/*
* Copyright (C) 2020, 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_codec_h264_cisco.cxx
* @brief H.264 codec plugin using OpenH264 (https://github.com/cisco/openh264) v1.1 for encoding/decoding.
*/
#include "tinydav/codecs/h264/tdav_codec_h264_cisco.h"
#if HAVE_OPENH264
#include "tinydav/codecs/h264/tdav_codec_h264_common.h"
#include "tinyrtp/rtp/trtp_rtp_packet.h"
#include "tinymedia/tmedia_codec.h"
#include "tinymedia/tmedia_params.h"
#include "tinymedia/tmedia_defaults.h"
#include "tsk_mutex.h"
#include "tsk_params.h"
#include "tsk_memory.h"
#include "tsk_debug.h"
extern "C" {
#include <wels/codec_api.h>
#include <wels/codec_app_def.h>
}
typedef struct tdav_codec_h264_cisco_s
{
TDAV_DECLARE_CODEC_H264_COMMON;
// Encoder
struct{
ISVCEncoder *pInst;
SEncParamExt sEncParam;
SSourcePicture sEncPic;
void* buffer;
int64_t frame_count;
tsk_bool_t force_idr;
int rotation;
int neg_width;
int neg_height;
int neg_fps;
tsk_mutex_handle_t* mutex;
} encoder;
// decoder
struct{
ISVCDecoder* pInst;
void* accumulator;
tsk_size_t accumulator_pos;
tsk_size_t accumulator_size;
uint16_t last_seq;
} decoder;
}
tdav_codec_h264_cisco_t;
#if !defined(CISCO_H264_GOP_SIZE_IN_SECONDS)
# define CISCO_H264_GOP_SIZE_IN_SECONDS 25
#endif
static int tdav_codec_h264_cisco_init(tdav_codec_h264_cisco_t* self, profile_idc_t profile);
static int tdav_codec_h264_cisco_deinit(tdav_codec_h264_cisco_t* self);
static int tdav_codec_h264_cisco_open_encoder(tdav_codec_h264_cisco_t* self);
static int tdav_codec_h264_cisco_close_encoder(tdav_codec_h264_cisco_t* self);
static int tdav_codec_h264_cisco_open_decoder(tdav_codec_h264_cisco_t* self);
static int tdav_codec_h264_cisco_close_decoder(tdav_codec_h264_cisco_t* self);
static void tdav_codec_h264_cisco_debug_cb(void* context, int level, const char* message);
static void (*__tdav_codec_h264_cisco_debug_cb)(void* context, int level, const char* message) = tdav_codec_h264_cisco_debug_cb;
/* ============ H.264 Base/Main Profile X.X Plugin interface functions ================= */
static int tdav_codec_h264_cisco_set(tmedia_codec_t* self, const tmedia_param_t* param)
{
tdav_codec_h264_cisco_t* h264 = (tdav_codec_h264_cisco_t*)self;
tsk_bool_t reconf = tsk_false;
if (param->value_type == tmedia_pvt_int32) {
if (tsk_striequals(param->key, "action")) {
tmedia_codec_action_t action = (tmedia_codec_action_t)TSK_TO_INT32((uint8_t*)param->value);
switch (action) {
case tmedia_codec_action_encode_idr:
{
TSK_DEBUG_INFO("OpenH264 force_idr action");
h264->encoder.force_idr = tsk_true;
return 0;
}
case tmedia_codec_action_bw_up:
case tmedia_codec_action_bw_down:
{
int rc_target_bitrate;
if (action == tmedia_codec_action_bw_up) {
rc_target_bitrate = TSK_CLAMP(0, (int32_t)((h264->encoder.sEncParam.iTargetBitrate * 3) >> 1), TMEDIA_CODEC(h264)->bandwidth_max_upload);
}
else {
rc_target_bitrate = TSK_CLAMP(0, (int32_t)((h264->encoder.sEncParam.iTargetBitrate << 1) / 3), TMEDIA_CODEC(h264)->bandwidth_max_upload);
}
h264->encoder.sEncParam.iTargetBitrate = rc_target_bitrate;
h264->encoder.sEncParam.iMaxBitrate = rc_target_bitrate;
SSpatialLayerConfig* layer = &h264->encoder.sEncParam.sSpatialLayers[0];
layer->iMaxSpatialBitrate = h264->encoder.sEncParam.iMaxBitrate;
layer->iSpatialBitrate = h264->encoder.sEncParam.iTargetBitrate;
reconf = tsk_true;
TSK_DEBUG_INFO("OpenH264 new target bitrate = %d kbps", rc_target_bitrate);
break;
}
}
}
else if (tsk_striequals(param->key, "bw_kbps")) { // both up and down (from the SDP)
int32_t max_bw_userdefine = tmedia_defaults_get_bandwidth_video_upload_max();
int32_t max_bw_new = *((int32_t*)param->value);
if (max_bw_userdefine > 0) {
// do not use more than what the user defined in it's configuration
TMEDIA_CODEC(h264)->bandwidth_max_upload = TSK_MIN(max_bw_new, max_bw_userdefine);
}
else {
TMEDIA_CODEC(h264)->bandwidth_max_upload = max_bw_new;
}
TSK_DEBUG_INFO("OpenH264 codec: bandwidth-max-upload=%d", TMEDIA_CODEC(h264)->bandwidth_max_upload);
reconf = tsk_true;
}
else if (tsk_striequals(param->key, "bandwidth-max-upload")) {
int32_t bw_max_upload = *((int32_t*)param->value);
TSK_DEBUG_INFO("OpenH264 codec: bandwidth-max-upload=%d", bw_max_upload);
TMEDIA_CODEC(h264)->bandwidth_max_upload = bw_max_upload;
reconf = tsk_true;
}
else if (tsk_striequals(param->key, "rotation")) {
int rotation = *((int32_t*)param->value);
if (h264->encoder.rotation != rotation) {
if (self->opened) {
int ret;
h264->encoder.rotation = rotation;
if ((ret = tdav_codec_h264_cisco_close_encoder(h264))) {
return ret;
}
if ((ret = tdav_codec_h264_cisco_open_encoder(h264))) {
return ret;
}
}
}
return 0;
}
}
if (reconf) {
if (h264->encoder.pInst) {
long err;
// lock required because of https://code.google.com/p/doubango/issues/detail?id=422
tsk_mutex_lock(h264->encoder.mutex);
err = h264->encoder.pInst->InitializeExt(&h264->encoder.sEncParam);
tsk_mutex_unlock(h264->encoder.mutex);
if (err != cmResultSuccess) {
TSK_DEBUG_ERROR("InitializeExt failed: %ld", err);
return -1;
}
}
return 0;
}
return -1;
}
static int tdav_codec_h264_cisco_open(tmedia_codec_t* self)
{
int ret;
tdav_codec_h264_cisco_t* h264 = (tdav_codec_h264_cisco_t*)self;
if (!h264) {
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
/* the caller (base class) already checked that the codec is not opened */
// Encoder
if ((ret = tdav_codec_h264_cisco_open_encoder(h264))) {
return ret;
}
// Decoder
if ((ret = tdav_codec_h264_cisco_open_decoder(h264))) {
return ret;
}
return 0;
}
static int tdav_codec_h264_cisco_close(tmedia_codec_t* self)
{
tdav_codec_h264_cisco_t* h264 = (tdav_codec_h264_cisco_t*)self;
if (!h264) {
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
/* the caller (base class) alreasy checked that the codec is opened */
// Encoder
tdav_codec_h264_cisco_close_encoder(h264);
// Decoder
tdav_codec_h264_cisco_close_decoder(h264);
return 0;
}
static tsk_size_t tdav_codec_h264_cisco_encode(tmedia_codec_t* self, const void* in_data, tsk_size_t in_size, void** out_data, tsk_size_t* out_max_size)
{
long err;
tsk_bool_t send_idr, send_hdr;
tsk_size_t in_xsize;
SFrameBSInfo bsInfo;
tdav_codec_h264_cisco_t* h264 = (tdav_codec_h264_cisco_t*)self;
tdav_codec_h264_common_t* common = (tdav_codec_h264_common_t*)self;
if (!self || !in_data || !in_size) {
TSK_DEBUG_ERROR("Invalid parameter");
return 0;
}
if (!self->opened || !h264->encoder.pInst) {
TSK_DEBUG_ERROR("Encoder not opened or not ready");
return 0;
}
in_xsize = (h264->encoder.sEncPic.iPicHeight * h264->encoder.sEncPic.iPicWidth * 3) >> 1;
if (in_xsize != in_size){
/* guard */
TSK_DEBUG_ERROR("Invalid size: %u<>%u", in_xsize, in_size);
return 0;
}
// send IDR for:
// - the first frame
// - remote peer requested an IDR
// - every second within the first 4seconds
send_idr = (
h264->encoder.frame_count++ == 0
|| h264 ->encoder.force_idr
//|| ( (h264->encoder.frame_count < (int)TMEDIA_CODEC_VIDEO(h264)->out.fps * 4) && ((h264->encoder.frame_count % TMEDIA_CODEC_VIDEO(h264)->out.fps)==0) )
);
// send SPS and PPS headers for:
// - IDR frames (not required but it's the easiest way to deal with pkt loss)
// - every 5 seconds after the first 4seconds
send_hdr = (
send_idr
//|| ( (h264->encoder.frame_count % (TMEDIA_CODEC_VIDEO(h264)->out.fps * 5))==0 )
);
if (send_idr) {
TSK_DEBUG_INFO("OpenH264 call ForceIntraFrame");
if ((err = h264->encoder.pInst->ForceIntraFrame(true)) != cmResultSuccess) {
TSK_DEBUG_WARN("OpenH264 ForceIntraFrame(%d) failed: %ld", send_idr, err);
}
}
if (send_hdr) {
#if 0 // Not needed
memset(&bsInfo, 0, sizeof(bsInfo));
tsk_mutex_lock(h264->encoder.mutex);
if ((err = h264->encoder.pInst->EncodeParameterSets(&bsInfo)) != cmResultSuccess) {
TSK_DEBUG_WARN("OpenH264 EncodeParameterSets(%d) failed: %ld", send_idr, err);
}
else {
for (int iLayerNum = 0; iLayerNum < bsInfo.iLayerNum; ++iLayerNum) {
unsigned char* pBsBuf = bsInfo.sLayerInfo[iLayerNum].pBsBuf;
int iNalLengthInByte = 0, _iNalLengthInByte;
for (int iNalCount = 0; iNalCount < bsInfo.sLayerInfo[iLayerNum].iNalCount; ++iNalCount) {
if ((_iNalLengthInByte = bsInfo.sLayerInfo[iLayerNum].pNalLengthInByte[iNalCount]) > 0) {
iNalLengthInByte += _iNalLengthInByte;
}
}
if (iNalLengthInByte > 0) {
tdav_codec_h264_rtp_encap(TDAV_CODEC_H264_COMMON(h264), pBsBuf, (tsk_size_t)iNalLengthInByte);
}
}
}
tsk_mutex_unlock(h264->encoder.mutex);
#endif
}
h264->encoder.sEncPic.pData[0] = ((unsigned char*)in_data);
h264->encoder.sEncPic.pData[1] = h264->encoder.sEncPic.pData[0] + (h264->encoder.sEncPic.iPicHeight * h264->encoder.sEncPic.iPicWidth);
h264->encoder.sEncPic.pData[2] = h264->encoder.sEncPic.pData[1] + ((h264->encoder.sEncPic.iPicHeight * h264->encoder.sEncPic.iPicWidth) >> 2);
// h264->encoder.sEncPic.uiTimeStamp = rand();
memset(&bsInfo, 0, sizeof(bsInfo));
tsk_mutex_lock(h264->encoder.mutex);
if ((err = h264->encoder.pInst->EncodeFrame(&h264->encoder.sEncPic, &bsInfo)) != cmResultSuccess) {
TSK_DEBUG_ERROR("OpenH264 setting EncodeFrame() failed: %ld", err);
tsk_mutex_unlock(h264->encoder.mutex);
return 0;
}
// Memory held by bsInfo is freed when "InitializeExt()" is called this is why the unlock is after reading the output stream
if (bsInfo.eFrameType != videoFrameTypeInvalid) {
for (int iLayerNum = 0; iLayerNum < bsInfo.iLayerNum; ++iLayerNum) {
unsigned char* pBsBuf = bsInfo.sLayerInfo[iLayerNum].pBsBuf;
int iNalLengthInByte = 0, _iNalLengthInByte;
for (int iNalCount = 0; iNalCount < bsInfo.sLayerInfo[iLayerNum].iNalCount; ++iNalCount) {
if ((_iNalLengthInByte = bsInfo.sLayerInfo[iLayerNum].pNalLengthInByte[iNalCount]) > 0) {
iNalLengthInByte += _iNalLengthInByte;
}
}
if (iNalLengthInByte > 0) {
tdav_codec_h264_rtp_encap(TDAV_CODEC_H264_COMMON(h264), pBsBuf, (tsk_size_t)iNalLengthInByte);
}
}
}
tsk_mutex_unlock(h264->encoder.mutex);
h264 ->encoder.force_idr = tsk_false; // reset
return 0;
}
static tsk_size_t tdav_codec_h264_cisco_decode(tmedia_codec_t* self, const void* in_data, tsk_size_t in_size, void** out_data, tsk_size_t* out_max_size, const tsk_object_t* proto_hdr)
{
tdav_codec_h264_cisco_t* h264 = (tdav_codec_h264_cisco_t*)self;
const trtp_rtp_header_t* rtp_hdr = (const trtp_rtp_header_t*)proto_hdr;
const uint8_t* pay_ptr = tsk_null;
tsk_size_t pay_size = 0;
int ret;
long err = cmResultSuccess;
tsk_bool_t append_scp, end_of_unit, got_picture_ptr = tsk_false;
tsk_bool_t sps_or_pps;
tsk_size_t retsize = 0, size_to_copy = 0;
static const tsk_size_t xmax_size = (3840 * 2160 * 3) >> 3; // >>3 instead of >>1 (not an error)
static tsk_size_t start_code_prefix_size = sizeof(H264_START_CODE_PREFIX);
if (!h264 || !in_data || !in_size || !out_data) {
TSK_DEBUG_ERROR("Invalid parameter");
return 0;
}
if (!self->opened || !h264->encoder.pInst) {
TSK_DEBUG_ERROR("Decoder not opened or not ready");
return 0;
}
/* Packet lost? */
if ((h264->decoder.last_seq + 1) != rtp_hdr->seq_num && h264->decoder.last_seq) {
TSK_DEBUG_INFO("[H.264] Packet loss, seq_num=%d", (h264->decoder.last_seq + 1));
}
h264->decoder.last_seq = rtp_hdr->seq_num;
/* 5.3. NAL Unit Octet Usage
+---------------+
|0|1|2|3|4|5|6|7|
+-+-+-+-+-+-+-+-+
|F|NRI| Type |
+---------------+
*/
if (*((uint8_t*)in_data) & 0x80) {
TSK_DEBUG_WARN("F=1");
/* reset accumulator */
h264->decoder.accumulator_pos = 0;
return 0;
}
/* get payload */
if ((ret = tdav_codec_h264_get_pay(in_data, in_size, (const void**)&pay_ptr, &pay_size, &append_scp, &end_of_unit)) || !pay_ptr || !pay_size) {
TSK_DEBUG_ERROR("Depayloader failed to get H.264 content");
return 0;
}
//append_scp = tsk_true;
size_to_copy = pay_size + (append_scp ? start_code_prefix_size : 0);
// whether it's SPS or PPS (append_scp is false for subsequent FUA chuncks)
sps_or_pps = append_scp && pay_ptr && ((pay_ptr[0] & 0x1F) == 7 || (pay_ptr[0] & 0x1F) == 8);
// start-accumulator
if (!h264->decoder.accumulator) {
if (size_to_copy > xmax_size) {
TSK_DEBUG_ERROR("%u too big to contain valid encoded data. xmax_size=%u", size_to_copy, xmax_size);
return 0;
}
#if HAVE_CRT //Debug memory
if (!(h264->decoder.accumulator = tsk_calloc(size_to_copy, sizeof(uint8_t)))) {
#else
if (!(h264->decoder.accumulator = tsk_calloc(size_to_copy, sizeof(uint8_t)))) {
#endif //HAVE_CRT
TSK_DEBUG_ERROR("Failed to allocated new buffer");
return 0;
}
h264->decoder.accumulator_size = size_to_copy;
}
if ((h264->decoder.accumulator_pos + size_to_copy) >= xmax_size) {
TSK_DEBUG_ERROR("BufferOverflow");
h264->decoder.accumulator_pos = 0;
return 0;
}
if ((h264->decoder.accumulator_pos + size_to_copy) > h264->decoder.accumulator_size) {
if (!(h264->decoder.accumulator = tsk_realloc(h264->decoder.accumulator, (h264->decoder.accumulator_pos + size_to_copy)))) {
TSK_DEBUG_ERROR("Failed to reallocated new buffer");
h264->decoder.accumulator_pos = 0;
h264->decoder.accumulator_size = 0;
return 0;
}
h264->decoder.accumulator_size = (h264->decoder.accumulator_pos + size_to_copy);
}
if (append_scp) {
memcpy(&((uint8_t*)h264->decoder.accumulator)[h264->decoder.accumulator_pos], H264_START_CODE_PREFIX, start_code_prefix_size);
h264->decoder.accumulator_pos += start_code_prefix_size;
}
memcpy(&((uint8_t*)h264->decoder.accumulator)[h264->decoder.accumulator_pos], pay_ptr, pay_size);
h264->decoder.accumulator_pos += pay_size;
// end-accumulator
if (/*rtp_hdr->marker*/end_of_unit) {
/* decode the picture */
unsigned char* out_ptr[3] = { NULL };
int out_stride[2] = {0}, out_width = 0, out_height = 0;
tsk_size_t out_xsize;
// Decode a Unit
err = h264->decoder.pInst->DecodeFrame(
(const unsigned char*)h264->decoder.accumulator, h264->decoder.accumulator_pos,
out_ptr, out_stride, out_width, out_height);
if (err != cmResultSuccess) {
if (0 && err == dsDataErrorConcealed) {
TSK_DEBUG_INFO("OpenH264: Data error concealed");
err = cmResultSuccess;
}
else {
TSK_DEBUG_WARN("OpenH264: DecodeFrame failed: %ld", err);
goto bail;
}
}
// Do we have a complete frame?
if (!(got_picture_ptr = ((out_ptr[0] && out_ptr[1] && out_ptr[2]) && (out_stride[0] && out_stride[1]) && out_width && out_height))) {
goto bail;
}
out_xsize = (out_width * out_height * 3) >> 1; // I420
/* IDR ? */
if (((pay_ptr[0] & 0x1F) == 0x05) && TMEDIA_CODEC_VIDEO(self)->in.callback) {
TSK_DEBUG_INFO("Decoded H.264 IDR");
TMEDIA_CODEC_VIDEO(self)->in.result.type = tmedia_video_decode_result_type_idr;
TMEDIA_CODEC_VIDEO(self)->in.result.proto_hdr = proto_hdr;
TMEDIA_CODEC_VIDEO(self)->in.callback(&TMEDIA_CODEC_VIDEO(self)->in.result);
}
/* fill out */
if (*out_max_size < out_xsize) {
if ((*out_data = tsk_realloc(*out_data, out_xsize))){
*out_max_size = out_xsize;
}
else {
*out_max_size = 0;
return 0;
}
}
TMEDIA_CODEC_VIDEO(h264)->in.width = out_width;
TMEDIA_CODEC_VIDEO(h264)->in.height = out_height;
/* layout picture */
{
int plane, y, stride;
retsize = 0;
for (plane=0; plane < 3; plane++) {
unsigned char *buf = out_ptr[plane];
stride = out_stride[plane ? 1 : 0];
for (y=0; y<out_height >> (plane ? 1 : 0); y++) {
unsigned int w_count = out_width >> (plane ? 1 : 0);
if ((ret + w_count) > *out_max_size) {
TSK_DEBUG_ERROR("BufferOverflow");
ret = 0;
goto bail;
}
memcpy(((uint8_t*)*out_data) + retsize, buf, w_count);
retsize += w_count;
buf += stride;
}
}
}
} // else if(rtp_hdr->marker)
bail:
/* end of frame */
if (got_picture_ptr) {
int32_t endOfStream = 1;
err = h264->decoder.pInst->SetOption(DECODER_OPTION_END_OF_STREAM, (void*)&endOfStream);
if (err != cmResultSuccess) {
TSK_DEBUG_WARN("OpenH264 setting DECODER_OPTION_END_OF_STREAM failed: %ld", err);
goto bail;
}
}
if (/*rtp_hdr->marker*/end_of_unit) {
/* reset accumulator */
h264->decoder.accumulator_pos = 0;
}
if (err != cmResultSuccess){
TSK_DEBUG_INFO("Failed to decode the buffer with error code =%ld, size=%u, append=%s", err, h264->decoder.accumulator_pos, append_scp ? "yes" : "no");
if (TMEDIA_CODEC_VIDEO(self)->in.callback) {
TMEDIA_CODEC_VIDEO(self)->in.result.type = tmedia_video_decode_result_type_error;
TMEDIA_CODEC_VIDEO(self)->in.result.proto_hdr = proto_hdr;
TMEDIA_CODEC_VIDEO(self)->in.callback(&TMEDIA_CODEC_VIDEO(self)->in.result);
}
}
return retsize;
}
static tsk_bool_t tdav_codec_h264_cisco_sdp_att_match(const tmedia_codec_t* self, const char* att_name, const char* att_value)
{
return tdav_codec_h264_common_sdp_att_match((tdav_codec_h264_common_t*)self, att_name, att_value);
}
static char* tdav_codec_h264_cisco_sdp_att_get(const tmedia_codec_t* self, const char* att_name)
{
char* att = tdav_codec_h264_common_sdp_att_get((const tdav_codec_h264_common_t*)self, att_name);
if (att && tsk_striequals(att_name, "fmtp")) {
tsk_strcat(&att, "; impl=openh264");
}
return att;
}
/* ============ H.264 Base Profile Plugin interface ================= */
/* constructor */
static tsk_object_t* tdav_codec_h264_cisco_base_ctor(tsk_object_t * self, va_list * app)
{
tdav_codec_h264_cisco_t *h264 = (tdav_codec_h264_cisco_t*)self;
if (h264) {
/* init base: called by tmedia_codec_create() */
/* init self */
if (tdav_codec_h264_cisco_init(h264, profile_idc_baseline) != 0) {
return tsk_null;
}
}
return self;
}
/* destructor */
static tsk_object_t* tdav_codec_h264_cisco_base_dtor(tsk_object_t * self)
{
tdav_codec_h264_cisco_t *h264 = (tdav_codec_h264_cisco_t*)self;
if (h264) {
/* deinit base */
tdav_codec_h264_common_deinit(TDAV_CODEC_H264_COMMON(self));
/* deinit self */
tdav_codec_h264_cisco_deinit(h264);
}
return self;
}
/* object definition */
static const tsk_object_def_t tdav_codec_h264_cisco_base_def_s =
{
sizeof(tdav_codec_h264_cisco_t),
tdav_codec_h264_cisco_base_ctor,
tdav_codec_h264_cisco_base_dtor,
tmedia_codec_cmp,
};
/* plugin definition*/
static const tmedia_codec_plugin_def_t tdav_codec_h264_cisco_base_plugin_def_s =
{
&tdav_codec_h264_cisco_base_def_s,
tmedia_video,
tmedia_codec_id_h264_bp,
"H264",
"H264 Base Profile (OpenH264)",
TMEDIA_CODEC_FORMAT_H264_BP,
tsk_true,
90000, // rate
/* audio */
{ 0 },
/* video (width, height, fps) */
{176, 144, 0}, // fps is @deprecated
tdav_codec_h264_cisco_set,
tdav_codec_h264_cisco_open,
tdav_codec_h264_cisco_close,
tdav_codec_h264_cisco_encode,
tdav_codec_h264_cisco_decode,
tdav_codec_h264_cisco_sdp_att_match,
tdav_codec_h264_cisco_sdp_att_get
};
const tmedia_codec_plugin_def_t *tdav_codec_h264_cisco_base_plugin_def_t = &tdav_codec_h264_cisco_base_plugin_def_s;
/* ============ Common To all H264 profiles ================= */
static int tdav_codec_h264_cisco_open_encoder(tdav_codec_h264_cisco_t* self)
{
int ret = -1, max_bitrate_bps;
long err;
SSpatialLayerConfig* layer;
int32_t max_bw_kpbs;
tdav_codec_h264_common_t* common = (tdav_codec_h264_common_t*)self;
if (self->encoder.pInst) {
TSK_DEBUG_ERROR("Encoder already initialized");
goto bail;
}
// create encoder
if ((err = WelsCreateSVCEncoder(&self->encoder.pInst)) != cmResultSuccess) {
TSK_DEBUG_ERROR("Failed to create ancoder: %ld", err);
goto bail;
}
self->encoder.pInst->SetOption(ENCODER_OPTION_TRACE_CALLBACK_CONTEXT, self);
self->encoder.pInst->SetOption(ENCODER_OPTION_TRACE_CALLBACK, &__tdav_codec_h264_cisco_debug_cb);
if ((err = self->encoder.pInst->GetDefaultParams(&self->encoder.sEncParam)) != cmResultSuccess) {
TSK_DEBUG_ERROR("GetDefaultParams failed: %ld", err);
goto bail;
}
self->encoder.neg_width = (self->encoder.rotation == 90 || self->encoder.rotation == 270) ? TMEDIA_CODEC_VIDEO(self)->out.height : TMEDIA_CODEC_VIDEO(self)->out.width;
self->encoder.neg_height = (self->encoder.rotation == 90 || self->encoder.rotation == 270) ? TMEDIA_CODEC_VIDEO(self)->out.width : TMEDIA_CODEC_VIDEO(self)->out.height;
self->encoder.neg_fps = TMEDIA_CODEC_VIDEO(self)->out.fps;
max_bw_kpbs = TSK_CLAMP(
0,
tmedia_get_video_bandwidth_kbps_2(self->encoder.neg_width, self->encoder.neg_height, self->encoder.neg_fps),
TMEDIA_CODEC(self)->bandwidth_max_upload
);
max_bitrate_bps = (max_bw_kpbs * 1024);
TSK_DEBUG_INFO("[H.264 OpenH264 Encoder] neg_width=%d, neg_height=%d, neg_fps=%d, max_bitrate_bps=%d",
self->encoder.neg_width,
self->encoder.neg_height,
self->encoder.neg_fps,
max_bitrate_bps
);
self->encoder.sEncParam.iInputCsp = videoFormatI420;
self->encoder.sEncParam.iSpatialLayerNum = 1;
self->encoder.sEncParam.iTemporalLayerNum = 1;
self->encoder.sEncParam.uiIntraPeriod = (self->encoder.neg_fps * CISCO_H264_GOP_SIZE_IN_SECONDS);
self->encoder.sEncParam.iUsageType = CAMERA_VIDEO_REAL_TIME; // TODO: use "SCREEN_CONTENT_REAL_TIME" screencast
self->encoder.sEncParam.iPicWidth = self->encoder.neg_width;
self->encoder.sEncParam.iPicHeight = self->encoder.neg_height;
self->encoder.sEncParam.iTargetBitrate = max_bitrate_bps;
self->encoder.sEncParam.iMaxBitrate = max_bitrate_bps;
self->encoder.sEncParam.fMaxFrameRate = (float)self->encoder.neg_fps;
self->encoder.sEncParam.uiMaxNalSize = H264_RTP_PAYLOAD_SIZE;
self->encoder.sEncParam.bEnableSpsPpsIdAddition = true;
self->encoder.sEncParam.bEnableFrameCroppingFlag = true;
layer = &self->encoder.sEncParam.sSpatialLayers[0];
layer->uiProfileIdc = PRO_BASELINE;
layer->uiLevelIdc = LEVEL_UNKNOWN; // auto-detect
layer->fFrameRate = self->encoder.sEncParam.fMaxFrameRate;
layer->iMaxSpatialBitrate = self->encoder.sEncParam.iMaxBitrate;
layer->iSpatialBitrate = self->encoder.sEncParam.iTargetBitrate;
layer->iVideoWidth = self->encoder.sEncParam.iPicWidth;
layer->iVideoHeight = self->encoder.sEncParam.iPicHeight;
layer->sSliceCfg.uiSliceMode = SM_DYN_SLICE;
layer->sSliceCfg.sSliceArgument.uiSliceSizeConstraint = H264_RTP_PAYLOAD_SIZE;
layer->sSliceCfg.sSliceArgument.uiSliceNum = 1;
//layer->sSliceCfg.sSliceArgument.uiSliceMbNum[0] = 960;
if ((err = self->encoder.pInst->InitializeExt(&self->encoder.sEncParam)) != cmResultSuccess) {
TSK_DEBUG_ERROR("InitializeExt failed: %ld", err);
goto bail;
}
self->encoder.sEncPic.iColorFormat = videoFormatI420;
self->encoder.sEncPic.iPicWidth = self->encoder.sEncParam.iPicWidth;
self->encoder.sEncPic.iPicHeight = self->encoder.sEncParam.iPicHeight;
self->encoder.sEncPic.iStride[0] = self->encoder.sEncPic.iPicWidth;
self->encoder.sEncPic.iStride[1] = self->encoder.sEncPic.iStride[0] >> 1;
self->encoder.sEncPic.iStride[2] = self->encoder.sEncPic.iStride[1];
// Create encoder mutex
if (!self->encoder.mutex && !(self->encoder.mutex = tsk_mutex_create())) {
TSK_DEBUG_ERROR("Failed to create mutex for the encoder");
goto bail;
}
ret = 0;
bail:
return ret;
}
static int tdav_codec_h264_cisco_close_encoder(tdav_codec_h264_cisco_t* self)
{
if (self) {
if (self->encoder.pInst) {
self->encoder.pInst->Uninitialize();
WelsDestroySVCEncoder(self->encoder.pInst);
self->encoder.pInst = NULL;
}
if (self->encoder.buffer) {
TSK_FREE(self->encoder.buffer);
}
if (self->encoder.mutex) {
tsk_mutex_destroy(&self->encoder.mutex);
}
self->encoder.frame_count = 0;
}
return 0;
}
int tdav_codec_h264_cisco_open_decoder(tdav_codec_h264_cisco_t* self)
{
int ret = -1;
long err;
tdav_codec_h264_common_t* common = (tdav_codec_h264_common_t*)self;
SDecodingParam sDecParam = { 0 };
if (self->decoder.pInst) {
TSK_DEBUG_ERROR("Decoder already initialized");
goto bail;
}
// create decoder
if ((err = WelsCreateDecoder(&self->decoder.pInst)) != cmResultSuccess) {
TSK_DEBUG_ERROR("Failed to create decoder: %ld", err);
goto bail;
}
self->decoder.pInst->SetOption(DECODER_OPTION_TRACE_CALLBACK_CONTEXT, self);
self->decoder.pInst->SetOption(DECODER_OPTION_TRACE_CALLBACK, &__tdav_codec_h264_cisco_debug_cb);
// initialize decoder
sDecParam.iOutputColorFormat = videoFormatI420;
sDecParam.sVideoProperty.eVideoBsType = VIDEO_BITSTREAM_AVC;
if ((err = self->decoder.pInst->Initialize(&sDecParam)) != cmResultSuccess) {
TSK_DEBUG_ERROR("Failed to initialize decoder: %ld", err);
goto bail;
}
TSK_DEBUG_INFO("[OpenH264 Decoder] neg_width=%d, neg_height=%d, neg_fps=%d",
TMEDIA_CODEC_VIDEO(self)->in.width,
TMEDIA_CODEC_VIDEO(self)->in.height,
TMEDIA_CODEC_VIDEO(self)->in.fps
);
ret = 0;
bail:
return ret;
}
static int tdav_codec_h264_cisco_close_decoder(tdav_codec_h264_cisco_t* self)
{
if (self) {
if (self->decoder.pInst) {
self->decoder.pInst->Uninitialize();
WelsDestroyDecoder(self->decoder.pInst);
self->decoder.pInst = NULL;
}
TSK_FREE(self->decoder.accumulator);
self->decoder.accumulator_pos = 0;
}
return 0;
}
static void tdav_codec_h264_cisco_debug_cb(void* context, int level, const char* message)
{
switch (level) {
case WELS_LOG_ERROR:
case WELS_LOG_QUIET:
TSK_DEBUG_ERROR("OpenH264: level=%d, message=%s", level, message);
break;
case WELS_LOG_WARNING:
TSK_DEBUG_WARN("OpenH264: level=%d, message=%s", level, message);
break;
default:
TSK_DEBUG_INFO("OpenH264: level=%d, message=%s", level, message);
break;
}
}
static int tdav_codec_h264_cisco_init(tdav_codec_h264_cisco_t* self, profile_idc_t profile)
{
int ret = -1;
level_idc_t level;
tdav_codec_h264_common_t* common = (tdav_codec_h264_common_t*)self;
if (!self || profile != profile_idc_baseline) {
TSK_DEBUG_ERROR("Invalid parameter");
goto bail;
}
if ((ret = tdav_codec_h264_common_init(common))) {
TSK_DEBUG_ERROR("tdav_codec_h264_cisco_common_init() faile with error code=%d", ret);
goto bail;
}
if ((ret = tdav_codec_h264_common_level_from_size(TMEDIA_CODEC_VIDEO(self)->out.width, TMEDIA_CODEC_VIDEO(self)->out.height, &level))) {
TSK_DEBUG_ERROR("Failed to find level for size=[%u, %u]", TMEDIA_CODEC_VIDEO(self)->out.width, TMEDIA_CODEC_VIDEO(self)->out.height);
goto bail;
}
common->pack_mode_local = H264_PACKETIZATION_MODE;
common->profile = profile;
common->level = level;
// A.2.1.1 Constrained Baseline profile
// Conformance of a bitstream to the Constrained Baseline profile is indicated by profile_idc being equal to 66 with
// constraint_set1_flag being equal to 1.
common->profile_iop = 0xe0; // "constraint_set0_flag=1 and constraint_set1_flag=1" -> Constrained Baseline profile
TMEDIA_CODEC_VIDEO(self)->in.max_mbps = TMEDIA_CODEC_VIDEO(self)->out.max_mbps = H264_MAX_MBPS*1000;
TMEDIA_CODEC_VIDEO(self)->in.max_br = TMEDIA_CODEC_VIDEO(self)->out.max_br = H264_MAX_BR*1000;
TMEDIA_CODEC_VIDEO(self)->in.chroma = tmedia_chroma_yuv420p;
TMEDIA_CODEC_VIDEO(self)->out.chroma = tmedia_chroma_yuv420p;
ret = 0;
bail:
return ret;
}
static int tdav_codec_h264_cisco_deinit(tdav_codec_h264_cisco_t* self)
{
if (!self) {
TSK_DEBUG_ERROR("Invalid parameter");
return -1;
}
tdav_codec_h264_cisco_close((tmedia_codec_t*)self);
return 0;
}
#endif /* HAVE_OPENH264 */