* the concept of <em>process</em> is at the heart of the
* simulator. A process may be defined as a <em>code</em>, with
* some <em>private data</em>, executing in a <em>location</em>.
- * \see m_process_t
+ * \see msg_process_t
*/
/******************************** Process ************************************/
#ifdef HAVE_TRACING
TRACE_msg_process_end(smx_proc);
#endif
-
// free the data if a function was provided
if (msg_proc->data && msg_global->process_data_cleanup) {
msg_global->process_data_cleanup(msg_proc->data);
const char *hostname, double kill_time, int argc, char **argv,
xbt_dict_t properties, int auto_restart)
{
- m_host_t host = MSG_get_host_by_name(hostname);
- m_process_t p = MSG_process_create_with_environment(name, code, data,
+ msg_host_t host = MSG_get_host_by_name(hostname);
+ msg_process_t p = MSG_process_create_with_environment(name, code, data,
host, argc, argv,
properties);
if (p) {
MSG_process_set_kill_time(p,kill_time);
MSG_process_auto_restart_set(p,auto_restart);
}
- *((m_process_t*) process) = p;
+ *((msg_process_t*) process) = p;
}
/** \ingroup m_process_management
- * \brief Creates and runs a new #m_process_t.
+ * \brief Creates and runs a new #msg_process_t.
*
* Does exactly the same as #MSG_process_create_with_arguments but without
providing standard arguments (\a argc, \a argv, \a start_time, \a kill_time).
* \sa MSG_process_create_with_arguments
*/
-m_process_t MSG_process_create(const char *name,
+msg_process_t MSG_process_create(const char *name,
xbt_main_func_t code, void *data,
- m_host_t host)
+ msg_host_t host)
{
return MSG_process_create_with_environment(name, code, data, host, -1,
NULL, NULL);
}
/** \ingroup m_process_management
- * \brief Creates and runs a new #m_process_t.
+ * \brief Creates and runs a new #msg_process_t.
- * A constructor for #m_process_t taking four arguments and returning the
+ * A constructor for #msg_process_t taking four arguments and returning the
* corresponding object. The structure (and the corresponding thread) is
* created, and put in the list of ready process.
* \param name a name for the object. It is for user-level information
and can be NULL.
* \param code is a function describing the behavior of the process. It
should then only use functions described in \ref
- m_process_management (to create a new #m_process_t for example),
+ m_process_management (to create a new #msg_process_t for example),
in \ref m_host_management (only the read-only functions i.e. whose
name contains the word get), in \ref m_task_management (to create
- or destroy some #m_task_t for example) and in \ref
+ or destroy some #msg_task_t for example) and in \ref
msg_task_usage (to handle file transfers and task processing).
* \param data a pointer to any data one may want to attach to the new
object. It is for user-level information and can be NULL. It can
* \param host the location where the new process is executed.
* \param argc first argument passed to \a code
* \param argv second argument passed to \a code
- * \see m_process_t
+ * \see msg_process_t
* \return The new corresponding object.
*/
-m_process_t MSG_process_create_with_arguments(const char *name,
+msg_process_t MSG_process_create_with_arguments(const char *name,
xbt_main_func_t code,
- void *data, m_host_t host,
+ void *data, msg_host_t host,
int argc, char **argv)
{
return MSG_process_create_with_environment(name, code, data, host,
}
/** \ingroup m_process_management
- * \brief Creates and runs a new #m_process_t.
+ * \brief Creates and runs a new #msg_process_t.
- * A constructor for #m_process_t taking four arguments and returning the
+ * A constructor for #msg_process_t taking four arguments and returning the
* corresponding object. The structure (and the corresponding thread) is
* created, and put in the list of ready process.
* \param name a name for the object. It is for user-level information
and can be NULL.
* \param code is a function describing the behavior of the process. It
should then only use functions described in \ref
- m_process_management (to create a new #m_process_t for example),
+ m_process_management (to create a new #msg_process_t for example),
in \ref m_host_management (only the read-only functions i.e. whose
name contains the word get), in \ref m_task_management (to create
- or destroy some #m_task_t for example) and in \ref
+ or destroy some #msg_task_t for example) and in \ref
msg_task_usage (to handle file transfers and task processing).
* \param data a pointer to any data one may want to attach to the new
object. It is for user-level information and can be NULL. It can
* \param argc first argument passed to \a code
* \param argv second argument passed to \a code
* \param properties list a properties defined for this process
- * \see m_process_t
+ * \see msg_process_t
* \return The new corresponding object.
*/
-m_process_t MSG_process_create_with_environment(const char *name,
+msg_process_t MSG_process_create_with_environment(const char *name,
xbt_main_func_t code,
- void *data, m_host_t host,
+ void *data, msg_host_t host,
int argc, char **argv,
xbt_dict_t properties)
{
xbt_assert(code != NULL && host != NULL, "Invalid parameters");
simdata_process_t simdata = xbt_new0(s_simdata_process_t, 1);
- m_process_t process;
+ msg_process_t process;
/* Simulator data for MSG */
simdata->PID = msg_global->PID++;
#ifdef HAVE_TRACING
TRACE_msg_process_create(name, simdata->PID, simdata->m_host);
- #endif
+#endif
/* Let's create the process: SIMIX may decide to start it right now,
* even before returning the flow control to us */
simcall_process_create(&process, name, code, simdata, SIMIX_host_get_name(host->smx_host), -1,
*
* This function simply kills a \a process... scary isn't it ? :)
*/
-void MSG_process_kill(m_process_t process)
+void MSG_process_kill(msg_process_t process)
{
// /* FIXME: why do we only cancel communication actions? is this useful? */
// simdata_process_t p_simdata = simcall_process_get_data(process);
* \brief Migrates a process to another location.
*
* This function checks whether \a process and \a host are valid pointers
- and change the value of the #m_host_t on which \a process is running.
+ and change the value of the #msg_host_t on which \a process is running.
*/
-MSG_error_t MSG_process_migrate(m_process_t process, m_host_t host)
+msg_error_t MSG_process_migrate(msg_process_t process, msg_host_t host)
{
simdata_process_t simdata = simcall_process_get_data(process);
simdata->m_host = host;
#ifdef HAVE_TRACING
- m_host_t now = simdata->m_host;
+ msg_host_t now = simdata->m_host;
TRACE_msg_process_change_host(process, now, host);
#endif
simcall_process_change_host(process, host->smx_host);
* This function checks whether \a process is a valid pointer or not
and returns the user data associated to this process.
*/
-void* MSG_process_get_data(m_process_t process)
+void* MSG_process_get_data(msg_process_t process)
{
xbt_assert(process != NULL, "Invalid parameter");
* This function checks whether \a process is a valid pointer or not
and sets the user data associated to this process.
*/
-MSG_error_t MSG_process_set_data(m_process_t process, void *data)
+msg_error_t MSG_process_set_data(msg_process_t process, void *data)
{
xbt_assert(process != NULL, "Invalid parameter");
/** \ingroup m_process_management
* \brief Return the location on which a process is running.
* \param process a process (NULL means the current one)
- * \return the m_host_t corresponding to the location on which \a
+ * \return the msg_host_t corresponding to the location on which \a
* process is running.
*/
-m_host_t MSG_process_get_host(m_process_t process)
+msg_host_t MSG_process_get_host(msg_process_t process)
{
simdata_process_t simdata;
if (process == NULL) {
/** \ingroup m_process_management
*
- * \brief Return a #m_process_t given its PID.
+ * \brief Return a #msg_process_t given its PID.
*
- * This function search in the list of all the created m_process_t for a m_process_t
+ * This function search in the list of all the created msg_process_t for a msg_process_t
whose PID is equal to \a PID. If no host is found, \c NULL is returned.
Note that the PID are uniq in the whole simulation, not only on a given host.
*/
-m_process_t MSG_process_from_PID(int PID)
+msg_process_t MSG_process_from_PID(int PID)
{
return SIMIX_process_from_PID(PID);
}
xbt_dynar_t MSG_processes_as_dynar(void) {
return SIMIX_processes_as_dynar();
}
+/** @brief Return the current number MSG processes.
+ */
+int MSG_process_get_number(void)
+{
+ return SIMIX_process_count();
+}
/** \ingroup m_process_management
* \brief Set the kill time of a process.
* \param process a process
* \param kill_time the time when the process is killed.
*/
-MSG_error_t MSG_process_set_kill_time(m_process_t process, double kill_time)
+msg_error_t MSG_process_set_kill_time(msg_process_t process, double kill_time)
{
simcall_process_set_kill_time(process,kill_time);
return MSG_OK;
* This function checks whether \a process is a valid pointer or not
and return its PID (or 0 in case of problem).
*/
-int MSG_process_get_PID(m_process_t process)
+int MSG_process_get_PID(msg_process_t process)
{
/* Do not raise an exception here: this function is called by the logs
* and the exceptions, so it would be called back again and again */
and return its PID. Returns -1 if the process has not been created by
any other process.
*/
-int MSG_process_get_PPID(m_process_t process)
+int MSG_process_get_PPID(msg_process_t process)
{
xbt_assert(process != NULL, "Invalid parameter");
* This function checks whether \a process is a valid pointer or not
and return its name.
*/
-const char *MSG_process_get_name(m_process_t process)
+const char *MSG_process_get_name(msg_process_t process)
{
xbt_assert(process, "Invalid parameter");
* \param name a property name
* \return value of a property (or NULL if the property is not set)
*/
-const char *MSG_process_get_property_value(m_process_t process,
+const char *MSG_process_get_property_value(msg_process_t process,
const char *name)
{
return xbt_dict_get_or_null(MSG_process_get_properties(process), name);
*
* This function returns all the parameters associated with a process
*/
-xbt_dict_t MSG_process_get_properties(m_process_t process)
+xbt_dict_t MSG_process_get_properties(msg_process_t process)
{
xbt_assert(process != NULL, "Invalid parameter");
/** \ingroup m_process_management
* \brief Return the PID of the current process.
*
- * This function returns the PID of the currently running #m_process_t.
+ * This function returns the PID of the currently running #msg_process_t.
*/
int MSG_process_self_PID(void)
{
* \brief Return the PPID of the current process.
*
* This function returns the PID of the parent of the currently
- * running #m_process_t.
+ * running #msg_process_t.
*/
int MSG_process_self_PPID(void)
{
/** \ingroup m_process_management
* \brief Return the current process.
*
- * This function returns the currently running #m_process_t.
+ * This function returns the currently running #msg_process_t.
*/
-m_process_t MSG_process_self(void)
+msg_process_t MSG_process_self(void)
{
return SIMIX_process_self();
}
* This function suspends the process by suspending the task on which
* it was waiting for the completion.
*/
-MSG_error_t MSG_process_suspend(m_process_t process)
+msg_error_t MSG_process_suspend(msg_process_t process)
{
xbt_assert(process != NULL, "Invalid parameter");
* This function resumes a suspended process by resuming the task on
* which it was waiting for the completion.
*/
-MSG_error_t MSG_process_resume(m_process_t process)
+msg_error_t MSG_process_resume(msg_process_t process)
{
xbt_assert(process != NULL, "Invalid parameter");
* This checks whether a process is suspended or not by inspecting the
* task on which it was waiting for the completion.
*/
-int MSG_process_is_suspended(m_process_t process)
+int MSG_process_is_suspended(msg_process_t process)
{
xbt_assert(process != NULL, "Invalid parameter");
return simcall_process_is_suspended(process);
}
-smx_context_t MSG_process_get_smx_ctx(m_process_t process) {
+smx_context_t MSG_process_get_smx_ctx(msg_process_t process) {
return SIMIX_process_get_context(process);
}
/**
* If the flag is set to 1, the process will be automatically restarted when
* its host comes back up.
*/
-XBT_PUBLIC(void) MSG_process_auto_restart_set(m_process_t process, int auto_restart) {
+XBT_PUBLIC(void) MSG_process_auto_restart_set(msg_process_t process, int auto_restart) {
simcall_process_auto_restart_set(process,auto_restart);
}
+/*
+ * \ingroup m_process_management
+ * \brief Restarts a process from the beginning.
+ */
+XBT_PUBLIC(msg_process_t) MSG_process_restart(msg_process_t process) {
+ return simcall_process_restart(process);
+}
