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|
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "CSFLog.h"
#include "WebrtcOMXH264VideoCodec.h"
// Android/Stagefright
#include <avc_utils.h>
#include <binder/ProcessState.h>
#include <foundation/ABuffer.h>
#include <foundation/AMessage.h>
#include <gui/Surface.h>
#include <media/ICrypto.h>
#include <media/stagefright/MediaCodec.h>
#include <media/stagefright/MediaDefs.h>
#include <media/stagefright/MediaErrors.h>
#include <media/stagefright/MetaData.h>
#include <OMX_Component.h>
using namespace android;
// WebRTC
//#include "webrtc/common_video/interface/texture_video_frame.h"
#include "webrtc/video_engine/include/vie_external_codec.h"
#include "runnable_utils.h"
// Gecko
#include "GonkNativeWindow.h"
#include "GrallocImages.h"
#include "mozilla/Atomics.h"
#include "mozilla/Mutex.h"
#include "nsThreadUtils.h"
#include "OMXCodecWrapper.h"
#include "TextureClient.h"
#include "mozilla/IntegerPrintfMacros.h"
#define DEQUEUE_BUFFER_TIMEOUT_US (100 * 1000ll) // 100ms.
#define START_DEQUEUE_BUFFER_TIMEOUT_US (10 * DEQUEUE_BUFFER_TIMEOUT_US) // 1s.
#define DRAIN_THREAD_TIMEOUT_US (1000 * 1000ll) // 1s.
#define WOHVC_LOG_TAG "WebrtcOMXH264VideoCodec"
#define CODEC_LOGV(...) CSFLogInfo(WOHVC_LOG_TAG, __VA_ARGS__)
#define CODEC_LOGD(...) CSFLogDebug(WOHVC_LOG_TAG, __VA_ARGS__)
#define CODEC_LOGI(...) CSFLogInfo(WOHVC_LOG_TAG, __VA_ARGS__)
#define CODEC_LOGW(...) CSFLogWarn(WOHVC_LOG_TAG, __VA_ARGS__)
#define CODEC_LOGE(...) CSFLogError(WOHVC_LOG_TAG, __VA_ARGS__)
namespace mozilla {
static const uint8_t kNALStartCode[] = { 0x00, 0x00, 0x00, 0x01 };
enum {
kNALTypeIDR = 5,
kNALTypeSPS = 7,
kNALTypePPS = 8,
};
// NS_INLINE_DECL_THREADSAFE_REFCOUNTING() cannot be used directly in
// ImageNativeHandle below because the return type of webrtc::NativeHandle
// AddRef()/Release() conflicts with those defined in macro. To avoid another
// copy/paste of ref-counting implementation here, this dummy base class
// is created to proivde another level of indirection.
class DummyRefCountBase {
public:
// Use the name of real class for logging.
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(DummyRefCountBase)
protected:
// To make sure subclass will be deleted/destructed properly.
virtual ~DummyRefCountBase() {}
};
// This function implements 2 interafces:
// 1. webrtc::NativeHandle: to wrap layers::Image object so decoded frames can
// be passed through WebRTC rendering pipeline using TextureVideoFrame.
// 2. ImageHandle: for renderer to get the image object inside without knowledge
// about webrtc::NativeHandle.
class ImageNativeHandle final
: public webrtc::NativeHandle
, public DummyRefCountBase
{
public:
ImageNativeHandle(layers::Image* aImage)
: mImage(aImage)
{}
// Implement webrtc::NativeHandle.
virtual void* GetHandle() override { return mImage.get(); }
virtual int AddRef() override
{
return DummyRefCountBase::AddRef();
}
virtual int Release() override
{
return DummyRefCountBase::Release();
}
private:
RefPtr<layers::Image> mImage;
};
struct EncodedFrame
{
uint32_t mWidth;
uint32_t mHeight;
uint32_t mTimestamp;
int64_t mRenderTimeMs;
};
static void
ShutdownThread(nsCOMPtr<nsIThread>& aThread)
{
aThread->Shutdown();
}
// Base runnable class to repeatly pull OMX output buffers in seperate thread.
// How to use:
// - implementing DrainOutput() to get output. Remember to return false to tell
// drain not to pop input queue.
// - call QueueInput() to schedule a run to drain output. The input, aFrame,
// should contains corresponding info such as image size and timestamps for
// DrainOutput() implementation to construct data needed by encoded/decoded
// callbacks.
// TODO: Bug 997110 - Revisit queue/drain logic. Current design assumes that
// encoder only generate one output buffer per input frame and won't work
// if encoder drops frames or generates multiple output per input.
class OMXOutputDrain : public Runnable
{
public:
void Start() {
CODEC_LOGD("OMXOutputDrain starting");
MonitorAutoLock lock(mMonitor);
if (mThread == nullptr) {
NS_NewNamedThread("OMXOutputDrain", getter_AddRefs(mThread));
}
CODEC_LOGD("OMXOutputDrain started");
mEnding = false;
mThread->Dispatch(this, NS_DISPATCH_NORMAL);
}
void Stop() {
CODEC_LOGD("OMXOutputDrain stopping");
MonitorAutoLock lock(mMonitor);
mEnding = true;
lock.NotifyAll(); // In case Run() is waiting.
if (mThread != nullptr) {
MonitorAutoUnlock unlock(mMonitor);
CODEC_LOGD("OMXOutputDrain thread shutdown");
NS_DispatchToMainThread(
WrapRunnableNM<decltype(&ShutdownThread),
nsCOMPtr<nsIThread> >(&ShutdownThread, mThread));
mThread = nullptr;
}
CODEC_LOGD("OMXOutputDrain stopped");
}
void QueueInput(const EncodedFrame& aFrame)
{
MonitorAutoLock lock(mMonitor);
MOZ_ASSERT(mThread);
mInputFrames.push(aFrame);
// Notify Run() about queued input and it can start working.
lock.NotifyAll();
}
NS_IMETHOD Run() override
{
MonitorAutoLock lock(mMonitor);
if (mEnding) {
return NS_OK;
}
MOZ_ASSERT(mThread);
while (true) {
if (mInputFrames.empty()) {
// Wait for new input.
lock.Wait();
}
if (mEnding) {
CODEC_LOGD("OMXOutputDrain Run() ending");
// Stop draining.
break;
}
MOZ_ASSERT(!mInputFrames.empty());
{
// Release monitor while draining because it's blocking.
MonitorAutoUnlock unlock(mMonitor);
DrainOutput();
}
}
CODEC_LOGD("OMXOutputDrain Ended");
return NS_OK;
}
protected:
OMXOutputDrain()
: mMonitor("OMXOutputDrain monitor")
, mEnding(false)
{}
// Drain output buffer for input frame queue mInputFrames.
// mInputFrames contains info such as size and time of the input frames.
// We have to give a queue to handle encoder frame skips - we can input 10
// frames and get one back. NOTE: any access of aInputFrames MUST be preceded
// locking mMonitor!
// Blocks waiting for decoded buffers, but for a limited period because
// we need to check for shutdown.
virtual bool DrainOutput() = 0;
protected:
// This monitor protects all things below it, and is also used to
// wait/notify queued input.
Monitor mMonitor;
std::queue<EncodedFrame> mInputFrames;
private:
// also protected by mMonitor
nsCOMPtr<nsIThread> mThread;
bool mEnding;
};
// Assumption: SPS is first paramset or is not present
static bool IsParamSets(uint8_t* aData, size_t aSize)
{
MOZ_ASSERT(aData && aSize > sizeof(kNALStartCode));
return (aData[sizeof(kNALStartCode)] & 0x1f) == kNALTypeSPS;
}
// get the length of any pre-pended SPS/PPS's
static size_t ParamSetLength(uint8_t* aData, size_t aSize)
{
const uint8_t* data = aData;
size_t size = aSize;
const uint8_t* nalStart = nullptr;
size_t nalSize = 0;
while (getNextNALUnit(&data, &size, &nalStart, &nalSize, true) == OK) {
if ((*nalStart & 0x1f) != kNALTypeSPS &&
(*nalStart & 0x1f) != kNALTypePPS) {
MOZ_ASSERT(nalStart - sizeof(kNALStartCode) >= aData);
return (nalStart - sizeof(kNALStartCode)) - aData; // SPS/PPS/iframe
}
}
return aSize; // it's only SPS/PPS
}
// H.264 decoder using stagefright.
// It implements gonk native window callback to receive buffers from
// MediaCodec::RenderOutputBufferAndRelease().
class WebrtcOMXDecoder final : public GonkNativeWindowNewFrameCallback
{
NS_INLINE_DECL_THREADSAFE_REFCOUNTING(WebrtcOMXDecoder)
private:
virtual ~WebrtcOMXDecoder()
{
CODEC_LOGD("WebrtcOMXH264VideoDecoder:%p OMX destructor", this);
if (mStarted) {
Stop();
}
if (mCodec != nullptr) {
mCodec->release();
mCodec.clear();
}
mLooper.clear();
}
public:
WebrtcOMXDecoder(const char* aMimeType,
webrtc::DecodedImageCallback* aCallback)
: mWidth(0)
, mHeight(0)
, mStarted(false)
, mCallback(aCallback)
, mDecodedFrameLock("WebRTC decoded frame lock")
, mEnding(false)
{
// Create binder thread pool required by stagefright.
android::ProcessState::self()->startThreadPool();
mLooper = new ALooper;
mLooper->start();
CODEC_LOGD("WebrtcOMXH264VideoDecoder:%p creating decoder", this);
mCodec = MediaCodec::CreateByType(mLooper, aMimeType, false /* encoder */);
CODEC_LOGD("WebrtcOMXH264VideoDecoder:%p OMX created", this);
}
// Find SPS in input data and extract picture width and height if found.
static status_t ExtractPicDimensions(uint8_t* aData, size_t aSize,
int32_t* aWidth, int32_t* aHeight)
{
MOZ_ASSERT(aData && aSize > sizeof(kNALStartCode));
if ((aData[sizeof(kNALStartCode)] & 0x1f) != kNALTypeSPS) {
return ERROR_MALFORMED;
}
sp<ABuffer> sps = new ABuffer(&aData[sizeof(kNALStartCode)], aSize - sizeof(kNALStartCode));
FindAVCDimensions(sps, aWidth, aHeight);
return OK;
}
// Configure decoder using image width/height.
status_t ConfigureWithPicDimensions(int32_t aWidth, int32_t aHeight)
{
MOZ_ASSERT(mCodec != nullptr);
if (mCodec == nullptr) {
return INVALID_OPERATION;
}
CODEC_LOGD("OMX:%p decoder width:%d height:%d", this, aWidth, aHeight);
sp<AMessage> config = new AMessage();
config->setString("mime", MEDIA_MIMETYPE_VIDEO_AVC);
config->setInt32("width", aWidth);
config->setInt32("height", aHeight);
mWidth = aWidth;
mHeight = aHeight;
sp<Surface> surface = nullptr;
mNativeWindow = new GonkNativeWindow();
if (mNativeWindow.get()) {
// listen to buffers queued by MediaCodec::RenderOutputBufferAndRelease().
mNativeWindow->setNewFrameCallback(this);
// XXX remove buffer changes after a better solution lands - bug 1009420
sp<GonkBufferQueue> bq = mNativeWindow->getBufferQueue();
bq->setSynchronousMode(false);
// More spare buffers to avoid OMX decoder waiting for native window
bq->setMaxAcquiredBufferCount(WEBRTC_OMX_H264_MIN_DECODE_BUFFERS);
surface = new Surface(bq);
}
status_t result = mCodec->configure(config, surface, nullptr, 0);
if (result == OK) {
CODEC_LOGD("OMX:%p decoder configured", this);
result = Start();
}
return result;
}
status_t
FillInput(const webrtc::EncodedImage& aEncoded, bool aIsFirstFrame,
int64_t& aRenderTimeMs)
{
MOZ_ASSERT(mCodec != nullptr && aEncoded._buffer && aEncoded._length > 0);
if (mCodec == nullptr || !aEncoded._buffer || aEncoded._length == 0) {
return INVALID_OPERATION;
}
// Break input encoded data into NALUs and send each one to decode.
// 8x10 decoder doesn't allow picture coding NALs to be in the same buffer
// with SPS/PPS (BUFFER_FLAG_CODECCONFIG) per QC
const uint8_t* data = aEncoded._buffer;
size_t size = aEncoded._length;
const uint8_t* nalStart = nullptr;
size_t nalSize = 0;
status_t err = OK;
// this returns a pointer to the NAL byte (after the StartCode)
while (getNextNALUnit(&data, &size, &nalStart, &nalSize, true) == OK) {
// Individual NALU inherits metadata from input encoded data.
webrtc::EncodedImage nalu(aEncoded);
nalu._buffer = const_cast<uint8_t*>(nalStart) - sizeof(kNALStartCode);
MOZ_ASSERT(nalu._buffer >= aEncoded._buffer);
nalu._length = nalSize + sizeof(kNALStartCode);
MOZ_ASSERT(nalu._buffer + nalu._length <= aEncoded._buffer + aEncoded._length);
size_t index;
err = mCodec->dequeueInputBuffer(&index,
aIsFirstFrame ? START_DEQUEUE_BUFFER_TIMEOUT_US : DEQUEUE_BUFFER_TIMEOUT_US);
if (err != OK) {
if (err != -EAGAIN) {
CODEC_LOGE("decode dequeue input buffer error:%d", err);
} else {
CODEC_LOGE("decode dequeue 100ms without a buffer (EAGAIN)");
}
return err;
}
// Prepend start code to buffer.
MOZ_ASSERT(memcmp(nalu._buffer, kNALStartCode, sizeof(kNALStartCode)) == 0);
const sp<ABuffer>& omxIn = mInputBuffers.itemAt(index);
MOZ_ASSERT(omxIn->capacity() >= nalu._length);
omxIn->setRange(0, nalu._length);
// Copying is needed because MediaCodec API doesn't support externally
// allocated buffer as input.
uint8_t* dst = omxIn->data();
memcpy(dst, nalu._buffer, nalu._length);
int64_t inputTimeUs = (nalu._timeStamp * 1000ll) / 90; // 90kHz -> us.
// Assign input flags according to input buffer NALU and frame types.
uint32_t flags;
int nalType = dst[sizeof(kNALStartCode)] & 0x1f;
switch (nalType) {
case kNALTypeSPS:
case kNALTypePPS:
flags = MediaCodec::BUFFER_FLAG_CODECCONFIG;
break;
case kNALTypeIDR:
flags = MediaCodec::BUFFER_FLAG_SYNCFRAME;
break;
default:
flags = 0;
break;
}
CODEC_LOGD("Decoder input: %d bytes (NAL 0x%02x), time %lld (%u), flags 0x%x",
nalu._length, dst[sizeof(kNALStartCode)], inputTimeUs, nalu._timeStamp, flags);
err = mCodec->queueInputBuffer(index, 0, nalu._length, inputTimeUs, flags);
if (err == OK && !(flags & MediaCodec::BUFFER_FLAG_CODECCONFIG)) {
if (mOutputDrain == nullptr) {
mOutputDrain = new OutputDrain(this);
mOutputDrain->Start();
}
EncodedFrame frame;
frame.mWidth = mWidth;
frame.mHeight = mHeight;
frame.mTimestamp = nalu._timeStamp;
frame.mRenderTimeMs = aRenderTimeMs;
mOutputDrain->QueueInput(frame);
}
}
return err;
}
status_t
DrainOutput(std::queue<EncodedFrame>& aInputFrames, Monitor& aMonitor)
{
MOZ_ASSERT(mCodec != nullptr);
if (mCodec == nullptr) {
return INVALID_OPERATION;
}
size_t index = 0;
size_t outOffset = 0;
size_t outSize = 0;
int64_t outTime = -1ll;
uint32_t outFlags = 0;
status_t err = mCodec->dequeueOutputBuffer(&index, &outOffset, &outSize,
&outTime, &outFlags,
DRAIN_THREAD_TIMEOUT_US);
switch (err) {
case OK:
break;
case -EAGAIN:
// Not an error: output not available yet. Try later.
CODEC_LOGI("decode dequeue OMX output buffer timed out. Try later.");
return err;
case INFO_FORMAT_CHANGED:
// Not an error: will get this value when OMX output buffer is enabled,
// or when input size changed.
CODEC_LOGD("decode dequeue OMX output buffer format change");
return err;
case INFO_OUTPUT_BUFFERS_CHANGED:
// Not an error: will get this value when OMX output buffer changed
// (probably because of input size change).
CODEC_LOGD("decode dequeue OMX output buffer change");
err = mCodec->getOutputBuffers(&mOutputBuffers);
MOZ_ASSERT(err == OK);
return INFO_OUTPUT_BUFFERS_CHANGED;
default:
CODEC_LOGE("decode dequeue OMX output buffer error:%d", err);
// Return OK to instruct OutputDrain to drop input from queue.
MonitorAutoLock lock(aMonitor);
aInputFrames.pop();
return OK;
}
CODEC_LOGD("Decoder output: %d bytes, offset %u, time %lld, flags 0x%x",
outSize, outOffset, outTime, outFlags);
if (mCallback) {
EncodedFrame frame;
{
MonitorAutoLock lock(aMonitor);
frame = aInputFrames.front();
aInputFrames.pop();
}
{
// Store info of this frame. OnNewFrame() will need the timestamp later.
MutexAutoLock lock(mDecodedFrameLock);
if (mEnding) {
mCodec->releaseOutputBuffer(index);
return err;
}
mDecodedFrames.push(frame);
}
// Ask codec to queue buffer back to native window. OnNewFrame() will be
// called.
mCodec->renderOutputBufferAndRelease(index);
// Once consumed, buffer will be queued back to GonkNativeWindow for codec
// to dequeue/use.
} else {
mCodec->releaseOutputBuffer(index);
}
return err;
}
// Will be called when MediaCodec::RenderOutputBufferAndRelease() returns
// buffers back to native window for rendering.
void OnNewFrame() override
{
RefPtr<layers::TextureClient> buffer = mNativeWindow->getCurrentBuffer();
if (!buffer) {
CODEC_LOGE("Decoder NewFrame: Get null buffer");
return;
}
gfx::IntSize picSize(buffer->GetSize());
nsAutoPtr<layers::GrallocImage> grallocImage(new layers::GrallocImage());
grallocImage->AdoptData(buffer, picSize);
// Get timestamp of the frame about to render.
int64_t timestamp = -1;
int64_t renderTimeMs = -1;
{
MutexAutoLock lock(mDecodedFrameLock);
if (mDecodedFrames.empty()) {
return;
}
EncodedFrame decoded = mDecodedFrames.front();
timestamp = decoded.mTimestamp;
renderTimeMs = decoded.mRenderTimeMs;
mDecodedFrames.pop();
}
MOZ_ASSERT(timestamp >= 0 && renderTimeMs >= 0);
CODEC_LOGD("Decoder NewFrame: %dx%d, timestamp %lld, renderTimeMs %lld",
picSize.width, picSize.height, timestamp, renderTimeMs);
nsAutoPtr<webrtc::I420VideoFrame> videoFrame(new webrtc::I420VideoFrame(
new ImageNativeHandle(grallocImage.forget()),
picSize.width,
picSize.height,
timestamp,
renderTimeMs));
if (videoFrame != nullptr) {
mCallback->Decoded(*videoFrame);
}
}
private:
class OutputDrain : public OMXOutputDrain
{
public:
OutputDrain(WebrtcOMXDecoder* aOMX)
: OMXOutputDrain()
, mOMX(aOMX)
{}
protected:
virtual bool DrainOutput() override
{
return (mOMX->DrainOutput(mInputFrames, mMonitor) == OK);
}
private:
WebrtcOMXDecoder* mOMX;
};
status_t Start()
{
MOZ_ASSERT(!mStarted);
if (mStarted) {
return OK;
}
{
MutexAutoLock lock(mDecodedFrameLock);
mEnding = false;
}
status_t err = mCodec->start();
if (err == OK) {
mStarted = true;
mCodec->getInputBuffers(&mInputBuffers);
mCodec->getOutputBuffers(&mOutputBuffers);
}
return err;
}
status_t Stop()
{
MOZ_ASSERT(mStarted);
if (!mStarted) {
return OK;
}
CODEC_LOGD("OMXOutputDrain decoder stopping");
// Drop all 'pending to render' frames.
{
MutexAutoLock lock(mDecodedFrameLock);
mEnding = true;
while (!mDecodedFrames.empty()) {
mDecodedFrames.pop();
}
}
if (mOutputDrain != nullptr) {
CODEC_LOGD("decoder's OutputDrain stopping");
mOutputDrain->Stop();
mOutputDrain = nullptr;
}
status_t err = mCodec->stop();
if (err == OK) {
mInputBuffers.clear();
mOutputBuffers.clear();
mStarted = false;
} else {
MOZ_ASSERT(false);
}
CODEC_LOGD("OMXOutputDrain decoder stopped");
return err;
}
sp<ALooper> mLooper;
sp<MediaCodec> mCodec; // OMXCodec
int mWidth;
int mHeight;
android::Vector<sp<ABuffer> > mInputBuffers;
android::Vector<sp<ABuffer> > mOutputBuffers;
bool mStarted;
sp<GonkNativeWindow> mNativeWindow;
RefPtr<OutputDrain> mOutputDrain;
webrtc::DecodedImageCallback* mCallback;
Mutex mDecodedFrameLock; // To protect mDecodedFrames and mEnding
std::queue<EncodedFrame> mDecodedFrames;
bool mEnding;
};
class EncOutputDrain : public OMXOutputDrain
{
public:
EncOutputDrain(OMXVideoEncoder* aOMX, webrtc::EncodedImageCallback* aCallback)
: OMXOutputDrain()
, mOMX(aOMX)
, mCallback(aCallback)
, mIsPrevFrameParamSets(false)
{}
protected:
virtual bool DrainOutput() override
{
nsTArray<uint8_t> output;
int64_t timeUs = -1ll;
int flags = 0;
nsresult rv = mOMX->GetNextEncodedFrame(&output, &timeUs, &flags,
DRAIN_THREAD_TIMEOUT_US);
if (NS_WARN_IF(NS_FAILED(rv))) {
// Fail to get encoded frame. The corresponding input frame should be
// removed.
// We'll treat this like a skipped frame
return true;
}
if (output.Length() == 0) {
// No encoded data yet. Try later.
CODEC_LOGD("OMX: (encode no output available this time)");
return false;
}
// Conversion to us rounds down, so we need to round up for us->90KHz
uint32_t target_timestamp = (timeUs * 90ll + 999) / 1000; // us -> 90KHz
// 8x10 v2.0 encoder doesn't set this reliably:
//bool isParamSets = (flags & MediaCodec::BUFFER_FLAG_CODECCONFIG);
// Assume that SPS/PPS will be at the start of any buffer
// Assume PPS will not be in a separate buffer - SPS/PPS or SPS/PPS/iframe
bool isParamSets = IsParamSets(output.Elements(), output.Length());
bool isIFrame = (flags & MediaCodec::BUFFER_FLAG_SYNCFRAME);
CODEC_LOGD("OMX: encoded frame (%d): time %lld (%u), flags x%x",
output.Length(), timeUs, target_timestamp, flags);
// Should not be parameter sets and I-frame at the same time.
// Except that it is possible, apparently, after an encoder re-config (bug 1063883)
// MOZ_ASSERT(!(isParamSets && isIFrame));
if (mCallback) {
// Implementation here assumes encoder output to be a buffer containing
// parameter sets(SPS + PPS) followed by a series of buffers, each for
// one input frame.
// TODO: handle output violating this assumpton in bug 997110.
webrtc::EncodedImage encoded(output.Elements(), output.Length(),
output.Capacity());
encoded._frameType = (isParamSets || isIFrame) ?
webrtc::kKeyFrame : webrtc::kDeltaFrame;
EncodedFrame input_frame;
{
MonitorAutoLock lock(mMonitor);
// will sps/pps have the same timestamp as their iframe? Initial one on 8x10 has
// 0 timestamp.
if (isParamSets) {
// Let's assume it was the first item in the queue, but leave it there since an
// IDR will follow
input_frame = mInputFrames.front();
} else {
do {
if (mInputFrames.empty()) {
// Let's assume it was the last item in the queue, but leave it there
mInputFrames.push(input_frame);
CODEC_LOGE("OMX: encoded timestamp %u which doesn't match input queue!! (head %u)",
target_timestamp, input_frame.mTimestamp);
break;
}
input_frame = mInputFrames.front();
mInputFrames.pop();
if (input_frame.mTimestamp != target_timestamp) {
CODEC_LOGD("OMX: encoder skipped frame timestamp %u", input_frame.mTimestamp);
}
} while (input_frame.mTimestamp != target_timestamp);
}
}
encoded._encodedWidth = input_frame.mWidth;
encoded._encodedHeight = input_frame.mHeight;
encoded._timeStamp = input_frame.mTimestamp;
encoded.capture_time_ms_ = input_frame.mRenderTimeMs;
encoded._completeFrame = true;
CODEC_LOGD("Encoded frame: %d bytes, %dx%d, is_param %d, is_iframe %d, timestamp %u, captureTimeMs %" PRIu64,
encoded._length, encoded._encodedWidth, encoded._encodedHeight,
isParamSets, isIFrame, encoded._timeStamp, encoded.capture_time_ms_);
// Prepend SPS/PPS to I-frames unless they were sent last time.
SendEncodedDataToCallback(encoded, isIFrame && !mIsPrevFrameParamSets && !isParamSets);
// This will be true only for the frame following a paramset block! So if we're
// working with a correct encoder that generates SPS/PPS then iframe always, we
// won't try to insert. (also, don't set if we get SPS/PPS/iframe in one buffer)
mIsPrevFrameParamSets = isParamSets && !isIFrame;
if (isParamSets) {
// copy off the param sets for inserting later
mParamSets.Clear();
// since we may have SPS/PPS or SPS/PPS/iframe
size_t length = ParamSetLength(encoded._buffer, encoded._length);
MOZ_ASSERT(length > 0);
mParamSets.AppendElements(encoded._buffer, length);
}
}
return !isParamSets; // not really needed anymore
}
private:
// Send encoded data to callback.The data will be broken into individual NALUs
// if necessary and sent to callback one by one. This function can also insert
// SPS/PPS NALUs in front of input data if requested.
void SendEncodedDataToCallback(webrtc::EncodedImage& aEncodedImage,
bool aPrependParamSets)
{
if (aPrependParamSets) {
webrtc::EncodedImage prepend(aEncodedImage);
// Insert current parameter sets in front of the input encoded data.
MOZ_ASSERT(mParamSets.Length() > sizeof(kNALStartCode)); // Start code + ...
prepend._length = mParamSets.Length();
prepend._buffer = mParamSets.Elements();
// Break into NALUs and send.
CODEC_LOGD("Prepending SPS/PPS: %d bytes, timestamp %u, captureTimeMs %" PRIu64,
prepend._length, prepend._timeStamp, prepend.capture_time_ms_);
SendEncodedDataToCallback(prepend, false);
}
struct nal_entry {
uint32_t offset;
uint32_t size;
};
AutoTArray<nal_entry, 1> nals;
// Break input encoded data into NALUs and send each one to callback.
const uint8_t* data = aEncodedImage._buffer;
size_t size = aEncodedImage._length;
const uint8_t* nalStart = nullptr;
size_t nalSize = 0;
while (getNextNALUnit(&data, &size, &nalStart, &nalSize, true) == OK) {
// XXX optimize by making buffer an offset
nal_entry nal = {((uint32_t) (nalStart - aEncodedImage._buffer)), (uint32_t) nalSize};
nals.AppendElement(nal);
}
size_t num_nals = nals.Length();
if (num_nals > 0) {
webrtc::RTPFragmentationHeader fragmentation;
fragmentation.VerifyAndAllocateFragmentationHeader(num_nals);
for (size_t i = 0; i < num_nals; i++) {
fragmentation.fragmentationOffset[i] = nals[i].offset;
fragmentation.fragmentationLength[i] = nals[i].size;
}
webrtc::EncodedImage unit(aEncodedImage);
unit._completeFrame = true;
mCallback->Encoded(unit, nullptr, &fragmentation);
}
}
OMXVideoEncoder* mOMX;
webrtc::EncodedImageCallback* mCallback;
bool mIsPrevFrameParamSets;
nsTArray<uint8_t> mParamSets;
};
// Encoder.
WebrtcOMXH264VideoEncoder::WebrtcOMXH264VideoEncoder()
: mOMX(nullptr)
, mCallback(nullptr)
, mWidth(0)
, mHeight(0)
, mFrameRate(0)
, mBitRateKbps(0)
#ifdef OMX_IDR_NEEDED_FOR_BITRATE
, mBitRateAtLastIDR(0)
#endif
, mOMXConfigured(false)
, mOMXReconfigure(false)
{
mReservation = new OMXCodecReservation(true);
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p constructed", this);
}
int32_t
WebrtcOMXH264VideoEncoder::InitEncode(const webrtc::VideoCodec* aCodecSettings,
int32_t aNumOfCores,
size_t aMaxPayloadSize)
{
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p init", this);
if (mOMX == nullptr) {
nsAutoPtr<OMXVideoEncoder> omx(OMXCodecWrapper::CreateAVCEncoder());
if (NS_WARN_IF(omx == nullptr)) {
return WEBRTC_VIDEO_CODEC_ERROR;
}
mOMX = omx.forget();
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p OMX created", this);
}
if (!mReservation->ReserveOMXCodec()) {
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p Encoder in use", this);
mOMX = nullptr;
return WEBRTC_VIDEO_CODEC_ERROR;
}
// Defer configuration until 1st frame is received because this function will
// be called more than once, and unfortunately with incorrect setting values
// at first.
mWidth = aCodecSettings->width;
mHeight = aCodecSettings->height;
mFrameRate = aCodecSettings->maxFramerate;
mBitRateKbps = aCodecSettings->startBitrate;
// XXX handle maxpayloadsize (aka mode 0/1)
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p OMX Encoder reserved", this);
return WEBRTC_VIDEO_CODEC_OK;
}
int32_t
WebrtcOMXH264VideoEncoder::Encode(const webrtc::I420VideoFrame& aInputImage,
const webrtc::CodecSpecificInfo* aCodecSpecificInfo,
const std::vector<webrtc::VideoFrameType>* aFrameTypes)
{
MOZ_ASSERT(mOMX != nullptr);
if (mOMX == nullptr) {
return WEBRTC_VIDEO_CODEC_ERROR;
}
// Have to reconfigure for resolution or framerate changes :-(
// ~220ms initial configure on 8x10, 50-100ms for re-configure it appears
// XXX drop frames while this is happening?
if (aInputImage.width() < 0 || (uint32_t)aInputImage.width() != mWidth ||
aInputImage.height() < 0 || (uint32_t)aInputImage.height() != mHeight) {
mWidth = aInputImage.width();
mHeight = aInputImage.height();
mOMXReconfigure = true;
}
if (!mOMXConfigured || mOMXReconfigure) {
if (mOMXConfigured) {
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p reconfiguring encoder %dx%d @ %u fps",
this, mWidth, mHeight, mFrameRate);
mOMXConfigured = false;
}
mOMXReconfigure = false;
// XXX This can take time. Encode() likely assumes encodes are queued "quickly" and
// don't block the input too long. Frames may build up.
// XXX take from negotiated SDP in codecSpecific data
OMX_VIDEO_AVCLEVELTYPE level = OMX_VIDEO_AVCLevel3;
// OMX_Video_ControlRateConstant is not supported on QC 8x10
OMX_VIDEO_CONTROLRATETYPE bitrateMode = OMX_Video_ControlRateConstantSkipFrames;
// Set up configuration parameters for AVC/H.264 encoder.
sp<AMessage> format = new AMessage;
// Fixed values
format->setString("mime", MEDIA_MIMETYPE_VIDEO_AVC);
// XXX We should only set to < infinity if we're not using any recovery RTCP options
// However, we MUST set it to a lower value because the 8x10 rate controller
// only changes rate at GOP boundaries.... but it also changes rate on requested GOPs
// Too long and we have very low bitrates for the first second or two... plus
// bug 1014921 means we have to force them every ~3 seconds or less.
format->setInt32("i-frame-interval", 4 /* seconds */);
// See mozilla::layers::GrallocImage, supports YUV 4:2:0, CbCr width and
// height is half that of Y
format->setInt32("color-format", OMX_COLOR_FormatYUV420SemiPlanar);
format->setInt32("profile", OMX_VIDEO_AVCProfileBaseline);
format->setInt32("level", level);
format->setInt32("bitrate-mode", bitrateMode);
format->setInt32("store-metadata-in-buffers", 0);
// XXX Unfortunately, 8x10 doesn't support this, but ask anyways
format->setInt32("prepend-sps-pps-to-idr-frames", 1);
// Input values.
format->setInt32("width", mWidth);
format->setInt32("height", mHeight);
format->setInt32("stride", mWidth);
format->setInt32("slice-height", mHeight);
format->setInt32("frame-rate", mFrameRate);
format->setInt32("bitrate", mBitRateKbps*1000);
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p configuring encoder %dx%d @ %d fps, rate %d kbps",
this, mWidth, mHeight, mFrameRate, mBitRateKbps);
nsresult rv = mOMX->ConfigureDirect(format,
OMXVideoEncoder::BlobFormat::AVC_NAL);
if (NS_WARN_IF(NS_FAILED(rv))) {
CODEC_LOGE("WebrtcOMXH264VideoEncoder:%p FAILED configuring encoder %d", this, int(rv));
return WEBRTC_VIDEO_CODEC_ERROR;
}
mOMXConfigured = true;
#ifdef OMX_IDR_NEEDED_FOR_BITRATE
mLastIDRTime = TimeStamp::Now();
mBitRateAtLastIDR = mBitRateKbps;
#endif
}
if (aFrameTypes && aFrameTypes->size() &&
((*aFrameTypes)[0] == webrtc::kKeyFrame)) {
mOMX->RequestIDRFrame();
#ifdef OMX_IDR_NEEDED_FOR_BITRATE
mLastIDRTime = TimeStamp::Now();
mBitRateAtLastIDR = mBitRateKbps;
} else if (mBitRateKbps != mBitRateAtLastIDR) {
// 8x10 OMX codec requires a keyframe to shift bitrates!
TimeStamp now = TimeStamp::Now();
if (mLastIDRTime.IsNull()) {
// paranoia
mLastIDRTime = now;
}
int32_t timeSinceLastIDR = (now - mLastIDRTime).ToMilliseconds();
// Balance asking for IDRs too often against direction and amount of bitrate change.
// HACK for bug 1014921: 8x10 has encode/decode mismatches that build up errors
// if you go too long without an IDR. In normal use, bitrate will change often
// enough to never hit this time limit.
if ((timeSinceLastIDR > 3000) ||
(mBitRateKbps < (mBitRateAtLastIDR * 8)/10) ||
(timeSinceLastIDR < 300 && mBitRateKbps < (mBitRateAtLastIDR * 9)/10) ||
(timeSinceLastIDR < 1000 && mBitRateKbps < (mBitRateAtLastIDR * 97)/100) ||
(timeSinceLastIDR >= 1000 && mBitRateKbps < mBitRateAtLastIDR) ||
(mBitRateKbps > (mBitRateAtLastIDR * 15)/10) ||
(timeSinceLastIDR < 500 && mBitRateKbps > (mBitRateAtLastIDR * 13)/10) ||
(timeSinceLastIDR < 1000 && mBitRateKbps > (mBitRateAtLastIDR * 11)/10) ||
(timeSinceLastIDR >= 1000 && mBitRateKbps > mBitRateAtLastIDR)) {
CODEC_LOGD("Requesting IDR for bitrate change from %u to %u (time since last idr %dms)",
mBitRateAtLastIDR, mBitRateKbps, timeSinceLastIDR);
mOMX->RequestIDRFrame();
mLastIDRTime = now;
mBitRateAtLastIDR = mBitRateKbps;
}
#endif
}
// Wrap I420VideoFrame input with PlanarYCbCrImage for OMXVideoEncoder.
layers::PlanarYCbCrData yuvData;
yuvData.mYChannel = const_cast<uint8_t*>(aInputImage.buffer(webrtc::kYPlane));
yuvData.mYSize = gfx::IntSize(aInputImage.width(), aInputImage.height());
yuvData.mYStride = aInputImage.stride(webrtc::kYPlane);
MOZ_ASSERT(aInputImage.stride(webrtc::kUPlane) == aInputImage.stride(webrtc::kVPlane));
yuvData.mCbCrStride = aInputImage.stride(webrtc::kUPlane);
yuvData.mCbChannel = const_cast<uint8_t*>(aInputImage.buffer(webrtc::kUPlane));
yuvData.mCrChannel = const_cast<uint8_t*>(aInputImage.buffer(webrtc::kVPlane));
yuvData.mCbCrSize = gfx::IntSize((yuvData.mYSize.width + 1) / 2,
(yuvData.mYSize.height + 1) / 2);
yuvData.mPicSize = yuvData.mYSize;
yuvData.mStereoMode = StereoMode::MONO;
layers::RecyclingPlanarYCbCrImage img(nullptr);
// AdoptData() doesn't need AllocateAndGetNewBuffer(); OMXVideoEncoder is ok with this
img.AdoptData(yuvData);
CODEC_LOGD("Encode frame: %dx%d, timestamp %u (%lld), renderTimeMs %" PRIu64,
aInputImage.width(), aInputImage.height(),
aInputImage.timestamp(), aInputImage.timestamp() * 1000ll / 90,
aInputImage.render_time_ms());
nsresult rv = mOMX->Encode(&img,
yuvData.mYSize.width,
yuvData.mYSize.height,
aInputImage.timestamp() * 1000ll / 90, // 90kHz -> us.
0);
if (rv == NS_OK) {
if (mOutputDrain == nullptr) {
mOutputDrain = new EncOutputDrain(mOMX, mCallback);
mOutputDrain->Start();
}
EncodedFrame frame;
frame.mWidth = mWidth;
frame.mHeight = mHeight;
frame.mTimestamp = aInputImage.timestamp();
frame.mRenderTimeMs = aInputImage.render_time_ms();
mOutputDrain->QueueInput(frame);
}
return (rv == NS_OK) ? WEBRTC_VIDEO_CODEC_OK : WEBRTC_VIDEO_CODEC_ERROR;
}
int32_t
WebrtcOMXH264VideoEncoder::RegisterEncodeCompleteCallback(
webrtc::EncodedImageCallback* aCallback)
{
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p set callback:%p", this, aCallback);
MOZ_ASSERT(aCallback);
mCallback = aCallback;
return WEBRTC_VIDEO_CODEC_OK;
}
int32_t
WebrtcOMXH264VideoEncoder::Release()
{
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p will be released", this);
if (mOutputDrain != nullptr) {
mOutputDrain->Stop();
mOutputDrain = nullptr;
}
mOMXConfigured = false;
bool hadOMX = !!mOMX;
mOMX = nullptr;
if (hadOMX) {
mReservation->ReleaseOMXCodec();
}
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p released", this);
return WEBRTC_VIDEO_CODEC_OK;
}
WebrtcOMXH264VideoEncoder::~WebrtcOMXH264VideoEncoder()
{
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p will be destructed", this);
Release();
}
// Inform the encoder of the new packet loss rate and the round-trip time of
// the network. aPacketLossRate is fraction lost and can be 0~255
// (255 means 100% lost).
// Note: stagefright doesn't handle these parameters.
int32_t
WebrtcOMXH264VideoEncoder::SetChannelParameters(uint32_t aPacketLossRate,
int64_t aRoundTripTimeMs)
{
CODEC_LOGD("WebrtcOMXH264VideoEncoder:%p set channel packet loss:%u, rtt:%" PRIi64,
this, aPacketLossRate, aRoundTripTimeMs);
return WEBRTC_VIDEO_CODEC_OK;
}
// TODO: Bug 997567. Find the way to support frame rate change.
int32_t
WebrtcOMXH264VideoEncoder::SetRates(uint32_t aBitRateKbps, uint32_t aFrameRate)
{
CODEC_LOGE("WebrtcOMXH264VideoEncoder:%p set bitrate:%u, frame rate:%u (%u))",
this, aBitRateKbps, aFrameRate, mFrameRate);
MOZ_ASSERT(mOMX != nullptr);
if (mOMX == nullptr) {
return WEBRTC_VIDEO_CODEC_UNINITIALIZED;
}
// XXX Should use StageFright framerate change, perhaps only on major changes of framerate.
// Without Stagefright support, Algorithm should be:
// if (frameRate < 50% of configured) {
// drop framerate to next step down that includes current framerate within 50%
// } else if (frameRate > configured) {
// change config to next step up that includes current framerate
// }
#if !defined(TEST_OMX_FRAMERATE_CHANGES)
if (aFrameRate > mFrameRate ||
aFrameRate < mFrameRate/2) {
uint32_t old_rate = mFrameRate;
if (aFrameRate >= 15) {
mFrameRate = 30;
} else if (aFrameRate >= 10) {
mFrameRate = 20;
} else if (aFrameRate >= 8) {
mFrameRate = 15;
} else /* if (aFrameRate >= 5)*/ {
// don't go lower; encoder may not be stable
mFrameRate = 10;
}
if (mFrameRate < aFrameRate) { // safety
mFrameRate = aFrameRate;
}
if (old_rate != mFrameRate) {
mOMXReconfigure = true; // force re-configure on next frame
}
}
#else
// XXX for testing, be wild!
if (aFrameRate != mFrameRate) {
mFrameRate = aFrameRate;
mOMXReconfigure = true; // force re-configure on next frame
}
#endif
// XXX Limit bitrate for 8x10 devices to a specific level depending on fps and resolution
// mBitRateKbps = LimitBitrate8x10(mWidth, mHeight, mFrameRate, aBitRateKbps);
// Rely on global single setting (~720 kbps for HVGA@30fps) for now
if (aBitRateKbps > 700) {
aBitRateKbps = 700;
}
mBitRateKbps = aBitRateKbps;
nsresult rv = mOMX->SetBitrate(mBitRateKbps);
NS_WARNING_ASSERTION(NS_SUCCEEDED(rv), "SetBitrate failed");
return NS_FAILED(rv) ? WEBRTC_VIDEO_CODEC_OK : WEBRTC_VIDEO_CODEC_ERROR;
}
// Decoder.
WebrtcOMXH264VideoDecoder::WebrtcOMXH264VideoDecoder()
: mCallback(nullptr)
, mOMX(nullptr)
{
mReservation = new OMXCodecReservation(false);
CODEC_LOGD("WebrtcOMXH264VideoDecoder:%p will be constructed", this);
}
int32_t
WebrtcOMXH264VideoDecoder::InitDecode(const webrtc::VideoCodec* aCodecSettings,
int32_t aNumOfCores)
{
CODEC_LOGD("WebrtcOMXH264VideoDecoder:%p init OMX:%p", this, mOMX.get());
if (!mReservation->ReserveOMXCodec()) {
CODEC_LOGD("WebrtcOMXH264VideoDecoder:%p Decoder in use", this);
return WEBRTC_VIDEO_CODEC_ERROR;
}
// Defer configuration until SPS/PPS NALUs (where actual decoder config
// values can be extracted) are received.
CODEC_LOGD("WebrtcOMXH264VideoDecoder:%p OMX Decoder reserved", this);
return WEBRTC_VIDEO_CODEC_OK;
}
int32_t
WebrtcOMXH264VideoDecoder::Decode(const webrtc::EncodedImage& aInputImage,
bool aMissingFrames,
const webrtc::RTPFragmentationHeader* aFragmentation,
const webrtc::CodecSpecificInfo* aCodecSpecificInfo,
int64_t aRenderTimeMs)
{
if (aInputImage._length== 0 || !aInputImage._buffer) {
return WEBRTC_VIDEO_CODEC_ERROR;
}
bool configured = !!mOMX;
if (!configured) {
// Search for SPS NALU in input to get width/height config.
int32_t width;
int32_t height;
status_t result = WebrtcOMXDecoder::ExtractPicDimensions(aInputImage._buffer,
aInputImage._length,
&width, &height);
if (result != OK) {
// Cannot config decoder because SPS haven't been seen.
CODEC_LOGI("WebrtcOMXH264VideoDecoder:%p missing SPS in input (nal 0x%02x, len %d)",
this, aInputImage._buffer[sizeof(kNALStartCode)] & 0x1f, aInputImage._length);
return WEBRTC_VIDEO_CODEC_UNINITIALIZED;
}
RefPtr<WebrtcOMXDecoder> omx = new WebrtcOMXDecoder(MEDIA_MIMETYPE_VIDEO_AVC,
mCallback);
result = omx->ConfigureWithPicDimensions(width, height);
if (NS_WARN_IF(result != OK)) {
return WEBRTC_VIDEO_CODEC_UNINITIALIZED;
}
CODEC_LOGD("WebrtcOMXH264VideoDecoder:%p start OMX", this);
mOMX = omx;
}
bool feedFrame = true;
while (feedFrame) {
status_t err = mOMX->FillInput(aInputImage, !configured, aRenderTimeMs);
feedFrame = (err == -EAGAIN); // No input buffer available. Try again.
}
return WEBRTC_VIDEO_CODEC_OK;
}
int32_t
WebrtcOMXH264VideoDecoder::RegisterDecodeCompleteCallback(webrtc::DecodedImageCallback* aCallback)
{
CODEC_LOGD("WebrtcOMXH264VideoDecoder:%p set callback:%p", this, aCallback);
MOZ_ASSERT(aCallback);
mCallback = aCallback;
return WEBRTC_VIDEO_CODEC_OK;
}
int32_t
WebrtcOMXH264VideoDecoder::Release()
{
CODEC_LOGD("WebrtcOMXH264VideoDecoder:%p will be released", this);
mOMX = nullptr; // calls Stop()
mReservation->ReleaseOMXCodec();
return WEBRTC_VIDEO_CODEC_OK;
}
WebrtcOMXH264VideoDecoder::~WebrtcOMXH264VideoDecoder()
{
CODEC_LOGD("WebrtcOMXH264VideoDecoder:%p will be destructed", this);
Release();
}
int32_t
WebrtcOMXH264VideoDecoder::Reset()
{
CODEC_LOGW("WebrtcOMXH264VideoDecoder::Reset() will NOT reset decoder");
return WEBRTC_VIDEO_CODEC_OK;
}
}
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