Merge branch 'mannol1-Multicalls' into multi-av

This commit is contained in:
irungentoo 2014-05-25 12:27:48 -04:00
commit 82e38883a2
No known key found for this signature in database
GPG Key ID: 10349DC9BED89E98
26 changed files with 2184 additions and 2685 deletions

View File

@ -3,7 +3,6 @@ if BUILD_TESTS
TESTS = messenger_autotest crypto_test network_test assoc_test onion_test TCP_test tox_test
check_PROGRAMS = messenger_autotest crypto_test network_test assoc_test onion_test TCP_test tox_test
AUTOTEST_CFLAGS = \
$(LIBSODIUM_CFLAGS) \
$(NACL_CFLAGS) \
@ -19,9 +18,10 @@ AUTOTEST_LDADD = \
$(CHECK_LIBS)
if BUILD_AV
TESTS += toxav_basic_test
check_PROGRAMS += toxav_basic_test
TESTS += toxav_basic_test toxav_many_test
check_PROGRAMS += toxav_basic_test toxav_many_test
AUTOTEST_LDADD += libtoxav.la
endif
@ -74,12 +74,20 @@ tox_test_CFLAGS = $(AUTOTEST_CFLAGS)
tox_test_LDADD = $(AUTOTEST_LDADD)
if BUILD_AV
toxav_basic_test_SOURCES = ../auto_tests/toxav_basic_test.c
toxav_basic_test_CFLAGS = $(AUTOTEST_CFLAGS)
toxav_basic_test_LDADD = $(AUTOTEST_LDADD)
toxav_many_test_SOURCES = ../auto_tests/toxav_many_test.c
toxav_many_test_CFLAGS = $(AUTOTEST_CFLAGS)
toxav_many_test_LDADD = $(AUTOTEST_LDADD)
endif
endif

View File

@ -235,6 +235,7 @@ START_TEST(test_few_clients)
uint8_t *f_data = malloc(fpiece_size);
uint8_t num = 0;
memset(f_data, num, fpiece_size);
while (1) {
file_sent = 0;
tox_do(tox1);
@ -247,6 +248,7 @@ START_TEST(test_few_clients)
sendf_ok = 0;
tox_file_send_control(tox2, 0, 0, fnum, TOX_FILECONTROL_FINISHED, NULL, 0);
}
++num;
memset(f_data, num, fpiece_size);

View File

@ -12,6 +12,8 @@
#include <assert.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)
@ -22,6 +24,7 @@
#endif
typedef enum _CallStatus {
none,
InCall,
@ -36,6 +39,7 @@ typedef struct _Party {
CallStatus status;
ToxAv *av;
time_t *CallStarted;
int call_index;
} Party;
typedef struct _Status {
@ -43,44 +47,46 @@ typedef struct _Status {
Party Bob;
} Status;
/* My default settings */
static ToxAvCodecSettings muhcaps;
void accept_friend_request(Tox *m, uint8_t *public_key, uint8_t *data, uint16_t length, void *userdata)
{
if (length == 15 && memcmp("ILIKESMALLTITS", data, 15) == 0) {
if (length == 7 && memcmp("gentoo", data, 7) == 0) {
tox_add_friend_norequest(m, public_key);
}
}
/******************************************************************************/
void callback_recv_invite ( void *_arg )
void callback_recv_invite ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
/* Bob always receives invite */
cast->Bob.status = Ringing;
cast->Bob.call_index = call_index;
}
void callback_recv_ringing ( void *_arg )
void callback_recv_ringing ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
/* Alice always sends invite */
cast->Alice.status = Ringing;
}
void callback_recv_starting ( void *_arg )
void callback_recv_starting ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
/* Alice always sends invite */
printf("Call started on Alice side...\n");
cast->Alice.status = InCall;
toxav_prepare_transmission(cast->Alice.av, 1);
toxav_prepare_transmission(cast->Alice.av, call_index, &muhcaps, 1);
}
void callback_recv_ending ( void *_arg )
void callback_recv_ending ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
if ( cast->Alice.status == Rejected) {
printf ( "Call ended for Bob!\n" );
cast->Bob.status = Ended;
@ -90,28 +96,28 @@ void callback_recv_ending ( void *_arg )
}
}
void callback_recv_error ( void *_arg )
void callback_recv_error ( int32_t call_index, void *_arg )
{
ck_assert_msg(0, "AV internal error");
}
void callback_call_started ( void *_arg )
void callback_call_started ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
/* Alice always sends invite */
printf("Call started on Bob side...\n");
cast->Bob.status = InCall;
toxav_prepare_transmission(cast->Bob.av, 1);
toxav_prepare_transmission(cast->Bob.av, call_index, &muhcaps, 1);
}
void callback_call_canceled ( void *_arg )
void callback_call_canceled ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
printf ( "Call Canceled for Bob!\n" );
cast->Bob.status = Cancel;
}
void callback_call_rejected ( void *_arg )
void callback_call_rejected ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
@ -120,7 +126,7 @@ void callback_call_rejected ( void *_arg )
/* If Bob rejects, call is ended for alice and she sends ending */
cast->Alice.status = Rejected;
}
void callback_call_ended ( void *_arg )
void callback_call_ended ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
@ -128,7 +134,7 @@ void callback_call_ended ( void *_arg )
cast->Bob.status = Ended;
}
void callback_requ_timeout ( void *_arg )
void callback_requ_timeout ( int32_t call_index, void *_arg )
{
ck_assert_msg(0, "No answer!");
}
@ -142,9 +148,9 @@ void callback_requ_timeout ( void *_arg )
tox_do(bootstrap_node); tox_do(Alice); tox_do(Bob); \
switch ( step ) {\
case 0: /* Alice */ printf("Alice is calling...\n");\
toxav_call(status_control.Alice.av, 0, AliceCallType, 10); step++; break;\
toxav_call(status_control.Alice.av, &status_control.Alice.call_index, 0, AliceCallType, 10); step++; break;\
case 1: /* Bob */ if (status_control.Bob.status == Ringing) { printf("Bob answers...\n");\
cur_time = time(NULL); toxav_answer(status_control.Bob.av, BobCallType); step++; } break; \
cur_time = time(NULL); toxav_answer(status_control.Bob.av, status_control.Bob.call_index, BobCallType); step++; } break; \
case 2: /* Rtp transmission */ \
if (status_control.Bob.status == InCall && status_control.Alice.status == InCall)
@ -153,7 +159,8 @@ void callback_requ_timeout ( void *_arg )
case 3: /* Wait for Both to have status ended */\
if (status_control.Alice.status == Ended && status_control.Bob.status == Ended) running = 0; break; } c_sleep(20); } } printf("\n");
START_TEST(test_AV)
START_TEST(test_AV_flows)
// int test_AV_flows()
{
long long unsigned int cur_time = time(NULL);
Tox *bootstrap_node = tox_new(0);
@ -166,7 +173,7 @@ START_TEST(test_AV)
tox_callback_friend_request(Alice, accept_friend_request, &to_compare);
uint8_t address[TOX_FRIEND_ADDRESS_SIZE];
tox_get_address(Alice, address);
int test = tox_add_friend(Bob, address, (uint8_t *)"ILIKESMALLTITS", 15);
int test = tox_add_friend(Bob, address, (uint8_t *)"gentoo", 7);
ck_assert_msg(test == 0, "Failed to add friend error code: %i", test);
@ -191,15 +198,14 @@ START_TEST(test_AV)
printf("All set after %llu seconds! Starting call...\n", time(NULL) - cur_time);
ToxAvCodecSettings muhcaps = av_DefaultSettings;
muhcaps = av_DefaultSettings;
muhcaps.video_height = muhcaps.video_width = 128;
Status status_control = {
{none, toxav_new(Alice, &muhcaps), NULL},
{none, toxav_new(Bob, &muhcaps), NULL},
{none, toxav_new(Alice, 1), NULL, -1},
{none, toxav_new(Bob, 1), NULL, -1},
};
ck_assert_msg(status_control.Alice.av || status_control.Bob.av, "Failed to create 2 toxav instances");
@ -217,8 +223,13 @@ START_TEST(test_AV)
toxav_register_callstate_callback(callback_requ_timeout, av_OnRequestTimeout, &status_control);
const int frame_size = (av_DefaultSettings.audio_sample_rate * av_DefaultSettings.audio_frame_duration / 1000);
int16_t sample_payload[frame_size];
randombytes_salsa20_random_buf(sample_payload, sizeof(int16_t) * frame_size);
uint8_t prepared_payload[RTP_PAYLOAD_SIZE];
int payload_size;
int16_t sample_payload[10] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9};
vpx_image_t *sample_image = vpx_img_alloc(NULL, VPX_IMG_FMT_I420, 128, 128, 1);
memcpy(sample_image->planes[VPX_PLANE_Y], sample_payload, 10);
@ -233,25 +244,40 @@ START_TEST(test_AV)
/*
* Call with audio only on both sides. Alice calls Bob.
*/
CALL_AND_START_LOOP(TypeAudio, TypeAudio) {
/* Both send */
toxav_send_audio(status_control.Alice.av, sample_payload, 10);
toxav_send_audio(status_control.Bob.av, sample_payload, 10);
payload_size = toxav_prepare_audio_frame(status_control.Alice.av, status_control.Alice.call_index, prepared_payload,
1000, sample_payload, frame_size);
if ( payload_size < 0 ) {
ck_assert_msg ( 0, "Failed to encode payload" );
}
toxav_send_audio(status_control.Alice.av, status_control.Alice.call_index, prepared_payload, payload_size);
payload_size = toxav_prepare_audio_frame(status_control.Bob.av, status_control.Bob.call_index, prepared_payload, 1000,
sample_payload, frame_size);
if ( payload_size < 0 ) {
ck_assert_msg ( 0, "Failed to encode payload" );
}
toxav_send_audio(status_control.Bob.av, status_control.Bob.call_index, prepared_payload, payload_size);
/* Both receive */
int16_t storage[10];
int16_t storage[frame_size];
int recved;
/* Payload from Alice */
recved = toxav_recv_audio(status_control.Alice.av, 10, storage);
/* Payload from Bob */
recved = toxav_recv_audio(status_control.Alice.av, status_control.Alice.call_index, frame_size, storage);
if ( recved ) {
/*ck_assert_msg(recved == 10 && memcmp(storage, sample_payload, 10) == 0, "Payload from Bob is invalid");*/
memset(storage, 0, 10);
}
/* Payload from Bob */
recved = toxav_recv_audio(status_control.Bob.av, 10, storage);
recved = toxav_recv_audio(status_control.Bob.av, status_control.Bob.call_index, frame_size, storage);
if ( recved ) {
/*ck_assert_msg(recved == 10 && memcmp(storage, sample_payload, 10) == 0, "Payload from Alice is invalid");*/
@ -259,11 +285,11 @@ START_TEST(test_AV)
if (time(NULL) - cur_time > 10) { /* Transmit for 10 seconds */
step++; /* This terminates the loop */
toxav_kill_transmission(status_control.Alice.av);
toxav_kill_transmission(status_control.Bob.av);
toxav_kill_transmission(status_control.Alice.av, status_control.Alice.call_index);
toxav_kill_transmission(status_control.Bob.av, status_control.Bob.call_index);
/* Call over Alice hangs up */
toxav_hangup(status_control.Alice.av);
toxav_hangup(status_control.Alice.av, status_control.Alice.call_index);
}
}
TERMINATE_SCOPE()
@ -274,38 +300,52 @@ START_TEST(test_AV)
*/
CALL_AND_START_LOOP(TypeAudio, TypeVideo) {
/* Both send */
toxav_send_audio(status_control.Alice.av, sample_payload, 10);
payload_size = toxav_prepare_audio_frame(status_control.Alice.av, status_control.Alice.call_index, prepared_payload,
1000, sample_payload, frame_size);
toxav_send_audio(status_control.Bob.av, sample_payload, 10);
toxav_send_video(status_control.Bob.av, sample_image);
if ( payload_size < 0 ) {
ck_assert_msg ( 0, "Failed to encode payload" );
}
toxav_send_audio(status_control.Alice.av, status_control.Alice.call_index, prepared_payload, payload_size);
payload_size = toxav_prepare_audio_frame(status_control.Bob.av, status_control.Bob.call_index, prepared_payload, 1000,
sample_payload, frame_size);
if ( payload_size < 0 ) {
ck_assert_msg ( 0, "Failed to encode payload" );
}
toxav_send_audio(status_control.Bob.av, status_control.Bob.call_index, prepared_payload, payload_size);
// toxav_send_video(status_control.Bob.av, status_control.Bob.call_index, sample_image);
/* Both receive */
int16_t storage[10];
int16_t storage[frame_size];
vpx_image_t *video_storage;
int recved;
/* Payload from Bob */
recved = toxav_recv_audio(status_control.Alice.av, 10, storage);
recved = toxav_recv_audio(status_control.Alice.av, status_control.Alice.call_index, frame_size, storage);
if ( recved ) {
/*ck_assert_msg(recved == 10 && memcmp(storage, sample_payload, 10) == 0, "Payload from Bob is invalid");*/
memset(storage, 0, 10);
}
/* Video payload */
toxav_recv_video(status_control.Alice.av, &video_storage);
if ( video_storage ) {
/*ck_assert_msg( memcmp(video_storage->planes[VPX_PLANE_Y], sample_payload, 10) == 0 ||
memcmp(video_storage->planes[VPX_PLANE_U], sample_payload, 10) == 0 ||
memcmp(video_storage->planes[VPX_PLANE_V], sample_payload, 10) == 0 , "Payload from Bob is invalid");*/
}
// toxav_recv_video(status_control.Alice.av, status_control.Alice.call_index, &video_storage);
//
// if ( video_storage ) {
// /*ck_assert_msg( memcmp(video_storage->planes[VPX_PLANE_Y], sample_payload, 10) == 0 ||
// memcmp(video_storage->planes[VPX_PLANE_U], sample_payload, 10) == 0 ||
// memcmp(video_storage->planes[VPX_PLANE_V], sample_payload, 10) == 0 , "Payload from Bob is invalid");*/
// vpx_img_free(video_storage);
// }
/* Payload from Alice */
recved = toxav_recv_audio(status_control.Bob.av, 10, storage);
recved = toxav_recv_audio(status_control.Bob.av, status_control.Bob.call_index, frame_size, storage);
if ( recved ) {
/*ck_assert_msg(recved == 10 && memcmp(storage, sample_payload, 10) == 0, "Payload from Alice is invalid");*/
@ -313,11 +353,11 @@ START_TEST(test_AV)
if (time(NULL) - cur_time > 10) { /* Transmit for 10 seconds */
step++; /* This terminates the loop */
toxav_kill_transmission(status_control.Alice.av);
toxav_kill_transmission(status_control.Bob.av);
toxav_kill_transmission(status_control.Alice.av, status_control.Alice.call_index);
toxav_kill_transmission(status_control.Bob.av, status_control.Bob.call_index);
/* Call over Alice hangs up */
toxav_hangup(status_control.Alice.av);
toxav_hangup(status_control.Alice.av, status_control.Alice.call_index);
}
}
TERMINATE_SCOPE()
@ -328,61 +368,78 @@ START_TEST(test_AV)
*/
CALL_AND_START_LOOP(TypeVideo, TypeVideo) {
/* Both send */
toxav_send_audio(status_control.Alice.av, sample_payload, 10);
toxav_send_video(status_control.Alice.av, sample_image);
toxav_send_audio(status_control.Bob.av, sample_payload, 10);
toxav_send_video(status_control.Bob.av, sample_image);
payload_size = toxav_prepare_audio_frame(status_control.Alice.av, status_control.Alice.call_index, prepared_payload,
1000, sample_payload, frame_size);
if ( payload_size < 0 ) {
ck_assert_msg ( 0, "Failed to encode payload" );
}
toxav_send_audio(status_control.Alice.av, status_control.Alice.call_index, prepared_payload, payload_size);
payload_size = toxav_prepare_audio_frame(status_control.Bob.av, status_control.Bob.call_index, prepared_payload, 1000,
sample_payload, frame_size);
if ( payload_size < 0 ) {
ck_assert_msg ( 0, "Failed to encode payload" );
}
toxav_send_audio(status_control.Bob.av, status_control.Bob.call_index, prepared_payload, payload_size);
// toxav_send_video(status_control.Alice.av, status_control.Alice.call_index, sample_image);
// toxav_send_video(status_control.Bob.av, status_control.Bob.call_index, sample_image);
/* Both receive */
int16_t storage[10];
int16_t storage[frame_size];
vpx_image_t *video_storage;
int recved;
/* Payload from Bob */
recved = toxav_recv_audio(status_control.Alice.av, 10, storage);
recved = toxav_recv_audio(status_control.Alice.av, status_control.Alice.call_index, frame_size, storage);
if ( recved ) {
/*ck_assert_msg(recved == 10 && memcmp(storage, sample_payload, 10) == 0, "Payload from Bob is invalid");*/
memset(storage, 0, 10);
}
/* Video payload */
toxav_recv_video(status_control.Alice.av, &video_storage);
if ( video_storage ) {
/*ck_assert_msg( memcmp(video_storage->planes[VPX_PLANE_Y], sample_payload, 10) == 0 ||
memcmp(video_storage->planes[VPX_PLANE_U], sample_payload, 10) == 0 ||
memcmp(video_storage->planes[VPX_PLANE_V], sample_payload, 10) == 0 , "Payload from Bob is invalid");*/
}
// toxav_recv_video(status_control.Alice.av, status_control.Alice.call_index, &video_storage);
//
// if ( video_storage ) {
// /*ck_assert_msg( memcmp(video_storage->planes[VPX_PLANE_Y], sample_payload, 10) == 0 ||
// memcmp(video_storage->planes[VPX_PLANE_U], sample_payload, 10) == 0 ||
// memcmp(video_storage->planes[VPX_PLANE_V], sample_payload, 10) == 0 , "Payload from Bob is invalid");*/
// vpx_img_free(video_storage);
// }
/* Payload from Alice */
recved = toxav_recv_audio(status_control.Bob.av, 10, storage);
recved = toxav_recv_audio(status_control.Bob.av, status_control.Bob.call_index, frame_size, storage);
if ( recved ) {
/*ck_assert_msg(recved == 10 && memcmp(storage, sample_payload, 10) == 0, "Payload from Alice is invalid");*/
}
/* Video payload */
toxav_recv_video(status_control.Bob.av, &video_storage);
if ( video_storage ) {
/*ck_assert_msg( memcmp(video_storage->planes[VPX_PLANE_Y], sample_payload, 10) == 0 ||
memcmp(video_storage->planes[VPX_PLANE_U], sample_payload, 10) == 0 ||
memcmp(video_storage->planes[VPX_PLANE_V], sample_payload, 10) == 0 , "Payload from Alice is invalid");*/
}
// toxav_recv_video(status_control.Bob.av, status_control.Bob.call_index, &video_storage);
//
// if ( video_storage ) {
// /*ck_assert_msg( memcmp(video_storage->planes[VPX_PLANE_Y], sample_payload, 10) == 0 ||
// memcmp(video_storage->planes[VPX_PLANE_U], sample_payload, 10) == 0 ||
// memcmp(video_storage->planes[VPX_PLANE_V], sample_payload, 10) == 0 , "Payload from Alice is invalid");*/
// vpx_img_free(video_storage);
// }
if (time(NULL) - cur_time > 10) { /* Transmit for 10 seconds */
step++; /* This terminates the loop */
toxav_kill_transmission(status_control.Alice.av);
toxav_kill_transmission(status_control.Bob.av);
toxav_kill_transmission(status_control.Alice.av, status_control.Alice.call_index);
toxav_kill_transmission(status_control.Bob.av, status_control.Bob.call_index);
/* Call over Alice hangs up */
toxav_hangup(status_control.Alice.av);
toxav_hangup(status_control.Alice.av, status_control.Alice.call_index);
}
}
TERMINATE_SCOPE()
@ -408,15 +465,14 @@ START_TEST(test_AV)
switch ( step ) {
case 0: /* Alice */
printf("Alice is calling...\n");
toxav_call(status_control.Alice.av, 0, TypeAudio, 10);
toxav_call(status_control.Alice.av, &status_control.Alice.call_index, 0, TypeAudio, 10);
step++;
break;
\
case 1: /* Bob */
if (status_control.Bob.status == Ringing) {
printf("Bob rejects...\n");
toxav_reject(status_control.Bob.av, "Who likes D's anyway?");
toxav_reject(status_control.Bob.av, status_control.Bob.call_index, "Who likes D's anyway?");
step++;
}
@ -450,7 +506,7 @@ START_TEST(test_AV)
switch ( step ) {
case 0: /* Alice */
printf("Alice is calling...\n");
toxav_call(status_control.Alice.av, 0, TypeAudio, 10);
toxav_call(status_control.Alice.av, &status_control.Alice.call_index, 0, TypeAudio, 10);
step++;
break;
\
@ -458,14 +514,14 @@ START_TEST(test_AV)
case 1: /* Alice again */
if (status_control.Bob.status == Ringing) {
printf("Alice cancels...\n");
toxav_cancel(status_control.Alice.av, 0, "Who likes D's anyway?");
toxav_cancel(status_control.Alice.av, status_control.Alice.call_index, 0, "Who likes D's anyway?");
step++;
}
break;
case 2: /* Wait for Both to have status ended */
if (status_control.Alice.status == Ended && status_control.Bob.status == Cancel) running = 0;
if (status_control.Bob.status == Cancel) running = 0;
break;
}
@ -484,15 +540,19 @@ END_TEST
/*************************************************************************************************/
/*************************************************************************************************/
/*************************************************************************************************/
Suite *tox_suite(void)
{
Suite *s = suite_create("ToxAV");
TCase *tc_av = tcase_create("A/V");
tcase_add_test(tc_av, test_AV);
tcase_set_timeout(tc_av, 100); /* Timeout on 100 too much? */
suite_add_tcase(s, tc_av);
TCase *tc_av_flows = tcase_create("AV_flows");
tcase_add_test(tc_av_flows, test_AV_flows);
tcase_set_timeout(tc_av_flows, 200);
suite_add_tcase(s, tc_av_flows);
return s;
}
@ -509,4 +569,6 @@ int main(int argc, char *argv[])
srunner_free(test_runner);
return number_failed;
// return test_AV_flows();
}

View File

@ -0,0 +1,406 @@
#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 "../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
typedef enum _CallStatus {
none,
InCall,
Ringing,
Ended,
Rejected,
Cancel
} CallStatus;
typedef struct _Party {
CallStatus status;
ToxAv *av;
int id;
} Party;
typedef struct _ACall {
pthread_t tid;
Party Caller;
Party Callee;
} ACall;
typedef struct _Status {
ACall calls[3]; /* Make 3 calls for this test */
} Status;
void accept_friend_request(Tox *m, uint8_t *public_key, uint8_t *data, uint16_t length, void *userdata)
{
if (length == 7 && memcmp("gentoo", data, 7) == 0) {
tox_add_friend_norequest(m, public_key);
}
}
/******************************************************************************/
void callback_recv_invite ( int32_t call_index, void *_arg )
{
/*
Status *cast = _arg;
cast->calls[call_index].Callee.status = Ringing;*/
}
void callback_recv_ringing ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
cast->calls[call_index].Caller.status = Ringing;
}
void callback_recv_starting ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
cast->calls[call_index].Caller.status = InCall;
}
void callback_recv_ending ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
cast->calls[call_index].Caller.status = Ended;
}
void callback_recv_error ( int32_t call_index, void *_arg )
{
ck_assert_msg(0, "AV internal error");
}
void callback_call_started ( int32_t call_index, void *_arg )
{
/*
Status *cast = _arg;
cast->calls[call_index].Callee.status = InCall;*/
}
void callback_call_canceled ( int32_t call_index, void *_arg )
{
/*
Status *cast = _arg;
cast->calls[call_index].Callee.status = Cancel;*/
}
void callback_call_rejected ( int32_t call_index, void *_arg )
{
Status *cast = _arg;
cast->calls[call_index].Caller.status = Rejected;
}
void callback_call_ended ( int32_t call_index, void *_arg )
{
/*
Status *cast = _arg;
cast->calls[call_index].Callee.status = Ended;*/
}
void callback_requ_timeout ( int32_t call_index, void *_arg )
{
ck_assert_msg(0, "No answer!");
}
/*************************************************************************************************/
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, running = 1;
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_salsa20_random_buf(sample_payload, sizeof(int16_t) * frame_size);
uint8_t prepared_payload[RTP_PAYLOAD_SIZE];
/* NOTE: CALLEE WILL ALWAHYS NEED CALL_IDX == 0 */
while (running) {
switch ( step ) {
case 0: /* CALLER */
toxav_call(this_call->Caller.av, &call_idx, this_call->Callee.id, TypeVideo, 10);
call_print(call_idx, "Calling ...");
step++;
break;
case 1: /* CALLEE */
if (this_call->Caller.status == Ringing) {
call_print(call_idx, "Callee answers ...");
toxav_answer(this_call->Callee.av, 0, TypeVideo);
step++;
start = time(NULL);
}
break;
case 2: /* Rtp transmission */
if (this_call->Caller.status == InCall) { /* I think this is okay */
call_print(call_idx, "Sending rtp ...");
ToxAvCodecSettings cast = av_DefaultSettings;
c_sleep(1000); /* We have race condition here */
toxav_prepare_transmission(this_call->Callee.av, 0, &cast, 1);
toxav_prepare_transmission(this_call->Caller.av, call_idx, &cast, 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;
/* Payload from CALLER */
recved = toxav_recv_audio(this_call->Callee.av, 0, frame_size, storage);
if ( recved ) {
/*ck_assert_msg(recved == 10 && memcmp(storage, sample_payload, 10) == 0, "Payload from CALLER is invalid");*/
}
/* Payload from CALLEE */
recved = toxav_recv_audio(this_call->Caller.av, call_idx, frame_size, storage);
if ( recved ) {
/*ck_assert_msg(recved == 10 && memcmp(storage, sample_payload, 10) == 0, "Payload from CALLEE is invalid");*/
}
c_sleep(20);
}
step++; /* This terminates the loop */
toxav_kill_transmission(this_call->Callee.av, 0);
toxav_kill_transmission(this_call->Caller.av, call_idx);
/* Call over CALLER hangs up */
toxav_hangup(this_call->Caller.av, call_idx);
call_print(call_idx, "Hanging up ...");
}
break;
case 3: /* Wait for Both to have status ended */
if (this_call->Caller.status == Ended) {
c_sleep(1000); /* race condition */
this_call->Callee.status == Ended;
running = 0;
}
break;
}
c_sleep(20);
}
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);
Tox *caller = tox_new(0);
Tox *callees[3] = {
tox_new(0),
tox_new(0),
tox_new(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_FRIEND_ADDRESS_SIZE];
tox_get_address(callees[i], address);
int test = tox_add_friend(caller, address, (uint8_t *)"gentoo", 7);
ck_assert_msg( test == i, "Failed to add friend error code: %i", test);
}
uint8_t off = 1;
while (1) {
tox_do(bootstrap_node);
tox_do(caller);
for (i = 0; i < 3; i ++) {
tox_do(callees[i]);
}
if (tox_isconnected(bootstrap_node) &&
tox_isconnected(caller) &&
tox_isconnected(callees[0]) &&
tox_isconnected(callees[1]) &&
tox_isconnected(callees[2]) && off) {
printf("Toxes are online, took %llu seconds\n", time(NULL) - cur_time);
off = 0;
}
if (tox_get_friend_connection_status(caller, 0) == 1 &&
tox_get_friend_connection_status(caller, 1) == 1 &&
tox_get_friend_connection_status(caller, 2) == 1 )
break;
c_sleep(20);
}
printf("All set after %llu seconds! Starting call...\n", time(NULL) - cur_time);
ToxAv *uniqcallerav = toxav_new(caller, 3);
Status status_control = {
0,
{none, uniqcallerav, 0},
{none, toxav_new(callees[0], 1), 0},
0,
{none, uniqcallerav},
{none, toxav_new(callees[1], 1), 1},
0,
{none, uniqcallerav},
{none, toxav_new(callees[2], 1), 2}
};
toxav_register_callstate_callback(callback_call_started, av_OnStart, &status_control);
toxav_register_callstate_callback(callback_call_canceled, av_OnCancel, &status_control);
toxav_register_callstate_callback(callback_call_rejected, av_OnReject, &status_control);
toxav_register_callstate_callback(callback_call_ended, av_OnEnd, &status_control);
toxav_register_callstate_callback(callback_recv_invite, av_OnInvite, &status_control);
toxav_register_callstate_callback(callback_recv_ringing, av_OnRinging, &status_control);
toxav_register_callstate_callback(callback_recv_starting, av_OnStarting, &status_control);
toxav_register_callstate_callback(callback_recv_ending, av_OnEnding, &status_control);
toxav_register_callstate_callback(callback_recv_error, av_OnError, &status_control);
toxav_register_callstate_callback(callback_requ_timeout, av_OnRequestTimeout, &status_control);
for ( i = 0; i < 3; i++ )
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 (
status_control.calls[0].Callee.status != Ended && status_control.calls[0].Caller.status != Ended &&
status_control.calls[1].Callee.status != Ended && status_control.calls[1].Caller.status != Ended &&
status_control.calls[2].Callee.status != Ended && status_control.calls[2].Caller.status != Ended
) {
tox_do(bootstrap_node);
tox_do(caller);
tox_do(callees[0]);
tox_do(callees[1]);
tox_do(callees[2]);
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;
}

View File

@ -31,9 +31,11 @@ BUILD_DHT_BOOTSTRAP_DAEMON="no"
BUILD_NTOX="no"
BUILD_TESTS="yes"
BUILD_AV="yes"
BUILD_PHONE="no"
BUILD_TESTING="yes"
LOGGING="no"
LOGGING_OUTNAM="libtoxcore.log"
NCURSES_FOUND="no"
LIBCONFIG_FOUND="no"
LIBCHECK_FOUND="no"
@ -80,26 +82,63 @@ AC_ARG_ENABLE([randombytes-stir],
]
)
PKG_PROG_PKG_CONFIG
AC_ARG_ENABLE([phone],
[AC_HELP_STRING([--enable-phone], [build test phone (default: auto)]) ],
AC_ARG_ENABLE([logging],
[AC_HELP_STRING([--enable-logging], [enable logging (default: auto)]) ],
[
if test "x$enableval" = "xno"; then
BUILD_PHONE="no"
elif test "x$enableval" = "xyes"; then
BUILD_PHONE="yes"
if test "x$enableval" = "xyes"; then
LOGGING="yes"
AC_DEFINE([LOGGING], [], [If logging enabled])
AC_DEFINE([LOGGER_LEVEL], [DEBUG], [LoggerLevel value])
AC_DEFINE_UNQUOTED([LOGGER_OUTPUT_FILE], ["$LOGGING_OUTNAM"], [Output of logger])
fi
]
)
AC_ARG_WITH(logger-level,
AC_HELP_STRING([--with-logger-level=LEVEL],
[Logger levels: INFO; DEBUG; WARNING; ERROR ]),
[
if test "x$LOGGING" = "xno"; then
AC_MSG_WARN([Logging disabled!])
else
if test "x$withval" = "xINFO"; then
AC_DEFINE([LOGGER_LEVEL], [INFO], [LoggerLevel value])
elif test "x$withval" = "xDEBUG"; then
AC_DEFINE([LOGGER_LEVEL], [DEBUG], [LoggerLevel value])
elif test "x$withval" = "xWARNING"; then
AC_DEFINE([LOGGER_LEVEL], [WARNING], [LoggerLevel value])
elif test "x$withval" = "xERROR"; then
AC_DEFINE([LOGGER_LEVEL], [ERROR], [LoggerLevel value])
else
AC_MSG_WARN([Invalid logger level: $withval. Using default 'DEBUG'])
fi
fi
]
)
AC_ARG_WITH(logger-path,
AC_HELP_STRING([--with-logger-path=DIR],
[Path of logger output]),
[
if test "x$LOGGING" = "xno"; then
AC_MSG_WARN([Logging disabled!])
else
AC_DEFINE_UNQUOTED([LOGGER_OUTPUT_FILE], ["$withval""/""$LOGGING_OUTNAM"], [Output of logger])
fi
]
)
PKG_PROG_PKG_CONFIG
AC_ARG_ENABLE([av],
[AC_HELP_STRING([--disable-av], [build AV support libraries (default: auto)]) ],
[
if test "x$enableval" = "xno"; then
BUILD_AV="no"
BUILD_PHONE="no"
elif test "x$enableval" = "xyes"; then
BUILD_AV="yes"
fi
@ -421,94 +460,16 @@ if test "x$BUILD_AV" = "xyes"; then
[
AC_MSG_WARN([disabling AV support: required pthread library not found])
BUILD_AV="no"
BUILD_PHONE="no"
]
)
fi
if test "x$BUILD_PHONE" = "xyes"; then
PKG_CHECK_MODULES([AVFORMAT], [libavformat],
[],
[
AC_MSG_WARN([disabling phone $AVFORMAT_PKG_ERRORS])
BUILD_PHONE="no"
]
)
fi
if test "x$BUILD_PHONE" = "xyes"; then
PKG_CHECK_MODULES([AVCODEC], [libavcodec],
[],
[
AC_MSG_WARN([disabling phone $AVCODEC_PKG_ERRORS])
BUILD_PHONE="no"
]
)
fi
if test "x$BUILD_PHONE" = "xyes"; then
PKG_CHECK_MODULES([AVUTIL], [libavutil],
[],
[
AC_MSG_WARN([disabling phone $AVUTIL_PKG_ERRORS])
BUILD_PHONE="no"
]
)
fi
if test "x$BUILD_PHONE" = "xyes"; then
PKG_CHECK_MODULES([AVDEVICE], [libavdevice],
[],
[
AC_MSG_WARN([disabling phone $AVDEVICE_PKG_ERRORS])
BUILD_PHONE="no"
]
)
fi
if test "x$BUILD_PHONE" = "xyes"; then
PKG_CHECK_MODULES([SWSCALE], [libswscale],
[],
[
AC_MSG_WARN([disabling phone $SWSCALE_PKG_ERRORS])
BUILD_PHONE="no"
]
)
fi
if test "x$BUILD_PHONE" = "xyes"; then
PKG_CHECK_MODULES([SDL], [sdl],
[],
[
AC_MSG_WARN([disabling phone $SDL_PKG_ERRORS])
BUILD_PHONE="no"
]
)
fi
if test "x$BUILD_PHONE" = "xyes"; then
PKG_CHECK_MODULES([OPENAL], [openal],
[],
[
AC_MSG_WARN([disabling phone $OPENAL_PKG_ERRORS])
BUILD_PHONE="no"
]
)
fi
#If all dependencies are here add support video define for phone.c
if test "x$BUILD_PHONE" == "xyes"; then
#Set FFMpeg define
AC_DEFINE([TOX_FFMPEG], [1], [Support video])
fi
if test "x$BUILD_AV" = "xyes"; then
PKG_CHECK_MODULES([OPUS], [opus],
[],
[
AC_MSG_WARN([disabling AV support $OPUS_PKG_ERRORS])
BUILD_AV="no"
BUILD_PHONE="no"
]
)
fi
@ -519,7 +480,6 @@ if test "x$BUILD_AV" = "xyes"; then
[
AC_MSG_WARN([disabling AV support $VPX_PKG_ERRORS])
BUILD_AV="no"
BUILD_PHONE="no"
]
)
fi
@ -693,7 +653,6 @@ AM_CONDITIONAL(BUILD_DHT_BOOTSTRAP_DAEMON, test "x$BUILD_DHT_BOOTSTRAP_DAEMON" =
AM_CONDITIONAL(BUILD_TESTS, test "x$BUILD_TESTS" = "xyes")
AM_CONDITIONAL(BUILD_NTOX, test "x$BUILD_NTOX" = "xyes")
AM_CONDITIONAL(BUILD_AV, test "x$BUILD_AV" = "xyes")
AM_CONDITIONAL(BUILD_PHONE, test "x$BUILD_PHONE" = "xyes")
AM_CONDITIONAL(BUILD_TESTING, test "x$BUILD_TESTING" = "xyes")
AM_CONDITIONAL(WIN32, test "x$WIN32" = "xyes")

View File

@ -34,45 +34,4 @@ libtoxav_la_LIBADD = libtoxcore.la \
$(PTHREAD_LIBS) \
$(AV_LIBS)
endif
if BUILD_PHONE
noinst_PROGRAMS += phone
phone_SOURCES = ../toxav/phone.c
phone_CFLAGS = -I../toxcore \
-I../toxav \
$(AVFORMAT_CFLAGS) \
$(AVCODEC_CFLAGS) \
$(AVUTIL_CFLAGS) \
$(AVDEVICE_CFLAGS) \
$(SWSCALE_CFLAGS) \
$(SDL_CFLAGS) \
$(OPENAL_CFLAGS)
phone_LDADD = libtoxav.la \
libtoxcore.la \
$(AVFORMAT_LIBS) \
$(AVCODEC_LIBS) \
$(AVUTIL_LIBS) \
$(AVDEVICE_LIBS) \
$(SWSCALE_LIBS) \
$(SDL_LIBS) \
$(OPENAL_LIBS) \
$(OPUS_LIBS) \
$(VPX_LIBS)\
$(PTHREAD_LIBS)\
$(NACL_OBJECTS) \
$(NACL_LIBS)
endif
endif

View File

@ -26,6 +26,8 @@
#include "config.h"
#endif /* HAVE_CONFIG_H */
#include "../toxcore/logger.h"
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
@ -34,40 +36,31 @@
#include "rtp.h"
#include "media.h"
struct jitter_buffer {
RTPMessage **queue;
uint16_t capacity;
uint16_t size;
uint16_t front;
uint16_t rear;
uint8_t queue_ready;
uint16_t current_id;
uint32_t current_ts;
uint8_t id_set;
};
int empty_queue(struct jitter_buffer *q)
int empty_queue(JitterBuffer *q)
{
while (q->size > 0) {
rtp_free_msg(NULL, q->queue[q->front]);
q->front++;
if (q->front == q->capacity)
q->front = 0;
q->size--;
}
q->id_set = 0;
q->queue_ready = 0;
return 0;
}
struct jitter_buffer *create_queue(int capacity)
JitterBuffer *create_queue(int capacity)
{
struct jitter_buffer *q;
q = calloc(sizeof(struct jitter_buffer), 1);
q->queue = calloc(sizeof(RTPMessage *), capacity);
JitterBuffer *q;
if ( !(q = calloc(sizeof(JitterBuffer), 1)) ) return NULL;
if (!(q->queue = calloc(sizeof(RTPMessage *), capacity))) return NULL;
q->size = 0;
q->capacity = capacity;
q->front = 0;
@ -79,17 +72,17 @@ struct jitter_buffer *create_queue(int capacity)
return q;
}
/* returns 1 if 'a' has a higher sequence number than 'b' */
uint8_t sequence_number_older(uint16_t sn_a, uint16_t sn_b, uint32_t ts_a, uint32_t ts_b)
void terminate_queue(JitterBuffer *q)
{
/* TODO: There is already this kind of function in toxrtp.c.
* Maybe merge?
*/
return (sn_a > sn_b || ts_a > ts_b);
empty_queue(q);
free(q->queue);
free(q);
}
#define sequnum_older(sn_a, sn_b, ts_a, ts_b) (sn_a > sn_b || ts_a > ts_b)
/* success is 0 when there is nothing to dequeue, 1 when there's a good packet, 2 when there's a lost packet */
RTPMessage *dequeue(struct jitter_buffer *q, int *success)
RTPMessage *dequeue(JitterBuffer *q, int *success)
{
if (q->size == 0 || q->queue_ready == 0) { /* Empty queue */
q->queue_ready = 0;
@ -112,14 +105,13 @@ RTPMessage *dequeue(struct jitter_buffer *q, int *success)
q->current_id = next_id;
q->current_ts = next_ts;
} else {
if (sequence_number_older(next_id, q->current_id, next_ts, q->current_ts)) {
/*printf("nextid: %d current: %d\n", next_id, q->current_id);*/
if (sequnum_older(next_id, q->current_id, next_ts, q->current_ts)) {
LOGGER_DEBUG("nextid: %d current: %d\n", next_id, q->current_id);
q->current_id = (q->current_id + 1) % MAX_SEQU_NUM;
*success = 2; /* tell the decoder the packet is lost */
return NULL;
} else {
/* packet too old */
/*printf("packet too old\n");*/
LOGGER_DEBUG("Packet too old");
*success = 0;
return NULL;
}
@ -139,12 +131,11 @@ RTPMessage *dequeue(struct jitter_buffer *q, int *success)
}
int queue(struct jitter_buffer *q, RTPMessage *pk)
void queue(JitterBuffer *q, RTPMessage *pk)
{
if (q->size == q->capacity) { /* Full, empty queue */
LOGGER_DEBUG("Queue full s(%d) c(%d), emptying...", q->size, q->capacity);
empty_queue(q);
/*rtp_free_msg(NULL, pk);*/
return 0;
}
if (q->size > 8)
@ -169,13 +160,13 @@ int queue(struct jitter_buffer *q, RTPMessage *pk)
if (b < 0)
b += q->capacity;
if (sequence_number_older(q->queue[b]->header->sequnum, q->queue[a]->header->sequnum,
q->queue[b]->header->timestamp, q->queue[a]->header->timestamp)) {
if (sequnum_older(q->queue[b]->header->sequnum, q->queue[a]->header->sequnum,
q->queue[b]->header->timestamp, q->queue[a]->header->timestamp)) {
RTPMessage *temp;
temp = q->queue[a];
q->queue[a] = q->queue[b];
q->queue[b] = temp;
/*printf("had to swap\n");*/
LOGGER_DEBUG("Had to swap");
} else {
break;
}
@ -185,19 +176,15 @@ int queue(struct jitter_buffer *q, RTPMessage *pk)
if (a < 0)
a += q->capacity;
}
if (pk)
return 1;
return 0;
}
int init_video_decoder(CodecState *cs)
{
if (vpx_codec_dec_init_ver(&cs->v_decoder, VIDEO_CODEC_DECODER_INTERFACE, NULL, 0,
VPX_DECODER_ABI_VERSION) != VPX_CODEC_OK) {
/*fprintf(stderr, "Init video_decoder failed!\n");*/
int rc = vpx_codec_dec_init_ver(&cs->v_decoder, VIDEO_CODEC_DECODER_INTERFACE, NULL, 0, VPX_DECODER_ABI_VERSION);
if ( rc != VPX_CODEC_OK) {
LOGGER_ERROR("Init video_decoder failed: %s", vpx_codec_err_to_string(rc));
return -1;
}
@ -210,7 +197,7 @@ int init_audio_decoder(CodecState *cs, uint32_t audio_channels)
cs->audio_decoder = opus_decoder_create(cs->audio_sample_rate, audio_channels, &rc );
if ( rc != OPUS_OK ) {
/*fprintf(stderr, "Error while starting audio decoder!\n");*/
LOGGER_ERROR("Error while starting audio decoder: %s", opus_strerror(rc));
return -1;
}
@ -221,10 +208,10 @@ int init_audio_decoder(CodecState *cs, uint32_t audio_channels)
int init_video_encoder(CodecState *cs, uint16_t width, uint16_t height, uint32_t video_bitrate)
{
vpx_codec_enc_cfg_t cfg;
int res = vpx_codec_enc_config_default(VIDEO_CODEC_ENCODER_INTERFACE, &cfg, 0);
int rc = vpx_codec_enc_config_default(VIDEO_CODEC_ENCODER_INTERFACE, &cfg, 0);
if (res) {
/*fprintf(stderr, "Failed to get config: %s\n", vpx_codec_err_to_string(res));*/
if (rc) {
LOGGER_ERROR("Failed to get config: %s", vpx_codec_err_to_string(rc));
return -1;
}
@ -232,9 +219,10 @@ int init_video_encoder(CodecState *cs, uint16_t width, uint16_t height, uint32_t
cfg.g_w = width;
cfg.g_h = height;
if (vpx_codec_enc_init_ver(&cs->v_encoder, VIDEO_CODEC_ENCODER_INTERFACE, &cfg, 0,
VPX_ENCODER_ABI_VERSION) != VPX_CODEC_OK) {
/*fprintf(stderr, "Failed to initialize encoder\n");*/
rc = vpx_codec_enc_init_ver(&cs->v_encoder, VIDEO_CODEC_ENCODER_INTERFACE, &cfg, 0, VPX_ENCODER_ABI_VERSION);
if ( rc != VPX_CODEC_OK) {
LOGGER_ERROR("Failed to initialize encoder: %s", vpx_codec_err_to_string(rc));
return -1;
}
@ -243,13 +231,30 @@ int init_video_encoder(CodecState *cs, uint16_t width, uint16_t height, uint32_t
int init_audio_encoder(CodecState *cs, uint32_t audio_channels)
{
int err = OPUS_OK;
cs->audio_encoder = opus_encoder_create(cs->audio_sample_rate, audio_channels, OPUS_APPLICATION_AUDIO, &err);
err = opus_encoder_ctl(cs->audio_encoder, OPUS_SET_BITRATE(cs->audio_bitrate));
err = opus_encoder_ctl(cs->audio_encoder, OPUS_SET_COMPLEXITY(10));
int rc = OPUS_OK;
cs->audio_encoder = opus_encoder_create(cs->audio_sample_rate, audio_channels, OPUS_APPLICATION_AUDIO, &rc);
if ( rc != OPUS_OK ) {
LOGGER_ERROR("Error while starting audio encoder: %s", opus_strerror(rc));
return -1;
}
rc = opus_encoder_ctl(cs->audio_encoder, OPUS_SET_BITRATE(cs->audio_bitrate));
if ( rc != OPUS_OK ) {
LOGGER_ERROR("Error while setting encoder ctl: %s", opus_strerror(rc));
return -1;
}
rc = opus_encoder_ctl(cs->audio_encoder, OPUS_SET_COMPLEXITY(10));
if ( rc != OPUS_OK ) {
LOGGER_ERROR("Error while setting encoder ctl: %s", opus_strerror(rc));
return -1;
}
return err == OPUS_OK ? 0 : -1;
return 0;
}
@ -262,7 +267,8 @@ CodecState *codec_init_session ( uint32_t audio_bitrate,
uint32_t video_bitrate )
{
CodecState *retu = calloc(sizeof(CodecState), 1);
assert(retu);
if (!retu) return NULL;
retu->audio_bitrate = audio_bitrate;
retu->audio_sample_rate = audio_sample_rate;
@ -271,8 +277,7 @@ CodecState *codec_init_session ( uint32_t audio_bitrate,
if (!video_width || !video_height) { /* Disable video */
/*video_width = 320;
video_height = 240; */
}
else {
} else {
retu->capabilities |= ( 0 == init_video_encoder(retu, video_width, video_height, video_bitrate) ) ? v_encoding : 0;
retu->capabilities |= ( 0 == init_video_decoder(retu) ) ? v_decoding : 0;
}
@ -280,24 +285,29 @@ CodecState *codec_init_session ( uint32_t audio_bitrate,
retu->capabilities |= ( 0 == init_audio_encoder(retu, audio_channels) ) ? a_encoding : 0;
retu->capabilities |= ( 0 == init_audio_decoder(retu, audio_channels) ) ? a_decoding : 0;
if ( retu->capabilities == 0 ) { /* everything failed */
free (retu);
return NULL;
}
return retu;
}
void codec_terminate_session ( CodecState *cs )
{
if ( cs->audio_encoder )
if ( cs->audio_encoder )
opus_encoder_destroy(cs->audio_encoder);
if ( cs->audio_decoder )
opus_decoder_destroy(cs->audio_decoder);
/* TODO: Terminate video
* Do what???
if ( cs->audio_decoder )
opus_decoder_destroy(cs->audio_decoder);
/* TODO: Terminate video
* Do what?
*/
if ( cs->capabilities & v_decoding )
vpx_codec_destroy(&cs->v_decoder);
if ( cs->capabilities & v_encoding )
vpx_codec_destroy(&cs->v_encoder);
}

View File

@ -38,8 +38,7 @@
/* Audio encoding/decoding */
#include <opus.h>
typedef enum _Capabilities
{
typedef enum _Capabilities {
none,
a_encoding = 1 << 0,
a_decoding = 1 << 1,
@ -65,13 +64,26 @@ typedef struct _CodecState {
OpusDecoder *audio_decoder;
uint64_t capabilities; /* supports*/
} CodecState;
struct jitter_buffer *create_queue(int capacity);
int queue(struct jitter_buffer *q, RTPMessage *pk);
RTPMessage *dequeue(struct jitter_buffer *q, int *success);
typedef struct _JitterBuffer {
RTPMessage **queue;
uint16_t capacity;
uint16_t size;
uint16_t front;
uint16_t rear;
uint8_t queue_ready;
uint16_t current_id;
uint32_t current_ts;
uint8_t id_set;
} JitterBuffer;
JitterBuffer *create_queue(int capacity);
void terminate_queue(JitterBuffer *q);
void queue(JitterBuffer *q, RTPMessage *pk);
RTPMessage *dequeue(JitterBuffer *q, int *success);
CodecState *codec_init_session ( uint32_t audio_bitrate,

947
toxav/msi.c Executable file → Normal file

File diff suppressed because it is too large Load Diff

67
toxav/msi.h Executable file → Normal file
View File

@ -33,7 +33,7 @@
#define CALL_ID_LEN 12
typedef void ( *MSICallback ) ( void *arg );
typedef void ( *MSICallback ) ( int32_t, void *arg );
/**
@ -62,32 +62,33 @@ typedef enum {
* @brief The call struct.
*
*/
typedef struct _MSICall { /* Call info structure */
MSICallState state;
typedef struct _MSICall { /* Call info structure */
struct _MSISession *session; /* Session pointer */
MSICallType type_local; /* Type of payload user is ending */
MSICallType *type_peer; /* Type of payload others are sending */
MSICallState state;
uint8_t id[CALL_ID_LEN]; /* Random value identifying the call */
MSICallType type_local; /* Type of payload user is ending */
MSICallType *type_peer; /* Type of payload others are sending */
uint8_t *key_local; /* The key for encryption */
uint8_t *key_peer; /* The key for decryption */
uint8_t id[CALL_ID_LEN]; /* Random value identifying the call */
uint8_t *nonce_local; /* Local nonce */
uint8_t *nonce_peer; /* Peer nonce */
uint8_t *key_local; /* The key for encryption */
uint8_t *key_peer; /* The key for decryption */
int ringing_tout_ms; /* Ringing timeout in ms */
uint8_t *nonce_local; /* Local nonce */
uint8_t *nonce_peer; /* Peer nonce */
int request_timer_id; /* Timer id for outgoing request/action */
int ringing_timer_id; /* Timer id for ringing timeout */
int ringing_tout_ms; /* Ringing timeout in ms */
pthread_mutex_t mutex; /* It's to be assumed that call will have
* separate thread so add mutex
*/
uint32_t *peers;
uint16_t peer_count;
int request_timer_id; /* Timer id for outgoing request/action */
int ringing_timer_id; /* Timer id for ringing timeout */
pthread_mutex_t mutex; /* */
uint32_t *peers;
uint16_t peer_count;
int32_t call_idx; /* Index of this call in MSISession */
} MSICall;
@ -97,8 +98,9 @@ typedef struct _MSICall { /* Call info structure */
*/
typedef struct _MSISession {
/* Call handler */
struct _MSICall *call;
/* Call handlers */
struct _MSICall **calls;
int32_t max_calls;
int last_error_id; /* Determine the last error */
const uint8_t *last_error_str;
@ -109,7 +111,7 @@ typedef struct _MSISession {
uint32_t frequ;
uint32_t call_timeout; /* Time of the timeout for some action to end; 0 if infinite */
pthread_mutex_t mutex;
} MSISession;
@ -144,17 +146,18 @@ typedef enum {
* @param id The id.
* @return void
*/
void msi_register_callback(MSICallback callback, MSICallbackID id, void* userdata);
void msi_register_callback(MSICallback callback, MSICallbackID id, void *userdata);
/**
* @brief Start the control session.
*
* @param messenger Tox* object.
* @param max_calls Amount of calls possible
* @return MSISession* The created session.
* @retval NULL Error occurred.
*/
MSISession *msi_init_session ( Messenger *messenger );
MSISession *msi_init_session ( Messenger *messenger, int32_t max_calls );
/**
@ -170,62 +173,68 @@ int msi_terminate_session ( MSISession *session );
* @brief Send invite request to friend_id.
*
* @param session Control session.
* @param call_index Set to new call index.
* @param call_type Type of the call. Audio or Video(both audio and video)
* @param rngsec Ringing timeout.
* @param friend_id The friend.
* @return int
*/
int msi_invite ( MSISession *session, MSICallType call_type, uint32_t rngsec, uint32_t friend_id );
int msi_invite ( MSISession *session, int32_t *call_index, MSICallType call_type, uint32_t rngsec, uint32_t friend_id );
/**
* @brief Hangup active call.
*
* @param session Control session.
* @param call_index To which call is this action handled.
* @return int
* @retval -1 Error occurred.
* @retval 0 Success.
*/
int msi_hangup ( MSISession *session );
int msi_hangup ( MSISession *session, int32_t call_index );
/**
* @brief Answer active call request.
*
* @param session Control session.
* @param call_index To which call is this action handled.
* @param call_type Answer with Audio or Video(both).
* @return int
*/
int msi_answer ( MSISession *session, MSICallType call_type );
int msi_answer ( MSISession *session, int32_t call_index, MSICallType call_type );
/**
* @brief Cancel request.
*
* @param session Control session.
* @param call_index To which call is this action handled.
* @param peer To which peer.
* @param reason Set optional reason header. Pass NULL if none.
* @return int
*/
int msi_cancel ( MSISession* session, uint32_t peer, const char* reason );
int msi_cancel ( MSISession *session, int32_t call_index, uint32_t peer, const char *reason );
/**
* @brief Reject request.
*
* @param session Control session.
* @param call_index To which call is this action handled.
* @param reason Set optional reason header. Pass NULL if none.
* @return int
*/
int msi_reject ( MSISession *session, const uint8_t *reason );
int msi_reject ( MSISession *session, int32_t call_index, const uint8_t *reason );
/**
* @brief Terminate the current call.
*
* @param session Control session.
* @param call_index To which call is this action handled.
* @return int
*/
int msi_stopcall ( MSISession *session );
int msi_stopcall ( MSISession *session, int32_t call_index );
#endif /* __TOXMSI */

File diff suppressed because it is too large Load Diff

161
toxav/rtp.c Executable file → Normal file
View File

@ -25,6 +25,8 @@
#include "config.h"
#endif /* HAVE_CONFIG_H */
#include "../toxcore/logger.h"
#include "rtp.h"
#include <assert.h>
#include <stdlib.h>
@ -227,6 +229,7 @@ static const uint32_t payload_table[] = {
RTPHeader *extract_header ( const uint8_t *payload, int length )
{
if ( !payload || !length ) {
LOGGER_WARNING("No payload to extract!");
return NULL;
}
@ -245,6 +248,7 @@ RTPHeader *extract_header ( const uint8_t *payload, int length )
if ( GET_FLAG_VERSION(_retu) != RTP_VERSION ) {
/* Deallocate */
LOGGER_WARNING("Invalid version!");
free(_retu);
return NULL;
}
@ -258,12 +262,13 @@ RTPHeader *extract_header ( const uint8_t *payload, int length )
if ( length < _length ) {
/* Deallocate */
LOGGER_WARNING("Length invalid!");
free(_retu);
return NULL;
}
memset(_retu->csrc, 0, 16 * sizeof (uint32_t));
_retu->marker_payloadt = *_it;
++_it;
_retu->length = _length;
@ -304,6 +309,7 @@ RTPExtHeader *extract_ext_header ( const uint8_t *payload, uint16_t length )
if ( length < ( _ext_length * sizeof(uint32_t) ) ) {
LOGGER_WARNING("Length invalid!");
free(_retu);
return NULL;
}
@ -415,9 +421,9 @@ RTPHeader *build_header ( RTPSession *session )
int i;
for ( i = 0; i < session->cc; i++ )
for ( i = 0; i < session->cc; i++ )
_retu->csrc[i] = session->csrc[i];
_retu->length = 12 /* Minimum header len */ + ( session->cc * size_32 );
return _retu;
@ -443,6 +449,7 @@ RTPMessage *msg_parse ( uint16_t sequnum, const uint8_t *data, int length )
_retu->header = extract_header ( data, length ); /* It allocates memory and all */
if ( !_retu->header ) {
LOGGER_WARNING("Header failed to extract!");
free(_retu);
return NULL;
}
@ -461,6 +468,7 @@ RTPMessage *msg_parse ( uint16_t sequnum, const uint8_t *data, int length )
_retu->length -= ( 4 /* Minimum ext header len */ + _retu->ext_header->length * size_32 );
_from_pos += ( 4 /* Minimum ext header len */ + _retu->ext_header->length * size_32 );
} else { /* Error */
LOGGER_WARNING("Ext Header failed to extract!");
rtp_free_msg(NULL, _retu);
return NULL;
}
@ -471,6 +479,7 @@ RTPMessage *msg_parse ( uint16_t sequnum, const uint8_t *data, int length )
if ( length - _from_pos <= MAX_RTP_SIZE )
memcpy ( _retu->data, data + _from_pos, length - _from_pos );
else {
LOGGER_WARNING("Invalid length!");
rtp_free_msg(NULL, _retu);
return NULL;
}
@ -496,8 +505,15 @@ int rtp_handle_packet ( void *object, uint8_t *data, uint32_t length )
RTPSession *_session = object;
RTPMessage *_msg;
if ( !_session || length < 13 + crypto_box_MACBYTES) /* 12 is the minimum length for rtp + desc. byte */
if ( !_session || length < 13 + crypto_box_MACBYTES) { /* 12 is the minimum length for rtp + desc. byte */
LOGGER_WARNING("No session or invalid length of received buffer!");
return -1;
}
if ( _session->queue_limit <= _session->queue_size ) {
LOGGER_WARNING("Queue limit reached!");
return -1;
}
uint8_t _plain[MAX_UDP_PACKET_SIZE];
@ -524,7 +540,10 @@ int rtp_handle_packet ( void *object, uint8_t *data, uint32_t length )
_decrypted_length = decrypt_data_symmetric(
(uint8_t *)_session->decrypt_key, _session->nonce_cycle, data + 3, length - 3, _plain );
if ( _decrypted_length == -1 ) return -1; /* This packet is not encrypted properly */
if ( _decrypted_length == -1 ) {
LOGGER_WARNING("Packet not ecrypted properly!");
return -1; /* This packet is not encrypted properly */
}
/* Otherwise, if decryption is ok with new cycle, set new cycle
*/
@ -533,7 +552,10 @@ int rtp_handle_packet ( void *object, uint8_t *data, uint32_t length )
_decrypted_length = decrypt_data_symmetric(
(uint8_t *)_session->decrypt_key, _calculated, data + 3, length - 3, _plain );
if ( _decrypted_length == -1 ) return -1; /* This is just an error */
if ( _decrypted_length == -1 ) {
LOGGER_WARNING("Error decrypting!");
return -1; /* This is just an error */
}
/* A new cycle setting. */
memcpy(_session->nonce_cycle, _session->decrypt_nonce, crypto_box_NONCEBYTES);
@ -543,7 +565,10 @@ int rtp_handle_packet ( void *object, uint8_t *data, uint32_t length )
_msg = msg_parse ( _sequnum, _plain, _decrypted_length );
if ( !_msg ) return -1;
if ( !_msg ) {
LOGGER_WARNING("Could not parse message!");
return -1;
}
/* Check if message came in late */
if ( check_late_message(_session, _msg) < 0 ) { /* Not late */
@ -560,6 +585,8 @@ int rtp_handle_packet ( void *object, uint8_t *data, uint32_t length )
_session->last_msg = _session->oldest_msg = _msg;
}
_session->queue_size++;
pthread_mutex_unlock(&_session->mutex);
return 0;
@ -579,8 +606,10 @@ int rtp_handle_packet ( void *object, uint8_t *data, uint32_t length )
*/
RTPMessage *rtp_new_message ( RTPSession *session, const uint8_t *data, uint32_t length )
{
if ( !session )
if ( !session ) {
LOGGER_WARNING("No session!");
return NULL;
}
uint8_t *_from_pos;
RTPMessage *_retu = calloc(1, sizeof (RTPMessage));
@ -619,36 +648,6 @@ RTPMessage *rtp_new_message ( RTPSession *session, const uint8_t *data, uint32_t
/********************************************************************************************************************
********************************************************************************************************************
********************************************************************************************************************
********************************************************************************************************************
********************************************************************************************************************
*
*
*
* PUBLIC API FUNCTIONS IMPLEMENTATIONS
*
*
*
********************************************************************************************************************
********************************************************************************************************************
********************************************************************************************************************
********************************************************************************************************************
********************************************************************************************************************/
/**
* @brief Release all messages held by session.
*
@ -660,6 +659,7 @@ RTPMessage *rtp_new_message ( RTPSession *session, const uint8_t *data, uint32_t
int rtp_release_session_recv ( RTPSession *session )
{
if ( !session ) {
LOGGER_WARNING("No session!");
return -1;
}
@ -673,6 +673,7 @@ int rtp_release_session_recv ( RTPSession *session )
}
session->last_msg = session->oldest_msg = NULL;
session->queue_size = 0;
pthread_mutex_unlock(&session->mutex);
@ -680,6 +681,31 @@ int rtp_release_session_recv ( RTPSession *session )
}
/**
* @brief Call this to change queue limit
*
* @param session The session
* @param limit new limit
* @return void
*/
void rtp_queue_adjust_limit(RTPSession *session, uint64_t limit)
{
RTPMessage *_tmp, * _it;
pthread_mutex_lock(&session->mutex);
for ( _it = session->oldest_msg; session->queue_size > limit; _it = _tmp ) {
_tmp = _it->next;
rtp_free_msg( session, _it);
session->queue_size --;
}
session->oldest_msg = _it;
session->queue_limit = limit;
pthread_mutex_unlock(&session->mutex);
}
/**
* @brief Gets oldest message in the list.
*
@ -689,21 +715,32 @@ int rtp_release_session_recv ( RTPSession *session )
*/
RTPMessage *rtp_recv_msg ( RTPSession *session )
{
if ( !session )
if ( !session ) {
LOGGER_WARNING("No session!");
return NULL;
RTPMessage *_retu = session->oldest_msg;
}
pthread_mutex_lock(&session->mutex);
if ( _retu )
session->oldest_msg = _retu->next;
if ( session->queue_size == 0 ) {
pthread_mutex_unlock(&session->mutex);
return NULL;
}
RTPMessage *_retu = session->oldest_msg;
/*if (_retu)*/
session->oldest_msg = _retu->next;
if ( !session->oldest_msg )
session->last_msg = NULL;
session->queue_size --;
pthread_mutex_unlock(&session->mutex);
return _retu;
}
@ -723,7 +760,10 @@ int rtp_send_msg ( RTPSession *session, Messenger *messenger, const uint8_t *dat
{
RTPMessage *msg = rtp_new_message (session, data, length);
if ( !msg ) return -1;
if ( !msg ) {
LOGGER_WARNING("No session!");
return -1;
}
uint8_t _send_data [ MAX_UDP_PACKET_SIZE ];
@ -738,15 +778,13 @@ int rtp_send_msg ( RTPSession *session, Messenger *messenger, const uint8_t *dat
int encrypted_length = encrypt_data_symmetric( /* TODO: msg->length - 2 (fix this properly)*/
(uint8_t *) session->encrypt_key, _calculated, msg->data + 2, msg->length, _send_data + 3 );
int full_length = encrypted_length + 3;
_send_data[1] = msg->data[0];
_send_data[2] = msg->data[1];
/*if ( full_length != sendpacket ( messenger->net, *((IP_Port*) &session->dest), _send_data, full_length) ) {*/
if ( 0 != send_custom_lossy_packet(messenger, session->dest, _send_data, full_length) ) {
/*fprintf(stderr, "Rtp error: %s\n", strerror(errno));*/
if ( -1 == send_custom_lossy_packet(messenger, session->dest, _send_data, encrypted_length + 3) ) {
LOGGER_WARNING("Failed to send full packet! std error: %s", strerror(errno));
rtp_free_msg ( session, msg );
return -1;
}
@ -761,6 +799,7 @@ int rtp_send_msg ( RTPSession *session, Messenger *messenger, const uint8_t *dat
}
rtp_free_msg ( session, msg );
return 0;
}
@ -817,13 +856,15 @@ RTPSession *rtp_init_session ( int payload_type,
RTPSession *_retu = calloc(1, sizeof(RTPSession));
assert(_retu);
/*networking_registerhandler(messenger->net, payload_type, rtp_handle_packet, _retu);*/
if ( -1 == custom_lossy_packet_registerhandler(messenger, friend_num, payload_type, rtp_handle_packet, _retu) ) {
/*fprintf(stderr, "Error setting custom register handler for rtp session\n");*/
if ( -1 == custom_lossy_packet_registerhandler(messenger, friend_num, payload_type, rtp_handle_packet, _retu) ||
!encrypt_key || !decrypt_key || !encrypt_nonce || !decrypt_nonce) {
LOGGER_ERROR("Error setting custom register handler for rtp session");
free(_retu);
return NULL;
}
LOGGER_DEBUG("Registered packet handler: pt: %d; fid: %d", payload_type, friend_num);
_retu->version = RTP_VERSION; /* It's always 2 */
_retu->padding = 0; /* If some additional data is needed about the packet */
_retu->extension = 0; /* If extension to header is needed */
@ -838,8 +879,6 @@ RTPSession *rtp_init_session ( int payload_type,
_retu->rsequnum = _retu->sequnum = 1;
_retu->ext_header = NULL; /* When needed allocate */
_retu->framerate = -1;
_retu->resolution = -1;
_retu->encrypt_key = encrypt_key;
_retu->decrypt_key = decrypt_key;
@ -865,6 +904,8 @@ RTPSession *rtp_init_session ( int payload_type,
_retu->prefix = payload_type;
_retu->oldest_msg = _retu->last_msg = NULL;
_retu->queue_limit = 100; /* Default */
_retu->queue_size = 0;
pthread_mutex_init(&_retu->mutex, NULL);
/*
@ -885,15 +926,17 @@ RTPSession *rtp_init_session ( int payload_type,
*/
int rtp_terminate_session ( RTPSession *session, Messenger *messenger )
{
if ( !session )
if ( !session ) {
LOGGER_WARNING("No session!");
return -1;
}
custom_lossy_packet_registerhandler(messenger, session->dest, session->prefix, NULL, NULL);
rtp_release_session_recv(session);
pthread_mutex_lock(&session->mutex);
free ( session->ext_header );
free ( session->csrc );
free ( session->decrypt_nonce );
@ -901,7 +944,7 @@ int rtp_terminate_session ( RTPSession *session, Messenger *messenger )
free ( session->nonce_cycle );
pthread_mutex_unlock(&session->mutex);
pthread_mutex_destroy(&session->mutex);
/* And finally free session */

18
toxav/rtp.h Executable file → Normal file
View File

@ -107,10 +107,6 @@ typedef struct _RTPSession {
*/
RTPExtHeader *ext_header;
/* External header identifiers */
int resolution;
int framerate;
/* Since these are only references of the
* call structure don't allocate or free
@ -126,6 +122,9 @@ typedef struct _RTPSession {
RTPMessage *oldest_msg;
RTPMessage *last_msg; /* tail */
uint64_t queue_limit;/* Default 100; modify per thy liking */
uint64_t queue_size; /* currently holding << messages */
/* Msg prefix for core to know when recving */
uint8_t prefix;
@ -146,6 +145,15 @@ typedef struct _RTPSession {
int rtp_release_session_recv ( RTPSession *session );
/**
* @brief Call this to change queue limit
*
* @param session The session
* @param limit new limit
* @return void
*/
void rtp_queue_adjust_limit ( RTPSession *session, uint64_t limit );
/**
* @brief Get's oldest message in the list.
*
@ -194,7 +202,7 @@ void rtp_free_msg ( RTPSession *session, RTPMessage *msg );
* @retval NULL Error occurred.
*/
RTPSession *rtp_init_session ( int payload_type,
Messenger *messenger,
Messenger *messenger,
int friend_num,
const uint8_t *encrypt_key,
const uint8_t *decrypt_key,

449
toxav/toxav.c Executable file → Normal file
View File

@ -25,15 +25,20 @@
#include "config.h"
#endif /* HAVE_CONFIG_H */
#define _GNU_SOURCE /* implicit declaration warning */
#include "rtp.h"
#include "media.h"
#include "msi.h"
#include "toxav.h"
#include "../toxcore/logger.h"
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include "toxav.h"
/* Assume 60 fps*/
#define MAX_ENCODE_TIME_US ((1000 / 60) * 1000)
@ -43,26 +48,39 @@
static const uint8_t audio_index = 0, video_index = 1;
typedef struct _CallSpecific {
RTPSession *crtps[2]; /** Audio is first and video is second */
CodecState *cs;/** Each call have its own encoders and decoders.
* You can, but don't have to, reuse encoders for
* multiple calls. If you choose to reuse encoders,
* make sure to also reuse encoded payload for every call.
* Decoders have to be unique for each call. FIXME: Now add refcounted encoders and
* reuse them really.
*/
JitterBuffer *j_buf; /** Jitter buffer for audio */
} CallSpecific;
typedef enum {
ts_closing,
ts_running,
ts_closed
} ThreadState;
struct _ToxAv {
Messenger *messenger;
MSISession *msi_session; /** Main msi session */
RTPSession *rtp_sessions[2]; /* Audio is first and video is second */
struct jitter_buffer *j_buf;
CodecState *cs;
CallSpecific *calls; /** Per-call params */
uint32_t max_calls;
};
const ToxAvCodecSettings av_DefaultSettings = {
1000000,
800,
600,
64000,
20,
48000,
1,
20
};
/**
* @brief Start new A/V session. There can only be one session at the time. If you register more
* it will result in undefined behaviour.
@ -74,30 +92,22 @@ struct _ToxAv {
* @return ToxAv*
* @retval NULL On error.
*/
ToxAv *toxav_new( Tox* messenger, ToxAvCodecSettings* codec_settings)
ToxAv *toxav_new( Tox *messenger, int32_t max_calls)
{
ToxAv *av = calloc ( sizeof(ToxAv), 1);
if (av == NULL)
if (av == NULL) {
LOGGER_WARNING("Allocation failed!");
return NULL;
}
av->messenger = (Messenger *)messenger;
av->msi_session = msi_init_session(av->messenger);
av->msi_session = msi_init_session(av->messenger, max_calls);
av->msi_session->agent_handler = av;
av->rtp_sessions[0] = av->rtp_sessions [1] = NULL;
/* NOTE: This should be user defined or? */
av->j_buf = create_queue(codec_settings->jbuf_capacity);
av->cs = codec_init_session(codec_settings->audio_bitrate,
codec_settings->audio_frame_duration,
codec_settings->audio_sample_rate,
codec_settings->audio_channels,
codec_settings->video_width,
codec_settings->video_height,
codec_settings->video_bitrate);
av->calls = calloc(sizeof(CallSpecific), max_calls);
av->max_calls = max_calls;
return av;
}
@ -112,16 +122,24 @@ void toxav_kill ( ToxAv *av )
{
msi_terminate_session(av->msi_session);
if ( av->rtp_sessions[audio_index] ) {
rtp_terminate_session(av->rtp_sessions[audio_index], av->msi_session->messenger_handle);
int i = 0;
for (; i < av->max_calls; i ++) {
if ( av->calls[i].crtps[audio_index] )
rtp_terminate_session(av->calls[i].crtps[audio_index], av->msi_session->messenger_handle);
if ( av->calls[i].crtps[video_index] )
rtp_terminate_session(av->calls[i].crtps[video_index], av->msi_session->messenger_handle);
if ( av->calls[i].j_buf ) terminate_queue(av->calls[i].j_buf);
if ( av->calls[i].cs ) codec_terminate_session(av->calls[i].cs);
}
if ( av->rtp_sessions[video_index] ) {
rtp_terminate_session(av->rtp_sessions[video_index], av->msi_session->messenger_handle);
}
codec_terminate_session(av->cs);
free(av->calls);
free(av);
}
@ -132,7 +150,7 @@ void toxav_kill ( ToxAv *av )
* @param id One of the ToxAvCallbackID values
* @return void
*/
void toxav_register_callstate_callback ( ToxAVCallback callback, ToxAvCallbackID id, void* userdata )
void toxav_register_callstate_callback ( ToxAVCallback callback, ToxAvCallbackID id, void *userdata )
{
msi_register_callback((MSICallback)callback, (MSICallbackID) id, userdata);
}
@ -148,13 +166,9 @@ void toxav_register_callstate_callback ( ToxAVCallback callback, ToxAvCallbackID
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_call (ToxAv *av, int user, ToxAvCallType call_type, int ringing_seconds )
int toxav_call (ToxAv *av, int32_t *call_index, int user, ToxAvCallType call_type, int ringing_seconds )
{
if ( av->msi_session->call ) {
return ErrorAlreadyInCall;
}
return msi_invite(av->msi_session, call_type, ringing_seconds * 1000, user);
return msi_invite(av->msi_session, call_index, call_type, ringing_seconds * 1000, user);
}
/**
@ -165,17 +179,17 @@ int toxav_call (ToxAv *av, int user, ToxAvCallType call_type, int ringing_second
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_hangup ( ToxAv *av )
int toxav_hangup ( ToxAv *av, int32_t call_index )
{
if ( !av->msi_session->call ) {
if ( !av->msi_session->calls[call_index] ) {
return ErrorNoCall;
}
if ( av->msi_session->call->state != call_active ) {
if ( av->msi_session->calls[call_index]->state != call_active ) {
return ErrorInvalidState;
}
return msi_hangup(av->msi_session);
return msi_hangup(av->msi_session, call_index);
}
/**
@ -187,17 +201,17 @@ int toxav_hangup ( ToxAv *av )
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_answer ( ToxAv *av, ToxAvCallType call_type )
int toxav_answer ( ToxAv *av, int32_t call_index, ToxAvCallType call_type )
{
if ( !av->msi_session->call ) {
if ( !av->msi_session->calls[call_index] ) {
return ErrorNoCall;
}
if ( av->msi_session->call->state != call_starting ) {
if ( av->msi_session->calls[call_index]->state != call_starting ) {
return ErrorInvalidState;
}
return msi_answer(av->msi_session, call_type);
return msi_answer(av->msi_session, call_index, call_type);
}
/**
@ -209,17 +223,17 @@ int toxav_answer ( ToxAv *av, ToxAvCallType call_type )
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_reject ( ToxAv *av, const char *reason )
int toxav_reject ( ToxAv *av, int32_t call_index, const char *reason )
{
if ( !av->msi_session->call ) {
if ( !av->msi_session->calls[call_index] ) {
return ErrorNoCall;
}
if ( av->msi_session->call->state != call_starting ) {
if ( av->msi_session->calls[call_index]->state != call_starting ) {
return ErrorInvalidState;
}
return msi_reject(av->msi_session, (const uint8_t *) reason);
return msi_reject(av->msi_session, call_index, (const uint8_t *) reason);
}
/**
@ -232,13 +246,13 @@ int toxav_reject ( ToxAv *av, const char *reason )
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_cancel ( ToxAv *av, int peer_id, const char *reason )
int toxav_cancel ( ToxAv *av, int32_t call_index, int peer_id, const char *reason )
{
if ( !av->msi_session->call ) {
if ( !av->msi_session->calls[call_index] ) {
return ErrorNoCall;
}
return msi_cancel(av->msi_session, peer_id, reason);
return msi_cancel(av->msi_session, call_index, peer_id, reason);
}
/**
@ -249,13 +263,13 @@ int toxav_cancel ( ToxAv *av, int peer_id, const char *reason )
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_stop_call ( ToxAv *av )
int toxav_stop_call ( ToxAv *av, int32_t call_index )
{
if ( !av->msi_session->call ) {
if ( !av->msi_session->calls[call_index] ) {
return ErrorNoCall;
}
return msi_stopcall(av->msi_session);
return msi_stopcall(av->msi_session, call_index);
}
/**
@ -266,48 +280,61 @@ int toxav_stop_call ( ToxAv *av )
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_prepare_transmission ( ToxAv* av, int support_video )
int toxav_prepare_transmission ( ToxAv *av, int32_t call_index, ToxAvCodecSettings *codec_settings, int support_video )
{
assert(av->msi_session);
if ( !av->msi_session || !av->msi_session->call ) {
return ErrorNoCall;
if ( !av->msi_session || av->msi_session->max_calls <= call_index || !av->msi_session->calls[call_index] ) {
/*fprintf(stderr, "Error while starting audio RTP session: invalid call!\n");*/
return ErrorInternal;
}
av->rtp_sessions[audio_index] = rtp_init_session(
type_audio,
av->messenger,
av->msi_session->call->peers[0],
av->msi_session->call->key_peer,
av->msi_session->call->key_local,
av->msi_session->call->nonce_peer,
av->msi_session->call->nonce_local
);
CallSpecific *call = &av->calls[call_index];
call->crtps[audio_index] =
rtp_init_session(
type_audio,
av->messenger,
av->msi_session->calls[call_index]->peers[0],
av->msi_session->calls[call_index]->key_peer,
av->msi_session->calls[call_index]->key_local,
av->msi_session->calls[call_index]->nonce_peer,
av->msi_session->calls[call_index]->nonce_local);
if ( !av->rtp_sessions[audio_index] ) {
fprintf(stderr, "Error while starting audio RTP session!\n");
if ( !call->crtps[audio_index] ) {
/*fprintf(stderr, "Error while starting audio RTP session!\n");*/
return ErrorStartingAudioRtp;
}
if ( support_video ) {
av->rtp_sessions[video_index] = rtp_init_session (
type_video,
av->messenger,
av->msi_session->call->peers[0],
av->msi_session->call->key_peer,
av->msi_session->call->key_local,
av->msi_session->call->nonce_peer,
av->msi_session->call->nonce_local
);
call->crtps[video_index] =
rtp_init_session (
type_video,
av->messenger,
av->msi_session->calls[call_index]->peers[0],
av->msi_session->calls[call_index]->key_peer,
av->msi_session->calls[call_index]->key_local,
av->msi_session->calls[call_index]->nonce_peer,
av->msi_session->calls[call_index]->nonce_local);
if ( !av->rtp_sessions[video_index] ) {
fprintf(stderr, "Error while starting video RTP session!\n");
if ( !call->crtps[video_index] ) {
/*fprintf(stderr, "Error while starting video RTP session!\n");*/
return ErrorStartingVideoRtp;
}
}
return ErrorNone;
if ( !(call->j_buf = create_queue(codec_settings->jbuf_capacity)) ) return ErrorInternal;
call->cs = codec_init_session(codec_settings->audio_bitrate,
codec_settings->audio_frame_duration,
codec_settings->audio_sample_rate,
codec_settings->audio_channels,
codec_settings->video_width,
codec_settings->video_height,
codec_settings->video_bitrate);
return call->cs ? ErrorNone : ErrorInternal;
}
/**
@ -318,22 +345,35 @@ int toxav_prepare_transmission ( ToxAv* av, int support_video )
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_kill_transmission ( ToxAv *av )
int toxav_kill_transmission ( ToxAv *av, int32_t call_index )
{
if ( av->rtp_sessions[audio_index] && -1 == rtp_terminate_session(av->rtp_sessions[audio_index], av->messenger) ) {
fprintf(stderr, "Error while terminating audio RTP session!\n");
CallSpecific *call = &av->calls[call_index];
if ( call->crtps[audio_index] && -1 == rtp_terminate_session(call->crtps[audio_index], av->messenger) ) {
/*fprintf(stderr, "Error while terminating audio RTP session!\n");*/
return ErrorTerminatingAudioRtp;
}
if ( av->rtp_sessions[video_index] && -1 == rtp_terminate_session(av->rtp_sessions[video_index], av->messenger) ) {
fprintf(stderr, "Error while terminating video RTP session!\n");
if ( call->crtps[video_index] && -1 == rtp_terminate_session(call->crtps[video_index], av->messenger) ) {
/*fprintf(stderr, "Error while terminating video RTP session!\n");*/
return ErrorTerminatingVideoRtp;
}
av->rtp_sessions[audio_index] = NULL;
av->rtp_sessions[video_index] = NULL;
call->crtps[audio_index] = NULL;
call->crtps[video_index] = NULL;
if ( call->j_buf ) {
terminate_queue(call->j_buf);
call->j_buf = NULL;
LOGGER_DEBUG("Terminated j queue");
} else LOGGER_DEBUG("No j queue");
if ( call->cs ) {
codec_terminate_session(call->cs);
call->cs = NULL;
LOGGER_DEBUG("Terminated codec session");
} else LOGGER_DEBUG("No codec session");
return ErrorNone;
}
@ -349,10 +389,12 @@ int toxav_kill_transmission ( ToxAv *av )
* @retval 0 Success.
* @retval -1 Failure.
*/
inline__ int toxav_send_rtp_payload ( ToxAv *av, ToxAvCallType type, const uint8_t *payload, uint16_t length )
inline__ int toxav_send_rtp_payload ( ToxAv *av, int32_t call_index, ToxAvCallType type, const uint8_t *payload,
uint16_t length )
{
if ( av->rtp_sessions[type - TypeAudio] )
return rtp_send_msg ( av->rtp_sessions[type - TypeAudio], av->msi_session->messenger_handle, payload, length );
if ( av->calls[call_index].crtps[type - TypeAudio] )
return rtp_send_msg ( av->calls[call_index].crtps[type - TypeAudio], av->msi_session->messenger_handle, payload,
length );
else return -1;
}
@ -366,31 +408,33 @@ inline__ int toxav_send_rtp_payload ( ToxAv *av, ToxAvCallType type, const uint8
* @retval ToxAvError On Error.
* @retval >=0 Size of received payload.
*/
inline__ int toxav_recv_rtp_payload ( ToxAv *av, ToxAvCallType type, uint8_t *dest )
inline__ int toxav_recv_rtp_payload ( ToxAv *av, int32_t call_index, ToxAvCallType type, uint8_t *dest )
{
if ( !dest ) return ErrorInternal;
if ( !av->rtp_sessions[type - TypeAudio] ) return ErrorNoRtpSession;
CallSpecific *call = &av->calls[call_index];
if ( !call->crtps[type - TypeAudio] ) return ErrorNoRtpSession;
RTPMessage *message;
if ( type == TypeAudio ) {
do {
message = rtp_recv_msg(av->rtp_sessions[audio_index]);
message = rtp_recv_msg(call->crtps[audio_index]);
if (message) {
/* push the packet into the queue */
queue(av->j_buf, message);
queue(call->j_buf, message);
}
} while (message);
int success = 0;
message = dequeue(av->j_buf, &success);
message = dequeue(call->j_buf, &success);
if ( success == 2) return ErrorAudioPacketLost;
} else {
message = rtp_recv_msg(av->rtp_sessions[video_index]);
message = rtp_recv_msg(call->crtps[video_index]);
}
if ( message ) {
@ -415,30 +459,31 @@ inline__ int toxav_recv_rtp_payload ( ToxAv *av, ToxAvCallType type, uint8_t *de
* @retval 0 Success.
* @retval ToxAvError On Error.
*/
inline__ int toxav_recv_video ( ToxAv *av, vpx_image_t **output)
inline__ int toxav_recv_video ( ToxAv *av, int32_t call_index, vpx_image_t **output)
{
if ( !output ) return ErrorInternal;
uint8_t packet [RTP_PAYLOAD_SIZE];
int recved_size = 0;
int error;
do {
recved_size = toxav_recv_rtp_payload(av, TypeVideo, packet);
int rc;
CallSpecific *call = &av->calls[call_index];
do {
recved_size = toxav_recv_rtp_payload(av, call_index, TypeVideo, packet);
if (recved_size > 0 && ( rc = vpx_codec_decode(&call->cs->v_decoder, packet, recved_size, NULL, 0) ) != VPX_CODEC_OK) {
/*fprintf(stderr, "Error decoding video: %s\n", vpx_codec_err_to_string(rc));*/
return ErrorInternal;
}
if (recved_size > 0 && ( error = vpx_codec_decode(&av->cs->v_decoder, packet, recved_size, NULL, 0) ) != VPX_CODEC_OK)
fprintf(stderr, "Error decoding: %s\n", vpx_codec_err_to_string(error));
} while (recved_size > 0);
vpx_codec_iter_t iter = NULL;
vpx_image_t *img;
img = vpx_codec_get_frame(&av->cs->v_decoder, &iter);
img = vpx_codec_get_frame(&call->cs->v_decoder, &iter);
*output = img;
return 0;
/* Yeah, i set output to be NULL if nothing received
*/
}
/**
@ -450,30 +495,49 @@ inline__ int toxav_recv_video ( ToxAv *av, vpx_image_t **output)
* @retval 0 Success.
* @retval ToxAvError On error.
*/
inline__ int toxav_send_video ( ToxAv *av, vpx_image_t *input)
inline__ int toxav_send_video ( ToxAv *av, int32_t call_index, const uint8_t *frame, int frame_size)
{
if (vpx_codec_encode(&av->cs->v_encoder, input, av->cs->frame_counter, 1, 0, MAX_ENCODE_TIME_US) != VPX_CODEC_OK) {
fprintf(stderr, "Could not encode video frame\n");
return toxav_send_rtp_payload(av, call_index, TypeVideo, frame, frame_size);
}
/**
* @brief Encode video frame
*
* @param av Handler
* @param dest Where to
* @param dest_max Max size
* @param input What to encode
* @return int
* @retval ToxAvError On error.
* @retval >0 On success
*/
inline__ int toxav_prepare_video_frame(ToxAv *av, int32_t call_index, uint8_t *dest, int dest_max, vpx_image_t *input)
{
CallSpecific *call = &av->calls[call_index];
int rc = vpx_codec_encode(&call->cs->v_encoder, input, call->cs->frame_counter, 1, 0, MAX_ENCODE_TIME_US);
if ( rc != VPX_CODEC_OK) {
fprintf(stderr, "Could not encode video frame: %s\n", vpx_codec_err_to_string(rc));
return ErrorInternal;
}
++av->cs->frame_counter;
++call->cs->frame_counter;
vpx_codec_iter_t iter = NULL;
const vpx_codec_cx_pkt_t *pkt;
int sent = 0;
int copied = 0;
while ( (pkt = vpx_codec_get_cx_data(&av->cs->v_encoder, &iter)) ) {
while ( (pkt = vpx_codec_get_cx_data(&call->cs->v_encoder, &iter)) ) {
if (pkt->kind == VPX_CODEC_CX_FRAME_PKT) {
if (toxav_send_rtp_payload(av, TypeVideo, pkt->data.frame.buf, pkt->data.frame.sz) != -1)
++sent;
if ( copied + pkt->data.frame.sz > dest_max ) return ErrorPacketTooLarge;
mempcpy(dest + copied, pkt->data.frame.buf, pkt->data.frame.sz);
copied += pkt->data.frame.sz;
}
}
if (sent > 0)
return 0;
return ErrorInternal;
return copied;
}
/**
@ -488,25 +552,38 @@ inline__ int toxav_send_video ( ToxAv *av, vpx_image_t *input)
* @retval >=0 Size of received data in frames/samples.
* @retval ToxAvError On error.
*/
inline__ int toxav_recv_audio ( ToxAv *av, int frame_size, int16_t *dest )
inline__ int toxav_recv_audio ( ToxAv *av, int32_t call_index, int frame_size, int16_t *dest )
{
if ( !dest ) return ErrorInternal;
CallSpecific *call = &av->calls[call_index];
uint8_t packet [RTP_PAYLOAD_SIZE];
int recved_size = toxav_recv_rtp_payload(av, TypeAudio, packet);
int recved_size = toxav_recv_rtp_payload(av, call_index, TypeAudio, packet);
if ( recved_size == ErrorAudioPacketLost ) {
return opus_decode(av->cs->audio_decoder, NULL, 0, dest, frame_size, 1);
int dec_size = opus_decode(call->cs->audio_decoder, NULL, 0, dest, frame_size, 1);
if ( dec_size < 0 ) {
LOGGER_WARNING("Decoding error: %s", opus_strerror(dec_size));
return ErrorInternal;
} else return dec_size;
} else if ( recved_size ) {
return opus_decode(av->cs->audio_decoder, packet, recved_size, dest, frame_size, 0);
int dec_size = opus_decode(call->cs->audio_decoder, packet, recved_size, dest, frame_size, 0);
if ( dec_size < 0 ) {
LOGGER_WARNING("Decoding error: %s", opus_strerror(dec_size));
return ErrorInternal;
} else return dec_size;
} else {
return 0; /* Nothing received */
}
}
/**
* @brief Encode and send audio frame.
* @brief Send audio frame.
*
* @param av Handler.
* @param frame The frame (raw 16 bit signed pcm with AUDIO_CHANNELS channels audio.)
@ -516,15 +593,34 @@ inline__ int toxav_recv_audio ( ToxAv *av, int frame_size, int16_t *dest )
* @retval 0 Success.
* @retval ToxAvError On error.
*/
inline__ int toxav_send_audio ( ToxAv *av, const int16_t *frame, int frame_size)
inline__ int toxav_send_audio ( ToxAv *av, int32_t call_index, const uint8_t *frame, int frame_size)
{
uint8_t temp_data[RTP_PAYLOAD_SIZE];
int32_t ret = opus_encode(av->cs->audio_encoder, frame, frame_size, temp_data, sizeof(temp_data));
return toxav_send_rtp_payload(av, call_index, TypeAudio, frame, frame_size);
}
if (ret <= 0)
/**
* @brief Encode audio frame
*
* @param av Handler
* @param dest dest
* @param dest_max Max dest size
* @param frame The frame
* @param frame_size The frame size
* @return int
* @retval ToxAvError On error.
* @retval >0 On success
*/
inline__ int toxav_prepare_audio_frame ( ToxAv *av, int32_t call_index, uint8_t *dest, int dest_max,
const int16_t *frame, int frame_size)
{
int32_t rc = opus_encode(av->calls[call_index].cs->audio_encoder, frame, frame_size, dest, dest_max);
if (rc < 0) {
fprintf(stderr, "Failed to encode payload: %s\n", opus_strerror(rc));
return ErrorInternal;
}
return toxav_send_rtp_payload(av, TypeAudio, temp_data, ret);
return rc;
}
/**
@ -536,54 +632,85 @@ inline__ int toxav_send_audio ( ToxAv *av, const int16_t *frame, int frame_size)
* @retval ToxAvCallType On success.
* @retval ToxAvError On error.
*/
int toxav_get_peer_transmission_type ( ToxAv *av, int peer )
int toxav_get_peer_transmission_type ( ToxAv *av, int32_t call_index, int peer )
{
assert(av->msi_session);
if ( peer < 0 || !av->msi_session->call || av->msi_session->call->peer_count <= peer )
if ( peer < 0 || !av->msi_session->calls[call_index] || av->msi_session->calls[call_index]->peer_count <= peer )
return ErrorInternal;
return av->msi_session->call->type_peer[peer];
return av->msi_session->calls[call_index]->type_peer[peer];
}
/**
* @brief Get id of peer participating in conversation
*
*
* @param av Handler
* @param peer peer index
* @return int
* @retval ToxAvError No peer id
*/
int toxav_get_peer_id ( ToxAv* av, int peer )
int toxav_get_peer_id ( ToxAv *av, int32_t call_index, int peer )
{
assert(av->msi_session);
if ( peer < 0 || !av->msi_session->call || av->msi_session->call->peer_count <= peer )
if ( peer < 0 || !av->msi_session->calls[call_index] || av->msi_session->calls[call_index]->peer_count <= peer )
return ErrorInternal;
return av->msi_session->call->peers[peer];
return av->msi_session->calls[call_index]->peers[peer];
}
/**
* @brief Is certain capability supported
*
*
* @param av Handler
* @return int
* @retval 1 Yes.
* @retval 0 No.
*/
inline__ int toxav_capability_supported ( ToxAv* av, ToxAvCapabilities capability )
inline__ int toxav_capability_supported ( ToxAv *av, int32_t call_index, ToxAvCapabilities capability )
{
return av->cs->capabilities & (Capabilities) capability;
return av->calls[call_index].cs ? av->calls[call_index].cs->capabilities & (Capabilities) capability : 0;
/* 0 is error here */
}
/**
* @brief Get messenger handle
*
* @param av Handler.
* @return Tox*
* @brief Set queue limit
*
* @param av Handler
* @param call_index index
* @param limit the limit
* @return void
*/
inline__ Tox* toxav_get_tox ( ToxAv* av )
inline__ int toxav_set_audio_queue_limit(ToxAv *av, int32_t call_index, uint64_t limit)
{
return (Tox*)av->messenger;
if ( av->calls[call_index].crtps[audio_index] )
rtp_queue_adjust_limit(av->calls[call_index].crtps[audio_index], limit);
else
return ErrorNoRtpSession;
return ErrorNone;
}
/**
* @brief Set queue limit
*
* @param av Handler
* @param call_index index
* @param limit the limit
* @return void
*/
inline__ int toxav_set_video_queue_limit(ToxAv *av, int32_t call_index, uint64_t limit)
{
if ( av->calls[call_index].crtps[video_index] )
rtp_queue_adjust_limit(av->calls[call_index].crtps[video_index], limit);
else
return ErrorNoRtpSession;
return ErrorNone;
}
inline__ Tox *toxav_get_tox(ToxAv *av)
{
return (Tox *)av->messenger;
}

114
toxav/toxav.h Executable file → Normal file
View File

@ -29,7 +29,7 @@
/* vpx_image_t */
#include <vpx/vpx_image.h>
typedef void ( *ToxAVCallback ) ( void *arg );
typedef void ( *ToxAVCallback ) ( int32_t, void *arg );
typedef struct _ToxAv ToxAv;
#ifndef __TOX_DEFINED__
@ -67,7 +67,7 @@ typedef enum {
* @brief Call type identifier.
*/
typedef enum {
TypeAudio = 70,
TypeAudio = 192,
TypeVideo
} ToxAvCallType;
@ -87,6 +87,7 @@ typedef enum {
ErrorStartingVideoRtp = -8 , /* Error in toxav_prepare_transmission() */
ErrorTerminatingAudioRtp = -9, /* Returned in toxav_kill_transmission() */
ErrorTerminatingVideoRtp = -10, /* Returned in toxav_kill_transmission() */
ErrorPacketTooLarge = -11, /* Buffer exceeds size while encoding */
} ToxAvError;
@ -110,26 +111,16 @@ typedef struct _ToxAvCodecSettings {
uint32_t video_bitrate; /* In bits/s */
uint16_t video_width; /* In px */
uint16_t video_height; /* In px */
uint32_t audio_bitrate; /* In bits/s */
uint16_t audio_frame_duration; /* In ms */
uint32_t audio_sample_rate; /* In Hz */
uint32_t audio_channels;
uint32_t jbuf_capacity; /* Size of jitter buffer */
} ToxAvCodecSettings;
static const ToxAvCodecSettings av_DefaultSettings = {
1000000,
800,
600,
64000,
20,
48000,
1,
20
};
extern const ToxAvCodecSettings av_DefaultSettings;
/**
* @brief Start new A/V session. There can only be one session at the time. If you register more
@ -142,7 +133,7 @@ static const ToxAvCodecSettings av_DefaultSettings = {
* @return ToxAv*
* @retval NULL On error.
*/
ToxAv *toxav_new(Tox *messenger, ToxAvCodecSettings* codec_settings);
ToxAv *toxav_new(Tox *messenger, int32_t max_calls);
/**
* @brief Remove A/V session.
@ -172,7 +163,7 @@ void toxav_register_callstate_callback (ToxAVCallback callback, ToxAvCallbackID
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_call(ToxAv *av, int user, ToxAvCallType call_type, int ringing_seconds);
int toxav_call(ToxAv *av, int32_t *call_index, int user, ToxAvCallType call_type, int ringing_seconds);
/**
* @brief Hangup active call.
@ -182,7 +173,7 @@ int toxav_call(ToxAv *av, int user, ToxAvCallType call_type, int ringing_seconds
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_hangup(ToxAv *av);
int toxav_hangup(ToxAv *av, int32_t call_index);
/**
* @brief Answer incomming call.
@ -193,7 +184,7 @@ int toxav_hangup(ToxAv *av);
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_answer(ToxAv *av, ToxAvCallType call_type );
int toxav_answer(ToxAv *av, int32_t call_index, ToxAvCallType call_type );
/**
* @brief Reject incomming call.
@ -204,7 +195,7 @@ int toxav_answer(ToxAv *av, ToxAvCallType call_type );
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_reject(ToxAv *av, const char *reason);
int toxav_reject(ToxAv *av, int32_t call_index, const char *reason);
/**
* @brief Cancel outgoing request.
@ -216,7 +207,7 @@ int toxav_reject(ToxAv *av, const char *reason);
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_cancel(ToxAv* av, int peer_id, const char* reason);
int toxav_cancel(ToxAv *av, int32_t call_index, int peer_id, const char *reason);
/**
* @brief Terminate transmission. Note that transmission will be terminated without informing remote peer.
@ -226,7 +217,7 @@ int toxav_cancel(ToxAv* av, int peer_id, const char* reason);
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_stop_call(ToxAv *av);
int toxav_stop_call(ToxAv *av, int32_t call_index);
/**
* @brief Must be call before any RTP transmission occurs.
@ -237,7 +228,7 @@ int toxav_stop_call(ToxAv *av);
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_prepare_transmission(ToxAv *av, int support_video);
int toxav_prepare_transmission(ToxAv *av, int32_t call_index, ToxAvCodecSettings *codec_settings, int support_video);
/**
* @brief Call this at the end of the transmission.
@ -247,7 +238,7 @@ int toxav_prepare_transmission(ToxAv *av, int support_video);
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_kill_transmission(ToxAv *av);
int toxav_kill_transmission(ToxAv *av, int32_t call_index);
/**
* @brief Receive decoded video packet.
@ -258,7 +249,7 @@ int toxav_kill_transmission(ToxAv *av);
* @retval 0 Success.
* @retval ToxAvError On Error.
*/
int toxav_recv_video ( ToxAv *av, vpx_image_t **output);
int toxav_recv_video ( ToxAv *av, int32_t call_index, vpx_image_t **output);
/**
* @brief Receive decoded audio frame.
@ -272,21 +263,22 @@ int toxav_recv_video ( ToxAv *av, vpx_image_t **output);
* @retval >=0 Size of received data in frames/samples.
* @retval ToxAvError On error.
*/
int toxav_recv_audio( ToxAv *av, int frame_size, int16_t *dest );
int toxav_recv_audio( ToxAv *av, int32_t call_index, int frame_size, int16_t *dest );
/**
* @brief Encode and send video packet.
*
* @param av Handler.
* @param input The packet.
* @param frame The encoded frame.
* @param frame_size The size of the encoded frame.
* @return int
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_send_video ( ToxAv *av, vpx_image_t *input);
int toxav_send_video ( ToxAv *av, int32_t call_index, const uint8_t *frame, int frame_size);
/**
* @brief Encode and send audio frame.
* @brief Send audio frame.
*
* @param av Handler.
* @param frame The frame (raw 16 bit signed pcm with AUDIO_CHANNELS channels audio.)
@ -296,7 +288,35 @@ int toxav_send_video ( ToxAv *av, vpx_image_t *input);
* @retval 0 Success.
* @retval ToxAvError On error.
*/
int toxav_send_audio ( ToxAv *av, const int16_t *frame, int frame_size);
int toxav_send_audio ( ToxAv *av, int32_t call_index, const uint8_t *frame, int frame_size);
/**
* @brief Encode video frame
*
* @param av Handler
* @param dest Where to
* @param dest_max Max size
* @param input What to encode
* @return int
* @retval ToxAvError On error.
* @retval >0 On success
*/
int toxav_prepare_video_frame ( ToxAv *av, int32_t call_index, uint8_t *dest, int dest_max, vpx_image_t *input );
/**
* @brief Encode audio frame
*
* @param av Handler
* @param dest dest
* @param dest_max Max dest size
* @param frame The frame
* @param frame_size The frame size
* @return int
* @retval ToxAvError On error.
* @retval >0 On success
*/
int toxav_prepare_audio_frame ( ToxAv *av, int32_t call_index, uint8_t *dest, int dest_max, const int16_t *frame,
int frame_size);
/**
* @brief Get peer transmission type. It can either be audio or video.
@ -307,34 +327,48 @@ int toxav_send_audio ( ToxAv *av, const int16_t *frame, int frame_size);
* @retval ToxAvCallType On success.
* @retval ToxAvError On error.
*/
int toxav_get_peer_transmission_type ( ToxAv *av, int peer );
int toxav_get_peer_transmission_type ( ToxAv *av, int32_t call_index, int peer );
/**
* @brief Get id of peer participating in conversation
*
*
* @param av Handler
* @param peer peer index
* @return int
* @retval ToxAvError No peer id
*/
int toxav_get_peer_id ( ToxAv* av, int peer );
int toxav_get_peer_id ( ToxAv *av, int32_t call_index, int peer );
/**
* @brief Is certain capability supported
*
*
* @param av Handler
* @return int
* @retval 1 Yes.
* @retval 0 No.
*/
int toxav_capability_supported ( ToxAv* av, ToxAvCapabilities capability );
int toxav_capability_supported ( ToxAv *av, int32_t call_index, ToxAvCapabilities capability );
/**
* @brief Get messenger handle
*
* @param av Handler.
* @return Tox*
* @brief Set queue limit
*
* @param av Handler
* @param call_index index
* @param limit the limit
* @return void
*/
Tox* toxav_get_tox ( ToxAv* av );
int toxav_set_audio_queue_limit ( ToxAv *av, int32_t call_index, uint64_t limit );
/**
* @brief Set queue limit
*
* @param av Handler
* @param call_index index
* @param limit the limit
* @return void
*/
int toxav_set_video_queue_limit ( ToxAv *av, int32_t call_index, uint64_t limit );
Tox *toxav_get_tox(ToxAv *av);
#endif /* __TOXAV */

View File

@ -27,6 +27,8 @@
#include "config.h"
#endif
#include "logger.h"
#include "DHT.h"
#ifdef ENABLE_ASSOC_DHT
@ -347,18 +349,12 @@ static int client_or_ip_port_in_list(Client_data *list, uint32_t length, uint8_t
/* Refresh the client timestamp. */
if (ip_port.ip.family == AF_INET) {
#ifdef LOGGING
if (!ipport_equal(&list[i].assoc4.ip_port, &ip_port)) {
size_t x;
x = sprintf(logbuffer, "coipil[%u]: switching ipv4 from %s:%u ", i,
ip_ntoa(&list[i].assoc4.ip_port.ip), ntohs(list[i].assoc4.ip_port.port));
sprintf(logbuffer + x, "to %s:%u\n",
LOGGER_SCOPE( if (!ipport_equal(&list[i].assoc4.ip_port, &ip_port)) {
LOGGER_INFO("coipil[%u]: switching ipv4 from %s:%u to %s:%u", i,
ip_ntoa(&list[i].assoc4.ip_port.ip), ntohs(list[i].assoc4.ip_port.port),
ip_ntoa(&ip_port.ip), ntohs(ip_port.port));
loglog(logbuffer);
}
#endif
);
if (LAN_ip(list[i].assoc4.ip_port.ip) != 0 && LAN_ip(ip_port.ip) == 0)
return 1;
@ -367,18 +363,12 @@ static int client_or_ip_port_in_list(Client_data *list, uint32_t length, uint8_t
list[i].assoc4.timestamp = temp_time;
} else if (ip_port.ip.family == AF_INET6) {
#ifdef LOGGING
if (!ipport_equal(&list[i].assoc6.ip_port, &ip_port)) {
size_t x;
x = sprintf(logbuffer, "coipil[%u]: switching ipv6 from %s:%u ", i,
ip_ntoa(&list[i].assoc6.ip_port.ip), ntohs(list[i].assoc6.ip_port.port));
sprintf(logbuffer + x, "to %s:%u\n",
LOGGER_SCOPE( if (!ipport_equal(&list[i].assoc4.ip_port, &ip_port)) {
LOGGER_INFO("coipil[%u]: switching ipv6 from %s:%u to %s:%u", i,
ip_ntoa(&list[i].assoc6.ip_port.ip), ntohs(list[i].assoc6.ip_port.port),
ip_ntoa(&ip_port.ip), ntohs(ip_port.port));
loglog(logbuffer);
}
#endif
);
if (LAN_ip(list[i].assoc6.ip_port.ip) != 0 && LAN_ip(ip_port.ip) == 0)
return 1;
@ -400,10 +390,9 @@ static int client_or_ip_port_in_list(Client_data *list, uint32_t length, uint8_t
/* Initialize client timestamp. */
list[i].assoc4.timestamp = temp_time;
memcpy(list[i].client_id, client_id, CLIENT_ID_SIZE);
#ifdef LOGGING
sprintf(logbuffer, "coipil[%u]: switching client_id (ipv4) \n", i);
loglog(logbuffer);
#endif
LOGGER_DEBUG("coipil[%u]: switching client_id (ipv4)", i);
/* kill the other address, if it was set */
memset(&list[i].assoc6, 0, sizeof(list[i].assoc6));
return 1;
@ -411,10 +400,9 @@ static int client_or_ip_port_in_list(Client_data *list, uint32_t length, uint8_t
/* Initialize client timestamp. */
list[i].assoc6.timestamp = temp_time;
memcpy(list[i].client_id, client_id, CLIENT_ID_SIZE);
#ifdef LOGGING
sprintf(logbuffer, "coipil[%u]: switching client_id (ipv6) \n", i);
loglog(logbuffer);
#endif
LOGGER_DEBUG("coipil[%u]: switching client_id (ipv6)", i);
/* kill the other address, if it was set */
memset(&list[i].assoc4, 0, sizeof(list[i].assoc4));
return 1;
@ -602,18 +590,12 @@ int get_close_nodes(DHT *dht, uint8_t *client_id, Node_format *nodes_list, sa_fa
uint8_t num_found = Assoc_get_close_entries(dht->assoc, &request);
if (!num_found) {
#ifdef LOGGING
loglog("get_close_nodes(): Assoc_get_close_entries() returned zero nodes.\n");
#endif
LOGGER_DEBUG("get_close_nodes(): Assoc_get_close_entries() returned zero nodes");
return get_somewhat_close_nodes(dht, client_id, nodes_list, sa_family, is_LAN, want_good);
}
#ifdef LOGGING
sprintf(logbuffer, "get_close_nodes(): Assoc_get_close_entries() returned %i 'direct' and %i 'indirect' nodes.\n",
request.count_good, num_found - request.count_good);
loglog(logbuffer);
#endif
LOGGER_DEBUG("get_close_nodes(): Assoc_get_close_entries() returned %i 'direct' and %i 'indirect' nodes",
request.count_good, num_found - request.count_good);
uint8_t i, num_returned = 0;

View File

@ -33,6 +33,8 @@ libtoxcore_la_SOURCES = ../toxcore/DHT.h \
../toxcore/assoc.c \
../toxcore/onion.h \
../toxcore/onion.c \
../toxcore/logger.h \
../toxcore/logger.c \
../toxcore/onion_announce.h \
../toxcore/onion_announce.c \
../toxcore/onion_client.h \

View File

@ -25,6 +25,7 @@
#include "config.h"
#endif
#include "logger.h"
#include "Messenger.h"
#include "assoc.h"
#include "network.h"
@ -2054,6 +2055,7 @@ static int handle_packet(void *object, int i, uint8_t *temp, uint16_t len)
if (m->friend_action)
(*m->friend_action)(m, i, action_terminated, action_length, m->friend_action_userdata);
break;
}
@ -2339,7 +2341,7 @@ void do_messenger(Messenger *m)
#ifdef LOGGING
if (unix_time() > lastdump + DUMPING_CLIENTS_FRIENDS_EVERY_N_SECONDS) {
loglog(" = = = = = = = = \n");
#ifdef ENABLE_ASSOC_DHT
Assoc_status(m->dht->assoc);
#endif
@ -2348,12 +2350,10 @@ void do_messenger(Messenger *m)
size_t c;
for (c = 0; c < m->numchats; c++) {
loglog("---------------- \n");
Assoc_status(m->chats[c]->assoc);
}
}
loglog(" = = = = = = = = \n");
lastdump = unix_time();
uint32_t client, last_pinged;
@ -2370,14 +2370,12 @@ void do_messenger(Messenger *m)
if (last_pinged > 999)
last_pinged = 999;
snprintf(logbuffer, sizeof(logbuffer), "C[%2u] %s:%u [%3u] %s\n",
client, ip_ntoa(&assoc->ip_port.ip), ntohs(assoc->ip_port.port),
last_pinged, ID2String(cptr->client_id));
loglog(logbuffer);
LOGGER_INFO("C[%2u] %s:%u [%3u] %s",
client, ip_ntoa(&assoc->ip_port.ip), ntohs(assoc->ip_port.port),
last_pinged, ID2String(cptr->client_id));
}
}
loglog(" = = = = = = = = \n");
uint32_t friend, dhtfriend;
@ -2405,9 +2403,7 @@ void do_messenger(Messenger *m)
dht2m[m2dht[friend]] = friend;
if (m->numfriends != m->dht->num_friends) {
sprintf(logbuffer, "Friend num in DHT %u != friend num in msger %u\n",
m->dht->num_friends, m->numfriends);
loglog(logbuffer);
LOGGER_INFO("Friend num in DHT %u != friend num in msger %u\n", m->dht->num_friends, m->numfriends);
}
uint32_t ping_lastrecv;
@ -2428,14 +2424,11 @@ void do_messenger(Messenger *m)
if (ping_lastrecv > 999)
ping_lastrecv = 999;
snprintf(logbuffer, sizeof(logbuffer), "F[%2u:%2u] <%s> %02i [%03u] %s\n",
dht2m[friend], friend, msgfptr->name, msgfptr->crypt_connection_id,
ping_lastrecv, ID2String(msgfptr->client_id));
loglog(logbuffer);
LOGGER_INFO("F[%2u:%2u] <%s> %02i [%03u] %s",
dht2m[friend], friend, msgfptr->name, msgfptr->crypt_connection_id,
ping_lastrecv, ID2String(msgfptr->client_id));
} else {
snprintf(logbuffer, sizeof(logbuffer), "F[--:%2u] %s\n",
friend, ID2String(dhtfptr->client_id));
loglog(logbuffer);
LOGGER_INFO("F[--:%2u] %s", friend, ID2String(dhtfptr->client_id));
}
for (client = 0; client < MAX_FRIEND_CLIENTS; client++) {
@ -2450,19 +2443,16 @@ void do_messenger(Messenger *m)
if (last_pinged > 999)
last_pinged = 999;
snprintf(logbuffer, sizeof(logbuffer), "F[%2u] => C[%2u] %s:%u [%3u] %s\n",
friend, client, ip_ntoa(&assoc->ip_port.ip),
ntohs(assoc->ip_port.port), last_pinged,
ID2String(cptr->client_id));
loglog(logbuffer);
LOGGER_INFO("F[%2u] => C[%2u] %s:%u [%3u] %s",
friend, client, ip_ntoa(&assoc->ip_port.ip),
ntohs(assoc->ip_port.port), last_pinged,
ID2String(cptr->client_id));
}
}
}
loglog(" = = = = = = = = \n");
}
#endif
#endif /* LOGGING */
}
/*

View File

@ -3,6 +3,7 @@
#include "config.h"
#endif
#include "logger.h"
#include "DHT.h"
#include "assoc.h"
#include "ping.h"
@ -523,9 +524,7 @@ static void client_id_self_update(Assoc *assoc)
assoc->self_hash = id_hash(assoc, assoc->self_client_id);
}
#ifdef LOGGING
loglog("assoc: id is now set, purging cache of self-references...\n");
#endif
LOGGER_DEBUG("id is now set, purging cache of self-references");
/* if we already added some (or loaded some) entries,
* look and remove if we find a match
@ -820,10 +819,8 @@ Assoc *new_Assoc(size_t bits, size_t entries, uint8_t *public_id)
entries_test = prime_upto_min9(entries_test - 1);
if (entries_test != entries) {
#ifdef LOGGING
sprintf(logbuffer, "new_Assoc(): trimmed %i to %i.\n", (int)entries, (int)entries_test);
loglog(logbuffer);
#endif
LOGGER_DEBUG("trimmed %i to %i.\n", (int)entries, (int)entries_test);
entries = (size_t)entries_test;
}
}
@ -872,7 +869,7 @@ void Assoc_self_client_id_changed(Assoc *assoc, uint8_t *id)
#ifdef LOGGING
static char *idpart2str(uint8_t *id, size_t len);
#endif
#endif /* LOGGING */
/* refresh buckets */
void do_Assoc(Assoc *assoc, DHT *dht)
@ -928,53 +925,31 @@ void do_Assoc(Assoc *assoc, DHT *dht)
break;
}
#ifdef LOGGING
size_t total = 0, written = sprintf(logbuffer, "assoc: [%u] => ",
(uint32_t)(candidate % assoc->candidates_bucket_count));
if (written > 0)
total += written;
#endif
if (seen) {
IPPTsPng *ippts = seen->seen_family == AF_INET ? &seen->client.assoc4 : &seen->client.assoc6;
#ifdef LOGGING
written = sprintf(logbuffer + total, " S[%s...] %s:%u", idpart2str(seen->client.client_id, 8),
ip_ntoa(&ippts->ip_port.ip), htons(ippts->ip_port.port));
if (written > 0)
total += written;
LOGGER_DEBUG("[%u] => S[%s...] %s:%u", (uint32_t)(candidate % assoc->candidates_bucket_count),
idpart2str(seen->client.client_id, 8), ip_ntoa(&ippts->ip_port.ip), htons(ippts->ip_port.port));
#endif
DHT_getnodes(dht, &ippts->ip_port, seen->client.client_id, target_id);
seen->getnodes = unix_time();
}
if (heard && (heard != seen)) {
IP_Port *ipp = heard->heard_family == AF_INET ? &heard->assoc_heard4 : &heard->assoc_heard6;
#ifdef LOGGING
written = sprintf(logbuffer + total, " H[%s...] %s:%u", idpart2str(heard->client.client_id, 8), ip_ntoa(&ipp->ip),
htons(ipp->port));
if (written > 0)
total += written;
LOGGER_DEBUG("[%u] => H[%s...] %s:%u", (uint32_t)(candidate % assoc->candidates_bucket_count),
idpart2str(heard->client.client_id, 8), ip_ntoa(&ipp->ip), htons(ipp->port));
#endif
DHT_getnodes(dht, ipp, heard->client.client_id, target_id);
heard->getnodes = unix_time();
}
#ifdef LOGGING
LOGGER_SCOPE (
if (!heard && !seen)
sprintf(logbuffer + total, "no nodes to talk to??\n");
else
/* for arcane reasons, sprintf(str, "\n") doesn't function */
sprintf(logbuffer + total, "%s", "\n");
loglog(logbuffer);
#endif
if ( !heard && !seen )
LOGGER_DEBUG("[%u] => no nodes to talk to??", (uint32_t)(candidate % assoc->candidates_bucket_count));
);
}
}
@ -1008,11 +983,11 @@ static char *idpart2str(uint8_t *id, size_t len)
void Assoc_status(Assoc *assoc)
{
if (!assoc) {
loglog("Assoc status: no assoc\n");
LOGGER_INFO("Assoc status: no assoc");
return;
}
loglog("[b:p] hash => [id...] used, seen, heard\n");
LOGGER_INFO("[b:p] hash => [id...] used, seen, heard");
size_t bid, cid, total = 0;
@ -1023,24 +998,23 @@ void Assoc_status(Assoc *assoc)
Client_entry *entry = &bucket->list[cid];
if (entry->hash) {
sprintf(logbuffer, "[%3i:%3i] %08x => [%s...] %i, %i(%c), %i(%c)\n",
(int)bid, (int)cid, entry->hash, idpart2str(entry->client.client_id, 8),
entry->used_at ? (int)(unix_time() - entry->used_at) : 0,
entry->seen_at ? (int)(unix_time() - entry->seen_at) : 0,
entry->seen_at ? (entry->seen_family == AF_INET ? '4' : (entry->seen_family == AF_INET6 ? '6' : '?')) : '?',
entry->heard_at ? (int)(unix_time() - entry->heard_at) : 0,
entry->heard_at ? (entry->heard_family == AF_INET ? '4' : (entry->heard_family == AF_INET6 ? '6' : '?')) : '?');
loglog(logbuffer);
total++;
LOGGER_INFO("[%3i:%3i] %08x => [%s...] %i, %i(%c), %i(%c)\n",
(int)bid, (int)cid, entry->hash, idpart2str(entry->client.client_id, 8),
entry->used_at ? (int)(unix_time() - entry->used_at) : 0,
entry->seen_at ? (int)(unix_time() - entry->seen_at) : 0,
entry->seen_at ? (entry->seen_family == AF_INET ? '4' : (entry->seen_family == AF_INET6 ? '6' : '?')) : '?',
entry->heard_at ? (int)(unix_time() - entry->heard_at) : 0,
entry->heard_at ? (entry->heard_family == AF_INET ? '4' : (entry->heard_family == AF_INET6 ? '6' : '?')) : '?');
}
}
}
if (total) {
sprintf(logbuffer, "Total: %i entries, table usage %i%%.\n", (int)total,
(int)(total * 100 / (assoc->candidates_bucket_count * assoc->candidates_bucket_size)));
loglog(logbuffer);
LOGGER_INFO("Total: %i entries, table usage %i%%.\n", (int)total,
(int)(total * 100 / (assoc->candidates_bucket_count * assoc->candidates_bucket_size)));
}
}
#endif
#endif /* LOGGING */

View File

@ -98,6 +98,6 @@ void kill_Assoc(Assoc *assoc);
#ifdef LOGGING
void Assoc_status(Assoc *assoc);
#endif
#endif /* LOGGING */
#endif /* !__ASSOC_H__ */

153
toxcore/logger.c Normal file
View File

@ -0,0 +1,153 @@
/* logger.c
*
* Wrapping logger functions in nice macros
*
* Copyright (C) 2013 Tox project All Rights Reserved.
*
* This file is part of Tox.
*
* Tox is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Tox is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Tox. If not, see <http://www.gnu.org/licenses/>.
*
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif /* HAVE_CONFIG_H */
#include "logger.h"
#ifdef LOGGING
#include "network.h" /* for time */
#include <stdio.h>
#include <errno.h>
#include <stdlib.h>
#include <stdarg.h>
#include <inttypes.h>
#include <time.h>
#if defined(_WIN32) || defined(__WIN32__) || defined (WIN32)
#define strerror_r(errno,buf,len) strerror_s(buf,len,errno)
#endif
static struct logger_config {
FILE *log_file;
LoggerLevel level;
uint64_t start_time; /* Time when lib loaded */
}
logger = {
NULL,
DEBUG,
0
};
void __attribute__((destructor)) terminate_logger()
{
if ( !logger.log_file ) return;
time_t tim = time(NULL);
logger_write(ERROR, "\n============== Closing logger [%u] ==============\n"
"Time: %s", logger_get_pid(), asctime(localtime(&tim)));
fclose(logger.log_file);
}
unsigned logger_get_pid()
{
return
#if defined(_WIN32) || defined(__WIN32__) || defined (WIN32)
GetCurrentProcessId();
#else
getpid();
#endif
}
const char *logger_stringify_level(LoggerLevel level)
{
static const char *strings [] = {
"INFO",
"DEBUG",
"WARNING",
"ERROR"
};
return strings[level];
}
int logger_init(const char *file_name, LoggerLevel level)
{
char *final_l = calloc(sizeof(char), strlen(file_name) + 32);
sprintf(final_l, "%s"/*.%u"*/, file_name, logger_get_pid());
if ( logger.log_file ) {
fprintf(stderr, "Error opening logger name: %s with level %d: file already opened!\n", final_l, level);
free (final_l);
return -1;
}
logger.log_file = fopen(final_l, "ab");
if ( logger.log_file == NULL ) {
fprintf(stderr, "Error opening logger file: %s; info: %s\n", final_l, strerror(errno));
free (final_l);
return -1;
}
logger.level = level;
logger.start_time = current_time_monotonic();
time_t tim = time(NULL);
logger_write(ERROR, "\n============== Starting logger [%u] ==============\n"
"Time: %s", logger_get_pid(), asctime(localtime(&tim)));
free (final_l);
return 0;
}
void logger_write (LoggerLevel level, const char *format, ...)
{
if (logger.log_file == NULL) {
/*fprintf(stderr, "Logger file is NULL!\n");*/
return;
}
if (logger.level > level) return; /* Don't print some levels xuh */
va_list _arg;
va_start (_arg, format);
vfprintf (logger.log_file, format, _arg);
va_end (_arg);
fflush(logger.log_file);
}
char *logger_timestr(char *dest, size_t max_size)
{
uint64_t diff = (current_time_monotonic() - logger.start_time); /* ms */
snprintf(dest, max_size, "%"PRIu64"", diff);
return dest;
}
#endif /* LOGGING */

85
toxcore/logger.h Normal file
View File

@ -0,0 +1,85 @@
/* logger.h
*
* Wrapping logger functions in nice macros
*
* Copyright (C) 2013 Tox project All Rights Reserved.
*
* This file is part of Tox.
*
* Tox is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Tox is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Tox. If not, see <http://www.gnu.org/licenses/>.
*
*/
#ifndef __TOXLOGGER
#define __TOXLOGGER
#include <string.h>
// #define LOGGING
#ifdef LOGGING
typedef enum _LoggerLevel {
INFO,
DEBUG,
WARNING,
ERROR
} LoggerLevel;
/*
* Set 'level' as the lowest printable level
*/
int logger_init(const char *file_name, LoggerLevel level);
const char *logger_stringify_level(LoggerLevel level);
unsigned logger_get_pid();
void logger_write (LoggerLevel level, const char *format, ...);
char *logger_timestr (char *dest, size_t max_size);
#if defined(_WIN32) || defined(__WIN32__) || defined (WIN32)
#define _SFILE (strrchr(__FILE__, '\\') ? strrchr(__FILE__, '\\') + 1 : __FILE__)
#else
#define _SFILE (strrchr(__FILE__, '/') ? strrchr(__FILE__, '/') + 1 : __FILE__)
#endif
#define WRITE_FORMAT(__LEVEL__, format) char __time__[20]; char* the_str = calloc(sizeof(char), strlen(format)+ 500); sprintf(the_str, "\n[%u] [%s] [%s] [%s:%d %s()] %s", \
logger_get_pid(), logger_stringify_level(__LEVEL__), logger_timestr(__time__, 20), _SFILE, __LINE__, __func__, format)
/* Use these macros */
#define LOGGER_INIT(name, level) logger_init(name, level);
#define LOGGER_INFO(format, ...) do { WRITE_FORMAT(INFO, format); logger_write( INFO, the_str, ##__VA_ARGS__ ); free(the_str); } while (0)
#define LOGGER_DEBUG(format, ...) do { WRITE_FORMAT(DEBUG, format); logger_write( DEBUG, the_str, ##__VA_ARGS__ ); free(the_str); } while (0)
#define LOGGER_WARNING(format, ...) do { WRITE_FORMAT(WARNING, format); logger_write( WARNING, the_str, ##__VA_ARGS__ ); free(the_str); } while (0)
#define LOGGER_ERROR(format, ...) do { WRITE_FORMAT(ERROR, format); logger_write( ERROR, the_str, ##__VA_ARGS__ ); free(the_str); } while (0)
/* To do some checks or similar only when logging use this */
#define LOGGER_SCOPE(__SCOPE_DO__) do { __SCOPE_DO__ } while(0)
#else
#define LOGGER_INIT(name, level)
#define LOGGER_INFO(format, ...)
#define LOGGER_DEBUG(format, ...)
#define LOGGER_WARNING(format, ...)
#define LOGGER_ERROR(format, ...)
#define LOGGER_SCOPE(__SCOPE_DO__)
#endif /* LOGGING */
#endif /* __TOXLOGGER */

View File

@ -29,6 +29,8 @@
#include "config.h"
#endif
#include "logger.h"
#if !defined(_WIN32) && !defined(__WIN32__) && !defined (WIN32)
#include <errno.h>
#endif
@ -252,9 +254,29 @@ uint64_t current_time_monotonic(void)
return time;
}
#ifdef LOGGING
static void loglogdata(char *message, uint8_t *buffer, size_t buflen, IP_Port *ip_port, ssize_t res);
#endif
/* In case no logging */
#ifndef LOGGING
#define loglogdata(__message__, __buffer__, __buflen__, __ip_port__, __res__)
#else
#define data_0(__buflen__, __buffer__) __buflen__ > 4 ? ntohl(*(uint32_t *)&__buffer__[1]) : 0
#define data_1(__buflen__, __buffer__) __buflen__ > 7 ? ntohl(*(uint32_t *)&__buffer__[5]) : 0
#define loglogdata(__message__, __buffer__, __buflen__, __ip_port__, __res__) \
(__ip_port__) .ip; \
if (__res__ < 0) /* Windows doesn't necessarily know %zu */ \
LOGGER_INFO("[%2u] %s %3hu%c %s:%hu (%u: %s) | %04x%04x", \
__buffer__[0], __message__, (__buflen__ < 999 ? (uint16_t)__buflen__ : 999), 'E', \
ip_ntoa(&((__ip_port__).ip)), ntohs((__ip_port__).port), errno, strerror(errno), data_0(__buflen__, __buffer__), data_1(__buflen__, __buffer__)); \
else if ((__res__ > 0) && ((size_t)__res__ <= __buflen__)) \
LOGGER_INFO("[%2u] %s %3zu%c %s:%hu (%u: %s) | %04x%04x", \
__buffer__[0], __message__, (__res__ < 999 ? (size_t)__res__ : 999), ((size_t)__res__ < __buflen__ ? '<' : '='), \
ip_ntoa(&((__ip_port__).ip)), ntohs((__ip_port__).port), 0, "OK", data_0(__buflen__, __buffer__), data_1(__buflen__, __buffer__)); \
else /* empty or overwrite */ \
LOGGER_INFO("[%2u] %s %zu%c%zu %s:%hu (%u: %s) | %04x%04x", \
__buffer__[0], __message__, (size_t)__res__, (!__res__ ? '!' : '>'), __buflen__, \
ip_ntoa(&((__ip_port__).ip)), ntohs((__ip_port__).port), 0, "OK", data_0(__buflen__, __buffer__), data_1(__buflen__, __buffer__));
#endif /* LOGGING */
/* Basic network functions:
* Function to send packet(data) of length length to ip_port.
@ -313,9 +335,9 @@ int sendpacket(Networking_Core *net, IP_Port ip_port, uint8_t *data, uint32_t le
}
int res = sendto(net->sock, (char *) data, length, 0, (struct sockaddr *)&addr, addrsize);
#ifdef LOGGING
loglogdata("O=>", data, length, &ip_port, res);
#endif
loglogdata("O=>", data, length, ip_port, res);
if ((res >= 0) && ((uint32_t)res == length))
net->send_fail_eagain = 0;
@ -343,14 +365,10 @@ static int receivepacket(sock_t sock, IP_Port *ip_port, uint8_t *data, uint32_t
int fail_or_len = recvfrom(sock, (char *) data, MAX_UDP_PACKET_SIZE, 0, (struct sockaddr *)&addr, &addrlen);
if (fail_or_len < 0) {
#ifdef LOGGING
if ((fail_or_len < 0) && (errno != EWOULDBLOCK)) {
sprintf(logbuffer, "Unexpected error reading from socket: %u, %s\n", errno, strerror(errno));
loglog(logbuffer);
}
LOGGER_SCOPE( if ((fail_or_len < 0) && (errno != EWOULDBLOCK))
LOGGER_ERROR("Unexpected error reading from socket: %u, %s\n", errno, strerror(errno)); );
#endif
return -1; /* Nothing received. */
}
@ -375,9 +393,7 @@ static int receivepacket(sock_t sock, IP_Port *ip_port, uint8_t *data, uint32_t
} else
return -1;
#ifdef LOGGING
loglogdata("=>O", data, MAX_UDP_PACKET_SIZE, ip_port, *length);
#endif
loglogdata("=>O", data, MAX_UDP_PACKET_SIZE, *ip_port, *length);
return 0;
}
@ -400,10 +416,7 @@ void networking_poll(Networking_Core *net)
if (length < 1) continue;
if (!(net->packethandlers[data[0]].function)) {
#ifdef LOGGING
sprintf(logbuffer, "[%02u] -- Packet has no handler.\n", data[0]);
loglog(logbuffer);
#endif
LOGGER_WARNING("[%02u] -- Packet has no handler", data[0]);
continue;
}
@ -506,22 +519,15 @@ int networking_wait_execute(uint8_t *data, long seconds, long microseconds)
timeout.tv_usec = microseconds;
}
#ifdef LOGGING
errno = 0;
#endif
/* returns -1 on error, 0 on timeout, the socket on activity */
int res = select(nfds, &readfds, &writefds, &exceptfds, timeout_ptr);
#ifdef LOGGING
/* only dump if not timeout */
if (res) {
sprintf(logbuffer, "select(%d, %d): %d (%d, %s) - %d %d %d\n", microseconds, seconds, res, errno,
strerror(errno), FD_ISSET(s->sock, &readfds), FD_ISSET(s->sock, &writefds),
FD_ISSET(s->sock, &exceptfds));
loglog(logbuffer);
}
LOGGER_SCOPE(
#endif
if (res) LOGGER_INFO("select(%d, %d): %d (%d, %s) - %d %d %d\n", microseconds, seconds, res, errno,
strerror(errno), FD_ISSET(s->sock, &readfds), FD_ISSET(s->sock, &writefds),
FD_ISSET(s->sock, &exceptfds));
);
if (FD_ISSET(s->sock, &writefds)) {
s->send_fail_reset = 1;
@ -681,18 +687,10 @@ Networking_Core *new_networking(IP ip, uint16_t port)
if (ip.family == AF_INET6) {
#ifdef LOGGING
int is_dualstack =
#endif
#endif /* LOGGING */
set_socket_dualstack(temp->sock);
#ifdef LOGGING
if (is_dualstack) {
loglog("Dual-stack socket: enabled.\n");
} else {
loglog("Dual-stack socket: Failed to enable, won't be able to receive from/send to IPv4 addresses.\n");
}
#endif
LOGGER_DEBUG( "Dual-stack socket: %s",
is_dualstack ? "enabled" : "Failed to enable, won't be able to receive from/send to IPv4 addresses" );
/* multicast local nodes */
struct ipv6_mreq mreq;
memset(&mreq, 0, sizeof(mreq));
@ -701,20 +699,12 @@ Networking_Core *new_networking(IP ip, uint16_t port)
mreq.ipv6mr_multiaddr.s6_addr[15] = 0x01;
mreq.ipv6mr_interface = 0;
#ifdef LOGGING
errno = 0;
int res =
#endif
#endif /* LOGGING */
setsockopt(temp->sock, IPPROTO_IPV6, IPV6_ADD_MEMBERSHIP, (char *)&mreq, sizeof(mreq));
#ifdef LOGGING
if (res < 0) {
sprintf(logbuffer, "Failed to activate local multicast membership. (%u, %s)\n",
errno, strerror(errno));
loglog(logbuffer);
} else
loglog("Local multicast group FF02::1 joined successfully.\n");
#endif
LOGGER_DEBUG(res < 0 ? "Failed to activate local multicast membership. (%u, %s)" :
"Local multicast group FF02::1 joined successfully", errno, strerror(errno) );
}
/* a hanging program or a different user might block the standard port;
@ -742,12 +732,8 @@ Networking_Core *new_networking(IP ip, uint16_t port)
if (!res) {
temp->port = *portptr;
#ifdef LOGGING
loginit(temp->port);
sprintf(logbuffer, "Bound successfully to %s:%u.\n", ip_ntoa(&ip), ntohs(temp->port));
loglog(logbuffer);
#endif
LOGGER_DEBUG("Bound successfully to %s:%u", ip_ntoa(&ip), ntohs(temp->port));
/* errno isn't reset on success, only set on failure, the failed
* binds with parallel clients yield a -EPERM to the outside if
@ -1114,31 +1100,3 @@ int addr_resolve_or_parse_ip(const char *address, IP *to, IP *extra)
return 1;
};
#ifdef LOGGING
static char errmsg_ok[3] = "OK";
static void loglogdata(char *message, uint8_t *buffer, size_t buflen, IP_Port *ip_port, ssize_t res)
{
uint16_t port = ntohs(ip_port->port);
uint32_t data[2];
data[0] = buflen > 4 ? ntohl(*(uint32_t *)&buffer[1]) : 0;
data[1] = buflen > 7 ? ntohl(*(uint32_t *)&buffer[5]) : 0;
/* Windows doesn't necessarily know %zu */
if (res < 0) {
snprintf(logbuffer, sizeof(logbuffer), "[%2u] %s %3hu%c %s:%hu (%u: %s) | %04x%04x\n",
buffer[0], message, (buflen < 999 ? (uint16_t)buflen : 999), 'E',
ip_ntoa(&ip_port->ip), port, errno, strerror(errno), data[0], data[1]);
} else if ((res > 0) && ((size_t)res <= buflen))
snprintf(logbuffer, sizeof(logbuffer), "[%2u] %s %3zu%c %s:%hu (%u: %s) | %04x%04x\n",
buffer[0], message, (res < 999 ? (size_t)res : 999), ((size_t)res < buflen ? '<' : '='),
ip_ntoa(&ip_port->ip), port, 0, errmsg_ok, data[0], data[1]);
else /* empty or overwrite */
snprintf(logbuffer, sizeof(logbuffer), "[%2u] %s %zu%c%zu %s:%hu (%u: %s) | %04x%04x\n",
buffer[0], message, (size_t)res, (!res ? '!' : '>'), buflen,
ip_ntoa(&ip_port->ip), port, 0, errmsg_ok, data[0], data[1]);
logbuffer[sizeof(logbuffer) - 1] = 0;
loglog(logbuffer);
}
#endif

View File

@ -26,6 +26,7 @@
#endif
#include "Messenger.h"
#include "logger.h"
#define __TOX_DEFINED__
typedef struct Messenger Tox;
@ -788,6 +789,7 @@ int tox_isconnected(Tox *tox)
*/
Tox *tox_new(uint8_t ipv6enabled)
{
LOGGER_INIT(LOGGER_OUTPUT_FILE, LOGGER_LEVEL);
return new_messenger(ipv6enabled);
}

View File

@ -133,87 +133,3 @@ int load_state(load_state_callback_func load_state_callback, void *outer,
return length == 0 ? 0 : -1;
};
#ifdef LOGGING
time_t starttime = 0;
size_t logbufferprelen = 0;
char *logbufferpredata = NULL;
char *logbufferprehead = NULL;
char logbuffer[512];
static FILE *logfile = NULL;
void loginit(uint16_t port)
{
if (logfile)
fclose(logfile);
if (!starttime) {
unix_time_update();
starttime = unix_time();
}
struct tm *tm = localtime(&starttime);
/* "%F %T" might not be Windows compatible */
if (strftime(logbuffer + 32, sizeof(logbuffer) - 32, "%F %T", tm))
sprintf(logbuffer, "%u-%s.log", ntohs(port), logbuffer + 32);
else
sprintf(logbuffer, "%u-%lu.log", ntohs(port), starttime);
logfile = fopen(logbuffer, "w");
if (logbufferpredata) {
if (logfile)
fprintf(logfile, "%s", logbufferpredata);
free(logbufferpredata);
logbufferpredata = NULL;
}
};
void loglog(char *text)
{
if (logfile) {
fprintf(logfile, "%4u %s", (uint32_t)(unix_time() - starttime), text);
fflush(logfile);
return;
}
/* log messages before file was opened: store */
size_t len = strlen(text);
if (!starttime) {
unix_time_update();
starttime = unix_time();
logbufferprelen = 1024 + len - (len % 1024);
logbufferpredata = malloc(logbufferprelen);
logbufferprehead = logbufferpredata;
}
/* loginit() called meanwhile? (but failed to open) */
if (!logbufferpredata)
return;
if (len + (logbufferprehead - logbufferpredata) + 16U < logbufferprelen) {
size_t logpos = logbufferprehead - logbufferpredata;
size_t lennew = logbufferprelen * 1.4;
logbufferpredata = realloc(logbufferpredata, lennew);
logbufferprehead = logbufferpredata + logpos;
logbufferprelen = lennew;
}
int written = sprintf(logbufferprehead, "%4u %s", (uint32_t)(unix_time() - starttime), text);
logbufferprehead += written;
}
void logexit()
{
if (logfile) {
fclose(logfile);
logfile = NULL;
}
};
#endif

View File

@ -45,11 +45,4 @@ typedef int (*load_state_callback_func)(void *outer, uint8_t *data, uint32_t len
int load_state(load_state_callback_func load_state_callback, void *outer,
uint8_t *data, uint32_t length, uint16_t cookie_inner);
#ifdef LOGGING
extern char logbuffer[512];
void loginit(uint16_t port);
void loglog(char *text);
void logexit();
#endif
#endif /* __UTIL_H__ */