/*! * Copyright (c) 2026-present, Vanilagy and contributors * * 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 https://mozilla.org/MPL/2.0/. */ import { aacChannelMap, aacFrequencyTable } from '../../shared/aac-misc'; import { AudioCodec } from '../codec'; import { Demuxer } from '../demuxer'; import { ID3_V2_HEADER_SIZE, parseId3V2Tag, readId3V2Header, } from '../id3'; import { Input } from '../input'; import { InputAudioTrackBacking } from '../input-track'; import { PacketRetrievalOptions } from '../media-sink'; import { DEFAULT_TRACK_DISPOSITION, MetadataTags } from '../metadata'; import { assert, AsyncMutex, binarySearchExact, binarySearchLessOrEqual, UNDETERMINED_LANGUAGE, } from '../misc'; import { EncodedPacket, PLACEHOLDER_DATA } from '../packet'; import { readBytes, Reader } from '../reader'; import { AdtsFrameHeader, MIN_ADTS_FRAME_HEADER_SIZE, MAX_ADTS_FRAME_HEADER_SIZE, readAdtsFrameHeader, } from './adts-reader'; export const SAMPLES_PER_AAC_FRAME = 1024; type Sample = { timestamp: number; duration: number; dataStart: number; dataSize: number; }; export class AdtsDemuxer extends Demuxer { reader: Reader; metadataPromise: Promise | null = null; firstFrameHeader: AdtsFrameHeader | null = null; loadedSamples: Sample[] = []; metadataTags: MetadataTags | null = null; trackBackings: AdtsAudioTrackBacking[] = []; readingMutex = new AsyncMutex(); lastSampleLoaded = false; lastLoadedPos = 0; nextTimestampInSamples = 0; constructor(input: Input) { super(input); this.reader = input._reader; } async readMetadata() { return this.metadataPromise ??= (async () => { // Keep loading until we find the first frame header while (!this.firstFrameHeader && !this.lastSampleLoaded) { await this.advanceReader(); } // There has to be a frame if this demuxer got selected assert(this.firstFrameHeader); // Create the single audio track this.trackBackings = [new AdtsAudioTrackBacking(this)]; })(); } async advanceReader() { if (this.lastLoadedPos === 0) { // Skip all ID3v2 tags at the start of the file while (true) { let slice = this.reader.requestSlice(this.lastLoadedPos, ID3_V2_HEADER_SIZE); if (slice instanceof Promise) slice = await slice; if (!slice) { this.lastSampleLoaded = true; return; } const id3V2Header = readId3V2Header(slice); if (!id3V2Header) { break; } this.lastLoadedPos = slice.filePos + id3V2Header.size; } } let slice = this.reader.requestSliceRange( this.lastLoadedPos, MIN_ADTS_FRAME_HEADER_SIZE, MAX_ADTS_FRAME_HEADER_SIZE, ); if (slice instanceof Promise) slice = await slice; if (!slice) { this.lastSampleLoaded = true; return; } const header = readAdtsFrameHeader(slice); if (!header) { this.lastSampleLoaded = true; return; } if (this.reader.fileSize !== null && header.startPos + header.frameLength > this.reader.fileSize) { // Frame doesn't fit in the rest of the file this.lastSampleLoaded = true; return; } if (!this.firstFrameHeader) { this.firstFrameHeader = header; } const sampleRate = aacFrequencyTable[header.samplingFrequencyIndex]; assert(sampleRate !== undefined); const sampleDuration = SAMPLES_PER_AAC_FRAME / sampleRate; const sample: Sample = { timestamp: this.nextTimestampInSamples / sampleRate, duration: sampleDuration, dataStart: header.startPos, dataSize: header.frameLength, }; this.loadedSamples.push(sample); this.nextTimestampInSamples += SAMPLES_PER_AAC_FRAME; this.lastLoadedPos = header.startPos + header.frameLength; } async getMimeType() { return 'audio/aac'; } async getTrackBackings() { await this.readMetadata(); return this.trackBackings; } async getMetadataTags() { const release = await this.readingMutex.acquire(); try { await this.readMetadata(); if (this.metadataTags) { return this.metadataTags; } this.metadataTags = {}; let currentPos = 0; while (true) { let headerSlice = this.reader.requestSlice(currentPos, ID3_V2_HEADER_SIZE); if (headerSlice instanceof Promise) headerSlice = await headerSlice; if (!headerSlice) break; const id3V2Header = readId3V2Header(headerSlice); if (!id3V2Header) { break; } let contentSlice = this.reader.requestSlice(headerSlice.filePos, id3V2Header.size); if (contentSlice instanceof Promise) contentSlice = await contentSlice; if (!contentSlice) break; parseId3V2Tag(contentSlice, id3V2Header, this.metadataTags); currentPos = headerSlice.filePos + id3V2Header.size; } return this.metadataTags; } finally { release(); } } } class AdtsAudioTrackBacking implements InputAudioTrackBacking { constructor(public demuxer: AdtsDemuxer) {} getType() { return 'audio' as const; } getId() { return 1; } getNumber() { return 1; } getTimeResolution() { const sampleRate = this.getSampleRate(); return sampleRate / SAMPLES_PER_AAC_FRAME; } isRelativeToUnixEpoch() { return false; } getPairingMask() { return 1n; } getBitrate() { return null; } getAverageBitrate() { return null; } async getDurationFromMetadata() { return null; // No way } async getLiveRefreshInterval() { return null; } getName() { return null; } getLanguageCode() { return UNDETERMINED_LANGUAGE; } getCodec(): AudioCodec { return 'aac'; } getInternalCodecId() { assert(this.demuxer.firstFrameHeader); return this.demuxer.firstFrameHeader.objectType; } getNumberOfChannels() { assert(this.demuxer.firstFrameHeader); const numberOfChannels = aacChannelMap[this.demuxer.firstFrameHeader.channelConfiguration]; assert(numberOfChannels !== undefined); return numberOfChannels; } getSampleRate() { assert(this.demuxer.firstFrameHeader); const sampleRate = aacFrequencyTable[this.demuxer.firstFrameHeader.samplingFrequencyIndex]; assert(sampleRate !== undefined); return sampleRate; } getDisposition() { return { ...DEFAULT_TRACK_DISPOSITION, }; } async getDecoderConfig(): Promise { assert(this.demuxer.firstFrameHeader); return { codec: `mp4a.40.${this.demuxer.firstFrameHeader.objectType}`, numberOfChannels: this.getNumberOfChannels(), sampleRate: this.getSampleRate(), }; } async getPacketAtIndex(sampleIndex: number, options: PacketRetrievalOptions) { if (sampleIndex === -1) { return null; } const rawSample = this.demuxer.loadedSamples[sampleIndex]; if (!rawSample) { return null; } let data: Uint8Array; if (options.metadataOnly) { data = PLACEHOLDER_DATA; } else { let slice = this.demuxer.reader.requestSlice(rawSample.dataStart, rawSample.dataSize); if (slice instanceof Promise) slice = await slice; if (!slice) { return null; // Data didn't fit into the rest of the file } data = readBytes(slice, rawSample.dataSize); } return new EncodedPacket( data, 'key', rawSample.timestamp, rawSample.duration, sampleIndex, rawSample.dataSize, ); } getFirstPacket(options: PacketRetrievalOptions) { return this.getPacketAtIndex(0, options); } async getNextPacket(packet: EncodedPacket, options: PacketRetrievalOptions) { const release = await this.demuxer.readingMutex.acquire(); try { const sampleIndex = binarySearchExact( this.demuxer.loadedSamples, packet.timestamp, x => x.timestamp, ); if (sampleIndex === -1) { throw new Error('Packet was not created from this track.'); } const nextIndex = sampleIndex + 1; // Ensure the next sample exists while ( nextIndex >= this.demuxer.loadedSamples.length && !this.demuxer.lastSampleLoaded ) { await this.demuxer.advanceReader(); } return this.getPacketAtIndex(nextIndex, options); } finally { release(); } } async getPacket(timestamp: number, options: PacketRetrievalOptions) { const release = await this.demuxer.readingMutex.acquire(); try { while (true) { const index = binarySearchLessOrEqual( this.demuxer.loadedSamples, timestamp, x => x.timestamp, ); if (index === -1 && this.demuxer.loadedSamples.length > 0) { // We're before the first sample return null; } if (this.demuxer.lastSampleLoaded) { // All data is loaded, return what we found return this.getPacketAtIndex(index, options); } if (index >= 0 && index + 1 < this.demuxer.loadedSamples.length) { // The next packet also exists, we're done return this.getPacketAtIndex(index, options); } // Otherwise, keep loading data await this.demuxer.advanceReader(); } } finally { release(); } } getKeyPacket(timestamp: number, options: PacketRetrievalOptions) { return this.getPacket(timestamp, options); } getNextKeyPacket(packet: EncodedPacket, options: PacketRetrievalOptions) { return this.getNextPacket(packet, options); } }