-/* Copyright (c) 2004-2015. The SimGrid Team.
- * All rights reserved. */
+/* Copyright (c) 2004-2016. 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 <xbt/ex.hpp>
+
+#include "src/simix/smx_private.h" /* MSG_task_listen looks inside the rdv directly. Not clean. */
#include "msg_private.h"
-#include "msg_mailbox.h"
#include "mc/mc.h"
#include "xbt/log.h"
#include "xbt/sysdep.h"
/** \ingroup msg_task_usage
* \brief Executes a task and waits for its termination.
*
- * This function is used for describing the behavior of a process. It
- * takes only one parameter.
+ * This function is used for describing the behavior of a process. It takes only one parameter.
* \param task a #msg_task_t to execute on the location on which the process is running.
- * \return #MSG_OK if the task was successfully completed, #MSG_TASK_CANCELED
- * or #MSG_HOST_FAILURE otherwise
+ * \return #MSG_OK if the task was successfully completed, #MSG_TASK_CANCELED or #MSG_HOST_FAILURE otherwise
*/
msg_error_t MSG_task_execute(msg_task_t task)
{
*/
msg_error_t MSG_parallel_task_execute(msg_task_t task)
{
- xbt_ex_t e;
simdata_task_t simdata = task->simdata;
- msg_process_t self = SIMIX_process_self();
- simdata_process_t p_simdata = (simdata_process_t) SIMIX_process_self_get_data(self);
+ simdata_process_t p_simdata = (simdata_process_t) SIMIX_process_self_get_data();
e_smx_state_t comp_state;
msg_error_t status = MSG_OK;
TRACE_msg_task_execute_start(task);
- xbt_assert((!simdata->compute) && (task->simdata->isused == 0),
- "This task is executed somewhere else. Go fix your code! %d",
- task->simdata->isused!=NULL);
+ xbt_assert((!simdata->compute) && !task->simdata->isused,
+ "This task is executed somewhere else. Go fix your code!");
XBT_DEBUG("Computing on %s", MSG_process_get_name(MSG_process_self()));
return MSG_OK;
}
-
- TRY {
- if (msg_global->debug_multiple_use)
- MSG_BT(simdata->isused, "Using Backtrace");
- else
- simdata->isused = (void*)1;
+ try {
+ simdata->setUsed();
if (simdata->host_nb > 0) {
- simdata->compute = simcall_execution_parallel_start(task->name,
- simdata->host_nb,
- simdata->host_list,
- simdata->flops_parallel_amount,
- simdata->bytes_parallel_amount,
- 1.0, -1.0);
+ simdata->compute = static_cast<simgrid::simix::Exec*>(
+ simcall_execution_parallel_start(task->name, simdata->host_nb,simdata->host_list,
+ simdata->flops_parallel_amount, simdata->bytes_parallel_amount,
+ 1.0, -1.0));
XBT_DEBUG("Parallel execution action created: %p", simdata->compute);
} else {
- unsigned long affinity_mask = (unsigned long)(uintptr_t) xbt_dict_get_or_null_ext(simdata->affinity_mask_db, (char *) p_simdata->m_host, sizeof(msg_host_t));
- XBT_DEBUG("execute %s@%s with affinity(0x%04lx)", MSG_task_get_name(task), MSG_host_get_name(p_simdata->m_host), affinity_mask);
-
- simdata->compute = simcall_execution_start(task->name,
- simdata->flops_amount,
- simdata->priority,
- simdata->bound,
- affinity_mask
- );
-
+ unsigned long affinity_mask =
+ (unsigned long)(uintptr_t) xbt_dict_get_or_null_ext(simdata->affinity_mask_db, (char *) p_simdata->m_host,
+ sizeof(msg_host_t));
+ XBT_DEBUG("execute %s@%s with affinity(0x%04lx)",
+ MSG_task_get_name(task), MSG_host_get_name(p_simdata->m_host), affinity_mask);
+
+ simdata->compute = static_cast<simgrid::simix::Exec*>(
+ simcall_execution_start(task->name, simdata->flops_amount, simdata->priority,
+ simdata->bound, affinity_mask));
}
simcall_set_category(simdata->compute, task->category);
p_simdata->waiting_action = simdata->compute;
comp_state = simcall_execution_wait(simdata->compute);
- p_simdata->waiting_action = NULL;
-
- if (msg_global->debug_multiple_use && simdata->isused!=0)
- xbt_ex_free(*(xbt_ex_t*)simdata->isused);
- simdata->isused = 0;
+ p_simdata->waiting_action = nullptr;
+ simdata->setNotUsed();
- XBT_DEBUG("Execution task '%s' finished in state %d",
- task->name, (int)comp_state);
+ XBT_DEBUG("Execution task '%s' finished in state %d", task->name, (int)comp_state);
}
- CATCH(e) {
+ catch (xbt_ex& e) {
switch (e.category) {
case cancel_error:
status = MSG_TASK_CANCELED;
status = MSG_HOST_FAILURE;
break;
default:
- RETHROW;
+ throw;
}
- xbt_ex_free(e);
}
- /* action ended, set comm and compute = NULL, the actions is already destroyed
- * in the main function */
+
+ /* action ended, set comm and compute = nullptr, the actions is already destroyed in the main function */
simdata->flops_amount = 0.0;
- simdata->comm = NULL;
- simdata->compute = NULL;
+ simdata->comm = nullptr;
+ simdata->compute = nullptr;
TRACE_msg_task_execute_end(task);
MSG_RETURN(status);
}
-
/** \ingroup msg_task_usage
* \brief Sleep for the specified number of seconds
*
*/
msg_error_t MSG_process_sleep(double nb_sec)
{
- xbt_ex_t e;
msg_error_t status = MSG_OK;
/*msg_process_t proc = MSG_process_self();*/
TRACE_msg_process_sleep_in(MSG_process_self());
- TRY {
+ try {
simcall_process_sleep(nb_sec);
}
- CATCH(e) {
+ catch(xbt_ex& e) {
switch (e.category) {
case cancel_error:
XBT_DEBUG("According to the JAVA API, a sleep call should only deal with HostFailureException, WTF here ?");
status = MSG_TASK_CANCELED;
break;
default:
- RETHROW;
+ throw;
}
- xbt_ex_free(e);
}
TRACE_msg_process_sleep_out(MSG_process_self());
/** \ingroup msg_task_usage
* \brief Receives a task from a mailbox.
*
- * This is a blocking function, the execution flow will be blocked
- * until the task is received. See #MSG_task_irecv
+ * This is a blocking function, the execution flow will be blocked until the task is received. See #MSG_task_irecv
* for receiving tasks asynchronously.
*
* \param task a memory location for storing a #msg_task_t.
*
* \param task a memory location for storing a #msg_task_t.
* \param alias name of the mailbox to receive the task from
- * \param rate limit the reception to rate bandwidth
+ * \param rate limit the reception to rate bandwidth
*
* \return Returns
* #MSG_OK if the task was successfully received,
* #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE otherwise.
*/
-msg_error_t MSG_task_receive_bounded(msg_task_t * task, const char *alias,
- double rate)
+msg_error_t MSG_task_receive_bounded(msg_task_t * task, const char *alias, double rate)
{
return MSG_task_receive_with_timeout_bounded(task, alias, -1, rate);
}
/** \ingroup msg_task_usage
* \brief Receives a task from a mailbox with a given timeout.
*
- * This is a blocking function with a timeout, the execution flow will be blocked
- * until the task is received or the timeout is achieved. See #MSG_task_irecv
- * for receiving tasks asynchronously. You can provide a -1 timeout
+ * This is a blocking function with a timeout, the execution flow will be blocked until the task is received or the
+ * timeout is achieved. See #MSG_task_irecv for receiving tasks asynchronously. You can provide a -1 timeout
* to obtain an infinite timeout.
*
* \param task a memory location for storing a #msg_task_t.
* #MSG_OK if the task was successfully received,
* #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE, or #MSG_TIMEOUT otherwise.
*/
-msg_error_t
-MSG_task_receive_with_timeout(msg_task_t * task, const char *alias,
- double timeout)
+msg_error_t MSG_task_receive_with_timeout(msg_task_t * task, const char *alias, double timeout)
{
- return MSG_task_receive_ext(task, alias, timeout, NULL);
+ return MSG_task_receive_ext(task, alias, timeout, nullptr);
}
/** \ingroup msg_task_usage
* #MSG_OK if the task was successfully received,
* #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE, or #MSG_TIMEOUT otherwise.
*/
-msg_error_t
-MSG_task_receive_with_timeout_bounded(msg_task_t * task, const char *alias,
- double timeout,double rate)
+msg_error_t MSG_task_receive_with_timeout_bounded(msg_task_t * task, const char *alias, double timeout,double rate)
{
- return MSG_task_receive_ext_bounded(task, alias, timeout, NULL, rate);
+ return MSG_task_receive_ext_bounded(task, alias, timeout, nullptr, rate);
}
/** \ingroup msg_task_usage
* \brief Receives a task from a mailbox from a specific host with a given timeout.
*
- * This is a blocking function with a timeout, the execution flow will be blocked
- * until the task is received or the timeout is achieved. See #MSG_task_irecv
- * for receiving tasks asynchronously. You can provide a -1 timeout
+ * This is a blocking function with a timeout, the execution flow will be blocked until the task is received or the
+ * timeout is achieved. See #MSG_task_irecv for receiving tasks asynchronously. You can provide a -1 timeout
* to obtain an infinite timeout.
*
* \param task a memory location for storing a #msg_task_t.
* #MSG_OK if the task was successfully received,
* #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE, or #MSG_TIMEOUT otherwise.
*/
-msg_error_t
-MSG_task_receive_ext(msg_task_t * task, const char *alias, double timeout,
- msg_host_t host)
+msg_error_t MSG_task_receive_ext(msg_task_t * task, const char *alias, double timeout, msg_host_t host)
{
- xbt_ex_t e;
msg_error_t ret = MSG_OK;
- XBT_DEBUG
- ("MSG_task_receive_ext: Trying to receive a message on mailbox '%s'",
- alias);
- TRY {
- ret = MSG_mailbox_get_task_ext(MSG_mailbox_get_by_alias(alias), task,
- host, timeout);
+ XBT_DEBUG("MSG_task_receive_ext: Trying to receive a message on mailbox '%s'", alias);
+ try {
+ ret = MSG_mailbox_get_task_ext(MSG_mailbox_get_by_alias(alias), task, host, timeout);
}
- CATCH(e) {
+ catch(xbt_ex& e) {
switch (e.category) {
case cancel_error: /* may be thrown by MSG_mailbox_get_by_alias */
ret = MSG_HOST_FAILURE;
break;
default:
- RETHROW;
+ throw;
}
- xbt_ex_free(e);
}
return ret;
}
/** \ingroup msg_task_usage
- * \brief Receives a task from a mailbox from a specific host with a given timeout
- * and at a given rate.
+ * \brief Receives a task from a mailbox from a specific host with a given timeout and at a given rate.
*
* \param task a memory location for storing a #msg_task_t.
* \param alias name of the mailbox to receive the task from
* #MSG_OK if the task was successfully received,
* #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE, or #MSG_TIMEOUT otherwise.
*/
-msg_error_t
-MSG_task_receive_ext_bounded(msg_task_t * task, const char *alias, double timeout,
- msg_host_t host, double rate)
+msg_error_t MSG_task_receive_ext_bounded(msg_task_t * task, const char *alias, double timeout, msg_host_t host,
+ double rate)
{
- XBT_DEBUG
- ("MSG_task_receive_ext: Trying to receive a message on mailbox '%s'",
- alias);
- return MSG_mailbox_get_task_ext_bounded(MSG_mailbox_get_by_alias(alias), task,
- host, timeout, rate);
+ XBT_DEBUG("MSG_task_receive_ext: Trying to receive a message on mailbox '%s'", alias);
+ return MSG_mailbox_get_task_ext_bounded(MSG_mailbox_get_by_alias(alias), task, host, timeout, rate);
}
-/* Internal function used to factorize code between
- * MSG_task_isend_with_matching() and MSG_task_dsend().
- */
-static XBT_INLINE
-msg_comm_t MSG_task_isend_internal(msg_task_t task, const char *alias,
- int (*match_fun)(void*,void*, smx_synchro_t),
- void *match_data, void_f_pvoid_t cleanup,
- int detached)
+/* Internal function used to factorize code between MSG_task_isend_with_matching() and MSG_task_dsend(). */
+static inline msg_comm_t MSG_task_isend_internal(msg_task_t task, const char *alias,
+ int (*match_fun)(void*,void*, smx_synchro_t),
+ void *match_data, void_f_pvoid_t cleanup, int detached)
{
- simdata_task_t t_simdata = NULL;
+ simdata_task_t t_simdata = nullptr;
msg_process_t process = MSG_process_self();
msg_mailbox_t mailbox = MSG_mailbox_get_by_alias(alias);
int call_end = TRACE_msg_task_put_start(task);
/* Prepare the task to send */
t_simdata = task->simdata;
t_simdata->sender = process;
- t_simdata->source = ((simdata_process_t) SIMIX_process_self_get_data(process))->m_host;
-
- if (t_simdata->isused != 0) {
- if (msg_global->debug_multiple_use){
- XBT_ERROR("This task is already used in there:");
- xbt_backtrace_display((xbt_ex_t*) t_simdata->isused);
- XBT_ERROR("And you try to reuse it from here:");
- xbt_backtrace_display_current();
- } else {
- xbt_assert(t_simdata->isused == 0,
- "This task is still being used somewhere else. You cannot send it now. Go fix your code! (use --cfg=msg/debug_multiple_use:on to get the backtrace of the other process)");
- }
- }
-
- if (msg_global->debug_multiple_use)
- MSG_BT(t_simdata->isused, "Using Backtrace");
- else
- t_simdata->isused = (void*)1;
- t_simdata->comm = NULL;
+ t_simdata->source = ((simdata_process_t) SIMIX_process_self_get_data())->m_host;
+ t_simdata->setUsed();
+ t_simdata->comm = nullptr;
msg_global->sent_msg++;
/* Send it by calling SIMIX network layer */
- smx_synchro_t act = simcall_comm_isend(SIMIX_process_self(), mailbox, t_simdata->bytes_amount,
- t_simdata->rate, task, sizeof(void *),
- match_fun, cleanup, NULL, match_data,detached);
- t_simdata->comm = act; /* FIXME: is the field t_simdata->comm still useful? */
+ smx_synchro_t act = simcall_comm_isend(SIMIX_process_self(), mailbox, t_simdata->bytes_amount, t_simdata->rate,
+ task, sizeof(void *), match_fun, cleanup, nullptr, match_data,detached);
+ t_simdata->comm = static_cast<simgrid::simix::Comm*>(act); /* FIXME: is the field t_simdata->comm still useful? */
msg_comm_t comm;
if (detached) {
- comm = NULL;
+ comm = nullptr;
} else {
comm = xbt_new0(s_msg_comm_t, 1);
comm->task_sent = task;
- comm->task_received = NULL;
+ comm->task_received = nullptr;
comm->status = MSG_OK;
comm->s_comm = act;
}
return comm;
}
-
/** \ingroup msg_task_usage
* \brief Sends a task on a mailbox.
*
- * This is a non blocking function: use MSG_comm_wait() or MSG_comm_test()
- * to end the communication.
+ * This is a non blocking function: use MSG_comm_wait() or MSG_comm_test() to end the communication.
*
* \param task a #msg_task_t to send on another location.
* \param alias name of the mailbox to sent the task to
*/
msg_comm_t MSG_task_isend(msg_task_t task, const char *alias)
{
- return MSG_task_isend_internal(task, alias, NULL, NULL, NULL, 0);
+ return MSG_task_isend_internal(task, alias, nullptr, nullptr, nullptr, 0);
}
/** \ingroup msg_task_usage
* \brief Sends a task on a mailbox with a maximum rate
*
- * This is a non blocking function: use MSG_comm_wait() or MSG_comm_test()
- * to end the communication. The maxrate parameter allows the application
- * to limit the bandwidth utilization of network links when sending the task.
+ * This is a non blocking function: use MSG_comm_wait() or MSG_comm_test() to end the communication. The maxrate
+ * parameter allows the application to limit the bandwidth utilization of network links when sending the task.
*
* \param task a #msg_task_t to send on another location.
* \param alias name of the mailbox to sent the task to
* \param maxrate the maximum communication rate for sending this task .
* \return the msg_comm_t communication created
*/
-msg_comm_t MSG_task_isend_bounded(msg_task_t task, const char *alias,
- double maxrate)
+msg_comm_t MSG_task_isend_bounded(msg_task_t task, const char *alias, double maxrate)
{
task->simdata->rate = maxrate;
- return MSG_task_isend_internal(task, alias, NULL, NULL, NULL, 0);
+ return MSG_task_isend_internal(task, alias, nullptr, nullptr, nullptr, 0);
}
-
/** \ingroup msg_task_usage
* \brief Sends a task on a mailbox, with support for matching requests
*
- * This is a non blocking function: use MSG_comm_wait() or MSG_comm_test()
- * to end the communication.
+ * This is a non blocking function: use MSG_comm_wait() or MSG_comm_test() to end the communication.
*
* \param task a #msg_task_t to send on another location.
* \param alias name of the mailbox to sent the task to
* \return the msg_comm_t communication created
*/
msg_comm_t MSG_task_isend_with_matching(msg_task_t task, const char *alias,
- int (*match_fun)(void*, void*,
- smx_synchro_t),
- void *match_data)
+ int (*match_fun)(void*, void*, smx_synchro_t), void *match_data)
{
- return MSG_task_isend_internal(task, alias, match_fun, match_data, NULL, 0);
+ return MSG_task_isend_internal(task, alias, match_fun, match_data, nullptr, 0);
}
/** \ingroup msg_task_usage
* \brief Sends a task on a mailbox.
*
* This is a non blocking detached send function.
- * Think of it as a best effort send. Keep in mind that the third parameter
- * is only called if the communication fails. If the communication does work,
- * it is responsibility of the receiver code to free anything related to
- * the task, as usual. More details on this can be obtained on
+ * Think of it as a best effort send. Keep in mind that the third parameter is only called if the communication fails.
+ * If the communication does work, it is responsibility of the receiver code to free anything related to the task, as
+ * usual. More details on this can be obtained on
* <a href="http://lists.gforge.inria.fr/pipermail/simgrid-user/2011-November/002649.html">this thread</a>
* in the SimGrid-user mailing list archive.
*
* \param task a #msg_task_t to send on another location.
* \param alias name of the mailbox to sent the task to
- * \param cleanup a function to destroy the task if the
- * communication fails, e.g. MSG_task_destroy
- * (if NULL, no function will be called)
+ * \param cleanup a function to destroy the task if the communication fails, e.g. MSG_task_destroy
+ * (if nullptr, no function will be called)
*/
void MSG_task_dsend(msg_task_t task, const char *alias, void_f_pvoid_t cleanup)
{
- MSG_task_isend_internal(task, alias, NULL, NULL, cleanup, 1);
+ MSG_task_isend_internal(task, alias, nullptr, nullptr, cleanup, 1);
}
/** \ingroup msg_task_usage
* \brief Sends a task on a mailbox with a maximal rate.
*
* This is a non blocking detached send function.
- * Think of it as a best effort send. Keep in mind that the third parameter
- * is only called if the communication fails. If the communication does work,
- * it is responsibility of the receiver code to free anything related to
- * the task, as usual. More details on this can be obtained on
+ * Think of it as a best effort send. Keep in mind that the third parameter is only called if the communication fails.
+ * If the communication does work, it is responsibility of the receiver code to free anything related to the task, as
+ * usual. More details on this can be obtained on
* <a href="http://lists.gforge.inria.fr/pipermail/simgrid-user/2011-November/002649.html">this thread</a>
* in the SimGrid-user mailing list archive.
*
* \param alias name of the mailbox to sent the task to
* \param cleanup a function to destroy the task if the
* communication fails, e.g. MSG_task_destroy
- * (if NULL, no function will be called)
+ * (if nullptr, no function will be called)
* \param maxrate the maximum communication rate for sending this task
*
*/
-void MSG_task_dsend_bounded(msg_task_t task, const char *alias,
- void_f_pvoid_t cleanup, double maxrate)
+void MSG_task_dsend_bounded(msg_task_t task, const char *alias, void_f_pvoid_t cleanup, double maxrate)
{
task->simdata->rate = maxrate;
MSG_task_dsend(task, alias, cleanup);
/** \ingroup msg_task_usage
* \brief Starts listening for receiving a task from an asynchronous communication.
*
- * This is a non blocking function: use MSG_comm_wait() or MSG_comm_test()
- * to end the communication.
+ * This is a non blocking function: use MSG_comm_wait() or MSG_comm_test() to end the communication.
*
* \param task a memory location for storing a #msg_task_t. has to be valid until the end of the communication.
* \param name of the mailbox to receive the task on
}
/** \ingroup msg_task_usage
- * \brief Starts listening for receiving a task from an asynchronous communication
- * at a given rate.
+ * \brief Starts listening for receiving a task from an asynchronous communication at a given rate.
*
* \param task a memory location for storing a #msg_task_t. has to be valid until the end of the communication.
* \param name of the mailbox to receive the task on
* \param rate limit the bandwidth to the given rate
* \return the msg_comm_t communication created
*/
-msg_comm_t MSG_task_irecv_bounded(msg_task_t *task, const char *name,
- double rate)
+msg_comm_t MSG_task_irecv_bounded(msg_task_t *task, const char *name, double rate)
{
- smx_rdv_t rdv = MSG_mailbox_get_by_alias(name);
+ smx_mailbox_t rdv = MSG_mailbox_get_by_alias(name);
/* FIXME: these functions are not traceable */
-
/* Sanity check */
xbt_assert(task, "Null pointer for the task storage");
if (*task)
- XBT_CRITICAL
- ("MSG_task_irecv() was asked to write in a non empty task struct.");
+ XBT_CRITICAL("MSG_task_irecv() was asked to write in a non empty task struct.");
/* Try to receive it by calling SIMIX network layer */
msg_comm_t comm = xbt_new0(s_msg_comm_t, 1);
- comm->task_sent = NULL;
+ comm->task_sent = nullptr;
comm->task_received = task;
comm->status = MSG_OK;
- comm->s_comm = simcall_comm_irecv(MSG_process_self(), rdv, task, NULL, NULL, NULL, NULL, rate);
+ comm->s_comm = simcall_comm_irecv(MSG_process_self(), rdv, task, nullptr, nullptr, nullptr, nullptr, rate);
return comm;
}
*/
int MSG_comm_test(msg_comm_t comm)
{
- xbt_ex_t e;
int finished = 0;
- TRY {
+ try {
finished = simcall_comm_test(comm->s_comm);
-
- if (finished && comm->task_received != NULL) {
+ if (finished && comm->task_received != nullptr) {
/* I am the receiver */
- if (msg_global->debug_multiple_use && (*comm->task_received)->simdata->isused!=0)
- xbt_ex_free(*(xbt_ex_t*)(*comm->task_received)->simdata->isused);
- (*comm->task_received)->simdata->isused = 0;
+ (*comm->task_received)->simdata->setNotUsed();
}
}
- CATCH(e) {
+ catch (xbt_ex& e) {
switch (e.category) {
case network_error:
comm->status = MSG_TRANSFER_FAILURE;
finished = 1;
break;
-
case timeout_error:
comm->status = MSG_TIMEOUT;
finished = 1;
break;
-
default:
- RETHROW;
+ throw;
}
- xbt_ex_free(e);
}
return finished;
*/
int MSG_comm_testany(xbt_dynar_t comms)
{
- xbt_ex_t e;
int finished_index = -1;
- /* create the equivalent dynar with SIMIX objects */
- xbt_dynar_t s_comms = xbt_dynar_new(sizeof(smx_synchro_t), NULL);
+ /* Create the equivalent array with SIMIX objects: */
+ std::vector<simgrid::simix::Synchro*> s_comms;
+ s_comms.reserve(xbt_dynar_length(comms));
msg_comm_t comm;
unsigned int cursor;
xbt_dynar_foreach(comms, cursor, comm) {
- xbt_dynar_push(s_comms, &comm->s_comm);
+ s_comms.push_back(comm->s_comm);
}
msg_error_t status = MSG_OK;
- TRY {
- finished_index = simcall_comm_testany(s_comms);
+ try {
+ finished_index = simcall_comm_testany(s_comms.data(), s_comms.size());
}
- CATCH(e) {
+ catch (xbt_ex& e) {
switch (e.category) {
case network_error:
finished_index = e.value;
status = MSG_TRANSFER_FAILURE;
break;
-
case timeout_error:
finished_index = e.value;
status = MSG_TIMEOUT;
break;
-
default:
- RETHROW;
+ throw;
}
- xbt_ex_free(e);
}
- xbt_dynar_free(&s_comms);
if (finished_index != -1) {
comm = xbt_dynar_get_as(comms, finished_index, msg_comm_t);
/* the communication is finished */
comm->status = status;
- if (status == MSG_OK && comm->task_received != NULL) {
+ if (status == MSG_OK && comm->task_received != nullptr) {
/* I am the receiver */
- if (msg_global->debug_multiple_use && (*comm->task_received)->simdata->isused!=0)
- xbt_ex_free(*(xbt_ex_t*)(*comm->task_received)->simdata->isused);
- (*comm->task_received)->simdata->isused = 0;
+ (*comm->task_received)->simdata->setNotUsed();
}
}
*
* It takes two parameters.
* \param comm the communication to wait.
- * \param timeout Wait until the communication terminates or the timeout
- * occurs. You can provide a -1 timeout to obtain an infinite timeout.
+ * \param timeout Wait until the communication terminates or the timeout occurs.
+ * You can provide a -1 timeout to obtain an infinite timeout.
* \return msg_error_t
*/
msg_error_t MSG_comm_wait(msg_comm_t comm, double timeout)
{
- xbt_ex_t e;
- TRY {
+ try {
simcall_comm_wait(comm->s_comm, timeout);
- if (comm->task_received != NULL) {
+ if (comm->task_received != nullptr) {
/* I am the receiver */
- if (msg_global->debug_multiple_use && (*comm->task_received)->simdata->isused!=0)
- xbt_ex_free(*(xbt_ex_t*)(*comm->task_received)->simdata->isused);
- (*comm->task_received)->simdata->isused = 0;
+ (*comm->task_received)->simdata->setNotUsed();
}
/* FIXME: these functions are not traceable */
}
- CATCH(e) {
+ catch (xbt_ex& e) {
switch (e.category) {
case network_error:
comm->status = MSG_TRANSFER_FAILURE;
comm->status = MSG_TIMEOUT;
break;
default:
- RETHROW;
+ throw;
}
- xbt_ex_free(e);
}
return comm->status;
*/
int MSG_comm_waitany(xbt_dynar_t comms)
{
- xbt_ex_t e;
int finished_index = -1;
/* create the equivalent dynar with SIMIX objects */
- xbt_dynar_t s_comms = xbt_dynar_new(sizeof(smx_synchro_t), NULL);
+ xbt_dynar_t s_comms = xbt_dynar_new(sizeof(smx_synchro_t), nullptr);
msg_comm_t comm;
unsigned int cursor;
xbt_dynar_foreach(comms, cursor, comm) {
}
msg_error_t status = MSG_OK;
- TRY {
+ try {
finished_index = simcall_comm_waitany(s_comms);
}
- CATCH(e) {
+ catch(xbt_ex& e) {
switch (e.category) {
case network_error:
finished_index = e.value;
status = MSG_TRANSFER_FAILURE;
break;
-
case timeout_error:
finished_index = e.value;
status = MSG_TIMEOUT;
break;
-
default:
- RETHROW;
+ throw;
}
- xbt_ex_free(e);
}
xbt_assert(finished_index != -1, "WaitAny returned -1");
/* the communication is finished */
comm->status = status;
- if (comm->task_received != NULL) {
+ if (comm->task_received != nullptr) {
/* I am the receiver */
- if (msg_global->debug_multiple_use && (*comm->task_received)->simdata->isused!=0)
- xbt_ex_free(*(xbt_ex_t*)(*comm->task_received)->simdata->isused);
- (*comm->task_received)->simdata->isused = 0;
+ (*comm->task_received)->simdata->setNotUsed();
}
return finished_index;
/**
* \ingroup msg_task_usage
- * \brief Returns the error (if any) that occured during a finished communication.
+ * \brief Returns the error (if any) that occurred during a finished communication.
* \param comm a finished communication
- * \return the status of the communication, or #MSG_OK if no error occured
+ * \return the status of the communication, or #MSG_OK if no error occurred
* during the communication
*/
msg_error_t MSG_comm_get_status(msg_comm_t comm) {
* \param buff the data copied
* \param buff_size size of the buffer
*/
-void MSG_comm_copy_data_from_SIMIX(smx_synchro_t comm, void* buff, size_t buff_size) {
+void MSG_comm_copy_data_from_SIMIX(smx_synchro_t synchro, void* buff, size_t buff_size)
+{
+ simgrid::simix::Comm *comm = static_cast<simgrid::simix::Comm*>(synchro);
- // copy the task
SIMIX_comm_copy_pointer_callback(comm, buff, buff_size);
// notify the user callback if any
if (msg_global->task_copy_callback) {
msg_task_t task = (msg_task_t) buff;
- msg_global->task_copy_callback(task,
- simcall_comm_get_src_proc(comm), simcall_comm_get_dst_proc(comm));
+ msg_global->task_copy_callback(task, comm->src_proc, comm->dst_proc);
}
}
/** \ingroup msg_task_usage
* \brief Sends a task to a mailbox
*
- * This is a blocking function, the execution flow will be blocked
- * until the task is sent (and received in the other side if #MSG_task_receive is used).
+ * This is a blocking function, the execution flow will be blocked until the task is sent (and received on the other
+ * side if #MSG_task_receive is used).
* See #MSG_task_isend for sending tasks asynchronously.
*
* \param task the task to be sent
/** \ingroup msg_task_usage
* \brief Sends a task to a mailbox with a maximum rate
*
- * This is a blocking function, the execution flow will be blocked
- * until the task is sent. The maxrate parameter allows the application
- * to limit the bandwidth utilization of network links when sending the task.
+ * This is a blocking function, the execution flow will be blocked until the task is sent. The maxrate parameter allows
+ * the application to limit the bandwidth utilization of network links when sending the task.
*
* \param task the task to be sent
* \param alias the mailbox name to where the task is sent
* \return Returns #MSG_OK if the task was successfully sent,
* #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE otherwise.
*/
-msg_error_t
-MSG_task_send_bounded(msg_task_t task, const char *alias, double maxrate)
+msg_error_t MSG_task_send_bounded(msg_task_t task, const char *alias, double maxrate)
{
task->simdata->rate = maxrate;
return MSG_task_send(task, alias);
/** \ingroup msg_task_usage
* \brief Sends a task to a mailbox with a timeout
*
- * This is a blocking function, the execution flow will be blocked
- * until the task is sent or the timeout is achieved.
+ * This is a blocking function, the execution flow will be blocked until the task is sent or the timeout is achieved.
*
* \param task the task to be sent
* \param alias the mailbox name to where the task is sent
* \return Returns #MSG_OK if the task was successfully sent,
* #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE, or #MSG_TIMEOUT otherwise.
*/
-msg_error_t
-MSG_task_send_with_timeout(msg_task_t task, const char *alias,
- double timeout)
+msg_error_t MSG_task_send_with_timeout(msg_task_t task, const char *alias, double timeout)
{
- return MSG_mailbox_put_with_timeout(MSG_mailbox_get_by_alias(alias),
- task, timeout);
+ msg_error_t ret = MSG_OK;
+ simdata_task_t t_simdata = nullptr;
+ msg_process_t process = MSG_process_self();
+ simdata_process_t p_simdata = (simdata_process_t) SIMIX_process_self_get_data();
+ msg_mailbox_t mailbox = MSG_mailbox_get_by_alias(alias);
+
+ int call_end = TRACE_msg_task_put_start(task); //must be after CHECK_HOST()
+
+ /* Prepare the task to send */
+ t_simdata = task->simdata;
+ t_simdata->sender = process;
+ t_simdata->source = ((simdata_process_t) SIMIX_process_self_get_data())->m_host;
+
+ t_simdata->setUsed();
+
+ t_simdata->comm = nullptr;
+ msg_global->sent_msg++;
+
+ p_simdata->waiting_task = task;
+
+ /* Try to send it by calling SIMIX network layer */
+ try {
+ smx_synchro_t comm = nullptr; /* MC needs the comm to be set to nullptr during the simix call */
+ comm = simcall_comm_isend(SIMIX_process_self(), mailbox,t_simdata->bytes_amount,
+ t_simdata->rate, task, sizeof(void *), nullptr, nullptr, nullptr, task, 0);
+ if (TRACE_is_enabled())
+ simcall_set_category(comm, task->category);
+ t_simdata->comm = static_cast<simgrid::simix::Comm*>(comm);
+ simcall_comm_wait(comm, timeout);
+ }
+ catch (xbt_ex& e) {
+ switch (e.category) {
+ case cancel_error:
+ ret = MSG_HOST_FAILURE;
+ break;
+ case network_error:
+ ret = MSG_TRANSFER_FAILURE;
+ break;
+ case timeout_error:
+ ret = MSG_TIMEOUT;
+ break;
+ default:
+ throw;
+ }
+
+ /* If the send failed, it is not used anymore */
+ t_simdata->setNotUsed();
+ }
+
+ p_simdata->waiting_task = nullptr;
+ if (call_end)
+ TRACE_msg_task_put_end();
+ MSG_RETURN(ret);
}
/** \ingroup msg_task_usage
* \brief Sends a task to a mailbox with a timeout and with a maximum rate
*
- * This is a blocking function, the execution flow will be blocked
- * until the task is sent or the timeout is achieved.
+ * This is a blocking function, the execution flow will be blocked until the task is sent or the timeout is achieved.
*
* \param task the task to be sent
* \param alias the mailbox name to where the task is sent
* \return Returns #MSG_OK if the task was successfully sent,
* #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE, or #MSG_TIMEOUT otherwise.
*/
-msg_error_t
-MSG_task_send_with_timeout_bounded(msg_task_t task, const char *alias,
- double timeout, double maxrate)
+msg_error_t MSG_task_send_with_timeout_bounded(msg_task_t task, const char *alias, double timeout, double maxrate)
{
task->simdata->rate = maxrate;
- return MSG_mailbox_put_with_timeout(MSG_mailbox_get_by_alias(alias),
- task, timeout);
+ return MSG_task_send_with_timeout(task, alias, timeout);
}
/** \ingroup msg_task_usage
*/
int MSG_task_listen(const char *alias)
{
- return !MSG_mailbox_is_empty(MSG_mailbox_get_by_alias(alias));
-}
-
-/** \ingroup msg_task_usage
- * \brief Check the number of communication actions of a given host pending in a mailbox.
- *
- * \param alias the name of the mailbox to be considered
- * \param host the host to check for communication
- *
- * \return Returns the number of pending communication actions of the host in the
- * given mailbox, 0 if there is no pending communication actions.
- *
- */
-int MSG_task_listen_from_host(const char *alias, msg_host_t host)
-{
- return
- MSG_mailbox_get_count_host_waiting_tasks(MSG_mailbox_get_by_alias
- (alias), host);
+ smx_mailbox_t mbox = MSG_mailbox_get_by_alias(alias);
+ return !MSG_mailbox_is_empty(mbox) ||
+ (mbox->permanent_receiver && !mbox->done_comm_queue.empty());
}
/** \ingroup msg_task_usage
- * \brief Look if there is a communication on a mailbox and return the
- * PID of the sender process.
+ * \brief Look if there is a communication on a mailbox and return the PID of the sender process.
*
* \param alias the name of the mailbox to be considered
*
{
msg_task_t task;
- if (NULL ==
- (task = MSG_mailbox_get_head(MSG_mailbox_get_by_alias(alias))))
+ if (nullptr == (task = MSG_mailbox_front(MSG_mailbox_get_by_alias(alias))))
return -1;
return MSG_process_get_PID(task->simdata->sender);
/** \ingroup msg_task_usage
* \brief Sets the tracing category of a task.
*
- * This function should be called after the creation of
- * a MSG task, to define the category of that task. The
- * first parameter task must contain a task that was
- * created with the function #MSG_task_create. The second
- * parameter category must contain a category that was
- * previously declared with the function #TRACE_category
+ * This function should be called after the creation of a MSG task, to define the category of that task. The
+ * first parameter task must contain a task that was created with the function #MSG_task_create. The second
+ * parameter category must contain a category that was previously declared with the function #TRACE_category
* (or with #TRACE_category_with_color).
*
- * See \ref tracing for details on how to trace
- * the (categorized) resource utilization.
+ * See \ref outcomes_vizu for details on how to trace the (categorized) resource utilization.
*
* \param task the task that is going to be categorized
* \param category the name of the category to be associated to the task
*
* \see MSG_task_set_category
*
- * \return Returns the name of the tracing category of the given task, NULL otherwise
+ * \return Returns the name of the tracing category of the given task, nullptr otherwise
*/
const char *MSG_task_get_category (msg_task_t task)
{
*
* \param asr the name of a router or AS
* \param name a property name
- * \return value of a property (or NULL if property not set)
+ * \return value of a property (or nullptr if property not set)
*/
const char *MSG_as_router_get_property_value(const char* asr, const char *name)
{
- return (char*) xbt_dict_get_or_null(
- MSG_as_router_get_properties(asr), name);
+ return (char*) xbt_dict_get_or_null(MSG_as_router_get_properties(asr), name);
}
/**