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#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <unistd.h>
#include <signal.h>
#include <sys/time.h>
#include <pthread.h>
#include "core.h"
#ifdef __linux__
#define SIGINFO SIGTSTP
#endif
#define NUM_S 32
#define NUM_C 256
#define MSG_RATE 65
#define CTYPE_TEST 0
#define MTYPE_MSG 8
ECPContext ctx_s;
ECPDHKey key_perma_s;
ECPConnHandler handler_s;
ECPSocket *sock_s;
ECPConnHandler handler_c;
ECPContext *ctx_c;
ECPSocket *sock_c;
ECPDHKey *key_perma_c;
ECPNode *node;
ECPConnection *conn;
pthread_t *s_thd;
pthread_t *r_thd;
pthread_mutex_t *t_mtx;
int *t_sent, *t_rcvd;
uint64_t t_start = 0, t_end = 0;
int c_start = 0;
int num_s = NUM_S, num_c = NUM_C;
int msg_rate = MSG_RATE;
static void display(void) {
int i, s = 0, r = 0;
for (i=0; i<num_c; i++) {
pthread_mutex_lock(&t_mtx[i]);
s += t_sent[i];
r += t_rcvd[i];
pthread_mutex_unlock(&t_mtx[i]);
}
uint64_t t_time = t_end - t_start;
printf("TOTAL SENT:%d RCVD:%d\n", s, r);
printf("L:%f%%\n", (s-r)/(float)s*100);
printf("T/S S:%f R:%f\n", s/((float)t_time/1000000), r/((float)t_time/1000000));
}
static void catchINFO(int sig) {
struct timeval tv;
if (!c_start) {
gettimeofday(&tv, NULL);
t_start = tv.tv_sec*(uint64_t)1000000+tv.tv_usec;
c_start = 1;
printf("COUNTER START\n");
} else {
gettimeofday(&tv, NULL);
t_end = tv.tv_sec*(uint64_t)1000000+tv.tv_usec;
display();
}
}
void *sender(ECPConnection *c) {
int idx = (int)(c->conn_data);
ECPBuffer packet;
ECPBuffer payload;
unsigned char pkt_buf[ECP_MAX_PKT];
unsigned char pld_buf[ECP_MAX_PLD];
packet.buffer = pkt_buf;
packet.size = ECP_MAX_PKT;
payload.buffer = pld_buf;
payload.size = ECP_MAX_PLD;
printf("OPEN:%d\n", idx);
while(1) {
uint32_t rnd;
c->sock->ctx->rng(&rnd, sizeof(uint32_t));
usleep(rnd % (2000000/msg_rate));
ecp_pld_set_type(payload.buffer, payload.size, MTYPE_MSG);
ssize_t _rv = 0;
// XXX refactor
// _rv = ecp_pld_send(c, &packet, &payload, ECP_SIZE_PLD(1000, 0));
if (c_start && (_rv > 0)) {
pthread_mutex_lock(&t_mtx[idx]);
t_sent[idx]++;
pthread_mutex_unlock(&t_mtx[idx]);
}
}
}
ssize_t handle_open_c(ECPConnection *conn, ecp_seq_t sq, unsigned char t, unsigned char *p, ssize_t s, ECP2Buffer *b) {
int idx = (int)(conn->conn_data);
int rv = 0;
ecp_conn_handle_open(conn, sq, t, p, s, b);
rv = pthread_create(&s_thd[idx], NULL, (void *(*)(void *))sender, (void *)conn);
if (rv) {
char msg[256];
sprintf(msg, "THD %d CREATE\n", idx);
perror(msg);
exit(1);
}
return s;
}
ssize_t handle_msg_c(ECPConnection *conn, ecp_seq_t sq, unsigned char t, unsigned char *p, ssize_t s, ECP2Buffer *b) {
int idx = (int)(conn->conn_data);
ECPBuffer packet;
ECPBuffer payload;
unsigned char pkt_buf[ECP_MAX_PKT];
unsigned char pld_buf[ECP_MAX_PLD];
packet.buffer = pkt_buf;
packet.size = ECP_MAX_PKT;
payload.buffer = pld_buf;
payload.size = ECP_MAX_PLD;
if (c_start) {
pthread_mutex_lock(&t_mtx[idx]);
t_rcvd[idx]++;
pthread_mutex_unlock(&t_mtx[idx]);
}
// ecp_pld_set_type(payload.buffer, payload.size, MTYPE_MSG);
// ssize_t _rv = ecp_pld_send(c, &packet, &payload, ECP_SIZE_PLD(1000, 0));
return s;
}
ssize_t handle_msg_s(ECPConnection *conn, ecp_seq_t sq, unsigned char t, unsigned char *p, ssize_t s, ECP2Buffer *b) {
ECPBuffer packet;
ECPBuffer payload;
unsigned char pkt_buf[ECP_MAX_PKT];
unsigned char pld_buf[ECP_MAX_PLD];
packet.buffer = pkt_buf;
packet.size = ECP_MAX_PKT;
payload.buffer = pld_buf;
payload.size = ECP_MAX_PLD;
ecp_pld_set_type(payload.buffer, payload.size, MTYPE_MSG);
// XXX refactor
// ssize_t _rv = ecp_pld_send(conn, &packet, &payload, ECP_SIZE_PLD(1000, 0));
return s;
}
int main(int argc, char *argv[]) {
char addr[256];
int rv;
int i;
ECPConnHandler handler_c;
ECPContext *ctx_c;
ECPSocket *sock_c;
ECPDHKey *key_perma_c;
ECPNode *node;
ECPConnection *conn;
sock_s = malloc(num_s * sizeof(ECPSocket));
ctx_c = malloc(num_c * sizeof(ECPContext));
sock_c = malloc(num_c * sizeof(ECPSocket));
key_perma_c = malloc(num_c * sizeof(ECPDHKey));
node = malloc(num_c * sizeof(ECPNode));
conn = malloc(num_c * sizeof(ECPConnection));
s_thd = malloc(num_c * sizeof(pthread_t));
r_thd = malloc(num_c * sizeof(pthread_t));
t_mtx = malloc(num_c * sizeof(pthread_mutex_t));
t_sent = malloc(num_c * sizeof(int));
t_rcvd = malloc(num_c * sizeof(int));
memset(t_rcvd, 0, num_c * sizeof(int));
memset(t_sent, 0, num_c * sizeof(int));
struct sigaction actINFO;
memset(&actINFO, 0, sizeof(actINFO));
actINFO.sa_handler = &catchINFO;
sigaction(SIGINFO, &actINFO, NULL);
rv = ecp_init(&ctx_s);
if (!rv) rv = ecp_conn_handler_init(&handler_s);
handler_s.msg[MTYPE_MSG] = handle_msg_s;
ctx_s.handler[CTYPE_TEST] = &handler_s;
if (!rv) rv = ecp_dhkey_gen(&ctx_s, &key_perma_s);
for (i=0; i<num_s; i++) {
if (!rv) rv = ecp_sock_init(&sock_s[i], &ctx_s, &key_perma_s);
strcpy(addr, "0.0.0.0:");
sprintf(addr+strlen(addr), "%d", 3000+i);
if (!rv) rv = ecp_sock_open(&sock_s[i], addr);
if (!rv) rv = pthread_create(&r_thd[i], NULL, (void *(*)(void *))ecp_receiver, (void *)&sock_s[i]);
if (rv) {
char msg[256];
sprintf(msg, "SERVER %d CREATE:%d\n", i, rv);
perror(msg);
exit(1);
}
}
rv = ecp_conn_handler_init(&handler_c);
handler_c.msg[ECP_MTYPE_OPEN] = handle_open_c;
handler_c.msg[MTYPE_MSG] = handle_msg_c;
for (i=0; i<num_c; i++) {
pthread_mutex_init(&t_mtx[i], NULL);
if (!rv) rv = ecp_init(&ctx_c[i]);
ctx_c[i].handler[CTYPE_TEST] = &handler_c;
if (!rv) rv = ecp_dhkey_gen(&ctx_c[i], &key_perma_c[i]);
if (!rv) rv = ecp_sock_init(&sock_c[i], &ctx_c[i], &key_perma_c[i]);
if (!rv) rv = ecp_sock_open(&sock_c[i], NULL);
if (!rv) rv = pthread_create(&r_thd[i], NULL, (void *(*)(void *))ecp_receiver, (void *)&sock_c[i]);
strcpy(addr, "127.0.0.1:");
sprintf(addr+strlen(addr), "%d", 3000 + (i % num_s));
if (!rv) rv = ecp_node_init(&node[i], &key_perma_s.public, addr);
if (!rv) rv = ecp_conn_init(&conn[i], &sock_c[i], CTYPE_TEST);
conn[i].conn_data = (void *)i;
if (!rv) rv = ecp_conn_open(&conn[i], &node[i]);
if (rv) {
char msg[256];
sprintf(msg, "CLIENT %d CREATE:%d\n", i, rv);
perror(msg);
exit(1);
}
}
while (1) sleep(1);
}
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