#ifdef HAVE_CONFIG_H #include "config.h" #endif #ifndef HAVE_LIBCHECK # include # define ck_assert(X) assert(X); # define START_TEST(NAME) void NAME () # define END_TEST #else # include "helpers.h" #endif #include #include #include #include #include #include #include #include "../toxav/toxav.h" #include "../toxcore/crypto_core.h" #include "../toxcore/logger.h" #include "../toxcore/tox.h" #include "../toxcore/util.h" #if defined(_WIN32) || defined(__WIN32__) || defined (WIN32) #define c_sleep(x) Sleep(1*x) #else #include #define c_sleep(x) usleep(1000*x) #endif #define TEST_REGULAR_AV 1 #define TEST_REGULAR_A 1 #define TEST_REGULAR_V 1 #define TEST_REJECT 1 #define TEST_CANCEL 1 #define TEST_MUTE_UNMUTE 1 #define TEST_STOP_RESUME_PAYLOAD 1 #define TEST_PAUSE_RESUME_SEND 1 #define ck_assert_call_control(a, b, c) do { \ TOXAV_ERR_CALL_CONTROL cc_err; \ bool ok = toxav_call_control(a, b, c, &cc_err); \ if (!ok) { \ printf("toxav_call_control returned error %d\n", cc_err); \ } \ ck_assert(ok); \ ck_assert(cc_err == TOXAV_ERR_CALL_CONTROL_OK); \ } while (0) typedef struct { bool incoming; uint32_t state; } CallControl; /** * Callbacks */ void t_toxav_call_cb(ToxAV *av, uint32_t friend_number, bool audio_enabled, bool video_enabled, void *user_data) { (void) av; (void) friend_number; (void) audio_enabled; (void) video_enabled; printf("Handling CALL callback\n"); ((CallControl *)user_data)->incoming = true; } void t_toxav_call_state_cb(ToxAV *av, uint32_t friend_number, uint32_t state, void *user_data) { (void) av; (void) friend_number; printf("Handling CALL STATE callback: %d\n", state); ((CallControl *)user_data)->state = state; } void t_toxav_receive_video_frame_cb(ToxAV *av, uint32_t friend_number, uint16_t width, uint16_t height, uint8_t const *y, uint8_t const *u, uint8_t const *v, int32_t ystride, int32_t ustride, int32_t vstride, void *user_data) { (void) av; (void) friend_number; (void) width; (void) height; (void) y; (void) u; (void) v; (void) ystride; (void) ustride; (void) vstride; (void) user_data; printf("Received video payload\n"); } void t_toxav_receive_audio_frame_cb(ToxAV *av, uint32_t friend_number, int16_t const *pcm, size_t sample_count, uint8_t channels, uint32_t sampling_rate, void *user_data) { (void) av; (void) friend_number; (void) pcm; (void) sample_count; (void) channels; (void) sampling_rate; (void) user_data; printf("Received audio payload\n"); } void t_accept_friend_request_cb(Tox *m, const uint8_t *public_key, const uint8_t *data, size_t length, void *userdata) { (void) userdata; if (length == 7 && memcmp("gentoo", data, 7) == 0) { ck_assert(tox_friend_add_norequest(m, public_key, NULL) != (uint32_t) ~0); } } /** * Iterate helper */ int iterate_tox(Tox *bootstrap, Tox *Alice, Tox *Bob) { c_sleep(100); tox_iterate(bootstrap, NULL); tox_iterate(Alice, NULL); tox_iterate(Bob, NULL); return MIN(tox_iteration_interval(Alice), tox_iteration_interval(Bob)); } START_TEST(test_AV_flows) { Tox *Alice, *Bob, *bootstrap; ToxAV *AliceAV, *BobAV; CallControl AliceCC, BobCC; { TOX_ERR_NEW error; bootstrap = tox_new(NULL, &error); ck_assert(error == TOX_ERR_NEW_OK); Alice = tox_new(NULL, &error); ck_assert(error == TOX_ERR_NEW_OK); Bob = tox_new(NULL, &error); ck_assert(error == TOX_ERR_NEW_OK); } printf("Created 3 instances of Tox\n"); printf("Preparing network...\n"); long long unsigned int cur_time = time(NULL); uint32_t to_compare = 974536; uint8_t address[TOX_ADDRESS_SIZE]; tox_callback_friend_request(Alice, t_accept_friend_request_cb); tox_self_get_address(Alice, address); ck_assert(tox_friend_add(Bob, address, (uint8_t *)"gentoo", 7, NULL) != (uint32_t) ~0); uint8_t off = 1; while (1) { iterate_tox(bootstrap, Alice, Bob); if (tox_self_get_connection_status(bootstrap) && tox_self_get_connection_status(Alice) && tox_self_get_connection_status(Bob) && off) { printf("Toxes are online, took %llu seconds\n", time(NULL) - cur_time); off = 0; } if (tox_friend_get_connection_status(Alice, 0, NULL) == TOX_CONNECTION_UDP && tox_friend_get_connection_status(Bob, 0, NULL) == TOX_CONNECTION_UDP) { break; } c_sleep(20); } { TOXAV_ERR_NEW error; AliceAV = toxav_new(Alice, &error); ck_assert(error == TOXAV_ERR_NEW_OK); BobAV = toxav_new(Bob, &error); ck_assert(error == TOXAV_ERR_NEW_OK); } toxav_callback_call(AliceAV, t_toxav_call_cb, &AliceCC); toxav_callback_call_state(AliceAV, t_toxav_call_state_cb, &AliceCC); toxav_callback_video_receive_frame(AliceAV, t_toxav_receive_video_frame_cb, &AliceCC); toxav_callback_audio_receive_frame(AliceAV, t_toxav_receive_audio_frame_cb, &AliceCC); toxav_callback_call(BobAV, t_toxav_call_cb, &BobCC); toxav_callback_call_state(BobAV, t_toxav_call_state_cb, &BobCC); toxav_callback_video_receive_frame(BobAV, t_toxav_receive_video_frame_cb, &BobCC); toxav_callback_audio_receive_frame(BobAV, t_toxav_receive_audio_frame_cb, &BobCC); printf("Created 2 instances of ToxAV\n"); printf("All set after %llu seconds!\n", time(NULL) - cur_time); #define REGULAR_CALL_FLOW(A_BR, V_BR) \ do { \ memset(&AliceCC, 0, sizeof(CallControl)); \ memset(&BobCC, 0, sizeof(CallControl)); \ \ TOXAV_ERR_CALL rc; \ toxav_call(AliceAV, 0, A_BR, V_BR, &rc); \ \ if (rc != TOXAV_ERR_CALL_OK) { \ printf("toxav_call failed: %d\n", rc); \ ck_assert(0); \ } \ \ \ long long unsigned int start_time = time(NULL); \ \ \ while (BobCC.state != TOXAV_FRIEND_CALL_STATE_FINISHED) { \ \ if (BobCC.incoming) { \ TOXAV_ERR_ANSWER rc; \ toxav_answer(BobAV, 0, A_BR, V_BR, &rc); \ \ if (rc != TOXAV_ERR_ANSWER_OK) { \ printf("toxav_answer failed: %d\n", rc); \ ck_assert(0); \ } \ BobCC.incoming = false; \ } else { \ /* TODO rtp */ \ \ if (time(NULL) - start_time >= 1) { \ \ TOXAV_ERR_CALL_CONTROL rc; \ toxav_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_CANCEL, &rc); \ \ if (rc != TOXAV_ERR_CALL_CONTROL_OK) { \ printf("toxav_call_control failed: %d\n", rc); \ ck_assert(0); \ } \ } \ } \ \ iterate_tox(bootstrap, Alice, Bob); \ } \ printf("Success!\n");\ } while(0) if (TEST_REGULAR_AV) { printf("\nTrying regular call (Audio and Video)...\n"); REGULAR_CALL_FLOW(48, 4000); } if (TEST_REGULAR_A) { printf("\nTrying regular call (Audio only)...\n"); REGULAR_CALL_FLOW(48, 0); } if (TEST_REGULAR_V) { printf("\nTrying regular call (Video only)...\n"); REGULAR_CALL_FLOW(0, 4000); } #undef REGULAR_CALL_FLOW if (TEST_REJECT) { /* Alice calls; Bob rejects */ printf("\nTrying reject flow...\n"); memset(&AliceCC, 0, sizeof(CallControl)); memset(&BobCC, 0, sizeof(CallControl)); { TOXAV_ERR_CALL rc; toxav_call(AliceAV, 0, 48, 0, &rc); if (rc != TOXAV_ERR_CALL_OK) { printf("toxav_call failed: %d\n", rc); ck_assert(0); } } while (!BobCC.incoming) { iterate_tox(bootstrap, Alice, Bob); } /* Reject */ { TOXAV_ERR_CALL_CONTROL rc; toxav_call_control(BobAV, 0, TOXAV_CALL_CONTROL_CANCEL, &rc); if (rc != TOXAV_ERR_CALL_CONTROL_OK) { printf("toxav_call_control failed: %d\n", rc); ck_assert(0); } } while (AliceCC.state != TOXAV_FRIEND_CALL_STATE_FINISHED) { iterate_tox(bootstrap, Alice, Bob); } printf("Success!\n"); } if (TEST_CANCEL) { /* Alice calls; Alice cancels while ringing */ printf("\nTrying cancel (while ringing) flow...\n"); memset(&AliceCC, 0, sizeof(CallControl)); memset(&BobCC, 0, sizeof(CallControl)); { TOXAV_ERR_CALL rc; toxav_call(AliceAV, 0, 48, 0, &rc); if (rc != TOXAV_ERR_CALL_OK) { printf("toxav_call failed: %d\n", rc); ck_assert(0); } } while (!BobCC.incoming) { iterate_tox(bootstrap, Alice, Bob); } /* Cancel */ { TOXAV_ERR_CALL_CONTROL rc; toxav_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_CANCEL, &rc); if (rc != TOXAV_ERR_CALL_CONTROL_OK) { printf("toxav_call_control failed: %d\n", rc); ck_assert(0); } } /* Alice will not receive end state */ while (BobCC.state != TOXAV_FRIEND_CALL_STATE_FINISHED) { iterate_tox(bootstrap, Alice, Bob); } printf("Success!\n"); } if (TEST_MUTE_UNMUTE) { /* Check Mute-Unmute etc */ printf("\nTrying mute functionality...\n"); memset(&AliceCC, 0, sizeof(CallControl)); memset(&BobCC, 0, sizeof(CallControl)); /* Assume sending audio and video */ { TOXAV_ERR_CALL rc; toxav_call(AliceAV, 0, 48, 1000, &rc); if (rc != TOXAV_ERR_CALL_OK) { printf("toxav_call failed: %d\n", rc); ck_assert(0); } } while (!BobCC.incoming) { iterate_tox(bootstrap, Alice, Bob); } /* At first try all stuff while in invalid state */ ck_assert(!toxav_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_PAUSE, NULL)); ck_assert(!toxav_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_RESUME, NULL)); ck_assert(!toxav_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_MUTE_AUDIO, NULL)); ck_assert(!toxav_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_UNMUTE_AUDIO, NULL)); ck_assert(!toxav_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_HIDE_VIDEO, NULL)); ck_assert(!toxav_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_SHOW_VIDEO, NULL)); { TOXAV_ERR_ANSWER rc; toxav_answer(BobAV, 0, 48, 4000, &rc); if (rc != TOXAV_ERR_ANSWER_OK) { printf("toxav_answer failed: %d\n", rc); ck_assert(0); } } iterate_tox(bootstrap, Alice, Bob); /* Pause and Resume */ printf("Pause and Resume\n"); ck_assert_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_PAUSE); iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state == 0); ck_assert_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_RESUME); iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state & (TOXAV_FRIEND_CALL_STATE_SENDING_A | TOXAV_FRIEND_CALL_STATE_SENDING_V)); /* Mute/Unmute single */ printf("Mute/Unmute single\n"); ck_assert_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_MUTE_AUDIO); iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state ^ TOXAV_FRIEND_CALL_STATE_ACCEPTING_A); ck_assert_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_UNMUTE_AUDIO); iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state & TOXAV_FRIEND_CALL_STATE_ACCEPTING_A); /* Mute/Unmute both */ printf("Mute/Unmute both\n"); ck_assert_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_MUTE_AUDIO); iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state ^ TOXAV_FRIEND_CALL_STATE_ACCEPTING_A); ck_assert_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_HIDE_VIDEO); iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state ^ TOXAV_FRIEND_CALL_STATE_ACCEPTING_V); ck_assert_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_UNMUTE_AUDIO); iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state & TOXAV_FRIEND_CALL_STATE_ACCEPTING_A); ck_assert_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_SHOW_VIDEO); iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state & TOXAV_FRIEND_CALL_STATE_ACCEPTING_V); { TOXAV_ERR_CALL_CONTROL rc; toxav_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_CANCEL, &rc); if (rc != TOXAV_ERR_CALL_CONTROL_OK) { printf("toxav_call_control failed: %d\n", rc); ck_assert(0); } } iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state == TOXAV_FRIEND_CALL_STATE_FINISHED); printf("Success!\n"); } if (TEST_STOP_RESUME_PAYLOAD) { /* Stop and resume audio/video payload */ printf("\nTrying stop/resume functionality...\n"); memset(&AliceCC, 0, sizeof(CallControl)); memset(&BobCC, 0, sizeof(CallControl)); /* Assume sending audio and video */ { TOXAV_ERR_CALL rc; toxav_call(AliceAV, 0, 48, 0, &rc); if (rc != TOXAV_ERR_CALL_OK) { printf("toxav_call failed: %d\n", rc); ck_assert(0); } } while (!BobCC.incoming) { iterate_tox(bootstrap, Alice, Bob); } { TOXAV_ERR_ANSWER rc; toxav_answer(BobAV, 0, 48, 0, &rc); if (rc != TOXAV_ERR_ANSWER_OK) { printf("toxav_answer failed: %d\n", rc); ck_assert(0); } } iterate_tox(bootstrap, Alice, Bob); printf("Call started as audio only\n"); printf("Turning on video for Alice...\n"); ck_assert(toxav_bit_rate_set(AliceAV, 0, -1, 1000, NULL)); iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state & TOXAV_FRIEND_CALL_STATE_SENDING_V); printf("Turning off video for Alice...\n"); ck_assert(toxav_bit_rate_set(AliceAV, 0, -1, 0, NULL)); iterate_tox(bootstrap, Alice, Bob); ck_assert(!(BobCC.state & TOXAV_FRIEND_CALL_STATE_SENDING_V)); printf("Turning off audio for Alice...\n"); ck_assert(toxav_bit_rate_set(AliceAV, 0, 0, -1, NULL)); iterate_tox(bootstrap, Alice, Bob); ck_assert(!(BobCC.state & TOXAV_FRIEND_CALL_STATE_SENDING_A)); { TOXAV_ERR_CALL_CONTROL rc; toxav_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_CANCEL, &rc); if (rc != TOXAV_ERR_CALL_CONTROL_OK) { printf("toxav_call_control failed: %d\n", rc); ck_assert(0); } } iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state == TOXAV_FRIEND_CALL_STATE_FINISHED); printf("Success!\n"); } if (TEST_PAUSE_RESUME_SEND) { /* Stop and resume audio/video payload and test send options */ printf("\nTrying stop/resume functionality...\n"); memset(&AliceCC, 0, sizeof(CallControl)); memset(&BobCC, 0, sizeof(CallControl)); /* Assume sending audio and video */ { TOXAV_ERR_CALL rc; toxav_call(AliceAV, 0, 48, 0, &rc); if (rc != TOXAV_ERR_CALL_OK) { printf("toxav_call failed: %d\n", rc); ck_assert(0); } } while (!BobCC.incoming) { iterate_tox(bootstrap, Alice, Bob); } { TOXAV_ERR_ANSWER rc; toxav_answer(BobAV, 0, 48, 0, &rc); if (rc != TOXAV_ERR_ANSWER_OK) { printf("toxav_answer failed: %d\n", rc); ck_assert(0); } } int16_t PCM[5670]; iterate_tox(bootstrap, Alice, Bob); ck_assert_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_PAUSE); iterate_tox(bootstrap, Alice, Bob); ck_assert(!toxav_audio_send_frame(AliceAV, 0, PCM, 960, 1, 48000, NULL)); ck_assert(!toxav_audio_send_frame(BobAV, 0, PCM, 960, 1, 48000, NULL)); ck_assert_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_RESUME); iterate_tox(bootstrap, Alice, Bob); ck_assert(toxav_audio_send_frame(AliceAV, 0, PCM, 960, 1, 48000, NULL)); ck_assert(toxav_audio_send_frame(BobAV, 0, PCM, 960, 1, 48000, NULL)); iterate_tox(bootstrap, Alice, Bob); { TOXAV_ERR_CALL_CONTROL rc; toxav_call_control(AliceAV, 0, TOXAV_CALL_CONTROL_CANCEL, &rc); if (rc != TOXAV_ERR_CALL_CONTROL_OK) { printf("toxav_call_control failed: %d\n", rc); ck_assert(0); } } iterate_tox(bootstrap, Alice, Bob); ck_assert(BobCC.state == TOXAV_FRIEND_CALL_STATE_FINISHED); printf("Success!\n"); } toxav_kill(BobAV); toxav_kill(AliceAV); tox_kill(Bob); tox_kill(Alice); tox_kill(bootstrap); printf("\nTest successful!\n"); } END_TEST #ifndef HAVE_LIBCHECK int main(int argc, char *argv[]) { (void) argc; (void) argv; test_AV_flows(); return 0; } #else Suite *tox_suite(void) { Suite *s = suite_create("ToxAV"); DEFTESTCASE_SLOW(AV_flows, 200); return s; } int main(int argc, char *argv[]) { (void) argc; (void) 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; } #endif