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nvmpi_dec.cpp
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nvmpi_dec.cpp
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#include "nvmpi.h"
#include "NvVideoDecoder.h"
#include "nvbuf_utils.h"
#include <vector>
#include <iostream>
#include <thread>
#include <unistd.h>
#include <queue>
#include <mutex>
#include <condition_variable>
#define CHUNK_SIZE 4000000
#define MAX_BUFFERS 32
#define TEST_ERROR(condition, message, errorCode) \
if (condition) \
{ \
std::cout<< message; \
}
using namespace std;
struct nvmpictx
{
NvVideoDecoder *dec{nullptr};
bool eos{false};
bool got_res_event{false};
int index{0};
unsigned int coded_width{0};
unsigned int coded_height{0};
int dst_dma_fd{0};
int numberCaptureBuffers{0};
int dmaBufferFileDescriptor[MAX_BUFFERS];
nvPixFormat out_pixfmt;
unsigned int decoder_pixfmt{0};
std::thread * dec_capture_loop{nullptr};
std::mutex* mutex{nullptr};
std::condition_variable* has_frame_cv{nullptr};
std::queue<int> * frame_pools{nullptr};
unsigned char * bufptr_0[MAX_BUFFERS];
unsigned char * bufptr_1[MAX_BUFFERS];
unsigned char * bufptr_2[MAX_BUFFERS];
unsigned int frame_size[MAX_NUM_PLANES];
unsigned int frame_linesize[MAX_NUM_PLANES];
unsigned long long timestamp[MAX_BUFFERS];
};
void respondToResolutionEvent(v4l2_format &format, v4l2_crop &crop,nvmpictx* ctx){
int32_t minimumDecoderCaptureBuffers;
int ret=0;
NvBufferCreateParams input_params = {0};
NvBufferCreateParams cParams = {0};
ret = ctx->dec->capture_plane.getFormat(format);
TEST_ERROR(ret < 0, "Error: Could not get format from decoder capture plane", ret);
ret = ctx->dec->capture_plane.getCrop(crop);
TEST_ERROR(ret < 0, "Error: Could not get crop from decoder capture plane", ret);
ctx->coded_width=crop.c.width;
ctx->coded_height=crop.c.height;
if(ctx->dst_dma_fd != -1)
{
NvBufferDestroy(ctx->dst_dma_fd);
ctx->dst_dma_fd = -1;
}
input_params.payloadType = NvBufferPayload_SurfArray;
input_params.width = crop.c.width;
input_params.height = crop.c.height;
input_params.layout = NvBufferLayout_Pitch;
input_params.colorFormat = ctx->out_pixfmt==NV_PIX_NV12?NvBufferColorFormat_NV12: NvBufferColorFormat_YUV420;
input_params.nvbuf_tag = NvBufferTag_VIDEO_DEC;
ctx->dec->capture_plane.deinitPlane();
for (int index = 0; index < ctx->numberCaptureBuffers; index++)
{
if (ctx->dmaBufferFileDescriptor[index] != 0)
{
ret = NvBufferDestroy(ctx->dmaBufferFileDescriptor[index]);
TEST_ERROR(ret < 0, "Failed to Destroy NvBuffer", ret);
}
}
ret=ctx->dec->setCapturePlaneFormat(format.fmt.pix_mp.pixelformat,format.fmt.pix_mp.width,format.fmt.pix_mp.height);
TEST_ERROR(ret < 0, "Error in setting decoder capture plane format", ret);
ctx->dec->getMinimumCapturePlaneBuffers(minimumDecoderCaptureBuffers);
TEST_ERROR(ret < 0, "Error while getting value of minimum capture plane buffers",ret);
ctx->numberCaptureBuffers = minimumDecoderCaptureBuffers + 5;
switch (format.fmt.pix_mp.colorspace)
{
case V4L2_COLORSPACE_SMPTE170M:
if (format.fmt.pix_mp.quantization == V4L2_QUANTIZATION_DEFAULT)
{
// "Decoder colorspace ITU-R BT.601 with standard range luma (16-235)"
cParams.colorFormat = NvBufferColorFormat_NV12;
}
else
{
//"Decoder colorspace ITU-R BT.601 with extended range luma (0-255)";
cParams.colorFormat = NvBufferColorFormat_NV12_ER;
}
break;
case V4L2_COLORSPACE_REC709:
if (format.fmt.pix_mp.quantization == V4L2_QUANTIZATION_DEFAULT)
{
//"Decoder colorspace ITU-R BT.709 with standard range luma (16-235)";
cParams.colorFormat = NvBufferColorFormat_NV12_709;
}
else
{
//"Decoder colorspace ITU-R BT.709 with extended range luma (0-255)";
cParams.colorFormat = NvBufferColorFormat_NV12_709_ER;
}
break;
case V4L2_COLORSPACE_BT2020:
{
//"Decoder colorspace ITU-R BT.2020";
cParams.colorFormat = NvBufferColorFormat_NV12_2020;
}
break;
default:
if (format.fmt.pix_mp.quantization == V4L2_QUANTIZATION_DEFAULT)
{
//"Decoder colorspace ITU-R BT.601 with standard range luma (16-235)";
cParams.colorFormat = NvBufferColorFormat_NV12;
}
else
{
//"Decoder colorspace ITU-R BT.601 with extended range luma (0-255)";
cParams.colorFormat = NvBufferColorFormat_NV12_ER;
}
break;
}
ret = NvBufferCreateEx (&ctx->dst_dma_fd, &input_params);
TEST_ERROR(ret == -1, "create dst_dmabuf failed", error);
for (int index = 0; index < ctx->numberCaptureBuffers; index++)
{
cParams.width = crop.c.width;
cParams.height = crop.c.height;
cParams.layout = NvBufferLayout_BlockLinear;
cParams.payloadType = NvBufferPayload_SurfArray;
cParams.nvbuf_tag = NvBufferTag_VIDEO_DEC;
ret = NvBufferCreateEx(&ctx->dmaBufferFileDescriptor[index], &cParams);
TEST_ERROR(ret < 0, "Failed to create buffers", ret);
}
ctx->dec->capture_plane.reqbufs(V4L2_MEMORY_DMABUF, ctx->numberCaptureBuffers);
TEST_ERROR(ret < 0, "Error in decoder capture plane streamon", ret);
ctx->dec->capture_plane.setStreamStatus(true);
TEST_ERROR(ret < 0, "Error in decoder capture plane streamon", ret);
for (uint32_t i = 0; i < ctx->dec->capture_plane.getNumBuffers(); i++)
{
struct v4l2_buffer v4l2_buf;
struct v4l2_plane planes[MAX_PLANES];
memset(&v4l2_buf, 0, sizeof(v4l2_buf));
memset(planes, 0, sizeof(planes));
v4l2_buf.index = i;
v4l2_buf.m.planes = planes;
v4l2_buf.type = V4L2_BUF_TYPE_VIDEO_CAPTURE;
v4l2_buf.memory = V4L2_MEMORY_DMABUF;
v4l2_buf.m.planes[0].m.fd = ctx->dmaBufferFileDescriptor[i];
ret = ctx->dec->capture_plane.qBuffer(v4l2_buf, NULL);
TEST_ERROR(ret < 0, "Error Qing buffer at output plane", ret);
}
ctx->got_res_event = true;
}
void *dec_capture_loop_fcn(void *arg){
nvmpictx* ctx=(nvmpictx*)arg;
struct v4l2_format v4l2Format;
struct v4l2_crop v4l2Crop;
struct v4l2_event v4l2Event;
int ret,buf_index=0;
while (!(ctx->dec->isInError()||ctx->eos)){
NvBuffer *dec_buffer;
ret = ctx->dec->dqEvent(v4l2Event, ctx->got_res_event ? 0 : 500);
if (ret == 0)
{
switch (v4l2Event.type)
{
case V4L2_EVENT_RESOLUTION_CHANGE:
respondToResolutionEvent(v4l2Format, v4l2Crop,ctx);
continue;
}
}
if (!ctx->got_res_event) {
continue;
}
while(!ctx->eos){
struct v4l2_buffer v4l2_buf;
struct v4l2_plane planes[MAX_PLANES];
v4l2_buf.m.planes = planes;
if (ctx->dec->capture_plane.dqBuffer(v4l2_buf, &dec_buffer, NULL, 0)){
if (errno == EAGAIN)
{
usleep(1000);
}
else
{
ERROR_MSG("Error while calling dequeue at capture plane");
ctx->eos=true;
}
break;
}
dec_buffer->planes[0].fd = ctx->dmaBufferFileDescriptor[v4l2_buf.index];
NvBufferRect src_rect, dest_rect;
src_rect.top = 0;
src_rect.left = 0;
src_rect.width = ctx->coded_width;
src_rect.height = ctx->coded_height;
dest_rect.top = 0;
dest_rect.left = 0;
dest_rect.width = ctx->coded_width;
dest_rect.height = ctx->coded_height;
NvBufferTransformParams transform_params;
memset(&transform_params,0,sizeof(transform_params));
transform_params.transform_flag = NVBUFFER_TRANSFORM_FILTER;
transform_params.transform_flip = NvBufferTransform_None;
transform_params.transform_filter = NvBufferTransform_Filter_Smart;
transform_params.src_rect = src_rect;
transform_params.dst_rect = dest_rect;
ctx->mutex->lock();
if(!ctx->eos){
ret = NvBufferTransform(dec_buffer->planes[0].fd, ctx->dst_dma_fd, &transform_params);
TEST_ERROR(ret==-1, "Transform failed",ret);
NvBufferParams parm;
ret = NvBufferGetParams(ctx->dst_dma_fd, &parm);
if(!ctx->frame_size[0]){
for(int index=0;index<MAX_BUFFERS;index++){
ctx->bufptr_0[index]=new unsigned char[parm.psize[0]];//Y
ctx->bufptr_1[index]=new unsigned char[parm.psize[1]];//UV or UU
ctx->bufptr_2[index]=new unsigned char[parm.psize[2]];//VV
}
}
ctx->frame_linesize[0]=parm.width[0];
ctx->frame_size[0]=parm.psize[0];
ctx->frame_linesize[1]=parm.width[1];
ctx->frame_size[1]=parm.psize[1];
ctx->frame_linesize[2]=parm.width[2];
ctx->frame_size[2]=parm.psize[2];
ret=NvBuffer2Raw(ctx->dst_dma_fd,0,parm.width[0],parm.height[0],ctx->bufptr_0[buf_index]);
ret=NvBuffer2Raw(ctx->dst_dma_fd,1,parm.width[1],parm.height[1],ctx->bufptr_1[buf_index]);
if(ctx->out_pixfmt==NV_PIX_YUV420)
ret=NvBuffer2Raw(ctx->dst_dma_fd,2,parm.width[2],parm.height[2],ctx->bufptr_2[buf_index]);
ctx->frame_pools->push(buf_index);
ctx->timestamp[buf_index]= (v4l2_buf.timestamp.tv_usec % 1000000) + (v4l2_buf.timestamp.tv_sec * 1000000UL);
buf_index=(buf_index+1)%MAX_BUFFERS;
}
ctx->mutex->unlock();
if (ctx->eos) {
break;
}
ctx->has_frame_cv->notify_one();
v4l2_buf.m.planes[0].m.fd = ctx->dmaBufferFileDescriptor[v4l2_buf.index];
if (ctx->dec->capture_plane.qBuffer(v4l2_buf, NULL) < 0){
ERROR_MSG("Error while queueing buffer at decoder capture plane");
}
}
}
// Wake all waiting threads at EOS or decoder error
ctx->has_frame_cv->notify_all();
}
nvmpictx* nvmpi_create_decoder(nvCodingType codingType,nvPixFormat pixFormat){
int ret;
log_level = LOG_LEVEL_INFO;
nvmpictx* ctx=new nvmpictx;
ctx->dec = NvVideoDecoder::createVideoDecoder("dec0");
TEST_ERROR(!ctx->dec, "Could not create decoder",ret);
ret=ctx->dec->subscribeEvent(V4L2_EVENT_RESOLUTION_CHANGE, 0, 0);
TEST_ERROR(ret < 0, "Could not subscribe to V4L2_EVENT_RESOLUTION_CHANGE", ret);
switch(codingType){
case NV_VIDEO_CodingH264:
ctx->decoder_pixfmt=V4L2_PIX_FMT_H264;
break;
case NV_VIDEO_CodingHEVC:
ctx->decoder_pixfmt=V4L2_PIX_FMT_H265;
break;
case NV_VIDEO_CodingMPEG4:
ctx->decoder_pixfmt=V4L2_PIX_FMT_MPEG4;
break;
case NV_VIDEO_CodingMPEG2:
ctx->decoder_pixfmt=V4L2_PIX_FMT_MPEG2;
break;
case NV_VIDEO_CodingVP8:
ctx->decoder_pixfmt=V4L2_PIX_FMT_VP8;
break;
case NV_VIDEO_CodingVP9:
ctx->decoder_pixfmt=V4L2_PIX_FMT_VP9;
break;
default:
ctx->decoder_pixfmt=V4L2_PIX_FMT_H264;
break;
}
ret=ctx->dec->setOutputPlaneFormat(ctx->decoder_pixfmt, CHUNK_SIZE);
TEST_ERROR(ret < 0, "Could not set output plane format", ret);
//ctx->nalu_parse_buffer = new char[CHUNK_SIZE];
ret = ctx->dec->setFrameInputMode(0);
TEST_ERROR(ret < 0, "Error in decoder setFrameInputMode for NALU", ret);
ret = ctx->dec->output_plane.setupPlane(V4L2_MEMORY_USERPTR, 10, false, true);
TEST_ERROR(ret < 0, "Error while setting up output plane", ret);
ctx->dec->output_plane.setStreamStatus(true);
TEST_ERROR(ret < 0, "Error in output plane stream on", ret);
ctx->out_pixfmt=pixFormat;
ctx->dst_dma_fd=-1;
ctx->eos=false;
ctx->got_res_event=false;
ctx->index=0;
ctx->frame_size[0]=0;
ctx->frame_pools=new std::queue<int>;
ctx->mutex = new std::mutex();
ctx->has_frame_cv = new std::condition_variable();
for(int index=0;index<MAX_BUFFERS;index++)
ctx->dmaBufferFileDescriptor[index]=0;
for(int index=0;index<MAX_BUFFERS;index++){
ctx->bufptr_0[index] = nullptr;
ctx->bufptr_1[index] = nullptr;
ctx->bufptr_2[index] = nullptr;
}
ctx->numberCaptureBuffers=0;
ctx->dec_capture_loop=new thread(dec_capture_loop_fcn,ctx);
return ctx;
}
int nvmpi_decoder_put_packet(nvmpictx* ctx,nvPacket* packet){
int ret;
struct v4l2_buffer v4l2_buf;
struct v4l2_plane planes[MAX_PLANES];
NvBuffer *nvBuffer;
memset(&v4l2_buf, 0, sizeof(v4l2_buf));
memset(planes, 0, sizeof(planes));
v4l2_buf.m.planes = planes;
if (ctx->index < (int)ctx->dec->output_plane.getNumBuffers()) {
nvBuffer = ctx->dec->output_plane.getNthBuffer(ctx->index);
} else {
ret = ctx->dec->output_plane.dqBuffer(v4l2_buf, &nvBuffer, NULL, -1);
if (ret < 0) {
cout << "Error DQing buffer at output plane" << std::endl;
return false;
}
}
memcpy(nvBuffer->planes[0].data,packet->payload,packet->payload_size);
nvBuffer->planes[0].bytesused=packet->payload_size;
if (ctx->index < ctx->dec->output_plane.getNumBuffers())
{
v4l2_buf.index = ctx->index ;
v4l2_buf.m.planes = planes;
}
v4l2_buf.m.planes[0].bytesused = nvBuffer->planes[0].bytesused;
v4l2_buf.flags |= V4L2_BUF_FLAG_TIMESTAMP_COPY;
v4l2_buf.timestamp.tv_sec = packet->pts / 1000000;
v4l2_buf.timestamp.tv_usec = packet->pts % 1000000;
ret = ctx->dec->output_plane.qBuffer(v4l2_buf, NULL);
if (ret < 0) {
std::cout << "Error Qing buffer at output plane" << std::endl;
return false;
}
if (ctx->index < ctx->dec->output_plane.getNumBuffers())
ctx->index++;
if (v4l2_buf.m.planes[0].bytesused == 0) {
ctx->eos=true;
std::cout << "Input file read complete" << std::endl;
}
return 0;
}
int nvmpi_decoder_get_frame(nvmpictx* ctx,nvFrame* frame,bool wait){
int ret,picture_index;
std::unique_lock<std::mutex> lock(*ctx->mutex);
if (wait) {
while (ctx->frame_pools->empty() && !ctx->eos && !ctx->dec->isInError()) {
ctx->has_frame_cv->wait(lock);
}
}
if (ctx->frame_pools->empty()) {
return -1;
}
picture_index=ctx->frame_pools->front();
ctx->frame_pools->pop();
frame->width=ctx->coded_width;
frame->height=ctx->coded_height;
frame->linesize[0]=ctx->frame_linesize[0];
frame->linesize[1]=ctx->frame_linesize[1];
frame->linesize[2]=ctx->frame_linesize[2];
frame->payload[0]=ctx->bufptr_0[picture_index];
frame->payload[1]=ctx->bufptr_1[picture_index];
frame->payload[2]=ctx->bufptr_2[picture_index];
frame->payload_size[0]=ctx->frame_size[0];
frame->payload_size[1]=ctx->frame_size[1];
frame->payload_size[2]=ctx->frame_size[2];
frame->timestamp=ctx->timestamp[picture_index];
return 0;
}
int nvmpi_decoder_close(nvmpictx* ctx){
ctx->mutex->lock();
ctx->eos=true;
ctx->mutex->unlock();
ctx->dec->capture_plane.setStreamStatus(false);
if (ctx->dec_capture_loop) {
ctx->dec_capture_loop->join();
delete ctx->dec_capture_loop;
ctx->dec_capture_loop = nullptr;
}
if(ctx->dst_dma_fd != -1)
{
NvBufferDestroy(ctx->dst_dma_fd);
ctx->dst_dma_fd = -1;
}
for (int index = 0; index < ctx->numberCaptureBuffers; index++)
{
if (ctx->dmaBufferFileDescriptor[index] != 0)
{
int ret = NvBufferDestroy(ctx->dmaBufferFileDescriptor[index]);
TEST_ERROR(ret < 0, "Failed to Destroy NvBuffer", ret);
}
}
delete ctx->dec; ctx->dec = nullptr;
for(int index=0;index<MAX_BUFFERS;index++){
delete[] ctx->bufptr_0[index];
delete[] ctx->bufptr_1[index];
delete[] ctx->bufptr_2[index];
}
delete ctx->mutex; ctx->mutex = nullptr;
delete ctx->has_frame_cv; ctx->has_frame_cv = nullptr;
delete ctx->frame_pools; ctx->frame_pools = nullptr;
delete ctx; ctx = nullptr;
return 0;
}