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#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <sys/types.h>
#include <stdint.h>
#include <string.h>
#include <stdio.h>
#include <check.h>
#include <stdlib.h>
#include <time.h>
#include <assert.h>
#include <vpx/vpx_image.h>
#include "../toxcore/tox.h"
#include "../toxcore/logger.h"
#include "../toxcore/crypto_core.h"
#include "../toxav/toxav.h"
#if defined(_WIN32) || defined(__WIN32__) || defined (WIN32)
#define c_sleep(x) Sleep(1*x)
#else
#include <unistd.h>
#include <pthread.h>
#define c_sleep(x) usleep(1000*x)
#endif
pthread_mutex_t muhmutex;
typedef enum _CallStatus {
none,
InCall,
Ringing,
Ended,
Rejected,
Canceled
} CallStatus;
typedef struct _Party {
CallStatus status;
ToxAv *av;
int id;
} Party;
typedef struct _ACall {
pthread_t tid;
int idx;
Party Caller;
Party Callee;
} ACall;
typedef struct _Status {
ACall calls[3]; /* Make 3 calls for this test */
} Status;
Status status_control;
void accept_friend_request(Tox *m, const uint8_t *public_key, const uint8_t *data, size_t length, void *userdata)
{
if (length == 7 && memcmp("gentoo", data, 7) == 0) {
tox_friend_add_norequest(m, public_key, 0);
}
}
/******************************************************************************/
void callback_recv_invite ( void *av, int32_t call_index, void *_arg )
{
Status *cast = _arg;
cast->calls[call_index].Callee.status = Ringing;
}
void callback_recv_ringing ( void *av, int32_t call_index, void *_arg )
{
Status *cast = _arg;
cast->calls[call_index].Caller.status = Ringing;
}
void callback_call_ended ( void *av, int32_t call_index, void *_arg )
{
Status *cast = _arg;
if (av == cast->calls[call_index].Caller.av)
cast->calls[call_index].Caller.status = Ended;
else
cast->calls[call_index].Callee.status = Ended;
}
void callback_call_started ( void *av, int32_t call_index, void *_arg )
{
Status *cast = _arg;
if (av == cast->calls[call_index].Caller.av)
cast->calls[call_index].Caller.status = InCall;
else
cast->calls[call_index].Callee.status = InCall;
}
void callback_call_canceled ( void *av, int32_t call_index, void *_arg )
{
}
void callback_call_rejected ( void *av, int32_t call_index, void *_arg )
{
Status *cast = _arg;
cast->calls[call_index].Caller.status = Rejected;
}
void callback_requ_timeout ( void *av, int32_t call_index, void *_arg )
{
ck_assert_msg(0, "No answer!");
}
void callback_audio (void *agent, int32_t call_idx, const int16_t *PCM, uint16_t size, void *data)
{}
void callback_video (void *agent, int32_t call_idx, const vpx_image_t *img, void *data)
{}
void register_callbacks(ToxAv *av, void *data)
{
toxav_register_callstate_callback(av, callback_call_started, av_OnStart, data);
toxav_register_callstate_callback(av, callback_call_canceled, av_OnCancel, data);
toxav_register_callstate_callback(av, callback_call_rejected, av_OnReject, data);
toxav_register_callstate_callback(av, callback_call_ended, av_OnEnd, data);
toxav_register_callstate_callback(av, callback_recv_invite, av_OnInvite, data);
toxav_register_callstate_callback(av, callback_recv_ringing, av_OnRinging, data);
toxav_register_callstate_callback(av, callback_requ_timeout, av_OnRequestTimeout, data);
toxav_register_audio_callback(av, callback_audio, NULL);
toxav_register_video_callback(av, callback_video, NULL);
}
/*************************************************************************************************/
int call_running[3];
void *in_thread_call (void *arg)
{
#define call_print(call, what, args...) printf("[%d] " what "\n", call, ##args)
ACall *this_call = arg;
uint64_t start = 0;
int step = 0;
int call_idx;
const int frame_size = (av_DefaultSettings.audio_sample_rate * av_DefaultSettings.audio_frame_duration / 1000);
int16_t sample_payload[frame_size];
randombytes((uint8_t *)sample_payload, sizeof(int16_t) * frame_size);
uint8_t prepared_payload[RTP_PAYLOAD_SIZE];
register_callbacks(this_call->Caller.av, &status_control);
register_callbacks(this_call->Callee.av, arg);
/* NOTE: CALLEE WILL ALWAHYS NEED CALL_IDX == 0 */
pthread_mutex_lock(&muhmutex);
while (call_running[this_call->idx]) {
pthread_mutex_unlock(&muhmutex);
switch ( step ) {
case 0: /* CALLER */
toxav_call(this_call->Caller.av, &call_idx, this_call->Callee.id, &av_DefaultSettings, 10);
call_print(call_idx, "Calling ...");
step++;
break;
case 1: /* CALLEE */
pthread_mutex_lock(&muhmutex);
if (this_call->Caller.status == Ringing) {
call_print(call_idx, "Callee answers ...");
pthread_mutex_unlock(&muhmutex);
toxav_answer(this_call->Callee.av, 0, &av_DefaultSettings);
step++;
start = time(NULL);
pthread_mutex_lock(&muhmutex);
}
pthread_mutex_unlock(&muhmutex);
break;
case 2: /* Rtp transmission */
pthread_mutex_lock(&muhmutex);
if (this_call->Caller.status == InCall) { /* I think this is okay */
call_print(call_idx, "Sending rtp ...");
pthread_mutex_unlock(&muhmutex);
c_sleep(1000); /* We have race condition here */
toxav_prepare_transmission(this_call->Callee.av, 0, 1);
toxav_prepare_transmission(this_call->Caller.av, call_idx, 1);
int payload_size = toxav_prepare_audio_frame(this_call->Caller.av, call_idx, prepared_payload, RTP_PAYLOAD_SIZE,
sample_payload, frame_size);
if ( payload_size < 0 ) {
ck_assert_msg ( 0, "Failed to encode payload" );
}
while (time(NULL) - start < 10) { /* 10 seconds */
/* Both send */
toxav_send_audio(this_call->Caller.av, call_idx, prepared_payload, payload_size);
toxav_send_audio(this_call->Callee.av, 0, prepared_payload, payload_size);
/* Both receive */
int16_t storage[RTP_PAYLOAD_SIZE];
int recved;
c_sleep(20);
}
step++; /* This terminates the loop */
pthread_mutex_lock(&muhmutex);
toxav_kill_transmission(this_call->Callee.av, 0);
toxav_kill_transmission(this_call->Caller.av, call_idx);
pthread_mutex_unlock(&muhmutex);
/* Call over CALLER hangs up */
toxav_hangup(this_call->Caller.av, call_idx);
call_print(call_idx, "Hanging up ...");
pthread_mutex_lock(&muhmutex);
}
pthread_mutex_unlock(&muhmutex);
break;
case 3: /* Wait for Both to have status ended */
pthread_mutex_lock(&muhmutex);
if (this_call->Caller.status == Ended) {
pthread_mutex_unlock(&muhmutex);
c_sleep(1000); /* race condition */
pthread_mutex_lock(&muhmutex);
this_call->Callee.status = Ended;
call_running[this_call->idx] = 0;
}
pthread_mutex_unlock(&muhmutex);
break;
}
c_sleep(20);
pthread_mutex_lock(&muhmutex);
}
pthread_mutex_unlock(&muhmutex);
call_print(call_idx, "Call ended successfully!");
pthread_exit(NULL);
}
START_TEST(test_AV_three_calls)
// void test_AV_three_calls()
{
long long unsigned int cur_time = time(NULL);
Tox *bootstrap_node = tox_new(0, 0);
Tox *caller = tox_new(0, 0);
Tox *callees[3] = {
tox_new(0, 0),
tox_new(0, 0),
tox_new(0, 0),
};
ck_assert_msg(bootstrap_node != NULL, "Failed to create bootstrap node");
int i = 0;
for (; i < 3; i ++) {
ck_assert_msg(callees[i] != NULL, "Failed to create 3 tox instances");
}
for ( i = 0; i < 3; i ++ ) {
uint32_t to_compare = 974536;
tox_callback_friend_request(callees[i], accept_friend_request, &to_compare);
uint8_t address[TOX_ADDRESS_SIZE];
tox_self_get_address(callees[i], address);
uint32_t test = tox_friend_add(caller, address, (uint8_t *)"gentoo", 7, 0);
ck_assert_msg( test == i, "Failed to add friend error code: %i", test);
}
uint8_t off = 1;
while (1) {
tox_iterate(bootstrap_node);
tox_iterate(caller);
for (i = 0; i < 3; i ++) {
tox_iterate(callees[i]);
}
if (tox_self_get_connection_status(bootstrap_node) &&
tox_self_get_connection_status(caller) &&
tox_self_get_connection_status(callees[0]) &&
tox_self_get_connection_status(callees[1]) &&
tox_self_get_connection_status(callees[2]) && off) {
printf("Toxes are online, took %llu seconds\n", time(NULL) - cur_time);
off = 0;
}
if (tox_friend_get_connection_status(caller, 0, 0) &&
tox_friend_get_connection_status(caller, 1, 0) &&
tox_friend_get_connection_status(caller, 2, 0) )
break;
c_sleep(20);
}
printf("All set after %llu seconds! Starting call...\n", time(NULL) - cur_time);
ToxAv *uniqcallerav = toxav_new(caller, 3);
for (i = 0; i < 3; i ++) {
status_control.calls[i].idx = i;
status_control.calls[i].Caller.av = uniqcallerav;
status_control.calls[i].Caller.id = 0;
status_control.calls[i].Caller.status = none;
status_control.calls[i].Callee.av = toxav_new(callees[i], 1);
status_control.calls[i].Callee.id = i;
status_control.calls[i].Callee.status = none;
}
pthread_mutex_init(&muhmutex, NULL);
for ( i = 0; i < 3; i++ ) {
call_running[i] = 1;
pthread_create(&status_control.calls[i].tid, NULL, in_thread_call, &status_control.calls[i]);
}
/* Now start 3 calls and they'll run for 10 s */
for ( i = 0; i < 3; i++ )
pthread_detach(status_control.calls[i].tid);
while (call_running[0] || call_running[1] || call_running[2]) {
pthread_mutex_lock(&muhmutex);
tox_iterate(bootstrap_node);
tox_iterate(caller);
tox_iterate(callees[0]);
tox_iterate(callees[1]);
tox_iterate(callees[2]);
for ( i = 0; i < 3; i++ )
toxav_do(status_control.calls[0].Caller.av);
toxav_do(status_control.calls[0].Callee.av);
toxav_do(status_control.calls[1].Callee.av);
toxav_do(status_control.calls[2].Callee.av);
pthread_mutex_unlock(&muhmutex);
c_sleep(20);
}
toxav_kill(status_control.calls[0].Caller.av);
toxav_kill(status_control.calls[0].Callee.av);
toxav_kill(status_control.calls[1].Callee.av);
toxav_kill(status_control.calls[2].Callee.av);
tox_kill(bootstrap_node);
tox_kill(caller);
for ( i = 0; i < 3; i ++)
tox_kill(callees[i]);
}
END_TEST
Suite *tox_suite(void)
{
Suite *s = suite_create("ToxAV");
TCase *tc_av_three_calls = tcase_create("AV_three_calls");
tcase_add_test(tc_av_three_calls, test_AV_three_calls);
tcase_set_timeout(tc_av_three_calls, 150);
suite_add_tcase(s, tc_av_three_calls);
return s;
}
int main(int argc, char *argv[])
{
Suite *tox = tox_suite();
SRunner *test_runner = srunner_create(tox);
setbuf(stdout, NULL);
srunner_run_all(test_runner, CK_NORMAL);
int number_failed = srunner_ntests_failed(test_runner);
srunner_free(test_runner);
return number_failed;
// test_AV_three_calls();
// return 0;
}
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