/*jshint node:true*/ 'use strict'; var fs = require('fs'); var path = require('path'); var async = require('../async'); var utils = require('./utils'); /* *! Capability helpers */ var avCodecRegexp = /^\s*([D ])([E ])([VAS])([S ])([D ])([T ]) ([^ ]+) +(.*)$/; var ffCodecRegexp = /^\s*([D\.])([E\.])([VAS])([I\.])([L\.])([S\.]) ([^ ]+) +(.*)$/; var ffEncodersRegexp = /\(encoders:([^\)]+)\)/; var ffDecodersRegexp = /\(decoders:([^\)]+)\)/; var encodersRegexp = /^\s*([VAS\.])([F\.])([S\.])([X\.])([B\.])([D\.]) ([^ ]+) +(.*)$/; var formatRegexp = /^\s*([D ])([E ]) ([^ ]+) +(.*)$/; var lineBreakRegexp = /\r\n|\r|\n/; var filterRegexp = /^(?: [T\.][S\.][C\.] )?([^ ]+) +(AA?|VV?|\|)->(AA?|VV?|\|) +(.*)$/; var cache = {}; module.exports = function (proto) { /** * Manually define the ffmpeg binary full path. * * @method FfmpegCommand#setFfmpegPath * * @param {String} ffmpegPath The full path to the ffmpeg binary. * @return FfmpegCommand */ proto.setFfmpegPath = function (ffmpegPath) { cache.ffmpegPath = ffmpegPath; return this; }; /** * Manually define the ffprobe binary full path. * * @method FfmpegCommand#setFfprobePath * * @param {String} ffprobePath The full path to the ffprobe binary. * @return FfmpegCommand */ proto.setFfprobePath = function (ffprobePath) { cache.ffprobePath = ffprobePath; return this; }; /** * Manually define the flvtool2/flvmeta binary full path. * * @method FfmpegCommand#setFlvtoolPath * * @param {String} flvtool The full path to the flvtool2 or flvmeta binary. * @return FfmpegCommand */ proto.setFlvtoolPath = function (flvtool) { cache.flvtoolPath = flvtool; return this; }; /** * Forget executable paths * * (only used for testing purposes) * * @method FfmpegCommand#_forgetPaths * @private */ proto._forgetPaths = function () { delete cache.ffmpegPath; delete cache.ffprobePath; delete cache.flvtoolPath; }; /** * Check for ffmpeg availability * * If the FFMPEG_PATH environment variable is set, try to use it. * If it is unset or incorrect, try to find ffmpeg in the PATH instead. * * @method FfmpegCommand#_getFfmpegPath * @param {Function} callback callback with signature (err, path) * @private */ proto._getFfmpegPath = function (callback) { if ('ffmpegPath' in cache) { return callback(null, cache.ffmpegPath); } async.waterfall([ // Try FFMPEG_PATH function (cb) { if (process.env.FFMPEG_PATH) { fs.exists(process.env.FFMPEG_PATH, function (exists) { if (exists) { cb(null, process.env.FFMPEG_PATH); } else { cb(null, ''); } }); } else { cb(null, ''); } }, // Search in the PATH function (ffmpeg, cb) { if (ffmpeg.length) { return cb(null, ffmpeg); } utils.which('ffmpeg', function (err, ffmpeg) { cb(err, ffmpeg); }); } ], function (err, ffmpeg) { if (err) { callback(err); } else { callback(null, cache.ffmpegPath = (ffmpeg || '')); } }); }; /** * Check for ffprobe availability * * If the FFPROBE_PATH environment variable is set, try to use it. * If it is unset or incorrect, try to find ffprobe in the PATH instead. * If this still fails, try to find ffprobe in the same directory as ffmpeg. * * @method FfmpegCommand#_getFfprobePath * @param {Function} callback callback with signature (err, path) * @private */ proto._getFfprobePath = function (callback) { var self = this; if ('ffprobePath' in cache) { return callback(null, cache.ffprobePath); } async.waterfall([ // Try FFPROBE_PATH function (cb) { if (process.env.FFPROBE_PATH) { fs.exists(process.env.FFPROBE_PATH, function (exists) { cb(null, exists ? process.env.FFPROBE_PATH : ''); }); } else { cb(null, ''); } }, // Search in the PATH function (ffprobe, cb) { if (ffprobe.length) { return cb(null, ffprobe); } utils.which('ffprobe', function (err, ffprobe) { cb(err, ffprobe); }); }, // Search in the same directory as ffmpeg function (ffprobe, cb) { if (ffprobe.length) { return cb(null, ffprobe); } self._getFfmpegPath(function (err, ffmpeg) { if (err) { cb(err); } else if (ffmpeg.length) { var name = utils.isWindows ? 'ffprobe.exe' : 'ffprobe'; var ffprobe = path.join(path.dirname(ffmpeg), name); fs.exists(ffprobe, function (exists) { cb(null, exists ? ffprobe : ''); }); } else { cb(null, ''); } }); } ], function (err, ffprobe) { if (err) { callback(err); } else { callback(null, cache.ffprobePath = (ffprobe || '')); } }); }; /** * Check for flvtool2/flvmeta availability * * If the FLVTOOL2_PATH or FLVMETA_PATH environment variable are set, try to use them. * If both are either unset or incorrect, try to find flvtool2 or flvmeta in the PATH instead. * * @method FfmpegCommand#_getFlvtoolPath * @param {Function} callback callback with signature (err, path) * @private */ proto._getFlvtoolPath = function (callback) { if ('flvtoolPath' in cache) { return callback(null, cache.flvtoolPath); } async.waterfall([ // Try FLVMETA_PATH function (cb) { if (process.env.FLVMETA_PATH) { fs.exists(process.env.FLVMETA_PATH, function (exists) { cb(null, exists ? process.env.FLVMETA_PATH : ''); }); } else { cb(null, ''); } }, // Try FLVTOOL2_PATH function (flvtool, cb) { if (flvtool.length) { return cb(null, flvtool); } if (process.env.FLVTOOL2_PATH) { fs.exists(process.env.FLVTOOL2_PATH, function (exists) { cb(null, exists ? process.env.FLVTOOL2_PATH : ''); }); } else { cb(null, ''); } }, // Search for flvmeta in the PATH function (flvtool, cb) { if (flvtool.length) { return cb(null, flvtool); } utils.which('flvmeta', function (err, flvmeta) { cb(err, flvmeta); }); }, // Search for flvtool2 in the PATH function (flvtool, cb) { if (flvtool.length) { return cb(null, flvtool); } utils.which('flvtool2', function (err, flvtool2) { cb(err, flvtool2); }); }, ], function (err, flvtool) { if (err) { callback(err); } else { callback(null, cache.flvtoolPath = (flvtool || '')); } }); }; /** * A callback passed to {@link FfmpegCommand#availableFilters}. * * @callback FfmpegCommand~filterCallback * @param {Error|null} err error object or null if no error happened * @param {Object} filters filter object with filter names as keys and the following * properties for each filter: * @param {String} filters.description filter description * @param {String} filters.input input type, one of 'audio', 'video' and 'none' * @param {Boolean} filters.multipleInputs whether the filter supports multiple inputs * @param {String} filters.output output type, one of 'audio', 'video' and 'none' * @param {Boolean} filters.multipleOutputs whether the filter supports multiple outputs */ /** * Query ffmpeg for available filters * * @method FfmpegCommand#availableFilters * @category Capabilities * @aliases getAvailableFilters * * @param {FfmpegCommand~filterCallback} callback callback function */ proto.availableFilters = proto.getAvailableFilters = function (callback) { if ('filters' in cache) { return callback(null, cache.filters); } this._spawnFfmpeg(['-filters'], { captureStdout: true, stdoutLines: 0 }, function (err, stdoutRing) { if (err) { return callback(err); } var stdout = stdoutRing.get(); var lines = stdout.split('\n'); var data = {}; var types = { A: 'audio', V: 'video', '|': 'none' }; lines.forEach(function (line) { var match = line.match(filterRegexp); if (match) { data[match[1]] = { description: match[4], input: types[match[2].charAt(0)], multipleInputs: match[2].length > 1, output: types[match[3].charAt(0)], multipleOutputs: match[3].length > 1 }; } }); callback(null, cache.filters = data); }); }; /** * A callback passed to {@link FfmpegCommand#availableCodecs}. * * @callback FfmpegCommand~codecCallback * @param {Error|null} err error object or null if no error happened * @param {Object} codecs codec object with codec names as keys and the following * properties for each codec (more properties may be available depending on the * ffmpeg version used): * @param {String} codecs.description codec description * @param {Boolean} codecs.canDecode whether the codec is able to decode streams * @param {Boolean} codecs.canEncode whether the codec is able to encode streams */ /** * Query ffmpeg for available codecs * * @method FfmpegCommand#availableCodecs * @category Capabilities * @aliases getAvailableCodecs * * @param {FfmpegCommand~codecCallback} callback callback function */ proto.availableCodecs = proto.getAvailableCodecs = function (callback) { if ('codecs' in cache) { return callback(null, cache.codecs); } this._spawnFfmpeg(['-codecs'], { captureStdout: true, stdoutLines: 0 }, function (err, stdoutRing) { if (err) { return callback(err); } var stdout = stdoutRing.get(); var lines = stdout.split(lineBreakRegexp); var data = {}; lines.forEach(function (line) { var match = line.match(avCodecRegexp); if (match && match[7] !== '=') { data[match[7]] = { type: { 'V': 'video', 'A': 'audio', 'S': 'subtitle' }[match[3]], description: match[8], canDecode: match[1] === 'D', canEncode: match[2] === 'E', drawHorizBand: match[4] === 'S', directRendering: match[5] === 'D', weirdFrameTruncation: match[6] === 'T' }; } match = line.match(ffCodecRegexp); if (match && match[7] !== '=') { var codecData = data[match[7]] = { type: { 'V': 'video', 'A': 'audio', 'S': 'subtitle' }[match[3]], description: match[8], canDecode: match[1] === 'D', canEncode: match[2] === 'E', intraFrameOnly: match[4] === 'I', isLossy: match[5] === 'L', isLossless: match[6] === 'S' }; var encoders = codecData.description.match(ffEncodersRegexp); encoders = encoders ? encoders[1].trim().split(' ') : []; var decoders = codecData.description.match(ffDecodersRegexp); decoders = decoders ? decoders[1].trim().split(' ') : []; if (encoders.length || decoders.length) { var coderData = {}; utils.copy(codecData, coderData); delete coderData.canEncode; delete coderData.canDecode; encoders.forEach(function (name) { data[name] = {}; utils.copy(coderData, data[name]); data[name].canEncode = true; }); decoders.forEach(function (name) { if (name in data) { data[name].canDecode = true; } else { data[name] = {}; utils.copy(coderData, data[name]); data[name].canDecode = true; } }); } } }); callback(null, cache.codecs = data); }); }; /** * A callback passed to {@link FfmpegCommand#availableEncoders}. * * @callback FfmpegCommand~encodersCallback * @param {Error|null} err error object or null if no error happened * @param {Object} encoders encoders object with encoder names as keys and the following * properties for each encoder: * @param {String} encoders.description codec description * @param {Boolean} encoders.type "audio", "video" or "subtitle" * @param {Boolean} encoders.frameMT whether the encoder is able to do frame-level multithreading * @param {Boolean} encoders.sliceMT whether the encoder is able to do slice-level multithreading * @param {Boolean} encoders.experimental whether the encoder is experimental * @param {Boolean} encoders.drawHorizBand whether the encoder supports draw_horiz_band * @param {Boolean} encoders.directRendering whether the encoder supports direct encoding method 1 */ /** * Query ffmpeg for available encoders * * @method FfmpegCommand#availableEncoders * @category Capabilities * @aliases getAvailableEncoders * * @param {FfmpegCommand~encodersCallback} callback callback function */ proto.availableEncoders = proto.getAvailableEncoders = function (callback) { if ('encoders' in cache) { return callback(null, cache.encoders); } this._spawnFfmpeg(['-encoders'], { captureStdout: true, stdoutLines: 0 }, function (err, stdoutRing) { if (err) { return callback(err); } var stdout = stdoutRing.get(); var lines = stdout.split(lineBreakRegexp); var data = {}; lines.forEach(function (line) { var match = line.match(encodersRegexp); if (match && match[7] !== '=') { data[match[7]] = { type: { 'V': 'video', 'A': 'audio', 'S': 'subtitle' }[match[1]], description: match[8], frameMT: match[2] === 'F', sliceMT: match[3] === 'S', experimental: match[4] === 'X', drawHorizBand: match[5] === 'B', directRendering: match[6] === 'D' }; } }); callback(null, cache.encoders = data); }); }; /** * A callback passed to {@link FfmpegCommand#availableFormats}. * * @callback FfmpegCommand~formatCallback * @param {Error|null} err error object or null if no error happened * @param {Object} formats format object with format names as keys and the following * properties for each format: * @param {String} formats.description format description * @param {Boolean} formats.canDemux whether the format is able to demux streams from an input file * @param {Boolean} formats.canMux whether the format is able to mux streams into an output file */ /** * Query ffmpeg for available formats * * @method FfmpegCommand#availableFormats * @category Capabilities * @aliases getAvailableFormats * * @param {FfmpegCommand~formatCallback} callback callback function */ proto.availableFormats = proto.getAvailableFormats = function (callback) { if ('formats' in cache) { return callback(null, cache.formats); } // Run ffmpeg -formats this._spawnFfmpeg(['-formats'], { captureStdout: true, stdoutLines: 0 }, function (err, stdoutRing) { if (err) { return callback(err); } // Parse output var stdout = stdoutRing.get(); var lines = stdout.split(lineBreakRegexp); var data = {}; lines.forEach(function (line) { var match = line.match(formatRegexp); if (match) { match[3].split(',').forEach(function (format) { if (!(format in data)) { data[format] = { description: match[4], canDemux: false, canMux: false }; } if (match[1] === 'D') { data[format].canDemux = true; } if (match[2] === 'E') { data[format].canMux = true; } }); } }); callback(null, cache.formats = data); }); }; /** * Check capabilities before executing a command * * Checks whether all used codecs and formats are indeed available * * @method FfmpegCommand#_checkCapabilities * @param {Function} callback callback with signature (err) * @private */ proto._checkCapabilities = function (callback) { var self = this; async.waterfall([ // Get available formats function (cb) { self.availableFormats(cb); }, // Check whether specified formats are available function (formats, cb) { var unavailable; // Output format(s) unavailable = self._outputs .reduce(function (fmts, output) { var format = output.options.find('-f', 1); if (format) { if (!(format[0] in formats) || !(formats[format[0]].canMux)) { fmts.push(format); } } return fmts; }, []); if (unavailable.length === 1) { return cb(new Error('Output format ' + unavailable[0] + ' is not available')); } else if (unavailable.length > 1) { return cb(new Error('Output formats ' + unavailable.join(', ') + ' are not available')); } // Input format(s) unavailable = self._inputs .reduce(function (fmts, input) { var format = input.options.find('-f', 1); if (format) { if (!(format[0] in formats) || !(formats[format[0]].canDemux)) { fmts.push(format[0]); } } return fmts; }, []); if (unavailable.length === 1) { return cb(new Error('Input format ' + unavailable[0] + ' is not available')); } else if (unavailable.length > 1) { return cb(new Error('Input formats ' + unavailable.join(', ') + ' are not available')); } cb(); }, // Get available codecs function (cb) { self.availableEncoders(cb); }, // Check whether specified codecs are available and add strict experimental options if needed function (encoders, cb) { var unavailable; // Audio codec(s) unavailable = self._outputs.reduce(function (cdcs, output) { var acodec = output.audio.find('-acodec', 1); if (acodec && acodec[0] !== 'copy') { if (!(acodec[0] in encoders) || encoders[acodec[0]].type !== 'audio') { cdcs.push(acodec[0]); } } return cdcs; }, []); if (unavailable.length === 1) { return cb(new Error('Audio codec ' + unavailable[0] + ' is not available')); } else if (unavailable.length > 1) { return cb(new Error('Audio codecs ' + unavailable.join(', ') + ' are not available')); } // Video codec(s) unavailable = self._outputs.reduce(function (cdcs, output) { var vcodec = output.video.find('-vcodec', 1); if (vcodec && vcodec[0] !== 'copy') { if (!(vcodec[0] in encoders) || encoders[vcodec[0]].type !== 'video') { cdcs.push(vcodec[0]); } } return cdcs; }, []); if (unavailable.length === 1) { return cb(new Error('Video codec ' + unavailable[0] + ' is not available')); } else if (unavailable.length > 1) { return cb(new Error('Video codecs ' + unavailable.join(', ') + ' are not available')); } cb(); } ], callback); }; };