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test_adds.c
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//add to RDMA.c to do all testing below
//modify as needed
//unit test area
void RDMA_Test(){
/* some see CM.h
//User parameters
char *server_name;
char *server_port;
uint8_t is_server; // indicate this is server side or client side of qp
int client_node_id; // client node id, so human knows what server/client
int send_flags; // to record whether inline data is supported or not
//Resources
struct rdma_cm_id *id; //short
// the msg resource
struct ibv_mr *send_mr;
struct ibv_mr *recv_mr;
char *send_buf;
char *recv_buf;
uint32_t msg_length;
// the pd resource
struct ibv_pd *pd;
struct ibv_mr *dm_mr;
char *dm_buf;
ConnEx remote_info;
*/
printf ( " ..... %u, %u", get_connection(0), get_connection(1) );
int i; for ( i =0; i<MAX_CONN; i++){
printf ( " \n ..... element %u, is server %u, client node id %u, send flags %u, dm buff %u, cm id %u, remote info.rkey %u, remote info.addr %u ",
i,
get_connection(i)->is_server,
get_connection(i)->client_node_id,
get_connection(i)->send_flags,
get_connection(i)->dm_buf,
get_connection(i)->id,
get_connection(i)->remote_info.rkey,
get_connection(i)->remote_info.addr
); }
printf ("\n ");
int node_id = RDMA_GetThisNodeId();
int DATA[100];
char * pDATA;
pDATA = &DATA[0];
struct ibv_sge sglA[10];
//printf ( "&DATA addr %u \n", &DATA );
//printf ( "DATA addr %u \n", DATA );
//printf ( "pDATA addr %u \n",pDATA );
memset(DATA, 1, sizeof(100)); //(:)
sglA[0].addr = ( uint64_t )(void *) DATA;//*(uint64_t *)DATA;
//printf ( "sglA addr %u \n", sglA[0].addr );
sglA[0].length = 8;
sglA[1].addr = ( uint64_t ) DATA;//*(uint64_t *)DATA;
//printf ( "sglA addr %u \n", sglA[1].addr );
sglA[1].length = 8;
sglA[2].addr = ( uint64_t )(void *) DATA;//*(uint64_t *)DATA;
//printf ( "sglA addr %u \n", sglA[2].addr );
sglA[2].length = 8;
sglA[3].addr = ( uint64_t ) DATA;//*(uint64_t *)DATA;
//printf ( "sglA addr %u \n", sglA[3].addr );
sglA[3].length = 8;
sglA[4].addr = ( uint64_t )(void *) DATA;//*(uint64_t *)DATA;
//printf ( "sglA addr %u \n", sglA[4].addr );
sglA[4].length = 8;
sglA[5].addr = ( uint64_t ) DATA;//*(uint64_t *)DATA;
//printf ( "sglA addr %u \n", sglA[5].addr );
sglA[5].length = 8;
sglA[6].addr = ( uint64_t )(void *) DATA;//*(uint64_t *)DATA;
//printf ( "sglA addr %u \n", sglA[6].addr );
sglA[6].length = 8;
sglA[7].addr = ( uint64_t ) DATA;//*(uint64_t *)DATA;
//printf ( "sglA addr %u \n", sglA[7].addr );
sglA[7].length = 8;
printf("Test> start ********** \n");
#if 0
struct ibv_wc wc;
struct ibv_mr *Tmr;
Tmr = ibv_reg_mr(conn_array[1]->id->pd, DATA, 40, IBV_ACCESS_LOCAL_WRITE);
if (!Tmr) {
fprintf(stderr, "Error, ibv_reg_mr() failed\n");
return -1;
}
int Rret = rdma_post_write(conn_array[1]->id, NULL, DATA/*conn_array[1]->dm_buf*/, 16, Tmr/*conn_array[1]->dm_mr*/, 0,
conn_array[1]->remote_info.addr, conn_array[1]->remote_info.rkey);
if (Rret)
{
printf("failed to post write.\n");
}
while ((Rret = rdma_get_send_comp(conn_array[1]->id, &wc)) == 0);
if (Rret < 0) {
perror("rdma_get_send_comp");
return Rret;
}
if (wc.status != IBV_WC_SUCCESS)
{
printf("completion status is %d.\n", wc.status);
} else
{
printf(" from LI success.\n");
}
#endif
//below send test fot the node 0, modify on node 2
// RDMA_Send(0, 0/*ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS test ** RDMA_Send Done \n");
// RDMA_Send(1, 0/*ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS test ** RDMA_Send Done \n");
// RDMA_Send(2, 0/*ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS test ** RDMA_Send Done \n");
// RDMA_Send(3, 0/*ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS test ** RDMA_Send Done \n");
#if 0
if (node_id == 0){
int s1;
memset(DATA, 1, sizeof(100)); //(:
for (s1=0;s1<32;s1++){ x_send(1, DATA, 32, 0);}
memset(DATA, 3, sizeof(100)); //(:
for (s1=0;s1<32;s1++){ x_send(3, DATA, 32, 0);}
printf("\nTest> ~~~~~~ loop test x_send to 1 and 3 Done \n");
}
if (node_id == 1){
int s1;
memset(DATA, 0, sizeof(100)); //(:
for (s1=0;s1<32;s1++){ x_send(0, DATA, 32, 0);}
memset(DATA, 2, sizeof(100)); //(:
for (s1=0;s1<32;s1++){ x_send(2, DATA, 32, 0);}
printf("\nTest> ~~~~~~ loop test x_send to 0 and 2 Done \n");
}
#endif
#if 0
if (node_id == 0){
int s1;
memset(DATA, 1, sizeof(100));
for (s1=0;s1<4;s1++) RDMA_Send(0, 0/* ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS loop test to 1 ** RDMA_Send Done \n");
for (s1=0;s1<32;s1++) RDMA_Send(1, 0/* ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS loop test to 1 ** RDMA_Send Done \n");
for (s1=0;s1<4;s1++) RDMA_Send(2, 0/* ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS loop test to 1 ** RDMA_Send Done \n");
for (s1=0;s1<32;s1++) RDMA_Send(3, 0/* ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS loop test to 3 ** RDMA_Send Done \n");
memset(DATA, 2, sizeof(100)); //(:)
RDMA_Send_Data(1, 0/*ofset*/, 0/*key*/, sglA, 2); printf(" test ** RDMA_Send_Data Done \n");
RDMA_Send_Data(3, 0/*ofset*/, 0/*key*/, sglA, 2); printf(" test ** RDMA_Send_Data Done \n");
//
}
if (node_id == 1){
int s1;
memset(DATA, 1, sizeof(100)); //(:
for (s1=0;s1<32;s1++) RDMA_Send(0, 0/* ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS loop test to 1 ** RDMA_Send Done \n");
for (s1=0;s1<4;s1++) RDMA_Send(1, 0/* ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS loop test to 1 ** RDMA_Send Done \n");
for (s1=0;s1<32;s1++) RDMA_Send(2, 0/* ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS loop test to 1 ** RDMA_Send Done \n");
for (s1=0;s1<4;s1++) RDMA_Send(3, 0/* ofset*/, 0/*key*/, DATA, 8); printf("SSSSSS loop test to 3 ** RDMA_Send Done \n");
memset(DATA, 2, sizeof(100)); //(:)
RDMA_Send_Data(0, 0/*ofset*/, 0/*key*/, sglA, 2); printf(" test ** RDMA_Send_Data Done \n");
RDMA_Send_Data(2, 0/*ofset*/, 0/*key*/, sglA, 2); printf(" test ** RDMA_Send_Data Done \n");
//
}
#endif
///// RDMA_Write_Short(1, 0/*ofset*/, 0/*key*/, DATA, 8); printf("Test> ** RDMA_Write_Short Done \n");
/// RDMA_Write_Short(1, 8/*ofset*/, 0/*key*/, DATA, 8); printf("Test> ** RDMA_Write_Short Done \n");
RDMA_Read_Short (1, 0/*ofset*/, 0/*key*/, DATA, 8); printf("Test> ** RDMA_Read_Short Done \n");
RDMA_CSAtomic (1, 0, 0, DATA, 8, 0, 22); printf("Test> ** RDMA_CSA Done \n");
RDMA_Read_Short (1, 0/*ofset*/, 0/*key*/, DATA, 8); printf("Test> ** RDMA_Read_Short Done \n");
//// RDMA_Write_Short(0, 0/*ofset*/, 0/*key*/, DATA, 8); printf("Test> ** RDMA_Write_Short Done \n");
//// RDMA_Write_Short(0, 8/*ofset*/, 0/*key*/, DATA, 8); printf("Test> ** RDMA_Write_Short Done \n");
RDMA_Read_Short (0, 0/*ofset*/, 0/*key*/, DATA, 8); printf("Test> ** RDMA_Read_Short Done \n");
RDMA_CSAtomic (0, 0, 0, DATA, 8, 0, 22); printf("Test> ** RDMA_CSA Done \n");
RDMA_Read_Short (0, 0/*ofset*/, 0/*key*/, DATA, 8); printf("Test> ** RDMA_Read_Short Done \n");
RDMA_Write_Data(1, 0/*ofset*/, 0/*key*/, sglA, 2); printf("Test> ** RDMA_Write_Data Done \n");
RDMA_Read_Data(1, 0/*ofset*/, 0/*key*/, sglA, 2); printf("Test> ** RDMA_Read_Data Done \n");
#if 1
for ( i =0; i<MAX_CONN; i++){
int testloop;
for (testloop = 0 ; testloop < TIMES*1024 ; testloop= testloop+8 ){
///// RDMA_Write_Short(i, testloop/*ofset*/, 0/*key*/, DATA, 8);
#if 1
////// RDMA_Write_Short(i, testloop/*ofset*/, 0/*key*/, DATA, 8);
RDMA_Read_Short (i, testloop/*ofset*/, 0/*key*/, DATA, 8);
// RDMA_CSAtomic (i, testloop, 0, DATA, 8, 0, 22);
RDMA_Read_Short (i, testloop/*ofset*/, 0/*key*/, DATA, 8);
///// RDMA_Write_Short(i, testloop/*ofset*/, 0/*key*/, DATA, 8);
////// RDMA_Write_Short(i, testloop/*ofset*/, 0/*key*/, DATA, 8);
// RDMA_Read_Short (0, testloop/*ofset*/, 0/*key*/, DATA, 8);
RDMA_CSAtomic (i, testloop , 0, DATA, 8, 0, 22);
RDMA_Read_Short (i, testloop/*ofset*/, 0/*key*/, DATA, 8);
RDMA_Write_Data(i, 0/*ofset*/, 0/*key*/, sglA, 4);
RDMA_Read_Data(i, 0/*ofset*/, 0/*key*/, sglA, 4);
RDMA_Write_Data(i, 0/*ofset*/, 0/*key*/, sglA, 8);
RDMA_Read_Data(i, 0/*ofset*/, 0/*key*/, sglA, 8);
}
#endif
}
printf("Test> RDMA testloop 1024*4 Done \n");
#endif
#if 0
if (node_id == 0){
int s1;
memset(DATA, 1, sizeof(DATA)); //(:
for (s1=0;s1<32;s1++){ x_send(1, DATA, 32, 0);}
memset(DATA, 3, sizeof(DATA)); //(:
for (s1=0;s1<32;s1++){ x_send(3, DATA, 32, 0);}
x_send(1, DATA, 16, 0);
x_send(3, DATA, 16, 0);
printf("\nTest> ~~~~~~ loop test x_send to 1 and 3 Done \n");
}
if (node_id == 1){
int s1;
memset(DATA, 0, sizeof(DATA)); //(:
for (s1=0;s1<32;s1++){ x_send(0, DATA, 32, 0);}
memset(DATA, 2, sizeof(DATA)); //(:
for (s1=0;s1<32;s1++){ x_send(2, DATA, 32, 0);}
x_send(0, DATA, 16, 0);
x_send(2, DATA, 16, 0);
printf("\nTest> ~~~~~~ loop test x_send to 0 and 2 Done \n");
}
//sinal to end processing threads
x_send(0, DATA, 3, 0);
x_send(2, DATA, 3, 0);
x_send(1, DATA, 3, 0);
x_send(3, DATA, 3, 0);
#endif
printf ( "\nTest> end *********\n " );
}