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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* 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 "MediaEngineRemoteVideoSource.h"
#include "CamerasChild.h"
#include "MediaManager.h"
#include "MediaTrackConstraints.h"
#include "mozilla/dom/MediaTrackSettingsBinding.h"
#include "mozilla/ErrorNames.h"
#include "mozilla/gfx/Point.h"
#include "mozilla/RefPtr.h"
#include "PerformanceRecorder.h"
#include "Tracing.h"
#include "VideoFrameUtils.h"
#include "VideoUtils.h"
#include "ImageContainer.h"
#include "common_video/include/video_frame_buffer.h"
#include "common_video/libyuv/include/webrtc_libyuv.h"
namespace mozilla {
extern LazyLogModule gMediaManagerLog;
#define LOG(...) MOZ_LOG(gMediaManagerLog, LogLevel::Debug, (__VA_ARGS__))
#define LOG_FRAME(...) \
MOZ_LOG(gMediaManagerLog, LogLevel::Verbose, (__VA_ARGS__))
using dom::ConstrainLongRange;
using dom::MediaSourceEnum;
using dom::MediaTrackConstraints;
using dom::MediaTrackConstraintSet;
using dom::MediaTrackSettings;
using dom::VideoFacingModeEnum;
/* static */
camera::CaptureEngine MediaEngineRemoteVideoSource::CaptureEngine(
MediaSourceEnum aMediaSource) {
switch (aMediaSource) {
case MediaSourceEnum::Browser:
return camera::BrowserEngine;
case MediaSourceEnum::Camera:
return camera::CameraEngine;
case MediaSourceEnum::Screen:
return camera::ScreenEngine;
case MediaSourceEnum::Window:
return camera::WinEngine;
default:
MOZ_CRASH();
}
}
static Maybe<VideoFacingModeEnum> GetFacingMode(const nsString& aDeviceName) {
// Set facing mode based on device name.
#if defined(ANDROID)
// Names are generated. Example: "Camera 0, Facing back, Orientation 90"
//
// See media/webrtc/trunk/webrtc/modules/video_capture/android/java/src/org/
// webrtc/videoengine/VideoCaptureDeviceInfoAndroid.java
if (aDeviceName.Find(u"Facing back"_ns) != kNotFound) {
return Some(VideoFacingModeEnum::Environment);
}
if (aDeviceName.Find(u"Facing front"_ns) != kNotFound) {
return Some(VideoFacingModeEnum::User);
}
#endif // ANDROID
#ifdef XP_MACOSX
// Kludge to test user-facing cameras on OSX.
if (aDeviceName.Find(u"Face"_ns) != -1) {
return Some(VideoFacingModeEnum::User);
}
#endif
#ifdef XP_WIN
// The cameras' name of Surface book are "Microsoft Camera Front" and
// "Microsoft Camera Rear" respectively.
if (aDeviceName.Find(u"Front"_ns) != kNotFound) {
return Some(VideoFacingModeEnum::User);
}
if (aDeviceName.Find(u"Rear"_ns) != kNotFound) {
return Some(VideoFacingModeEnum::Environment);
}
#endif // WINDOWS
return Nothing();
}
MediaEngineRemoteVideoSource::MediaEngineRemoteVideoSource(
const MediaDevice* aMediaDevice)
: mCapEngine(CaptureEngine(aMediaDevice->mMediaSource)),
mTrackingId(CaptureEngineToTrackingSourceStr(mCapEngine), 0),
mMutex("MediaEngineRemoteVideoSource::mMutex"),
mRescalingBufferPool(/* zero_initialize */ false,
/* max_number_of_buffers */ 1),
mSettingsUpdatedByFrame(MakeAndAddRef<media::Refcountable<AtomicBool>>()),
mSettings(MakeAndAddRef<media::Refcountable<MediaTrackSettings>>()),
mFirstFramePromise(mFirstFramePromiseHolder.Ensure(__func__)),
mMediaDevice(aMediaDevice),
mDeviceUUID(NS_ConvertUTF16toUTF8(aMediaDevice->mRawID)) {
LOG("%s", __PRETTY_FUNCTION__);
mSettings->mWidth.Construct(0);
mSettings->mHeight.Construct(0);
mSettings->mFrameRate.Construct(0);
if (mCapEngine == camera::CameraEngine) {
// Only cameras can have a facing mode.
Maybe<VideoFacingModeEnum> facingMode =
GetFacingMode(mMediaDevice->mRawName);
if (facingMode.isSome()) {
NS_ConvertASCIItoUTF16 facingString(
dom::VideoFacingModeEnumValues::GetString(*facingMode));
mSettings->mFacingMode.Construct(facingString);
mFacingMode.emplace(facingString);
}
}
}
MediaEngineRemoteVideoSource::~MediaEngineRemoteVideoSource() {
mFirstFramePromiseHolder.RejectIfExists(NS_ERROR_ABORT, __func__);
}
nsresult MediaEngineRemoteVideoSource::Allocate(
const MediaTrackConstraints& aConstraints, const MediaEnginePrefs& aPrefs,
uint64_t aWindowID, const char** aOutBadConstraint) {
LOG("%s", __PRETTY_FUNCTION__);
AssertIsOnOwningThread();
MOZ_ASSERT(mState == kReleased);
NormalizedConstraints constraints(aConstraints);
webrtc::CaptureCapability newCapability;
LOG("ChooseCapability(kFitness) for mCapability (Allocate) ++");
if (!ChooseCapability(constraints, aPrefs, newCapability, kFitness)) {
*aOutBadConstraint =
MediaConstraintsHelper::FindBadConstraint(constraints, mMediaDevice);
return NS_ERROR_FAILURE;
}
LOG("ChooseCapability(kFitness) for mCapability (Allocate) --");
mCaptureId =
camera::GetChildAndCall(&camera::CamerasChild::AllocateCapture,
mCapEngine, mDeviceUUID.get(), aWindowID);
if (mCaptureId < 0) {
return NS_ERROR_FAILURE;
}
{
MutexAutoLock lock(mMutex);
mState = kAllocated;
mCapability = newCapability;
mTrackingId =
TrackingId(CaptureEngineToTrackingSourceStr(mCapEngine), mCaptureId);
}
LOG("Video device %d allocated", mCaptureId);
return NS_OK;
}
nsresult MediaEngineRemoteVideoSource::Deallocate() {
LOG("%s", __PRETTY_FUNCTION__);
AssertIsOnOwningThread();
MOZ_ASSERT(mState == kStopped || mState == kAllocated);
if (mTrack) {
mTrack->End();
}
{
MutexAutoLock lock(mMutex);
mTrack = nullptr;
mPrincipal = PRINCIPAL_HANDLE_NONE;
mState = kReleased;
}
// Stop() has stopped capture synchronously on the media thread before we get
// here, so there are no longer any callbacks on an IPC thread accessing
// mImageContainer or mRescalingBufferPool.
mImageContainer = nullptr;
mRescalingBufferPool.Release();
LOG("Video device %d deallocated", mCaptureId);
if (camera::GetChildAndCall(&camera::CamerasChild::ReleaseCapture, mCapEngine,
mCaptureId)) {
MOZ_ASSERT_UNREACHABLE("Couldn't release allocated device");
}
return NS_OK;
}
void MediaEngineRemoteVideoSource::SetTrack(const RefPtr<MediaTrack>& aTrack,
const PrincipalHandle& aPrincipal) {
LOG("%s", __PRETTY_FUNCTION__);
AssertIsOnOwningThread();
MOZ_ASSERT(mState == kAllocated);
MOZ_ASSERT(!mTrack);
MOZ_ASSERT(aTrack);
MOZ_ASSERT(aTrack->AsSourceTrack());
if (!mImageContainer) {
mImageContainer = MakeAndAddRef<layers::ImageContainer>(
layers::ImageContainer::ASYNCHRONOUS);
}
{
MutexAutoLock lock(mMutex);
mTrack = aTrack->AsSourceTrack();
mPrincipal = aPrincipal;
}
}
nsresult MediaEngineRemoteVideoSource::Start() {
LOG("%s", __PRETTY_FUNCTION__);
AssertIsOnOwningThread();
MOZ_ASSERT(mState == kAllocated || mState == kStopped);
MOZ_ASSERT(mTrack);
{
MutexAutoLock lock(mMutex);
mState = kStarted;
}
mSettingsUpdatedByFrame->mValue = false;
if (camera::GetChildAndCall(&camera::CamerasChild::StartCapture, mCapEngine,
mCaptureId, mCapability, this)) {
LOG("StartCapture failed");
MutexAutoLock lock(mMutex);
mState = kStopped;
return NS_ERROR_FAILURE;
}
NS_DispatchToMainThread(NS_NewRunnableFunction(
"MediaEngineRemoteVideoSource::SetLastCapability",
[settings = mSettings, updated = mSettingsUpdatedByFrame,
capEngine = mCapEngine, cap = mCapability]() mutable {
switch (capEngine) {
case camera::ScreenEngine:
case camera::WinEngine:
// Undo the hack where ideal and max constraints are crammed
// together in mCapability for consumption by low-level code. We
// don't actually know the real resolution yet, so report min(ideal,
// max) for now.
// TODO: This can be removed in bug 1453269.
cap.width = std::min(cap.width >> 16, cap.width & 0xffff);
cap.height = std::min(cap.height >> 16, cap.height & 0xffff);
break;
default:
break;
}
if (!updated->mValue) {
settings->mWidth.Value() = cap.width;
settings->mHeight.Value() = cap.height;
}
settings->mFrameRate.Value() = cap.maxFPS;
}));
return NS_OK;
}
nsresult MediaEngineRemoteVideoSource::FocusOnSelectedSource() {
LOG("%s", __PRETTY_FUNCTION__);
AssertIsOnOwningThread();
int result;
result = camera::GetChildAndCall(&camera::CamerasChild::FocusOnSelectedSource,
mCapEngine, mCaptureId);
return result == 0 ? NS_OK : NS_ERROR_FAILURE;
}
nsresult MediaEngineRemoteVideoSource::Stop() {
LOG("%s", __PRETTY_FUNCTION__);
AssertIsOnOwningThread();
if (mState == kStopped || mState == kAllocated) {
return NS_OK;
}
MOZ_ASSERT(mState == kStarted);
if (camera::GetChildAndCall(&camera::CamerasChild::StopCapture, mCapEngine,
mCaptureId)) {
MOZ_DIAGNOSTIC_ASSERT(false, "Stopping a started capture failed");
return NS_ERROR_FAILURE;
}
{
MutexAutoLock lock(mMutex);
mState = kStopped;
}
return NS_OK;
}
nsresult MediaEngineRemoteVideoSource::Reconfigure(
const MediaTrackConstraints& aConstraints, const MediaEnginePrefs& aPrefs,
const char** aOutBadConstraint) {
LOG("%s", __PRETTY_FUNCTION__);
AssertIsOnOwningThread();
NormalizedConstraints constraints(aConstraints);
webrtc::CaptureCapability newCapability;
LOG("ChooseCapability(kFitness) for mTargetCapability (Reconfigure) ++");
if (!ChooseCapability(constraints, aPrefs, newCapability, kFitness)) {
*aOutBadConstraint =
MediaConstraintsHelper::FindBadConstraint(constraints, mMediaDevice);
return NS_ERROR_INVALID_ARG;
}
LOG("ChooseCapability(kFitness) for mTargetCapability (Reconfigure) --");
if (mCapability == newCapability) {
return NS_OK;
}
bool started = mState == kStarted;
if (started) {
nsresult rv = Stop();
if (NS_WARN_IF(NS_FAILED(rv))) {
nsAutoCString name;
GetErrorName(rv, name);
LOG("Video source %p for video device %d Reconfigure() failed "
"unexpectedly in Stop(). rv=%s",
this, mCaptureId, name.Data());
return NS_ERROR_UNEXPECTED;
}
}
{
MutexAutoLock lock(mMutex);
// Start() applies mCapability on the device.
mCapability = newCapability;
}
if (started) {
nsresult rv = Start();
if (NS_WARN_IF(NS_FAILED(rv))) {
nsAutoCString name;
GetErrorName(rv, name);
LOG("Video source %p for video device %d Reconfigure() failed "
"unexpectedly in Start(). rv=%s",
this, mCaptureId, name.Data());
return NS_ERROR_UNEXPECTED;
}
}
return NS_OK;
}
size_t MediaEngineRemoteVideoSource::NumCapabilities() const {
AssertIsOnOwningThread();
if (!mCapabilities.IsEmpty()) {
return mCapabilities.Length();
}
int num = camera::GetChildAndCall(&camera::CamerasChild::NumberOfCapabilities,
mCapEngine, mDeviceUUID.get());
if (num > 0) {
mCapabilities.SetLength(num);
} else {
// The default for devices that don't return discrete capabilities: treat
// them as supporting all capabilities orthogonally. E.g. screensharing.
// CaptureCapability defaults key values to 0, which means accept any value.
mCapabilities.AppendElement(MakeUnique<webrtc::CaptureCapability>());
mCapabilitiesAreHardcoded = true;
}
return mCapabilities.Length();
}
webrtc::CaptureCapability& MediaEngineRemoteVideoSource::GetCapability(
size_t aIndex) const {
AssertIsOnOwningThread();
MOZ_RELEASE_ASSERT(aIndex < mCapabilities.Length());
if (!mCapabilities[aIndex]) {
mCapabilities[aIndex] = MakeUnique<webrtc::CaptureCapability>();
camera::GetChildAndCall(&camera::CamerasChild::GetCaptureCapability,
mCapEngine, mDeviceUUID.get(), aIndex,
mCapabilities[aIndex].get());
}
return *mCapabilities[aIndex];
}
const TrackingId& MediaEngineRemoteVideoSource::GetTrackingId() const {
AssertIsOnOwningThread();
MOZ_ASSERT(mState != kReleased);
return mTrackingId;
}
int MediaEngineRemoteVideoSource::DeliverFrame(
uint8_t* aBuffer, const camera::VideoFrameProperties& aProps) {
// Cameras IPC thread - take great care with accessing members!
Maybe<int32_t> req_max_width;
Maybe<int32_t> req_max_height;
Maybe<int32_t> req_ideal_width;
Maybe<int32_t> req_ideal_height;
{
MutexAutoLock lock(mMutex);
MOZ_ASSERT(mState == kStarted);
// TODO: These can be removed in bug 1453269.
const int32_t max_width = mCapability.width & 0xffff;
const int32_t max_height = mCapability.height & 0xffff;
const int32_t ideal_width = (mCapability.width >> 16) & 0xffff;
const int32_t ideal_height = (mCapability.height >> 16) & 0xffff;
req_max_width = max_width ? Some(max_width) : Nothing();
req_max_height = max_height ? Some(max_height) : Nothing();
req_ideal_width = ideal_width ? Some(ideal_width) : Nothing();
req_ideal_height = ideal_height ? Some(ideal_height) : Nothing();
if (!mFrameDeliveringTrackingId) {
mFrameDeliveringTrackingId = Some(mTrackingId);
}
}
// This is only used in the case of screen sharing, see bug 1453269.
if (aProps.rotation() == 90 || aProps.rotation() == 270) {
// This frame is rotated, so what was negotiated as width is now height,
// and vice versa.
std::swap(req_max_width, req_max_height);
std::swap(req_ideal_width, req_ideal_height);
}
int32_t dst_max_width =
std::min(aProps.width(), req_max_width.valueOr(aProps.width()));
int32_t dst_max_height =
std::min(aProps.height(), req_max_height.valueOr(aProps.height()));
// This logic works for both camera and screen sharing case.
// for camera case, req_ideal_width and req_ideal_height are absent.
int32_t dst_width = req_ideal_width.valueOr(aProps.width());
int32_t dst_height = req_ideal_height.valueOr(aProps.height());
if (!req_ideal_width && req_ideal_height) {
dst_width = *req_ideal_height * aProps.width() / aProps.height();
} else if (!req_ideal_height && req_ideal_width) {
dst_height = *req_ideal_width * aProps.height() / aProps.width();
}
dst_width = std::min(dst_width, dst_max_width);
dst_height = std::min(dst_height, dst_max_height);
// Apply scaling for screen sharing, see bug 1453269.
switch (mCapEngine) {
case camera::ScreenEngine:
case camera::WinEngine: {
// scale to average of portrait and landscape
float scale_width = (float)dst_width / (float)aProps.width();
float scale_height = (float)dst_height / (float)aProps.height();
float scale = (scale_width + scale_height) / 2;
// If both req_ideal_width & req_ideal_height are absent, scale is 1, but
// if one is present and the other not, scale precisely to the one present
if (!req_ideal_width) {
scale = scale_height;
} else if (!req_ideal_height) {
scale = scale_width;
}
dst_width = int32_t(scale * (float)aProps.width());
dst_height = int32_t(scale * (float)aProps.height());
// if scaled rectangle exceeds max rectangle, scale to minimum of portrait
// and landscape
if (dst_width > dst_max_width || dst_height > dst_max_height) {
scale_width = (float)dst_max_width / (float)dst_width;
scale_height = (float)dst_max_height / (float)dst_height;
scale = std::min(scale_width, scale_height);
dst_width = int32_t(scale * dst_width);
dst_height = int32_t(scale * dst_height);
}
break;
}
default: {
break;
}
}
// Ensure width and height are at least two. Smaller frames can lead to
// problems with scaling and video encoding.
dst_width = std::max(2, dst_width);
dst_height = std::max(2, dst_height);
std::function<void()> callback_unused = []() {};
rtc::scoped_refptr<webrtc::I420BufferInterface> buffer =
webrtc::WrapI420Buffer(
aProps.width(), aProps.height(), aBuffer, aProps.yStride(),
aBuffer + aProps.yAllocatedSize(), aProps.uStride(),
aBuffer + aProps.yAllocatedSize() + aProps.uAllocatedSize(),
aProps.vStride(), callback_unused);
if ((dst_width != aProps.width() || dst_height != aProps.height()) &&
dst_width <= aProps.width() && dst_height <= aProps.height()) {
PerformanceRecorder<CopyVideoStage> rec("MERVS::CropAndScale"_ns,
*mFrameDeliveringTrackingId,
dst_width, dst_height);
// Destination resolution is smaller than source buffer. We'll rescale.
rtc::scoped_refptr<webrtc::I420Buffer> scaledBuffer =
mRescalingBufferPool.CreateI420Buffer(dst_width, dst_height);
if (!scaledBuffer) {
MOZ_ASSERT_UNREACHABLE(
"We might fail to allocate a buffer, but with this "
"being a recycling pool that shouldn't happen");
return 0;
}
scaledBuffer->CropAndScaleFrom(*buffer);
buffer = scaledBuffer;
rec.Record();
}
layers::PlanarYCbCrData data;
data.mYChannel = const_cast<uint8_t*>(buffer->DataY());
data.mYStride = buffer->StrideY();
MOZ_ASSERT(buffer->StrideU() == buffer->StrideV());
data.mCbCrStride = buffer->StrideU();
data.mCbChannel = const_cast<uint8_t*>(buffer->DataU());
data.mCrChannel = const_cast<uint8_t*>(buffer->DataV());
data.mPictureRect = gfx::IntRect(0, 0, buffer->width(), buffer->height());
data.mYUVColorSpace = gfx::YUVColorSpace::BT601;
data.mChromaSubsampling = gfx::ChromaSubsampling::HALF_WIDTH_AND_HEIGHT;
RefPtr<layers::PlanarYCbCrImage> image;
{
PerformanceRecorder<CopyVideoStage> rec(
"MERVS::Copy"_ns, *mFrameDeliveringTrackingId, dst_width, dst_height);
image = mImageContainer->CreatePlanarYCbCrImage();
if (!image->CopyData(data)) {
MOZ_ASSERT_UNREACHABLE(
"We might fail to allocate a buffer, but with this "
"being a recycling container that shouldn't happen");
return 0;
}
rec.Record();
}
#ifdef DEBUG
static uint32_t frame_num = 0;
LOG_FRAME(
"frame %d (%dx%d)->(%dx%d); rotation %d, timeStamp %u, ntpTimeMs %" PRIu64
", renderTimeMs %" PRIu64,
frame_num++, aProps.width(), aProps.height(), dst_width, dst_height,
aProps.rotation(), aProps.timeStamp(), aProps.ntpTimeMs(),
aProps.renderTimeMs());
#endif
if (mImageSize.width != dst_width || mImageSize.height != dst_height) {
NS_DispatchToMainThread(NS_NewRunnableFunction(
"MediaEngineRemoteVideoSource::FrameSizeChange",
[settings = mSettings, updated = mSettingsUpdatedByFrame,
holder = std::move(mFirstFramePromiseHolder), dst_width,
dst_height]() mutable {
settings->mWidth.Value() = dst_width;
settings->mHeight.Value() = dst_height;
updated->mValue = true;
// Since mImageSize was initialized to (0,0), we end up here on the
// arrival of the first frame. We resolve the promise representing
// arrival of first frame, after correct settings values have been
// made available (Resolve() is idempotent if already resolved).
holder.ResolveIfExists(true, __func__);
}));
}
{
MutexAutoLock lock(mMutex);
MOZ_ASSERT(mState == kStarted);
VideoSegment segment;
mImageSize = image->GetSize();
segment.AppendFrame(image.forget(), mImageSize, mPrincipal);
mTrack->AppendData(&segment);
}
return 0;
}
uint32_t MediaEngineRemoteVideoSource::GetDistance(
const webrtc::CaptureCapability& aCandidate,
const NormalizedConstraintSet& aConstraints,
const DistanceCalculation aCalculate) const {
if (aCalculate == kFeasibility) {
return GetFeasibilityDistance(aCandidate, aConstraints);
}
return GetFitnessDistance(aCandidate, aConstraints);
}
uint32_t MediaEngineRemoteVideoSource::GetFitnessDistance(
const webrtc::CaptureCapability& aCandidate,
const NormalizedConstraintSet& aConstraints) const {
AssertIsOnOwningThread();
// Treat width|height|frameRate == 0 on capability as "can do any".
// This allows for orthogonal capabilities that are not in discrete steps.
typedef MediaConstraintsHelper H;
uint64_t distance =
uint64_t(H::FitnessDistance(mFacingMode, aConstraints.mFacingMode)) +
uint64_t(aCandidate.width ? H::FitnessDistance(int32_t(aCandidate.width),
aConstraints.mWidth)
: 0) +
uint64_t(aCandidate.height
? H::FitnessDistance(int32_t(aCandidate.height),
aConstraints.mHeight)
: 0) +
uint64_t(aCandidate.maxFPS ? H::FitnessDistance(double(aCandidate.maxFPS),
aConstraints.mFrameRate)
: 0);
return uint32_t(std::min(distance, uint64_t(UINT32_MAX)));
}
uint32_t MediaEngineRemoteVideoSource::GetFeasibilityDistance(
const webrtc::CaptureCapability& aCandidate,
const NormalizedConstraintSet& aConstraints) const {
AssertIsOnOwningThread();
// Treat width|height|frameRate == 0 on capability as "can do any".
// This allows for orthogonal capabilities that are not in discrete steps.
typedef MediaConstraintsHelper H;
uint64_t distance =
uint64_t(H::FitnessDistance(mFacingMode, aConstraints.mFacingMode)) +
uint64_t(aCandidate.width
? H::FeasibilityDistance(int32_t(aCandidate.width),
aConstraints.mWidth)
: 0) +
uint64_t(aCandidate.height
? H::FeasibilityDistance(int32_t(aCandidate.height),
aConstraints.mHeight)
: 0) +
uint64_t(aCandidate.maxFPS
? H::FeasibilityDistance(double(aCandidate.maxFPS),
aConstraints.mFrameRate)
: 0);
return uint32_t(std::min(distance, uint64_t(UINT32_MAX)));
}
// Find best capability by removing inferiors. May leave >1 of equal distance
/* static */
void MediaEngineRemoteVideoSource::TrimLessFitCandidates(
nsTArray<CapabilityCandidate>& aSet) {
uint32_t best = UINT32_MAX;
for (auto& candidate : aSet) {
if (best > candidate.mDistance) {
best = candidate.mDistance;
}
}
aSet.RemoveElementsBy(
[best](const auto& set) { return set.mDistance > best; });
MOZ_ASSERT(aSet.Length());
}
uint32_t MediaEngineRemoteVideoSource::GetBestFitnessDistance(
const nsTArray<const NormalizedConstraintSet*>& aConstraintSets) const {
AssertIsOnOwningThread();
size_t num = NumCapabilities();
nsTArray<CapabilityCandidate> candidateSet;
for (size_t i = 0; i < num; i++) {
candidateSet.AppendElement(CapabilityCandidate(GetCapability(i)));
}
bool first = true;
for (const NormalizedConstraintSet* ns : aConstraintSets) {
for (size_t i = 0; i < candidateSet.Length();) {
auto& candidate = candidateSet[i];
uint32_t distance = GetFitnessDistance(candidate.mCapability, *ns);
if (distance == UINT32_MAX) {
candidateSet.RemoveElementAt(i);
} else {
++i;
if (first) {
candidate.mDistance = distance;
}
}
}
first = false;
}
if (!candidateSet.Length()) {
return UINT32_MAX;
}
TrimLessFitCandidates(candidateSet);
return candidateSet[0].mDistance;
}
static const char* ConvertVideoTypeToCStr(webrtc::VideoType aType) {
switch (aType) {
case webrtc::VideoType::kI420:
return "I420";
case webrtc::VideoType::kIYUV:
case webrtc::VideoType::kYV12:
return "YV12";
case webrtc::VideoType::kRGB24:
return "24BG";
case webrtc::VideoType::kABGR:
return "ABGR";
case webrtc::VideoType::kARGB:
return "ARGB";
case webrtc::VideoType::kARGB4444:
return "R444";
case webrtc::VideoType::kRGB565:
return "RGBP";
case webrtc::VideoType::kARGB1555:
return "RGBO";
case webrtc::VideoType::kYUY2:
return "YUY2";
case webrtc::VideoType::kUYVY:
return "UYVY";
case webrtc::VideoType::kMJPEG:
return "MJPG";
case webrtc::VideoType::kNV21:
return "NV21";
case webrtc::VideoType::kNV12:
return "NV12";
case webrtc::VideoType::kBGRA:
return "BGRA";
case webrtc::VideoType::kUnknown:
default:
return "unknown";
}
}
static void LogCapability(const char* aHeader,
const webrtc::CaptureCapability& aCapability,
uint32_t aDistance) {
LOG("%s: %4u x %4u x %2u maxFps, %s. Distance = %" PRIu32, aHeader,
aCapability.width, aCapability.height, aCapability.maxFPS,
ConvertVideoTypeToCStr(aCapability.videoType), aDistance);
}
bool MediaEngineRemoteVideoSource::ChooseCapability(
const NormalizedConstraints& aConstraints, const MediaEnginePrefs& aPrefs,
webrtc::CaptureCapability& aCapability,
const DistanceCalculation aCalculate) {
LOG("%s", __PRETTY_FUNCTION__);
AssertIsOnOwningThread();
if (MOZ_LOG_TEST(gMediaManagerLog, LogLevel::Debug)) {
LOG("ChooseCapability: prefs: %dx%d @%dfps", aPrefs.GetWidth(),
aPrefs.GetHeight(), aPrefs.mFPS);
MediaConstraintsHelper::LogConstraints(aConstraints);
if (!aConstraints.mAdvanced.empty()) {
LOG("Advanced array[%zu]:", aConstraints.mAdvanced.size());
for (auto& advanced : aConstraints.mAdvanced) {
MediaConstraintsHelper::LogConstraints(advanced);
}
}
}
switch (mCapEngine) {
case camera::ScreenEngine:
case camera::WinEngine: {
FlattenedConstraints c(aConstraints);
// The actual resolution to constrain around is not easy to find ahead of
// time (and may in fact change over time), so as a hack, we push ideal
// and max constraints down to desktop_capture_impl.cc and finish the
// algorithm there.
// TODO: This can be removed in bug 1453269.
aCapability.width =
(std::min(0xffff, c.mWidth.mIdeal.valueOr(0)) & 0xffff) << 16 |
(std::min(0xffff, c.mWidth.mMax) & 0xffff);
aCapability.height =
(std::min(0xffff, c.mHeight.mIdeal.valueOr(0)) & 0xffff) << 16 |
(std::min(0xffff, c.mHeight.mMax) & 0xffff);
aCapability.maxFPS =
c.mFrameRate.Clamp(c.mFrameRate.mIdeal.valueOr(aPrefs.mFPS));
return true;
}
case camera::BrowserEngine: {
FlattenedConstraints c(aConstraints);
aCapability.maxFPS =
c.mFrameRate.Clamp(c.mFrameRate.mIdeal.valueOr(aPrefs.mFPS));
return true;
}
default:
break;
}
nsTArray<CapabilityCandidate> candidateSet;
size_t num = NumCapabilities();
for (size_t i = 0; i < num; i++) {
candidateSet.AppendElement(CapabilityCandidate(GetCapability(i)));
}
if (mCapabilitiesAreHardcoded && mCapEngine == camera::CameraEngine) {
// We have a hardcoded capability, which means this camera didn't report
// discrete capabilities. It might still allow a ranged capability, so we
// add a couple of default candidates based on prefs and constraints.
// The chosen candidate will be propagated to StartCapture() which will fail
// for an invalid candidate.
MOZ_DIAGNOSTIC_ASSERT(mCapabilities.Length() == 1);
MOZ_DIAGNOSTIC_ASSERT(candidateSet.Length() == 1);
candidateSet.Clear();
FlattenedConstraints c(aConstraints);
// Reuse the code across both the low-definition (`false`) pref and
// the high-definition (`true`) pref.
// If there are constraints we try to satisfy them but we default to prefs.
// Note that since constraints are from content and can literally be
// anything we put (rather generous) caps on them.
for (bool isHd : {false, true}) {
webrtc::CaptureCapability cap;
int32_t prefWidth = aPrefs.GetWidth(isHd);
int32_t prefHeight = aPrefs.GetHeight(isHd);
cap.width = c.mWidth.Get(prefWidth);
cap.width = std::max(0, std::min(cap.width, 7680));
cap.height = c.mHeight.Get(prefHeight);
cap.height = std::max(0, std::min(cap.height, 4320));
cap.maxFPS = c.mFrameRate.Get(aPrefs.mFPS);
cap.maxFPS = std::max(0, std::min(cap.maxFPS, 480));
if (cap.width != prefWidth) {
// Width was affected by constraints.
// We'll adjust the height too so the aspect ratio is retained.
cap.height = cap.width * prefHeight / prefWidth;
} else if (cap.height != prefHeight) {
// Height was affected by constraints but not width.
// We'll adjust the width too so the aspect ratio is retained.
cap.width = cap.height * prefWidth / prefHeight;
}
if (candidateSet.Contains(cap, CapabilityComparator())) {
continue;
}
LogCapability("Hardcoded capability", cap, 0);
candidateSet.AppendElement(cap);
}
}
// First, filter capabilities by required constraints (min, max, exact).
for (size_t i = 0; i < candidateSet.Length();) {
auto& candidate = candidateSet[i];
candidate.mDistance =
GetDistance(candidate.mCapability, aConstraints, aCalculate);
LogCapability("Capability", candidate.mCapability, candidate.mDistance);
if (candidate.mDistance == UINT32_MAX) {
candidateSet.RemoveElementAt(i);
} else {
++i;
}
}
if (candidateSet.IsEmpty()) {
LOG("failed to find capability match from %zu choices",
candidateSet.Length());
return false;
}
// Filter further with all advanced constraints (that don't overconstrain).
for (const auto& cs : aConstraints.mAdvanced) {
nsTArray<CapabilityCandidate> rejects;
for (size_t i = 0; i < candidateSet.Length();) {
if (GetDistance(candidateSet[i].mCapability, cs, aCalculate) ==
UINT32_MAX) {
rejects.AppendElement(candidateSet[i]);
candidateSet.RemoveElementAt(i);
} else {
++i;
}
}
if (!candidateSet.Length()) {
candidateSet.AppendElements(std::move(rejects));
}
}
MOZ_ASSERT(
candidateSet.Length(),
"advanced constraints filtering step can't reduce candidates to zero");
// Remaining algorithm is up to the UA.
TrimLessFitCandidates(candidateSet);
// Any remaining multiples all have the same distance. A common case of this
// occurs when no ideal is specified. Lean toward defaults.
uint32_t sameDistance = candidateSet[0].mDistance;
{
MediaTrackConstraintSet prefs;
prefs.mWidth.Construct().SetAsLong() = aPrefs.GetWidth();
prefs.mHeight.Construct().SetAsLong() = aPrefs.GetHeight();
prefs.mFrameRate.Construct().SetAsDouble() = aPrefs.mFPS;
NormalizedConstraintSet normPrefs(prefs, false);
for (auto& candidate : candidateSet) {
candidate.mDistance =
GetDistance(candidate.mCapability, normPrefs, aCalculate);
}
TrimLessFitCandidates(candidateSet);
}
aCapability = candidateSet[0].mCapability;
LogCapability("Chosen capability", aCapability, sameDistance);
return true;
}
void MediaEngineRemoteVideoSource::GetSettings(
MediaTrackSettings& aOutSettings) const {
aOutSettings = *mSettings;
}
} // namespace mozilla
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