const AdmZip = require('adm-zip') const child_process = require('child_process') const crypto = require('crypto') const fs = require('fs-extra') const os = require('os') const path = require('path') const {URL} = require('url') const { Library } = require('./assetguard') const ConfigManager = require('./configmanager') const DistroManager = require('./distromanager') const LoggerUtil = require('./loggerutil') const logger = LoggerUtil('%c[ProcessBuilder]', 'color: #003996; font-weight: bold') class ProcessBuilder { constructor(distroServer, versionData, forgeData, authUser){ this.gameDir = path.join(ConfigManager.getInstanceDirectory(), distroServer.getID()) this.commonDir = ConfigManager.getCommonDirectory() this.server = distroServer this.versionData = versionData this.forgeData = forgeData this.authUser = authUser this.fmlDir = path.join(this.gameDir, 'forgeModList.json') this.llDir = path.join(this.gameDir, 'liteloaderModList.json') this.libPath = path.join(this.commonDir, 'libraries') this.usingLiteLoader = false this.llPath = null } /** * Convienence method to run the functions typically used to build a process. */ build(){ fs.ensureDirSync(this.gameDir) const tempNativePath = path.join(os.tmpdir(), ConfigManager.getTempNativeFolder(), crypto.pseudoRandomBytes(16).toString('hex')) process.throwDeprecation = true this.setupLiteLoader() logger.log('Using liteloader:', this.usingLiteLoader) const modObj = this.resolveModConfiguration(ConfigManager.getModConfiguration(this.server.getID()).mods, this.server.getModules()) this.constructModList('forge', modObj.fMods, true) if(this.usingLiteLoader){ this.constructModList('liteloader', modObj.lMods, true) } const uberModArr = modObj.fMods.concat(modObj.lMods) const args = this.constructJVMArguments(uberModArr, tempNativePath) logger.log('Launch Arguments:', args) const child = child_process.spawn(ConfigManager.getJavaExecutable(), args, { cwd: this.gameDir, detached: ConfigManager.getLaunchDetached() }) if(ConfigManager.getLaunchDetached()){ child.unref() } child.stdout.setEncoding('utf8') child.stderr.setEncoding('utf8') const loggerMCstdout = LoggerUtil('%c[Minecraft]', 'color: #36b030; font-weight: bold') const loggerMCstderr = LoggerUtil('%c[Minecraft]', 'color: #b03030; font-weight: bold') child.stdout.on('data', (data) => { loggerMCstdout.log(data) }) child.stderr.on('data', (data) => { loggerMCstderr.log(data) }) child.on('close', (code, signal) => { logger.log('Exited with code', code) fs.remove(tempNativePath, (err) => { if(err){ logger.warn('Error while deleting temp dir', err) } else { logger.log('Temp dir deleted successfully.') } }) }) return child } /** * Determine if an optional mod is enabled from its configuration value. If the * configuration value is null, the required object will be used to * determine if it is enabled. * * A mod is enabled if: * * The configuration is not null and one of the following: * * The configuration is a boolean and true. * * The configuration is an object and its 'value' property is true. * * The configuration is null and one of the following: * * The required object is null. * * The required object's 'def' property is null or true. * * @param {Object | boolean} modCfg The mod configuration object. * @param {Object} required Optional. The required object from the mod's distro declaration. * @returns {boolean} True if the mod is enabled, false otherwise. */ static isModEnabled(modCfg, required = null){ return modCfg != null ? ((typeof modCfg === 'boolean' && modCfg) || (typeof modCfg === 'object' && (typeof modCfg.value !== 'undefined' ? modCfg.value : true))) : required != null ? required.isDefault() : true } /** * Function which performs a preliminary scan of the top level * mods. If liteloader is present here, we setup the special liteloader * launch options. Note that liteloader is only allowed as a top level * mod. It must not be declared as a submodule. */ setupLiteLoader(){ for(let ll of this.server.getModules()){ if(ll.getType() === DistroManager.Types.LiteLoader){ if(!ll.getRequired().isRequired()){ const modCfg = ConfigManager.getModConfiguration(this.server.getID()).mods if(ProcessBuilder.isModEnabled(modCfg[ll.getVersionlessID()], ll.getRequired())){ if(fs.existsSync(ll.getArtifact().getPath())){ this.usingLiteLoader = true this.llPath = ll.getArtifact().getPath() } } } else { if(fs.existsSync(ll.getArtifact().getPath())){ this.usingLiteLoader = true this.llPath = ll.getArtifact().getPath() } } } } } /** * Resolve an array of all enabled mods. These mods will be constructed into * a mod list format and enabled at launch. * * @param {Object} modCfg The mod configuration object. * @param {Array.} mdls An array of modules to parse. * @returns {{fMods: Array., lMods: Array.}} An object which contains * a list of enabled forge mods and litemods. */ resolveModConfiguration(modCfg, mdls){ let fMods = [] let lMods = [] for(let mdl of mdls){ const type = mdl.getType() if(type === DistroManager.Types.ForgeMod || type === DistroManager.Types.LiteMod || type === DistroManager.Types.LiteLoader){ const o = !mdl.getRequired().isRequired() const e = ProcessBuilder.isModEnabled(modCfg[mdl.getVersionlessID()], mdl.getRequired()) if(!o || (o && e)){ if(mdl.hasSubModules()){ const v = this.resolveModConfiguration(modCfg[mdl.getVersionlessID()].mods, mdl.getSubModules()) fMods = fMods.concat(v.fMods) lMods = lMods.concat(v.lMods) if(mdl.type === DistroManager.Types.LiteLoader){ continue } } if(mdl.type === DistroManager.Types.ForgeMod){ fMods.push(mdl) } else { lMods.push(mdl) } } } } return { fMods, lMods } } /** * Test to see if this version of forge requires the absolute: prefix * on the modListFile repository field. */ _requiresAbsolute(){ try { const ver = this.forgeData.id.split('-')[2] const pts = ver.split('.') const min = [14, 23, 3, 2655] for(let i=0; i min[i]){ return true } } } catch (err) { // We know old forge versions follow this format. // Error must be caused by newer version. } // Equal or errored return true } /** * Construct a mod list json object. * * @param {'forge' | 'liteloader'} type The mod list type to construct. * @param {Array.} mods An array of mods to add to the mod list. * @param {boolean} save Optional. Whether or not we should save the mod list file. */ constructModList(type, mods, save = false){ const modList = { repositoryRoot: ((type === 'forge' && this._requiresAbsolute()) ? 'absolute:' : '') + path.join(this.commonDir, 'modstore') } const ids = [] if(type === 'forge'){ for(let mod of mods){ ids.push(mod.getExtensionlessID()) } } else { for(let mod of mods){ ids.push(mod.getExtensionlessID() + '@' + mod.getExtension()) } } modList.modRef = ids if(save){ const json = JSON.stringify(modList, null, 4) fs.writeFileSync(type === 'forge' ? this.fmlDir : this.llDir, json, 'UTF-8') } return modList } /** * Construct the argument array that will be passed to the JVM process. * * @param {Array.} mods An array of enabled mods which will be launched with this process. * @param {string} tempNativePath The path to store the native libraries. * @returns {Array.} An array containing the full JVM arguments for this process. */ constructJVMArguments(mods, tempNativePath){ let args = ['-Xmx' + ConfigManager.getMaxRAM(), '-Xms' + ConfigManager.getMinRAM(), '-Djava.library.path=' + tempNativePath, '-cp', this.classpathArg(mods, tempNativePath).join(process.platform === 'win32' ? ';' : ':'), this.forgeData.mainClass] if(process.platform === 'darwin'){ args.unshift('-Xdock:name=WesterosCraft') args.unshift('-Xdock:icon=' + path.join(__dirname, '..', 'images', 'minecraft.icns')) } args.splice(2, 0, ...ConfigManager.getJVMOptions()) args = args.concat(this._resolveForgeArgs()) return args } /** * Resolve the arguments required by forge. * * @returns {Array.} An array containing the arguments required by forge. */ _resolveForgeArgs(){ const mcArgs = this.forgeData.minecraftArguments.split(' ') const argDiscovery = /\${*(.*)}/ // Replace the declared variables with their proper values. for(let i=0; i} mods An array of enabled mods which will be launched with this process. * @param {string} tempNativePath The path to store the native libraries. * @returns {Array.} An array containing the paths of each library required by this process. */ classpathArg(mods, tempNativePath){ let cpArgs = [] // Add the version.jar to the classpath. const version = this.versionData.id cpArgs.push(path.join(this.commonDir, 'versions', version, version + '.jar')) if(this.usingLiteLoader){ cpArgs.push(this.llPath) } // Resolve the Mojang declared libraries. const mojangLibs = this._resolveMojangLibraries(tempNativePath) cpArgs = cpArgs.concat(mojangLibs) // Resolve the server declared libraries. const servLibs = this._resolveServerLibraries(mods) cpArgs = cpArgs.concat(servLibs) return cpArgs } /** * Resolve the libraries defined by Mojang's version data. This method will also extract * native libraries and point to the correct location for its classpath. * * TODO - clean up function * * @param {string} tempNativePath The path to store the native libraries. * @returns {Array.} An array containing the paths of each library mojang declares. */ _resolveMojangLibraries(tempNativePath){ const libs = [] const libArr = this.versionData.libraries fs.ensureDirSync(tempNativePath) for(let i=0; i -1){ shouldExclude = true } }) // Extract the file. if(!shouldExclude){ fs.writeFile(path.join(tempNativePath, fileName), zipEntries[i].getData(), (err) => { if(err){ logger.error('Error while extracting native library:', err) } }) } } } } } return libs } /** * Resolve the libraries declared by this server in order to add them to the classpath. * This method will also check each enabled mod for libraries, as mods are permitted to * declare libraries. * * @param {Array.} mods An array of enabled mods which will be launched with this process. * @returns {Array.} An array containing the paths of each library this server requires. */ _resolveServerLibraries(mods){ const mdls = this.server.getModules() let libs = [] // Locate Forge/Libraries for(let mdl of mdls){ const type = mdl.getType() if(type === DistroManager.Types.ForgeHosted || type === DistroManager.Types.Library){ libs.push(mdl.getArtifact().getPath()) if(mdl.hasSubModules()){ const res = this._resolveModuleLibraries(mdl) if(res.length > 0){ libs = libs.concat(res) } } } } //Check for any libraries in our mod list. for(let i=0; i 0){ libs = libs.concat(res) } } } return libs } /** * Recursively resolve the path of each library required by this module. * * @param {Object} mdl A module object from the server distro index. * @returns {Array.} An array containing the paths of each library this module requires. */ _resolveModuleLibraries(mdl){ if(!mdl.hasSubModules()){ return [] } let libs = [] for(let sm of mdl.getSubModules()){ if(sm.getType() === DistroManager.Types.Library){ libs.push(sm.getArtifact().getPath()) } // If this module has submodules, we need to resolve the libraries for those. // To avoid unnecessary recursive calls, base case is checked here. if(mdl.hasSubModules()){ const res = this._resolveModuleLibraries(sm) if(res.length > 0){ libs = libs.concat(res) } } } return libs } } module.exports = ProcessBuilder