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allwinner_a64/android/hardware/intel/common/omx-components/videocodec/OMXVideoDecoderBase.cpp
August 78ea2404cd upload android base code part4
2018-08-08 17:00:29 +08:00

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/*
* Copyright (c) 2009-2011 Intel Corporation. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
//#define LOG_NDEBUG 0
#define LOG_TAG "OMXVideoDecoder"
#include <wrs_omxil_core/log.h>
#include <nativebase/nativebase.h>
#include <hardware/gralloc.h>
#include <va/va_android.h>
#include "OMXVideoDecoderBase.h"
#include "ProtectedDataBuffer.h"
static const char* VA_RAW_MIME_TYPE = "video/x-raw-va";
static const uint32_t VA_COLOR_FORMAT = 0x7FA00E00;
OMXVideoDecoderBase::OMXVideoDecoderBase()
: mRotationDegrees(0),
#ifdef TARGET_HAS_ISV
mVppBufferNum(0),
#endif
mCodecPriority(1),
mOperatingRate(0),
mVideoDecoder(NULL),
mNativeBufferCount(OUTPORT_NATIVE_BUFFER_COUNT),
mWorkingMode(RAWDATA_MODE),
mErrorReportEnabled (false),
mAPMode(LEGACY_MODE),
mFlushMode(false),
mFormatChanged(false) {
mOMXBufferHeaderTypePtrNum = 0;
mMetaDataBuffersNum = 0;
memset(&mGraphicBufferParam, 0, sizeof(mGraphicBufferParam));
}
OMXVideoDecoderBase::~OMXVideoDecoderBase() {
releaseVideoDecoder(mVideoDecoder);
if (this->ports) {
if (this->ports[INPORT_INDEX]) {
delete this->ports[INPORT_INDEX];
this->ports[INPORT_INDEX] = NULL;
}
if (this->ports[OUTPORT_INDEX]) {
delete this->ports[OUTPORT_INDEX];
this->ports[OUTPORT_INDEX] = NULL;
}
}
}
OMX_ERRORTYPE OMXVideoDecoderBase::InitInputPort(void) {
this->ports[INPORT_INDEX] = new PortVideo;
if (this->ports[INPORT_INDEX] == NULL) {
return OMX_ErrorInsufficientResources;
}
PortVideo *port = static_cast<PortVideo *>(this->ports[INPORT_INDEX]);
// OMX_PARAM_PORTDEFINITIONTYPE
OMX_PARAM_PORTDEFINITIONTYPE paramPortDefinitionInput;
memset(&paramPortDefinitionInput, 0, sizeof(paramPortDefinitionInput));
SetTypeHeader(&paramPortDefinitionInput, sizeof(paramPortDefinitionInput));
paramPortDefinitionInput.nPortIndex = INPORT_INDEX;
paramPortDefinitionInput.eDir = OMX_DirInput;
paramPortDefinitionInput.nBufferCountActual = INPORT_ACTUAL_BUFFER_COUNT;
paramPortDefinitionInput.nBufferCountMin = INPORT_MIN_BUFFER_COUNT;
paramPortDefinitionInput.nBufferSize = INPORT_BUFFER_SIZE;
paramPortDefinitionInput.bEnabled = OMX_TRUE;
paramPortDefinitionInput.bPopulated = OMX_FALSE;
paramPortDefinitionInput.eDomain = OMX_PortDomainVideo;
paramPortDefinitionInput.format.video.cMIMEType = NULL; // to be overridden
paramPortDefinitionInput.format.video.pNativeRender = NULL;
paramPortDefinitionInput.format.video.nFrameWidth = 176;
paramPortDefinitionInput.format.video.nFrameHeight = 144;
paramPortDefinitionInput.format.video.nStride = 0;
paramPortDefinitionInput.format.video.nSliceHeight = 0;
paramPortDefinitionInput.format.video.nBitrate = 64000;
paramPortDefinitionInput.format.video.xFramerate = 15 << 16;
// TODO: check if we need to set bFlagErrorConcealment to OMX_TRUE
paramPortDefinitionInput.format.video.bFlagErrorConcealment = OMX_FALSE;
paramPortDefinitionInput.format.video.eCompressionFormat = OMX_VIDEO_CodingUnused; // to be overridden
paramPortDefinitionInput.format.video.eColorFormat = OMX_COLOR_FormatUnused;
paramPortDefinitionInput.format.video.pNativeWindow = NULL;
paramPortDefinitionInput.bBuffersContiguous = OMX_FALSE;
paramPortDefinitionInput.nBufferAlignment = 0;
// Derived class must implement this interface and override any field if needed.
// eCompressionFormat and and cMIMEType must be overridden
InitInputPortFormatSpecific(&paramPortDefinitionInput);
port->SetPortDefinition(&paramPortDefinitionInput, true);
// OMX_VIDEO_PARAM_PORTFORMATTYPE
OMX_VIDEO_PARAM_PORTFORMATTYPE paramPortFormat;
memset(&paramPortFormat, 0, sizeof(paramPortFormat));
SetTypeHeader(&paramPortFormat, sizeof(paramPortFormat));
paramPortFormat.nPortIndex = INPORT_INDEX;
paramPortFormat.nIndex = 0;
paramPortFormat.eCompressionFormat = paramPortDefinitionInput.format.video.eCompressionFormat;
paramPortFormat.eColorFormat = paramPortDefinitionInput.format.video.eColorFormat;
paramPortFormat.xFramerate = paramPortDefinitionInput.format.video.xFramerate;
port->SetPortVideoParam(&paramPortFormat, true);
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::InitOutputPort(void) {
this->ports[OUTPORT_INDEX] = new PortVideo;
if (this->ports[OUTPORT_INDEX] == NULL) {
return OMX_ErrorInsufficientResources;
}
PortVideo *port = static_cast<PortVideo *>(this->ports[OUTPORT_INDEX]);
// OMX_PARAM_PORTDEFINITIONTYPE
OMX_PARAM_PORTDEFINITIONTYPE paramPortDefinitionOutput;
memset(&paramPortDefinitionOutput, 0, sizeof(paramPortDefinitionOutput));
SetTypeHeader(&paramPortDefinitionOutput, sizeof(paramPortDefinitionOutput));
paramPortDefinitionOutput.nPortIndex = OUTPORT_INDEX;
paramPortDefinitionOutput.eDir = OMX_DirOutput;
paramPortDefinitionOutput.nBufferCountActual = OUTPORT_ACTUAL_BUFFER_COUNT;
paramPortDefinitionOutput.nBufferCountMin = OUTPORT_MIN_BUFFER_COUNT;
paramPortDefinitionOutput.nBufferSize = sizeof(VideoRenderBuffer);
paramPortDefinitionOutput.bEnabled = OMX_TRUE;
paramPortDefinitionOutput.bPopulated = OMX_FALSE;
paramPortDefinitionOutput.eDomain = OMX_PortDomainVideo;
paramPortDefinitionOutput.format.video.cMIMEType = (OMX_STRING)VA_RAW_MIME_TYPE;
paramPortDefinitionOutput.format.video.pNativeRender = NULL;
paramPortDefinitionOutput.format.video.nFrameWidth = 176;
paramPortDefinitionOutput.format.video.nFrameHeight = 144;
paramPortDefinitionOutput.format.video.nStride = 176;
paramPortDefinitionOutput.format.video.nSliceHeight = 144;
paramPortDefinitionOutput.format.video.nBitrate = 64000;
paramPortDefinitionOutput.format.video.xFramerate = 15 << 16;
paramPortDefinitionOutput.format.video.bFlagErrorConcealment = OMX_FALSE;
paramPortDefinitionOutput.format.video.eCompressionFormat = OMX_VIDEO_CodingUnused;
paramPortDefinitionOutput.format.video.eColorFormat = OMX_COLOR_FormatYUV420SemiPlanar;
paramPortDefinitionOutput.format.video.pNativeWindow = NULL;
paramPortDefinitionOutput.bBuffersContiguous = OMX_FALSE;
paramPortDefinitionOutput.nBufferAlignment = 0;
// no format specific to initialize output port
InitOutputPortFormatSpecific(&paramPortDefinitionOutput);
port->SetPortDefinition(&paramPortDefinitionOutput, true);
// OMX_VIDEO_PARAM_PORTFORMATTYPE
OMX_VIDEO_PARAM_PORTFORMATTYPE paramPortFormat;
SetTypeHeader(&paramPortFormat, sizeof(paramPortFormat));
paramPortFormat.nPortIndex = OUTPORT_INDEX;
paramPortFormat.nIndex = 0;
paramPortFormat.eCompressionFormat = paramPortDefinitionOutput.format.video.eCompressionFormat;
paramPortFormat.eColorFormat = paramPortDefinitionOutput.format.video.eColorFormat;
paramPortFormat.xFramerate = paramPortDefinitionOutput.format.video.xFramerate;
port->SetPortVideoParam(&paramPortFormat, true);
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::InitOutputPortFormatSpecific(OMX_PARAM_PORTDEFINITIONTYPE *) {
// no format specific to initialize output port
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::ProcessorInit(void) {
OMX_ERRORTYPE ret;
ret = OMXComponentCodecBase::ProcessorInit();
CHECK_RETURN_VALUE("OMXComponentCodecBase::ProcessorInit");
if (mVideoDecoder == NULL) {
LOGE("ProcessorInit: Video decoder is not created.");
return OMX_ErrorDynamicResourcesUnavailable;
}
VideoConfigBuffer configBuffer;
ret = PrepareConfigBuffer(&configBuffer);
CHECK_RETURN_VALUE("PrepareConfigBuffer");
//pthread_mutex_lock(&mSerializationLock);
Decode_Status status = mVideoDecoder->start(&configBuffer);
//pthread_mutex_unlock(&mSerializationLock);
if (status != DECODE_SUCCESS) {
return TranslateDecodeStatus(status);
}
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::ProcessorReset(void) {
OMX_ERRORTYPE ret;
VideoConfigBuffer configBuffer;
// reset the configbuffer and set it to mix
ret = PrepareConfigBuffer(&configBuffer);
CHECK_RETURN_VALUE("PrepareConfigBuffer");
mVideoDecoder->reset(&configBuffer);
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::ProcessorDeinit(void) {
if (mWorkingMode != GRAPHICBUFFER_MODE) {
if (mVideoDecoder == NULL) {
LOGE("ProcessorDeinit: Video decoder is not created.");
return OMX_ErrorDynamicResourcesUnavailable;
}
mVideoDecoder->stop();
}
mOMXBufferHeaderTypePtrNum = 0;
memset(&mGraphicBufferParam, 0, sizeof(mGraphicBufferParam));
mRotationDegrees = 0;
#ifdef TARGET_HAS_ISV
mVppBufferNum = 0;
#endif
return OMXComponentCodecBase::ProcessorDeinit();
}
OMX_ERRORTYPE OMXVideoDecoderBase::ProcessorStart(void) {
return OMXComponentCodecBase::ProcessorStart();
}
OMX_ERRORTYPE OMXVideoDecoderBase::ProcessorStop(void) {
// There is no need to return all retained buffers as we don't accumulate buffer
//this->ports[INPORT_INDEX]->ReturnAllRetainedBuffers();
// TODO: this is new code
ProcessorFlush(OMX_ALL);
if (mWorkingMode == GRAPHICBUFFER_MODE) {
// for GRAPHICBUFFER_MODE mode, va_destroySurface need to lock the graphicbuffer,
// Make sure va_destroySurface is called(ExecutingToIdle) before graphicbuffer is freed(IdleToLoaded).
if (mVideoDecoder == NULL) {
LOGE("ProcessorStop: Video decoder is not created.");
return OMX_ErrorDynamicResourcesUnavailable;
}
mVideoDecoder->stop();
}
return OMXComponentCodecBase::ProcessorStop();
}
OMX_ERRORTYPE OMXVideoDecoderBase::ProcessorPause(void) {
return OMXComponentCodecBase::ProcessorPause();
}
OMX_ERRORTYPE OMXVideoDecoderBase::ProcessorResume(void) {
return OMXComponentCodecBase::ProcessorResume();
}
OMX_ERRORTYPE OMXVideoDecoderBase::ProcessorFlush(OMX_U32 portIndex) {
LOGI("Flushing port# %u.", portIndex);
if (mVideoDecoder == NULL) {
LOGE("ProcessorFlush: Video decoder is not created.");
return OMX_ErrorDynamicResourcesUnavailable;
}
// Portbase has returned all retained buffers.
if (portIndex == INPORT_INDEX || portIndex == OMX_ALL) {
//pthread_mutex_lock(&mSerializationLock);
LOGW("Flushing video pipeline.");
mVideoDecoder->flush();
//pthread_mutex_unlock(&mSerializationLock);
}
// TODO: do we need to flush output port?
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::ProcessorPreFreeBuffer(OMX_U32 nPortIndex, OMX_BUFFERHEADERTYPE * pBuffer) {
if (mWorkingMode == GRAPHICBUFFER_MODE)
return OMX_ErrorNone;
if (nPortIndex == OUTPORT_INDEX && pBuffer->pPlatformPrivate) {
VideoRenderBuffer *p = (VideoRenderBuffer *)pBuffer->pPlatformPrivate;
p->renderDone = true;
pBuffer->pPlatformPrivate = NULL;
}
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::ProcessorPreFillBuffer(OMX_BUFFERHEADERTYPE* buffer) {
if (mWorkingMode == GRAPHICBUFFER_MODE && buffer->nOutputPortIndex == OUTPORT_INDEX){
Decode_Status status;
if(mVideoDecoder == NULL){
LOGW("ProcessorPreFillBuffer: Video decoder is not created");
return OMX_ErrorDynamicResourcesUnavailable;
}
if (mAPMode == METADATA_MODE) {
bool found = false;
if (mOMXBufferHeaderTypePtrNum < mMetaDataBuffersNum) {
for (uint32_t i = 0; i < mOMXBufferHeaderTypePtrNum; i++) {
if (mOMXBufferHeaderTypePtrArray[i] == buffer) {
found = true;
break;
}
}
if (!found) {
mOMXBufferHeaderTypePtrArray[mOMXBufferHeaderTypePtrNum] = buffer;
mOMXBufferHeaderTypePtrNum++;
}
}
VideoDecoderOutputMetaData *metadata = (VideoDecoderOutputMetaData *)(buffer->pBuffer);
status = mVideoDecoder->signalRenderDone((void *)(metadata->pHandle), !found);
} else {
status = mVideoDecoder->signalRenderDone(buffer->pBuffer);
}
if (status != DECODE_SUCCESS) {
LOGW("ProcessorPreFillBuffer:: signalRenderDone return error");
return TranslateDecodeStatus(status);
}
} else if (buffer->pPlatformPrivate && buffer->nOutputPortIndex == OUTPORT_INDEX){
VideoRenderBuffer *p = (VideoRenderBuffer *)buffer->pPlatformPrivate;
p->renderDone = true;
buffer->pPlatformPrivate = NULL;
}
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::ProcessorProcess(
OMX_BUFFERHEADERTYPE ***pBuffers,
buffer_retain_t *retains,
OMX_U32) {
OMX_ERRORTYPE ret;
Decode_Status status;
OMX_BOOL isResolutionChange = OMX_FALSE;
// fill render buffer without draining decoder output queue
ret = FillRenderBuffer(pBuffers[OUTPORT_INDEX], &retains[OUTPORT_INDEX], 0, &isResolutionChange);
if (ret == OMX_ErrorNone) {
retains[INPORT_INDEX] = BUFFER_RETAIN_GETAGAIN;
if (isResolutionChange) {
HandleFormatChange();
}
if (mFlushMode) {
LOGI("in mFlushMode, do HandleFormatChange.");
HandleFormatChange();
} else {
// Actually, if mAPMode is set, mWorkingMode should be GRAPHICBUFFER_MODE.
if (((mAPMode == METADATA_MODE) && (mWorkingMode == GRAPHICBUFFER_MODE)) && mFormatChanged) {
if (((*pBuffers[OUTPORT_INDEX])->nFlags & OMX_BUFFERFLAG_EOS) || (mVideoDecoder->getOutputQueueLength() == 0)) {
// Format changed, set mFlushMode, clear eos
mFlushMode = true;
mFormatChanged = false;
(*pBuffers[OUTPORT_INDEX])->nFlags &= ~OMX_BUFFERFLAG_EOS;
}
}
}
// TODO: continue decoding
return ret;
} else if (ret != OMX_ErrorNotReady) {
return ret;
}
VideoDecodeBuffer decodeBuffer;
// PrepareDecodeBuffer will set retain to either BUFFER_RETAIN_GETAGAIN or BUFFER_RETAIN_NOT_RETAIN
ret = PrepareDecodeBuffer(*pBuffers[INPORT_INDEX], &retains[INPORT_INDEX], &decodeBuffer);
if (ret == OMX_ErrorNotReady) {
retains[OUTPORT_INDEX] = BUFFER_RETAIN_GETAGAIN;
return OMX_ErrorNone;
} else if (ret != OMX_ErrorNone) {
return ret;
}
if (decodeBuffer.size != 0) {
//pthread_mutex_lock(&mSerializationLock);
status = mVideoDecoder->decode(&decodeBuffer);
//pthread_mutex_unlock(&mSerializationLock);
if (status == DECODE_FORMAT_CHANGE) {
if ((mAPMode == METADATA_MODE) && (mWorkingMode == GRAPHICBUFFER_MODE)) {
mFormatChanged = true;
retains[INPORT_INDEX] = BUFFER_RETAIN_GETAGAIN;
} else {
ret = HandleFormatChange();
CHECK_RETURN_VALUE("HandleFormatChange");
((*pBuffers[OUTPORT_INDEX]))->nFilledLen = 0;
retains[OUTPORT_INDEX] = BUFFER_RETAIN_GETAGAIN;
retains[INPORT_INDEX] = BUFFER_RETAIN_GETAGAIN;
// real dynamic resolution change will be handled later
// Here is just a temporary workaround
// don't use the output buffer if format is changed.
return OMX_ErrorNone;
}
} else if (status == DECODE_NO_CONFIG) {
LOGW("Decoder returns DECODE_NO_CONFIG.");
retains[OUTPORT_INDEX] = BUFFER_RETAIN_GETAGAIN;
return OMX_ErrorNone;
} else if (status == DECODE_NO_REFERENCE) {
LOGW("Decoder returns DECODE_NO_REFERENCE.");
//retains[OUTPORT_INDEX] = BUFFER_RETAIN_GETAGAIN;
//return OMX_ErrorNone;
} else if (status == DECODE_MULTIPLE_FRAME){
if (decodeBuffer.ext != NULL && decodeBuffer.ext->extType == PACKED_FRAME_TYPE && decodeBuffer.ext->extData != NULL) {
PackedFrameData* nextFrame = (PackedFrameData*)decodeBuffer.ext->extData;
(*pBuffers[INPORT_INDEX])->nOffset += nextFrame->offSet;
(*pBuffers[INPORT_INDEX])->nTimeStamp = nextFrame->timestamp;
(*pBuffers[INPORT_INDEX])->nFilledLen -= nextFrame->offSet;
retains[INPORT_INDEX] = BUFFER_RETAIN_GETAGAIN;
LOGW("Find multiple frames in a buffer, next frame offset = %d, timestamp = %lld", (*pBuffers[INPORT_INDEX])->nOffset, (*pBuffers[INPORT_INDEX])->nTimeStamp);
}
}
else if (status != DECODE_SUCCESS && status != DECODE_FRAME_DROPPED) {
if (checkFatalDecoderError(status)) {
return TranslateDecodeStatus(status);
} else {
// For decoder errors that could be omitted, not throw error and continue to decode.
TranslateDecodeStatus(status);
((*pBuffers[OUTPORT_INDEX]))->nFilledLen = 0;
// Do not return, and try to drain the output queue
// retains[OUTPORT_INDEX] = BUFFER_RETAIN_GETAGAIN;
// return OMX_ErrorNone;
}
}
}
// drain the decoder output queue when in EOS state and fill the render buffer
ret = FillRenderBuffer(pBuffers[OUTPORT_INDEX], &retains[OUTPORT_INDEX],
((*pBuffers[INPORT_INDEX]))->nFlags,&isResolutionChange);
if (isResolutionChange) {
HandleFormatChange();
}
if (mFlushMode) {
LOGI("in mFlushMode, do HandleFormatChange.");
HandleFormatChange();
} else {
if (((mAPMode == METADATA_MODE) && (mWorkingMode == GRAPHICBUFFER_MODE)) && mFormatChanged) {
if (((*pBuffers[OUTPORT_INDEX])->nFlags & OMX_BUFFERFLAG_EOS) || (mVideoDecoder->getOutputQueueLength() == 0)) {
// Format changed, set mFlushMode, clear eos.
mFlushMode = true;
mFormatChanged = false;
(*pBuffers[OUTPORT_INDEX])->nFlags &= ~OMX_BUFFERFLAG_EOS;
}
}
}
bool inputEoS = ((*pBuffers[INPORT_INDEX])->nFlags & OMX_BUFFERFLAG_EOS);
bool outputEoS = ((*pBuffers[OUTPORT_INDEX])->nFlags & OMX_BUFFERFLAG_EOS);
// if output port is not eos, retain the input buffer until all the output buffers are drained.
if (inputEoS && !outputEoS) {
retains[INPORT_INDEX] = BUFFER_RETAIN_GETAGAIN;
// the input buffer is retained for draining purpose. Set nFilledLen to 0 so buffer will not be decoded again.
(*pBuffers[INPORT_INDEX])->nFilledLen = 0;
}
if (ret == OMX_ErrorNotReady) {
retains[OUTPORT_INDEX] = BUFFER_RETAIN_GETAGAIN;
ret = OMX_ErrorNone;
}
return ret;
}
bool OMXVideoDecoderBase::IsAllBufferAvailable(void) {
bool b = ComponentBase::IsAllBufferAvailable();
if (b == false) {
return false;
}
PortVideo *port = NULL;
port = static_cast<PortVideo *>(this->ports[OUTPORT_INDEX]);
const OMX_PARAM_PORTDEFINITIONTYPE* port_def = port->GetPortDefinition();
// if output port is disabled, retain the input buffer
if (!port_def->bEnabled) {
return false;
}
if (mVideoDecoder) {
return mVideoDecoder->checkBufferAvail();
}
return false;
}
OMX_ERRORTYPE OMXVideoDecoderBase::PrepareConfigBuffer(VideoConfigBuffer *p) {
// default config buffer preparation
memset(p, 0, sizeof(VideoConfigBuffer));
const OMX_PARAM_PORTDEFINITIONTYPE *paramPortDefinitionInput = this->ports[INPORT_INDEX]->GetPortDefinition();
if (paramPortDefinitionInput == NULL) {
return OMX_ErrorBadParameter;
}
if (mWorkingMode == GRAPHICBUFFER_MODE) {
if (mAPMode == METADATA_MODE) {
const OMX_PARAM_PORTDEFINITIONTYPE *def_output = this->ports[OUTPORT_INDEX]->GetPortDefinition();
if (def_output == NULL) {
return OMX_ErrorBadParameter;
}
mMetaDataBuffersNum = def_output->nBufferCountActual;
mOMXBufferHeaderTypePtrNum = 0;
mGraphicBufferParam.graphicBufferColorFormat = def_output->format.video.eColorFormat;
mGraphicBufferParam.graphicBufferHStride = getStride(def_output->format.video.nFrameWidth);
mGraphicBufferParam.graphicBufferVStride = (def_output->format.video.nFrameHeight + 0x1f) & ~0x1f;
mGraphicBufferParam.graphicBufferWidth = def_output->format.video.nFrameWidth;
mGraphicBufferParam.graphicBufferHeight = def_output->format.video.nFrameHeight;
p->surfaceNumber = mMetaDataBuffersNum;
for (int i = 0; i < MAX_GRAPHIC_BUFFER_NUM; i++) {
p->graphicBufferHandler[i] = NULL;
}
p->flag |= WANT_STORE_META_DATA;
} else {
p->surfaceNumber = mOMXBufferHeaderTypePtrNum;
for (uint32_t i = 0; i < mOMXBufferHeaderTypePtrNum; i++){
OMX_BUFFERHEADERTYPE *buffer_hdr = mOMXBufferHeaderTypePtrArray[i];
p->graphicBufferHandler[i] = buffer_hdr->pBuffer;
LOGV("PrepareConfigBuffer bufferid = %p, handle = %p", buffer_hdr, buffer_hdr->pBuffer);
}
}
p->flag |= USE_NATIVE_GRAPHIC_BUFFER;
p->graphicBufferHStride = mGraphicBufferParam.graphicBufferHStride;
p->graphicBufferVStride = mGraphicBufferParam.graphicBufferVStride;
p->graphicBufferWidth = mGraphicBufferParam.graphicBufferWidth;
p->graphicBufferHeight = mGraphicBufferParam.graphicBufferHeight;
p->graphicBufferColorFormat = mGraphicBufferParam.graphicBufferColorFormat;
if (p->graphicBufferColorFormat == OMX_INTEL_COLOR_FormatYUV420PackedSemiPlanar_Tiled
#ifdef USE_GEN_HW
|| p->graphicBufferColorFormat == HAL_PIXEL_FORMAT_NV12_X_TILED_INTEL
#endif
)
p->flag |= USE_TILING_MEMORY;
if (mEnableAdaptivePlayback)
p->flag |= WANT_ADAPTIVE_PLAYBACK;
PortVideo *port = NULL;
port = static_cast<PortVideo *>(this->ports[INPORT_INDEX]);
OMX_PARAM_PORTDEFINITIONTYPE port_def;
memcpy(&port_def, port->GetPortDefinition(), sizeof(port_def));
if (port_def.format.video.pNativeWindow != NULL) {
p->nativeWindow = port_def.format.video.pNativeWindow;
LOGD("NativeWindow = %p", p->nativeWindow);
}
}
p->rotationDegrees = mRotationDegrees;
#ifdef TARGET_HAS_ISV
p->vppBufferNum = mVppBufferNum;
#endif
p->width = paramPortDefinitionInput->format.video.nFrameWidth;
p->height = paramPortDefinitionInput->format.video.nFrameHeight;
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::PrepareDecodeBuffer(OMX_BUFFERHEADERTYPE *buffer, buffer_retain_t *retain, VideoDecodeBuffer *p) {
// default decode buffer preparation
memset(p, 0, sizeof(VideoDecodeBuffer));
if (buffer->nFilledLen == 0) {
LOGW("Len of filled data to decode is 0.");
return OMX_ErrorNone; //OMX_ErrorBadParameter;
}
if (buffer->pBuffer == NULL) {
LOGE("Buffer to decode is empty.");
return OMX_ErrorBadParameter;
}
if (buffer->nFlags & OMX_BUFFERFLAG_CODECCONFIG) {
LOGI("Buffer has OMX_BUFFERFLAG_CODECCONFIG flag.");
}
if (buffer->nFlags & OMX_BUFFERFLAG_DECODEONLY) {
// TODO: Handle OMX_BUFFERFLAG_DECODEONLY : drop the decoded frame without rendering it.
LOGW("Buffer has OMX_BUFFERFLAG_DECODEONLY flag.");
}
p->data = buffer->pBuffer + buffer->nOffset;
p->size = buffer->nFilledLen;
p->timeStamp = buffer->nTimeStamp;
if (buffer->nFlags & (OMX_BUFFERFLAG_ENDOFFRAME | OMX_BUFFERFLAG_EOS)) {
// TODO: OMX_BUFFERFLAG_ENDOFFRAME can be used to indicate end of a NAL unit.
// setting this flag may cause corruption if buffer does not contain end-of-frame data.
p->flag = HAS_COMPLETE_FRAME;
}
if (buffer->nFlags & OMX_BUFFERFLAG_SYNCFRAME) {
p->flag |= IS_SYNC_FRAME;
}
if (buffer->pInputPortPrivate) {
uint32_t degree = 0;
memcpy ((void *) &degree, buffer->pInputPortPrivate, sizeof(uint32_t));
p->rotationDegrees = degree;
LOGV("rotationDegrees = %d", p->rotationDegrees);
} else {
p->rotationDegrees = mRotationDegrees;
}
*retain= BUFFER_RETAIN_NOT_RETAIN;
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::PrepareDecodeNativeHandleBuffer(OMX_BUFFERHEADERTYPE *buffer, buffer_retain_t *retain, VideoDecodeBuffer *p) {
// default decode buffer preparation
memset(p, 0, sizeof(VideoDecodeBuffer));
if (buffer->nFilledLen == 0) {
LOGW("Len of filled data to decode is 0.");
return OMX_ErrorNone; //OMX_ErrorBadParameter;
}
if (buffer->pBuffer == NULL) {
LOGE("Buffer to decode is empty.");
return OMX_ErrorBadParameter;
}
if (buffer->nFlags & OMX_BUFFERFLAG_CODECCONFIG) {
LOGI("Buffer has OMX_BUFFERFLAG_CODECCONFIG flag.");
}
if (buffer->nFlags & OMX_BUFFERFLAG_DECODEONLY) {
// TODO: Handle OMX_BUFFERFLAG_DECODEONLY : drop the decoded frame without rendering it.
LOGW("Buffer has OMX_BUFFERFLAG_DECODEONLY flag.");
}
//Get data pointer from native_handle
native_handle_t *native_handle = (native_handle_t *)buffer->pBuffer;
ProtectedDataBuffer *dataBuffer = (ProtectedDataBuffer *) native_handle->data[1];
p->data = dataBuffer->data + buffer->nOffset;
p->size = buffer->nFilledLen;
p->timeStamp = buffer->nTimeStamp;
if (buffer->nFlags & (OMX_BUFFERFLAG_ENDOFFRAME | OMX_BUFFERFLAG_EOS)) {
// TODO: OMX_BUFFERFLAG_ENDOFFRAME can be used to indicate end of a NAL unit.
// setting this flag may cause corruption if buffer does not contain end-of-frame data.
p->flag = HAS_COMPLETE_FRAME;
}
if (buffer->nFlags & OMX_BUFFERFLAG_SYNCFRAME) {
p->flag |= IS_SYNC_FRAME;
}
if (buffer->pInputPortPrivate) {
uint32_t degree = 0;
memcpy ((void *) &degree, buffer->pInputPortPrivate, sizeof(uint32_t));
p->rotationDegrees = degree;
LOGV("rotationDegrees = %d", p->rotationDegrees);
} else {
p->rotationDegrees = mRotationDegrees;
}
*retain= BUFFER_RETAIN_NOT_RETAIN;
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::FillRenderBuffer(OMX_BUFFERHEADERTYPE **pBuffer, buffer_retain_t *retain, OMX_U32 inportBufferFlags, OMX_BOOL *isResolutionChange) {
OMX_BUFFERHEADERTYPE *buffer = *pBuffer;
OMX_BUFFERHEADERTYPE *buffer_orign = buffer;
VideoErrorBuffer *ErrBufPtr = NULL;
if (mWorkingMode != GRAPHICBUFFER_MODE && buffer->pPlatformPrivate) {
VideoRenderBuffer *p = (VideoRenderBuffer *)buffer->pPlatformPrivate;
p->renderDone = true;
buffer->pPlatformPrivate = NULL;
}
if (mWorkingMode == GRAPHICBUFFER_MODE && mErrorReportEnabled) {
if (buffer->pOutputPortPrivate == NULL)
LOGE("The App doesn't provide the output buffer for error reporting");
else
ErrBufPtr = (VideoErrorBuffer *)buffer->pOutputPortPrivate;
}
bool draining = (inportBufferFlags & OMX_BUFFERFLAG_EOS);
//pthread_mutex_lock(&mSerializationLock);
const VideoRenderBuffer *renderBuffer = NULL;
//pthread_mutex_unlock(&mSerializationLock);
// in mFlushMode, provide empty buffer.
if (mFlushMode) {
buffer->nFilledLen = 0;
return OMX_ErrorNone;
}
if (((mAPMode == METADATA_MODE) && (mWorkingMode == GRAPHICBUFFER_MODE)) && mFormatChanged) {
renderBuffer = mVideoDecoder->getOutput(true, ErrBufPtr);
} else {
renderBuffer = mVideoDecoder->getOutput(draining, ErrBufPtr);
}
if (renderBuffer == NULL) {
buffer->nFilledLen = 0;
if (draining) {
LOGI("output EOS received");
buffer->nFlags = OMX_BUFFERFLAG_EOS;
return OMX_ErrorNone;
}
return OMX_ErrorNotReady;
}
if (mWorkingMode == GRAPHICBUFFER_MODE) {
buffer = *pBuffer = mOMXBufferHeaderTypePtrArray[renderBuffer->graphicBufferIndex];
}
buffer->nFlags = OMX_BUFFERFLAG_ENDOFFRAME;
#ifdef DEINTERLACE_EXT
if (renderBuffer->scanFormat & (VA_TOP_FIELD | VA_BOTTOM_FIELD))
buffer->nFlags |= OMX_BUFFERFLAG_TFF;
#endif
buffer->nTimeStamp = renderBuffer->timeStamp;
if (renderBuffer->flag & IS_EOS) {
buffer->nFlags |= OMX_BUFFERFLAG_EOS;
}
*isResolutionChange = (renderBuffer->flag & IS_RESOLUTION_CHANGE)? OMX_TRUE: OMX_FALSE;
if (mWorkingMode == GRAPHICBUFFER_MODE) {
if (buffer_orign != buffer) {
VideoErrorBuffer *ErrBufOutPtr = NULL;
ErrBufOutPtr = (VideoErrorBuffer *)buffer->pOutputPortPrivate;
if (ErrBufPtr && ErrBufOutPtr) {
memcpy(ErrBufOutPtr, ErrBufPtr, sizeof(VideoErrorBuffer));
memset(ErrBufPtr, 0, sizeof(VideoErrorBuffer));
}
*retain = BUFFER_RETAIN_OVERRIDDEN;
}
buffer->nFilledLen = sizeof(OMX_U8*);
} else {
uint32_t size = 0;
Decode_Status status = mVideoDecoder->getRawDataFromSurface(const_cast<VideoRenderBuffer *>(renderBuffer), buffer->pBuffer + buffer->nOffset, &size, false);
if (status != DECODE_SUCCESS) {
return TranslateDecodeStatus(status);
}
buffer->nFilledLen = size;
buffer->pPlatformPrivate = (void *)renderBuffer;
}
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::HandleFormatChange(void) {
LOGW("Video format is changed.");
//pthread_mutex_lock(&mSerializationLock);
const VideoFormatInfo *formatInfo = mVideoDecoder->getFormatInfo();
//pthread_mutex_unlock(&mSerializationLock);
// Sync port definition as it may change.
OMX_PARAM_PORTDEFINITIONTYPE paramPortDefinitionInput, paramPortDefinitionOutput;
memcpy(&paramPortDefinitionInput,
this->ports[INPORT_INDEX]->GetPortDefinition(),
sizeof(paramPortDefinitionInput));
memcpy(&paramPortDefinitionOutput,
this->ports[OUTPORT_INDEX]->GetPortDefinition(),
sizeof(paramPortDefinitionOutput));
uint32_t width = formatInfo->width;
uint32_t height = formatInfo->height;
uint32_t stride = formatInfo->width;
uint32_t sliceHeight = formatInfo->height;
uint32_t widthCropped = formatInfo->width - formatInfo->cropLeft - formatInfo->cropRight;
uint32_t heightCropped = formatInfo->height - formatInfo->cropTop - formatInfo->cropBottom;
if (strcasecmp(formatInfo->mimeType,"video/avc") == 0 ||
strcasecmp(formatInfo->mimeType,"video/avc-secure") == 0 ||
strcasecmp(formatInfo->mimeType,"video/h264") == 0) {
heightCropped = formatInfo->height;
widthCropped = formatInfo->width;
}
uint32_t strideCropped = widthCropped;
uint32_t sliceHeightCropped = heightCropped;
int force_realloc = 0;
bool isVP8 = false;
if (mAPMode == METADATA_MODE && mWorkingMode == GRAPHICBUFFER_MODE) {
#ifdef TARGET_HAS_ISV
if (paramPortDefinitionOutput.nBufferCountActual - mVppBufferNum < formatInfo->actualBufferNeeded) {
#else
if (paramPortDefinitionOutput.nBufferCountActual < formatInfo->actualBufferNeeded) {
#endif
paramPortDefinitionOutput.nBufferCountActual = mNativeBufferCount = formatInfo->actualBufferNeeded;
paramPortDefinitionOutput.nBufferCountMin = formatInfo->actualBufferNeeded - 4;
}
// input port
paramPortDefinitionInput.format.video.nFrameWidth = width;
paramPortDefinitionInput.format.video.nFrameHeight = height;
paramPortDefinitionInput.format.video.nStride = stride;
paramPortDefinitionInput.format.video.nSliceHeight = sliceHeight;
// output port
paramPortDefinitionOutput.format.video.nFrameWidth = width;
paramPortDefinitionOutput.format.video.nFrameHeight = height;
paramPortDefinitionOutput.format.video.eColorFormat = GetOutputColorFormat(paramPortDefinitionOutput.format.video.nFrameWidth);
paramPortDefinitionOutput.format.video.nStride = stride;
paramPortDefinitionOutput.format.video.nSliceHeight = sliceHeight;
paramPortDefinitionOutput.bEnabled = (OMX_BOOL)false;
mOMXBufferHeaderTypePtrNum = 0;
memset(&mGraphicBufferParam, 0, sizeof(mGraphicBufferParam));
mMetaDataBuffersNum = 0;
this->ports[INPORT_INDEX]->SetPortDefinition(&paramPortDefinitionInput, true);
this->ports[OUTPORT_INDEX]->SetPortDefinition(&paramPortDefinitionOutput, true);
ProcessorFlush(INPORT_INDEX);
mVideoDecoder->freeSurfaceBuffers();
this->ports[OUTPORT_INDEX]->ReportPortSettingsChanged();
mFlushMode = false;
return OMX_ErrorNone;
}
#ifdef TARGET_HAS_ISV
LOGI("============== mVppBufferNum = %d\n", mVppBufferNum);
if (paramPortDefinitionOutput.nBufferCountActual - mVppBufferNum < formatInfo->actualBufferNeeded) {
#else
if (paramPortDefinitionOutput.nBufferCountActual < formatInfo->actualBufferNeeded) {
#endif
if (mWorkingMode == GRAPHICBUFFER_MODE) {
LOGV("output port buffer number is not enough: %d to %d",
paramPortDefinitionOutput.nBufferCountActual,
formatInfo->actualBufferNeeded);
paramPortDefinitionOutput.nBufferCountActual = mNativeBufferCount = formatInfo->actualBufferNeeded;
paramPortDefinitionOutput.nBufferCountMin = mNativeBufferCount;
force_realloc = 1;
}
}
LOGV("Original size = %u x %u, new size = %d x %d, cropped size = %d x %d",
paramPortDefinitionInput.format.video.nFrameWidth,
paramPortDefinitionInput.format.video.nFrameHeight,
width, height, widthCropped, heightCropped);
if (paramPortDefinitionInput.format.video.eCompressionFormat == OMX_VIDEO_CodingVP8) {
isVP8 = true;
}
if (!force_realloc &&
widthCropped == paramPortDefinitionOutput.format.video.nFrameWidth &&
heightCropped == paramPortDefinitionOutput.format.video.nFrameHeight) {
if (mWorkingMode == RAWDATA_MODE) {
LOGW("Change of portsetting is not reported as size is not changed.");
return OMX_ErrorNone;
}
}
paramPortDefinitionInput.format.video.nFrameWidth = width;
paramPortDefinitionInput.format.video.nFrameHeight = height;
paramPortDefinitionInput.format.video.nStride = stride;
paramPortDefinitionInput.format.video.nSliceHeight = sliceHeight;
if (mWorkingMode == RAWDATA_MODE) {
paramPortDefinitionOutput.format.video.nFrameWidth = widthCropped;
paramPortDefinitionOutput.format.video.nFrameHeight = heightCropped;
paramPortDefinitionOutput.format.video.nStride = strideCropped;
paramPortDefinitionOutput.format.video.nSliceHeight = sliceHeightCropped;
} else if (mWorkingMode == GRAPHICBUFFER_MODE) {
// when the width and height ES parse are not larger than allocated graphic buffer in outport,
// there is no need to reallocate graphic buffer,just report the crop info to omx client
if (!force_realloc && width <= formatInfo->surfaceWidth && height <= formatInfo->surfaceHeight) {
this->ports[INPORT_INDEX]->SetPortDefinition(&paramPortDefinitionInput, true);
this->ports[OUTPORT_INDEX]->ReportOutputCrop();
return OMX_ErrorNone;
}
if (isVP8 || width > formatInfo->surfaceWidth || height > formatInfo->surfaceHeight) {
// update the real decoded resolution to outport instead of display resolution for graphic buffer reallocation
// when the width and height parsed from ES are larger than allocated graphic buffer in outport,
paramPortDefinitionOutput.format.video.nFrameWidth = width;
paramPortDefinitionOutput.format.video.nFrameHeight = height;
paramPortDefinitionOutput.format.video.eColorFormat = GetOutputColorFormat(
paramPortDefinitionOutput.format.video.nFrameWidth);
paramPortDefinitionOutput.format.video.nStride = stride;
paramPortDefinitionOutput.format.video.nSliceHeight = sliceHeight;
}
}
paramPortDefinitionOutput.bEnabled = (OMX_BOOL)false;
mOMXBufferHeaderTypePtrNum = 0;
memset(&mGraphicBufferParam, 0, sizeof(mGraphicBufferParam));
this->ports[INPORT_INDEX]->SetPortDefinition(&paramPortDefinitionInput, true);
this->ports[OUTPORT_INDEX]->SetPortDefinition(&paramPortDefinitionOutput, true);
if (mWorkingMode == GRAPHICBUFFER_MODE) {
// Make sure va_destroySurface is called before graphicbuffer is freed in case of port setting changed
mVideoDecoder->freeSurfaceBuffers();
// Also make sure all the reference frames are flushed
ProcessorFlush(INPORT_INDEX);
}
this->ports[OUTPORT_INDEX]->ReportPortSettingsChanged();
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::TranslateDecodeStatus(Decode_Status status) {
switch (status) {
case DECODE_NEED_RESTART:
LOGE("Decoder returned DECODE_NEED_RESTART");
return (OMX_ERRORTYPE)OMX_ErrorIntelVideoNotPermitted;
case DECODE_NO_CONFIG:
LOGE("Decoder returned DECODE_NO_CONFIG");
return (OMX_ERRORTYPE)OMX_ErrorIntelMissingConfig;
case DECODE_NO_SURFACE:
LOGE("Decoder returned DECODE_NO_SURFACE");
return OMX_ErrorDynamicResourcesUnavailable;
case DECODE_NO_REFERENCE:
LOGE("Decoder returned DECODE_NO_REFERENCE");
return OMX_ErrorDynamicResourcesUnavailable; // TO DO
case DECODE_NO_PARSER:
LOGE("Decoder returned DECODE_NO_PARSER");
return OMX_ErrorDynamicResourcesUnavailable;
case DECODE_INVALID_DATA:
LOGE("Decoder returned DECODE_INVALID_DATA");
return OMX_ErrorBadParameter;
case DECODE_DRIVER_FAIL:
LOGE("Decoder returned DECODE_DRIVER_FAIL");
return OMX_ErrorHardware;
case DECODE_PARSER_FAIL:
LOGE("Decoder returned DECODE_PARSER_FAIL");
return (OMX_ERRORTYPE)OMX_ErrorIntelProcessStream; // OMX_ErrorStreamCorrupt
case DECODE_MEMORY_FAIL:
LOGE("Decoder returned DECODE_MEMORY_FAIL");
return OMX_ErrorInsufficientResources;
case DECODE_FAIL:
LOGE("Decoder returned DECODE_FAIL");
return OMX_ErrorUndefined;
case DECODE_SUCCESS:
return OMX_ErrorNone;
case DECODE_FORMAT_CHANGE:
LOGW("Decoder returned DECODE_FORMAT_CHANGE");
return OMX_ErrorNone;
case DECODE_FRAME_DROPPED:
LOGI("Decoder returned DECODE_FRAME_DROPPED");
return OMX_ErrorNone;
default:
LOGW("Decoder returned unknown error");
return OMX_ErrorUndefined;
}
}
OMX_ERRORTYPE OMXVideoDecoderBase::BuildHandlerList(void) {
OMXComponentCodecBase::BuildHandlerList();
AddHandler(OMX_IndexParamVideoPortFormat, GetParamVideoPortFormat, SetParamVideoPortFormat);
AddHandler(static_cast<OMX_INDEXTYPE>(OMX_IndexExtGetNativeBufferUsage), GetNativeBufferUsage, SetNativeBufferUsage);
AddHandler(static_cast<OMX_INDEXTYPE>(OMX_IndexExtUseNativeBuffer), GetNativeBuffer, SetNativeBuffer);
AddHandler(static_cast<OMX_INDEXTYPE>(OMX_IndexExtEnableNativeBuffer), GetNativeBufferMode, SetNativeBufferMode);
AddHandler(static_cast<OMX_INDEXTYPE>(OMX_IndexExtRotationDegrees), GetDecoderRotation, SetDecoderRotation);
#ifdef TARGET_HAS_ISV
AddHandler(static_cast<OMX_INDEXTYPE>(OMX_IndexExtVppBufferNum), GetDecoderVppBufferNum, SetDecoderVppBufferNum);
#endif
AddHandler(OMX_IndexConfigCommonOutputCrop, GetDecoderOutputCrop, SetDecoderOutputCrop);
#ifdef USE_META_DATA
AddHandler(static_cast<OMX_INDEXTYPE>(OMX_IndexStoreMetaDataInBuffers), GetStoreMetaDataMode, SetStoreMetaDataMode);
#endif
AddHandler(static_cast<OMX_INDEXTYPE>(OMX_IndexExtEnableErrorReport), GetErrorReportMode, SetErrorReportMode);
AddHandler(static_cast<OMX_INDEXTYPE>(OMX_IndexConfigPriority), GetCodecPriority, SetCodecPriority);
AddHandler(static_cast<OMX_INDEXTYPE>(OMX_IndexConfigOperatingRate), GetDecoderOperatingRate, SetDecoderOperatingRate);
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetParamVideoPortFormat(OMX_PTR pStructure) {
OMX_ERRORTYPE ret;
OMX_VIDEO_PARAM_PORTFORMATTYPE *p = (OMX_VIDEO_PARAM_PORTFORMATTYPE *)pStructure;
CHECK_TYPE_HEADER(p);
CHECK_PORT_INDEX_RANGE(p);
CHECK_ENUMERATION_RANGE(p->nIndex, 1);
PortVideo *port = NULL;
port = static_cast<PortVideo *>(this->ports[p->nPortIndex]);
memcpy(p, port->GetPortVideoParam(), sizeof(*p));
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetParamVideoPortFormat(OMX_PTR pStructure) {
OMX_ERRORTYPE ret;
OMX_VIDEO_PARAM_PORTFORMATTYPE *p = (OMX_VIDEO_PARAM_PORTFORMATTYPE *)pStructure;
CHECK_TYPE_HEADER(p);
CHECK_PORT_INDEX_RANGE(p);
CHECK_SET_PARAM_STATE();
// TODO: do we need to check if port is enabled?
PortVideo *port = NULL;
port = static_cast<PortVideo *>(this->ports[p->nPortIndex]);
port->SetPortVideoParam(p, false);
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetNativeBufferUsageSpecific(OMX_PTR pStructure) {
OMX_ERRORTYPE ret;
GetAndroidNativeBufferUsageParams *param = (GetAndroidNativeBufferUsageParams*)pStructure;
CHECK_TYPE_HEADER(param);
// hardware usage: consumed by GLES and HWC
param->nUsage |= GRALLOC_USAGE_HW_TEXTURE | GRALLOC_USAGE_HW_COMPOSER;
// software usage: can be read/written by apps
param->nUsage |= GRALLOC_USAGE_SW_READ_RARELY | GRALLOC_USAGE_SW_WRITE_RARELY;
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetNativeBufferUsageSpecific(OMX_PTR) {
CHECK_SET_PARAM_STATE();
return OMX_ErrorBadParameter;
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetNativeBufferUsage(OMX_PTR pStructure) {
return this->GetNativeBufferUsageSpecific(pStructure);
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetNativeBufferUsage(OMX_PTR pStructure) {
return this->SetNativeBufferUsageSpecific(pStructure);
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetNativeBuffer(OMX_PTR) {
return OMX_ErrorBadParameter;
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetNativeBuffer(OMX_PTR pStructure) {
OMX_ERRORTYPE ret;
UseAndroidNativeBufferParams *param = (UseAndroidNativeBufferParams*)pStructure;
CHECK_TYPE_HEADER(param);
if (param->nPortIndex != OUTPORT_INDEX)
return OMX_ErrorBadParameter;
OMX_BUFFERHEADERTYPE **buf_hdr = NULL;
mOMXBufferHeaderTypePtrNum++;
if (mOMXBufferHeaderTypePtrNum > MAX_GRAPHIC_BUFFER_NUM)
return OMX_ErrorOverflow;
buf_hdr = &mOMXBufferHeaderTypePtrArray[mOMXBufferHeaderTypePtrNum-1];
ret = this->ports[OUTPORT_INDEX]->UseBuffer(buf_hdr, OUTPORT_INDEX, param->pAppPrivate, sizeof(OMX_U8*),
const_cast<OMX_U8*>(reinterpret_cast<const OMX_U8*>(param->nativeBuffer->handle)));
if (ret != OMX_ErrorNone)
return ret;
if (mOMXBufferHeaderTypePtrNum == 1) {
mGraphicBufferParam.graphicBufferColorFormat = param->nativeBuffer->format;
mGraphicBufferParam.graphicBufferHStride = param->nativeBuffer->stride;
// FIXME: use IMG_native_handle_t->aiVStride[0] instead..
mGraphicBufferParam.graphicBufferVStride = param->nativeBuffer->height;
mGraphicBufferParam.graphicBufferWidth = param->nativeBuffer->width;
mGraphicBufferParam.graphicBufferHeight = param->nativeBuffer->height;
}
*(param->bufferHeader) = *buf_hdr;
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetNativeBufferMode(OMX_PTR pStructure) {
return this->GetNativeBufferModeSpecific(pStructure);
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetNativeBufferMode(OMX_PTR pStructure) {
return this->SetNativeBufferModeSpecific(pStructure);
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetNativeBufferModeSpecific(OMX_PTR) {
LOGE("GetNativeBufferMode is not implemented");
return OMX_ErrorNotImplemented;
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetNativeBufferModeSpecific(OMX_PTR pStructure) {
OMX_ERRORTYPE ret;
EnableAndroidNativeBuffersParams *param = (EnableAndroidNativeBuffersParams*)pStructure;
CHECK_TYPE_HEADER(param);
CHECK_PORT_INDEX_RANGE(param);
CHECK_SET_PARAM_STATE();
PortVideo *port = NULL;
port = static_cast<PortVideo *>(this->ports[OUTPORT_INDEX]);
OMX_PARAM_PORTDEFINITIONTYPE port_def;
memcpy(&port_def,port->GetPortDefinition(),sizeof(port_def));
if (!param->enable) {
mWorkingMode = RAWDATA_MODE;
// If it is fallback from native mode the color format has been
// already set to INTEL format.
// We need to set back the default color format and Native stuff.
port_def.format.video.eColorFormat = OMX_COLOR_FormatYUV420SemiPlanar;
port_def.format.video.pNativeRender = NULL;
port_def.format.video.pNativeWindow = NULL;
port->SetPortDefinition(&port_def,true);
return OMX_ErrorNone;
}
mWorkingMode = GRAPHICBUFFER_MODE;
port_def.nBufferCountMin = mNativeBufferCount;
if (mEnableAdaptivePlayback) {
SetMaxOutputBufferCount(&port_def);
} else {
port_def.nBufferCountActual = mNativeBufferCount;
}
port_def.format.video.cMIMEType = (OMX_STRING)VA_VED_RAW_MIME_TYPE;
port_def.format.video.eColorFormat = OMX_INTEL_COLOR_FormatYUV420PackedSemiPlanar;
port_def.format.video.nFrameHeight = port_def.format.video.nFrameHeight;
port_def.format.video.eColorFormat = GetOutputColorFormat(
port_def.format.video.nFrameWidth);
port->SetPortDefinition(&port_def,true);
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetStoreMetaDataMode(OMX_PTR) {
ALOGE("GetMetaDataMode is not implemented");
return OMX_ErrorNotImplemented;
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetStoreMetaDataMode(OMX_PTR pStructure) {
#ifndef USE_META_DATA
OMX_PARAM_PORTDEFINITIONTYPE defInput;
memcpy(&defInput,
this->ports[INPORT_INDEX]->GetPortDefinition(),
sizeof(defInput));
if (defInput.format.video.eCompressionFormat == OMX_VIDEO_CodingVP9) {
ALOGE("SetMetaDataMode for VP9 is not implemented");
return OMX_ErrorNotImplemented;
}
#endif
OMX_ERRORTYPE ret;
StoreMetaDataInBuffersParams *param = (StoreMetaDataInBuffersParams*)pStructure;
CHECK_TYPE_HEADER(param);
CHECK_PORT_INDEX(param, OUTPORT_INDEX);
CHECK_SET_PARAM_STATE();
if (!param->bStoreMetaData) {
mAPMode = LEGACY_MODE;
// Don't return error which otherwise may cause framework crash
return OMX_ErrorNone;
}
mAPMode = METADATA_MODE;
ALOGI("We are in meta data mode!!!");
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetDecoderRotation(OMX_PTR) {
return OMX_ErrorBadParameter;
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetDecoderRotation(OMX_PTR pStructure) {
CHECK_SET_PARAM_STATE();
int32_t rotationDegrees = 0;
if (pStructure) {
rotationDegrees = *(static_cast<int32_t*>(pStructure));
mRotationDegrees = rotationDegrees;
LOGI("Rotation Degree = %d", rotationDegrees);
return OMX_ErrorNone;
} else {
return OMX_ErrorBadParameter;
}
}
#ifdef TARGET_HAS_ISV
OMX_ERRORTYPE OMXVideoDecoderBase::GetDecoderVppBufferNum(OMX_PTR) {
return OMX_ErrorBadParameter;
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetDecoderVppBufferNum(OMX_PTR pStructure) {
CHECK_SET_PARAM_STATE();
int32_t num = 0;
num = *(static_cast<int32_t*>(pStructure));
mVppBufferNum = num;
return OMX_ErrorNone;
}
#endif
OMX_ERRORTYPE OMXVideoDecoderBase::GetDecoderOutputCropSpecific(OMX_PTR pStructure) {
OMX_ERRORTYPE ret;
OMX_CONFIG_RECTTYPE *rectParams = (OMX_CONFIG_RECTTYPE *)pStructure;
CHECK_TYPE_HEADER(rectParams);
if (rectParams->nPortIndex != OUTPORT_INDEX) {
return OMX_ErrorUndefined;
}
PortVideo *port = NULL;
port = static_cast<PortVideo *>(this->ports[OUTPORT_INDEX]);
OMX_PARAM_PORTDEFINITIONTYPE port_def;
memcpy(&port_def,port->GetPortDefinition(),sizeof(port_def));
const VideoFormatInfo *formatInfo = mVideoDecoder->getFormatInfo();
if (formatInfo->valid == true) {
rectParams->nLeft = formatInfo->cropLeft;
rectParams->nTop = formatInfo->cropTop;
rectParams->nWidth = formatInfo->width - formatInfo->cropLeft - formatInfo->cropRight;
rectParams->nHeight = formatInfo->height - formatInfo->cropTop - formatInfo->cropBottom;
if (strcasecmp(formatInfo->mimeType,"video/avc") == 0 ||
strcasecmp(formatInfo->mimeType,"video/avc-secure") == 0 ||
strcasecmp(formatInfo->mimeType,"video/h264") == 0) {
rectParams->nHeight = formatInfo->height;
rectParams->nWidth = formatInfo->width;
}
// if port width parsed from extractor is not as same as from SPS/PPS nalu header,
// align it.
if (port_def.format.video.nFrameWidth != rectParams->nWidth) {
port_def.format.video.nFrameWidth = rectParams->nWidth;
}
port->SetPortDefinition(&port_def,true);
return OMX_ErrorNone;
} else {
return OMX_ErrorFormatNotDetected;
}
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetDecoderOutputCropSpecific(OMX_PTR) {
return OMX_ErrorUnsupportedSetting;
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetDecoderOutputCrop(OMX_PTR pStructure) {
return this->SetDecoderOutputCropSpecific(pStructure);
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetDecoderOutputCrop(OMX_PTR pStructure) {
return this->GetDecoderOutputCropSpecific(pStructure);
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetCodecPriority(OMX_PTR pStructure) {
OMX_ERRORTYPE ret;
OMX_PARAM_U32TYPE *priorityParam = (OMX_PARAM_U32TYPE *)pStructure;
mCodecPriority = priorityParam->nU32;
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetCodecPriority(OMX_PTR pStructure) {
OMX_ERRORTYPE ret;
OMX_PARAM_U32TYPE *priorityParam = (OMX_PARAM_U32TYPE *)pStructure;
CHECK_TYPE_HEADER(priorityParam);
priorityParam->nU32 = mCodecPriority;
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetDecoderOperatingRate(OMX_PTR pStructure) {
OMX_ERRORTYPE ret;
OMX_PARAM_U32TYPE *operatingRateParam = (OMX_PARAM_U32TYPE *)pStructure;
CHECK_TYPE_HEADER(operatingRateParam);
mOperatingRate = operatingRateParam->nU32;
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetDecoderOperatingRate(OMX_PTR pStructure) {
OMX_ERRORTYPE ret;
OMX_PARAM_U32TYPE *operatingRateParam = (OMX_PARAM_U32TYPE *)pStructure;
CHECK_TYPE_HEADER(operatingRateParam);
operatingRateParam->nU32 = mOperatingRate;
return OMX_ErrorNone;
}
OMX_ERRORTYPE OMXVideoDecoderBase::GetErrorReportMode(OMX_PTR) {
LOGE("GetErrorReportMode is not implemented");
return OMX_ErrorNotImplemented;
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetErrorReportMode(OMX_PTR pStructure) {
OMX_ERRORTYPE ret;
OMX_VIDEO_CONFIG_INTEL_ERROR_REPORT *p = (OMX_VIDEO_CONFIG_INTEL_ERROR_REPORT *)pStructure;
CHECK_TYPE_HEADER(p);
CHECK_PORT_INDEX(p, OUTPORT_INDEX);
mErrorReportEnabled = p->bEnable;
LOGD("Error reporting is %s", mErrorReportEnabled ? "enabled" : "disabled");
mVideoDecoder->enableErrorReport(mErrorReportEnabled);
return OMX_ErrorNone;
}
OMX_COLOR_FORMATTYPE OMXVideoDecoderBase::GetOutputColorFormat(int width) {
#ifndef VED_TILING
return OMX_INTEL_COLOR_FormatYUV420PackedSemiPlanar;
#else
if (width > 1280 && width <= 2048) {
LOGI("HD Video and use tiled format");
return OMX_INTEL_COLOR_FormatYUV420PackedSemiPlanar_Tiled;
} else {
return OMX_INTEL_COLOR_FormatYUV420PackedSemiPlanar;
}
#endif
}
OMX_ERRORTYPE OMXVideoDecoderBase::SetMaxOutputBufferCount(OMX_PARAM_PORTDEFINITIONTYPE *) {
return OMX_ErrorNone;
}
uint32_t OMXVideoDecoderBase::getStride(uint32_t width) {
uint32_t stride = 0;
if (width <= 512)
stride = 512;
else if (width <= 1024)
stride = 1024;
else if (width <= 1280) {
stride = 1280;
} else if (width <= 2048)
stride = 2048;
else if (width <= 4096)
stride = 4096;
else
stride = (width + 0x3f) & ~0x3f;
return stride;
}
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