1 /* Copyright (c) 2004, 2005, 2006, 2007, 2008, 2009, 2010. The SimGrid Team.
2 * All rights reserved. */
4 /* This program is free software; you can redistribute it and/or modify it
5 * under the terms of the license (GNU LGPL) which comes with this package. */
7 #include "msg_private.h"
8 #include "xbt/sysdep.h"
11 XBT_LOG_NEW_DEFAULT_SUBCATEGORY(msg_process, msg,
12 "Logging specific to MSG (process)");
14 /** @addtogroup m_process_management
15 * \htmlonly <!-- DOXYGEN_NAVBAR_LABEL="Processes" --> \endhtmlonly
17 * We need to simulate many independent scheduling decisions, so
18 * the concept of <em>process</em> is at the heart of the
19 * simulator. A process may be defined as a <em>code</em>, with
20 * some <em>private data</em>, executing in a <em>location</em>.
24 /******************************** Process ************************************/
27 * \brief Cleans the MSG data of a process.
28 * \param smx_proc a SIMIX process
30 void MSG_process_cleanup_from_SIMIX(smx_process_t smx_proc)
32 simdata_process_t msg_proc;
34 // get the MSG process from the SIMIX process
35 if (smx_proc == SIMIX_process_self()) {
36 /* avoid a SIMIX request if this function is called by the process itself */
37 msg_proc = SIMIX_process_self_get_data(smx_proc);
38 SIMIX_process_self_set_data(smx_proc, NULL);
41 msg_proc = simcall_process_get_data(smx_proc);
42 simcall_process_set_data(smx_proc, NULL);
46 TRACE_msg_process_end(smx_proc);
49 // free the data if a function was provided
50 if (msg_proc->data && msg_global->process_data_cleanup) {
51 msg_global->process_data_cleanup(msg_proc->data);
54 // free the MSG process
58 /* This function creates a MSG process. It has the prototype enforced by SIMIX_function_register_process_create */
59 void MSG_process_create_from_SIMIX(smx_process_t* process, const char *name,
60 xbt_main_func_t code, void *data,
61 const char *hostname, double kill_time, int argc, char **argv,
62 xbt_dict_t properties)
64 m_host_t host = MSG_get_host_by_name(hostname);
65 m_process_t p = MSG_process_create_with_environment(name, code, data,
66 host, kill_time, argc, argv,
68 *((m_process_t*) process) = p;
71 /** \ingroup m_process_management
72 * \brief Creates and runs a new #m_process_t.
74 * Does exactly the same as #MSG_process_create_with_arguments but without
75 providing standard arguments (\a argc, \a argv, \a start_time, \a kill_time).
76 * \sa MSG_process_create_with_arguments
78 m_process_t MSG_process_create(const char *name,
79 xbt_main_func_t code, void *data,
82 return MSG_process_create_with_environment(name, code, data, host, -1, -1,
86 /** \ingroup m_process_management
87 * \brief Creates and runs a new #m_process_t.
89 * A constructor for #m_process_t taking four arguments and returning the
90 * corresponding object. The structure (and the corresponding thread) is
91 * created, and put in the list of ready process.
92 * \param name a name for the object. It is for user-level information
94 * \param code is a function describing the behavior of the process. It
95 should then only use functions described in \ref
96 m_process_management (to create a new #m_process_t for example),
97 in \ref m_host_management (only the read-only functions i.e. whose
98 name contains the word get), in \ref m_task_management (to create
99 or destroy some #m_task_t for example) and in \ref
100 msg_task_usage (to handle file transfers and task processing).
101 * \param data a pointer to any data one may want to attach to the new
102 object. It is for user-level information and can be NULL. It can
103 be retrieved with the function \ref MSG_process_get_data.
104 * \param host the location where the new process is executed.
105 * \param argc first argument passed to \a code
106 * \param argv second argument passed to \a code
108 * \return The new corresponding object.
111 m_process_t MSG_process_create_with_arguments(const char *name,
112 xbt_main_func_t code,
113 void *data, m_host_t host,
114 int argc, char **argv)
116 return MSG_process_create_with_environment(name, code, data, host, -1.0,
120 /** \ingroup m_process_management
121 * \brief Creates and runs a new #m_process_t.
123 * A constructor for #m_process_t taking four arguments and returning the
124 * corresponding object. The structure (and the corresponding thread) is
125 * created, and put in the list of ready process.
126 * \param name a name for the object. It is for user-level information
128 * \param code is a function describing the behavior of the process. It
129 should then only use functions described in \ref
130 m_process_management (to create a new #m_process_t for example),
131 in \ref m_host_management (only the read-only functions i.e. whose
132 name contains the word get), in \ref m_task_management (to create
133 or destroy some #m_task_t for example) and in \ref
134 msg_task_usage (to handle file transfers and task processing).
135 * \param data a pointer to any data one may want to attach to the new
136 object. It is for user-level information and can be NULL. It can
137 be retrieved with the function \ref MSG_process_get_data.
138 * \param host the location where the new process is executed.
139 * \param kill_time the time when the process is killed.
140 * \param argc first argument passed to \a code
141 * \param argv second argument passed to \a code
142 * \param properties list a properties defined for this process
144 * \return The new corresponding object.
146 m_process_t MSG_process_create_with_environment(const char *name,
147 xbt_main_func_t code,
148 void *data, m_host_t host,
150 int argc, char **argv,
151 xbt_dict_t properties)
153 xbt_assert(code != NULL && host != NULL, "Invalid parameters");
154 simdata_process_t simdata = xbt_new0(s_simdata_process_t, 1);
157 /* Simulator data for MSG */
158 simdata->PID = msg_global->PID++;
159 simdata->waiting_action = NULL;
160 simdata->waiting_task = NULL;
161 simdata->m_host = host;
162 simdata->argc = argc;
163 simdata->argv = argv;
164 simdata->data = data;
165 simdata->last_errno = MSG_OK;
167 if (SIMIX_process_self()) {
168 simdata->PPID = MSG_process_get_PID(MSG_process_self());
174 TRACE_msg_process_create(name, simdata->PID, simdata->m_host);
177 /* Let's create the process: SIMIX may decide to start it right now,
178 * even before returning the flow control to us */
179 simcall_process_create(&process, name, code, simdata, SIMIX_host_get_name(host->smx_host), kill_time,
180 argc, argv, properties);
183 /* Undo everything we have just changed */
192 void MSG_process_kill_from_SIMIX(smx_process_t p)
195 TRACE_msg_process_kill(p);
200 /** \ingroup m_process_management
201 * \param process poor victim
203 * This function simply kills a \a process... scary isn't it ? :)
205 void MSG_process_kill(m_process_t process)
208 TRACE_msg_process_kill(process);
211 // /* FIXME: why do we only cancel communication actions? is this useful? */
212 // simdata_process_t p_simdata = simcall_process_get_data(process);
213 // if (p_simdata->waiting_task && p_simdata->waiting_task->simdata->comm) {
214 // simcall_comm_cancel(p_simdata->waiting_task->simdata->comm);
217 simcall_process_kill(process);
222 /** \ingroup m_process_management
223 * \brief Migrates a process to another location.
225 * This function checks whether \a process and \a host are valid pointers
226 and change the value of the #m_host_t on which \a process is running.
228 MSG_error_t MSG_process_migrate(m_process_t process, m_host_t host)
230 simdata_process_t simdata = simcall_process_get_data(process);
231 simdata->m_host = host;
233 m_host_t now = simdata->m_host;
234 TRACE_msg_process_change_host(process, now, host);
236 simcall_process_change_host(process, host->smx_host);
240 /** \ingroup m_process_management
241 * \brief Returns the user data of a process.
243 * This function checks whether \a process is a valid pointer or not
244 and returns the user data associated to this process.
246 void* MSG_process_get_data(m_process_t process)
248 xbt_assert(process != NULL, "Invalid parameter");
250 /* get from SIMIX the MSG process data, and then the user data */
251 simdata_process_t simdata = simcall_process_get_data(process);
252 return simdata->data;
255 /** \ingroup m_process_management
256 * \brief Sets the user data of a process.
258 * This function checks whether \a process is a valid pointer or not
259 and sets the user data associated to this process.
261 MSG_error_t MSG_process_set_data(m_process_t process, void *data)
263 xbt_assert(process != NULL, "Invalid parameter");
265 simdata_process_t simdata = simcall_process_get_data(process);
266 simdata->data = data;
271 /** \ingroup m_process_management
272 * \brief Sets a cleanup function to be called to free the userdata of a
273 * process when a process is destroyed.
274 * \param data_cleanup a cleanup function for the userdata of a process,
275 * or NULL to call no function
277 XBT_PUBLIC(void) MSG_process_set_data_cleanup(void_f_pvoid_t data_cleanup) {
279 msg_global->process_data_cleanup = data_cleanup;
282 /** \ingroup m_process_management
283 * \brief Return the location on which a process is running.
284 * \param process a process (NULL means the current one)
285 * \return the m_host_t corresponding to the location on which \a
286 * process is running.
288 m_host_t MSG_process_get_host(m_process_t process)
290 simdata_process_t simdata;
291 if (process == NULL) {
292 simdata = SIMIX_process_self_get_data(SIMIX_process_self());
295 simdata = simcall_process_get_data(process);
297 return simdata->m_host;
300 /** \ingroup m_process_management
302 * \brief Return a #m_process_t given its PID.
304 * This function search in the list of all the created m_process_t for a m_process_t
305 whose PID is equal to \a PID. If no host is found, \c NULL is returned.
306 Note that the PID are uniq in the whole simulation, not only on a given host.
308 m_process_t MSG_process_from_PID(int PID)
310 return SIMIX_process_from_PID(PID);
313 /** @brief returns a list of all currently existing processes */
314 xbt_dynar_t MSG_processes_as_dynar(void) {
315 return SIMIX_processes_as_dynar();
318 /** \ingroup m_process_management
319 * \brief Returns the process ID of \a process.
321 * This function checks whether \a process is a valid pointer or not
322 and return its PID (or 0 in case of problem).
324 int MSG_process_get_PID(m_process_t process)
326 /* Do not raise an exception here: this function is called by the logs
327 * and the exceptions, so it would be called back again and again */
328 if (process == NULL) {
332 simdata_process_t simdata = simcall_process_get_data(process);
334 return simdata != NULL ? simdata->PID : 0;
337 /** \ingroup m_process_management
338 * \brief Returns the process ID of the parent of \a process.
340 * This function checks whether \a process is a valid pointer or not
341 and return its PID. Returns -1 if the process has not been created by
344 int MSG_process_get_PPID(m_process_t process)
346 xbt_assert(process != NULL, "Invalid parameter");
348 simdata_process_t simdata = simcall_process_get_data(process);
350 return simdata->PPID;
353 /** \ingroup m_process_management
354 * \brief Return the name of a process.
356 * This function checks whether \a process is a valid pointer or not
359 const char *MSG_process_get_name(m_process_t process)
361 xbt_assert(process, "Invalid parameter");
363 return simcall_process_get_name(process);
366 /** \ingroup m_process_management
367 * \brief Returns the value of a given process property
369 * \param process a process
370 * \param name a property name
371 * \return value of a property (or NULL if the property is not set)
373 const char *MSG_process_get_property_value(m_process_t process,
376 return xbt_dict_get_or_null(MSG_process_get_properties(process), name);
379 /** \ingroup m_process_management
380 * \brief Return the list of properties
382 * This function returns all the parameters associated with a process
384 xbt_dict_t MSG_process_get_properties(m_process_t process)
386 xbt_assert(process != NULL, "Invalid parameter");
388 return simcall_process_get_properties(process);
392 /** \ingroup m_process_management
393 * \brief Return the PID of the current process.
395 * This function returns the PID of the currently running #m_process_t.
397 int MSG_process_self_PID(void)
399 return MSG_process_get_PID(MSG_process_self());
402 /** \ingroup m_process_management
403 * \brief Return the PPID of the current process.
405 * This function returns the PID of the parent of the currently
406 * running #m_process_t.
408 int MSG_process_self_PPID(void)
410 return MSG_process_get_PPID(MSG_process_self());
413 /** \ingroup m_process_management
414 * \brief Return the current process.
416 * This function returns the currently running #m_process_t.
418 m_process_t MSG_process_self(void)
420 return SIMIX_process_self();
423 /** \ingroup m_process_management
424 * \brief Suspend the process.
426 * This function suspends the process by suspending the task on which
427 * it was waiting for the completion.
429 MSG_error_t MSG_process_suspend(m_process_t process)
431 xbt_assert(process != NULL, "Invalid parameter");
434 TRACE_msg_process_suspend(process);
437 simcall_process_suspend(process);
441 /** \ingroup m_process_management
442 * \brief Resume a suspended process.
444 * This function resumes a suspended process by resuming the task on
445 * which it was waiting for the completion.
447 MSG_error_t MSG_process_resume(m_process_t process)
449 xbt_assert(process != NULL, "Invalid parameter");
452 TRACE_msg_process_resume(process);
455 simcall_process_resume(process);
459 /** \ingroup m_process_management
460 * \brief Returns true if the process is suspended .
462 * This checks whether a process is suspended or not by inspecting the
463 * task on which it was waiting for the completion.
465 int MSG_process_is_suspended(m_process_t process)
467 xbt_assert(process != NULL, "Invalid parameter");
468 return simcall_process_is_suspended(process);
471 smx_context_t MSG_process_get_smx_ctx(m_process_t process) {
472 return SIMIX_process_get_context(process);