Files
PTT-Live/server/bridge/backends/PipeWireBackend.js
T
benoit d5850a5918 fix: utiliser chemin absolu pour pactl dans PipeWireBackend
- /usr/bin/pactl au lieu de 'pactl' pour éviter problèmes PATH
- Correction dans getDevices(), getDefaultInputDevice(), getDefaultOutputDevice()
- Fix 'pactl: not found' malgré installation de pulseaudio-utils
2026-05-28 13:52:27 +02:00

412 lines
11 KiB
JavaScript

/**
* PipeWireBackend.js
* Backend audio pour Linux moderne utilisant PipeWire
*
* PipeWire est le nouveau standard audio sur Linux (remplace PulseAudio + JACK)
* Compatible avec : Fedora 34+, Ubuntu 22.10+, Arch Linux
*
* Gère :
* - Connexion au serveur PipeWire
* - Capture et lecture audio via pw-cat
* - Détection automatique des devices
* - Mode basse latence (compatible JACK)
*/
import { spawn, execSync } from 'child_process';
import { EventEmitter } from 'events';
export class PipeWireBackend extends EventEmitter {
constructor(options = {}) {
super();
this.options = {
sampleRate: options.sampleRate || 48000,
channels: options.channels || 1,
framesPerBuffer: options.framesPerBuffer || 960,
targetDevice: options.targetDevice || null,
latency: options.latency || 20, // ms
...options
};
this.captureProcess = null;
this.playbackProcess = null;
this.isCapturing = false;
this.isPlaying = false;
this.playbackBuffer = [];
this.maxBufferSize = 10;
}
/**
* Vérifie si PipeWire est installé et disponible
* @returns {boolean}
*/
static isAvailable() {
try {
execSync('which pw-cat', { stdio: 'ignore' });
return true;
} catch (error) {
return false;
}
}
/**
* Vérifie si le serveur PipeWire est en cours d'exécution
* @returns {boolean}
*/
static isServerRunning() {
try {
execSync('pw-cli info 0', { stdio: 'ignore' });
return true;
} catch (error) {
return false;
}
}
/**
* Liste tous les devices audio PipeWire
* @returns {Array} Liste des devices
*/
static getDevices() {
if (!this.isServerRunning()) {
console.warn('Serveur PipeWire non démarré');
return [];
}
try {
// Utilise pactl (compatible PipeWire) pour lister les devices
// Chemin absolu pour éviter les problèmes de PATH avec /bin/sh
const pactlCmd = '/usr/bin/pactl';
const sourcesOutput = execSync(`${pactlCmd} list sources short`, { encoding: 'utf8' });
const sinksOutput = execSync(`${pactlCmd} list sinks short`, { encoding: 'utf8' });
const devices = [];
// Parse sources (entrées)
const sources = sourcesOutput.trim().split('\n').filter(l => l.length > 0);
sources.forEach(line => {
const parts = line.split(/\s+/);
if (parts.length >= 2) {
devices.push({
id: `pw-input-${parts[0]}`,
name: parts[1],
maxInputChannels: 2, // Assume stéréo par défaut
maxOutputChannels: 0,
defaultSampleRate: 48000,
hostAPIName: 'PipeWire',
type: 'source'
});
}
});
// Parse sinks (sorties)
const sinks = sinksOutput.trim().split('\n').filter(l => l.length > 0);
sinks.forEach(line => {
const parts = line.split(/\s+/);
if (parts.length >= 2) {
devices.push({
id: `pw-output-${parts[0]}`,
name: parts[1],
maxInputChannels: 0,
maxOutputChannels: 2,
defaultSampleRate: 48000,
hostAPIName: 'PipeWire',
type: 'sink'
});
}
});
return devices;
} catch (error) {
console.error('Erreur énumération devices PipeWire:', error);
return [];
}
}
/**
* Trouve le device par défaut pour l'entrée
* @returns {Object|null}
*/
static getDefaultInputDevice() {
try {
const pactlCmd = '/usr/bin/pactl';
const output = execSync(`${pactlCmd} get-default-source`, { encoding: 'utf8' });
const defaultName = output.trim();
const devices = this.getDevices();
return devices.find(d => d.name === defaultName && d.maxInputChannels > 0) ||
devices.find(d => d.maxInputChannels > 0);
} catch (error) {
const devices = this.getDevices();
return devices.find(d => d.maxInputChannels > 0) || null;
}
}
/**
* Trouve le device par défaut pour la sortie
* @returns {Object|null}
*/
static getDefaultOutputDevice() {
try {
const pactlCmd = '/usr/bin/pactl';
const output = execSync(`${pactlCmd} get-default-sink`, { encoding: 'utf8' });
const defaultName = output.trim();
const devices = this.getDevices();
return devices.find(d => d.name === defaultName && d.maxOutputChannels > 0) ||
devices.find(d => d.maxOutputChannels > 0);
} catch (error) {
const devices = this.getDevices();
return devices.find(d => d.maxOutputChannels > 0) || null;
}
}
/**
* Démarre la capture audio
* @returns {Promise<void>}
*/
async startCapture() {
if (this.isCapturing) {
console.warn('Capture PipeWire déjà active');
return;
}
if (!PipeWireBackend.isServerRunning()) {
throw new Error('Serveur PipeWire non démarré');
}
try {
// Utilise pw-cat pour capturer l'audio
const args = [
'--record',
'--format=s16', // 16-bit signed PCM
`--rate=${this.options.sampleRate}`,
`--channels=${this.options.channels}`,
`--latency=${this.options.latency}ms`,
'-' // Sortie vers stdout
];
// Ajoute le device cible si spécifié
if (this.options.targetDevice) {
args.push(`--target=${this.options.targetDevice}`);
}
this.captureProcess = spawn('pw-cat', args);
this.captureProcess.stdout.on('data', (audioData) => {
this.emit('audioData', audioData);
});
this.captureProcess.stderr.on('data', (data) => {
const msg = data.toString();
if (!msg.includes('stream state changed')) {
console.error('PipeWire capture stderr:', msg);
}
});
this.captureProcess.on('error', (error) => {
console.error('Erreur processus PipeWire capture:', error);
this.emit('error', error);
});
this.captureProcess.on('close', (code) => {
console.log(`Processus PipeWire capture fermé (code ${code})`);
this.isCapturing = false;
});
this.isCapturing = true;
console.log(`✓ Capture PipeWire démarrée : ${this.options.sampleRate}Hz, ${this.options.channels}ch`);
console.log(` Latence: ${this.options.latency}ms`);
} catch (error) {
console.error('Erreur démarrage capture PipeWire:', error);
throw error;
}
}
/**
* Arrête la capture audio
*/
stopCapture() {
if (this.captureProcess && this.isCapturing) {
this.captureProcess.kill('SIGTERM');
this.captureProcess = null;
this.isCapturing = false;
console.log('✓ Capture PipeWire arrêtée');
}
}
/**
* Démarre la lecture audio
* @returns {Promise<void>}
*/
async startPlayback() {
if (this.isPlaying) {
console.warn('Lecture PipeWire déjà active');
return;
}
if (!PipeWireBackend.isServerRunning()) {
throw new Error('Serveur PipeWire non démarré');
}
try {
const args = [
'--playback',
'--format=s16',
`--rate=${this.options.sampleRate}`,
`--channels=${this.options.channels}`,
`--latency=${this.options.latency}ms`,
'-' // Lecture depuis stdin
];
if (this.options.targetDevice) {
args.push(`--target=${this.options.targetDevice}`);
}
this.playbackProcess = spawn('pw-cat', args);
this.playbackProcess.stderr.on('data', (data) => {
const msg = data.toString();
if (!msg.includes('stream state changed')) {
console.error('PipeWire playback stderr:', msg);
}
});
this.playbackProcess.on('error', (error) => {
console.error('Erreur processus PipeWire playback:', error);
this.emit('error', error);
});
this.playbackProcess.on('close', (code) => {
console.log(`Processus PipeWire playback fermé (code ${code})`);
this.isPlaying = false;
});
this.isPlaying = true;
this._startPlaybackLoop();
console.log(`✓ Lecture PipeWire démarrée : ${this.options.sampleRate}Hz, ${this.options.channels}ch`);
console.log(` Latence: ${this.options.latency}ms`);
} catch (error) {
console.error('Erreur démarrage lecture PipeWire:', error);
throw error;
}
}
/**
* Arrête la lecture audio
*/
stopPlayback() {
if (this.playbackProcess && this.isPlaying) {
this.playbackProcess.kill('SIGTERM');
this.playbackProcess = null;
this.isPlaying = false;
this.playbackBuffer = [];
console.log('✓ Lecture PipeWire arrêtée');
}
}
/**
* Ajoute des données audio au buffer de lecture
* @param {Buffer} audioData - Données PCM 16-bit
*/
queueAudio(audioData) {
if (!this.isPlaying) {
console.warn('Tentative ajout audio alors que lecture PipeWire inactive');
return;
}
if (this.playbackBuffer.length < this.maxBufferSize) {
this.playbackBuffer.push(audioData);
} else {
this.emit('bufferOverrun');
}
}
/**
* Boucle de lecture du buffer circulaire
* @private
*/
_startPlaybackLoop() {
const playNextChunk = () => {
if (!this.isPlaying || !this.playbackProcess) return;
if (this.playbackBuffer.length > 0) {
const chunk = this.playbackBuffer.shift();
try {
this.playbackProcess.stdin.write(chunk);
} catch (error) {
console.error('Erreur écriture stdin PipeWire:', error);
}
} else {
// Buffer vide : underrun (silence)
const silenceBuffer = Buffer.alloc(this.options.framesPerBuffer * 2 * this.options.channels);
try {
this.playbackProcess.stdin.write(silenceBuffer);
} catch (error) {
// Ignore si le process est fermé
}
this.emit('bufferUnderrun');
}
const intervalMs = (this.options.framesPerBuffer / this.options.sampleRate) * 1000;
setTimeout(playNextChunk, intervalMs);
};
playNextChunk();
}
/**
* Arrête tous les streams
*/
destroy() {
this.stopCapture();
this.stopPlayback();
this.removeAllListeners();
console.log('✓ PipeWireBackend détruit');
}
/**
* Obtient les statistiques du backend
* @returns {Object}
*/
getStats() {
return {
capturing: this.isCapturing,
playing: this.isPlaying,
playbackBufferSize: this.playbackBuffer.length,
sampleRate: this.options.sampleRate,
channels: this.options.channels,
framesPerBuffer: this.options.framesPerBuffer,
latency: this.options.latency,
pipewireServerRunning: PipeWireBackend.isServerRunning()
};
}
/**
* Obtient les informations du serveur PipeWire
* @returns {Object}
*/
static getServerInfo() {
if (!this.isServerRunning()) {
return { running: false };
}
try {
const output = execSync('pw-cli info 0', { encoding: 'utf8' });
// Parse basique des infos
const versionMatch = output.match(/version:\s*"([^"]+)"/);
return {
running: true,
version: versionMatch ? versionMatch[1] : 'unknown',
devices: this.getDevices().length
};
} catch (error) {
return { running: true };
}
}
}
export default PipeWireBackend;