lock);
/* unlock the mutex associate with the condition */
- LeaveCriticalSection (& mutex->lock);
+ LeaveCriticalSection(&mutex->lock);
/* wait for a signal (broadcast or no) */
- wait_result = WaitForMultipleObjects (2, cond->events, FALSE, INFINITE);
+ wait_result = WaitForMultipleObjects(2, cond->events, FALSE, INFINITE);
- if(wait_result == WAIT_FAILED)
- THROW0(system_error,0,"WaitForMultipleObjects failed, so we cannot wait on the condition");
+ if (wait_result == WAIT_FAILED)
+ THROWF(system_error, 0,
+ "WaitForMultipleObjects failed, so we cannot wait on the condition");
/* we have a signal lock the condition */
- EnterCriticalSection (& cond->waiters_count_lock);
+ EnterCriticalSection(&cond->waiters_count_lock);
cond->waiters_count--;
/* it's the last waiter or it's a broadcast ? */
- is_last_waiter = ((wait_result == WAIT_OBJECT_0 + BROADCAST - 1) && (cond->waiters_count == 0));
+ is_last_waiter = ((wait_result == WAIT_OBJECT_0 + BROADCAST - 1)
+ && (cond->waiters_count == 0));
- LeaveCriticalSection (& cond->waiters_count_lock);
+ LeaveCriticalSection(&cond->waiters_count_lock);
/* yes it's the last waiter or it's a broadcast
* only reset the manual event (the automatic event is reset in the WaitForMultipleObjects() function
* by the system.
*/
if (is_last_waiter)
- if(!ResetEvent (cond->events[BROADCAST]))
- THROW0(system_error,0,"ResetEvent failed");
+ if (!ResetEvent(cond->events[BROADCAST]))
+ THROWF(system_error, 0, "ResetEvent failed");
/* relock the mutex associated with the condition in accordance with the posix thread specification */
- EnterCriticalSection (& mutex->lock);
+ EnterCriticalSection(&mutex->lock);
}
-void xbt_os_cond_timedwait(xbt_os_cond_t cond, xbt_os_mutex_t mutex, double delay) {
+
+void xbt_os_cond_timedwait(xbt_os_cond_t cond, xbt_os_mutex_t mutex,
+ double delay)
+{
unsigned long wait_result = WAIT_TIMEOUT;
int is_last_waiter;
- unsigned long end = (unsigned long)(delay * 1000);
+ unsigned long end = (unsigned long) (delay * 1000);
if (delay < 0) {
- xbt_os_cond_wait(cond,mutex);
+ xbt_os_cond_wait(cond, mutex);
} else {
- DEBUG3("xbt_cond_timedwait(%p,%p,%lu)",&(cond->events),&(mutex->lock),end);
+ XBT_DEBUG("xbt_cond_timedwait(%p,%p,%lu)", &(cond->events),
+ &(mutex->lock), end);
/* lock the threads counter and increment it */
- EnterCriticalSection (& cond->waiters_count_lock);
+ EnterCriticalSection(&cond->waiters_count_lock);
cond->waiters_count++;
- LeaveCriticalSection (& cond->waiters_count_lock);
+ LeaveCriticalSection(&cond->waiters_count_lock);
/* unlock the mutex associate with the condition */
- LeaveCriticalSection (& mutex->lock);
+ LeaveCriticalSection(&mutex->lock);
/* wait for a signal (broadcast or no) */
- wait_result = WaitForMultipleObjects (2, cond->events, FALSE, end);
+ wait_result = WaitForMultipleObjects(2, cond->events, FALSE, end);
- switch(wait_result) {
- case WAIT_TIMEOUT:
- THROW3(timeout_error,GetLastError(),"condition %p (mutex %p) wasn't signaled before timeout (%f)",cond,mutex, delay);
- case WAIT_FAILED:
- THROW0(system_error,GetLastError(),"WaitForMultipleObjects failed, so we cannot wait on the condition");
+ switch (wait_result) {
+ case WAIT_TIMEOUT:
+ THROWF(timeout_error, GetLastError(),
+ "condition %p (mutex %p) wasn't signaled before timeout (%f)",
+ cond, mutex, delay);
+ case WAIT_FAILED:
+ THROWF(system_error, GetLastError(),
+ "WaitForMultipleObjects failed, so we cannot wait on the condition");
}
/* we have a signal lock the condition */
- EnterCriticalSection (& cond->waiters_count_lock);
+ EnterCriticalSection(&cond->waiters_count_lock);
cond->waiters_count--;
/* it's the last waiter or it's a broadcast ? */
- is_last_waiter = ((wait_result == WAIT_OBJECT_0 + BROADCAST - 1) && (cond->waiters_count == 0));
+ is_last_waiter = ((wait_result == WAIT_OBJECT_0 + BROADCAST - 1)
+ && (cond->waiters_count == 0));
- LeaveCriticalSection (& cond->waiters_count_lock);
+ LeaveCriticalSection(&cond->waiters_count_lock);
/* yes it's the last waiter or it's a broadcast
* only reset the manual event (the automatic event is reset in the WaitForMultipleObjects() function
* by the system.
*/
if (is_last_waiter)
- if(!ResetEvent (cond->events[BROADCAST]))
- THROW0(system_error,0,"ResetEvent failed");
+ if (!ResetEvent(cond->events[BROADCAST]))
+ THROWF(system_error, 0, "ResetEvent failed");
/* relock the mutex associated with the condition in accordance with the posix thread specification */
- EnterCriticalSection (& mutex->lock);
+ EnterCriticalSection(&mutex->lock);
}
- /*THROW_UNIMPLEMENTED;*/
+ /*THROW_UNIMPLEMENTED; */
}
-void xbt_os_cond_signal(xbt_os_cond_t cond) {
+void xbt_os_cond_signal(xbt_os_cond_t cond)
+{
int have_waiters;
- EnterCriticalSection (& cond->waiters_count_lock);
+ EnterCriticalSection(&cond->waiters_count_lock);
have_waiters = cond->waiters_count > 0;
- LeaveCriticalSection (& cond->waiters_count_lock);
+ LeaveCriticalSection(&cond->waiters_count_lock);
if (have_waiters)
- if(!SetEvent(cond->events[SIGNAL]))
- THROW0(system_error,0,"SetEvent failed");
+ if (!SetEvent(cond->events[SIGNAL]))
+ THROWF(system_error, 0, "SetEvent failed");
xbt_os_thread_yield();
}
-void xbt_os_cond_broadcast(xbt_os_cond_t cond){
+void xbt_os_cond_broadcast(xbt_os_cond_t cond)
+{
int have_waiters;
- EnterCriticalSection (& cond->waiters_count_lock);
+ EnterCriticalSection(&cond->waiters_count_lock);
have_waiters = cond->waiters_count > 0;
- LeaveCriticalSection (& cond->waiters_count_lock);
+ LeaveCriticalSection(&cond->waiters_count_lock);
if (have_waiters)
SetEvent(cond->events[BROADCAST]);
}
-void xbt_os_cond_destroy(xbt_os_cond_t cond){
+void xbt_os_cond_destroy(xbt_os_cond_t cond)
+{
int error = 0;
- if (!cond) return;
+ if (!cond)
+ return;
- if(!CloseHandle(cond->events[SIGNAL]))
+ if (!CloseHandle(cond->events[SIGNAL]))
error = 1;
- if(!CloseHandle(cond->events[BROADCAST]))
+ if (!CloseHandle(cond->events[BROADCAST]))
error = 1;
- DeleteCriticalSection(& cond->waiters_count_lock);
+ DeleteCriticalSection(&cond->waiters_count_lock);
xbt_free(cond);
if (error)
- THROW0(system_error,0,"Error while destroying the condition");
+ THROWF(system_error, 0, "Error while destroying the condition");
}
typedef struct xbt_os_sem_ {
HANDLE h;
unsigned int value;
CRITICAL_SECTION value_lock; /* protect access to value of the semaphore */
-}s_xbt_os_sem_t ;
+} s_xbt_os_sem_t;
#ifndef INT_MAX
-# define INT_MAX 32767 /* let's be safe by underestimating this value: this is for 16bits only */
+# define INT_MAX 32767 /* let's be safe by underestimating this value: this is for 16bits only */
#endif
-xbt_os_sem_t
-xbt_os_sem_init(unsigned int value)
+xbt_os_sem_t xbt_os_sem_init(unsigned int value)
{
xbt_os_sem_t res;
- if(value > INT_MAX)
- THROW1(arg_error,value,"Semaphore initial value too big: %ud cannot be stored as a signed int",value);
+ if (value > INT_MAX)
+ THROWF(arg_error, value,
+ "Semaphore initial value too big: %ud cannot be stored as a signed int",
+ value);
- res = (xbt_os_sem_t)xbt_new0(s_xbt_os_sem_t,1);
+ res = (xbt_os_sem_t) xbt_new0(s_xbt_os_sem_t, 1);
- if(!(res->h = CreateSemaphore(NULL,value,(long)INT_MAX,NULL))) {
- THROW1(system_error,GetLastError(),"CreateSemaphore() failed: %s",
+ if (!(res->h = CreateSemaphore(NULL, value, (long) INT_MAX, NULL))) {
+ THROWF(system_error, GetLastError(), "CreateSemaphore() failed: %s",
strerror(GetLastError()));
return NULL;
}
return res;
}
-void
-xbt_os_sem_acquire(xbt_os_sem_t sem)
+void xbt_os_sem_acquire(xbt_os_sem_t sem)
{
- if(!sem)
- THROW0(arg_error,EINVAL,"Cannot acquire the NULL semaphore");
+ if (!sem)
+ THROWF(arg_error, EINVAL, "Cannot acquire the NULL semaphore");
/* wait failure */
- if(WAIT_OBJECT_0 != WaitForSingleObject(sem->h,INFINITE))
- THROW1(system_error,GetLastError(),"WaitForSingleObject() failed: %s",
- strerror(GetLastError()));
+ if (WAIT_OBJECT_0 != WaitForSingleObject(sem->h, INFINITE))
+ THROWF(system_error, GetLastError(),
+ "WaitForSingleObject() failed: %s", strerror(GetLastError()));
EnterCriticalSection(&(sem->value_lock));
sem->value--;
LeaveCriticalSection(&(sem->value_lock));
long milliseconds;
double end = timeout + xbt_os_time();
- if(!sem)
- THROW0(arg_error,EINVAL,"Cannot acquire the NULL semaphore");
+ if (!sem)
+ THROWF(arg_error, EINVAL, "Cannot acquire the NULL semaphore");
- if (timeout < 0)
- {
+ if (timeout < 0) {
xbt_os_sem_acquire(sem);
- }
- else /* timeout can be zero <-> try acquire ) */
- {
+ } else { /* timeout can be zero <-> try acquire ) */
+
seconds = (long) floor(end);
- milliseconds = (long)( ( end - seconds) * 1000);
+ milliseconds = (long) ((end - seconds) * 1000);
milliseconds += (seconds * 1000);
- switch(WaitForSingleObject(sem->h,milliseconds))
- {
- case WAIT_OBJECT_0:
- EnterCriticalSection(&(sem->value_lock));
- sem->value--;
- LeaveCriticalSection(&(sem->value_lock));
- return;
-
- case WAIT_TIMEOUT:
- THROW2(timeout_error,GetLastError(),"semaphore %p wasn't signaled before timeout (%f)",sem,timeout);
- return;
-
- default:
- THROW3(system_error,GetLastError(),"WaitForSingleObject(%p,%f) failed: %s",sem,timeout, strerror(GetLastError()));
+ switch (WaitForSingleObject(sem->h, milliseconds)) {
+ case WAIT_OBJECT_0:
+ EnterCriticalSection(&(sem->value_lock));
+ sem->value--;
+ LeaveCriticalSection(&(sem->value_lock));
+ return;
+
+ case WAIT_TIMEOUT:
+ THROWF(timeout_error, GetLastError(),
+ "semaphore %p wasn't signaled before timeout (%f)", sem,
+ timeout);
+ return;
+
+ default:
+ THROWF(system_error, GetLastError(),
+ "WaitForSingleObject(%p,%f) failed: %s", sem, timeout,
+ strerror(GetLastError()));
}
}
}
-void
-xbt_os_sem_release(xbt_os_sem_t sem)
+void xbt_os_sem_release(xbt_os_sem_t sem)
{
- if(!sem)
- THROW0(arg_error,EINVAL,"Cannot release the NULL semaphore");
+ if (!sem)
+ THROWF(arg_error, EINVAL, "Cannot release the NULL semaphore");
- if(!ReleaseSemaphore(sem->h,1, NULL))
- THROW1(system_error,GetLastError(),"ReleaseSemaphore() failed: %s",
+ if (!ReleaseSemaphore(sem->h, 1, NULL))
+ THROWF(system_error, GetLastError(), "ReleaseSemaphore() failed: %s",
strerror(GetLastError()));
- EnterCriticalSection (&(sem->value_lock));
+ EnterCriticalSection(&(sem->value_lock));
sem->value++;
LeaveCriticalSection(&(sem->value_lock));
}
-void
-xbt_os_sem_destroy(xbt_os_sem_t sem)
+void xbt_os_sem_destroy(xbt_os_sem_t sem)
{
- if(!sem)
- THROW0(arg_error,EINVAL,"Cannot destroy the NULL semaphore");
+ if (!sem)
+ THROWF(arg_error, EINVAL, "Cannot destroy the NULL semaphore");
- if(!CloseHandle(sem->h))
- THROW1(system_error,GetLastError(),"CloseHandle() failed: %s",
+ if (!CloseHandle(sem->h))
+ THROWF(system_error, GetLastError(), "CloseHandle() failed: %s",
strerror(GetLastError()));
DeleteCriticalSection(&(sem->value_lock));
}
-void
-xbt_os_sem_get_value(xbt_os_sem_t sem, int* svalue)
+void xbt_os_sem_get_value(xbt_os_sem_t sem, int *svalue)
{
- if(!sem)
- THROW0(arg_error,EINVAL,"Cannot get the value of the NULL semaphore");
+ if (!sem)
+ THROWF(arg_error, EINVAL,
+ "Cannot get the value of the NULL semaphore");
EnterCriticalSection(&(sem->value_lock));
*svalue = sem->value;
LeaveCriticalSection(&(sem->value_lock));
}
+
#endif
+
+
+/** @brief Returns the amount of cores on the current host */
+int xbt_os_get_numcores(void) {
+#ifdef WIN32
+ SYSTEM_INFO sysinfo;
+ GetSystemInfo(&sysinfo);
+ return sysinfo.dwNumberOfProcessors;
+#elif MACOS
+ int nm[2];
+ size_t len = 4;
+ uint32_t count;
+
+ nm[0] = CTL_HW; nm[1] = HW_AVAILCPU;
+ sysctl(nm, 2, &count, &len, NULL, 0);
+
+ if(count < 1) {
+ nm[1] = HW_NCPU;
+ sysctl(nm, 2, &count, &len, NULL, 0);
+ if(count < 1) { count = 1; }
+ }
+ return count;
+#else
+ return sysconf(_SC_NPROCESSORS_ONLN);
+#endif
+}
+
+
+/***** reentrant mutexes *****/
+typedef struct xbt_os_rmutex_ {
+ xbt_os_mutex_t mutex;
+ xbt_os_thread_t owner;
+ int count;
+} s_xbt_os_rmutex_t;
+
+void xbt_os_thread_set_extra_data(void *data)
+{
+ xbt_os_thread_self()->extra_data = data;
+}
+
+void *xbt_os_thread_get_extra_data(void)
+{
+ return xbt_os_thread_self()->extra_data;
+}
+
+xbt_os_rmutex_t xbt_os_rmutex_init(void)
+{
+ xbt_os_rmutex_t rmutex = xbt_new0(struct xbt_os_rmutex_, 1);
+ rmutex->mutex = xbt_os_mutex_init();
+ rmutex->owner = NULL;
+ rmutex->count = 0;
+ return rmutex;
+}
+
+void xbt_os_rmutex_acquire(xbt_os_rmutex_t rmutex)
+{
+ xbt_os_thread_t self = xbt_os_thread_self();
+
+ if (self == NULL) {
+ /* the thread module is not initialized yet */
+ rmutex->owner = NULL;
+ return;
+ }
+
+ if (self != rmutex->owner) {
+ xbt_os_mutex_acquire(rmutex->mutex);
+ rmutex->owner = self;
+ rmutex->count = 1;
+ } else {
+ rmutex->count++;
+ }
+}
+
+void xbt_os_rmutex_release(xbt_os_rmutex_t rmutex)
+{
+ if (rmutex->owner == NULL) {
+ /* the thread module was not initialized */
+ return;
+ }
+
+ xbt_assert(rmutex->owner == xbt_os_thread_self());
+
+ if (--rmutex->count == 0) {
+ rmutex->owner = NULL;
+ xbt_os_mutex_release(rmutex->mutex);
+ }
+}
+
+void xbt_os_rmutex_destroy(xbt_os_rmutex_t rmutex)
+{
+ xbt_os_mutex_destroy(rmutex->mutex);
+ xbt_free(rmutex);
+}