gecko/media/omx-plugin/OmxPlugin.cpp
Edwin Flores 648a6364b9 Bug 990780 - Add more padding to MediaCodec::ReadOptions for HTC devices r=doublec
The HTC version of OMXCodec has extra fields in its ReadOptions class over the
AOSP version. We added padding in bug 932820, but it was apparently not enough.
This patch simply adds more padding to our version of the class.
2014-04-23 13:00:10 +12:00

1165 lines
36 KiB
C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim:set ts=2 sw=2 sts=2 et cindent: */
/* 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 <stagefright/ColorConverter.h>
#include <stagefright/DataSource.h>
#include <stagefright/MediaExtractor.h>
#include <stagefright/MetaData.h>
#include <stagefright/OMXCodec.h>
#include <media/stagefright/MediaErrors.h>
#ifdef MOZ_WIDGET_GONK
#include <OMX.h>
#else
#include <stagefright/OMXClient.h>
#endif
#include <algorithm>
#include "mozilla/Assertions.h"
#include "mozilla/Types.h"
#include "MPAPI.h"
#include "android/log.h"
#define MAX_DECODER_NAME_LEN 256
#define AVC_MIME_TYPE "video/avc"
#if !defined(MOZ_ANDROID_FROYO)
#define DEFAULT_STAGEFRIGHT_FLAGS OMXCodec::kClientNeedsFramebuffer
#else
#define DEFAULT_STAGEFRIGHT_FLAGS 0
#endif
#undef LOG
#define LOG(args...) __android_log_print(ANDROID_LOG_INFO, "OmxPlugin" , ## args)
#if defined(MOZ_ANDROID_FROYO) || defined(MOZ_ANDROID_GB)
// Android versions 2.x.x have common API differences
#define MOZ_ANDROID_V2_X_X
#endif
#if !defined(MOZ_ANDROID_V2_X_X) && !defined(MOZ_ANDROID_HC)
#define MOZ_ANDROID_V4_OR_ABOVE
#endif
#if defined(MOZ_ANDROID_V4_OR_ABOVE)
#include <I420ColorConverter.h>
#endif
using namespace MPAPI;
#if !defined(MOZ_STAGEFRIGHT_OFF_T)
#define MOZ_STAGEFRIGHT_OFF_T off64_t
#endif
using namespace android;
namespace OmxPlugin {
const int OMX_QCOM_COLOR_FormatYVU420PackedSemiPlanar32m4ka = 0x7FA30C01;
const int OMX_QCOM_COLOR_FormatYVU420SemiPlanar = 0x7FA30C00;
const int OMX_TI_COLOR_FormatYUV420PackedSemiPlanar = 0x7F000100;
class OmxDecoder {
PluginHost *mPluginHost;
Decoder *mDecoder;
sp<MediaSource> mVideoTrack;
sp<MediaSource> mVideoSource;
sp<MediaSource> mAudioTrack;
sp<MediaSource> mAudioSource;
int32_t mVideoWidth;
int32_t mVideoHeight;
int32_t mVideoColorFormat;
int32_t mVideoStride;
int32_t mVideoSliceHeight;
int32_t mVideoCropLeft;
int32_t mVideoCropTop;
int32_t mVideoCropRight;
int32_t mVideoCropBottom;
int32_t mVideoRotation;
int32_t mAudioChannels;
int32_t mAudioSampleRate;
int64_t mDurationUs;
MediaBuffer *mVideoBuffer;
VideoFrame mVideoFrame;
MediaBuffer *mAudioBuffer;
AudioFrame mAudioFrame;
ColorConverter *mColorConverter;
// 'true' if a read from the audio stream was done while reading the metadata
bool mAudioMetadataRead;
void ReleaseVideoBuffer();
void ReleaseAudioBuffer();
void ToVideoFrame_YUV420Planar(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame);
void ToVideoFrame_CbYCrY(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame);
void ToVideoFrame_YUV420SemiPlanar(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame);
void ToVideoFrame_YVU420SemiPlanar(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame);
void ToVideoFrame_YUV420PackedSemiPlanar(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame);
void ToVideoFrame_YVU420PackedSemiPlanar32m4ka(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame);
bool ToVideoFrame_RGB565(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame, BufferCallback *aBufferCallback);
bool ToVideoFrame_ColorConverter(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame, BufferCallback *aBufferCallback);
bool ToVideoFrame_I420ColorConverter(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame, BufferCallback *aBufferCallback);
bool ToVideoFrame(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame, BufferCallback *aBufferCallback);
bool ToAudioFrame(AudioFrame *aFrame, int64_t aTimeUs, void *aData, size_t aDataOffset, size_t aSize,
int32_t aAudioChannels, int32_t aAudioSampleRate);
public:
OmxDecoder(PluginHost *aPluginHost, Decoder *aDecoder);
~OmxDecoder();
bool Init();
bool SetVideoFormat();
bool SetAudioFormat();
void GetDuration(int64_t *durationUs) {
*durationUs = mDurationUs;
}
void GetVideoParameters(int32_t *width, int32_t *height) {
*width = mVideoWidth;
*height = mVideoHeight;
}
void GetAudioParameters(int32_t *numChannels, int32_t *sampleRate) {
*numChannels = mAudioChannels;
*sampleRate = mAudioSampleRate;
}
bool HasVideo() {
return mVideoSource != nullptr;
}
bool HasAudio() {
return mAudioSource != nullptr;
}
bool ReadVideo(VideoFrame *aFrame, int64_t aSeekTimeUs, BufferCallback *aBufferCallback);
bool ReadAudio(AudioFrame *aFrame, int64_t aSeekTimeUs);
};
#if !defined(MOZ_WIDGET_GONK)
static class OmxClientInstance {
public:
OmxClientInstance()
: mClient(new OMXClient())
, mStatus(mClient->connect())
{
}
status_t IsValid()
{
return mStatus == OK;
}
OMXClient *get()
{
return mClient;
}
~OmxClientInstance()
{
if (mStatus == OK) {
mClient->disconnect();
}
delete mClient;
}
private:
OMXClient *mClient;
status_t mStatus;
} sClientInstance;
#endif
OmxDecoder::OmxDecoder(PluginHost *aPluginHost, Decoder *aDecoder) :
mPluginHost(aPluginHost),
mDecoder(aDecoder),
mVideoWidth(0),
mVideoHeight(0),
mVideoColorFormat(0),
mVideoStride(0),
mVideoSliceHeight(0),
mVideoCropLeft(0),
mVideoCropTop(0),
mVideoCropRight(0),
mVideoCropBottom(0),
mVideoRotation(0),
mAudioChannels(-1),
mAudioSampleRate(-1),
mDurationUs(-1),
mVideoBuffer(nullptr),
mAudioBuffer(nullptr),
mColorConverter(nullptr),
mAudioMetadataRead(false)
{
}
OmxDecoder::~OmxDecoder()
{
ReleaseVideoBuffer();
ReleaseAudioBuffer();
if (mVideoSource.get()) {
mVideoSource->stop();
}
if (mAudioSource.get()) {
mAudioSource->stop();
}
#ifndef MOZ_ANDROID_HC
if (mColorConverter) {
delete mColorConverter;
}
#endif
}
class AutoStopMediaSource {
sp<MediaSource> mMediaSource;
public:
AutoStopMediaSource(sp<MediaSource> aMediaSource) : mMediaSource(aMediaSource) {
}
~AutoStopMediaSource() {
mMediaSource->stop();
}
};
#ifdef MOZ_WIDGET_GONK
static sp<IOMX> sOMX = nullptr;
static sp<IOMX> GetOMX() {
if(sOMX.get() == nullptr) {
sOMX = reinterpret_cast<IOMX*>(new OMX);
}
return sOMX;
}
#endif
static uint32_t
GetDefaultStagefrightFlags(PluginHost *aPluginHost)
{
uint32_t flags = DEFAULT_STAGEFRIGHT_FLAGS;
#if !defined(MOZ_ANDROID_FROYO)
char hardware[256] = "";
aPluginHost->GetSystemInfoString("hardware", hardware, sizeof(hardware));
if (!strcmp("qcom", hardware)) {
// Qualcomm's OMXCodec implementation interprets this flag to mean that we
// only want a thumbnail and therefore only need one frame. After the first
// frame it returns EOS.
// All other OMXCodec implementations seen so far interpret this flag
// sanely; some do not return full framebuffers unless this flag is passed.
flags &= ~OMXCodec::kClientNeedsFramebuffer;
}
LOG("Hardware %s; using default flags %#x\n", hardware, flags);
#endif
return flags;
}
static uint32_t GetVideoCreationFlags(PluginHost* aPluginHost)
{
#ifdef MOZ_WIDGET_GONK
// Flag value of zero means return a hardware or software decoder
// depending on what the device supports.
return 0;
#else
// Check whether the user has set a pref to override our default OMXCodec
// CreationFlags flags. This is useful for A/B testing hardware and software
// decoders for performance and bugs. The interesting flag values are:
// 0 = Let Stagefright choose hardware or software decoding (default)
// 8 = Force software decoding
// 16 = Force hardware decoding
int32_t flags = 0;
aPluginHost->GetIntPref("media.stagefright.omxcodec.flags", &flags);
if (flags != 0) {
#if !defined(MOZ_ANDROID_V2_X_X)
LOG("media.stagefright.omxcodec.flags=%d", flags);
if ((flags & OMXCodec::kHardwareCodecsOnly) != 0) {
LOG("FORCE HARDWARE DECODING");
} else if ((flags & OMXCodec::kSoftwareCodecsOnly) != 0) {
LOG("FORCE SOFTWARE DECODING");
}
#endif
}
flags |= GetDefaultStagefrightFlags(aPluginHost);
return static_cast<uint32_t>(flags);
#endif
}
enum ColorFormatSupport {
ColorFormatNotSupported = 0,
ColorFormatSupportOK,
ColorFormatSupportPreferred,
};
static ColorFormatSupport
IsColorFormatSupported(OMX_COLOR_FORMATTYPE aColorFormat)
{
switch (static_cast<int>(aColorFormat)) {
case OMX_COLOR_FormatCbYCrY:
case OMX_COLOR_FormatYUV420Planar:
case OMX_COLOR_FormatYUV420SemiPlanar:
case OMX_QCOM_COLOR_FormatYVU420PackedSemiPlanar32m4ka:
case OMX_QCOM_COLOR_FormatYVU420SemiPlanar:
case OMX_TI_COLOR_FormatYUV420PackedSemiPlanar:
LOG("Colour format %#x supported natively.", aColorFormat);
// Prefer natively supported colour formats over formats that need another
// slow software conversion.
return ColorFormatSupportPreferred;
default:
break;
}
// These formats are okay if we can't find a better one; Android provides a
// software conversion to a sane colour format.
#if !defined(MOZ_ANDROID_HC)
if (ColorConverter(aColorFormat, OMX_COLOR_Format16bitRGB565).isValid()) {
LOG("Colour format %#x supported by Android ColorConverter.", aColorFormat);
return ColorFormatSupportOK;
}
#endif
#if defined(MOZ_ANDROID_V4_OR_ABOVE)
I420ColorConverter yuvConverter;
if (yuvConverter.isLoaded() &&
yuvConverter.getDecoderOutputFormat() == aColorFormat) {
LOG("Colour format %#x supported by Android I420ColorConverter.", aColorFormat);
return ColorFormatSupportOK;
}
#endif
return ColorFormatNotSupported;
}
#if defined(MOZ_ANDROID_KK)
/**
* Look for a decoder that supports a colour format that we support.
*/
static bool
FindPreferredDecoderAndColorFormat(const sp<IOMX>& aOmx,
char *aDecoderName,
size_t aDecoderLen,
OMX_COLOR_FORMATTYPE *aColorFormat)
{
Vector<CodecCapabilities> codecs;
// Get all AVC decoder/colour format pairs that this device supports.
QueryCodecs(aOmx, AVC_MIME_TYPE, true /* queryDecoders */, &codecs);
// We assume that faster (hardware accelerated) decoders come first in the
// list, so we choose the first decoder with a colour format we can use.
for (uint32_t i = 0; i < codecs.size(); i++) {
const CodecCapabilities &caps = codecs[i];
const Vector<OMX_U32> &colors = caps.mColorFormats;
bool found = false;
for (uint32_t j = 0; j < colors.size(); j++) {
OMX_COLOR_FORMATTYPE color = (OMX_COLOR_FORMATTYPE)colors[j];
LOG("Decoder %s can output colour format %#x.\n",
caps.mComponentName.string(), color);
ColorFormatSupport supported = IsColorFormatSupported(color);
if (supported) {
strncpy(aDecoderName, caps.mComponentName.string(), aDecoderLen);
*aColorFormat = color;
found = true;
}
if (supported == ColorFormatSupportPreferred) {
// The colour format is natively supported -- that's as good as we're
// going to get.
break;
}
}
if (found) {
return true;
}
}
return false;
}
#endif
static sp<MediaSource> CreateVideoSource(PluginHost* aPluginHost,
const sp<IOMX>& aOmx,
const sp<MediaSource>& aVideoTrack)
{
uint32_t flags = GetVideoCreationFlags(aPluginHost);
char decoderName[MAX_DECODER_NAME_LEN] = "";
sp<MetaData> videoFormat = aVideoTrack->getFormat();
#if defined(MOZ_ANDROID_KK)
OMX_COLOR_FORMATTYPE colorFormat = (OMX_COLOR_FORMATTYPE)0;
if (FindPreferredDecoderAndColorFormat(aOmx,
decoderName, sizeof(decoderName),
&colorFormat)) {
// We found a colour format that we can handle. Tell OMXCodec to use it in
// case it isn't the default.
videoFormat->setInt32(kKeyColorFormat, colorFormat);
LOG("Found compatible decoder %s with colour format %#x.\n",
decoderName, colorFormat);
}
#endif
if (flags == DEFAULT_STAGEFRIGHT_FLAGS) {
// Let Stagefright choose hardware or software decoder.
sp<MediaSource> videoSource = OMXCodec::Create(aOmx, videoFormat,
false, aVideoTrack,
decoderName[0] ? decoderName : nullptr,
flags);
if (videoSource == nullptr)
return nullptr;
// Now that OMXCodec has parsed the video's AVCDecoderConfigurationRecord,
// check whether we know how to decode this video.
int32_t videoColorFormat;
if (videoSource->getFormat()->findInt32(kKeyColorFormat, &videoColorFormat)) {
if (IsColorFormatSupported((OMX_COLOR_FORMATTYPE)videoColorFormat)) {
return videoSource;
}
// We need to implement a ToVideoFrame_*() color conversion
// function for this video color format.
LOG("Unknown video color format: %#x", videoColorFormat);
} else {
LOG("Video color format not found");
}
// Throw away the videoSource and try again with new flags.
LOG("Falling back to software decoder");
videoSource.clear();
#if defined(MOZ_ANDROID_V2_X_X)
flags = DEFAULT_STAGEFRIGHT_FLAGS | OMXCodec::kPreferSoftwareCodecs;
#else
flags = DEFAULT_STAGEFRIGHT_FLAGS | OMXCodec::kSoftwareCodecsOnly;
#endif
}
MOZ_ASSERT(flags != DEFAULT_STAGEFRIGHT_FLAGS);
return OMXCodec::Create(aOmx, aVideoTrack->getFormat(), false, aVideoTrack,
nullptr, flags);
}
bool OmxDecoder::Init()
{
#if defined(MOZ_WIDGET_ANDROID)
// OMXClient::connect() always returns OK and aborts fatally if
// it can't connect. We may need to implement the connect functionality
// ourselves if this proves to be an issue.
if (!sClientInstance.IsValid()) {
LOG("OMXClient failed to connect");
return false;
}
#endif
//register sniffers, if they are not registered in this process.
DataSource::RegisterDefaultSniffers();
sp<DataSource> dataSource =
DataSource::CreateFromURI(static_cast<char*>(mDecoder->mResource));
if (!dataSource.get() || dataSource->initCheck()) {
return false;
}
sp<MediaExtractor> extractor = MediaExtractor::Create(dataSource);
if (extractor == nullptr) {
return false;
}
ssize_t audioTrackIndex = -1;
ssize_t videoTrackIndex = -1;
const char *audioMime = nullptr;
const char *videoMime = nullptr;
for (size_t i = 0; i < extractor->countTracks(); ++i) {
sp<MetaData> meta = extractor->getTrackMetaData(i);
const char *mime;
if (!meta->findCString(kKeyMIMEType, &mime)) {
continue;
}
if (videoTrackIndex == -1 && !strncasecmp(mime, "video/", 6)) {
videoTrackIndex = i;
videoMime = mime;
} else if (audioTrackIndex == -1 && !strncasecmp(mime, "audio/", 6)) {
audioTrackIndex = i;
audioMime = mime;
}
}
if (videoTrackIndex == -1 && audioTrackIndex == -1) {
return false;
}
int64_t totalDurationUs = 0;
#ifdef MOZ_WIDGET_GONK
sp<IOMX> omx = GetOMX();
#else
sp<IOMX> omx = sClientInstance.get()->interface();
#endif
sp<MediaSource> videoTrack;
sp<MediaSource> videoSource;
if (videoTrackIndex != -1 && (videoTrack = extractor->getTrack(videoTrackIndex)) != nullptr) {
#if defined(MOZ_ANDROID_FROYO)
// Allow up to 720P video.
sp<MetaData> meta = extractor->getTrackMetaData(videoTrackIndex);
meta->setInt32(kKeyMaxInputSize, (1280 * 720 * 3) / 2);
#endif
videoSource = CreateVideoSource(mPluginHost, omx, videoTrack);
if (videoSource == nullptr) {
LOG("OMXCodec failed to initialize video decoder for \"%s\"", videoMime);
return false;
}
status_t status = videoSource->start();
if (status != OK) {
LOG("videoSource->start() failed with status %#x", status);
return false;
}
int64_t durationUs;
if (videoTrack->getFormat()->findInt64(kKeyDuration, &durationUs)) {
if (durationUs < 0)
LOG("video duration %lld should be nonnegative", durationUs);
if (durationUs > totalDurationUs)
totalDurationUs = durationUs;
}
}
sp<MediaSource> audioTrack;
sp<MediaSource> audioSource;
if (audioTrackIndex != -1 && (audioTrack = extractor->getTrack(audioTrackIndex)) != nullptr)
{
if (!strcasecmp(audioMime, "audio/raw")) {
audioSource = audioTrack;
} else {
audioSource = OMXCodec::Create(omx,
audioTrack->getFormat(),
false, // decoder
audioTrack);
}
if (audioSource == nullptr) {
LOG("OMXCodec failed to initialize audio decoder for \"%s\"", audioMime);
return false;
}
status_t status = audioSource->start();
if (status != OK) {
LOG("audioSource->start() failed with status %#x", status);
return false;
}
int64_t durationUs;
if (audioTrack->getFormat()->findInt64(kKeyDuration, &durationUs)) {
if (durationUs < 0)
LOG("audio duration %lld should be nonnegative", durationUs);
if (durationUs > totalDurationUs)
totalDurationUs = durationUs;
}
}
// set decoder state
mVideoTrack = videoTrack;
mVideoSource = videoSource;
mAudioTrack = audioTrack;
mAudioSource = audioSource;
mDurationUs = totalDurationUs;
if (mVideoSource.get() && !SetVideoFormat())
return false;
// To reliably get the channel and sample rate data we need to read from the
// audio source until we get a INFO_FORMAT_CHANGE status
if (mAudioSource.get()) {
if (mAudioSource->read(&mAudioBuffer) != INFO_FORMAT_CHANGED) {
sp<MetaData> meta = mAudioSource->getFormat();
if (!meta->findInt32(kKeyChannelCount, &mAudioChannels) ||
!meta->findInt32(kKeySampleRate, &mAudioSampleRate)) {
return false;
}
mAudioMetadataRead = true;
if (mAudioChannels < 0) {
LOG("audio channel count %d must be nonnegative", mAudioChannels);
return false;
}
if (mAudioSampleRate < 0) {
LOG("audio sample rate %d must be nonnegative", mAudioSampleRate);
return false;
}
}
else if (!SetAudioFormat()) {
return false;
}
}
return true;
}
bool OmxDecoder::SetVideoFormat() {
sp<MetaData> format = mVideoSource->getFormat();
// Stagefright's kKeyWidth and kKeyHeight are what MPAPI calls stride and
// slice height. Stagefright only seems to use its kKeyStride and
// kKeySliceHeight to initialize camera video formats.
#if defined(DEBUG) && !defined(MOZ_ANDROID_FROYO)
int32_t unexpected;
if (format->findInt32(kKeyStride, &unexpected))
LOG("Expected kKeyWidth, but found kKeyStride %d", unexpected);
if (format->findInt32(kKeySliceHeight, &unexpected))
LOG("Expected kKeyHeight, but found kKeySliceHeight %d", unexpected);
#endif // DEBUG
const char *componentName;
if (!format->findInt32(kKeyWidth, &mVideoStride) ||
!format->findInt32(kKeyHeight, &mVideoSliceHeight) ||
!format->findCString(kKeyDecoderComponent, &componentName) ||
!format->findInt32(kKeyColorFormat, &mVideoColorFormat) ) {
return false;
}
if (mVideoStride <= 0) {
LOG("stride %d must be positive", mVideoStride);
return false;
}
if (mVideoSliceHeight <= 0) {
LOG("slice height %d must be positive", mVideoSliceHeight);
return false;
}
// Gingerbread does not support the kKeyCropRect key
#if !defined(MOZ_ANDROID_V2_X_X)
if (!format->findRect(kKeyCropRect, &mVideoCropLeft, &mVideoCropTop,
&mVideoCropRight, &mVideoCropBottom)) {
#endif
mVideoCropLeft = 0;
mVideoCropTop = 0;
mVideoCropRight = mVideoStride - 1;
mVideoCropBottom = mVideoSliceHeight - 1;
LOG("crop rect not available, assuming no cropping");
#if !defined(MOZ_ANDROID_V2_X_X)
}
#endif
if (mVideoCropLeft < 0 || mVideoCropLeft >= mVideoCropRight || mVideoCropRight >= mVideoStride ||
mVideoCropTop < 0 || mVideoCropTop >= mVideoCropBottom || mVideoCropBottom >= mVideoSliceHeight) {
LOG("invalid crop rect %d,%d-%d,%d", mVideoCropLeft, mVideoCropTop, mVideoCropRight, mVideoCropBottom);
return false;
}
mVideoWidth = mVideoCropRight - mVideoCropLeft + 1;
mVideoHeight = mVideoCropBottom - mVideoCropTop + 1;
MOZ_ASSERT(mVideoWidth > 0 && mVideoWidth <= mVideoStride);
MOZ_ASSERT(mVideoHeight > 0 && mVideoHeight <= mVideoSliceHeight);
#if !defined(MOZ_ANDROID_FROYO)
if (!format->findInt32(kKeyRotation, &mVideoRotation)) {
#endif
mVideoRotation = 0;
#if !defined(MOZ_ANDROID_FROYO)
LOG("rotation not available, assuming 0");
}
#endif
if (mVideoRotation != 0 && mVideoRotation != 90 &&
mVideoRotation != 180 && mVideoRotation != 270) {
LOG("invalid rotation %d, assuming 0", mVideoRotation);
}
LOG("width: %d height: %d component: %s format: %#x stride: %d sliceHeight: %d rotation: %d crop: %d,%d-%d,%d",
mVideoWidth, mVideoHeight, componentName, mVideoColorFormat,
mVideoStride, mVideoSliceHeight, mVideoRotation,
mVideoCropLeft, mVideoCropTop, mVideoCropRight, mVideoCropBottom);
return true;
}
bool OmxDecoder::SetAudioFormat() {
// If the format changed, update our cached info.
if (!mAudioSource->getFormat()->findInt32(kKeyChannelCount, &mAudioChannels) ||
!mAudioSource->getFormat()->findInt32(kKeySampleRate, &mAudioSampleRate)) {
return false;
}
LOG("channelCount: %d sampleRate: %d", mAudioChannels, mAudioSampleRate);
if (mAudioChannels < 0) {
LOG("audio channel count %d must be nonnegative", mAudioChannels);
return false;
}
if (mAudioSampleRate < 0) {
LOG("audio sample rate %d must be nonnegative", mAudioSampleRate);
return false;
}
return true;
}
void OmxDecoder::ReleaseVideoBuffer() {
if (mVideoBuffer) {
mVideoBuffer->release();
mVideoBuffer = nullptr;
}
}
void OmxDecoder::ReleaseAudioBuffer() {
if (mAudioBuffer) {
mAudioBuffer->release();
mAudioBuffer = nullptr;
}
}
void OmxDecoder::ToVideoFrame_YUV420Planar(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame) {
void *y = aData;
void *u = static_cast<uint8_t *>(y) + mVideoStride * mVideoSliceHeight;
void *v = static_cast<uint8_t *>(u) + mVideoStride/2 * mVideoSliceHeight/2;
aFrame->Set(aTimeUs, aKeyFrame,
aData, aSize, mVideoStride, mVideoSliceHeight, mVideoRotation,
y, mVideoStride, mVideoWidth, mVideoHeight, 0, 0,
u, mVideoStride/2, mVideoWidth/2, mVideoHeight/2, 0, 0,
v, mVideoStride/2, mVideoWidth/2, mVideoHeight/2, 0, 0);
}
void OmxDecoder::ToVideoFrame_CbYCrY(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame) {
aFrame->Set(aTimeUs, aKeyFrame,
aData, aSize, mVideoStride, mVideoSliceHeight, mVideoRotation,
aData, mVideoStride, mVideoWidth, mVideoHeight, 1, 1,
aData, mVideoStride, mVideoWidth/2, mVideoHeight/2, 0, 3,
aData, mVideoStride, mVideoWidth/2, mVideoHeight/2, 2, 3);
}
void OmxDecoder::ToVideoFrame_YUV420SemiPlanar(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame) {
int32_t videoStride = mVideoStride;
int32_t videoSliceHeight = mVideoSliceHeight;
// OMX.SEC.avcdec rounds mVideoStride and mVideoSliceHeight up to the nearest
// multiple of 16 but the data itself is too small to fit. What we do is check
// to see if the video size patches the raw width and height. If so we can
// use those figures instead.
if (static_cast<int>(aSize) == mVideoWidth * mVideoHeight * 3 / 2) {
videoStride = mVideoWidth;
videoSliceHeight = mVideoHeight;
}
void *y = aData;
void *uv = static_cast<uint8_t *>(y) + (videoStride * videoSliceHeight);
aFrame->Set(aTimeUs, aKeyFrame,
aData, aSize, videoStride, videoSliceHeight, mVideoRotation,
y, videoStride, mVideoWidth, mVideoHeight, 0, 0,
uv, videoStride, mVideoWidth/2, mVideoHeight/2, 0, 1,
uv, videoStride, mVideoWidth/2, mVideoHeight/2, 1, 1);
}
void OmxDecoder::ToVideoFrame_YVU420SemiPlanar(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame) {
ToVideoFrame_YUV420SemiPlanar(aFrame, aTimeUs, aData, aSize, aKeyFrame);
aFrame->Cb.mOffset = 1;
aFrame->Cr.mOffset = 0;
}
void OmxDecoder::ToVideoFrame_YUV420PackedSemiPlanar(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame) {
void *y = aData;
void *uv = static_cast<uint8_t *>(y) + mVideoStride * (mVideoSliceHeight - mVideoCropTop/2);
aFrame->Set(aTimeUs, aKeyFrame,
aData, aSize, mVideoStride, mVideoSliceHeight, mVideoRotation,
y, mVideoStride, mVideoWidth, mVideoHeight, 0, 0,
uv, mVideoStride, mVideoWidth/2, mVideoHeight/2, 0, 1,
uv, mVideoStride, mVideoWidth/2, mVideoHeight/2, 1, 1);
}
void OmxDecoder::ToVideoFrame_YVU420PackedSemiPlanar32m4ka(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame) {
size_t roundedSliceHeight = (mVideoSliceHeight + 31) & ~31;
size_t roundedStride = (mVideoStride + 31) & ~31;
void *y = aData;
void *uv = static_cast<uint8_t *>(y) + (roundedStride * roundedSliceHeight);
aFrame->Set(aTimeUs, aKeyFrame,
aData, aSize, mVideoStride, mVideoSliceHeight, mVideoRotation,
y, mVideoStride, mVideoWidth, mVideoHeight, 0, 0,
uv, mVideoStride, mVideoWidth/2, mVideoHeight/2, 1, 1,
uv, mVideoStride, mVideoWidth/2, mVideoHeight/2, 0, 1);
}
bool OmxDecoder::ToVideoFrame_RGB565(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame, BufferCallback *aBufferCallback) {
void *buffer = (*aBufferCallback)(mVideoWidth, mVideoHeight, MPAPI::RGB565);
if (!buffer) {
return false;
}
aFrame->mTimeUs = aTimeUs;
memcpy(buffer, aData, mVideoWidth * mVideoHeight * 2);
aFrame->mSize = mVideoWidth * mVideoHeight * 2;
return true;
}
bool OmxDecoder::ToVideoFrame_ColorConverter(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame, BufferCallback *aBufferCallback) {
#ifdef MOZ_ANDROID_HC
return false;
#else
if (!mColorConverter) {
mColorConverter = new ColorConverter((OMX_COLOR_FORMATTYPE)mVideoColorFormat,
OMX_COLOR_Format16bitRGB565);
}
if (!mColorConverter->isValid()) {
return false;
}
aFrame->mTimeUs = aTimeUs;
void *buffer = (*aBufferCallback)(mVideoWidth, mVideoHeight, MPAPI::RGB565);
if (!buffer) {
return false;
}
aFrame->mSize = mVideoWidth * mVideoHeight * 2;
#if defined(MOZ_ANDROID_V2_X_X)
mColorConverter->convert(mVideoWidth, mVideoHeight,
aData, 0 /* srcSkip */,
buffer, mVideoWidth * 2);
#else
mColorConverter->convert(aData, mVideoStride, mVideoSliceHeight,
mVideoCropLeft, mVideoCropTop,
mVideoCropLeft + mVideoWidth - 1,
mVideoCropTop + mVideoHeight - 1,
buffer, mVideoWidth, mVideoHeight,
0, 0, mVideoWidth - 1, mVideoHeight - 1);
#endif
return true;
#endif
}
bool OmxDecoder::ToVideoFrame_I420ColorConverter(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame, BufferCallback *aBufferCallback)
{
#if defined(MOZ_ANDROID_V4_OR_ABOVE)
I420ColorConverter yuvConverter;
if (!yuvConverter.isLoaded()) {
return false;
}
if (yuvConverter.getDecoderOutputFormat() != mVideoColorFormat) {
return false;
}
void *buffer = (*aBufferCallback)(mVideoWidth, mVideoHeight, MPAPI::I420);
ARect crop = { mVideoCropLeft, mVideoCropTop, mVideoCropRight, mVideoCropBottom };
int result = yuvConverter.convertDecoderOutputToI420(aData,
mVideoWidth,
mVideoHeight,
crop,
buffer);
// result is 0 on success, -1 otherwise.
if (result == OK) {
aFrame->mTimeUs = aTimeUs;
aFrame->mSize = mVideoWidth * mVideoHeight * 3 / 2;
}
return result == OK;
#else
return false;
#endif
}
bool OmxDecoder::ToVideoFrame(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame, BufferCallback *aBufferCallback) {
switch (mVideoColorFormat) {
// Froyo support is best handled with the android color conversion code. I
// get corrupted videos when using our own routines below.
#if !defined(MOZ_ANDROID_FROYO)
case OMX_COLOR_FormatYUV420Planar: // e.g. Asus Transformer, Stagefright's software decoder
ToVideoFrame_YUV420Planar(aFrame, aTimeUs, aData, aSize, aKeyFrame);
break;
case OMX_COLOR_FormatCbYCrY: // e.g. Droid 1
ToVideoFrame_CbYCrY(aFrame, aTimeUs, aData, aSize, aKeyFrame);
break;
case OMX_COLOR_FormatYUV420SemiPlanar: // e.g. Galaxy S III
ToVideoFrame_YUV420SemiPlanar(aFrame, aTimeUs, aData, aSize, aKeyFrame);
break;
case OMX_QCOM_COLOR_FormatYVU420SemiPlanar: // e.g. Nexus One
ToVideoFrame_YVU420SemiPlanar(aFrame, aTimeUs, aData, aSize, aKeyFrame);
break;
case OMX_QCOM_COLOR_FormatYVU420PackedSemiPlanar32m4ka: // e.g. Otoro
ToVideoFrame_YVU420PackedSemiPlanar32m4ka(aFrame, aTimeUs, aData, aSize, aKeyFrame);
break;
case OMX_TI_COLOR_FormatYUV420PackedSemiPlanar: // e.g. Galaxy Nexus
ToVideoFrame_YUV420PackedSemiPlanar(aFrame, aTimeUs, aData, aSize, aKeyFrame);
break;
case OMX_COLOR_Format16bitRGB565:
return ToVideoFrame_RGB565(aFrame, aTimeUs, aData, aSize, aKeyFrame, aBufferCallback);
break;
#endif
default:
if (!ToVideoFrame_ColorConverter(aFrame, aTimeUs, aData, aSize, aKeyFrame, aBufferCallback) &&
!ToVideoFrame_I420ColorConverter(aFrame, aTimeUs, aData, aSize, aKeyFrame, aBufferCallback)) {
LOG("Unknown video color format: %#x", mVideoColorFormat);
return false;
}
}
return true;
}
bool OmxDecoder::ToAudioFrame(AudioFrame *aFrame, int64_t aTimeUs, void *aData, size_t aDataOffset, size_t aSize, int32_t aAudioChannels, int32_t aAudioSampleRate)
{
aFrame->Set(aTimeUs, reinterpret_cast<char *>(aData) + aDataOffset, aSize, aAudioChannels, aAudioSampleRate);
return true;
}
class ReadOptions : public MediaSource::ReadOptions
{
// HTC have their own version of ReadOptions with extra fields. If we don't
// have this here, HTCOMXCodec will corrupt our stack.
uint32_t sadface[16];
};
bool OmxDecoder::ReadVideo(VideoFrame *aFrame, int64_t aSeekTimeUs,
BufferCallback *aBufferCallback)
{
MOZ_ASSERT(aSeekTimeUs >= -1);
if (!mVideoSource.get())
return false;
ReleaseVideoBuffer();
status_t err;
if (aSeekTimeUs != -1) {
ReadOptions options;
options.setSeekTo(aSeekTimeUs);
err = mVideoSource->read(&mVideoBuffer, &options);
} else {
err = mVideoSource->read(&mVideoBuffer);
}
aFrame->mSize = 0;
if (err == OK && mVideoBuffer->range_length() > 0) {
int64_t timeUs;
int32_t keyFrame;
if (!mVideoBuffer->meta_data()->findInt64(kKeyTime, &timeUs) ) {
LOG("no frame time");
return false;
}
if (timeUs < 0) {
LOG("frame time %lld must be nonnegative", timeUs);
return false;
}
if (!mVideoBuffer->meta_data()->findInt32(kKeyIsSyncFrame, &keyFrame)) {
keyFrame = 0;
}
char *data = reinterpret_cast<char *>(mVideoBuffer->data()) + mVideoBuffer->range_offset();
size_t length = mVideoBuffer->range_length();
if (!ToVideoFrame(aFrame, timeUs, data, length, keyFrame, aBufferCallback)) {
return false;
}
}
else if (err == INFO_FORMAT_CHANGED) {
// If the format changed, update our cached info.
LOG("mVideoSource INFO_FORMAT_CHANGED");
if (!SetVideoFormat())
return false;
else
return ReadVideo(aFrame, aSeekTimeUs, aBufferCallback);
}
else if (err == ERROR_END_OF_STREAM) {
LOG("mVideoSource END_OF_STREAM");
}
else if (err != OK) {
LOG("mVideoSource ERROR %#x", err);
}
return err == OK;
}
bool OmxDecoder::ReadAudio(AudioFrame *aFrame, int64_t aSeekTimeUs)
{
MOZ_ASSERT(aSeekTimeUs >= -1);
status_t err;
if (mAudioMetadataRead && aSeekTimeUs == -1) {
// Use the data read into the buffer during metadata time
err = OK;
}
else {
ReleaseAudioBuffer();
if (aSeekTimeUs != -1) {
ReadOptions options;
options.setSeekTo(aSeekTimeUs);
err = mAudioSource->read(&mAudioBuffer, &options);
} else {
err = mAudioSource->read(&mAudioBuffer);
}
}
mAudioMetadataRead = false;
aSeekTimeUs = -1;
if (err == OK && mAudioBuffer->range_length() != 0) {
int64_t timeUs;
if (!mAudioBuffer->meta_data()->findInt64(kKeyTime, &timeUs)) {
LOG("no frame time");
return false;
}
if (timeUs < 0) {
LOG("frame time %lld must be nonnegative", timeUs);
return false;
}
return ToAudioFrame(aFrame, timeUs,
mAudioBuffer->data(),
mAudioBuffer->range_offset(),
mAudioBuffer->range_length(),
mAudioChannels, mAudioSampleRate);
}
else if (err == INFO_FORMAT_CHANGED) {
// If the format changed, update our cached info.
LOG("mAudioSource INFO_FORMAT_CHANGED");
if (!SetAudioFormat())
return false;
else
return ReadAudio(aFrame, aSeekTimeUs);
}
else if (err == ERROR_END_OF_STREAM) {
LOG("mAudioSource END_OF_STREAM");
}
else if (err != OK) {
LOG("mAudioSource ERROR %#x", err);
}
return err == OK;
}
static OmxDecoder *cast(Decoder *decoder) {
return reinterpret_cast<OmxDecoder *>(decoder->mPrivate);
}
static void GetDuration(Decoder *aDecoder, int64_t *durationUs) {
cast(aDecoder)->GetDuration(durationUs);
}
static void GetVideoParameters(Decoder *aDecoder, int32_t *width, int32_t *height) {
cast(aDecoder)->GetVideoParameters(width, height);
}
static void GetAudioParameters(Decoder *aDecoder, int32_t *numChannels, int32_t *sampleRate) {
cast(aDecoder)->GetAudioParameters(numChannels, sampleRate);
}
static bool HasVideo(Decoder *aDecoder) {
return cast(aDecoder)->HasVideo();
}
static bool HasAudio(Decoder *aDecoder) {
return cast(aDecoder)->HasAudio();
}
static bool ReadVideo(Decoder *aDecoder, VideoFrame *aFrame, int64_t aSeekTimeUs, BufferCallback *aBufferCallback)
{
return cast(aDecoder)->ReadVideo(aFrame, aSeekTimeUs, aBufferCallback);
}
static bool ReadAudio(Decoder *aDecoder, AudioFrame *aFrame, int64_t aSeekTimeUs)
{
return cast(aDecoder)->ReadAudio(aFrame, aSeekTimeUs);
}
static void DestroyDecoder(Decoder *aDecoder)
{
if (aDecoder->mPrivate)
delete reinterpret_cast<OmxDecoder *>(aDecoder->mPrivate);
}
static bool Match(const char *aMimeChars, size_t aMimeLen, const char *aNeedle)
{
return !strncmp(aMimeChars, aNeedle, aMimeLen);
}
static const char* const gCodecs[] = {
"avc1.42E01E", // H.264 Constrained Baseline Profile Level 3.0
"avc1.42001E", // H.264 Baseline Profile Level 3.0
"avc1.42001F", // H.264 Baseline Profile Level 3.1
"avc1.4D401E", // H.264 Main Profile Level 3.0
"avc1.4D401F", // H.264 Main Profile Level 3.1
"mp4a.40.2", // AAC-LC
nullptr
};
static bool CanDecode(const char *aMimeChars, size_t aMimeLen, const char* const**aCodecs)
{
if (!Match(aMimeChars, aMimeLen, "video/mp4") &&
!Match(aMimeChars, aMimeLen, "audio/mp4") &&
!Match(aMimeChars, aMimeLen, "audio/mpeg") &&
!Match(aMimeChars, aMimeLen, "application/octet-stream")) { // file urls
return false;
}
*aCodecs = gCodecs;
return true;
}
static bool CreateDecoder(PluginHost *aPluginHost, Decoder *aDecoder, const char *aMimeChars, size_t aMimeLen)
{
OmxDecoder *omx = new OmxDecoder(aPluginHost, aDecoder);
if (!omx || !omx->Init()) {
if (omx)
delete omx;
return false;
}
aDecoder->mPrivate = omx;
aDecoder->GetDuration = GetDuration;
aDecoder->GetVideoParameters = GetVideoParameters;
aDecoder->GetAudioParameters = GetAudioParameters;
aDecoder->HasVideo = HasVideo;
aDecoder->HasAudio = HasAudio;
aDecoder->ReadVideo = ReadVideo;
aDecoder->ReadAudio = ReadAudio;
aDecoder->DestroyDecoder = DestroyDecoder;
return true;
}
} // namespace OmxPlugin
// Export the manifest so MPAPI can find our entry points.
Manifest MOZ_EXPORT MPAPI_MANIFEST = {
OmxPlugin::CanDecode,
OmxPlugin::CreateDecoder
};