/* 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. */
-/** \file msg_test.c
- * \ingroup MSG_examples
- * \brief Simulation of a master-slave application using a realistic platform
- * and an external description of the deployment.
-*/
+#include "msg/msg.h" /* Yeah! If you want to use msg, you need to include msg/msg.h */
-/** Yeah! If you want to use msg, you need to include msg/msg.h */
-#include "msg/msg.h"
-
-/** This flag enable the debugging messages from #PRINT_DEBUG_MESSAGE() */
-#define VERBOSE
-#include "messages.h"
+/* Create a log channel to have nice outputs. */
+#include "xbt/log.h"
+XBT_LOG_NEW_DEFAULT_CATEGORY(msg_test,"Messages specific for this msg example");
int master(int argc, char *argv[]);
int slave(int argc, char *argv[]);
int forwarder(int argc, char *argv[]);
void test_all(const char *platform_file, const char *application_file);
-
typedef enum {
PORT_22 = 0,
MAX_CHANNEL
} channel_t;
-/** Print arguments
- * This function is just used so that users can check that each process
+/* This function is just used so that users can check that each process
* has received the arguments it was supposed to receive.
*/
static void print_args(int argc, char** argv)
fprintf(stderr,">\n");
}
-/** Emitter function
- * This function has to be assigned to a m_process_t that will behave as the master.
- It should not be called directly but either given as a parameter to
- #MSG_process_create() or registered as a public function through
- #MSG_function_register() and then automatically assigned to a process through
- #MSG_launch_application().
-
- C style arguments (argc/argv) are interpreted as
- \li the number of tasks to distribute
- \li the computation size of each task
- \li the size of the files associated to each task
- \li a list of host that will accept those tasks.
-
- Tasks are dumbly sent in a round-robin style.
- */
+/** Emitter function */
int master(int argc, char *argv[])
{
int slaves_count = 0;
print_args(argc,argv);
- ASSERT(sscanf(argv[1],"%d", &number_of_tasks),
+ xbt_assert1(sscanf(argv[1],"%d", &number_of_tasks),
"Invalid argument %s\n",argv[1]);
- ASSERT(sscanf(argv[2],"%lg", &task_comp_size),
+ xbt_assert1(sscanf(argv[2],"%lg", &task_comp_size),
"Invalid argument %s\n",argv[2]);
- ASSERT(sscanf(argv[3],"%lg", &task_comm_size),
+ xbt_assert1(sscanf(argv[3],"%lg", &task_comm_size),
"Invalid argument %s\n",argv[3]);
{ /* Task creation */
for (i = 4; i < argc; i++) {
slaves[i-4] = MSG_get_host_by_name(argv[i]);
if(slaves[i-4]==NULL) {
- PRINT_MESSAGE("Unknown host %s. Stopping Now! \n", argv[i]);
+ INFO1("Unknown host %s. Stopping Now! ", argv[i]);
abort();
}
}
}
- PRINT_MESSAGE("Got %d slave(s) :\n", slaves_count);
+ INFO1("Got %d slave(s) :", slaves_count);
for (i = 0; i < slaves_count; i++)
- PRINT_MESSAGE("\t %s\n", slaves[i]->name);
+ INFO1("\t %s", slaves[i]->name);
- PRINT_MESSAGE("Got %d task to process :\n", number_of_tasks);
+ INFO1("Got %d task to process :", number_of_tasks);
for (i = 0; i < number_of_tasks; i++)
- PRINT_MESSAGE("\t\"%s\"\n", todo[i]->name);
+ INFO1("\t\"%s\"", todo[i]->name);
for (i = 0; i < number_of_tasks; i++) {
- PRINT_MESSAGE("Sending \"%s\" to \"%s\"\n",
+ INFO2("Sending \"%s\" to \"%s\"",
todo[i]->name,
slaves[i % slaves_count]->name);
+ if(MSG_host_self()==slaves[i % slaves_count]) {
+ INFO0("Hey ! It's me ! :)");
+ }
MSG_task_put(todo[i], slaves[i % slaves_count],
PORT_22);
- PRINT_MESSAGE("Send completed\n");
+ INFO0("Send completed");
}
- PRINT_MESSAGE("All tasks have been dispatched. Bye!\n");
+ INFO0("All tasks have been dispatched. Bye!");
free(slaves);
free(todo);
return 0;
-}
-
-/** Receiver function
- * This function has to be assigned to a #m_process_t that has to behave as a slave.
- Just like #master(), it should not be called directly.
+} /* end_of_master */
- This function keeps waiting for tasks and executes them as it receives them.
- */
+/** Receiver function */
int slave(int argc, char *argv[])
{
print_args(argc,argv);
int a;
a = MSG_task_get(&(task), PORT_22);
if (a == MSG_OK) {
- PRINT_MESSAGE("Received \"%s\" \n", task->name);
- PRINT_MESSAGE("Processing \"%s\" \n", task->name);
+ INFO1("Received \"%s\" ", MSG_task_get_name(task));
+ INFO1("Processing \"%s\" ", MSG_task_get_name(task));
MSG_task_execute(task);
- PRINT_MESSAGE("\"%s\" done \n", task->name);
+ INFO1("\"%s\" done ", MSG_task_get_name(task));
MSG_task_destroy(task);
} else {
- PRINT_MESSAGE("Hey ?! What's up ? \n");
- DIE("Unexpected behaviour");
+ INFO0("Hey ?! What's up ? ");
+ xbt_assert0(0,"Unexpected behavior");
}
}
- PRINT_MESSAGE("I'm done. See you!\n");
+ INFO0("I'm done. See you!");
return 0;
-}
-
-/** Receiver function
- * This function has to be assigned to a #m_process_t that has to behave as a forwarder.
- Just like #master(), it should not be called directly.
+} /* end_of_slave */
- C style arguments (argc/argv) are interpreted as a list of host
- that will accept those tasks.
-
- This function keeps waiting for tasks and dispathes them to its slaves.
- */
+/** Receiver function */
int forwarder(int argc, char *argv[])
{
int i;
for (i = 1; i < argc; i++) {
slaves[i-1] = MSG_get_host_by_name(argv[i]);
if(slaves[i-1]==NULL) {
- PRINT_MESSAGE("Unknown host %s. Stopping Now! \n", argv[i]);
+ INFO1("Unknown host %s. Stopping Now! ", argv[i]);
abort();
}
}
int a;
a = MSG_task_get(&(task), PORT_22);
if (a == MSG_OK) {
- PRINT_MESSAGE("Received \"%s\" \n", task->name);
- PRINT_MESSAGE("Sending \"%s\" to \"%s\"\n",
- task->name,
+ INFO1("Received \"%s\" ", MSG_task_get_name(task));
+ INFO2("Sending \"%s\" to \"%s\"",
+ MSG_task_get_name(task),
slaves[i % slaves_count]->name);
MSG_task_put(task, slaves[i % slaves_count],
PORT_22);
} else {
- PRINT_MESSAGE("Hey ?! What's up ? \n");
- DIE("Unexpected behaviour");
+ INFO0("Hey ?! What's up ? ");
+ xbt_assert0(0,"Unexpected behavior");
}
}
- PRINT_MESSAGE("I'm done. See you!\n");
+ INFO0("I'm done. See you!");
return 0;
-}
+} /* end_of_forwarder */
-/** Test function
- * This function is the core of the simulation and is divided only into 3 parts
- * thanks to MSG_create_environment() and MSG_launch_application().
- * -# Simulation settings : MSG_create_environment() creates a realistic
- * environment
- * -# Application deployment : create the agents on the right locations with
- * MSG_launch_application()
- * -# The simulation is run with #MSG_main()
- * @param platform_file the name of a file containing an valid surfxml platform
- * description.
- * @param application_file the name of a file containing a valid surfxml application
- * description
- */
+/** Test function */
void test_all(const char *platform_file,const char *application_file)
{
+
+ /* MSG_config("surf_workstation_model","KCCFLN05"); */
{ /* Simulation setting */
- MSG_paje_output("msg_test.trace");
MSG_set_channel_number(MAX_CHANNEL);
+ MSG_paje_output("msg_test.trace");
MSG_create_environment(platform_file);
}
{ /* Application deployment */
MSG_launch_application(application_file);
}
MSG_main();
- printf("Simulation time %g\n",MSG_getClock());
-}
+
+ INFO1("Simulation time %g",MSG_get_clock());
+} /* end_of_test_all */
-/** Main function
- * This initializes MSG, runs a simulation, and free all data-structures created
- * by MSG.
- */
+/** Main function */
int main(int argc, char *argv[])
{
- MSG_global_init_args(&argc,argv);
+ MSG_global_init(&argc,argv);
if (argc < 3) {
printf ("Usage: %s platform_file deployment_file\n",argv[0]);
printf ("example: %s msg_platform.xml msg_deployment.xml\n",argv[0]);
test_all(argv[1],argv[2]);
MSG_clean();
return (0);
-}
+} /* end_of_main */