media/codec2/sfplugin/FrameReassembler.cpp - third_party/android/platform/frameworks/av - Git at Google

 /*
  * Copyright 2019 The Android Open Source Project
  *
  * 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 "FrameReassembler"

 #include <log/log.h>

 #include <media/stagefright/foundation/AMessage.h>

 #include "FrameReassembler.h"

 namespace android {

 static constexpr uint64_t kToleranceUs = 1000;  // 1ms

 FrameReassembler::FrameReassembler()
     : mUsage{0, 0},
       mSampleRate(0u),
       mChannelCount(0u),
       mEncoding(C2Config::PCM_16),
       mCurrentOrdinal({0, 0, 0}) {
 }

 void FrameReassembler::init(
         const std::shared_ptr<C2BlockPool> &pool,
         C2MemoryUsage usage,
         uint32_t frameSize,
         uint32_t sampleRate,
         uint32_t channelCount,
         C2Config::pcm_encoding_t encoding) {
     mBlockPool = pool;
     mUsage = usage;
     mFrameSize = frameSize;
     mSampleRate = sampleRate;
     mChannelCount = channelCount;
     mEncoding = encoding;
 }

 void FrameReassembler::updateFrameSize(uint32_t frameSize) {
     finishCurrentBlock(&mPendingWork);
     mFrameSize = frameSize;
 }

 void FrameReassembler::updateSampleRate(uint32_t sampleRate) {
     finishCurrentBlock(&mPendingWork);
     mSampleRate = sampleRate;
 }

 void FrameReassembler::updateChannelCount(uint32_t channelCount) {
     finishCurrentBlock(&mPendingWork);
     mChannelCount = channelCount;
 }

 void FrameReassembler::updatePcmEncoding(C2Config::pcm_encoding_t encoding) {
     finishCurrentBlock(&mPendingWork);
     mEncoding = encoding;
 }

 void FrameReassembler::reset() {
     flush();
     mCurrentOrdinal = {0, 0, 0};
     mBlockPool.reset();
     mFrameSize.reset();
     mSampleRate = 0u;
     mChannelCount = 0u;
     mEncoding = C2Config::PCM_16;
 }

 FrameReassembler::operator bool() const {
     return mFrameSize.has_value();
 }

 c2_status_t FrameReassembler::process(
         const sp<MediaCodecBuffer> &buffer,
         std::list<std::unique_ptr<C2Work>> *items) {
     int64_t timeUs;
     if (buffer->size() == 0u
             || !buffer->meta()->findInt64("timeUs", &timeUs)) {
         return C2_BAD_VALUE;
     }

     items->splice(items->end(), mPendingWork);

     // Fill mCurrentBlock
     if (mCurrentBlock) {
         // First check the timestamp
         c2_cntr64_t endTimestampUs = mCurrentOrdinal.timestamp;
         endTimestampUs += bytesToSamples(mWriteView->size()) * 1000000 / mSampleRate;
         if (timeUs < endTimestampUs.peek()) {
             uint64_t diffUs = (endTimestampUs - timeUs).peeku();
             if (diffUs > kToleranceUs) {
                 // The timestamp is going back in time in large amount.
                 // TODO: b/145702136
                 ALOGW("timestamp going back in time! from %lld to %lld",
                         endTimestampUs.peekll(), (long long)timeUs);
             }
         } else {  // timeUs >= endTimestampUs.peek()
             uint64_t diffUs = (timeUs - endTimestampUs).peeku();
             if (diffUs > kToleranceUs) {
                 // The timestamp is going forward; add silence as necessary.
                 size_t gapSamples = usToSamples(diffUs);
                 size_t remainingSamples =
                     (mWriteView->capacity() - mWriteView->size())
                     / mChannelCount / bytesPerSample();
                 if (gapSamples < remainingSamples) {
                     size_t gapBytes = gapSamples * mChannelCount * bytesPerSample();
                     memset(mWriteView->base() + mWriteView->size(), 0u, gapBytes);
                     mWriteView->setSize(mWriteView->size() + gapBytes);
                 } else {
                     finishCurrentBlock(items);
                 }
             }
         }
     }

     if (mCurrentBlock) {
         // Append the data at the end of the current block
         size_t copySize = std::min(
                 buffer->size(),
                 size_t(mWriteView->capacity() - mWriteView->size()));
         memcpy(mWriteView->base() + mWriteView->size(), buffer->data(), copySize);
         buffer->setRange(buffer->offset() + copySize, buffer->size() - copySize);
         mWriteView->setSize(mWriteView->size() + copySize);
         if (mWriteView->size() == mWriteView->capacity()) {
             finishCurrentBlock(items);
         }
         timeUs += bytesToSamples(copySize) * 1000000 / mSampleRate;
     }

     if (buffer->size() > 0) {
         mCurrentOrdinal.timestamp = timeUs;
         mCurrentOrdinal.customOrdinal = timeUs;
     }

     size_t frameSizeBytes = mFrameSize.value() * mChannelCount * bytesPerSample();
     while (buffer->size() > 0) {
         LOG_ALWAYS_FATAL_IF(
                 mCurrentBlock,
                 "There's remaining data but the pending block is not filled & finished");
         std::unique_ptr<C2Work> work(new C2Work);
         c2_status_t err = mBlockPool->fetchLinearBlock(frameSizeBytes, mUsage, &mCurrentBlock);
         if (err != C2_OK) {
             return err;
         }
         size_t copySize = std::min(buffer->size(), frameSizeBytes);
         mWriteView = mCurrentBlock->map().get();
         if (mWriteView->error() != C2_OK) {
             return mWriteView->error();
         }
         ALOGV("buffer={offset=%zu size=%zu} copySize=%zu",
                 buffer->offset(), buffer->size(), copySize);
         memcpy(mWriteView->base(), buffer->data(), copySize);
         mWriteView->setOffset(0u);
         mWriteView->setSize(copySize);
         buffer->setRange(buffer->offset() + copySize, buffer->size() - copySize);
         if (copySize == frameSizeBytes) {
             finishCurrentBlock(items);
         }
     }

     int32_t eos = 0;
     if (buffer->meta()->findInt32("eos", &eos) && eos) {
         finishCurrentBlock(items);
     }

     return C2_OK;
 }

 void FrameReassembler::flush() {
     mPendingWork.clear();
     mWriteView.reset();
     mCurrentBlock.reset();
 }

 uint64_t FrameReassembler::bytesToSamples(size_t numBytes) const {
     return numBytes / mChannelCount / bytesPerSample();
 }

 size_t FrameReassembler::usToSamples(uint64_t us) const {
     return (us * mChannelCount * mSampleRate / 1000000);
 }

 uint32_t FrameReassembler::bytesPerSample() const {
     return (mEncoding == C2Config::PCM_8) ? 1
          : (mEncoding == C2Config::PCM_16) ? 2
          : (mEncoding == C2Config::PCM_FLOAT) ? 4 : 0;
 }

 void FrameReassembler::finishCurrentBlock(std::list<std::unique_ptr<C2Work>> *items) {
     if (!mCurrentBlock) {
         // No-op
         return;
     }
     if (mWriteView->size() < mWriteView->capacity()) {
         memset(mWriteView->base() + mWriteView->size(), 0u,
                 mWriteView->capacity() - mWriteView->size());
         mWriteView->setSize(mWriteView->capacity());
     }
     std::unique_ptr<C2Work> work{std::make_unique<C2Work>()};
     work->input.ordinal = mCurrentOrdinal;
     work->input.buffers.push_back(C2Buffer::CreateLinearBuffer(
             mCurrentBlock->share(0, mCurrentBlock->capacity(), C2Fence())));
     work->worklets.clear();
     work->worklets.emplace_back(new C2Worklet);
     items->push_back(std::move(work));

     ++mCurrentOrdinal.frameIndex;
     mCurrentOrdinal.timestamp += mFrameSize.value() * 1000000 / mSampleRate;
     mCurrentOrdinal.customOrdinal = mCurrentOrdinal.timestamp;
     mCurrentBlock.reset();
     mWriteView.reset();
 }

 }  // namespace android
	/*
	* Copyright 2019 The Android Open Source Project
	*
	* 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 "FrameReassembler"

	#include <log/log.h>

	#include <media/stagefright/foundation/AMessage.h>

	#include "FrameReassembler.h"

	namespace android {

	static constexpr uint64_t kToleranceUs = 1000; // 1ms

	FrameReassembler::FrameReassembler()
	: mUsage{0, 0},
	mSampleRate(0u),
	mChannelCount(0u),
	mEncoding(C2Config::PCM_16),
	mCurrentOrdinal({0, 0, 0}) {
	}

	void FrameReassembler::init(
	const std::shared_ptr<C2BlockPool> &pool,
	C2MemoryUsage usage,
	uint32_t frameSize,
	uint32_t sampleRate,
	uint32_t channelCount,
	C2Config::pcm_encoding_t encoding) {
	mBlockPool = pool;
	mUsage = usage;
	mFrameSize = frameSize;
	mSampleRate = sampleRate;
	mChannelCount = channelCount;
	mEncoding = encoding;
	}

	void FrameReassembler::updateFrameSize(uint32_t frameSize) {
	finishCurrentBlock(&mPendingWork);
	mFrameSize = frameSize;
	}

	void FrameReassembler::updateSampleRate(uint32_t sampleRate) {
	finishCurrentBlock(&mPendingWork);
	mSampleRate = sampleRate;
	}

	void FrameReassembler::updateChannelCount(uint32_t channelCount) {
	finishCurrentBlock(&mPendingWork);
	mChannelCount = channelCount;
	}

	void FrameReassembler::updatePcmEncoding(C2Config::pcm_encoding_t encoding) {
	finishCurrentBlock(&mPendingWork);
	mEncoding = encoding;
	}

	void FrameReassembler::reset() {
	flush();
	mCurrentOrdinal = {0, 0, 0};
	mBlockPool.reset();
	mFrameSize.reset();
	mSampleRate = 0u;
	mChannelCount = 0u;
	mEncoding = C2Config::PCM_16;
	}

	FrameReassembler::operator bool() const {
	return mFrameSize.has_value();
	}

	c2_status_t FrameReassembler::process(
	const sp<MediaCodecBuffer> &buffer,
	std::list<std::unique_ptr<C2Work>> *items) {
	int64_t timeUs;
	if (buffer->size() == 0u
	\|\| !buffer->meta()->findInt64("timeUs", &timeUs)) {
	return C2_BAD_VALUE;
	}

	items->splice(items->end(), mPendingWork);

	// Fill mCurrentBlock
	if (mCurrentBlock) {
	// First check the timestamp
	c2_cntr64_t endTimestampUs = mCurrentOrdinal.timestamp;
	endTimestampUs += bytesToSamples(mWriteView->size()) * 1000000 / mSampleRate;
	if (timeUs < endTimestampUs.peek()) {
	uint64_t diffUs = (endTimestampUs - timeUs).peeku();
	if (diffUs > kToleranceUs) {
	// The timestamp is going back in time in large amount.
	// TODO: b/145702136
	ALOGW("timestamp going back in time! from %lld to %lld",
	endTimestampUs.peekll(), (long long)timeUs);
	}
	} else { // timeUs >= endTimestampUs.peek()
	uint64_t diffUs = (timeUs - endTimestampUs).peeku();
	if (diffUs > kToleranceUs) {
	// The timestamp is going forward; add silence as necessary.
	size_t gapSamples = usToSamples(diffUs);
	size_t remainingSamples =
	(mWriteView->capacity() - mWriteView->size())
	/ mChannelCount / bytesPerSample();
	if (gapSamples < remainingSamples) {
	size_t gapBytes = gapSamples * mChannelCount * bytesPerSample();
	memset(mWriteView->base() + mWriteView->size(), 0u, gapBytes);
	mWriteView->setSize(mWriteView->size() + gapBytes);
	} else {
	finishCurrentBlock(items);
	}
	}
	}
	}

	if (mCurrentBlock) {
	// Append the data at the end of the current block
	size_t copySize = std::min(
	buffer->size(),
	size_t(mWriteView->capacity() - mWriteView->size()));
	memcpy(mWriteView->base() + mWriteView->size(), buffer->data(), copySize);
	buffer->setRange(buffer->offset() + copySize, buffer->size() - copySize);
	mWriteView->setSize(mWriteView->size() + copySize);
	if (mWriteView->size() == mWriteView->capacity()) {
	finishCurrentBlock(items);
	}
	timeUs += bytesToSamples(copySize) * 1000000 / mSampleRate;
	}

	if (buffer->size() > 0) {
	mCurrentOrdinal.timestamp = timeUs;
	mCurrentOrdinal.customOrdinal = timeUs;
	}

	size_t frameSizeBytes = mFrameSize.value() * mChannelCount * bytesPerSample();
	while (buffer->size() > 0) {
	LOG_ALWAYS_FATAL_IF(
	mCurrentBlock,
	"There's remaining data but the pending block is not filled & finished");
	std::unique_ptr<C2Work> work(new C2Work);
	c2_status_t err = mBlockPool->fetchLinearBlock(frameSizeBytes, mUsage, &mCurrentBlock);
	if (err != C2_OK) {
	return err;
	}
	size_t copySize = std::min(buffer->size(), frameSizeBytes);
	mWriteView = mCurrentBlock->map().get();
	if (mWriteView->error() != C2_OK) {
	return mWriteView->error();
	}
	ALOGV("buffer={offset=%zu size=%zu} copySize=%zu",
	buffer->offset(), buffer->size(), copySize);
	memcpy(mWriteView->base(), buffer->data(), copySize);
	mWriteView->setOffset(0u);
	mWriteView->setSize(copySize);
	buffer->setRange(buffer->offset() + copySize, buffer->size() - copySize);
	if (copySize == frameSizeBytes) {
	finishCurrentBlock(items);
	}
	}

	int32_t eos = 0;
	if (buffer->meta()->findInt32("eos", &eos) && eos) {
	finishCurrentBlock(items);
	}

	return C2_OK;
	}

	void FrameReassembler::flush() {
	mPendingWork.clear();
	mWriteView.reset();
	mCurrentBlock.reset();
	}

	uint64_t FrameReassembler::bytesToSamples(size_t numBytes) const {
	return numBytes / mChannelCount / bytesPerSample();
	}

	size_t FrameReassembler::usToSamples(uint64_t us) const {
	return (us * mChannelCount * mSampleRate / 1000000);
	}

	uint32_t FrameReassembler::bytesPerSample() const {
	return (mEncoding == C2Config::PCM_8) ? 1
	: (mEncoding == C2Config::PCM_16) ? 2
	: (mEncoding == C2Config::PCM_FLOAT) ? 4 : 0;
	}

	void FrameReassembler::finishCurrentBlock(std::list<std::unique_ptr<C2Work>> *items) {
	if (!mCurrentBlock) {
	// No-op
	return;
	}
	if (mWriteView->size() < mWriteView->capacity()) {
	memset(mWriteView->base() + mWriteView->size(), 0u,
	mWriteView->capacity() - mWriteView->size());
	mWriteView->setSize(mWriteView->capacity());
	}
	std::unique_ptr<C2Work> work{std::make_unique<C2Work>()};
	work->input.ordinal = mCurrentOrdinal;
	work->input.buffers.push_back(C2Buffer::CreateLinearBuffer(
	mCurrentBlock->share(0, mCurrentBlock->capacity(), C2Fence())));
	work->worklets.clear();
	work->worklets.emplace_back(new C2Worklet);
	items->push_back(std::move(work));

	++mCurrentOrdinal.frameIndex;
	mCurrentOrdinal.timestamp += mFrameSize.value() * 1000000 / mSampleRate;
	mCurrentOrdinal.customOrdinal = mCurrentOrdinal.timestamp;
	mCurrentBlock.reset();
	mWriteView.reset();
	}

	} // namespace android