1 /* Copyright (c) 2004-2012. The SimGrid Team. All rights reserved. */
3 /* This program is free software; you can redistribute it and/or modify it
4 * under the terms of the license (GNU LGPL) which comes with this package. */
6 #include "msg_private.h"
7 #include "msg_mailbox.h"
10 #include "xbt/sysdep.h"
12 XBT_LOG_NEW_DEFAULT_SUBCATEGORY(msg_gos, msg,
13 "Logging specific to MSG (gos)");
15 /** \ingroup msg_task_usage
16 * \brief Executes a task and waits for its termination.
18 * This function is used for describing the behavior of a process. It
19 * takes only one parameter.
20 * \param task a #msg_task_t to execute on the location on which the process is running.
21 * \return #MSG_OK if the task was successfully completed, #MSG_TASK_CANCELED
22 * or #MSG_HOST_FAILURE otherwise
24 msg_error_t MSG_task_execute(msg_task_t task)
26 return MSG_parallel_task_execute(task);
29 /** \ingroup msg_task_usage
30 * \brief Executes a parallel task and waits for its termination.
32 * \param task a #msg_task_t to execute on the location on which the process is running.
34 * \return #MSG_OK if the task was successfully completed, #MSG_TASK_CANCELED
35 * or #MSG_HOST_FAILURE otherwise
37 msg_error_t MSG_parallel_task_execute(msg_task_t task)
40 simdata_task_t simdata = task->simdata;
41 msg_process_t self = SIMIX_process_self();
42 simdata_process_t p_simdata = SIMIX_process_self_get_data(self);
43 e_smx_state_t comp_state;
44 msg_error_t status = MSG_OK;
47 TRACE_msg_task_execute_start(task);
50 xbt_assert((!simdata->compute) && (task->simdata->isused == 0),
51 "This task is executed somewhere else. Go fix your code! %d",
52 task->simdata->isused);
54 XBT_DEBUG("Computing on %s", MSG_process_get_name(MSG_process_self()));
56 if (simdata->computation_amount == 0 && !simdata->host_nb) {
58 TRACE_msg_task_execute_end(task);
68 if (simdata->host_nb > 0) {
69 simdata->compute = simcall_host_parallel_execute(task->name,
75 XBT_DEBUG("Parallel execution action created: %p", simdata->compute);
77 simdata->compute = simcall_host_execute(task->name,
78 p_simdata->m_host->smx_host,
79 simdata->computation_amount,
84 simcall_set_category(simdata->compute, task->category);
86 p_simdata->waiting_action = simdata->compute;
87 comp_state = simcall_host_execution_wait(simdata->compute);
89 p_simdata->waiting_action = NULL;
93 XBT_DEBUG("Execution task '%s' finished in state %d",
94 task->name, (int)comp_state);
99 status = MSG_TASK_CANCELED;
106 /* action ended, set comm and compute = NULL, the actions is already destroyed
107 * in the main function */
108 simdata->computation_amount = 0.0;
109 simdata->comm = NULL;
110 simdata->compute = NULL;
112 TRACE_msg_task_execute_end(task);
119 /** \ingroup msg_task_usage
120 * \brief Sleep for the specified number of seconds
122 * Makes the current process sleep until \a time seconds have elapsed.
124 * \param nb_sec a number of second
126 msg_error_t MSG_process_sleep(double nb_sec)
128 msg_error_t status = MSG_OK;
129 /*msg_process_t proc = MSG_process_self();*/
132 TRACE_msg_process_sleep_in(MSG_process_self());
135 /* create action to sleep */
137 /*proc->simdata->waiting_action = act_sleep;
139 FIXME: check if not setting the waiting_action breaks something on msg
141 proc->simdata->waiting_action = NULL;*/
143 simcall_process_sleep(nb_sec);
146 TRACE_msg_process_sleep_out(MSG_process_self());
151 /** \ingroup msg_task_usage
152 * \brief Deprecated function that used to receive a task from a mailbox from a specific host.
154 * Sorry, this function is not supported anymore. That wouldn't be
155 * impossible to reimplement it, but we are lacking the time to do so ourselves.
156 * If you need this functionality, you can either:
158 * - implement the buffering mechanism on the user-level by queuing all messages
159 * received in the mailbox that do not match your expectation
160 * - change your application logic to leverage the mailboxes features. For example,
161 * if you have A receiving messages from B and C, you could have A waiting on
162 * mailbox "A" most of the time, but on "A#B" when it's waiting for specific
163 * messages from B and "A#C" when waiting for messages from C. You could even get A
164 * sometime waiting on all these mailboxes using @ref MSG_comm_waitany. You can find
165 * an example of use of this function in the @ref MSG_examples section.
166 * - Provide a proper patch to implement this functionality back in MSG. That wouldn't be
167 * very difficult actually. Check the function #MSG_mailbox_get_task_ext. During its call to
168 * simcall_comm_recv(), the 5th argument, match_fun, is NULL. Create a function that filters
169 * messages according to the host (that you will pass as sixth argument to simcall_comm_recv()
170 * and that your filtering function will receive as first parameter, and then, the filter could
171 * simply compare the host names, for example. After sufficient testing, provide an example that
172 * we could add to the distribution, and your first contribution to SimGrid is ready. Thanks in advance.
174 * \param task a memory location for storing a #msg_task_t.
175 * \param alias name of the mailbox to receive the task from
176 * \param host a #msg_host_t host from where the task was sent
179 * #MSG_OK if the task was successfully received,
180 * #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE otherwise.
183 MSG_task_receive_from_host(msg_task_t * task, const char *alias,
186 return MSG_task_receive_ext(task, alias, -1, host);
189 /** \ingroup msg_task_usage
190 * \brief Receives a task from a mailbox.
192 * This is a blocking function, the execution flow will be blocked
193 * until the task is received. See #MSG_task_irecv
194 * for receiving tasks asynchronously.
196 * \param task a memory location for storing a #msg_task_t.
197 * \param alias name of the mailbox to receive the task from
200 * #MSG_OK if the task was successfully received,
201 * #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE otherwise.
203 msg_error_t MSG_task_receive(msg_task_t * task, const char *alias)
205 return MSG_task_receive_with_timeout(task, alias, -1);
208 /** \ingroup msg_task_usage
209 * \brief Receives a task from a mailbox with a given timeout.
211 * This is a blocking function with a timeout, the execution flow will be blocked
212 * until the task is received or the timeout is achieved. See #MSG_task_irecv
213 * for receiving tasks asynchronously. You can provide a -1 timeout
214 * to obtain an infinite timeout.
216 * \param task a memory location for storing a #msg_task_t.
217 * \param alias name of the mailbox to receive the task from
218 * \param timeout is the maximum wait time for completion (if -1, this call is the same as #MSG_task_receive)
221 * #MSG_OK if the task was successfully received,
222 * #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE, or #MSG_TIMEOUT otherwise.
225 MSG_task_receive_with_timeout(msg_task_t * task, const char *alias,
228 return MSG_task_receive_ext(task, alias, timeout, NULL);
231 /** \ingroup msg_task_usage
232 * \brief Receives a task from a mailbox from a specific host with a given timeout.
234 * This is a blocking function with a timeout, the execution flow will be blocked
235 * until the task is received or the timeout is achieved. See #MSG_task_irecv
236 * for receiving tasks asynchronously. You can provide a -1 timeout
237 * to obtain an infinite timeout.
239 * \param task a memory location for storing a #msg_task_t.
240 * \param alias name of the mailbox to receive the task from
241 * \param timeout is the maximum wait time for completion (provide -1 for no timeout)
242 * \param host a #msg_host_t host from where the task was sent
245 * #MSG_OK if the task was successfully received,
246 * #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE, or #MSG_TIMEOUT otherwise.
249 MSG_task_receive_ext(msg_task_t * task, const char *alias, double timeout,
253 ("MSG_task_receive_ext: Trying to receive a message on mailbox '%s'",
255 return MSG_mailbox_get_task_ext(MSG_mailbox_get_by_alias(alias), task,
259 /** \ingroup msg_task_usage
260 * \brief Sends a task on a mailbox.
262 * This is a non blocking function: use MSG_comm_wait() or MSG_comm_test()
263 * to end the communication.
265 * \param task a #msg_task_t to send on another location.
266 * \param alias name of the mailbox to sent the task to
267 * \return the msg_comm_t communication created
269 msg_comm_t MSG_task_isend(msg_task_t task, const char *alias)
271 return MSG_task_isend_with_matching(task,alias,NULL,NULL);
274 /** \ingroup msg_task_usage
275 * \brief Sends a task on a mailbox, with support for matching requests
277 * This is a non blocking function: use MSG_comm_wait() or MSG_comm_test()
278 * to end the communication.
280 * \param task a #msg_task_t to send on another location.
281 * \param alias name of the mailbox to sent the task to
282 * \param match_fun boolean function which parameters are:
283 * - match_data_provided_here
284 * - match_data_provided_by_other_side_if_any
285 * - the_smx_action_describing_the_other_side
286 * \param match_data user provided data passed to match_fun
287 * \return the msg_comm_t communication created
289 XBT_INLINE msg_comm_t MSG_task_isend_with_matching(msg_task_t task, const char *alias,
290 int (*match_fun)(void*,void*, smx_action_t),
293 simdata_task_t t_simdata = NULL;
294 msg_process_t process = MSG_process_self();
295 msg_mailbox_t mailbox = MSG_mailbox_get_by_alias(alias);
297 /* FIXME: these functions are not traceable */
299 /* Prepare the task to send */
300 t_simdata = task->simdata;
301 t_simdata->sender = process;
302 t_simdata->source = ((simdata_process_t) SIMIX_process_self_get_data(process))->m_host;
304 xbt_assert(t_simdata->isused == 0,
305 "This task is still being used somewhere else. You cannot send it now. Go fix your code!");
307 t_simdata->isused = 1;
308 t_simdata->comm = NULL;
309 msg_global->sent_msg++;
311 /* Send it by calling SIMIX network layer */
312 msg_comm_t comm = xbt_new0(s_msg_comm_t, 1);
313 comm->task_sent = task;
314 comm->task_received = NULL;
315 comm->status = MSG_OK;
317 simcall_comm_isend(mailbox, t_simdata->message_size,
318 t_simdata->rate, task, sizeof(void *), match_fun, NULL, match_data, 0);
319 t_simdata->comm = comm->s_comm; /* FIXME: is the field t_simdata->comm still useful? */
324 /** \ingroup msg_task_usage
325 * \brief Sends a task on a mailbox.
327 * This is a non blocking detached send function.
328 * Think of it as a best effort send. Keep in mind that the third parameter
329 * is only called if the communication fails. If the communication does work,
330 * it is responsibility of the receiver code to free anything related to
331 * the task, as usual. More details on this can be obtained on
332 * <a href="http://lists.gforge.inria.fr/pipermail/simgrid-user/2011-November/002649.html">this thread</a>
333 * in the SimGrid-user mailing list archive.
335 * \param task a #msg_task_t to send on another location.
336 * \param alias name of the mailbox to sent the task to
337 * \param cleanup a function to destroy the task if the
338 * communication fails, e.g. MSG_task_destroy
339 * (if NULL, no function will be called)
341 void MSG_task_dsend(msg_task_t task, const char *alias, void_f_pvoid_t cleanup)
343 simdata_task_t t_simdata = NULL;
344 msg_process_t process = MSG_process_self();
345 msg_mailbox_t mailbox = MSG_mailbox_get_by_alias(alias);
347 /* FIXME: these functions are not traceable */
349 /* Prepare the task to send */
350 t_simdata = task->simdata;
351 t_simdata->sender = process;
352 t_simdata->source = ((simdata_process_t) SIMIX_process_self_get_data(process))->m_host;
354 xbt_assert(t_simdata->isused == 0,
355 "This task is still being used somewhere else. You cannot send it now. Go fix your code!");
357 t_simdata->isused = 1;
358 t_simdata->comm = NULL;
359 msg_global->sent_msg++;
361 /* Send it by calling SIMIX network layer */
362 smx_action_t comm = simcall_comm_isend(mailbox, t_simdata->message_size,
363 t_simdata->rate, task, sizeof(void *), NULL, cleanup, NULL, 1);
364 t_simdata->comm = comm;
367 /** \ingroup msg_task_usage
368 * \brief Starts listening for receiving a task from an asynchronous communication.
370 * This is a non blocking function: use MSG_comm_wait() or MSG_comm_test()
371 * to end the communication.
373 * \param task a memory location for storing a #msg_task_t. has to be valid until the end of the communication.
374 * \param name of the mailbox to receive the task on
375 * \return the msg_comm_t communication created
377 msg_comm_t MSG_task_irecv(msg_task_t *task, const char *name)
379 smx_rdv_t rdv = MSG_mailbox_get_by_alias(name);
381 /* FIXME: these functions are not traceable */
384 xbt_assert(task, "Null pointer for the task storage");
388 ("MSG_task_irecv() was asked to write in a non empty task struct.");
390 /* Try to receive it by calling SIMIX network layer */
391 msg_comm_t comm = xbt_new0(s_msg_comm_t, 1);
392 comm->task_sent = NULL;
393 comm->task_received = task;
394 comm->status = MSG_OK;
395 comm->s_comm = simcall_comm_irecv(rdv, task, NULL, NULL, NULL);
400 /** \ingroup msg_task_usage
401 * \brief Checks whether a communication is done, and if yes, finalizes it.
402 * \param comm the communication to test
403 * \return TRUE if the communication is finished
404 * (but it may have failed, use MSG_comm_get_status() to know its status)
405 * or FALSE if the communication is not finished yet
406 * If the status is FALSE, don't forget to use MSG_process_sleep() after the test.
408 int MSG_comm_test(msg_comm_t comm)
413 finished = simcall_comm_test(comm->s_comm);
415 if (finished && comm->task_received != NULL) {
416 /* I am the receiver */
417 (*comm->task_received)->simdata->isused = 0;
421 switch (e.category) {
423 comm->status = MSG_TRANSFER_FAILURE;
428 comm->status = MSG_TIMEOUT;
441 /** \ingroup msg_task_usage
442 * \brief This function checks if a communication is finished.
443 * \param comms a vector of communications
444 * \return the position of the finished communication if any
445 * (but it may have failed, use MSG_comm_get_status() to know its status),
446 * or -1 if none is finished
448 int MSG_comm_testany(xbt_dynar_t comms)
451 int finished_index = -1;
453 /* create the equivalent dynar with SIMIX objects */
454 xbt_dynar_t s_comms = xbt_dynar_new(sizeof(smx_action_t), NULL);
457 xbt_dynar_foreach(comms, cursor, comm) {
458 xbt_dynar_push(s_comms, &comm->s_comm);
461 msg_error_t status = MSG_OK;
463 finished_index = simcall_comm_testany(s_comms);
466 switch (e.category) {
468 finished_index = e.value;
469 status = MSG_TRANSFER_FAILURE;
473 finished_index = e.value;
474 status = MSG_TIMEOUT;
482 xbt_dynar_free(&s_comms);
484 if (finished_index != -1) {
485 comm = xbt_dynar_get_as(comms, finished_index, msg_comm_t);
486 /* the communication is finished */
487 comm->status = status;
489 if (status == MSG_OK && comm->task_received != NULL) {
490 /* I am the receiver */
491 (*comm->task_received)->simdata->isused = 0;
495 return finished_index;
498 /** \ingroup msg_task_usage
499 * \brief Destroys a communication.
500 * \param comm the communication to destroy.
502 void MSG_comm_destroy(msg_comm_t comm)
507 /** \ingroup msg_task_usage
508 * \brief Wait for the completion of a communication.
510 * It takes two parameters.
511 * \param comm the communication to wait.
512 * \param timeout Wait until the communication terminates or the timeout
513 * occurs. You can provide a -1 timeout to obtain an infinite timeout.
514 * \return msg_error_t
516 msg_error_t MSG_comm_wait(msg_comm_t comm, double timeout)
520 simcall_comm_wait(comm->s_comm, timeout);
522 if (comm->task_received != NULL) {
523 /* I am the receiver */
524 (*comm->task_received)->simdata->isused = 0;
527 /* FIXME: these functions are not traceable */
530 switch (e.category) {
532 comm->status = MSG_TRANSFER_FAILURE;
535 comm->status = MSG_TIMEOUT;
546 /** \ingroup msg_task_usage
547 * \brief This function is called by a sender and permit to wait for each communication
549 * \param comm a vector of communication
550 * \param nb_elem is the size of the comm vector
551 * \param timeout for each call of MSG_comm_wait
553 void MSG_comm_waitall(msg_comm_t * comm, int nb_elem, double timeout)
556 for (i = 0; i < nb_elem; i++) {
557 MSG_comm_wait(comm[i], timeout);
561 /** \ingroup msg_task_usage
562 * \brief This function waits for the first communication finished in a list.
563 * \param comms a vector of communications
564 * \return the position of the first finished communication
565 * (but it may have failed, use MSG_comm_get_status() to know its status)
567 int MSG_comm_waitany(xbt_dynar_t comms)
570 int finished_index = -1;
572 /* create the equivalent dynar with SIMIX objects */
573 xbt_dynar_t s_comms = xbt_dynar_new(sizeof(smx_action_t), NULL);
576 xbt_dynar_foreach(comms, cursor, comm) {
577 xbt_dynar_push(s_comms, &comm->s_comm);
580 msg_error_t status = MSG_OK;
582 finished_index = simcall_comm_waitany(s_comms);
585 switch (e.category) {
587 finished_index = e.value;
588 status = MSG_TRANSFER_FAILURE;
592 finished_index = e.value;
593 status = MSG_TIMEOUT;
602 xbt_assert(finished_index != -1, "WaitAny returned -1");
603 xbt_dynar_free(&s_comms);
605 comm = xbt_dynar_get_as(comms, finished_index, msg_comm_t);
606 /* the communication is finished */
607 comm->status = status;
609 if (comm->task_received != NULL) {
610 /* I am the receiver */
611 (*comm->task_received)->simdata->isused = 0;
614 return finished_index;
618 * \ingroup msg_task_usage
619 * \brief Returns the error (if any) that occured during a finished communication.
620 * \param comm a finished communication
621 * \return the status of the communication, or #MSG_OK if no error occured
622 * during the communication
624 msg_error_t MSG_comm_get_status(msg_comm_t comm) {
629 /** \ingroup msg_task_usage
630 * \brief Get a task (#msg_task_t) from a communication
632 * \param comm the communication where to get the task
633 * \return the task from the communication
635 msg_task_t MSG_comm_get_task(msg_comm_t comm)
637 xbt_assert(comm, "Invalid parameter");
639 return comm->task_received ? *comm->task_received : comm->task_sent;
643 * \brief This function is called by SIMIX to copy the data of a comm.
644 * \param comm the comm
645 * \param buff the data copied
646 * \param buff_size size of the buffer
648 void MSG_comm_copy_data_from_SIMIX(smx_action_t comm, void* buff, size_t buff_size) {
651 SIMIX_comm_copy_pointer_callback(comm, buff, buff_size);
653 // notify the user callback if any
654 if (msg_global->task_copy_callback) {
655 msg_task_t task = buff;
656 msg_global->task_copy_callback(task,
657 simcall_comm_get_src_proc(comm), simcall_comm_get_dst_proc(comm));
661 /** \ingroup msg_task_usage
662 * \brief Sends a task to a mailbox
664 * This is a blocking function, the execution flow will be blocked
665 * until the task is sent (and received in the other side if #MSG_task_receive is used).
666 * See #MSG_task_isend for sending tasks asynchronously.
668 * \param task the task to be sent
669 * \param alias the mailbox name to where the task is sent
671 * \return Returns #MSG_OK if the task was successfully sent,
672 * #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE otherwise.
674 msg_error_t MSG_task_send(msg_task_t task, const char *alias)
676 XBT_DEBUG("MSG_task_send: Trying to send a message on mailbox '%s'", alias);
677 return MSG_task_send_with_timeout(task, alias, -1);
680 /** \ingroup msg_task_usage
681 * \brief Sends a task to a mailbox with a maximum rate
683 * This is a blocking function, the execution flow will be blocked
684 * until the task is sent. The maxrate parameter allows the application
685 * to limit the bandwidth utilization of network links when sending the task.
687 * \param task the task to be sent
688 * \param alias the mailbox name to where the task is sent
689 * \param maxrate the maximum communication rate for sending this task
691 * \return Returns #MSG_OK if the task was successfully sent,
692 * #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE otherwise.
695 MSG_task_send_bounded(msg_task_t task, const char *alias, double maxrate)
697 task->simdata->rate = maxrate;
698 return MSG_task_send(task, alias);
701 /** \ingroup msg_task_usage
702 * \brief Sends a task to a mailbox with a timeout
704 * This is a blocking function, the execution flow will be blocked
705 * until the task is sent or the timeout is achieved.
707 * \param task the task to be sent
708 * \param alias the mailbox name to where the task is sent
709 * \param timeout is the maximum wait time for completion (if -1, this call is the same as #MSG_task_send)
711 * \return Returns #MSG_OK if the task was successfully sent,
712 * #MSG_HOST_FAILURE, or #MSG_TRANSFER_FAILURE, or #MSG_TIMEOUT otherwise.
715 MSG_task_send_with_timeout(msg_task_t task, const char *alias,
718 return MSG_mailbox_put_with_timeout(MSG_mailbox_get_by_alias(alias),
722 /** \ingroup msg_task_usage
723 * \brief Check if there is a communication going on in a mailbox.
725 * \param alias the name of the mailbox to be considered
727 * \return Returns 1 if there is a communication, 0 otherwise
729 int MSG_task_listen(const char *alias)
731 return !MSG_mailbox_is_empty(MSG_mailbox_get_by_alias(alias));
734 /** \ingroup msg_task_usage
735 * \brief Check the number of communication actions of a given host pending in a mailbox.
737 * \param alias the name of the mailbox to be considered
738 * \param host the host to check for communication
740 * \return Returns the number of pending communication actions of the host in the
741 * given mailbox, 0 if there is no pending communication actions.
744 int MSG_task_listen_from_host(const char *alias, msg_host_t host)
747 MSG_mailbox_get_count_host_waiting_tasks(MSG_mailbox_get_by_alias
751 /** \ingroup msg_task_usage
752 * \brief Look if there is a communication on a mailbox and return the
753 * PID of the sender process.
755 * \param alias the name of the mailbox to be considered
757 * \return Returns the PID of sender process,
758 * -1 if there is no communication in the mailbox.
760 int MSG_task_listen_from(const char *alias)
765 (task = MSG_mailbox_get_head(MSG_mailbox_get_by_alias(alias))))
768 return MSG_process_get_PID(task->simdata->sender);
771 /** \ingroup msg_task_usage
772 * \brief Sets the tracing category of a task.
774 * This function should be called after the creation of
775 * a MSG task, to define the category of that task. The
776 * first parameter task must contain a task that was
777 * created with the function #MSG_task_create. The second
778 * parameter category must contain a category that was
779 * previously declared with the function #TRACE_category
780 * (or with #TRACE_category_with_color).
782 * See \ref tracing for details on how to trace
783 * the (categorized) resource utilization.
785 * \param task the task that is going to be categorized
786 * \param category the name of the category to be associated to the task
788 * \see MSG_task_get_category, TRACE_category, TRACE_category_with_color
790 void MSG_task_set_category (msg_task_t task, const char *category)
793 TRACE_msg_set_task_category (task, category);
797 /** \ingroup msg_task_usage
799 * \brief Gets the current tracing category of a task.
801 * \param task the task to be considered
803 * \see MSG_task_set_category
805 * \return Returns the name of the tracing category of the given task, NULL otherwise
807 const char *MSG_task_get_category (msg_task_t task)
810 return task->category;
817 * \brief Returns the value of a given AS or router property
819 * \param asr the name of a router or AS
820 * \param name a property name
821 * \return value of a property (or NULL if property not set)
823 const char *MSG_as_router_get_property_value(const char* asr, const char *name)
825 return xbt_dict_get_or_null(MSG_as_router_get_properties(asr), name);
829 * \brief Returns a xbt_dict_t consisting of the list of properties assigned to
832 * \param asr the name of a router or AS
833 * \return a dict containing the properties
835 xbt_dict_t MSG_as_router_get_properties(const char* asr)
837 // FIXME do this function with a simcall
838 return xbt_lib_get_or_null(as_router_lib, asr, ROUTING_PROP_ASR_LEVEL);
842 * \brief Change the value of a given AS or router
844 * \param asr the name of a router or AS
845 * \param name a property name
846 * \param value what to change the property to
847 * \param free_ctn the freeing function to use to kill the value on need
849 void MSG_as_router_set_property_value(const char* asr, const char *name, char *value,void_f_pvoid_t free_ctn) {
850 xbt_dict_set(MSG_as_router_get_properties(asr), name, value,free_ctn);
853 #ifdef MSG_USE_DEPRECATED
854 /** \ingroup msg_deprecated_functions
856 * \brief Return the last value returned by a MSG function (except
859 msg_error_t MSG_get_errno(void)
861 return PROCESS_GET_ERRNO();
864 /** \ingroup msg_deprecated_functions
865 * \brief Put a task on a channel of an host and waits for the end of the
868 * This function is used for describing the behavior of a process. It
869 * takes three parameter.
870 * \param task a #msg_task_t to send on another location. This task
871 will not be usable anymore when the function will return. There is
872 no automatic task duplication and you have to save your parameters
873 before calling this function. Tasks are unique and once it has been
874 sent to another location, you should not access it anymore. You do
875 not need to call MSG_task_destroy() but to avoid using, as an
876 effect of inattention, this task anymore, you definitely should
877 renitialize it with #MSG_TASK_UNINITIALIZED. Note that this task
878 can be transfered iff it has been correctly created with
880 * \param dest the destination of the message
881 * \param channel the channel on which the process should put this
882 task. This value has to be >=0 and < than the maximal number of
883 channels fixed with MSG_set_channel_number().
884 * \return #MSG_HOST_FAILURE if the host on which
885 * this function was called was shut down,
886 * #MSG_TRANSFER_FAILURE if the transfer could not be properly done
887 * (network failure, dest failure) or #MSG_OK if it succeeded.
889 msg_error_t MSG_task_put(msg_task_t task, msg_host_t dest, m_channel_t channel)
891 XBT_WARN("DEPRECATED! Now use MSG_task_send");
892 return MSG_task_put_with_timeout(task, dest, channel, -1.0);
895 /** \ingroup msg_deprecated_functions
896 * \brief Does exactly the same as MSG_task_put but with a bounded transmition
902 MSG_task_put_bounded(msg_task_t task, msg_host_t dest, m_channel_t channel,
905 XBT_WARN("DEPRECATED! Now use MSG_task_send_bounded");
906 task->simdata->rate = maxrate;
907 return MSG_task_put(task, dest, channel);
910 /** \ingroup msg_deprecated_functions
912 * \brief Put a task on a channel of an
913 * host (with a timeout on the waiting of the destination host) and
914 * waits for the end of the transmission.
916 * This function is used for describing the behavior of a process. It
917 * takes four parameter.
918 * \param task a #msg_task_t to send on another location. This task
919 will not be usable anymore when the function will return. There is
920 no automatic task duplication and you have to save your parameters
921 before calling this function. Tasks are unique and once it has been
922 sent to another location, you should not access it anymore. You do
923 not need to call MSG_task_destroy() but to avoid using, as an
924 effect of inattention, this task anymore, you definitely should
925 renitialize it with #MSG_TASK_UNINITIALIZED. Note that this task
926 can be transfered iff it has been correctly created with
928 * \param dest the destination of the message
929 * \param channel the channel on which the process should put this
930 task. This value has to be >=0 and < than the maximal number of
931 channels fixed with MSG_set_channel_number().
932 * \param timeout the maximum time to wait for a task before giving
933 up. In such a case, #MSG_TRANSFER_FAILURE will be returned, \a task
935 * \return #MSG_HOST_FAILURE if the host on which
936 this function was called was shut down,
937 #MSG_TRANSFER_FAILURE if the transfer could not be properly done
938 (network failure, dest failure, timeout...) or #MSG_OK if the communication succeeded.
941 MSG_task_put_with_timeout(msg_task_t task, msg_host_t dest,
942 m_channel_t channel, double timeout)
944 XBT_WARN("DEPRECATED! Now use MSG_task_send_with_timeout");
945 xbt_assert((channel >= 0)
946 && (channel < msg_global->max_channel), "Invalid channel %d",
949 XBT_DEBUG("MSG_task_put_with_timout: Trying to send a task to '%s'", SIMIX_host_get_name(dest->smx_host));
951 MSG_mailbox_put_with_timeout(MSG_mailbox_get_by_channel
952 (dest, channel), task, timeout);
955 /** \ingroup msg_deprecated_functions
956 * \brief Test whether there is a pending communication on a channel, and who sent it.
958 * It takes one parameter.
959 * \param channel the channel on which the process should be
960 listening. This value has to be >=0 and < than the maximal
961 number of channels fixed with MSG_set_channel_number().
962 * \return -1 if there is no pending communication and the PID of the process who sent it otherwise
964 int MSG_task_probe_from(m_channel_t channel)
966 XBT_WARN("DEPRECATED! Now use MSG_task_listen_from");
969 xbt_assert((channel >= 0)
970 && (channel < msg_global->max_channel), "Invalid channel %d",
975 MSG_mailbox_get_head(MSG_mailbox_get_by_channel
976 (MSG_host_self(), channel))))
979 return MSG_process_get_PID(task->simdata->sender);
982 /** \ingroup msg_deprecated_functions
983 * \brief Test whether there is a pending communication on a channel.
985 * It takes one parameter.
986 * \param channel the channel on which the process should be
987 listening. This value has to be >=0 and < than the maximal
988 number of channels fixed with MSG_set_channel_number().
989 * \return 1 if there is a pending communication and 0 otherwise
991 int MSG_task_Iprobe(m_channel_t channel)
993 XBT_WARN("DEPRECATED!");
994 xbt_assert((channel >= 0)
995 && (channel < msg_global->max_channel), "Invalid channel %d",
999 !MSG_mailbox_is_empty(MSG_mailbox_get_by_channel
1000 (MSG_host_self(), channel));
1003 /** \ingroup msg_deprecated_functions
1005 * \brief Return the number of tasks waiting to be received on a \a
1006 channel and sent by \a host.
1008 * It takes two parameters.
1009 * \param channel the channel on which the process should be
1010 listening. This value has to be >=0 and < than the maximal
1011 number of channels fixed with MSG_set_channel_number().
1012 * \param host the host that is to be watched.
1013 * \return the number of tasks waiting to be received on \a channel
1014 and sent by \a host.
1016 int MSG_task_probe_from_host(int channel, msg_host_t host)
1018 XBT_WARN("DEPRECATED! Now use MSG_task_listen_from_host");
1019 xbt_assert((channel >= 0)
1020 && (channel < msg_global->max_channel), "Invalid channel %d",
1024 MSG_mailbox_get_count_host_waiting_tasks(MSG_mailbox_get_by_channel
1025 (MSG_host_self(), channel),
1030 /** \ingroup msg_deprecated_functions
1031 * \brief Listen on \a channel and waits for receiving a task from \a host.
1033 * It takes three parameters.
1034 * \param task a memory location for storing a #msg_task_t. It will
1035 hold a task when this function will return. Thus \a task should not
1036 be equal to \c NULL and \a *task should be equal to \c NULL. If one of
1037 those two condition does not hold, there will be a warning message.
1038 * \param channel the channel on which the process should be
1039 listening. This value has to be >=0 and < than the maximal
1040 number of channels fixed with MSG_set_channel_number().
1041 * \param host the host that is to be watched.
1042 * \return a #msg_error_t indicating whether the operation was successful (#MSG_OK), or why it failed otherwise.
1045 MSG_task_get_from_host(msg_task_t * task, m_channel_t channel, msg_host_t host)
1047 XBT_WARN("DEPRECATED! Now use MSG_task_receive_from_host");
1048 return MSG_task_get_ext(task, channel, -1, host);
1051 /** \ingroup msg_deprecated_functions
1052 * \brief Listen on a channel and wait for receiving a task.
1054 * It takes two parameters.
1055 * \param task a memory location for storing a #msg_task_t. It will
1056 hold a task when this function will return. Thus \a task should not
1057 be equal to \c NULL and \a *task should be equal to \c NULL. If one of
1058 those two condition does not hold, there will be a warning message.
1059 * \param channel the channel on which the process should be
1060 listening. This value has to be >=0 and < than the maximal
1061 number of channels fixed with MSG_set_channel_number().
1062 * \return a #msg_error_t indicating whether the operation was successful (#MSG_OK), or why it failed otherwise.
1064 msg_error_t MSG_task_get(msg_task_t * task, m_channel_t channel)
1066 XBT_WARN("DEPRECATED! Now use MSG_task_receive");
1067 return MSG_task_get_with_timeout(task, channel, -1);
1070 /** \ingroup msg_deprecated_functions
1071 * \brief Listen on a channel and wait for receiving a task with a timeout.
1073 * It takes three parameters.
1074 * \param task a memory location for storing a #msg_task_t. It will
1075 hold a task when this function will return. Thus \a task should not
1076 be equal to \c NULL and \a *task should be equal to \c NULL. If one of
1077 those two condition does not hold, there will be a warning message.
1078 * \param channel the channel on which the process should be
1079 listening. This value has to be >=0 and < than the maximal
1080 number of channels fixed with MSG_set_channel_number().
1081 * \param max_duration the maximum time to wait for a task before giving
1082 up. In such a case, #MSG_TRANSFER_FAILURE will be returned, \a task
1083 will not be modified and will still be
1084 equal to \c NULL when returning.
1085 * \return a #msg_error_t indicating whether the operation was successful (#MSG_OK), or why it failed otherwise.
1088 MSG_task_get_with_timeout(msg_task_t * task, m_channel_t channel,
1089 double max_duration)
1091 XBT_WARN("DEPRECATED! Now use MSG_task_receive_with_timeout");
1092 return MSG_task_get_ext(task, channel, max_duration, NULL);
1096 MSG_task_get_ext(msg_task_t * task, m_channel_t channel, double timeout,
1099 XBT_WARN("DEPRECATED! Now use MSG_task_receive_ext");
1100 xbt_assert((channel >= 0)
1101 && (channel < msg_global->max_channel), "Invalid channel %d",
1105 MSG_mailbox_get_task_ext(MSG_mailbox_get_by_channel
1106 (MSG_host_self(), channel), task, host,