toxcore/toxrtp/toxrtp.c
2013-10-13 16:16:47 +02:00

694 lines
21 KiB
C

/* rtp_impl.c
*
* Rtp implementation includes rtp_session_s struct which is a session identifier.
* It contains session information and it's a must for every session.
* It's best if you don't touch any variable directly but use callbacks to do so. !Red!
*
*
* 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 "toxrtp.h"
#include "toxrtp_message.h"
#include "toxrtp_helper.h"
#include <assert.h>
#include <pthread.h>
#include "../toxcore/util.h"
#include "../toxcore/network.h"
/* Some defines */
#define PAYLOAD_ID_VALUE_OPUS 1
#define PAYLOAD_ID_VALUE_VP8 2
#define size_32 4
/* End of defines */
#ifdef _USE_ERRORS
#include "toxrtp_error_id.h"
#endif /* _USE_ERRORS */
static const uint32_t _payload_table[] = /* PAYLOAD TABLE */
{
8000, 8000, 8000, 8000, 8000, 8000, 16000, 8000, 8000, 8000, /* 0-9 */
44100, 44100, 0, 0, 90000, 8000, 11025, 22050, 0, 0, /* 10-19 */
0, 0, 0, 0, 0, 90000, 90000, 0, 90000, 0, /* 20-29 */
0, 90000, 90000, 90000, 90000, 0, 0, 0, 0, 0, /* 30-39 */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 40-49 */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 50-59 */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 60-69 */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 70-79 */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 80-89 */
0, 0, 0, 0, 0, 0, PAYLOAD_ID_VALUE_OPUS, 0, 0, 0, /* 90-99 */
0, 0, 0, 0, 0, 0, PAYLOAD_ID_VALUE_VP8, 0, 0, 0, /* 100-109 */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 110-119 */
0, 0, 0, 0, 0, 0, 0, 0 /* 120-127 */
};
/* Current compatibility solution */
int m_sendpacket(Networking_Core* _core_handler, void *ip_port, uint8_t *data, uint32_t length)
{
return sendpacket(_core_handler, *((IP_Port*) ip_port), data, length);
}
rtp_session_t* rtp_init_session ( int max_users, int _multi_session )
{
#ifdef _USE_ERRORS
REGISTER_RTP_ERRORS
#endif /* _USE_ERRORS */
rtp_session_t* _retu = calloc(sizeof(rtp_session_t), 1);
assert(_retu);
_retu->_dest_list = _retu->_last_user = NULL;
_retu->_max_users = max_users;
_retu->_packets_recv = 0;
_retu->_packets_sent = 0;
_retu->_bytes_sent = 0;
_retu->_bytes_recv = 0;
_retu->_last_error = NULL;
_retu->_packet_loss = 0;
/*
* SET HEADER FIELDS
*/
_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 */
_retu->_cc = 1; /* It basically represents amount of contributors */
_retu->_csrc = NULL; /* Container */
_retu->_ssrc = t_random ( -1 );
_retu->_marker = 0;
_retu->_payload_type = 0; /* You should specify payload type */
/* Sequence starts at random number and goes to _MAX_SEQU_NUM */
_retu->_sequence_number = t_random ( _MAX_SEQU_NUM );
_retu->_last_sequence_number = _retu->_sequence_number; /* Do not touch this variable */
_retu->_initial_time = t_time(); /* In seconds */
assert(_retu->_initial_time);
_retu->_time_elapsed = 0; /* In seconds */
_retu->_ext_header = NULL; /* When needed allocate */
_retu->_exthdr_framerate = -1;
_retu->_exthdr_resolution = -1;
_retu->_csrc = calloc(sizeof(uint32_t), 1);
assert(_retu->_csrc);
_retu->_csrc[0] = _retu->_ssrc; /* Set my ssrc to the list receive */
_retu->_prefix_length = 0;
_retu->_prefix = NULL;
_retu->_multi_session = _multi_session;
/* Initial */
_retu->_current_framerate = 0;
_retu->_oldest_msg = _retu->_last_msg = NULL;
pthread_mutex_init(&_retu->_mutex, NULL);
/*
*
*/
return _retu;
}
int rtp_terminate_session ( rtp_session_t* _session )
{
if ( !_session )
return FAILURE;
if ( _session->_dest_list ){
rtp_dest_list_t* _fordel = NULL;
rtp_dest_list_t* _tmp = _session->_dest_list;
while( _tmp ){
_fordel = _tmp;
_tmp = _tmp->next;
free(_fordel);
}
}
if ( _session->_ext_header )
free ( _session->_ext_header );
if ( _session->_csrc )
free ( _session->_csrc );
if ( _session->_prefix )
free ( _session->_prefix );
pthread_mutex_destroy(&_session->_mutex);
/* And finally free session */
free ( _session );
return SUCCESS;
}
uint16_t rtp_get_resolution_marking_height ( rtp_ext_header_t* _header, uint32_t _position )
{
if ( _header->_ext_type & RTP_EXT_TYPE_RESOLUTION )
return _header->_hd_ext[_position];
else
return 0;
}
uint16_t rtp_get_resolution_marking_width ( rtp_ext_header_t* _header, uint32_t _position )
{
if ( _header->_ext_type & RTP_EXT_TYPE_RESOLUTION )
return ( _header->_hd_ext[_position] >> 16 );
else
return 0;
}
void rtp_free_msg ( rtp_session_t* _session, rtp_msg_t* _message )
{
free ( _message->_data );
if ( !_session ){
free ( _message->_header->_csrc );
if ( _message->_ext_header ){
free ( _message->_ext_header->_hd_ext );
free ( _message->_ext_header );
}
} else {
if ( _session->_csrc != _message->_header->_csrc )
free ( _message->_header->_csrc );
if ( _message->_ext_header && _session->_ext_header != _message->_ext_header ) {
free ( _message->_ext_header->_hd_ext );
free ( _message->_ext_header );
}
}
free ( _message->_header );
free ( _message );
}
rtp_header_t* rtp_build_header ( rtp_session_t* _session )
{
rtp_header_t* _retu;
_retu = calloc ( sizeof * _retu, 1 );
assert(_retu);
rtp_header_add_flag_version ( _retu, _session->_version );
rtp_header_add_flag_padding ( _retu, _session->_padding );
rtp_header_add_flag_extension ( _retu, _session->_extension );
rtp_header_add_flag_CSRC_count ( _retu, _session->_cc );
rtp_header_add_setting_marker ( _retu, _session->_marker );
rtp_header_add_setting_payload ( _retu, _session->_payload_type );
_retu->_sequence_number = _session->_sequence_number;
_session->_time_elapsed = t_time() - _session->_initial_time;
_retu->_timestamp = t_time();
_retu->_ssrc = _session->_ssrc;
if ( _session->_cc > 0 ) {
_retu->_csrc = calloc(sizeof(uint32_t), _session->_cc);
assert(_retu->_csrc);
int i;
for ( i = 0; i < _session->_cc; i++ ) {
_retu->_csrc[i] = _session->_csrc[i];
}
} else {
_retu->_csrc = NULL;
}
_retu->_length = _MIN_HEADER_LENGTH + ( _session->_cc * size_32 );
return _retu;
}
void rtp_set_payload_type ( rtp_session_t* _session, uint8_t _payload_value )
{
_session->_payload_type = _payload_value;
}
uint32_t rtp_get_payload_type ( rtp_session_t* _session )
{
return _payload_table[_session->_payload_type];
}
int rtp_add_receiver ( rtp_session_t* _session, tox_IP_Port* _dest )
{
if ( !_session )
return FAILURE;
rtp_dest_list_t* _new_user = calloc(sizeof(rtp_dest_list_t), 1);
assert(_new_user);
_new_user->next = NULL;
_new_user->_dest = *_dest;
if ( _session->_last_user == NULL ) { /* New member */
_session->_dest_list = _session->_last_user = _new_user;
} else { /* Append */
_session->_last_user->next = _new_user;
_session->_last_user = _new_user;
}
return SUCCESS;
}
int rtp_send_msg ( rtp_session_t* _session, rtp_msg_t* _msg, void* _core_handler )
{
if ( !_msg || _msg->_data == NULL || _msg->_length <= 0 ) {
t_perror ( RTP_ERROR_EMPTY_MESSAGE );
return FAILURE;
}
int _last;
unsigned long long _total = 0;
size_t _length = _msg->_length;
uint8_t _send_data [ MAX_UDP_PACKET_SIZE ];
uint16_t _prefix_length = _session->_prefix_length;
_send_data[0] = 70;
if ( _session->_prefix && _length + _prefix_length < MAX_UDP_PACKET_SIZE ) {
/*t_memcpy(_send_data, _session->_prefix, _prefix_length);*/
t_memcpy ( _send_data + 1, _msg->_data, _length );
} else {
t_memcpy ( _send_data + 1, _msg->_data, _length );
}
/* Set sequ number */
if ( _session->_sequence_number >= _MAX_SEQU_NUM ) {
_session->_sequence_number = 0;
} else {
_session->_sequence_number++;
}
/* Start sending loop */
rtp_dest_list_t* _it;
for ( _it = _session->_dest_list; _it != NULL; _it = _it->next ) {
_last = m_sendpacket ( _core_handler, &_it->_dest, _send_data, _length + 1);
if ( _last < 0 ) {
t_perror ( RTP_ERROR_STD_SEND_FAILURE );
printf("Stderror: %s", strerror(errno));
} else {
_session->_packets_sent ++;
_total += _last;
}
}
rtp_free_msg ( _session, _msg );
_session->_bytes_sent += _total;
return SUCCESS;
}
rtp_msg_t* rtp_recv_msg ( rtp_session_t* _session )
{
if ( !_session )
return NULL;
rtp_msg_t* _retu = _session->_oldest_msg;
pthread_mutex_lock(&_session->_mutex);
if ( _retu )
_session->_oldest_msg = _retu->_next;
if ( !_session->_oldest_msg )
_session->_last_msg = NULL;
pthread_mutex_unlock(&_session->_mutex);
return _retu;
}
void rtp_store_msg ( rtp_session_t* _session, rtp_msg_t* _msg )
{
if ( rtp_check_late_message(_session, _msg) < 0 ) {
rtp_register_msg(_session, _msg);
}
pthread_mutex_lock(&_session->_mutex);
if ( _session->_last_msg ) {
_session->_last_msg->_next = _msg;
_session->_last_msg = _msg;
} else {
_session->_last_msg = _session->_oldest_msg = _msg;
}
pthread_mutex_unlock(&_session->_mutex);
return;
}
int rtp_release_session_recv ( rtp_session_t* _session )
{
if ( !_session ){
return FAILURE;
}
rtp_msg_t* _tmp,* _it;
pthread_mutex_lock(&_session->_mutex);
for ( _it = _session->_oldest_msg; _it; _it = _tmp ){
_tmp = _it->_next;
rtp_free_msg(_session, _it);
}
_session->_last_msg = _session->_oldest_msg = NULL;
pthread_mutex_unlock(&_session->_mutex);
return SUCCESS;
}
rtp_msg_t* rtp_msg_new ( rtp_session_t* _session, const uint8_t* _data, uint32_t _length )
{
if ( !_session )
return NULL;
uint8_t* _from_pos;
rtp_msg_t* _retu = calloc(sizeof(rtp_msg_t), 1);
assert(_retu);
/* Sets header values and copies the extension header in _retu */
_retu->_header = rtp_build_header ( _session ); /* It allocates memory and all */
_retu->_ext_header = _session->_ext_header;
uint32_t _total_lenght = _length + _retu->_header->_length;
if ( _retu->_ext_header ) {
_total_lenght += ( _MIN_EXT_HEADER_LENGTH + _retu->_ext_header->_ext_len * size_32 );
/* Allocate Memory for _retu->_data */
_retu->_data = calloc ( sizeof _retu->_data, _total_lenght );
assert(_retu->_data);
_from_pos = rtp_add_header ( _retu->_header, _retu->_data );
_from_pos = rtp_add_extention_header ( _retu->_ext_header, _from_pos + 1 );
} else {
/* Allocate Memory for _retu->_data */
_retu->_data = calloc ( sizeof _retu->_data, _total_lenght );
assert(_retu->_data);
_from_pos = rtp_add_header ( _retu->_header, _retu->_data );
}
/*
* Parses the extension header into the message
* Of course if any
*/
/* Appends _data on to _retu->_data */
t_memcpy ( _from_pos + 1, _data, _length );
_retu->_length = _total_lenght;
_retu->_next = NULL;
return _retu;
}
rtp_msg_t* rtp_msg_parse ( rtp_session_t* _session, const uint8_t* _data, uint32_t _length )
{
rtp_msg_t* _retu = calloc(sizeof(rtp_msg_t), 1);
assert(_retu);
_retu->_header = rtp_extract_header ( _data, _length ); /* It allocates memory and all */
if ( !_retu->_header ){
free(_retu);
return NULL;
}
_retu->_length = _length - _retu->_header->_length;
uint16_t _from_pos = _retu->_header->_length;
if ( rtp_header_get_flag_extension ( _retu->_header ) ) {
_retu->_ext_header = rtp_extract_ext_header ( _data + _from_pos, _length );
if ( _retu->_ext_header ){
_retu->_length -= ( _MIN_EXT_HEADER_LENGTH + _retu->_ext_header->_ext_len * size_32 );
_from_pos += ( _MIN_EXT_HEADER_LENGTH + _retu->_ext_header->_ext_len * size_32 );
} else {
free (_retu->_ext_header);
free (_retu->_header);
free (_retu);
return NULL;
}
} else {
_retu->_ext_header = NULL;
}
/* Get the payload */
_retu->_data = calloc ( sizeof ( uint8_t ), _retu->_length );
assert(_retu->_data);
t_memcpy ( _retu->_data, _data + _from_pos, _length - _from_pos );
_retu->_next = NULL;
if ( _session && !_session->_multi_session && rtp_check_late_message(_session, _retu) < 0 ){
rtp_register_msg(_session, _retu);
}
return _retu;
}
int rtp_check_late_message (rtp_session_t* _session, rtp_msg_t* _msg)
{
/*
* Check Sequence number. If this new msg has lesser number then the _session->_last_sequence_number
* it shows that the message came in late
*/
if ( _msg->_header->_sequence_number < _session->_last_sequence_number &&
_msg->_header->_timestamp < _session->_current_timestamp
) {
return SUCCESS; /* Drop the packet. You can check if the packet dropped by checking _packet_loss increment. */
}
return FAILURE;
}
void rtp_register_msg ( rtp_session_t* _session, rtp_msg_t* _msg )
{
_session->_last_sequence_number = _msg->_header->_sequence_number;
_session->_current_timestamp = _msg->_header->_timestamp;
}
int rtp_add_resolution_marking ( rtp_session_t* _session, uint16_t _width, uint16_t _height )
{
if ( !_session )
return FAILURE;
rtp_ext_header_t* _ext_header = _session->_ext_header;
_session->_exthdr_resolution = 0;
if ( ! ( _ext_header ) ) {
_session->_ext_header = calloc (sizeof(rtp_ext_header_t), 1);
assert(_session->_ext_header);
_session->_extension = 1;
_session->_ext_header->_ext_len = 1;
_ext_header = _session->_ext_header;
_session->_ext_header->_hd_ext = calloc(sizeof(uint32_t), 1);
assert(_session->_ext_header->_hd_ext);
} else { /* If there is need for more headers this will be needed to change */
if ( !(_ext_header->_ext_type & RTP_EXT_TYPE_RESOLUTION) ){
uint32_t _exthdr_framerate = _ext_header->_hd_ext[_session->_exthdr_framerate];
/* it's position is at 2nd place by default */
_session->_exthdr_framerate ++;
/* Update length */
_ext_header->_ext_len++;
/* Allocate the value */
_ext_header->_hd_ext = realloc(_ext_header->_hd_ext, sizeof(rtp_ext_header_t) * _ext_header->_ext_len);
assert(_ext_header->_hd_ext);
/* Reset other values */
_ext_header->_hd_ext[_session->_exthdr_framerate] = _exthdr_framerate;
}
}
/* Add flag */
_ext_header->_ext_type |= RTP_EXT_TYPE_RESOLUTION;
_ext_header->_hd_ext[_session->_exthdr_resolution] = _width << 16 | ( uint32_t ) _height;
return SUCCESS;
}
int rtp_remove_resolution_marking ( rtp_session_t* _session )
{
if ( _session->_extension == 0 || ! ( _session->_ext_header ) ) {
t_perror ( RTP_ERROR_INVALID_EXTERNAL_HEADER );
return FAILURE;
}
if ( !( _session->_ext_header->_ext_type & RTP_EXT_TYPE_RESOLUTION ) ) {
t_perror ( RTP_ERROR_INVALID_EXTERNAL_HEADER );
return FAILURE;
}
_session->_ext_header->_ext_type &= ~RTP_EXT_TYPE_RESOLUTION; /* Remove the flag */
_session->_exthdr_resolution = -1; /* Remove identifier */
/* Check if extension is empty */
if ( _session->_ext_header->_ext_type == 0 ){
free ( _session->_ext_header->_hd_ext );
free ( _session->_ext_header );
_session->_ext_header = NULL; /* It's very important */
_session->_extension = 0;
} else {
_session->_ext_header->_ext_len --;
/* this will also be needed to change if there are more than 2 headers */
if ( _session->_ext_header->_ext_type & RTP_EXT_TYPE_FRAMERATE ){
memcpy(_session->_ext_header->_hd_ext + 1, _session->_ext_header->_hd_ext, _session->_ext_header->_ext_len);
_session->_exthdr_framerate = 0;
_session->_ext_header->_hd_ext = realloc( _session->_ext_header->_hd_ext, sizeof( rtp_ext_header_t ) * _session->_ext_header->_ext_len );
assert(_session->_ext_header->_hd_ext);
}
}
return SUCCESS;
}
int rtp_add_framerate_marking ( rtp_session_t* _session, uint32_t _value )
{
if ( !_session )
return FAILURE;
rtp_ext_header_t* _ext_header = _session->_ext_header;
_session->_exthdr_framerate = 0;
if ( ! ( _ext_header ) ) {
_session->_ext_header = calloc (sizeof(rtp_ext_header_t), 1);
assert(_session->_ext_header);
_session->_extension = 1;
_session->_ext_header->_ext_len = 1;
_ext_header = _session->_ext_header;
_session->_ext_header->_hd_ext = calloc(sizeof(uint32_t), 1);
assert(_session->_ext_header->_hd_ext);
} else { /* If there is need for more headers this will be needed to change */
if ( !(_ext_header->_ext_type & RTP_EXT_TYPE_FRAMERATE) ){
/* it's position is at 2nd place by default */
_session->_exthdr_framerate ++;
/* Update length */
_ext_header->_ext_len++;
/* Allocate the value */
_ext_header->_hd_ext = realloc(_ext_header->_hd_ext, sizeof(rtp_ext_header_t) * _ext_header->_ext_len);
assert(_ext_header->_hd_ext);
}
}
/* Add flag */
_ext_header->_ext_type |= RTP_EXT_TYPE_FRAMERATE;
_ext_header->_hd_ext[_session->_exthdr_framerate] = _value;
return SUCCESS;
}
int rtp_remove_framerate_marking ( rtp_session_t* _session )
{
if ( _session->_extension == 0 || ! ( _session->_ext_header ) ) {
t_perror ( RTP_ERROR_INVALID_EXTERNAL_HEADER );
return FAILURE;
}
if ( !( _session->_ext_header->_ext_type & RTP_EXT_TYPE_FRAMERATE ) ) {
t_perror ( RTP_ERROR_INVALID_EXTERNAL_HEADER );
return FAILURE;
}
_session->_ext_header->_ext_type &= ~RTP_EXT_TYPE_FRAMERATE; /* Remove the flag */
_session->_exthdr_framerate = -1; /* Remove identifier */
_session->_ext_header->_ext_len --;
/* Check if extension is empty */
if ( _session->_ext_header->_ext_type == 0 ){
free ( _session->_ext_header->_hd_ext );
free ( _session->_ext_header );
_session->_ext_header = NULL; /* It's very important */
_session->_extension = 0;
} else if ( !_session->_ext_header->_ext_len ) {
/* this will also be needed to change if there are more than 2 headers */
_session->_ext_header->_hd_ext = realloc( _session->_ext_header->_hd_ext, sizeof( rtp_ext_header_t ) * _session->_ext_header->_ext_len );
assert(_session->_ext_header->_hd_ext);
}
return SUCCESS;
}
uint32_t rtp_get_framerate_marking ( rtp_ext_header_t* _header )
{
if ( _header->_ext_len == 1 ){
return _header->_hd_ext[0];
} else {
return _header->_hd_ext[1];
}
}
int rtp_set_prefix ( rtp_session_t* _session, uint8_t* _prefix, uint16_t _prefix_length )
{
if ( !_session )
return FAILURE;
if ( _session->_prefix ) {
free ( _session->_prefix );
}
_session->_prefix = calloc ( ( sizeof * _session->_prefix ), _prefix_length );
assert(_session->_prefix);
t_memcpy ( _session->_prefix, _prefix, _prefix_length );
_session->_prefix_length = _prefix_length;
return SUCCESS;
}