gecko-dev/media/omx-plugin/OmxPlugin.cpp
Edwin Flores 29e0ef6a32 Bug 963621 - Stop passing kClientNeedsFramebuffer into Qualcomm OMXCodec r=doublec
Qualcomm's OMXCodec implementation interprets the kClientNeedsFramebuffer flag
to mean that we only want a thumbnail. Thus, it returns only one frame and then
returns EOS.

This patch adds a Qualcomm-specific hack to not pass their decoder this flag.
2014-01-28 17:31:00 +13:00

1133 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;
#ifndef MOZ_WIDGET_GONK
OMXClient mClient;
#endif
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);
};
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
#ifndef MOZ_WIDGET_GONK
mClient.disconnect();
#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 (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 = (OMX_COLOR_FORMATTYPE)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() {
//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
// OMXClient::connect() always returns OK and abort's fatally if
// it can't connect. We may need to implement the connect functionality
// ourselves if this proves to be an issue.
if (mClient.connect() != OK) {
LOG("OMXClient failed to connect");
}
sp<IOMX> omx = mClient.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 (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[4];
};
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
};