c732d49e |
#if HAVE_CRT
#define _CRTDBG_MAP_ALLOC
#include <stdlib.h>
#include <crtdbg.h>
#endif //HAVE_CRT
/*
* Copyright (C) 2017, University of the Basque Country (UPV/EHU)
* Contact for licensing options: <licensing-mcpttclient(at)mcopenplatform(dot)com>
*
* The original file was part of Open Source Doubango Framework
* Copyright (C) 2010-2011 Mamadou Diop.
* Copyright (C) 2012 Doubango Telecom <http://doubango.org>
*
* This file is part of Open Source Doubango Framework.
*
* DOUBANGO 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.
*
* DOUBANGO 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 DOUBANGO.
*
*/
/**@file tdav_session_t140.c
* @brief Session for T140 protocol (RFC 4103/5194/2198)
*/
#include "tinydav/t140/tdav_session_t140.h"
#include "tinydav/t140/tdav_consumer_t140.h"
#include "tinydav/t140/tdav_producer_t140.h"
#include "tinydav/codecs/fec/tdav_codec_red.h"
#include "tinymedia/tmedia_consumer.h"
#include "tinymedia/tmedia_producer.h"
#include "tinymedia/tmedia_defaults.h"
#include "tinyrtp/trtp_manager.h"
#include "tinyrtp/rtp/trtp_rtp_packet.h"
#include "tsk_debug.h"
#include <limits.h>
#define T140_BLOCKS_MAX_COUNT 20 /* number of blocks to buffer for packet loss detection and reordering */
#define T140_BLOCK_MAX_TRANSMIT_COUNT 4 /* maximum number of times to retransmit a bloc when RED is ON */
#define T140_ZERO_WIDTH_NO_BREAK_SPACE 0xEFBBBF /* send at the begining of the T.140 session */
#define T140_BACKSPACE 0x08
#define T140_ESC 0x1B
#define T140_CR 0x0D
#define T140_LF 0x0A
#define T140_CR_LF 0x0D0A
#define T140_BELL 0x07
#define T140_SOS 0x98
#define T140_STRING_TERM 0x9C
#define T140_GRAPHIC_START 0x9B
#define T140_GRAPHIC_END 0x6D
#define T140_LOSS_CHAR_CHAR 0xFFFD
#define T140_LOSS_UTF8 0xEFBFBD
#define T140_WAIT_FOR_MISSING_PKT_RED_OFF 500 /*Time to wait for missing pkts when RED is OFF (in ms) */
#define T140_WAIT_FOR_MISSING_PKT_RED_ON 3000 /*Time to wait for missing pkts when RED is ON (in ms) */
#define T140_WAIT_FOR_BUFFERING 300 /* Time to wait for buffering (T.140 blocks forming) */
#define T140_WAIT_FOR_IDLE 10000 /* Time to wait before entering in IDLE state */
static const char zero_width_no_break_space[3] =
{
(T140_ZERO_WIDTH_NO_BREAK_SPACE >> 16) & 0xFF,
(T140_ZERO_WIDTH_NO_BREAK_SPACE >> 8) & 0xFF,
T140_ZERO_WIDTH_NO_BREAK_SPACE & 0xFF
};
typedef struct t140_block_s
{
TSK_DECLARE_OBJECT;
uint8_t pt;
uint16_t seq_num;
uint32_t timestamp;
uint32_t transmit_count; // number of times this block have been transmitted
// whether the block have been forwarded to the end user for UI display or sent through the RTP channel
tsk_bool_t delivered;
// whether the block contains data skipped because too late
tsk_bool_t too_late;
struct{
uint8_t* ptr;
tsk_size_t size;
}data;
}
t140_block_t;
#define T140_BLOCK(self) ((t140_block_t*)(self))
extern const tsk_object_def_t *t140_block_def_t;
static int _tdav_session_t140_producer_enc_cb(const void* callback_data, const void* buffer, tsk_size_t size);
static int _tdav_session_t140_save_outgoing_data(tdav_session_t140_t* self, const void* data_ptr, tsk_size_t data_size);
static tsk_size_t _tdav_session_t140_encap_red(tdav_session_t140_t* self, void** out_data_ptr, tsk_size_t* out_data_size, tsk_bool_t *last_data);
static int _tdav_session_t140_rtp_cb(const void* callback_data, const struct trtp_rtp_packet_s* packet);
static int _tdav_session_t140_recv_red(tdav_session_t140_t* self, const struct trtp_rtp_packet_s* packet);
static int _tdav_session_t140_recv_raw(tdav_session_t140_t* self, const void* data_ptr, tsk_size_t data_size);
static int _tdav_session_t140_decode_and_deliver_blocks(tdav_session_t140_t* self, tsk_bool_t called_from_timer);
static int _tdav_session_t140_consume_data(tdav_session_t140_t* self, enum tmedia_t140_data_type_e data_type, const void *data_ptr, tsk_size_t data_size);
static int _tdav_session_t140_timer_cb(const void* arg, tsk_timer_id_t timer_id);
static int _tdav_session_t140_pred_block_with_transmit_count_more_than_or_equal(const tsk_list_item_t *item, const void *transmit_count);
static tsk_bool_t _tdav_session_t140_blocks_has_gap(tdav_session_t140_blocks_L_t* blocks);
static tsk_bool_t _tdav_session_t140_blocks_has_seqnum(tdav_session_t140_blocks_L_t* blocks, uint16_t seq_num);
static int _tdav_session_t140_blocks_add(tdav_session_t140_blocks_L_t* blocks, int64_t* blocks_count, t140_block_t** block, int64_t blocks_count_max);
static t140_block_t* _tdav_session_t140_block_create(uint8_t pt, uint16_t seq_num, uint32_t timestamp, tsk_bool_t delivered, const void* data_ptr, tsk_size_t data_size);
#define T140_RESIZE_BUFFER(_in_buff_ptr, _in_buff_size, _new_size) \
if((_in_buff_size) < (_new_size)){ \
if(!((_in_buff_ptr) = tsk_realloc((_in_buff_ptr), (_new_size)))){ \
TSK_DEBUG_ERROR("Failed to allocate new buffer"); \
(_in_buff_size) = 0; \
} \
(_in_buff_size) = _new_size; \
}
static int tdav_session_t140_send_data(tmedia_session_t* self, enum tmedia_t140_data_type_e data_type, const void* data_ptr, unsigned data_size);
#define tdav_session_t140_send_data_2(self, data_type) tdav_session_t140_send_data((self), (data_type), tsk_null, 0)
static int tdav_session_t140_set(tmedia_session_t* self, const tmedia_param_t* param)
{
int ret = 0;
tdav_session_t140_t* t140;
if(!self){
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
if(tdav_session_av_set(TDAV_SESSION_AV(self), param) == tsk_true){
return 0;
}
t140 = (tdav_session_t140_t*)self;
if(param->plugin_type == tmedia_ppt_consumer){
TSK_DEBUG_ERROR("Not expected consumer(%s)", param->key);
}
else if(param->plugin_type == tmedia_ppt_producer){
TSK_DEBUG_ERROR("Not expected producer_set(%s)", param->key);
}
else{
TSK_DEBUG_ERROR("Not expected producer_set(%s)", param->key);
}
return ret;
}
static int tdav_session_t140_get(tmedia_session_t* self, tmedia_param_t* param)
{
if(!self || !param){
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
if(tdav_session_av_get(TDAV_SESSION_AV(self), param) == tsk_true){
return 0;
}
TSK_DEBUG_ERROR("(%s) not expected param key for plugin_type=%d", param->key, param->plugin_type);
return -2;
}
static int tdav_session_t140_prepare(tmedia_session_t* self)
{
tdav_session_av_t* base = (tdav_session_av_t*)(self);
int ret;
if((ret = tdav_session_av_prepare(base))){
TSK_DEBUG_ERROR("tdav_session_av_prepare(t140) failed");
return ret;
}
if(base->rtp_manager){
ret = trtp_manager_set_rtp_callback(base->rtp_manager, _tdav_session_t140_rtp_cb, base);
}
return ret;
}
static int tdav_session_t140_start(tmedia_session_t* self)
{
int ret;
tdav_session_t140_t* t140;
const tmedia_codec_t* best_codec;
tdav_session_av_t* base;
if(!self){
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
t140 = (tdav_session_t140_t*)self;
base = (tdav_session_av_t*)self;
if(!(best_codec = tdav_session_av_get_best_neg_codec(base))){
TSK_DEBUG_ERROR("No codec matched");
return -2;
}
TSK_OBJECT_SAFE_FREE(t140->encoder.codec);
t140->encoder.codec = tsk_object_ref((tsk_object_t*)best_codec);
if((ret = tdav_session_av_start(base, best_codec))){
TSK_DEBUG_ERROR("tdav_session_av_start(t140) failed");
return ret;
}
if((ret = tsk_timer_manager_start(t140->h_timer)) != 0){
TSK_DEBUG_ERROR("Failed to start the timer");
return ret;
}
if(base->rtp_manager){
int pt;
t140->encoder.payload_type = t140->encoder.codec->neg_format ? atoi(t140->encoder.codec->neg_format) : atoi(t140->encoder.codec->format);
pt = base->red.codec ?
( base->red.codec->neg_format ? atoi(base->red.codec->neg_format) : atoi(base->red.codec->format) ) :
( t140->encoder.payload_type );
trtp_manager_set_payload_type(base->rtp_manager, pt);
}
t140->decoder.last_seq_num = -1;
t140->started = (ret == 0);
if(t140->started){
t140->encoder.timer_idle.timeout = T140_WAIT_FOR_IDLE;
t140->encoder.timer_buffering.timeout = T140_WAIT_FOR_BUFFERING;
t140->encoder.timer_idle.id = tsk_timer_manager_schedule(t140->h_timer, t140->encoder.timer_idle.timeout, _tdav_session_t140_timer_cb, t140);
TSK_DEBUG_INFO("T.140 - Start IDLE timer");
}
return ret;
}
static int tdav_session_t140_pause(tmedia_session_t* self)
{
return 0;
}
static int tdav_session_t140_stop(tmedia_session_t* self)
{
int ret;
ret = tsk_timer_manager_stop(TDAV_SESSION_T140(self)->h_timer);
ret = tdav_session_av_stop(TDAV_SESSION_AV(self));
TSK_OBJECT_SAFE_FREE(TDAV_SESSION_T140(self)->encoder.codec);
TSK_OBJECT_SAFE_FREE(TDAV_SESSION_T140(self)->decoder.codec);
TDAV_SESSION_T140(self)->started = tsk_false;
return ret;
}
static const tsdp_header_M_t* tdav_session_t140_get_lo(tmedia_session_t* self)
{
tsk_bool_t updated = tsk_false;
const tsdp_header_M_t* ret;
tdav_session_av_t* base = TDAV_SESSION_AV(self);
if(!(ret = tdav_session_av_get_lo(base, &updated))){
TSK_DEBUG_ERROR("tdav_session_av_get_lo(t140) failed");
return tsk_null;
}
if(updated){
tsk_safeobj_lock(base);
TSK_OBJECT_SAFE_FREE(TDAV_SESSION_T140(self)->encoder.codec);
tsk_safeobj_unlock(base);
}
return ret;
}
static int tdav_session_t140_set_ro(tmedia_session_t* self, const tsdp_header_M_t* ro)
{
int ret;
tsk_bool_t updated = tsk_false;
tdav_session_av_t* base = TDAV_SESSION_AV(self);
if((ret = tdav_session_av_set_ro(base, ro, &updated))){
TSK_DEBUG_ERROR("tdav_session_av_set_ro(t140) failed");
return ret;
}
if(updated){
tsk_safeobj_lock(base);
TSK_OBJECT_SAFE_FREE(TDAV_SESSION_T140(self)->encoder.codec);
tsk_safeobj_unlock(base);
}
return ret;
}
static int tdav_session_t140_set_ondata_cbfn(tmedia_session_t* self, const void* context, tmedia_session_t140_ondata_cb_f func)
{
tdav_session_t140_t* t140 = (tdav_session_t140_t*)self;
tdav_session_av_t* base = (tdav_session_av_t*)self;
if(!self){
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
t140->cb_ondata.context = context;
t140->cb_ondata.func = func;
if(base->consumer){
return tdav_consumer_t140_set_ondata_cbfn(TDAV_CONSUMER_T140(base->consumer), context, func);
}
return -2;
}
static int tdav_session_t140_send_data(tmedia_session_t* self, enum tmedia_t140_data_type_e data_type, const void* data_ptr, unsigned data_size)
{
tdav_session_av_t* base = (tdav_session_av_t*)self;
if(!self){
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
if(base->producer){
return tdav_producer_send_data(TDAV_PRODUCER_T140(base->producer), data_type, data_ptr, data_size);
}
return -2;
}
// RTP/RTCP callback (From the network to the consumer)
static int _tdav_session_t140_rtp_cb(const void* callback_data, const struct trtp_rtp_packet_s* packet)
{
tdav_session_t140_t* t140 = (tdav_session_t140_t*)callback_data;
tdav_session_av_t* base = (tdav_session_av_t*)callback_data;
if(!t140 || !packet || !packet->header){
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
if(!t140->started || !base->consumer){
TSK_DEBUG_ERROR("Not ready yet");
return -1;
}
if(packet->header->payload_type == base->red.payload_type){
//static void* __red_buffer_ptr = tsk_null; // Never used
//static tsk_size_t __red_buffer_size = 0; // Never used
if(!base->red.codec){
TSK_DEBUG_ERROR("No RED codec could be found");
return -2;
}
// Decode RED data
/* base->red.codec->plugin->decode(
base->red.codec,
(packet->payload.data ? packet->payload.data : packet->payload.data_const), packet->payload.size,
&__red_buffer_ptr, &__red_buffer_size,
packet->header
);
return 0;
*/
_tdav_session_t140_recv_red(t140, packet);
}
else{
tsk_size_t out_size;
// Find the codec to use to decode the RTP payload
if(!t140->decoder.codec || t140->decoder.payload_type != packet->header->payload_type){
tsk_istr_t format;
TSK_OBJECT_SAFE_FREE(t140->decoder.codec);
tsk_itoa(packet->header->payload_type, &format);
if(!(t140->decoder.codec = tmedia_codec_find_by_format(TMEDIA_SESSION(t140)->neg_codecs, format)) || !t140->decoder.codec->plugin || !t140->decoder.codec->plugin->decode){
TSK_DEBUG_ERROR("%s is not a valid payload for this session", format);
return -2;
}
t140->decoder.payload_type = packet->header->payload_type;
}
// Open codec if not already done
if(!TMEDIA_CODEC(t140->decoder.codec)->opened){
int ret;
tsk_safeobj_lock(base);
if((ret = tmedia_codec_open(t140->decoder.codec))){
tsk_safeobj_unlock(base);
TSK_OBJECT_SAFE_FREE(t140->decoder.codec);
TSK_DEBUG_ERROR("Failed to open [%s] codec", t140->decoder.codec->plugin->desc);
return ret;
}
tsk_safeobj_unlock(base);
}
// Decode data
out_size = t140->decoder.codec->plugin->decode(t140->decoder.codec, packet->payload.data, packet->payload.size, &t140->decoder.buffer, &t140->decoder.buffer_size, packet->header);
if(out_size){
_tdav_session_t140_recv_raw(t140, t140->decoder.buffer, out_size);
}
}
return 0;
}
// Producer callback (From the producer to the network). Will encode() data before sending
static int _tdav_session_t140_producer_enc_cb(const void* callback_data, const void* buffer, tsk_size_t size)
{
int ret = 0;
tdav_session_t140_t* t140 = (tdav_session_t140_t*)callback_data;
tdav_session_av_t* base = (tdav_session_av_t*)callback_data;
if(!t140){
TSK_DEBUG_ERROR("Null session");
return 0;
}
if(t140->started && base->rtp_manager && base->rtp_manager->is_started && t140->encoder.codec){
/* encode */
//tsk_size_t out_size = 0;
if(!base->rtp_manager->is_started){
TSK_DEBUG_ERROR("Not started");
return 0;
}
// Open codec if not already done
if(!t140->encoder.codec->opened){
tsk_safeobj_lock(base);
if((ret = tmedia_codec_open(t140->encoder.codec))){
tsk_safeobj_unlock(base);
TSK_DEBUG_ERROR("Failed to open [%s] codec", t140->encoder.codec->plugin->desc);
return -4;
}
tsk_safeobj_unlock(base);
}
ret = _tdav_session_t140_save_outgoing_data(t140, buffer, size);
// start buffering timer if not already done
if(!TSK_TIMER_ID_IS_VALID(t140->encoder.timer_buffering.id)){
TSK_DEBUG_INFO("T.140 - Schedule buffering timer");
t140->encoder.timer_buffering.id = tsk_timer_manager_schedule(t140->h_timer, t140->encoder.timer_buffering.timeout, _tdav_session_t140_timer_cb, t140);
}
//if((t140->encoder.codec = tsk_object_ref(t140->encoder.codec))){ /* Thread safeness (SIP reINVITE or UPDATE could update the encoder) */
//out_size = t140->encoder.codec->plugin->encode(t140->encoder.codec, buffer, size, &t140->encoder.buffer, &t140->encoder.buffer_size);
//if(out_size){
// trtp_manager_send_rtp(base->rtp_manager, t140->encoder.buffer, out_size, TMEDIA_CODEC_PCM_FRAME_SIZE(t140->encoder.codec), tsk_false/*Marker*/, tsk_true/*lastPacket*/);
//}
//tsk_object_unref(t140->encoder.codec);
//}
}
return ret;
}
// save data before sending (when timer fires)
static int _tdav_session_t140_save_outgoing_data(tdav_session_t140_t* self, const void* data_ptr, tsk_size_t data_size)
{
tdav_session_av_t* base = (tdav_session_av_t*)self;
if(!self || !data_ptr || !data_size){
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
tsk_safeobj_lock(base);
T140_RESIZE_BUFFER(self->encoder.buffer, self->encoder.buffer_size, (self->encoder.buffer_idx + data_size));
if(self->encoder.buffer && self->encoder.buffer_size){
memcpy(&((uint8_t*)self->encoder.buffer)[self->encoder.buffer_idx], data_ptr, data_size);
self->encoder.buffer_idx += data_size;
}
tsk_safeobj_unlock(base);
return 0;
}
// encapsulated data for sending
static tsk_size_t _tdav_session_t140_encap_red(tdav_session_t140_t* self, void** out_data_ptr, tsk_size_t* out_data_size, tsk_bool_t *last_data)
{
tdav_session_av_t* base = (tdav_session_av_t*)self;
t140_block_t* block, *block_curr = tsk_null;
t140_block_t* red_blocks[T140_BLOCK_MAX_TRANSMIT_COUNT] = { tsk_null };
tsk_size_t red_blocks_idx, idx, red_blocks_size, red_blocks_hdrs_size;
tsk_list_item_t* item;
uint16_t rtp_seq_num;
uint32_t* pout_data_ptr32;
uint8_t* pout_data_ptr8;
static const uint32_t max_transmit_count = T140_BLOCK_MAX_TRANSMIT_COUNT;
if(!self || !base->rtp_manager || !out_data_ptr || !out_data_size || !last_data){
TSK_DEBUG_ERROR("Invalid parameter");
return 0;
}
*last_data = tsk_false;
tsk_safeobj_lock(base);
tsk_list_lock(self->encoder.blocks);
// cancel IDLE timer
if(TSK_TIMER_ID_IS_VALID(self->encoder.timer_idle.id)){
tsk_timer_manager_cancel(self->h_timer, self->encoder.timer_idle.id);
self->encoder.timer_idle.id = TSK_INVALID_TIMER_ID;
TSK_DEBUG_INFO("T.140 - Cancel IDLE timer");
}
rtp_seq_num = base->rtp_manager->rtp.seq_num;
if(self->encoder.buffer && self->encoder.buffer_idx){
block_curr = _tdav_session_t140_block_create(self->encoder.payload_type, rtp_seq_num, 0, tsk_false, self->encoder.buffer, self->encoder.buffer_idx);
self->encoder.buffer_idx = 0;
}
// build RED blocks
red_blocks_idx = 0;
tsk_list_foreach(item, self->encoder.blocks){
if(!(block = item->data) || (block->transmit_count + 1) >= T140_BLOCK_MAX_TRANSMIT_COUNT){
continue;
}
if(block->seq_num <= rtp_seq_num && (idx = (rtp_seq_num - block->seq_num)) < T140_BLOCK_MAX_TRANSMIT_COUNT){
++block->transmit_count; // increment transmission count
red_blocks[(T140_BLOCK_MAX_TRANSMIT_COUNT - idx - 1)] = block; // backwards counting
++red_blocks_idx;
}
if((red_blocks_idx + 1) >= T140_BLOCK_MAX_TRANSMIT_COUNT){
break;
}
}
// compute RED blocks size
red_blocks_hdrs_size = ((T140_BLOCK_MAX_TRANSMIT_COUNT - 1) << 2) + 1;
red_blocks_size = red_blocks_hdrs_size;
for(idx = 0; idx < T140_BLOCK_MAX_TRANSMIT_COUNT; ++idx){
if(red_blocks[idx] && red_blocks[idx]->data.ptr && red_blocks[idx]->data.size){
red_blocks_size += red_blocks[idx]->data.size;
}
}
if(block_curr && block_curr->data.ptr && block_curr->data.size){
red_blocks_size += block_curr->data.size;
}
// resize output buffer
T140_RESIZE_BUFFER(*out_data_ptr, *out_data_size, red_blocks_size);
if(!*out_data_ptr) {
red_blocks_size = 0;
goto bail;
}
// compute RED headers
pout_data_ptr32 = (uint32_t*)*out_data_ptr;
for(idx = 0; idx < T140_BLOCK_MAX_TRANSMIT_COUNT; ++idx){
if((idx + 1) == T140_BLOCK_MAX_TRANSMIT_COUNT){ // last header ?
*((uint8_t*)&pout_data_ptr32[idx]) = (self->encoder.payload_type & 0x7F); // F=0 | PT
}
else{
pout_data_ptr32[idx] = tnet_htonl(
( (0x80 | (self->encoder.payload_type & 0x7F)) << 24 ) | // F=1 | PT
( 0x0000 << 8 ) | // imestamp offset
( red_blocks[idx] ? (red_blocks[idx]->data.size & 0xFF) : 0x00 ) // block length
);
}
}
// compute RED data
pout_data_ptr8 = &((uint8_t*)*out_data_ptr)[red_blocks_hdrs_size];
for(idx = 0; idx < T140_BLOCK_MAX_TRANSMIT_COUNT; ++idx){
if(red_blocks[idx] && red_blocks[idx]->data.ptr && red_blocks[idx]->data.size){
memcpy(pout_data_ptr8, red_blocks[idx]->data.ptr, red_blocks[idx]->data.size);
pout_data_ptr8 += red_blocks[idx]->data.size;
}
}
if(block_curr && block_curr->data.ptr && block_curr->data.size){
memcpy(pout_data_ptr8, block_curr->data.ptr, block_curr->data.size);
pout_data_ptr8 += block_curr->data.size;
}
if((*last_data = (red_blocks_hdrs_size == red_blocks_size))){
// no data available -> clear items, send empty block, schedule idle timer, cancel buffering timer
if(TSK_TIMER_ID_IS_VALID(self->encoder.timer_buffering.id)){
tsk_timer_manager_cancel(self->h_timer, self->encoder.timer_buffering.id);
self->encoder.timer_buffering.id = TSK_INVALID_TIMER_ID;
TSK_DEBUG_INFO("T.140 - Cancel buffering timer");
}
self->encoder.timer_idle.id = tsk_timer_manager_schedule(self->h_timer, self->encoder.timer_idle.timeout, _tdav_session_t140_timer_cb, self);
TSK_DEBUG_INFO("T.140 - Schedule IDLE timer");
tsk_list_clear_items(self->encoder.blocks);
}
else{
// clean up all blocks retransmitted more than max times
while(tsk_list_remove_item_by_pred(self->encoder.blocks, _tdav_session_t140_pred_block_with_transmit_count_more_than_or_equal, &max_transmit_count)) ;
}
bail:
if(block_curr){
_tdav_session_t140_blocks_add(self->encoder.blocks, &self->encoder.blocks_count, &block_curr, INT_MAX);
TSK_OBJECT_SAFE_FREE(block_curr);
}
tsk_list_unlock(self->encoder.blocks);
tsk_safeobj_unlock(base);
return red_blocks_size;
}
// decode data from RTP channel
static int _tdav_session_t140_recv_red(tdav_session_t140_t* self, const struct trtp_rtp_packet_s* packet)
{
const uint8_t* pdata;
const uint8_t* red_hdr;
tsk_size_t red_hdrs_count, i, in_size;
tsk_bool_t last, block_add;
uint8_t F, pt;
int32_t pkt_loss_start = -1, pkt_loss_count, seq_num;
uint16_t timestamp_offset, block_length;
if(!self || !packet || !packet->header || !(packet->payload.data || packet->payload.data_const) || (packet->payload.size < TDAV_CODEC_RED_MIN_PKT_SIZE)){
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
pdata = red_hdr = packet->payload.data ? packet->payload.data : packet->payload.data_const;
in_size = packet->payload.size;
if((F = (pdata[0] & 0x80)) == 0){
i = 1;
red_hdrs_count = 1;
}
else{
for(i = 0, red_hdrs_count = 0; i < in_size; i+= 4, ++red_hdrs_count){
if((F = (pdata[i] & 0x80)) == 0){ ++i; ++red_hdrs_count; break; }
}
}
if(i == in_size){
TSK_DEBUG_INFO("T.140 - Empty block");
return 0;
}
pdata += i;
in_size -= i;
if(self->decoder.last_seq_num != -1 && (self->decoder.last_seq_num + 1) != packet->header->seq_num){
pkt_loss_start = (self->decoder.last_seq_num + 1);
pkt_loss_count = (packet->header->seq_num - pkt_loss_start);
TSK_DEBUG_INFO("T.140 - Packet loss[curr=%d, loss_start=%d, loss_count=%d]", packet->header->seq_num, pkt_loss_start, pkt_loss_count);
}
for(i = 0, block_add = tsk_false; i < red_hdrs_count; ++i, block_add = tsk_false){
last = (i == (red_hdrs_count - 1));
F = (red_hdr[0] & 0x80);
pt = (red_hdr[0] & 0x7F);
if(last || !F){
/*
0 1 2 3 4 5 6 7
+-+-+-+-+-+-+-+-+
|0| Block PT |
+-+-+-+-+-+-+-+-+
*/
block_length = (uint16_t)in_size;
seq_num = packet->header->seq_num;
timestamp_offset = 0;
block_add = tsk_true;
}
else{
/*
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|1| block PT=7 | timestamp offset | block length |
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
*/
seq_num = (int32_t)(packet->header->seq_num - (red_hdrs_count - 1 - i)); // inferred by counting backwards
block_add = (pkt_loss_start != -1 && (seq_num <= pkt_loss_start && pkt_loss_start >= seq_num));
timestamp_offset = ((red_hdr[1] << 8) | red_hdr[2]) >> 2;
block_length = ((red_hdr[2] & 0x03) << 8) | red_hdr[3];
/* block_add &= (block_length > 0); */ // take empty block to avoid scheduling pkt loss timer
if(pkt_loss_start != -1){
TSK_DEBUG_INFO("retransmit seq_num=%d, takken=%d", seq_num, block_add);
}
if(block_length > in_size){
TSK_DEBUG_ERROR("Invalid 'block length'");
break;
}
red_hdr += 4;
}
if(block_add && !_tdav_session_t140_blocks_has_seqnum(self->decoder.blocks, seq_num)){
t140_block_t* block = _tdav_session_t140_block_create(
pt,
seq_num,
(packet->header->timestamp + timestamp_offset),
tsk_false,
pdata,
block_length);
_tdav_session_t140_blocks_add(self->decoder.blocks, &self->decoder.blocks_count, &block, T140_BLOCKS_MAX_COUNT);
TSK_OBJECT_SAFE_FREE(block);
}
pdata += block_length;
in_size -= block_length;
}
self->decoder.last_seq_num = packet->header->seq_num;
return _tdav_session_t140_decode_and_deliver_blocks(self, tsk_false);
}
static int _tdav_session_t140_recv_raw(tdav_session_t140_t* self, const void* data_ptr, tsk_size_t data_size)
{
tsk_size_t i, j, cmd_extra_len, utf8_start, utf8_end;
tsk_bool_t is_cmd;
enum tmedia_t140_data_type_e cmd_type;
const uint8_t* _data_ptr = (const uint8_t*)data_ptr;
if(!self || !data_ptr || !data_size){
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
for(i = 0, j = 0, is_cmd = tsk_false, cmd_extra_len = 0; i < data_size; ++i, is_cmd = tsk_false, cmd_extra_len = 0){
switch(_data_ptr[i]){
case T140_BACKSPACE:
{
TSK_DEBUG_INFO("T.140 - BACKSPACE");
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_backspace;
break;
}
case T140_ESC:
{
TSK_DEBUG_INFO("T.140 - ESC");
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_esc;
break;
}
case T140_LF:
{
TSK_DEBUG_INFO("T.140 - LF");
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_lf;
break;
}
case T140_CR:
{
if((i + 1) < data_size && _data_ptr[i + 1] == T140_LF){
// CR_LF
TSK_DEBUG_INFO("T.140 - CRLF");
cmd_extra_len = 1;
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_cr_lf;
}
else{
// CR
TSK_DEBUG_INFO("T.140 - CR");
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_cr;
}
break;
}
case T140_BELL:
{
TSK_DEBUG_INFO("T.140 - BELL");
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_bell;
break;
}
case T140_SOS:
{
TSK_DEBUG_INFO("T.140 - SOS");
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_sos;
break;
}
case T140_STRING_TERM:
{
TSK_DEBUG_INFO("T.140 - ST");
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_string_term;
break;
}
case (T140_LOSS_CHAR_CHAR >> 8):
{
if((i + 1) < data_size && _data_ptr[i + 1] == (T140_LOSS_CHAR_CHAR & 0xFF)){
TSK_DEBUG_INFO("T.140 - LOSS_CHAR_CHAR");
cmd_extra_len = 1;
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_loss_char_char;
}
break;
}
case T140_GRAPHIC_START:
{
TSK_DEBUG_INFO("T.140 - GRAPHIC_START");
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_graphic_start;
break;
}
case T140_GRAPHIC_END:
{
TSK_DEBUG_INFO("T.140 - GRAPHIC_END");
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_graphic_end;
break;
}
// case (T140_ZERO_WIDTH_NO_BREAK_SPACE >> 16):
// case (T140_LOSS_UTF8 >> 16):
case 0xEF:
{
if((i + 2) < data_size && _data_ptr[i + 1] == ((T140_ZERO_WIDTH_NO_BREAK_SPACE >> 8) & 0xFF) && _data_ptr[i + 2] == (T140_ZERO_WIDTH_NO_BREAK_SPACE & 0xFF)){
TSK_DEBUG_INFO("T.140 - ZERO_WIDTH_NO_BREAK_SPACE");
cmd_extra_len = 2;
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_zero_width_no_break_space;
}
else if((i + 2) < data_size && _data_ptr[i + 1] == ((T140_LOSS_UTF8 >> 8) & 0xFF) && _data_ptr[i + 2] == (T140_LOSS_UTF8 & 0xFF)){
TSK_DEBUG_INFO("T.140 - LOSS_UTF8");
cmd_extra_len = 2;
is_cmd = tsk_true;
cmd_type = tmedia_t140_data_type_loss_utf8;
}
break;
}
}//switch
if(is_cmd || ((i + 1) >= data_size)){
utf8_start = j;
utf8_end = utf8_start + ( (j < i || (j == i && !is_cmd)) ? (i - j + 1) : 0 );
if(utf8_start < utf8_end){ // there is utf8 data to deliver
_tdav_session_t140_consume_data(self, tmedia_t140_data_type_utf8, &_data_ptr[utf8_start], (utf8_end - utf8_start));
}
if(is_cmd){ // there is cmd data to deliver
i += cmd_extra_len;
_tdav_session_t140_consume_data(self, cmd_type, tsk_null, 0);
}
j = i;
}
}// for
return 0;
}
static int _tdav_session_t140_decode_and_deliver_blocks(tdav_session_t140_t* self, tsk_bool_t called_from_timer)
{
tdav_session_av_t* base = (tdav_session_av_t*)self;
if(!self){
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
tsk_safeobj_lock(base);
tsk_list_lock(self->decoder.blocks);
if(!called_from_timer && _tdav_session_t140_blocks_has_gap(self->decoder.blocks)){
self->decoder.timer_pkt_loss.timeout = (base->red.codec ? T140_WAIT_FOR_MISSING_PKT_RED_ON : T140_WAIT_FOR_MISSING_PKT_RED_OFF);
self->decoder.timer_pkt_loss.id = tsk_timer_manager_schedule(self->h_timer, self->decoder.timer_pkt_loss.timeout, _tdav_session_t140_timer_cb, self);
}
else{
const tsk_list_item_t* item;
const t140_block_t* block;
tsk_list_foreach(item, self->decoder.blocks){
if(!(block = (const t140_block_t*)item->data) || block->delivered || block->too_late){
continue;
}
if(block->data.ptr && block->data.size){
_tdav_session_t140_recv_raw(self, block->data.ptr, block->data.size);
}
((t140_block_t*)block)->delivered = tsk_true;
}
}
tsk_list_unlock(self->decoder.blocks);
tsk_safeobj_unlock(base);
return 0;
}
static int _tdav_session_t140_consume_data(tdav_session_t140_t* self, enum tmedia_t140_data_type_e data_type, const void *data_ptr, tsk_size_t data_size)
{
tdav_session_av_t* base = (tdav_session_av_t*)self;
if(!self || !base->consumer){
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
T140_RESIZE_BUFFER(self->decoder.consumer_buffer, self->decoder.consumer_buffer_size, (data_size + 4));
if(self->decoder.consumer_buffer){
*((int32_t*)self->decoder.consumer_buffer) = data_type;
if(data_ptr && data_size){
memcpy(&((uint8_t*)self->decoder.consumer_buffer)[4], data_ptr, data_size);
}
tmedia_consumer_consume(base->consumer, self->decoder.consumer_buffer, (data_size + 4), tsk_null);
}
return 0;
}
static int _tdav_session_t140_pred_block_with_transmit_count_more_than_or_equal(const tsk_list_item_t *item, const void *transmit_count)
{
if(item && item->data){
t140_block_t *block = item->data;
return (block->transmit_count >= *((uint32_t*)transmit_count)) ? 0 : -1;
}
return -1;
}
static int _tdav_session_t140_timer_cb(const void* arg, tsk_timer_id_t timer_id)
{
tdav_session_t140_t* t140 = (tdav_session_t140_t*)arg;
tdav_session_av_t* base = (tdav_session_av_t*)arg;
static const tsk_bool_t called_from_timer = tsk_true;
int ret = 0;
tsk_safeobj_lock(base);
if(timer_id == t140->decoder.timer_pkt_loss.id){
ret = _tdav_session_t140_decode_and_deliver_blocks(t140, called_from_timer);
}
else if(timer_id == t140->encoder.timer_idle.id){
ret = tdav_session_t140_send_data_2(TMEDIA_SESSION(t140), tmedia_t140_data_type_zero_width_no_break_space);
t140->encoder.timer_idle.id = tsk_timer_manager_schedule(t140->h_timer, t140->encoder.timer_idle.timeout, _tdav_session_t140_timer_cb, t140);
}
else if(timer_id == t140->encoder.timer_buffering.id){
void* buffer_ptr;
tsk_size_t buffer_size;
tsk_bool_t was_idle = TSK_TIMER_ID_IS_VALID(t140->encoder.timer_idle.id);
tsk_bool_t last_data = tsk_false;
if(base->red.codec){
// encapsulated red data and schedule timers if required
buffer_size = _tdav_session_t140_encap_red(t140, &t140->encoder.red_buffer, &t140->encoder.red_buffer_size, &last_data);
buffer_ptr = t140->encoder.red_buffer;
}
else{
// send buffered data
buffer_ptr = t140->encoder.buffer;
buffer_size = t140->encoder.buffer_idx;
last_data = tsk_true;
t140->encoder.buffer_idx = 0;
}
if(buffer_ptr && buffer_size){
trtp_manager_send_rtp(base->rtp_manager, buffer_ptr, buffer_size, 300, was_idle, last_data);
}
t140->encoder.timer_buffering.id = last_data
? TSK_INVALID_TIMER_ID
: tsk_timer_manager_schedule(t140->h_timer, t140->encoder.timer_buffering.timeout, _tdav_session_t140_timer_cb, t140);
}
tsk_safeobj_unlock(base);
return ret;
}
//=================================================================================================
// Session Audio Plugin object definition
//
/* constructor */
static tsk_object_t* tdav_session_t140_ctor(tsk_object_t * self, va_list * app)
{
tdav_session_t140_t *t140 = self;
if(t140){
int ret;
tdav_session_av_t *base = TDAV_SESSION_AV(self);
/* init() base */
if((ret = tdav_session_av_init(base, tmedia_t140)) != 0){
TSK_DEBUG_ERROR("tdav_session_av_init(t140) failed");
return tsk_null;
}
/* init() self */
t140->encoder.timer_buffering.id = t140->decoder.timer_pkt_loss.id = TSK_INVALID_TIMER_ID;
if(base->producer){
tmedia_producer_set_enc_callback(base->producer, _tdav_session_t140_producer_enc_cb, t140);
}
if(base->consumer){
}
if(!(t140->encoder.blocks = tsk_list_create())){
TSK_DEBUG_ERROR("Failed to create encoder blocks list");
return tsk_null;
}
if(!(t140->decoder.blocks = tsk_list_create())){
TSK_DEBUG_ERROR("Failed to create decoder blocks list");
return tsk_null;
}
if(!(t140->h_timer = tsk_timer_manager_create())){
TSK_DEBUG_ERROR("Failed to create timer manager");
return tsk_null;
}
}
return self;
}
/* destructor */
static tsk_object_t* tdav_session_t140_dtor(tsk_object_t * self)
{
tdav_session_t140_t *t140 = self;
if(t140){
tdav_session_t140_stop((tmedia_session_t*)t140);
TSK_OBJECT_SAFE_FREE(t140->h_timer);
// Do it in this order (deinit self first)
TSK_OBJECT_SAFE_FREE(t140->encoder.codec);
TSK_FREE(t140->encoder.buffer);
TSK_FREE(t140->encoder.red_buffer);
TSK_OBJECT_SAFE_FREE(t140->encoder.blocks);
TSK_OBJECT_SAFE_FREE(t140->decoder.codec);
TSK_FREE(t140->decoder.buffer);
TSK_FREE(t140->decoder.consumer_buffer);
TSK_OBJECT_SAFE_FREE(t140->decoder.blocks);
/* deinit base */
tdav_session_av_deinit(TDAV_SESSION_AV(self));
}
return self;
}
/* object definition */
static const tsk_object_def_t tdav_session_t140_def_s =
{
sizeof(tdav_session_t140_t),
tdav_session_t140_ctor,
tdav_session_t140_dtor,
tmedia_session_cmp,
};
/* plugin definition*/
static const tmedia_session_plugin_def_t tdav_session_t140_plugin_def_s =
{
&tdav_session_t140_def_s,
tmedia_t140,
"text",
tdav_session_t140_set,
tdav_session_t140_get,
tdav_session_t140_prepare,
tdav_session_t140_start,
tdav_session_t140_pause,
tdav_session_t140_stop,
/* Audio part */
{0},
tdav_session_t140_get_lo,
tdav_session_t140_set_ro,
/* T.140 part */
{
tdav_session_t140_set_ondata_cbfn,
tdav_session_t140_send_data
}
};
const tmedia_session_plugin_def_t *tdav_session_t140_plugin_def_t = &tdav_session_t140_plugin_def_s;
//=================================================================================================
// T140Block object definition
//
static tsk_object_t* t140_block_ctor(tsk_object_t * self, va_list * app)
{
t140_block_t *block = self;
if(block){
}
return self;
}
static tsk_object_t* t140_block_dtor(tsk_object_t * self)
{
t140_block_t *block = self;
if(block){
TSK_FREE(block->data.ptr);
}
return self;
}
static int t140_block_cmp(const tsk_object_t *_b1, const tsk_object_t *_b2)
{
const t140_block_t *b1 = _b1;
const t140_block_t *b2 = _b2;
if(b1 && b2){
return (int)(b1->seq_num - b2->seq_num);
}
else if(!b1 && !b2) return 0;
else return -1;
}
static const tsk_object_def_t t140_block_def_s =
{
sizeof(t140_block_t),
t140_block_ctor,
t140_block_dtor,
t140_block_cmp,
};
const tsk_object_def_t *t140_block_def_t = &t140_block_def_s;
static tsk_bool_t _tdav_session_t140_blocks_has_gap(tdav_session_t140_blocks_L_t* blocks)
{
if(blocks && !TSK_LIST_IS_EMPTY(blocks)){
const tsk_list_item_t* item;
int32_t last_seq_num = -1;
tsk_bool_t has_gap = tsk_false;
tsk_list_lock(blocks);
tsk_list_foreach(item, blocks){
if(last_seq_num > 0 && ((last_seq_num + 1) != T140_BLOCK(item->data)->seq_num)){
has_gap = tsk_true;
}
last_seq_num = T140_BLOCK(item->data)->seq_num;
if(has_gap){
break;
}
}
tsk_list_unlock(blocks);
return has_gap;
}
return tsk_false;
}
static tsk_bool_t _tdav_session_t140_blocks_has_seqnum(tdav_session_t140_blocks_L_t* blocks, uint16_t seq_num)
{
if(blocks){
const tsk_list_item_t* item;
tsk_bool_t has_seqnum = tsk_false;
tsk_list_lock(blocks);
tsk_list_foreach(item, blocks){
if(seq_num == T140_BLOCK(item->data)->seq_num){
has_seqnum = tsk_true;
break;
}
}
tsk_list_unlock(blocks);
return has_seqnum;
}
return tsk_false;
}
static int _tdav_session_t140_blocks_add(tdav_session_t140_blocks_L_t* blocks, int64_t* blocks_count, t140_block_t** block, int64_t blocks_count_max)
{
if(blocks && blocks_count && block){
tsk_list_lock(blocks);
if(tsk_list_push_ascending_data(blocks, (void**)block) == 0){
if((*blocks_count = (*blocks_count) + 1) > blocks_count_max){
tsk_list_item_t* first_item = tsk_list_pop_first_item(blocks);
TSK_OBJECT_SAFE_FREE(first_item);
}
}
tsk_list_unlock(blocks);
}
return 0;
}
static t140_block_t* _tdav_session_t140_block_create(uint8_t pt, uint16_t seq_num, uint32_t timestamp, tsk_bool_t delivered, const void* data_ptr, tsk_size_t data_size)
{
void* _data_ptr = tsk_null;
t140_block_t* block = tsk_null;
if(data_ptr && data_size){
#if HAVE_CRT //Debug memory
if(!(_data_ptr = malloc(data_size))){
#else
if(!(_data_ptr = tsk_malloc(data_size))){
#endif //HAVE_CRT
TSK_DEBUG_ERROR("Failed to alloc data with size = %u", data_size);
goto bail;
}
memcpy(_data_ptr, data_ptr, data_size);
}
if(!(block = tsk_object_new(t140_block_def_t))){
TSK_DEBUG_ERROR("Failed to create new block object");
goto bail;
}
if(_data_ptr){
block->data.ptr = _data_ptr, _data_ptr = tsk_null;
block->data.size = data_size;
}
block->pt = pt;
block->seq_num = seq_num;
block->timestamp = timestamp;
bail:
TSK_FREE(_data_ptr);
return block;
} |