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提交 9fdb5476 authored 作者: Anthony Minessale's avatar Anthony Minessale 提交者: Michael Jerris
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FS-7508 FS-7517: import h264 and vpx codec files

上级 d0d2e036
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src/mod/codecs/mod_openh264/Makefile.am
浏览文件 @ 9fdb5476
...@@ -8,3 +8,4 @@ mod_openh264_la_SOURCES = mod_openh264.cpp ...@@ -8,3 +8,4 @@ mod_openh264_la_SOURCES = mod_openh264.cpp
mod_openh264_la_CXXFLAGS = $(AM_CXXFLAGS) -I$(OPENH264_DIR)/include/wels mod_openh264_la_CXXFLAGS = $(AM_CXXFLAGS) -I$(OPENH264_DIR)/include/wels
mod_openh264_la_LIBADD = $(switch_builddir)/libfreeswitch.la mod_openh264_la_LIBADD = $(switch_builddir)/libfreeswitch.la
mod_openh264_la_LDFLAGS = -L$(OPENH264_DIR)/lib/ -lopenh264 -avoid-version -module -no-undefined -shared mod_openh264_la_LDFLAGS = -L$(OPENH264_DIR)/lib/ -lopenh264 -avoid-version -module -no-undefined -shared
src/mod/codecs/mod_openh264/mod_openh264.cpp 0 → 100644
浏览文件 @ 9fdb5476
/*
* FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application
* Copyright (C) 2005-2013, Anthony Minessale II <anthm@freeswitch.org>
*
* Version: MPL 1.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application
*
* The Initial Developer of the Original Code is
* Seven Du <dujinfang@gmail.com>
* Portions created by the Initial Developer are Copyright (C)
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
*
* Seven Du <dujinfang@gmail.com>
*
* mod_openh264 -- H264 Coded Using Cisco OpenH264
*
*/
// #define DEBUG_H264
#include <switch.h>
#define EPSN (0.000001f) // (1e-6) // desired float precision
#define PESN (0.000001f) // (1e-6) // desired float precision
#define MT_ENABLED
#include "codec_api.h"
//#include "inc/logging.h" // for debug
#define FPS 15.0f // frame rate
#define H264_NALU_BUFFER_SIZE 65536
#define MAX_NALUS 100
#define SLICE_SIZE 1200 //NALU Slice Size
SWITCH_MODULE_LOAD_FUNCTION(mod_openh264_load);
SWITCH_MODULE_DEFINITION(mod_openh264, mod_openh264_load, NULL, NULL);
typedef struct h264_codec_context_s {
ISVCEncoder *encoder;
switch_bool_t encoder_initialized;
SEncParamExt encoder_params;
SFrameBSInfo bit_stream_info;
EVideoFrameType last_frame_type;
int cur_layer;
int cur_nalu_index;
uint8_t last_nalu_type;
uint8_t last_nri;
int last_nalu_data_pos;
int nalu_eat;
ISVCDecoder *decoder;
SDecodingParam decoder_params;
switch_buffer_t *nalu_buffer;
switch_image_t *img;
int got_sps;
int64_t pts;
switch_size_t last_received_timestamp;
switch_bool_t last_received_complete_picture;
} h264_codec_context_t;
int FillSpecificParameters(SEncParamExt& param) {
/* Test for temporal, spatial, SNR scalability */
param.iPicWidth = 352; // width of picture in samples
param.iPicHeight = 288; // height of picture in samples
param.iTargetBitrate = 384000; // target bitrate desired
param.iRCMode = RC_QUALITY_MODE; // rc mode control
param.uiMaxNalSize = SLICE_SIZE * 20;
param.iTemporalLayerNum = 1; // layer number at temporal level
param.iSpatialLayerNum = 1; // layer number at spatial level
param.bEnableDenoise = 0; // denoise control
param.bEnableBackgroundDetection = 1; // background detection control
param.bEnableAdaptiveQuant = 1; // adaptive quantization control
param.bEnableLongTermReference = 0; // long term reference control
param.iLtrMarkPeriod = 30;
param.iComplexityMode = MEDIUM_COMPLEXITY;
param.uiIntraPeriod = FPS * 3; // period of Intra frame
param.bEnableSpsPpsIdAddition = 0;
param.bPrefixNalAddingCtrl = 0;
int iIndexLayer = 0;
param.sSpatialLayers[iIndexLayer].iVideoWidth = 352;
param.sSpatialLayers[iIndexLayer].iVideoHeight = 288;
param.sSpatialLayers[iIndexLayer].fFrameRate = 15.0f;
// param.sSpatialLayers[iIndexLayer].iQualityLayerNum = 1;
param.sSpatialLayers[iIndexLayer].iSpatialBitrate = 384000;
#ifdef MT_ENABLED
param.sSpatialLayers[iIndexLayer].sSliceCfg.uiSliceMode = SM_DYN_SLICE;
param.sSpatialLayers[iIndexLayer].sSliceCfg.sSliceArgument.uiSliceSizeConstraint = SLICE_SIZE;
#endif
float fMaxFr = param.sSpatialLayers[param.iSpatialLayerNum - 1].fFrameRate;
for (int32_t i = param.iSpatialLayerNum - 2; i >= 0; --i) {
if (param.sSpatialLayers[i].fFrameRate > fMaxFr + EPSN) {
fMaxFr = param.sSpatialLayers[i].fFrameRate;
}
}
param.fMaxFrameRate = fMaxFr;
return 0;
}
// return none-zero on error
long set_decoder_options(ISVCDecoder *decoder)
{
int32_t iColorFormat = videoFormatI420;
// EBufferProperty eOutputProperty = BUFFER_HOST;
long ret = 0;
ret += decoder->SetOption(DECODER_OPTION_DATAFORMAT, &iColorFormat);
// ret += decoder->SetOption(DECODER_OPTION_OUTPUT_PROPERTY, &eOutputProperty);
return ret;
}
static switch_size_t buffer_h264_nalu(h264_codec_context_t *context, switch_frame_t *frame)
{
uint8_t nalu_idc = 0;
uint8_t nalu_type = 0;
uint8_t *data = (uint8_t *)frame->data;
uint8_t nalu_hdr = *data;
uint8_t sync_bytes[] = {0, 0, 0, 1};
switch_buffer_t *buffer = context->nalu_buffer;
switch_size_t size = 0;
if (!frame) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "No frame in codec!!\n");
return size;
}
nalu_idc = (nalu_hdr & 0x60) >> 5;
nalu_type = nalu_hdr & 0x1f;
if (!context->got_sps && nalu_type != 7) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Waiting SPS/PPS\n");
switch_set_flag(frame, SFF_WAIT_KEY_FRAME);
return size;
}
if (!context->got_sps) context->got_sps = 1;
size = switch_buffer_write(buffer, sync_bytes, sizeof(sync_bytes));
if (size == 0 ) switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Buffer Memory Error!\n");
size = switch_buffer_write(buffer, frame->data, frame->datalen);
if (size == 0 ) switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Buffer Memory Error!\n");
#ifdef DEBUG_H264
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_INFO, "ts: %ld len: %4d %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x %02x mark=%d size=%d\n",
(frame)->timestamp, (frame)->datalen,
*((uint8_t *)(frame)->data), *((uint8_t *)(frame)->data + 1),
*((uint8_t *)(frame)->data + 2), *((uint8_t *)(frame)->data + 3),
*((uint8_t *)(frame)->data + 4), *((uint8_t *)(frame)->data + 5),
*((uint8_t *)(frame)->data + 6), *((uint8_t *)(frame)->data + 7),
*((uint8_t *)(frame)->data + 8), *((uint8_t *)(frame)->data + 9),
*((uint8_t *)(frame)->data + 10), (frame)->m, size);
#endif
return size;
}
static switch_status_t nalu_slice(h264_codec_context_t *context, void *data, uint32_t *len, uint32_t *flag)
{
int nalu_len;
uint8_t *buffer;
switch_status_t status = SWITCH_STATUS_SUCCESS;
*flag &= ~SFF_MARKER;
if (context->cur_nalu_index >= context->bit_stream_info.sLayerInfo[context->cur_layer].iNalCount) {
context->cur_nalu_index = 0;
context->cur_layer++;
context->last_nalu_data_pos = 0;
}
#if 0
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "uiTemporalId:%d uiSpatialId:%d uiQualityId:%d uiLayerType:%d FrameType: %d\n",
context->bit_stream_info.sLayerInfo[context->cur_layer].uiTemporalId,
context->bit_stream_info.sLayerInfo[context->cur_layer].uiSpatialId,
context->bit_stream_info.sLayerInfo[context->cur_layer].uiQualityId,
context->bit_stream_info.sLayerInfo[context->cur_layer].uiLayerType,
context->last_frame_type);
#endif
if (context->last_frame_type == videoFrameTypeSkip ||
context->cur_layer >= context->bit_stream_info.iLayerNum) {
*len = 0;
*flag |= SFF_MARKER;
context->cur_layer = 0;
context->cur_nalu_index = 0;
return status;
}
nalu_len = context->bit_stream_info.sLayerInfo[context->cur_layer].pNalLengthInByte[context->cur_nalu_index] - 4; // NALU w/o sync bits
buffer = context->bit_stream_info.sLayerInfo[context->cur_layer].pBsBuf;
#if 0
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "layer: %d/%d nalu:%d/%d nalu_len:%d/%d\n",
context->cur_layer, context->bit_stream_info.iLayerNum,
context->cur_nalu_index, context->bit_stream_info.sLayerInfo[context->cur_layer].iNalCount,
nalu_len, context->last_nalu_data_pos);
#endif
switch_assert(nalu_len > 0);
if (nalu_len <= SLICE_SIZE) {
uint8_t nalu_type;
context->last_nalu_data_pos += 4;
nalu_type = *(buffer + context->last_nalu_data_pos) & 0x1f;
// if (nalu_type == 7) switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_CRIT, "Got SPS\n");
memcpy(data, (buffer + context->last_nalu_data_pos), nalu_len);
*len = nalu_len;
// *flag |= (nalu_type == 6 || nalu_type == 7 || nalu_type == 8 || (nalu_type == 0xe && context->last_nalu_type == 8)) ? 0 : SFF_MARKER;
if ((context->cur_nalu_index == context->bit_stream_info.sLayerInfo[context->cur_layer].iNalCount - 1) &&
(context->cur_layer == context->bit_stream_info.iLayerNum - 1)) {
*flag |= SFF_MARKER;
} else {
status = SWITCH_STATUS_MORE_DATA;
}
context->cur_nalu_index++;
context->last_nalu_data_pos += nalu_len;
context->last_nalu_type = nalu_type;
goto end;
} else {
int left = nalu_len;
uint8_t *p = (uint8_t *)data;
if (context->nalu_eat) {
left = nalu_len + 4 - context->nalu_eat;
switch_assert(left > 0);
}
if (left > (SLICE_SIZE - 2)) {
uint8_t start_bit;
if (context->nalu_eat) {
start_bit = 0;
} else {
start_bit = 0x80;
context->last_nalu_data_pos += 4;
context->last_nalu_type = *(buffer + context->last_nalu_data_pos) & 0x1f;
context->last_nri = context->last_nalu_type & 0x60;
context->last_nalu_data_pos++;
context->nalu_eat = 5;
}
p[0] = context->last_nri | 28; // FU-A
p[1] = start_bit | context->last_nalu_type;
memcpy(p + 2, buffer + context->last_nalu_data_pos, SLICE_SIZE - 2);
context->last_nalu_data_pos += (SLICE_SIZE - 2);
context->nalu_eat += (SLICE_SIZE - 2);
*len = SLICE_SIZE;
status = SWITCH_STATUS_MORE_DATA;
goto end;
} else {
p[0] = context->last_nri | 28; // FU-A
p[1] = 0x40 | context->last_nalu_type;
memcpy(p + 2, buffer + context->last_nalu_data_pos, left);
context->last_nalu_data_pos += left;
*len = left + 2;
*flag |= SFF_MARKER;
context->nalu_eat = 0;
context->cur_nalu_index++;
status = SWITCH_STATUS_MORE_DATA;
goto end;
}
}
end:
return status;
}
static switch_status_t switch_h264_init(switch_codec_t *codec, switch_codec_flag_t flags, const switch_codec_settings_t *codec_settings)
{
h264_codec_context_t *context = NULL;
int encoding, decoding;
int ret;
encoding = (flags & SWITCH_CODEC_FLAG_ENCODE);
decoding = (flags & SWITCH_CODEC_FLAG_DECODE);
if (!(encoding || decoding)) {
return SWITCH_STATUS_FALSE;
}
if (codec->fmtp_in) {
codec->fmtp_out = switch_core_strdup(codec->memory_pool, codec->fmtp_in);
}
context = (h264_codec_context_t*)switch_core_alloc(codec->memory_pool, sizeof(h264_codec_context_t));
memset(context, 0, sizeof(*context));
if (decoding) {
WelsCreateDecoder(&context->decoder);
if (!context->decoder) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "CreateDecoder Error\n");
return SWITCH_STATUS_FALSE;
}
context->decoder_params.eOutputColorFormat = videoFormatI420;
context->decoder_params.uiTargetDqLayer = (uint8_t) -1;
context->decoder_params.eEcActiveIdc = ERROR_CON_SLICE_COPY;
context->decoder_params.sVideoProperty.eVideoBsType = VIDEO_BITSTREAM_AVC;
context->decoder_params.sVideoProperty.size = sizeof(context->decoder_params.sVideoProperty);
if (context->decoder->Initialize(&context->decoder_params)) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Decoder Initialize failed\n");
goto error;
}
if (set_decoder_options(context->decoder)) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Set Decoder Option Error\n");
}
}
if (encoding) {
ret = WelsCreateSVCEncoder(&context->encoder);
if (ret) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Cannot create encoder, error: %d\n", ret);
goto error;
}
FillSpecificParameters(context->encoder_params);
}
//if (encoding | decoding) WelsStderrSetTraceLevel(10);
switch_buffer_create_dynamic(&(context->nalu_buffer), H264_NALU_BUFFER_SIZE, H264_NALU_BUFFER_SIZE * 8, 0);
codec->private_info = context;
return SWITCH_STATUS_SUCCESS;
error:
// TODO, do some proper clean up
return SWITCH_STATUS_FALSE;
}
static switch_status_t init_encoder(h264_codec_context_t *context, uint32_t width, uint32_t height)
{
int i;
context->encoder_params.iPicWidth = width;
context->encoder_params.iPicHeight = height;
for (int i=0; i<context->encoder_params.iSpatialLayerNum; i++) {
context->encoder_params.sSpatialLayers[i].iVideoWidth = width;
context->encoder_params.sSpatialLayers[i].iVideoHeight = height;
}
/* just do it, the encoder will Uninitialize first by itself if already initialized */
if (cmResultSuccess != context->encoder->InitializeExt(&context->encoder_params)) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Encoder Init Error\n");
return SWITCH_STATUS_FALSE;
}
context->encoder_initialized = SWITCH_TRUE;
return SWITCH_STATUS_SUCCESS;
}
static switch_status_t switch_h264_encode(switch_codec_t *codec,
switch_image_t *img,
void *encoded_data, uint32_t *encoded_data_len,
unsigned int *flag)
{
h264_codec_context_t *context = (h264_codec_context_t *)codec->private_info;
int width = 0;
int height = 0;
long enc_ret;
SSourcePicture* pic = NULL;
long result;
if (*flag & SFF_WAIT_KEY_FRAME) {
context->encoder->ForceIntraFrame(1);
}
if (img == NULL) {
return nalu_slice(context, encoded_data, encoded_data_len, flag);
}
width = img->d_w;
height = img->d_h;
//switch_assert(width > 0 && (width % 2 == 0));
//switch_assert(height > 0 && (height % 2 == 0));
if (!context->encoder_initialized) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_INFO, "initializing encoder %dx%d\n", width, height);
init_encoder(context, width, height);
}
if (width != context->encoder_params.iPicWidth || height != context->encoder_params.iPicHeight ) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_INFO, "picture size changed from %dx%d to %dx%d, reinitializing encoder",
context->encoder_params.iPicWidth, context->encoder_params.iPicHeight, width, height);
init_encoder(context, width, height);
}
pic = new SSourcePicture;
if (pic == NULL) goto error;
pic->iColorFormat = videoFormatI420;
pic->iPicHeight = height;
pic->iPicWidth = width;
pic->iStride[0] = img->stride[0];
pic->iStride[1] = img->stride[1]; // = img->stride[2];
pic->pData[0] = img->planes[0];
pic->pData[1] = img->planes[1];
pic->pData[2] = img->planes[2];
result = (EVideoFrameType)context->encoder->EncodeFrame(pic, &context->bit_stream_info);
if (result != cmResultSuccess ) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "EncodeFrame() failed, result = %ld\n", result);
goto error;
}
context->cur_layer = 0;
context->cur_nalu_index = 0;
context->last_nalu_data_pos = 0;
if(pic){
delete pic;
pic = NULL;
}
return nalu_slice(context, encoded_data, encoded_data_len, flag);
error:
if(pic){
delete pic;
pic = NULL;
}
*encoded_data_len = 0;
*flag |= SFF_MARKER;
return SWITCH_STATUS_FALSE;
}
static switch_status_t switch_h264_decode(switch_codec_t *codec,
switch_frame_t *frame,
switch_image_t **img,
unsigned int *flag)
{
h264_codec_context_t *context = (h264_codec_context_t *)codec->private_info;
switch_size_t size = 0;
uint32_t error_code;
// switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_INFO, "len: %d ts: %u mark:%d\n", frame->datalen, ntohl(frame->timestamp), frame->m);
if (context->last_received_timestamp && context->last_received_timestamp != frame->timestamp &&
(!frame->m) && (!context->last_received_complete_picture)) {
// possible packet loss
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Packet Loss, skip privousely received packets\n");
switch_buffer_zero(context->nalu_buffer);
}
context->last_received_timestamp = frame->timestamp;
context->last_received_complete_picture = frame->m ? SWITCH_TRUE : SWITCH_FALSE;
size = buffer_h264_nalu(context, frame);
if (frame->m && size) {
int got_picture = 0;
int decoded_len;
int i;
const void *nalu = NULL;
int width, height;
SBufferInfo dest_buffer_info;
switch_buffer_peek_zerocopy(context->nalu_buffer, &nalu);
uint8_t* pData[3] = { 0 };
pData[0] = NULL;
pData[1] = NULL;
pData[2] = NULL;
memset(&dest_buffer_info, 0, sizeof(dest_buffer_info));
error_code = context->decoder->DecodeFrame2((uint8_t *)nalu, size, (uint8_t **)pData, &dest_buffer_info);
if (error_code == dsErrorFree && dest_buffer_info.iBufferStatus == 1) {
width = dest_buffer_info.UsrData.sSystemBuffer.iWidth;
height = dest_buffer_info.UsrData.sSystemBuffer.iHeight;
// switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "got pic: [%dx%d]\n", width, height);
if (!context->img) {
context->img = switch_img_wrap(NULL, SWITCH_IMG_FMT_I420, width, height, 0, pData[0]);
assert(context->img);
}
context->img->w = dest_buffer_info.UsrData.sSystemBuffer.iStride[0];
context->img->h = dest_buffer_info.UsrData.sSystemBuffer.iStride[1];
context->img->d_w = width;
context->img->d_h = height;
context->img->planes[0] = pData[0];
context->img->planes[1] = pData[1];
context->img->planes[2] = pData[2];
context->img->stride[0] = dest_buffer_info.UsrData.sSystemBuffer.iStride[0];
context->img->stride[1] = dest_buffer_info.UsrData.sSystemBuffer.iStride[1];
context->img->stride[2] = dest_buffer_info.UsrData.sSystemBuffer.iStride[1];
*img = context->img;
// TODO: keep going and see if more picture available
// pDecoder->DecodeFrame (NULL, 0, pData, &sDstBufInfo);
} else {
if (error_code) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Decode error: 0x%x\n", error_code);
context->got_sps = 0;
}
}
switch_buffer_zero(context->nalu_buffer);
return SWITCH_STATUS_SUCCESS;
}
end:
return SWITCH_STATUS_SUCCESS;
}
static switch_status_t switch_h264_destroy(switch_codec_t *codec)
{
h264_codec_context_t *context = (h264_codec_context_t *)codec->private_info;
if (!context) return SWITCH_STATUS_SUCCESS;
if (context->nalu_buffer) switch_buffer_destroy(&context->nalu_buffer);
if (context->encoder) {
context->encoder->Uninitialize();
WelsDestroySVCEncoder(context->encoder);
}
if (context->decoder) {
if (context->img) switch_img_free(context->img);
context->decoder->Uninitialize();
WelsDestroyDecoder(context->decoder);
}
return SWITCH_STATUS_SUCCESS;
}
SWITCH_MODULE_LOAD_FUNCTION(mod_openh264_load)
{
switch_codec_interface_t *codec_interface;
/* connect my internal structure to the blank pointer passed to me */
*module_interface = switch_loadable_module_create_module_interface(pool, modname);
SWITCH_ADD_CODEC(codec_interface, "H264 Video (with Cisco OpenH264)");
switch_core_codec_add_video_implementation(pool, codec_interface, 99, "H264", NULL,
switch_h264_init, switch_h264_encode, switch_h264_decode, switch_h264_destroy);
/* indicate that the module should continue to be loaded */
return SWITCH_STATUS_SUCCESS;
}
/* For Emacs:
* Local Variables:
* mode:c
* indent-tabs-mode:t
* tab-width:4
* c-basic-offset:4
* End:
* For VIM:
* vim:set softtabstop=4 shiftwidth=4 tabstop=4:
*/
src/mod/codecs/mod_vpx/Makefile.am
浏览文件 @ 9fdb5476
...@@ -4,7 +4,7 @@ MODNAME=mod_vpx ...@@ -4,7 +4,7 @@ MODNAME=mod_vpx
if HAVE_VPX if HAVE_VPX
mod_LTLIBRARIES = mod_vpx.la mod_LTLIBRARIES = mod_vpx.la
mod_vpx_la_SOURCES = mod_vpx.c mod_vpx_la_SOURCES = mod_vpx.c
mod_vpx_la_LIBADD = $(switch_builddir)/libfreeswitch.la mod_vpx_la_LIBADD = $(switch_builddir)/libfreeswitch.la -L/usr/local/lib/
mod_vpx_la_LDFLAGS = -lvpx -avoid-version -module -no-undefined -shared mod_vpx_la_LDFLAGS = -lvpx -avoid-version -module -no-undefined -shared
else else
install: error install: error
......
src/mod/codecs/mod_vpx/README 0 → 100644
浏览文件 @ 9fdb5476
To build this module I used the following steps:
apt-get install yasm
git /usr/local/src/
git clone https://chromium.googlesource.com/webm/libvpx
cd libvpx/build/
../configure --enable-pic --enable-shared
make
make install
src/mod/codecs/mod_vpx/mod_vpx.c 0 → 100644
浏览文件 @ 9fdb5476
/*
* FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application
* Copyright (C) 2005-2012, Anthony Minessale II <anthm@freeswitch.org>
*
* Version: MPL 1.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application
*
* The Initial Developer of the Original Code is
* Seven Du <dujinfang@gmail.com>
* Portions created by the Initial Developer are Copyright (C)
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
*
* Anthony Minessale II <anthm@freeswitch.org>
* Seven Du <dujinfang@gmail.com>
* Sam Russell <sam.h.russell@gmail.com>
*
* mod_vpx.c -- VP8/9 Video Codec, with transcoding
*
*/
#include <switch.h>
#include <vpx/vpx_encoder.h>
#include <vpx/vpx_decoder.h>
#include <vpx/vp8cx.h>
#include <vpx/vp8dx.h>
#include <vpx/vp8.h>
#define FPS 15
#define SLICE_SIZE 1200
SWITCH_MODULE_LOAD_FUNCTION(mod_vpx_load);
SWITCH_MODULE_DEFINITION(mod_vpx, mod_vpx_load, NULL, NULL);
struct vpx_context {
switch_codec_t *codec;
unsigned int flags;
vpx_codec_enc_cfg_t config;
vpx_codec_ctx_t encoder;
vpx_image_t *pic;
switch_bool_t force_key_frame;
int width;
int height;
int bitrate;
int fps;
int format;
int intra_period;
int pts;
int num;
int partition_index;
const vpx_codec_cx_pkt_t *pkt;
int pkt_pos;
vpx_codec_iter_t iter;
switch_time_t last_ts;
vpx_codec_ctx_t decoder;
switch_buffer_t *vpx_packet_buffer;
int got_key_frame;
switch_size_t last_received_timestamp;
switch_bool_t last_received_complete_picture;
int need_key_frame;
};
typedef struct vpx_context vpx_context_t;
static switch_status_t switch_vpx_init(switch_codec_t *codec, switch_codec_flag_t flags, const switch_codec_settings_t *codec_settings)
{
vpx_context_t *context = NULL;
int encoding, decoding;
vpx_codec_ctx_t *encoder = NULL;
vpx_codec_ctx_t *decoder = NULL;
vpx_codec_enc_cfg_t *config;
const vpx_codec_iface_t* encoder_interface = vpx_codec_vp8_cx();
const vpx_codec_iface_t* decoder_interface = vpx_codec_vp8_dx();
encoding = (flags & SWITCH_CODEC_FLAG_ENCODE);
decoding = (flags & SWITCH_CODEC_FLAG_DECODE);
if (!(encoding || decoding) || ((context = switch_core_alloc(codec->memory_pool, sizeof(*context))) == 0)) {
return SWITCH_STATUS_FALSE;
}
memset(context, 0, sizeof(*context));
context->flags = flags;
codec->private_info = context;
if (codec->fmtp_in) {
codec->fmtp_out = switch_core_strdup(codec->memory_pool, codec->fmtp_in);
}
config = &context->config;
if (vpx_codec_enc_config_default(encoder_interface, config, 0) != VPX_CODEC_OK) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Encoder config Error\n");
return SWITCH_STATUS_FALSE;
}
context->width = 352;
context->height = 288;
context->bitrate = 38400;
// settings
config->g_profile = 1;
config->g_w = context->width;
config->g_h = context->height;
config->rc_target_bitrate = context->bitrate;
config->g_timebase.num = 1;
config->g_timebase.den = 1000;
config->g_error_resilient = VPX_ERROR_RESILIENT_PARTITIONS;
config->g_lag_in_frames = 0; // 0- no frame lagging
config->g_threads = 1;
// rate control settings
config->rc_dropframe_thresh = 0;
config->rc_end_usage = VPX_CBR;
config->g_pass = VPX_RC_ONE_PASS;
// config->kf_mode = VPX_KF_DISABLED;
config->kf_mode = VPX_KF_AUTO;
// config->kf_min_dist = FPS;// Intra Period 3 seconds;
// config->kf_max_dist = FPS * 3;
config->rc_resize_allowed = 0;
config->rc_min_quantizer = 2;
config->rc_max_quantizer = 56;
//Rate control adaptation undershoot control.
// This value, expressed as a percentage of the target bitrate,
// controls the maximum allowed adaptation speed of the codec.
// This factor controls the maximum amount of bits that can be
// subtracted from the target bitrate in order to compensate for
// prior overshoot.
// Valid values in the range 0-1000.
config->rc_undershoot_pct = 100;
//Rate control adaptation overshoot control.
// This value, expressed as a percentage of the target bitrate,
// controls the maximum allowed adaptation speed of the codec.
// This factor controls the maximum amount of bits that can be
// added to the target bitrate in order to compensate for prior
// undershoot.
// Valid values in the range 0-1000.
config->rc_overshoot_pct = 15;
//Decoder Buffer Size.
// This value indicates the amount of data that may be buffered
// by the decoding application. Note that this value is expressed
// in units of time (milliseconds). For example, a value of 5000
// indicates that the client will buffer (at least) 5000ms worth
// of encoded data. Use the target bitrate (rc_target_bitrate) to
// convert to bits/bytes, if necessary.
config->rc_buf_sz = 1000;
//Decoder Buffer Initial Size.
// This value indicates the amount of data that will be buffered
// by the decoding application prior to beginning playback.
// This value is expressed in units of time (milliseconds).
// Use the target bitrate (rc_target_bitrate) to convert to
// bits/bytes, if necessary.
config->rc_buf_initial_sz = 500;
//Decoder Buffer Optimal Size.
// This value indicates the amount of data that the encoder should
// try to maintain in the decoder's buffer. This value is expressed
// in units of time (milliseconds).
// Use the target bitrate (rc_target_bitrate) to convert to
// bits/bytes, if necessary.
config->rc_buf_optimal_sz = 600;
if (encoding) {
if (vpx_codec_enc_init(&context->encoder, encoder_interface, config, 0 & VPX_CODEC_USE_OUTPUT_PARTITION) != VPX_CODEC_OK) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Codec init error: [%d:%s]\n", encoder->err, encoder->err_detail);
return SWITCH_STATUS_FALSE;
}
// The static threshold imposes a change threshold on blocks below which they will be skipped by the encoder.
vpx_codec_control(encoder, VP8E_SET_STATIC_THRESHOLD, 100);
//Set cpu usage, a bit lower than normal (-6) but higher than android (-12)
vpx_codec_control(encoder, VP8E_SET_CPUUSED, -8);
// Only one partition
// vpx_codec_control(encoder, VP8E_SET_TOKEN_PARTITIONS, VP8_ONE_TOKENPARTITION);
// Enable noise reduction
vpx_codec_control(encoder, VP8E_SET_NOISE_SENSITIVITY, 0);
//Set max data rate for Intra frames.
// This value controls additional clamping on the maximum size of a keyframe.
// It is expressed as a percentage of the average per-frame bitrate, with the
// special (and default) value 0 meaning unlimited, or no additional clamping
// beyond the codec's built-in algorithm.
// For example, to allocate no more than 4.5 frames worth of bitrate to a keyframe, set this to 450.
vpx_codec_control(encoder, VP8E_SET_MAX_INTRA_BITRATE_PCT, 0);
}
if (decoding) {
vp8_postproc_cfg_t ppcfg;
if (vpx_codec_dec_init(&context->decoder, decoder_interface, NULL, VPX_CODEC_USE_POSTPROC) != VPX_CODEC_OK) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Codec init error: [%d:%s]\n", encoder->err, encoder->err_detail);
return SWITCH_STATUS_FALSE;
}
// the types of post processing to be done, should be combination of "vp8_postproc_level"
ppcfg.post_proc_flag = VP8_DEMACROBLOCK | VP8_DEBLOCK;
// the strength of deblocking, valid range [0, 16]
ppcfg.deblocking_level = 3;
// Set deblocking settings
vpx_codec_control(decoder, VP8_SET_POSTPROC, &ppcfg);
switch_buffer_create_dynamic(&context->vpx_packet_buffer, 512, 512, 1024000);
}
return SWITCH_STATUS_SUCCESS;
}
/* http://tools.ietf.org/html/draft-ietf-payload-vp8-10
The first octets after the RTP header are the VP8 payload descriptor, with the following structure.
0 1 2 3 4 5 6 7
+-+-+-+-+-+-+-+-+
|X|R|N|S|R| PID | (REQUIRED)
+-+-+-+-+-+-+-+-+
X: |I|L|T|K| RSV | (OPTIONAL)
+-+-+-+-+-+-+-+-+
I: |M| PictureID | (OPTIONAL)
+-+-+-+-+-+-+-+-+
L: | TL0PICIDX | (OPTIONAL)
+-+-+-+-+-+-+-+-+
T/K:|TID|Y| KEYIDX | (OPTIONAL)
+-+-+-+-+-+-+-+-+
VP8 Payload Header
0 1 2 3 4 5 6 7
+-+-+-+-+-+-+-+-+
|Size0|H| VER |P|
+-+-+-+-+-+-+-+-+
| Size1 |
+-+-+-+-+-+-+-+-+
| Size2 |
+-+-+-+-+-+-+-+-+
| Bytes 4..N of |
| VP8 payload |
: :
+-+-+-+-+-+-+-+-+
| OPTIONAL RTP |
| padding |
: :
+-+-+-+-+-+-+-+-+
*/
static switch_status_t consume_partition(vpx_context_t *context, void *data, uint32_t *len, uint32_t *flag)
{
if (!context->pkt) context->pkt = vpx_codec_get_cx_data(&context->encoder, &context->iter);
*flag &= ~SFF_MARKER;
if (context->pkt) {
// if (context->pkt->kind == VPX_CODEC_CX_FRAME_PKT && (context->pkt->data.frame.flags & VPX_FRAME_IS_KEY) && context->pkt_pos == 0) {
// switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "============================Got a VP8 Key Frame size:[%d]===================================\n", (int)context->pkt->data.frame.sz);
// }
// switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "size:%d flag: %x part_id: %d pts: %lld duration:%ld\n",
// (int)context->pkt->data.frame.sz, context->pkt->data.frame.flags, context->pkt->data.frame.partition_id, context->pkt->data.frame.pts, context->pkt->data.frame.duration);
}
if (!context->pkt || context->pkt_pos >= context->pkt->data.frame.sz - 1 || context->pkt->kind != VPX_CODEC_CX_FRAME_PKT) {
*len = 0;
*flag |= SFF_MARKER;
context->pkt_pos = 0;
context->pkt = NULL;
return SWITCH_STATUS_SUCCESS;
}
if (context->pkt->data.frame.sz < SLICE_SIZE) {
uint8_t hdr = 0x10;
memcpy(data, &hdr, 1);
memcpy((uint8_t *)data + 1, context->pkt->data.frame.buf, context->pkt->data.frame.sz);
*len = context->pkt->data.frame.sz + 1;
*flag |= SFF_MARKER;
context->pkt = NULL;
context->pkt_pos = 0;
return SWITCH_STATUS_SUCCESS;
} else {
int left = context->pkt->data.frame.sz - context->pkt_pos;
uint8_t *p = data;
if (left < SLICE_SIZE) {
p[0] = 0;
memcpy(p+1, (uint8_t *)context->pkt->data.frame.buf + context->pkt_pos, left);
context->pkt_pos = 0;
context->pkt = NULL;
*len = left + 1;
*flag |= SFF_MARKER;
return SWITCH_STATUS_SUCCESS;
} else {
uint8_t hdr = context->pkt_pos == 0 ? 0x10 : 0;
p[0] = hdr;
memcpy(p+1, (uint8_t *)context->pkt->data.frame.buf + context->pkt_pos, SLICE_SIZE - 1);
context->pkt_pos += (SLICE_SIZE - 1);
*len = SLICE_SIZE;
return SWITCH_STATUS_MORE_DATA;
}
}
}
static switch_status_t switch_vpx_encode(switch_codec_t *codec, switch_image_t *img,
void *encoded_data, uint32_t *encoded_data_len,
unsigned int *flag)
{
vpx_context_t *context = (vpx_context_t *)codec->private_info;
uint32_t duration = 90000 / FPS;
int width = 0;
int height = 0;
vpx_enc_frame_flags_t vpx_flags = 0;
if (*flag & SFF_WAIT_KEY_FRAME) {
context->need_key_frame = 1;
}
if (img == NULL) {
return consume_partition(context, encoded_data, encoded_data_len, flag);
}
width = img->d_w;
height = img->d_h;
//switch_assert(width > 0 && (width % 4 == 0));
//switch_assert(height > 0 && (height % 4 == 0));
if (context->config.g_w != width || context->config.g_h != height) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_NOTICE, "VPX reset encoder picture from %dx%d to %dx%d\n", context->config.g_w, context->config.g_h, width, height);
context->config.g_w = width;
context->config.g_h = height;
if (vpx_codec_enc_config_set(&context->encoder, &context->config) != VPX_CODEC_OK) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "VPX reset config error!");
}
}
if (context->last_ts == 0) context->last_ts = switch_micro_time_now();
if ((switch_micro_time_now() - context->last_ts) > 2 * 1000000) {
// the config params doesn't seems work for generate regular key frames,
// so we do some trick here to force a key frame every 2 sec
// vpx_flags = VPX_EFLAG_FORCE_KF;
context->last_ts = switch_micro_time_now();
}
if (context->need_key_frame > 0) {
// force generate a key frame
vpx_flags |= VPX_EFLAG_FORCE_KF;
context->last_ts = switch_micro_time_now();
context->need_key_frame--;
}
if (vpx_codec_encode(&context->encoder, (vpx_image_t *)img, context->pts, duration, vpx_flags, VPX_DL_REALTIME) != VPX_CODEC_OK) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "VP8 encode error %d:%s\n",
context->encoder.err, context->encoder.err_detail);
return SWITCH_STATUS_FALSE;
}
context->pts += duration;
context->iter = NULL;
return consume_partition(context, encoded_data, encoded_data_len, flag);
}
static void buffer_vpx_packets(vpx_context_t *context, switch_frame_t *frame)
{
uint8_t *data = frame->data;
uint8_t S;
uint8_t DES;
uint8_t PID;
int len;
if (!frame) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "no frame in codec!!\n");
return;
}
DES = *data;
data++;
S = DES & 0x10;
PID = DES & 0x07;
if (DES & 0x80) { // X
uint8_t X = *data;
data++;
if (X & 0x80) { // I
uint8_t M = (*data) & 0x80;
data++;
if (M) data++;
}
if (X & 0x40) data++; // L
if (X & 0x30) data++; // T/K
}
len = frame->datalen - (data - (uint8_t *)frame->data);
if (len <= 0) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Invalid packet %d\n", len);
switch_buffer_zero(context->vpx_packet_buffer);
return;
}
if (S && (PID == 0)) {
uint8_t keyframe;
keyframe = ((*data) & 0x01) ? 0 : 1;
// switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "[%d] PID: %d K:%d P:%d Inv:%d len: %d size:%d\n", frame->datalen, PID, keyframe, profile, invisible, len, size);
if (keyframe) {
if (!context->got_key_frame) context->got_key_frame = 1;
}
}
if (!context->got_key_frame) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Waiting for key frame\n");
switch_set_flag(frame, SFF_WAIT_KEY_FRAME);
return;
}
switch_buffer_write(context->vpx_packet_buffer, data, len);
}
static switch_status_t switch_vpx_decode(switch_codec_t *codec, switch_frame_t *frame, switch_image_t **img, unsigned int *flag)
{
vpx_context_t *context = (vpx_context_t *)codec->private_info;
vpx_codec_ctx_t *decoder = &context->decoder;
switch_size_t len;
if (!decoder) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "VPX decoder is not initialized!\n");
return SWITCH_STATUS_FALSE;
}
// switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_INFO, "len: %d ts: %" SWITCH_SIZE_T_FMT " mark:%d\n", frame->datalen, frame->timestamp, frame->m);
if (context->last_received_timestamp && context->last_received_timestamp != frame->timestamp &&
(!frame->m) && (!context->last_received_complete_picture)) {
// possible packet loss
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "Packet Loss, skip previouse received frame (to avoid crash?)\n");
switch_buffer_zero(context->vpx_packet_buffer);
}
context->last_received_timestamp = frame->timestamp;
context->last_received_complete_picture = frame->m ? SWITCH_TRUE : SWITCH_FALSE;
buffer_vpx_packets(context, frame);
len = switch_buffer_inuse(context->vpx_packet_buffer);
if (frame->m && len) {
uint8_t *data;
vpx_codec_iter_t iter = NULL;
int corrupted = 0;
int err;
// int keyframe = 0;
switch_buffer_peek_zerocopy(context->vpx_packet_buffer, (void *)&data);
// keyframe = (*data & 0x01) ? 0 : 1;
// switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "buffered: %" SWITCH_SIZE_T_FMT ", key: %d\n", len, keyframe);
err = vpx_codec_decode(decoder, data, (unsigned int)len, NULL, 0);
if (err != VPX_CODEC_OK) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "Error decoding %" SWITCH_SIZE_T_FMT " bytes, [%d:%d:%s]\n", len, err, decoder->err, decoder->err_detail);
switch_set_flag(frame, SFF_WAIT_KEY_FRAME);
context->got_key_frame = 0;
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "require key frame %d\n", context->got_key_frame);
goto error;
}
if (vpx_codec_control(decoder, VP8D_GET_FRAME_CORRUPTED, &corrupted) != VPX_CODEC_OK) {
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_WARNING, "VPX control error!\n");
goto error;
}
*img = (switch_image_t *)vpx_codec_get_frame(decoder, &iter);
if (!(*img) || corrupted) {
switch_buffer_zero(context->vpx_packet_buffer);
goto ok;
}
switch_log_printf(SWITCH_CHANNEL_LOG, SWITCH_LOG_ERROR, "%dx%d %dx%d\n", (*img)->w,(*img)->h, (*img)->d_w, (*img)->d_h);
switch_buffer_zero(context->vpx_packet_buffer);
}
ok:
return SWITCH_STATUS_SUCCESS;
error:
switch_buffer_zero(context->vpx_packet_buffer);
return SWITCH_STATUS_FALSE;
}
static switch_status_t switch_vpx_destroy(switch_codec_t *codec)
{
vpx_context_t *context = (vpx_context_t *)codec->private_info;
if (context) {
if ((codec->flags & SWITCH_CODEC_FLAG_ENCODE)) {
vpx_codec_destroy(&context->encoder); // TODO fix crash
}
if ((codec->flags & SWITCH_CODEC_FLAG_DECODE)) {
vpx_codec_destroy(&context->decoder);
}
if (context->pic) {
vpx_img_free(context->pic);
context->pic = NULL;
}
if (context->vpx_packet_buffer) {
switch_buffer_destroy(&context->vpx_packet_buffer);
context->vpx_packet_buffer = NULL;
}
}
return SWITCH_STATUS_SUCCESS;
}
SWITCH_MODULE_LOAD_FUNCTION(mod_vpx_load)
{
switch_codec_interface_t *codec_interface;
/* connect my internal structure to the blank pointer passed to me */
*module_interface = switch_loadable_module_create_module_interface(pool, modname);
SWITCH_ADD_CODEC(codec_interface, "VP8 Video");
switch_core_codec_add_video_implementation(pool, codec_interface, 99, "VP8", NULL,
switch_vpx_init, switch_vpx_encode, switch_vpx_decode, switch_vpx_destroy);
/* indicate that the module should continue to be loaded */
return SWITCH_STATUS_SUCCESS;
}
/* For Emacs:
* Local Variables:
* mode:c
* indent-tabs-mode:t
* tab-width:4
* c-basic-offset:4
* End:
* For VIM:
* vim:set softtabstop=4 shiftwidth=4 tabstop=4 noet:
*/
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