// Stop a SPTPS session.
bool sptps_stop(sptps_t *s) {
// Clean up any resources.
chacha_poly1305_exit(s->incipher);
chacha_poly1305_exit(s->outcipher);
ecdh_free(s->ecdh);
free(s->inbuf);
free(s->mykex);
free(s->hiskex);
free(s->key);
free(s->label);
free(s->late);
memset(s, 0, sizeof *s);
return true;
}
int main(int argc, char *argv[]) {
ecdsa_t *key1, *key2;
ecdh_t *ecdh1, *ecdh2;
sptps_t sptps1, sptps2;
char buf1[4096], buf2[4096], buf3[4096];
double duration = argc > 1 ? atof(argv[1]) : 10;
crypto_init();
randomize(buf1, sizeof buf1);
randomize(buf2, sizeof buf2);
randomize(buf3, sizeof buf3);
// Key generation
fprintf(stderr, "Generating keys for %lg seconds: ", duration);
for(clock_start(); clock_countto(duration);)
ecdsa_free(ecdsa_generate());
fprintf(stderr, "%17.2lf op/s\n", rate);
key1 = ecdsa_generate();
key2 = ecdsa_generate();
// Ed25519 signatures
fprintf(stderr, "Ed25519 sign for %lg seconds: ", duration);
for(clock_start(); clock_countto(duration);)
if(!ecdsa_sign(key1, buf1, 256, buf2))
return 1;
fprintf(stderr, "%20.2lf op/s\n", rate);
fprintf(stderr, "Ed25519 verify for %lg seconds: ", duration);
for(clock_start(); clock_countto(duration);)
if(!ecdsa_verify(key1, buf1, 256, buf2)) {
fprintf(stderr, "Signature verification failed\n");
return 1;
}
fprintf(stderr, "%18.2lf op/s\n", rate);
ecdh1 = ecdh_generate_public(buf1);
fprintf(stderr, "ECDH for %lg seconds: ", duration);
for(clock_start(); clock_countto(duration);) {
ecdh2 = ecdh_generate_public(buf2);
if(!ecdh2)
return 1;
if(!ecdh_compute_shared(ecdh2, buf1, buf3))
return 1;
}
fprintf(stderr, "%28.2lf op/s\n", rate);
ecdh_free(ecdh1);
// SPTPS authentication phase
int fd[2];
if(socketpair(AF_UNIX, SOCK_STREAM, 0, fd)) {
fprintf(stderr, "Could not create a UNIX socket pair: %s\n", sockstrerror(sockerrno));
return 1;
}
struct pollfd pfd[2] = {{fd[0], POLLIN}, {fd[1], POLLIN}};
fprintf(stderr, "SPTPS/TCP authenticate for %lg seconds: ", duration);
for(clock_start(); clock_countto(duration);) {
sptps_start(&sptps1, fd + 0, true, false, key1, key2, "sptps_speed", 11, send_data, receive_record);
sptps_start(&sptps2, fd + 1, false, false, key2, key1, "sptps_speed", 11, send_data, receive_record);
while(poll(pfd, 2, 0)) {
if(pfd[0].revents)
receive_data(&sptps1);
if(pfd[1].revents)
receive_data(&sptps2);
}
sptps_stop(&sptps1);
sptps_stop(&sptps2);
}
fprintf(stderr, "%10.2lf op/s\n", rate * 2);
// SPTPS data
sptps_start(&sptps1, fd + 0, true, false, key1, key2, "sptps_speed", 11, send_data, receive_record);
sptps_start(&sptps2, fd + 1, false, false, key2, key1, "sptps_speed", 11, send_data, receive_record);
while(poll(pfd, 2, 0)) {
if(pfd[0].revents)
receive_data(&sptps1);
if(pfd[1].revents)
receive_data(&sptps2);
}
fprintf(stderr, "SPTPS/TCP transmit for %lg seconds: ", duration);
for(clock_start(); clock_countto(duration);) {
if(!sptps_send_record(&sptps1, 0, buf1, 1451))
abort();
receive_data(&sptps2);
}
rate *= 2 * 1451 * 8;
if(rate > 1e9)
fprintf(stderr, "%14.2lf Gbit/s\n", rate / 1e9);
else if(rate > 1e6)
fprintf(stderr, "%14.2lf Mbit/s\n", rate / 1e6);
else if(rate > 1e3)
fprintf(stderr, "%14.2lf kbit/s\n", rate / 1e3);
sptps_stop(&sptps1);
sptps_stop(&sptps2);
// SPTPS datagram authentication phase
close(fd[0]);
close(fd[1]);
if(socketpair(AF_UNIX, SOCK_DGRAM, 0, fd)) {
fprintf(stderr, "Could not create a UNIX socket pair: %s\n", sockstrerror(sockerrno));
return 1;
}
fprintf(stderr, "SPTPS/UDP authenticate for %lg seconds: ", duration);
for(clock_start(); clock_countto(duration);) {
sptps_start(&sptps1, fd + 0, true, true, key1, key2, "sptps_speed", 11, send_data, receive_record);
sptps_start(&sptps2, fd + 1, false, true, key2, key1, "sptps_speed", 11, send_data, receive_record);
while(poll(pfd, 2, 0)) {
if(pfd[0].revents)
receive_data(&sptps1);
if(pfd[1].revents)
receive_data(&sptps2);
}
sptps_stop(&sptps1);
sptps_stop(&sptps2);
}
fprintf(stderr, "%10.2lf op/s\n", rate * 2);
// SPTPS datagram data
sptps_start(&sptps1, fd + 0, true, true, key1, key2, "sptps_speed", 11, send_data, receive_record);
sptps_start(&sptps2, fd + 1, false, true, key2, key1, "sptps_speed", 11, send_data, receive_record);
while(poll(pfd, 2, 0)) {
if(pfd[0].revents)
receive_data(&sptps1);
if(pfd[1].revents)
receive_data(&sptps2);
}
fprintf(stderr, "SPTPS/UDP transmit for %lg seconds: ", duration);
for(clock_start(); clock_countto(duration);) {
if(!sptps_send_record(&sptps1, 0, buf1, 1451))
abort();
receive_data(&sptps2);
}
rate *= 2 * 1451 * 8;
if(rate > 1e9)
fprintf(stderr, "%14.2lf Gbit/s\n", rate / 1e9);
else if(rate > 1e6)
fprintf(stderr, "%14.2lf Mbit/s\n", rate / 1e6);
else if(rate > 1e3)
fprintf(stderr, "%14.2lf kbit/s\n", rate / 1e3);
sptps_stop(&sptps1);
sptps_stop(&sptps2);
// Clean up
close(fd[0]);
close(fd[1]);
ecdsa_free(key1);
ecdsa_free(key2);
crypto_exit();
return 0;
}
