segment-parser.js
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(function(window) {
var
videojs = window.videojs,
FlvTag = videojs.hls.FlvTag,
H264Stream = videojs.hls.H264Stream,
AacStream = videojs.hls.AacStream,
m2tsPacketSize = 188;
console.assert(H264Stream);
console.assert(AacStream);
window.videojs.hls.SegmentParser = function() {
var
self = this,
parseTSPacket,
pmtPid,
streamBuffer = new Uint8Array(m2tsPacketSize),
streamBufferByteCount = 0,
videoPid,
h264Stream = new H264Stream(),
audioPid,
aacStream = new AacStream(),
seekToKeyFrame = false;
// For information on the FLV format, see
// http://download.macromedia.com/f4v/video_file_format_spec_v10_1.pdf.
// Technically, this function returns the header and a metadata FLV tag
// if duration is greater than zero
// duration in seconds
// @return {object} the bytes of the FLV header as a Uint8Array
self.getFlvHeader = function(duration, audio, video) { // :ByteArray {
var
headBytes = new Uint8Array(3 + 1 + 1 + 4),
head = new DataView(headBytes.buffer),
metadata,
result;
// default arguments
duration = duration || 0;
audio = audio === undefined? true : audio;
video = video === undefined? true : video;
// signature
head.setUint8(0, 0x46); // 'F'
head.setUint8(1, 0x4c); // 'L'
head.setUint8(2, 0x56); // 'V'
// version
head.setUint8(3, 0x01);
// flags
head.setUint8(4, (audio ? 0x04 : 0x00) | (video ? 0x01 : 0x00));
// data offset, should be 9 for FLV v1
head.setUint32(5, headBytes.byteLength);
// init the first FLV tag
if (duration <= 0) {
// no duration available so just write the first field of the first
// FLV tag
result = new Uint8Array(headBytes.byteLength + 4);
result.set(headBytes);
result.set([0, 0, 0, 0], headBytes.byteLength);
return result;
}
// write out the duration metadata tag
metadata = new FlvTag(FlvTag.METADATA_TAG);
metadata.pts = metadata.dts = 0;
metadata.writeMetaDataDouble("duration", duration);
result = new Uint8Array(headBytes.byteLength + metadata.byteLength);
result.set(head);
result.set(head.bytesLength, metadata.finalize());
return result;
};
self.flushTags = function() {
h264Stream.finishFrame();
};
self.doSeek = function() {
self.flushTags();
aacStream.tags.length = 0;
h264Stream.tags.length = 0;
seekToKeyFrame = true;
};
self.tagsAvailable = function() { // :int {
var i, pts; // :uint
if (seekToKeyFrame) {
for (i = 0 ; i < h264Stream.tags.length && seekToKeyFrame; ++i) {
if (h264Stream.tags[i].keyFrame) {
seekToKeyFrame = false; // We found, a keyframe, stop seeking
}
}
if (seekToKeyFrame) {
// we didnt find a keyframe. yet
h264Stream.tags.length = 0;
return 0;
}
// TODO we MAY need to use dts, not pts
h264Stream.tags = h264Stream.tags.slice(i);
pts = h264Stream.tags[0].pts;
// Remove any audio before the found keyframe
while( 0 < aacStream.tags.length && pts > aacStream.tags[0].pts ) {
aacStream.tags.shift();
}
}
return h264Stream.tags.length + aacStream.tags.length;
};
self.getNextTag = function() { // :ByteArray {
var tag; // :FlvTag; // return tags in approximate dts order
if (0 === self.tagsAvailable()) {
throw new Error("getNextTag() called when 0 == tagsAvailable()");
}
if (0 < h264Stream.tags.length) {
if (0 < aacStream.tags.length && aacStream.tags[0].dts < h264Stream.tags[0].dts) {
tag = aacStream.tags.shift();
} else {
tag = h264Stream.tags.shift();
}
} else if ( 0 < aacStream.tags.length ) {
tag = aacStream.tags.shift();
} else {
// We dont have any tags available to return
return new Uint8Array();
}
return tag.finalize();
};
self.parseSegmentBinaryData = function(data) { // :ByteArray) {
var
dataPosition = 0,
dataSlice;
// To avoid an extra copy, we will stash overflow data, and only
// reconstruct the first packet. The rest of the packets will be
// parsed directly from data
if (streamBufferByteCount > 0) {
if (data.byteLength + streamBufferByteCount < m2tsPacketSize) {
// the current data is less than a single m2ts packet, so stash it
// until we receive more
// ?? this seems to append streamBuffer onto data and then just give up. I'm not sure why that would be interesting.
videojs.log('data.length + streamBuffer.length < m2tsPacketSize ??');
streamBuffer.readBytes(data, data.length, streamBuffer.length);
return;
} else {
// we have enough data for an m2ts packet
// process it immediately
dataSlice = data.subarray(0, m2tsPacketSize - streamBufferByteCount);
streamBuffer.set(dataSlice, streamBufferByteCount);
parseTSPacket(streamBuffer);
// reset the buffer
streamBuffer = new Uint8Array(m2tsPacketSize);
streamBufferByteCount = 0;
}
}
while (true) {
// Make sure we are TS aligned
while(dataPosition < data.byteLength && data[dataPosition] !== 0x47) {
// If there is no sync byte skip forward until we find one
// TODO if we find a sync byte, look 188 bytes in the future (if
// possible). If there is not a sync byte there, keep looking
dataPosition++;
}
// base case: not enough data to parse a m2ts packet
if (data.byteLength - dataPosition < m2tsPacketSize) {
if (data.byteLength - dataPosition > 0) {
// there are bytes remaining, save them for next time
streamBuffer.set(data.subarray(dataPosition),
streamBufferByteCount);
streamBufferByteCount += data.byteLength - dataPosition;
}
return;
}
// attempt to parse a m2ts packet
if (parseTSPacket(data.subarray(dataPosition, dataPosition + m2tsPacketSize))) {
dataPosition += m2tsPacketSize;
} else {
// If there was an error parsing a TS packet. it could be
// because we are not TS packet aligned. Step one forward by
// one byte and allow the code above to find the next
videojs.log('error parsing m2ts packet, attempting to re-align');
dataPosition++;
}
}
};
// TODO add more testing to make sure we dont walk past the end of a TS
// packet!
parseTSPacket = function(data) { // :ByteArray):Boolean {
var
offset = 0, // :uint
end = offset + m2tsPacketSize, // :uint
// Don't look for a sync byte. We handle that in
// parseSegmentBinaryData()
// Payload Unit Start Indicator
pusi = !!(data[offset + 1] & 0x40), // mask: 0100 0000
// PacketId
pid = (data[offset + 1] & 0x1F) << 8 | data[offset + 2], // mask: 0001 1111
afflag = (data[offset + 3] & 0x30 ) >>> 4,
aflen, // :uint
patTableId, // :int
patCurrentNextIndicator, // Boolean
patSectionLength, // :uint
pesPacketSize, // :int,
dataAlignmentIndicator, // :Boolean,
ptsDtsIndicator, // :int
pesHeaderLength, // :int
pts, // :uint
dts, // :uint
pmtTableId, // :int
pmtCurrentNextIndicator, // :Boolean
pmtSectionLength, // :uint
streamType, // :int
elementaryPID, // :int
ESInfolength; // :int
// Continuity Counter we could use this for sanity check, and
// corrupt stream detection
// cc = (data[offset + 3] & 0x0F);
// Done with TS header
offset += 4;
if (afflag > 0x01) { // skip most of the adaption field
aflen = data[offset];
offset += aflen + 1;
}
if (0x0000 === pid) {
// always test for PMT first! (becuse other variables default to 0)
// if pusi is set we must skip X bytes (PSI pointer field)
offset += pusi ? 1 + data[offset] : 0;
patTableId = data[offset];
console.assert(0x00 === patTableId, 'patTableId should be 0x00');
patCurrentNextIndicator = !!(data[offset + 5] & 0x01);
if (patCurrentNextIndicator) {
patSectionLength = (data[offset + 1] & 0x0F) << 8 | data[offset + 2];
offset += 8; // skip past PSI header
// We currently only support streams with 1 program
patSectionLength = (patSectionLength - 9) / 4;
if (1 !== patSectionLength) {
throw new Error("TS has more that 1 program");
}
// if we ever support more that 1 program (unlikely) loop over them here
// var programNumber = data[offset + 0] << 8 | data[offset + 1];
// var programId = (data[offset+2] & 0x1F) << 8 | data[offset + 3];
pmtPid = (data[offset + 2] & 0x1F) << 8 | data[offset + 3];
}
// We could test the CRC here to detect corruption with extra CPU cost
} else if (videoPid === pid || audioPid === pid) {
if (pusi) {
// comment out for speed
if (0x00 !== data[offset + 0] || 0x00 !== data[offset + 1] || 0x01 !== data[offset + 2]) {
// look for PES start code
throw new Error("PES did not begin with start code");
}
// var sid:int = data[offset+3]; // StreamID
pesPacketSize = (data[offset + 4] << 8) | data[offset + 5];
dataAlignmentIndicator = (data[offset + 6] & 0x04) !== 0;
ptsDtsIndicator = data[offset + 7];
pesHeaderLength = data[offset + 8]; // TODO sanity check header length
offset += 9; // Skip past PES header
// PTS and DTS are normially stored as a 33 bit number.
// JavaScript does not have a integer type larger than 32 bit
// BUT, we need to convert from 90ns to 1ms time scale anyway.
// so what we are going to do instead, is drop the least
// significant bit (the same as dividing by two) then we can
// divide by 45 (45 * 2 = 90) to get ms.
if (ptsDtsIndicator & 0xC0) {
// the PTS and DTS are not written out directly. For information on
// how they are encoded, see
// http://dvd.sourceforge.net/dvdinfo/pes-hdr.html
pts = (data[offset + 0] & 0x0E) << 28
| (data[offset + 1] & 0xFF) << 21
| (data[offset + 2] & 0xFE) << 13
| (data[offset + 3] & 0xFF) << 6
| (data[offset + 4] & 0xFE) >>> 2;
pts /= 45;
dts = pts;
if (ptsDtsIndicator & 0x40) {// DTS
dts = (data[offset + 5] & 0x0E ) << 28
| (data[offset + 6] & 0xFF ) << 21
| (data[offset + 7] & 0xFE ) << 13
| (data[offset + 8] & 0xFF ) << 6
| (data[offset + 9] & 0xFE ) >>> 2;
dts /= 45;
}
}
// Skip past "optional" portion of PTS header
offset += pesHeaderLength;
if (videoPid === pid) {
// Stash this frame for future use.
// console.assert(videoFrames.length < 3);
h264Stream.setNextTimeStamp(pts,
dts,
dataAlignmentIndicator);
} else if (audioPid === pid) {
aacStream.setNextTimeStamp(pts,
pesPacketSize,
dataAlignmentIndicator);
}
}
if (audioPid === pid) {
aacStream.writeBytes(data, offset, end - offset);
} else if (videoPid === pid) {
h264Stream.writeBytes(data, offset, end - offset);
}
} else if (pmtPid === pid) {
// TODO sanity check data[offset]
// if pusi is set we must skip X bytes (PSI pointer field)
offset += (pusi ? 1 + data[offset] : 0);
pmtTableId = data[offset];
console.assert(0x02 === pmtTableId);
pmtCurrentNextIndicator = !!(data[offset + 5] & 0x01);
if (pmtCurrentNextIndicator) {
audioPid = videoPid = 0;
pmtSectionLength = (data[offset + 1] & 0x0F) << 8 | data[offset + 2];
// skip CRC and PSI data we dont care about
pmtSectionLength -= 13;
offset += 12; // skip past PSI header and some PMT data
while (0 < pmtSectionLength) {
streamType = data[offset + 0];
elementaryPID = (data[offset + 1] & 0x1F) << 8 | data[offset + 2];
ESInfolength = (data[offset + 3] & 0x0F) << 8 | data[offset + 4];
offset += 5 + ESInfolength;
pmtSectionLength -= 5 + ESInfolength;
if (0x1B === streamType) {
if (0 !== videoPid) {
throw new Error("Program has more than 1 video stream");
}
videoPid = elementaryPID;
} else if (0x0F === streamType) {
if (0 !== audioPid) {
throw new Error("Program has more than 1 audio Stream");
}
audioPid = elementaryPID;
}
// TODO add support for MP3 audio
}
}
// We could test the CRC here to detect corruption with extra CPU cost
} else if (0x0011 === pid) {
// Service Description Table
} else if (0x1FFF === pid) {
// NULL packet
} else {
videojs.log("Unknown PID parsing TS packet: " + pid);
}
return true;
};
self.getTags = function() {
return h264Stream.tags;
};
self.stats = {
h264Tags: function() {
return h264Stream.tags.length;
},
aacTags: function() {
return aacStream.tags.length;
}
};
};
})(window);