const child_process = require('child_process') const { promisify } = require('util') const exec = promisify(child_process.exec) const os = require('os') const axios = require('axios') const path = require('path') const which = require('../libs/which') const fs = require('../libs/fsExtra') const Logger = require('../Logger') const fileUtils = require('../utils/fileUtils') const StreamZip = require('../libs/nodeStreamZip') class ZippedAssetDownloader { constructor() { this.assetCache = {} } getReleaseUrl(releaseTag) { throw new Error('Not implemented') } extractAssetUrl(assets, assetName) { throw new Error('Not implemented') } getAssetName(binaryName, releaseTag) { throw new Error('Not implemented') } getAssetFileName(binaryName) { throw new Error('Not implemented') } async getAssetUrl(releaseTag, assetName) { // Check if the assets information is already cached for the release tag if (this.assetCache[releaseTag]) { Logger.debug(`[ZippedAssetDownloader] release ${releaseTag}: assets found in cache.`) } else { // Get the release information const releaseUrl = this.getReleaseUrl(releaseTag) const releaseResponse = await axios.get(releaseUrl, { headers: { 'User-Agent': 'axios' } }) // Cache the assets information for the release tag this.assetCache[releaseTag] = releaseResponse.data Logger.debug(`[ZippedAssetDownloader] release ${releaseTag}: assets fetched from API.`) } const assets = this.assetCache[releaseTag] const assetUrl = this.extractAssetUrl(assets, assetName) return assetUrl } async downloadAsset(assetUrl, destDir) { const zipPath = path.join(destDir, 'temp.zip') const writer = fs.createWriteStream(zipPath) const assetResponse = await axios({ url: assetUrl, responseType: 'stream' }) assetResponse.data.pipe(writer) await new Promise((resolve, reject) => { writer.on('finish', () => { Logger.debug(`[ZippedAssetDownloader] Downloaded asset ${assetUrl} to ${zipPath}`) resolve() }) writer.on('error', (err) => { Logger.error(`[ZippedAssetDownloader] Error downloading asset ${assetUrl}: ${err.message}`) reject(err) }) }) return zipPath } async extractFiles(zipPath, filesToExtract, destDir) { const zip = new StreamZip.async({ file: zipPath }) for (const file of filesToExtract) { const outputPath = path.join(destDir, file.outputFileName) await zip.extract(file.pathInsideZip, outputPath) Logger.debug(`[ZippedAssetDownloader] Extracted file ${file.pathInsideZip} to ${outputPath}`) // Set executable permission for Linux if (process.platform !== 'win32') { await fs.chmod(outputPath, 0o755) } } await zip.close() } async downloadAndExtractFiles(releaseTag, assetName, filesToExtract, destDir) { let zipPath try { await fs.ensureDir(destDir) const assetUrl = await this.getAssetUrl(releaseTag, assetName) zipPath = await this.downloadAsset(assetUrl, destDir) await this.extractFiles(zipPath, filesToExtract, destDir) } catch (error) { Logger.error(`[ZippedAssetDownloader] Error downloading or extracting files: ${error.message}`) throw error } finally { if (zipPath) await fs.remove(zipPath) } } async downloadBinary(binaryName, releaseTag, destDir) { const assetName = this.getAssetName(binaryName, releaseTag) const fileName = this.getAssetFileName(binaryName) const filesToExtract = [{ pathInsideZip: fileName, outputFileName: fileName }] await this.downloadAndExtractFiles(releaseTag, assetName, filesToExtract, destDir) } } class FFBinariesDownloader extends ZippedAssetDownloader { constructor() { super() this.platformSuffix = this.getPlatformSuffix() } getPlatformSuffix() { var type = os.type().toLowerCase() var arch = os.arch().toLowerCase() if (type === 'darwin') { return 'osx-64' } if (type === 'windows_nt') { return arch === 'x64' ? 'windows-64' : 'windows-32' } if (type === 'linux') { if (arch === 'arm') return 'linux-armel' if (arch === 'arm64') return 'linux-arm64' return arch === 'x64' ? 'linux-64' : 'linux-32' } return null } getReleaseUrl(releaseTag) { return `https://ffbinaries.com/api/v1/version/${releaseTag}` } extractAssetUrl(assets, assetName) { const assetUrl = assets?.bin?.[this.platformSuffix]?.[assetName] if (!assetUrl) { throw new Error(`[FFBinariesDownloader] Asset ${assetName} not found for platform ${this.platformSuffix}`) } return assetUrl } getAssetName(binaryName, releaseTag) { return binaryName } getAssetFileName(binaryName) { return process.platform === 'win32' ? `${binaryName}.exe` : binaryName } } class Binary { constructor(name, type, envVariable, validVersions, source) { this.name = name this.type = type this.envVariable = envVariable this.validVersions = validVersions this.source = source this.fileName = this.getFileName() this.exec = exec } async find(mainInstallDir, altInstallDir) { // 1. check path specified in environment variable const defaultPath = process.env[this.envVariable] if (await this.isGood(defaultPath)) return defaultPath // 2. find the first instance of the binary in the PATH environment variable if (this.type === 'executable') { const whichPath = which.sync(this.fileName, { nothrow: true }) if (await this.isGood(whichPath)) return whichPath } // 3. check main install path (binary root dir) const mainInstallPath = path.join(mainInstallDir, this.fileName) if (await this.isGood(mainInstallPath)) return mainInstallPath // 4. check alt install path (/config) const altInstallPath = path.join(altInstallDir, this.fileName) if (await this.isGood(altInstallPath)) return altInstallPath return null } getFileName() { const platform = process.platform if (this.type === 'executable') { return this.name + (platform == 'win32' ? '.exe' : '') } else if (this.type === 'library') { return this.name + (platform == 'win32' ? '.dll' : platform == 'darwin' ? '.dylib' : '.so') } else { return this.name } } async isGood(binaryPath) { if (!binaryPath || !(await fs.pathExists(binaryPath))) return false if (!this.validVersions.length) return true if (this.type === 'library') return true try { const { stdout } = await this.exec('"' + binaryPath + '"' + ' -version') const version = stdout.match(/version\s([\d\.]+)/)?.[1] if (!version) return false return this.validVersions.some((validVersion) => version.startsWith(validVersion)) } catch (err) { Logger.error(`[Binary] Failed to check version of ${binaryPath}`) return false } } async download(destination) { await this.source.downloadBinary(this.name, this.validVersions[0], destination) } } const ffbinaries = new FFBinariesDownloader() module.exports.ffbinaries = ffbinaries // for testing //const sqlean = new SQLeanDownloader() //module.exports.sqlean = sqlean // for testing class BinaryManager { defaultRequiredBinaries = [ new Binary('ffmpeg', 'executable', 'FFMPEG_PATH', ['5.1'], ffbinaries), // ffmpeg executable new Binary('ffprobe', 'executable', 'FFPROBE_PATH', ['5.1'], ffbinaries) // ffprobe executable // TODO: Temporarily disabled due to db corruption issues // new Binary('unicode', 'library', 'SQLEAN_UNICODE_PATH', ['0.24.2'], sqlean) // sqlean unicode extension ] constructor(requiredBinaries = this.defaultRequiredBinaries) { this.requiredBinaries = requiredBinaries this.mainInstallDir = process.pkg ? path.dirname(process.execPath) : global.appRoot this.altInstallDir = global.ConfigPath this.initialized = false } async init() { // Optional skip binaries check if (process.env.SKIP_BINARIES_CHECK === '1') { for (const binary of this.requiredBinaries) { if (!process.env[binary.envVariable]) { await Logger.fatal(`[BinaryManager] Environment variable ${binary.envVariable} must be set`) process.exit(1) } } Logger.info('[BinaryManager] Skipping check for binaries') return } if (this.initialized) return const missingBinaries = await this.findRequiredBinaries() if (missingBinaries.length == 0) return await this.removeOldBinaries(missingBinaries) await this.install(missingBinaries) const missingBinariesAfterInstall = await this.findRequiredBinaries() if (missingBinariesAfterInstall.length) { Logger.error(`[BinaryManager] Failed to find or install required binaries: ${missingBinariesAfterInstall.join(', ')}`) process.exit(1) } this.initialized = true } async removeBinary(destination, binary) { const binaryPath = path.join(destination, binary.fileName) if (await fs.pathExists(binaryPath)) { Logger.debug(`[BinaryManager] Removing binary: ${binaryPath}`) await fs.remove(binaryPath) } } async removeOldBinaries(binaries) { for (const binary of binaries) { await this.removeBinary(this.mainInstallDir, binary) await this.removeBinary(this.altInstallDir, binary) } } /** * Find required binaries and return array of binary names that are missing * * @returns {Promise} */ async findRequiredBinaries() { const missingBinaries = [] for (const binary of this.requiredBinaries) { const binaryPath = await binary.find(this.mainInstallDir, this.altInstallDir) if (binaryPath) { Logger.info(`[BinaryManager] Found valid binary ${binary.name} at ${binaryPath}`) if (process.env[binary.envVariable] !== binaryPath) { Logger.info(`[BinaryManager] Updating process.env.${binary.envVariable}`) process.env[binary.envVariable] = binaryPath } } else { Logger.info(`[BinaryManager] ${binary.name} not found or version too old`) missingBinaries.push(binary) } } return missingBinaries } async install(binaries) { if (!binaries.length) return Logger.info(`[BinaryManager] Installing binaries: ${binaries.map((binary) => binary.name).join(', ')}`) let destination = (await fileUtils.isWritable(this.mainInstallDir)) ? this.mainInstallDir : this.altInstallDir for (const binary of binaries) { await binary.download(destination) } Logger.info(`[BinaryManager] Binaries installed to ${destination}`) } } module.exports = BinaryManager module.exports.Binary = Binary // for testing