/* $Id$ */
/* pmm - parallel matrix multiplication "double diffusion" */
-/* Copyright (c) 2006- Ahmed Harbaoui. All rights reserved. */
+/* Copyright (c) 2006 Ahmed Harbaoui. */
+/* Copyright (c) 2006 Martin Quinson. */
+/* 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 "gras.h"
+#include "xbt/matrix.h"
+#include "amok/peermanagement.h"
+
#define PROC_MATRIX_SIZE 3
+#define NEIGHBOR_COUNT PROC_MATRIX_SIZE - 1
#define SLAVE_COUNT (PROC_MATRIX_SIZE*PROC_MATRIX_SIZE)
-#define DATA_MATRIX_SIZE 3
+#define DATA_MATRIX_SIZE 9
+const int submatrix_size = DATA_MATRIX_SIZE/PROC_MATRIX_SIZE;
XBT_LOG_NEW_DEFAULT_CATEGORY(pmm,"Parallel Matrix Multiplication");
-GRAS_DEFINE_TYPE(s_matrix,struct s_matrix {
- int lines;
- int rows;
- double *data GRAS_ANNOTE(size, lines*rows);
-};)
-typedef struct s_matrix matrix_t;
-
/* struct for recovering results */
GRAS_DEFINE_TYPE(s_result,struct s_result {
- int i;
- int j;
- double value;
+ int linepos;
+ int rowpos;
+ xbt_matrix_t C GRAS_ANNOTE(subtype,double);
});
typedef struct s_result result_t;
/* struct to send initial data to slave */
-GRAS_DEFINE_TYPE(s_assignment,struct s_assignment {
+GRAS_DEFINE_TYPE(s_pmm_assignment,struct s_pmm_assignment {
int linepos;
int rowpos;
- xbt_host_t line[PROC_MATRIX_SIZE];
- xbt_host_t row[PROC_MATRIX_SIZE];
- double a;
- double b;
+ xbt_peer_t line[NEIGHBOR_COUNT];
+ xbt_peer_t row[NEIGHBOR_COUNT];
+ xbt_matrix_t A GRAS_ANNOTE(subtype,double);
+ xbt_matrix_t B GRAS_ANNOTE(subtype,double);
});
-typedef struct s_assignment assignment_t;
+typedef struct s_pmm_assignment s_pmm_assignment_t;
/* register messages which may be sent (common to client and server) */
static void register_messages(void) {
gras_datadesc_type_t result_type;
- gras_datadesc_type_t assignment_type;
- gras_datadesc_set_const("PROC_MATRIX_SIZE",PROC_MATRIX_SIZE);
+ gras_datadesc_type_t pmm_assignment_type;
+
+ gras_datadesc_set_const("NEIGHBOR_COUNT",NEIGHBOR_COUNT);
result_type=gras_datadesc_by_symbol(s_result);
- assignment_type=gras_datadesc_by_symbol(s_assignment);
+ pmm_assignment_type=gras_datadesc_by_symbol(s_pmm_assignment);
/* receive a final result from slave */
gras_msgtype_declare("result", result_type);
/* send from master to slave to assign a position and some data */
- gras_msgtype_declare("assignment", assignment_type);
-
- /* send from master to slave to ask a final result */
- gras_msgtype_declare("ask_result", gras_datadesc_by_name("int"));
-
- /* send from master to slave to indicate the begining of step */
- gras_msgtype_declare("step", gras_datadesc_by_name("int"));
- /* send from slave to master to indicate the end of the current step */
- gras_msgtype_declare("step_ack", gras_datadesc_by_name("int"));
+ gras_msgtype_declare("pmm_slave", pmm_assignment_type);
- /* send data between slave */
- gras_msgtype_declare("dataA", gras_datadesc_by_name("double"));
- /* send data between slave */
- gras_msgtype_declare("dataB", gras_datadesc_by_name("double"));
+ /* send data between slaves */
+ gras_msgtype_declare("dataA", gras_datadesc_matrix(gras_datadesc_by_name("double"),NULL));
+ gras_msgtype_declare("dataB", gras_datadesc_matrix(gras_datadesc_by_name("double"),NULL));
}
/* Function prototypes */
} master_data_t;
-/*** Function initilaze matrixs ***/
-
-static void initmatrix(matrix_t *X){
- int i;
-
- for(i=0 ; i<(X->lines)*(X->rows); i++)
- X->data[i]=1.0;//*rand()/(RAND_MAX+1.0);
-} /* end_of_initmatrixs */
-
-/*** Function Scatter Sequentiel ***/
-
-static void scatter(){
-
-}/* end_of_Scatter */
-
-/*** Function: Scatter // ***/
-
-static void scatter_parl(){
-
-}/* end_of_Scatter // */
-
-/*** Function: multiplication ***/
-
-static void multiplication(){
-
-}/* end_of_multiplication */
-
-/*** Function: gather ***/
-
-static void gather(){
-
-}/* end_of_gather */
-
-/*** Function: Display Matrix ***/
-
-static void display(matrix_t X){
-
- int i,j,t=0;
-
- printf(" ");
- for(j=0;j<X.rows;j++)
- printf("%.3d ",j);
- printf("\n");
- printf(" __");
- for(j=0;j<X.rows;j++)
- printf("____");
- printf("_\n");
-
- for(i=0;i<X.lines;i++){
- printf("%.3d | ",i);
- for(j=0;j<X.rows;j++)
- printf("%.3g ",X.data[t++]);
- printf("|\n");
- }
- printf(" --");
- for(j=0;j<X.rows;j++)
- printf("----");
- printf("-\n");
-
-}/* end_of_display */
-
int master (int argc,char *argv[]) {
- xbt_ex_t e;
-
- int i,port,ask_result,step;
+ int i;
+ double init_delay;
- matrix_t A,B,C;
+ xbt_matrix_t A,B,C;
result_t result;
gras_socket_t from;
- /* Init the GRAS's infrastructure */
- gras_init(&argc, argv);
-
- xbt_host_t grid[SLAVE_COUNT]; /* The slaves */
+ xbt_dynar_t peers; /* group of slaves */
+ xbt_peer_t grid[SLAVE_COUNT]; /* The slaves as an array */
gras_socket_t socket[SLAVE_COUNT]; /* sockets for brodcast to slaves */
- /* Initialize Matrixs */
-
- A.lines=A.rows=DATA_MATRIX_SIZE;
- B.lines=B.rows=DATA_MATRIX_SIZE;
- C.lines=C.rows=DATA_MATRIX_SIZE;
-
- A.data=xbt_malloc0(sizeof(double)*DATA_MATRIX_SIZE*DATA_MATRIX_SIZE);
- B.data=xbt_malloc0(sizeof(double)*DATA_MATRIX_SIZE*DATA_MATRIX_SIZE);
- C.data=xbt_malloc0(sizeof(double)*DATA_MATRIX_SIZE*DATA_MATRIX_SIZE);
-
- initmatrix(&A);
- initmatrix(&B);
-
- /* Get arguments and create sockets */
- port=atoi(argv[1]);
- //scatter();
- //scatter_parl();
- //multiplication();
- //gather();
- //display(A);
- /************************* Init Data Send *********************************/
- int step_ack;
- gras_os_sleep(5);
-
- for( i=1;i< argc;i++){
- grid[i-1]=xbt_host_from_string(argv[i]);
- socket[i-1]=gras_socket_client(grid[i-1]->name,grid[i-1]->port);
+ /* Init the GRAS's infrastructure */
+ gras_init(&argc, argv);
+ amok_pm_init();
+ register_messages();
- INFO2("Connected to %s:%d.",grid[i-1]->name,grid[i-1]->port);
+ /* Initialize data matrices */
+ A = xbt_matrix_double_new_id(DATA_MATRIX_SIZE,DATA_MATRIX_SIZE);
+ B = xbt_matrix_double_new_seq(DATA_MATRIX_SIZE,DATA_MATRIX_SIZE);
+ C = xbt_matrix_double_new_zeros(DATA_MATRIX_SIZE,DATA_MATRIX_SIZE);
+
+ /* Create the connexions */
+ xbt_assert0(argc>1, "Usage: master <port>");
+ gras_socket_server(atoi(argv[1]));
+ peers=amok_pm_group_new("pmm");
+
+ /* friends, we're ready. Come and play */
+ if (gras_if_RL()) {
+ init_delay = 5;
+ } else {
+ init_delay = 15; /* no idea why I have to wait that long in simulation */
+ }
+ INFO1("Wait for peers for %.0f sec",init_delay);
+ gras_msg_handleall(init_delay);
+ INFO1("Got %ld pals",xbt_dynar_length(peers));
+
+ for (i=0;
+ i<xbt_dynar_length(peers) && i<SLAVE_COUNT;
+ i++) {
+
+ xbt_dynar_get_cpy(peers,i,&grid[i]);
+ INFO2("Connecting to %s:%d.",grid[i]->name,grid[i]->port);
+ socket[i]=gras_socket_client(grid[i]->name,grid[i]->port);
+ INFO2("Connected to %s:%d.",grid[i]->name,grid[i]->port);
+ }
+ xbt_assert2(i==SLAVE_COUNT,
+ "Not enough slaves for this setting (got %d of %d). Change the deployment file",
+ i,SLAVE_COUNT);
+
+ /* Kill surnumerous slaves */
+ for (i=SLAVE_COUNT; i<xbt_dynar_length(peers); ) {
+ xbt_peer_t h;
+
+ xbt_dynar_remove_at(peers,i,&h);
+ INFO2("Too much slaves. Killing %s:%d", h->name, h->port);
+ amok_pm_kill_hp(h->name,h->port);
+ free(h);
}
- int row=1, line=1;
- for(i=0 ; i<SLAVE_COUNT; i++){
- assignment_t assignment;
- int j;
- assignment.linepos=line; // My line
- assignment.rowpos=row; // My row
+ /* Assign job to slaves */
+ int row=0, line=0;
+ INFO0("XXXXXXXXXXXXXXXXXXXXXX begin Multiplication");
+ for(i=0 ; i<SLAVE_COUNT; i++){
+ s_pmm_assignment_t assignment;
+ int j,k;
+ assignment.linepos=line; // assigned line
+ assignment.rowpos=row; // assigned row
/* Neiborhood */
- for (j=0; j<PROC_MATRIX_SIZE; j++) {
- assignment.row[j] = grid[ j*PROC_MATRIX_SIZE+(row-1) ] ;
- assignment.line[j] = grid[ (line-1)*PROC_MATRIX_SIZE+j ] ;
+ for (j=0,k=0; j<PROC_MATRIX_SIZE; j++) {
+ if (i != j*PROC_MATRIX_SIZE+(row)) {
+ assignment.row[k] = grid[ j*PROC_MATRIX_SIZE+(row) ] ;
+ k++;
+ }
+ }
+ for (j=0,k=0; j<PROC_MATRIX_SIZE; j++) {
+ if (i != (line)*PROC_MATRIX_SIZE+j) {
+ assignment.line[k] = grid[ (line)*PROC_MATRIX_SIZE+j ] ;
+ k++;
+ }
}
+ assignment.A=xbt_matrix_new_sub(A,
+ submatrix_size,submatrix_size,
+ submatrix_size*line,submatrix_size*row,
+ NULL);
+ assignment.B=xbt_matrix_new_sub(B,
+ submatrix_size,submatrix_size,
+ submatrix_size*line,submatrix_size*row,
+ NULL);
row++;
- if (row > PROC_MATRIX_SIZE) {
- row=1;
+ if (row >= PROC_MATRIX_SIZE) {
+ row=0;
line++;
}
- assignment.a=A.data[(line-1)*PROC_MATRIX_SIZE+(row-1)];
- assignment.b=B.data[(line-1)*PROC_MATRIX_SIZE+(row-1)];;
-
- gras_msg_send(socket[i],gras_msgtype_by_name("assignment"),&assignment);
- // INFO3("Send assignment to %s : data A= %.3g & data B= %.3g",
- // gras_socket_peer_name(socket[i]),mydata.a,mydata.b);
-
+ gras_msg_send(socket[i],gras_msgtype_by_name("pmm_slave"),&assignment);
+ xbt_matrix_free(assignment.A);
+ xbt_matrix_free(assignment.B);
}
- // end assignment
- /******************************* multiplication ********************************/
- INFO0("XXXXXXXXXXXXXXXXXXXXXX begin Multiplication");
-
- for (step=1; step <= PROC_MATRIX_SIZE; step++){
- for (i=0; i< SLAVE_COUNT; i++){
- TRY {
- gras_msg_send(socket[i], gras_msgtype_by_name("step"), &step);
- } CATCH(e) {
- gras_socket_close(socket[i]);
- RETHROW0("Unable to send the msg : %s");
- }
- }
- INFO1("send to slave to begin a %d th step",step);
-
- /* wait for computing and slave messages exchange */
-
- i=0;
- while ( i< SLAVE_COUNT) {
- TRY {
- gras_msg_wait(1300,gras_msgtype_by_name("step_ack"),&from,&step_ack);
- } CATCH(e) {
- RETHROW0("Can't get a Ack step message from slave : %s");
- }
- i++;
- DEBUG3("Got step ack from %s (got %d of %d)",
- gras_socket_peer_name(from), i, SLAVE_COUNT);
- }
+ /* (have a rest while the slave perform the multiplication) */
+
+ /* Retrieve the results */
+ for( i=0;i< SLAVE_COUNT;i++){
+ gras_msg_wait(6000,gras_msgtype_by_name("result"),&from,&result);
+ VERB2("%d slaves are done already. Waiting for %d",i+1, SLAVE_COUNT);
+ xbt_matrix_copy_values(C,result.C, submatrix_size,submatrix_size,
+ submatrix_size*result.linepos,
+ submatrix_size*result.rowpos,
+ 0,0,NULL);
+ xbt_matrix_free(result.C);
}
- /********************************* gather ***************************************/
+ /* end of gather */
- ask_result=0;
- for( i=1;i< argc;i++){
- gras_msg_send(socket[i],gras_msgtype_by_name("ask_result"),&ask_result);
- INFO1("Send (Ask Result) message to %s",gras_socket_peer_name(socket[i]));
+ if (DATA_MATRIX_SIZE < 30) {
+ INFO0 ("The Result of Multiplication is :");
+ xbt_matrix_dump(C,"C:res",0,xbt_matrix_dump_display_double);
+ } else {
+ INFO1("Matrix size too big (%d>30) to be displayed here",DATA_MATRIX_SIZE);
}
- /* wait for results */
- for( i=1;i< argc;i++){
- gras_msg_wait(600,gras_msgtype_by_name("result"),&from,&result);
- C.data[(result.i-1)*DATA_MATRIX_SIZE+(result.j-1)]=result.value;
- }
- /* end of gather */
- INFO0 ("The Result of Multiplication is :");
- display(C);
+ amok_pm_group_shutdown ("pmm"); /* Ok, we're out of here */
+
+ for(i=0; i<SLAVE_COUNT; i++) {
+ gras_socket_close(socket[i]);
+ }
+
+ xbt_matrix_free(A);
+ xbt_matrix_free(B);
+ xbt_matrix_free(C);
+ gras_exit();
return 0;
} /* end_of_master */
* slave code
* **********************************************************************/
-int slave(int argc,char *argv[]) {
+static int pmm_worker_cb(gras_msg_cb_ctx_t ctx, void *payload) {
+ /* Recover my initialized Data and My Position*/
+ s_pmm_assignment_t assignment = *(s_pmm_assignment_t*)payload;
+ gras_socket_t master = gras_msg_cb_ctx_from(ctx);
xbt_ex_t e;
- int step,port,l,result_ack=0;
- double bA,bB;
+ int step,l;
+ xbt_matrix_t bA=xbt_matrix_new(submatrix_size,submatrix_size,
+ sizeof(double),NULL);
+ xbt_matrix_t bB=xbt_matrix_new(submatrix_size,submatrix_size,
+ sizeof(double),NULL);
int myline,myrow;
- double mydataA,mydataB;
- double bC=0;
+ xbt_matrix_t mydataA,mydataB;
+ xbt_matrix_t bC=xbt_matrix_double_new_zeros(submatrix_size,submatrix_size);
result_t result;
- gras_socket_t from,sock; /* to exchange data with my neighbor */
- gras_socket_t master; /* for the barrier */
+ gras_socket_t from; /* to exchange data with my neighbor */
/* sockets for brodcast to other slave */
gras_socket_t socket_line[PROC_MATRIX_SIZE-1];
gras_socket_t socket_row[PROC_MATRIX_SIZE-1];
-
- /* Init the GRAS's infrastructure */
-
- gras_init(&argc, argv);
-
- /* Get arguments and create sockets */
-
- port=atoi(argv[1]);
-
- /* Create my master socket */
- sock = gras_socket_server(port);
+ memset(socket_line,0,sizeof(socket_line));
+ memset(socket_row,0,sizeof(socket_row));
+
int i;
- /* Register the known messages */
- register_messages();
+ gras_os_sleep(1); /* wait for my pals */
- /* Recover my initialized Data and My Position*/
- assignment_t assignment;
- INFO2("Launch %s (port=%d); wait for my enrole message",argv[0],port);
- TRY {
- gras_msg_wait(600,gras_msgtype_by_name("assignment"),&master,&assignment);
- } CATCH(e) {
- RETHROW0("Can't get my assignment from master : %s");
- }
myline = assignment.linepos;
myrow = assignment.rowpos;
- mydataA = assignment.a;
- mydataB = assignment.b;
- INFO4("Receive my pos (%d,%d) and assignment ( A=%.3g | B=%.3g )",
- myline,myrow,mydataA,mydataB);
-
- /* Get my neighborhood from the assignment message */
- int j=0;
- for (i=0,j=0 ; i<PROC_MATRIX_SIZE ; i++){
- if (strcmp(gras_os_myname(),assignment.line[i]->name)) {
- socket_line[j]=gras_socket_client(assignment.line[i]->name,
- assignment.line[i]->port);
- j++;
- //INFO3("Line neighbour %d: %s:%d",j,mydata.line[i]->name,mydata.line[i]->port);
- }
- xbt_host_free(assignment.line[i]);
+ mydataA = assignment.A;
+ mydataB = assignment.B;
+
+ INFO2("Receive my pos (%d,%d) and assignment",myline,myrow);
+
+ /* Get my neighborhood from the assignment message (skipping myself) */
+ for (i=0 ; i<PROC_MATRIX_SIZE-1 ; i++){
+ socket_line[i]=gras_socket_client(assignment.line[i]->name,
+ assignment.line[i]->port);
+ xbt_peer_free(assignment.line[i]);
}
- for (i=0,j=0 ; i<PROC_MATRIX_SIZE ; i++){
- if (strcmp(gras_os_myname(),assignment.row[i]->name)) {
- socket_row[j]=gras_socket_client(assignment.row[i]->name,
- assignment.row[i]->port);
- //INFO3("Row neighbour %d : %s:%d",j,mydata.row[i]->name,mydata.row[i]->port);
- j++;
- }
- xbt_host_free(assignment.row[i]);
+ for (i=0 ; i<PROC_MATRIX_SIZE-1 ; i++){
+ socket_row[i]=gras_socket_client(assignment.row[i]->name,
+ assignment.row[i]->port);
+ xbt_peer_free(assignment.row[i]);
}
- step=1;
-
- do { //repeat until compute Cb
- step=PROC_MATRIX_SIZE+1; // just intilization for loop
+ for (step=0; step<PROC_MATRIX_SIZE;step++) {
- TRY {
- gras_msg_wait(200,gras_msgtype_by_name("step"),NULL,&step);
- } CATCH(e) {
- RETHROW0("Can't get a Next Step message from master : %s");
- }
- INFO1("Receive a step message from master: step = %d ",step);
-
- if (step < PROC_MATRIX_SIZE ){
- /* a line brodcast */
- gras_os_sleep(3); // IL FAUT EXPRIMER LE TEMPS D'ATTENTE EN FONCTION DE "SLAVE_COUNT"
- if(myline==step){
- INFO2("step(%d) = Myline(%d)",step,myline);
- for (l=1;l < PROC_MATRIX_SIZE ;l++){
- gras_msg_send(socket_row[l-1], gras_msgtype_by_name("dataB"), &mydataB);
- bB=mydataB;
- INFO1("send my data B (%.3g) to my (vertical) neighbors",bB);
- }
- }
- if(myline != step){
- INFO2("step(%d) <> Myline(%d)",step,myline);
- TRY {
- gras_msg_wait(600,gras_msgtype_by_name("dataB"),&from,&bB);
- } CATCH(e) {
- RETHROW0("Can't get a data message from line : %s");
- }
- INFO2("Receive data B (%.3g) from my neighbor: %s",bB,gras_socket_peer_name(from));
- }
- /* a row brodcast */
- if(myrow==step){
- for (l=1;l < PROC_MATRIX_SIZE ;l++){
- gras_msg_send(socket_line[l-1],gras_msgtype_by_name("dataA"), &mydataA);
- bA=mydataA;
- INFO1("send my data A (%.3g) to my (horizontal) neighbors",bA);
- }
+ /* a line brodcast */
+ if(myline==step){
+ INFO3("LINE: step(%d) = Myline(%d). Broadcast my data (myport=%d).",
+ step,myline,gras_os_myport());
+ for (l=0;l < PROC_MATRIX_SIZE-1 ;l++) {
+ INFO2("LINE: Send to %s:%d",
+ gras_socket_peer_name(socket_row[l]),
+ gras_socket_peer_port(socket_row[l]));
+ gras_msg_send(socket_row[l],
+ gras_msgtype_by_name("dataB"),
+ &mydataB);
+ }
+
+
+ xbt_matrix_free(bB);
+ bB = xbt_matrix_new_sub(mydataB,
+ submatrix_size,submatrix_size,
+ 0,0,NULL);
+ } else {
+ TRY {
+ xbt_matrix_free(bB);
+ gras_msg_wait(600,gras_msgtype_by_name("dataB"),&from,&bB);
+ } CATCH(e) {
+ RETHROW0("Can't get a data message from line : %s");
}
+ INFO4("LINE: step(%d) <> Myline(%d). Receive data from %s:%d",step,myline,
+ gras_socket_peer_name(from), gras_socket_peer_port(from));
+ }
- if(myrow != step){
- TRY {
- gras_msg_wait(1200,gras_msgtype_by_name("dataA"), &from,&bA);
- } CATCH(e) {
- RETHROW0("Can't get a data message from row : %s");
- }
- INFO2("Receive data A (%.3g) from my neighbor : %s ",bA,gras_socket_peer_name(from));
+ /* a row brodcast */
+ if (myrow==step) {
+ INFO2("ROW: step(%d)=myrow(%d). Broadcast my data",step,myrow);
+ for (l=1;l < PROC_MATRIX_SIZE ; l++) {
+ INFO2("ROW: Send to %s:%d",
+ gras_socket_peer_name(socket_line[l-1]),
+ gras_socket_peer_port(socket_line[l-1]));
+ gras_msg_send(socket_line[l-1],gras_msgtype_by_name("dataA"), &mydataA);
+ }
+ xbt_matrix_free(bA);
+ bA = xbt_matrix_new_sub(mydataA,
+ submatrix_size,submatrix_size,
+ 0,0,NULL);
+ } else {
+ TRY {
+ xbt_matrix_free(bA);
+ gras_msg_wait(1200,gras_msgtype_by_name("dataA"), &from,&bA);
+ } CATCH(e) {
+ RETHROW0("Can't get a data message from row : %s");
}
- bC+=bA*bB;
- INFO1(">>>>>>>> My BC = %.3g",bC);
-
- /* send a ack msg to master */
-
- gras_msg_send(master,gras_msgtype_by_name("step_ack"),&step);
-
- INFO1("Send ack to master for to end %d th step",step);
+ INFO3("ROW: step(%d)<>myrow(%d). Receive data from %s",step,myrow,
+ gras_socket_peer_name(from));
}
- if(step==PROC_MATRIX_SIZE-1) break;
-
- } while (step < PROC_MATRIX_SIZE);
- /* wait Message from master to send the result */
-
- result.value=bC;
- result.i=myline;
- result.j=myrow;
+ xbt_matrix_double_addmult(bA,bB,bC);
+
+ };
- TRY {
- gras_msg_wait(600,gras_msgtype_by_name("ask_result"),
- &master,&result_ack);
- } CATCH(e) {
- RETHROW0("Can't get a data message from line : %s");
- }
- /* send Result to master */
+ /* send Result to master */
+ result.C=bC;
+ result.linepos=myline;
+ result.rowpos=myrow;
+
TRY {
gras_msg_send(master, gras_msgtype_by_name("result"),&result);
} CATCH(e) {
- // gras_socket_close(from);
- RETHROW0("Failed to send PING to server: %s");
+ RETHROW0("Failed to send answer to server: %s");
}
- INFO3(">>>>>>>> Result: %.3f sent to %s:%d <<<<<<<<",
- bC,
+ INFO2(">>>>>>>> Result sent to %s:%d <<<<<<<<",
gras_socket_peer_name(master),gras_socket_peer_port(master));
/* Free the allocated resources, and shut GRAS down */
+
+ xbt_matrix_free(bA);
+ xbt_matrix_free(bB);
+ xbt_matrix_free(bC);
+
+ xbt_matrix_free(mydataA);
+ xbt_matrix_free(mydataB);
gras_socket_close(master);
gras_socket_close(from);
+ /* FIXME: some are said to be unknown
+ for (l=0; l < PROC_MATRIX_SIZE-1; l++) {
+ if (socket_line[l])
+ gras_socket_close(socket_line[l]);
+ if (socket_row[l])
+ gras_socket_close(socket_row[l]);
+ }*/
+
+ return 1;
+}
+
+int slave(int argc,char *argv[]) {
+ gras_socket_t mysock;
+ gras_socket_t master;
+
+ /* Init the GRAS's infrastructure */
+ gras_init(&argc, argv);
+ amok_pm_init();
+
+ /* Register the known messages and my callback */
+ register_messages();
+ gras_cb_register(gras_msgtype_by_name("pmm_slave"),pmm_worker_cb);
+
+ /* Create the connexions */
+ mysock = gras_socket_server_range(3000,9999,0,0);
+ gras_os_sleep(1); /* let the master get ready */
+ INFO1("Sensor starting (on port %d)",gras_os_myport());
+ master = gras_socket_client_from_string(argv[1]);
+
+ /* Join and run the group */
+ amok_pm_group_join(master,"pmm");
+ amok_pm_mainloop(600);
+
+ /* housekeeping */
+ gras_socket_close(mysock);
+ // gras_socket_close(master); Unknown
gras_exit();
- INFO0("Done.");
return 0;
} /* end_of_slave */
