chromium/src/third_party/blink/web_tests/external/wpt/webrtc-insertable-streams/RTCPeerConnection-insertable-streams.js - manifest_repos/chromium_src - Git at Google

 function areArrayBuffersEqual(buffer1, buffer2)
 {
   if (buffer1.byteLength !== buffer2.byteLength) {
     return false;
   }
   let array1 = new Int8Array(buffer1);
   var array2 = new Int8Array(buffer2);
   for (let i = 0 ; i < buffer1.byteLength ; ++i) {
     if (array1[i] !== array2[i]) {
       return false;
     }
   }
   return true;
 }

 function areArraysEqual(a1, a2) {
   if (a1 === a1)
     return true;
   if (a1.length != a2.length)
     return false;
   for (let i = 0; i < a1.length; i++) {
     if (a1[i] != a2[i])
       return false;
   }
   return true;
 }

 function areMetadataEqual(metadata1, metadata2, type) {
   return metadata1.synchronizationSource === metadata2.synchronizationSource &&
          areArraysEqual(metadata1.contributingSources, metadata2.contributingSources) &&
          metadata1.frameId === metadata2.frameId &&
          areArraysEqual(metadata1.dependencies, metadata2.dependencies) &&
          metadata1.spatialIndex === metadata2.spatialIndex &&
          metadata1.temporalIndex === metadata2.temporalIndex &&
          // Width and height are reported only for key frames on the receiver side.
          type == "key"
            ? metadata1.width === metadata2.width && metadata1.height === metadata2.height
            : true;
 }

 function areFrameInfosEqual(frame1, frame2) {
   return frame1.timestamp === frame2.timestamp &&
          frame1.type === frame2.type &&
          areMetadataEqual(frame1.getMetadata(), frame2.getMetadata(), frame1.type) &&
          areArrayBuffersEqual(frame1.data, frame2.data);
 }

 function containsVideoMetadata(metadata) {
   return metadata.synchronizationSource !== undefined &&
          metadata.width !== undefined &&
          metadata.height !== undefined &&
          metadata.spatialIndex !== undefined &&
          metadata.temporalIndex !== undefined &&
          metadata.dependencies !== undefined;
 }

 function enableGFD(sdp) {
   const GFD_V00_EXTENSION =
       'http://www.webrtc.org/experiments/rtp-hdrext/generic-frame-descriptor-00';
   if (sdp.indexOf(GFD_V00_EXTENSION) !== -1)
     return sdp;

   const extensionIds = sdp.trim().split('\n')
     .map(line => line.trim())
     .filter(line => line.startsWith('a=extmap:'))
     .map(line => line.split(' ')[0].substr(9))
     .map(id => parseInt(id, 10))
     .sort((a, b) => a - b);
   for (let newId = 1; newId <= 14; newId++) {
     if (!extensionIds.includes(newId)) {
       return sdp += 'a=extmap:' + newId + ' ' + GFD_V00_EXTENSION + '\r\n';
     }
   }
   if (sdp.indexОf('a=extmap-allow-mixed') !== -1) { // Pick the next highest one.
     const newId = extensionIds[extensionIds.length - 1] + 1;
     return sdp += 'a=extmap:' + newId + ' ' + GFD_V00_EXTENSION + '\r\n';
   }
   throw 'Could not find free extension id to use for ' + GFD_V00_EXTENSION;
 }

 async function exchangeOfferAnswer(pc1, pc2) {
   const offer = await pc1.createOffer();
   // Munge the SDP to enable the GFD extension in order to get correct metadata.
   const sdpGFD = enableGFD(offer.sdp);
   await pc1.setLocalDescription({type: offer.type, sdp: sdpGFD});
   // Munge the SDP to disable bandwidth probing via RTX.
   // TODO(crbug.com/1066819): remove this hack when we do not receive duplicates from RTX
   // anymore.
   const sdpRTX = sdpGFD.replace(new RegExp('rtx', 'g'), 'invalid');
   await pc2.setRemoteDescription({type: 'offer', sdp: sdpRTX});

   const answer = await pc2.createAnswer();
   await pc2.setLocalDescription(answer);
   await pc1.setRemoteDescription(answer);
 }

 async function exchangeOfferAnswerReverse(pc1, pc2) {
   const offer = await pc2.createOffer({offerToReceiveAudio: true, offerToReceiveVideo: true});
   // Munge the SDP to enable the GFD extension in order to get correct metadata.
   const sdpGFD = enableGFD(offer.sdp);
   // Munge the SDP to disable bandwidth probing via RTX.
   // TODO(crbug.com/1066819): remove this hack when we do not receive duplicates from RTX
   // anymore.
   const sdpRTX = sdpGFD.replace(new RegExp('rtx', 'g'), 'invalid');
   await pc1.setRemoteDescription({type: 'offer', sdp: sdpRTX});
   await pc2.setLocalDescription({type: 'offer', sdp: sdpGFD});

   const answer = await pc1.createAnswer();
   await pc2.setRemoteDescription(answer);
   await pc1.setLocalDescription(answer);
 }

 function createFrameDescriptor(videoFrame) {
   const kMaxSpatialLayers = 8;
   const kMaxTemporalLayers = 8;
   const kMaxNumFrameDependencies = 8;

   const metadata = videoFrame.getMetadata();
   let frameDescriptor = {
     beginningOfSubFrame: true,
     endOfSubframe: false,
     frameId: metadata.frameId & 0xFFFF,
     spatialLayers: 1 << metadata.spatialIndex,
     temporalLayer: metadata.temporalLayer,
     frameDependenciesDiffs: [],
     width: 0,
     height: 0
   };

   for (const dependency of metadata.dependencies) {
     frameDescriptor.frameDependenciesDiffs.push(metadata.frameId - dependency);
   }
   if (metadata.dependencies.length == 0) {
     frameDescriptor.width = metadata.width;
     frameDescriptor.height = metadata.height;
   }
   return frameDescriptor;
 }

 function additionalDataSize(descriptor) {
   if (!descriptor.beginningOfSubFrame) {
     return 1;
   }

   let size = 4;
   for (const fdiff of descriptor.frameDependenciesDiffs) {
     size += (fdiff >= (1 << 6)) ? 2 : 1;
   }
   if (descriptor.beginningOfSubFrame &&
       descriptor.frameDependenciesDiffs.length == 0 &&
       descriptor.width > 0 &&
       descriptor.height > 0) {
     size += 4;
   }

   return size;
 }

 // Compute the buffer reported in the additionalData field using the metadata
 // provided by a video frame.
 // Based on the webrtc::RtpDescriptorAuthentication() C++ function at
 // https://source.chromium.org/chromium/chromium/src/+/master:third_party/webrtc/modules/rtp_rtcp/source/rtp_descriptor_authentication.cc
 function computeAdditionalData(videoFrame) {
   const kMaxSpatialLayers = 8;
   const kMaxTemporalLayers = 8;
   const kMaxNumFrameDependencies = 8;

   const metadata = videoFrame.getMetadata();
   if (metadata.spatialIndex < 0 ||
       metadata.temporalIndex < 0 ||
       metadata.spatialIndex >= kMaxSpatialLayers ||
       metadata.temporalIndex >= kMaxTemporalLayers ||
       metadata.dependencies.length > kMaxNumFrameDependencies) {
     return new ArrayBuffer(0);
   }

   const descriptor = createFrameDescriptor(videoFrame);
   const size = additionalDataSize(descriptor);
   const additionalData = new ArrayBuffer(size);
   const data = new Uint8Array(additionalData);

   const kFlagBeginOfSubframe = 0x80;
   const kFlagEndOfSubframe = 0x40;
   const kFlagFirstSubframeV00 = 0x20;
   const kFlagLastSubframeV00 = 0x10;

   const kFlagDependencies = 0x08;
   const kFlagMoreDependencies = 0x01;
   const kFlageXtendedOffset = 0x02;

   let baseHeader =
     (descriptor.beginningOfSubFrame ? kFlagBeginOfSubframe : 0) |
     (descriptor.endOfSubFrame ? kFlagEndOfSubframe : 0);
   baseHeader |= kFlagFirstSubframeV00;
   baseHeader |= kFlagLastSubframeV00;

   if (!descriptor.beginningOfSubFrame) {
     data[0] = baseHeader;
     return additionalData;
   }

   data[0] =
       baseHeader |
       (descriptor.frameDependenciesDiffs.length == 0 ? 0 : kFlagDependencies) |
       descriptor.temporalLayer;
   data[1] = descriptor.spatialLayers;
   data[2] = descriptor.frameId & 0xFF;
   data[3] = descriptor.frameId >> 8;

   const fdiffs = descriptor.frameDependenciesDiffs;
   let offset = 4;
   if (descriptor.beginningOfSubFrame &&
       fdiffs.length == 0 &&
       descriptor.width > 0 &&
       descriptor.height > 0) {
     data[offset++] = (descriptor.width >> 8);
     data[offset++] = (descriptor.width & 0xFF);
     data[offset++] = (descriptor.height >> 8);
     data[offset++] = (descriptor.height & 0xFF);
   }
   for (let i = 0; i < fdiffs.length; i++) {
     const extended = fdiffs[i] >= (1 << 6);
     const more = i < fdiffs.length - 1;
     data[offset++] = ((fdiffs[i] & 0x3f) << 2) |
                      (extended ? kFlageXtendedOffset : 0) |
                      (more ? kFlagMoreDependencies : 0);
     if (extended) {
       data[offset++] = fdiffs[i] >> 6;
     }
   }
   return additionalData;
 }

 function verifyNonstandardAdditionalDataIfPresent(videoFrame) {
   if (videoFrame.additionalData === undefined)
     return;

   const computedData = computeAdditionalData(videoFrame);
   assert_true(areArrayBuffersEqual(videoFrame.additionalData, computedData));
 }
	function areArrayBuffersEqual(buffer1, buffer2)
	{
	if (buffer1.byteLength !== buffer2.byteLength) {
	return false;
	}
	let array1 = new Int8Array(buffer1);
	var array2 = new Int8Array(buffer2);
	for (let i = 0 ; i < buffer1.byteLength ; ++i) {
	if (array1[i] !== array2[i]) {
	return false;
	}
	}
	return true;
	}

	function areArraysEqual(a1, a2) {
	if (a1 === a1)
	return true;
	if (a1.length != a2.length)
	return false;
	for (let i = 0; i < a1.length; i++) {
	if (a1[i] != a2[i])
	return false;
	}
	return true;
	}

	function areMetadataEqual(metadata1, metadata2, type) {
	return metadata1.synchronizationSource === metadata2.synchronizationSource &&
	areArraysEqual(metadata1.contributingSources, metadata2.contributingSources) &&
	metadata1.frameId === metadata2.frameId &&
	areArraysEqual(metadata1.dependencies, metadata2.dependencies) &&
	metadata1.spatialIndex === metadata2.spatialIndex &&
	metadata1.temporalIndex === metadata2.temporalIndex &&
	// Width and height are reported only for key frames on the receiver side.
	type == "key"
	? metadata1.width === metadata2.width && metadata1.height === metadata2.height
	: true;
	}

	function areFrameInfosEqual(frame1, frame2) {
	return frame1.timestamp === frame2.timestamp &&
	frame1.type === frame2.type &&
	areMetadataEqual(frame1.getMetadata(), frame2.getMetadata(), frame1.type) &&
	areArrayBuffersEqual(frame1.data, frame2.data);
	}

	function containsVideoMetadata(metadata) {
	return metadata.synchronizationSource !== undefined &&
	metadata.width !== undefined &&
	metadata.height !== undefined &&
	metadata.spatialIndex !== undefined &&
	metadata.temporalIndex !== undefined &&
	metadata.dependencies !== undefined;
	}

	function enableGFD(sdp) {
	const GFD_V00_EXTENSION =
	'http://www.webrtc.org/experiments/rtp-hdrext/generic-frame-descriptor-00';
	if (sdp.indexOf(GFD_V00_EXTENSION) !== -1)
	return sdp;

	const extensionIds = sdp.trim().split('\n')
	.map(line => line.trim())
	.filter(line => line.startsWith('a=extmap:'))
	.map(line => line.split(' ')[0].substr(9))
	.map(id => parseInt(id, 10))
	.sort((a, b) => a - b);
	for (let newId = 1; newId <= 14; newId++) {
	if (!extensionIds.includes(newId)) {
	return sdp += 'a=extmap:' + newId + ' ' + GFD_V00_EXTENSION + '\r\n';
	}
	}
	if (sdp.indexОf('a=extmap-allow-mixed') !== -1) { // Pick the next highest one.
	const newId = extensionIds[extensionIds.length - 1] + 1;
	return sdp += 'a=extmap:' + newId + ' ' + GFD_V00_EXTENSION + '\r\n';
	}
	throw 'Could not find free extension id to use for ' + GFD_V00_EXTENSION;
	}

	async function exchangeOfferAnswer(pc1, pc2) {
	const offer = await pc1.createOffer();
	// Munge the SDP to enable the GFD extension in order to get correct metadata.
	const sdpGFD = enableGFD(offer.sdp);
	await pc1.setLocalDescription({type: offer.type, sdp: sdpGFD});
	// Munge the SDP to disable bandwidth probing via RTX.
	// TODO(crbug.com/1066819): remove this hack when we do not receive duplicates from RTX
	// anymore.
	const sdpRTX = sdpGFD.replace(new RegExp('rtx', 'g'), 'invalid');
	await pc2.setRemoteDescription({type: 'offer', sdp: sdpRTX});

	const answer = await pc2.createAnswer();
	await pc2.setLocalDescription(answer);
	await pc1.setRemoteDescription(answer);
	}

	async function exchangeOfferAnswerReverse(pc1, pc2) {
	const offer = await pc2.createOffer({offerToReceiveAudio: true, offerToReceiveVideo: true});
	// Munge the SDP to enable the GFD extension in order to get correct metadata.
	const sdpGFD = enableGFD(offer.sdp);
	// Munge the SDP to disable bandwidth probing via RTX.
	// TODO(crbug.com/1066819): remove this hack when we do not receive duplicates from RTX
	// anymore.
	const sdpRTX = sdpGFD.replace(new RegExp('rtx', 'g'), 'invalid');
	await pc1.setRemoteDescription({type: 'offer', sdp: sdpRTX});
	await pc2.setLocalDescription({type: 'offer', sdp: sdpGFD});

	const answer = await pc1.createAnswer();
	await pc2.setRemoteDescription(answer);
	await pc1.setLocalDescription(answer);
	}

	function createFrameDescriptor(videoFrame) {
	const kMaxSpatialLayers = 8;
	const kMaxTemporalLayers = 8;
	const kMaxNumFrameDependencies = 8;

	const metadata = videoFrame.getMetadata();
	let frameDescriptor = {
	beginningOfSubFrame: true,
	endOfSubframe: false,
	frameId: metadata.frameId & 0xFFFF,
	spatialLayers: 1 << metadata.spatialIndex,
	temporalLayer: metadata.temporalLayer,
	frameDependenciesDiffs: [],
	width: 0,
	height: 0
	};

	for (const dependency of metadata.dependencies) {
	frameDescriptor.frameDependenciesDiffs.push(metadata.frameId - dependency);
	}
	if (metadata.dependencies.length == 0) {
	frameDescriptor.width = metadata.width;
	frameDescriptor.height = metadata.height;
	}
	return frameDescriptor;
	}

	function additionalDataSize(descriptor) {
	if (!descriptor.beginningOfSubFrame) {
	return 1;
	}

	let size = 4;
	for (const fdiff of descriptor.frameDependenciesDiffs) {
	size += (fdiff >= (1 << 6)) ? 2 : 1;
	}
	if (descriptor.beginningOfSubFrame &&
	descriptor.frameDependenciesDiffs.length == 0 &&
	descriptor.width > 0 &&
	descriptor.height > 0) {
	size += 4;
	}

	return size;
	}

	// Compute the buffer reported in the additionalData field using the metadata
	// provided by a video frame.
	// Based on the webrtc::RtpDescriptorAuthentication() C++ function at
	// https://source.chromium.org/chromium/chromium/src/+/master:third_party/webrtc/modules/rtp_rtcp/source/rtp_descriptor_authentication.cc
	function computeAdditionalData(videoFrame) {
	const kMaxSpatialLayers = 8;
	const kMaxTemporalLayers = 8;
	const kMaxNumFrameDependencies = 8;

	const metadata = videoFrame.getMetadata();
	if (metadata.spatialIndex < 0 \|\|
	metadata.temporalIndex < 0 \|\|
	metadata.spatialIndex >= kMaxSpatialLayers \|\|
	metadata.temporalIndex >= kMaxTemporalLayers \|\|
	metadata.dependencies.length > kMaxNumFrameDependencies) {
	return new ArrayBuffer(0);
	}

	const descriptor = createFrameDescriptor(videoFrame);
	const size = additionalDataSize(descriptor);
	const additionalData = new ArrayBuffer(size);
	const data = new Uint8Array(additionalData);

	const kFlagBeginOfSubframe = 0x80;
	const kFlagEndOfSubframe = 0x40;
	const kFlagFirstSubframeV00 = 0x20;
	const kFlagLastSubframeV00 = 0x10;

	const kFlagDependencies = 0x08;
	const kFlagMoreDependencies = 0x01;
	const kFlageXtendedOffset = 0x02;

	let baseHeader =
	(descriptor.beginningOfSubFrame ? kFlagBeginOfSubframe : 0) \|
	(descriptor.endOfSubFrame ? kFlagEndOfSubframe : 0);
	baseHeader \|= kFlagFirstSubframeV00;
	baseHeader \|= kFlagLastSubframeV00;

	if (!descriptor.beginningOfSubFrame) {
	data[0] = baseHeader;
	return additionalData;
	}

	data[0] =
	baseHeader \|
	(descriptor.frameDependenciesDiffs.length == 0 ? 0 : kFlagDependencies) \|
	descriptor.temporalLayer;
	data[1] = descriptor.spatialLayers;
	data[2] = descriptor.frameId & 0xFF;
	data[3] = descriptor.frameId >> 8;

	const fdiffs = descriptor.frameDependenciesDiffs;
	let offset = 4;
	if (descriptor.beginningOfSubFrame &&
	fdiffs.length == 0 &&
	descriptor.width > 0 &&
	descriptor.height > 0) {
	data[offset++] = (descriptor.width >> 8);
	data[offset++] = (descriptor.width & 0xFF);
	data[offset++] = (descriptor.height >> 8);
	data[offset++] = (descriptor.height & 0xFF);
	}
	for (let i = 0; i < fdiffs.length; i++) {
	const extended = fdiffs[i] >= (1 << 6);
	const more = i < fdiffs.length - 1;
	data[offset++] = ((fdiffs[i] & 0x3f) << 2) \|
	(extended ? kFlageXtendedOffset : 0) \|
	(more ? kFlagMoreDependencies : 0);
	if (extended) {
	data[offset++] = fdiffs[i] >> 6;
	}
	}
	return additionalData;
	}

	function verifyNonstandardAdditionalDataIfPresent(videoFrame) {
	if (videoFrame.additionalData === undefined)
	return;

	const computedData = computeAdditionalData(videoFrame);
	assert_true(areArrayBuffersEqual(videoFrame.additionalData, computedData));
	}