-/*////////////////////////////////////////////////////*/
-// Peer-To-Peer CAN simulator 050406 by Dytto ESIAL //
-//////////////////////////////////////////////////////
+/* Broken Peer-To-Peer CAN simulator */
+/* Copyright (c) 2006, 2007. 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 <stdio.h>
#include "xbt/sysdep.h"
#include "gras.h"
-#include "can_tests.c"
+#include "can_tests.c"
//#include "types.h" // header alone containing the typedef struct of a node // include can_tests.c must be OFF.
//XBT_LOG_NEW_DEFAULT_CATEGORY(can,"Messages specific to this example"); // include can_tests.c must be OFF.
//extern char *_gras_this_type_symbol_does_not_exist__s_nuke;
-int node_nuke_handler(gras_msg_cb_ctx_t ctx,void *payload_data);
+int node_nuke_handler(gras_msg_cb_ctx_t ctx, void *payload_data);
// struct of a "get_successor" message, when a node look after the area in which he want to be.
-GRAS_DEFINE_TYPE(s_get_suc,
- struct s_get_suc{
- int xId;
- int yId;
- char host[1024];
- int port;
- };
-);
+XBT_DEFINE_TYPE(s_get_suc, struct s_get_suc {
+ int xId; int yId; char host[1024]; int port;};);
+
typedef struct s_get_suc get_suc_t;
// struct of a "response_successor" message, hen a node receive the information of his new area.
-GRAS_DEFINE_TYPE(s_rep_suc,
- struct s_rep_suc{
- int x1; // Xmin
- int x2; // Xmax
- int y1; // Ymin
- int y2; // Ymax
-
- char north_host[1024];
- int north_port;
- char south_host[1024];
- int south_port;
- char east_host[1024];
- int east_port;
- char west_host[1024];
- int west_port;
- };
-);
+XBT_DEFINE_TYPE(s_rep_suc, struct s_rep_suc {
+ int x1; // Xmin
+ int x2; // Xmax
+ int y1; // Ymin
+ int y2; // Ymax
+ char north_host[1024];
+ int north_port;
+ char south_host[1024];
+ int south_port;
+ char east_host[1024];
+ int east_port; char west_host[1024]; int west_port;};);
typedef struct s_rep_suc rep_suc_t;
-int node(int argc,char **argv);
+int node(int argc, char **argv);
// registering messages types
-static void register_messages(){
- gras_msgtype_declare("can_get_suc",gras_datadesc_by_symbol(s_get_suc));
- gras_msgtype_declare("can_rep_suc",gras_datadesc_by_symbol(s_rep_suc));
- gras_msgtype_declare("can_nuke",gras_datadesc_by_symbol(s_nuke));// can_test.c message // include can_tests.c must be ON.
+static void register_messages()
+{
+ gras_msgtype_declare("can_get_suc", xbt_datadesc_by_symbol(s_get_suc));
+ gras_msgtype_declare("can_rep_suc", xbt_datadesc_by_symbol(s_rep_suc));
+ gras_msgtype_declare("can_nuke", xbt_datadesc_by_symbol(s_nuke)); // can_test.c message // include can_tests.c must be ON.
}
// a forwarding function for a "get_suc" message.
-static void forward_get_suc(get_suc_t msg, char host[1024], int port){
- gras_socket_t temp_sock=NULL;
- xbt_ex_t e; // the error variable used in TRY.. CATCH tokens.
- //INFO2("Transmiting message to %s:%d",host,port);
- TRY{
- temp_sock=gras_socket_client(host,port);
- }CATCH(e){
- RETHROW0("Unable to connect!: %s");
- }
- TRY{
- gras_msg_send(temp_sock,gras_msgtype_by_name("can_get_suc"),&msg);
- }CATCH(e){
- RETHROW0("Unable to send!: %s");
- }
- INFO3("Forwarding a get_successor message to %s for (%d;%d)",host,msg.xId,msg.yId);
- gras_socket_close(temp_sock);
+static void forward_get_suc(get_suc_t msg, char host[1024], int port)
+{
+ xbt_socket_t temp_sock = NULL;
+ //XBT_INFO("Transmiting message to %s:%d",host,port);
+ TRY {
+ temp_sock = gras_socket_client(host, port);
+ }
+ CATCH_ANONYMOUS {
+ RETHROWF("Unable to connect!: %s");
+ }
+ TRY {
+ gras_msg_send(temp_sock, "can_get_suc", &msg);
+ }
+ CATCH_ANONYMOUS {
+ RETHROWF("Unable to send!: %s");
+ }
+ XBT_INFO("Forwarding a get_successor message to %s for (%d;%d)", host,
+ msg.xId, msg.yId);
+ gras_socket_close(temp_sock);
}
// the handling function of a "get_suc" message (what do a node when he receive a "get_suc" message.
-static int node_get_suc_handler(gras_msg_cb_ctx_t ctx,void *payload_data){
- gras_socket_t expeditor=gras_msg_cb_ctx_from(ctx);
- get_suc_t *incoming=(get_suc_t*)payload_data;
- xbt_ex_t e; // the error variable used in TRY.. CATCH tokens.
- node_data_t *globals=(node_data_t*)gras_userdata_get();
-
- INFO3("Received a get_successor message from %s for (%d;%d)",gras_socket_peer_name(expeditor),incoming->xId,incoming->yId);
- //INFO4("My area is [%d;%d;%d;%d]",globals->x1,globals->x2,globals->y1,globals->y2);
- if(incoming->xId<globals->x1) // test if the message must be forwarded to a neighbour.
- forward_get_suc(*incoming, globals->west_host, globals->west_port);
- else if(incoming->xId>globals->x2)
- forward_get_suc(*incoming, globals->east_host, globals->east_port);
- else if(incoming->yId<globals->y1)
- forward_get_suc(*incoming, globals->south_host, globals->south_port);
- else if(incoming->yId>globals->y2)
- forward_get_suc(*incoming, globals->north_host, globals->north_port);
- else{ // if the message must not be forwarded, then the area is splitted in half and one half is assignated to the new node.
- rep_suc_t outgoing;
- int validate=0;
- INFO4("Spliting my area between me (%d;%d) and the inserting node (%d;%d)!",
- globals->xId,globals->yId,incoming->xId,incoming->yId);
- if((globals->x2-globals->x1)>(globals->y2-globals->y1)){ // the height of the area is smaller than its width.
- if(incoming->xId<globals->xId){ // the new node is west from the actual node.
- outgoing.x1=globals->x1;
- outgoing.x2=(incoming->xId+globals->xId)/2;
- outgoing.y1=globals->y1;
- outgoing.y2=globals->y2;
- strcpy(outgoing.north_host,globals->north_host);
- outgoing.north_port=globals->north_port;
- strcpy(outgoing.south_host,globals->south_host);
- outgoing.south_port=globals->south_port;
- strcpy(outgoing.east_host,globals->host);
- outgoing.east_port=globals->port;
- strcpy(outgoing.west_host,globals->west_host);
- outgoing.west_port=globals->west_port;
-
- globals->x1=(incoming->xId+globals->xId)/2;
- strcpy(globals->west_host,incoming->host);
- globals->west_port=incoming->port;
- validate=1;
- }
- else if(incoming->xId>globals->xId){ // the new node is east from the actual node.
- outgoing.x1=(incoming->xId+globals->xId)/2;
- outgoing.x2=globals->x2;
- outgoing.y1=globals->y1;
- outgoing.y2=globals->y2;
- strcpy(outgoing.north_host,globals->north_host);
- outgoing.north_port=globals->north_port;
- strcpy(outgoing.south_host,globals->south_host);
- outgoing.south_port=globals->south_port;
- strcpy(outgoing.east_host,globals->east_host);
- outgoing.east_port=globals->east_port;
- strcpy(outgoing.west_host,globals->host);
- outgoing.west_port=globals->port;
-
- globals->x2=(incoming->xId+globals->xId)/2;
- strcpy(globals->east_host,incoming->host);
- globals->east_port=incoming->port;
- validate=1;
- }
- }
- else{
- if(incoming->yId<globals->yId){ // the new node is south from the actual node.
- outgoing.y1=globals->y1;
- outgoing.y2=(incoming->yId+globals->yId)/2;
- outgoing.y1=globals->y1;
- outgoing.x2=globals->x2;
- strcpy(outgoing.east_host,globals->east_host);
- outgoing.east_port=globals->east_port;
- strcpy(outgoing.west_host,globals->west_host);
- outgoing.west_port=globals->west_port;
- strcpy(outgoing.north_host,globals->host);
- outgoing.north_port=globals->port;
- strcpy(outgoing.south_host,globals->south_host);
- outgoing.south_port=globals->south_port;
-
- globals->y1=(incoming->yId+globals->yId)/2;
- strcpy(globals->south_host,incoming->host);
- globals->south_port=incoming->port;
- validate=1;
- }
- else if(incoming->yId>globals->yId){ // the new node is north from the actual node.
- outgoing.y1=(incoming->yId+globals->yId)/2;
- outgoing.y2=globals->y2;
- outgoing.x1=globals->x1;
- outgoing.x2=globals->x2;
- strcpy(outgoing.east_host,globals->east_host);
- outgoing.east_port=globals->east_port;
- strcpy(outgoing.west_host,globals->west_host);
- outgoing.west_port=globals->west_port;
- strcpy(outgoing.north_host,globals->north_host);
- outgoing.north_port=globals->north_port;
- strcpy(outgoing.south_host,globals->host);
- outgoing.south_port=globals->port;
-
- globals->y2=(incoming->yId+globals->yId)/2;
- strcpy(globals->north_host,incoming->host);
- globals->north_port=incoming->port;
- validate=1;
- }
- }
- if(validate==1){ // the area for the new node has been defined, then send theses informations to the new node.
- INFO2("Sending environment informations to node %s:%d",incoming->host,incoming->port);
- gras_socket_t temp_sock=NULL;
- TRY{
- temp_sock=gras_socket_client(incoming->host,incoming->port);
- }CATCH(e){
- RETHROW0("Unable to connect to the node wich has requested for an area!: %s");
- }
- TRY{
- gras_msg_send(temp_sock,gras_msgtype_by_name("can_rep_suc"),&outgoing);
- INFO0("Environment informations sent!");
- }CATCH(e){
- RETHROW2("%s:Timeout sending environment informations to %s: %s",globals->host,gras_socket_peer_name(expeditor));
- }
- gras_socket_close(temp_sock);
- }
- else // we have a problem!
- INFO0("An error occurded!!!!!!!!!!!!!");
-
- }
- gras_socket_close(expeditor); // spare
- TRY{
- gras_msg_handle(10000.0); // wait a bit in case of someone want to ask me for something.
- }CATCH(e){
- INFO4("My area is [%d;%d;%d;%d]",globals->x1,globals->x2,globals->y1,globals->y2);
- //INFO0("Closing node, all has been done!");
- }
- return 1;
+static int node_get_suc_handler(gras_msg_cb_ctx_t ctx, void *payload_data)
+{
+ xbt_socket_t expeditor = gras_msg_cb_ctx_from(ctx);
+ get_suc_t *incoming = (get_suc_t *) payload_data;
+ xbt_ex_t e; // the error variable used in TRY.. CATCH tokens.
+ node_data_t *globals = (node_data_t *) gras_userdata_get();
+ xbt_socket_t temp_sock = NULL;
+ XBT_INFO("Received a get_successor message from %s for (%d;%d)",
+ xbt_socket_peer_name(expeditor), incoming->xId, incoming->yId);
+ //XBT_INFO("My area is [%d;%d;%d;%d]",globals->x1,globals->x2,globals->y1,globals->y2);
+ if (incoming->xId < globals->x1) // test if the message must be forwarded to a neighbour.
+ forward_get_suc(*incoming, globals->west_host, globals->west_port);
+ else if (incoming->xId > globals->x2)
+ forward_get_suc(*incoming, globals->east_host, globals->east_port);
+ else if (incoming->yId < globals->y1)
+ forward_get_suc(*incoming, globals->south_host, globals->south_port);
+ else if (incoming->yId > globals->y2)
+ forward_get_suc(*incoming, globals->north_host, globals->north_port);
+ else { // if the message must not be forwarded, then the area is splitted in half and one half is assignated to the new node.
+ rep_suc_t outgoing;
+ int validate = 0;
+ XBT_INFO
+ ("Spliting my area between me (%d;%d) and the inserting node (%d;%d)!",
+ globals->xId, globals->yId, incoming->xId, incoming->yId);
+ if ((globals->x2 - globals->x1) > (globals->y2 - globals->y1)) { // the height of the area is smaller than its width.
+ if (incoming->xId < globals->xId) { // the new node is west from the actual node.
+ outgoing.x1 = globals->x1;
+ outgoing.x2 = (incoming->xId + globals->xId) / 2;
+ outgoing.y1 = globals->y1;
+ outgoing.y2 = globals->y2;
+ strcpy(outgoing.north_host, globals->north_host);
+ outgoing.north_port = globals->north_port;
+ strcpy(outgoing.south_host, globals->south_host);
+ outgoing.south_port = globals->south_port;
+ strcpy(outgoing.east_host, globals->host);
+ outgoing.east_port = globals->port;
+ strcpy(outgoing.west_host, globals->west_host);
+ outgoing.west_port = globals->west_port;
+
+ globals->x1 = (incoming->xId + globals->xId) / 2;
+ strcpy(globals->west_host, incoming->host);
+ globals->west_port = incoming->port;
+ validate = 1;
+ } else if (incoming->xId > globals->xId) { // the new node is east from the actual node.
+ outgoing.x1 = (incoming->xId + globals->xId) / 2;
+ outgoing.x2 = globals->x2;
+ outgoing.y1 = globals->y1;
+ outgoing.y2 = globals->y2;
+ strcpy(outgoing.north_host, globals->north_host);
+ outgoing.north_port = globals->north_port;
+ strcpy(outgoing.south_host, globals->south_host);
+ outgoing.south_port = globals->south_port;
+ strcpy(outgoing.east_host, globals->east_host);
+ outgoing.east_port = globals->east_port;
+ strcpy(outgoing.west_host, globals->host);
+ outgoing.west_port = globals->port;
+
+ globals->x2 = (incoming->xId + globals->xId) / 2;
+ strcpy(globals->east_host, incoming->host);
+ globals->east_port = incoming->port;
+ validate = 1;
+ }
+ } else {
+ if (incoming->yId < globals->yId) { // the new node is south from the actual node.
+ outgoing.y1 = globals->y1;
+ outgoing.y2 = (incoming->yId + globals->yId) / 2;
+ outgoing.y1 = globals->y1;
+ outgoing.x2 = globals->x2;
+ strcpy(outgoing.east_host, globals->east_host);
+ outgoing.east_port = globals->east_port;
+ strcpy(outgoing.west_host, globals->west_host);
+ outgoing.west_port = globals->west_port;
+ strcpy(outgoing.north_host, globals->host);
+ outgoing.north_port = globals->port;
+ strcpy(outgoing.south_host, globals->south_host);
+ outgoing.south_port = globals->south_port;
+
+ globals->y1 = (incoming->yId + globals->yId) / 2;
+ strcpy(globals->south_host, incoming->host);
+ globals->south_port = incoming->port;
+ validate = 1;
+ } else if (incoming->yId > globals->yId) { // the new node is north from the actual node.
+ outgoing.y1 = (incoming->yId + globals->yId) / 2;
+ outgoing.y2 = globals->y2;
+ outgoing.x1 = globals->x1;
+ outgoing.x2 = globals->x2;
+ strcpy(outgoing.east_host, globals->east_host);
+ outgoing.east_port = globals->east_port;
+ strcpy(outgoing.west_host, globals->west_host);
+ outgoing.west_port = globals->west_port;
+ strcpy(outgoing.north_host, globals->north_host);
+ outgoing.north_port = globals->north_port;
+ strcpy(outgoing.south_host, globals->host);
+ outgoing.south_port = globals->port;
+
+ globals->y2 = (incoming->yId + globals->yId) / 2;
+ strcpy(globals->north_host, incoming->host);
+ globals->north_port = incoming->port;
+ validate = 1;
+ }
+ }
+ if (validate == 1) { // the area for the new node has been defined, then send theses informations to the new node.
+ XBT_INFO("Sending environment informations to node %s:%d",
+ incoming->host, incoming->port);
+
+ TRY {
+ temp_sock = gras_socket_client(incoming->host, incoming->port);
+ }
+ CATCH_ANONYMOUS {
+ RETHROWF
+ ("Unable to connect to the node wich has requested for an area!: %s");
+ }
+ TRY {
+ gras_msg_send(temp_sock, "can_rep_suc", &outgoing);
+ XBT_INFO("Environment informations sent!");
+ }
+ CATCH_ANONYMOUS {
+ RETHROWF("%s:Timeout sending environment informations to %s: %s",
+ globals->host, xbt_socket_peer_name(expeditor));
+ }
+ gras_socket_close(temp_sock);
+ } else // we have a problem!
+ XBT_INFO("An error occurded!!!!!!!!!!!!!");
+
+ }
+ gras_socket_close(expeditor); // spare
+ TRY {
+ gras_msg_handle(10000.0); // wait a bit in case of someone want to ask me for something.
+ }
+ CATCH(e) {
+ XBT_INFO("My area is [%d;%d;%d;%d]", globals->x1, globals->x2,
+ globals->y1, globals->y2);
+ //XBT_INFO("Closing node, all has been done!");
+ xbt_ex_free(e);
+ }
+ return 0;
}
-int node(int argc,char **argv){
- node_data_t *globals=NULL;
- xbt_ex_t e; // the error variable used in TRY.. CATCH tokens.
-
- INFO0("Starting");
-
- /* 1. Init the GRAS infrastructure and declare my globals */
- gras_init(&argc,argv);
- gras_os_sleep((15-gras_os_getpid())*20); // wait a bit.
-
- globals=gras_userdata_new(node_data_t);
-
- globals->xId=atoi(argv[1]); // x coordinate of the node.
- globals->yId=atoi(argv[2]); // y coordinate of the node.
- globals->port=atoi(argv[3]); // node port
- globals->sock=gras_socket_server(globals->port); // node socket.
- snprintf(globals->host,1024,gras_os_myname()); // node name.
- globals->version=0; // node version (used for fun)
-
- /* 2. Inserting the Node */
- INFO2("Inserting node %s:%d",globals->host,globals->port);
- if(argc==4){ // the node is a server, then he has the whole area.
- globals->x1=0;
- globals->x2=1000;
- globals->y1=0;
- globals->y2=1000;
- }else{ // asking for an area.
- INFO1("Contacting %s so as to request for an area",argv[4]);
- gras_socket_t temp_sock=NULL;
- TRY{
- temp_sock=gras_socket_client(argv[4],atoi(argv[5]));
- }CATCH(e){
- RETHROW0("Unable to connect known host to request for an area!: %s");
- }
-
- get_suc_t get_suc_msg; // building the "get_suc" message.
- get_suc_msg.xId=globals->xId;
- get_suc_msg.yId=globals->yId;
- strcpy(get_suc_msg.host,globals->host);
- get_suc_msg.port=globals->port;
- TRY{ // asking.
- gras_msg_send(temp_sock,gras_msgtype_by_name("can_get_suc"),&get_suc_msg);
- }CATCH(e){
- gras_socket_close(temp_sock);
- RETHROW0("Unable to contact known host to get an area!: %s");
- }
- gras_socket_close(temp_sock);
-
- rep_suc_t rep_suc_msg;
- gras_socket_t temp_sock2=NULL;
- TRY{ // waiting for a reply.
- INFO0("Waiting for reply!");
- gras_msg_wait(6000,gras_msgtype_by_name("can_rep_suc"),&temp_sock2,&rep_suc_msg);
- }CATCH(e){
- RETHROW1("%s: Error waiting for an area:%s",globals->host);
- }
-
- // retreiving the data of the response.
- globals->x1=rep_suc_msg.x1;
- globals->x2=rep_suc_msg.x2;
- globals->y1=rep_suc_msg.y1;
- globals->y2=rep_suc_msg.y2;
- strcpy(globals->north_host,rep_suc_msg.north_host);
- globals->north_port=rep_suc_msg.north_port;
- strcpy(globals->south_host,rep_suc_msg.south_host);
- globals->south_port=rep_suc_msg.south_port;
- strcpy(globals->east_host,rep_suc_msg.east_host);
- globals->east_port=rep_suc_msg.east_port;
- strcpy(globals->west_host,rep_suc_msg.west_host);
- globals->west_port=rep_suc_msg.west_port;
-
- gras_socket_close(temp_sock); // spare
- }
- INFO2("Node %s:%d inserted",globals->host,globals->port);
-
- // associating messages to handlers.
- register_messages();
- gras_cb_register("can_get_suc",&node_get_suc_handler);
- gras_cb_register("can_nuke",&node_nuke_handler);// can_test.c handler // include can_tests.c must be ON.
-
- TRY{
- gras_msg_handle(10000.0); // waiting.. in case of someone has something to say.
- }CATCH(e){
- INFO4("My area is [%d;%d;%d;%d]",globals->x1,globals->x2,globals->y1,globals->y2);
- //INFO0("Closing node, all has been done!");
- }
-
- gras_socket_close(globals->sock); // spare.
- free(globals); // spare.
- //gras_exit();
- return(0);
+int node(int argc, char **argv)
+{
+ node_data_t *globals = NULL;
+ xbt_ex_t e; // the error variable used in TRY.. CATCH tokens.
+ xbt_socket_t temp_sock = NULL;
+
+ rep_suc_t rep_suc_msg;
+
+ get_suc_t get_suc_msg; // building the "get_suc" message.
+ xbt_socket_t temp_sock2 = NULL;
+
+ XBT_INFO("Starting");
+
+ /* 1. Init the GRAS infrastructure and declare my globals */
+ gras_init(&argc, argv);
+ gras_os_sleep((15 - gras_os_getpid()) * 20); // wait a bit.
+
+ globals = gras_userdata_new(node_data_t);
+
+ globals->xId = atoi(argv[1]); // x coordinate of the node.
+ globals->yId = atoi(argv[2]); // y coordinate of the node.
+ globals->port = atoi(argv[3]); // node port
+ globals->sock = gras_socket_server(globals->port); // node socket.
+ snprintf(globals->host, 1024, gras_os_myname()); // node name.
+ globals->version = 0; // node version (used for fun)
+
+ /* 2. Inserting the Node */
+ XBT_INFO("Inserting node %s:%d", globals->host, globals->port);
+ if (argc == 4) { // the node is a server, then he has the whole area.
+ globals->x1 = 0;
+ globals->x2 = 1000;
+ globals->y1 = 0;
+ globals->y2 = 1000;
+ } else { // asking for an area.
+ XBT_INFO("Contacting %s so as to request for an area", argv[4]);
+
+ TRY {
+ temp_sock = gras_socket_client(argv[4], atoi(argv[5]));
+ }
+ CATCH_ANONYMOUS {
+ RETHROWF("Unable to connect known host to request for an area!: %s");
+ }
+
+
+ get_suc_msg.xId = globals->xId;
+ get_suc_msg.yId = globals->yId;
+ strcpy(get_suc_msg.host, globals->host);
+ get_suc_msg.port = globals->port;
+ TRY { // asking.
+ gras_msg_send(temp_sock, "can_get_suc", &get_suc_msg);
+ }
+ CATCH_ANONYMOUS {
+ gras_socket_close(temp_sock);
+ RETHROWF("Unable to contact known host to get an area!: %s");
+ }
+ gras_socket_close(temp_sock);
+
+
+
+ TRY { // waiting for a reply.
+ XBT_INFO("Waiting for reply!");
+ gras_msg_wait(6000, "can_rep_suc", &temp_sock2, &rep_suc_msg);
+ }
+ CATCH_ANONYMOUS {
+ RETHROWF("%s: Error waiting for an area:%s", globals->host);
+ }
+
+ // retreiving the data of the response.
+ globals->x1 = rep_suc_msg.x1;
+ globals->x2 = rep_suc_msg.x2;
+ globals->y1 = rep_suc_msg.y1;
+ globals->y2 = rep_suc_msg.y2;
+ strcpy(globals->north_host, rep_suc_msg.north_host);
+ globals->north_port = rep_suc_msg.north_port;
+ strcpy(globals->south_host, rep_suc_msg.south_host);
+ globals->south_port = rep_suc_msg.south_port;
+ strcpy(globals->east_host, rep_suc_msg.east_host);
+ globals->east_port = rep_suc_msg.east_port;
+ strcpy(globals->west_host, rep_suc_msg.west_host);
+ globals->west_port = rep_suc_msg.west_port;
+
+ gras_socket_close(temp_sock); // spare
+ }
+ XBT_INFO("Node %s:%d inserted", globals->host, globals->port);
+
+ // associating messages to handlers.
+ register_messages();
+ gras_cb_register("can_get_suc", &node_get_suc_handler);
+ gras_cb_register("can_nuke", &node_nuke_handler); // can_test.c handler // include can_tests.c must be ON.
+
+ TRY {
+ gras_msg_handle(10000.0); // waiting.. in case of someone has something to say.
+ }
+ CATCH(e) {
+ XBT_INFO("My area is [%d;%d;%d;%d]", globals->x1, globals->x2,
+ globals->y1, globals->y2);
+ //XBT_INFO("Closing node, all has been done!");
+ xbt_ex_free(e);
+ }
+
+ gras_socket_close(globals->sock); // spare.
+ free(globals); // spare.
+ //gras_exit();
+ return (0);
}
// END