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97e9c15baf
SkirdaElectronLauncher/app/assets/js/assetguard.js
Daniel Scalzi a67dac23cf
Fixes related to offline startup. 
Fixed incorrect function name for local distro index loading.
Fixed mojang tooltip not showing statuses when offline.
Added timeout of 2500ms to news loading, remote distro index retrieval, and mojang status loading.
Updates async to fix lodash vulnerability.
2018-05-22 08:41:22 -04:00

1796 lines
67 KiB
JavaScript
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/**
* AssetGuard
*
* This module aims to provide a comprehensive and stable method for processing
* and downloading game assets for the WesterosCraft server. Download meta is
* for several identifiers (categories) is stored inside of an AssetGuard object.
* This meta data is initially empty until one of the module's processing functions
* are called. That function will process the corresponding asset index and validate
* any exisitng local files. If a file is missing or fails validation, it will be
* placed into a download queue (array). This queue is wrapped in a download tracker object
* so that essential information can be cached. The download tracker object is then
* assigned as the value of the identifier in the AssetGuard object. These download
* trackers will remain idle until an async process is started to process them.
*
* Once the async process is started, any enqueued assets will be downloaded. The AssetGuard
* object will emit events throughout the download whose name correspond to the identifier
* being processed. For example, if the 'assets' identifier was being processed, whenever
* the download stream recieves data, the event 'assetsdlprogress' will be emitted off of
* the AssetGuard instance. This can be listened to by external modules allowing for
* categorical tracking of the downloading process.
*
* @module assetguard
*/
// Requirements
const AdmZip = require('adm-zip')
const async = require('async')
const child_process = require('child_process')
const crypto = require('crypto')
const EventEmitter = require('events')
const fs = require('fs')
const isDev = require('electron-is-dev')
const mkpath = require('mkdirp');
const path = require('path')
const Registry = require('winreg')
const request = require('request')
const tar = require('tar-fs')
const zlib = require('zlib')
// Constants
const PLATFORM_MAP = {
win32: '-windows-x64.tar.gz',
darwin: '-macosx-x64.tar.gz',
linux: '-linux-x64.tar.gz'
}
// Classes
/** Class representing a base asset. */
class Asset {
/**
* Create an asset.
*
* @param {any} id The id of the asset.
* @param {string} hash The hash value of the asset.
* @param {number} size The size in bytes of the asset.
* @param {string} from The url where the asset can be found.
* @param {string} to The absolute local file path of the asset.
*/
constructor(id, hash, size, from, to){
this.id = id
this.hash = hash
this.size = size
this.from = from
this.to = to
}
}
/** Class representing a mojang library. */
class Library extends Asset {
/**
* Converts the process.platform OS names to match mojang's OS names.
*/
static mojangFriendlyOS(){
const opSys = process.platform
if (opSys === 'darwin') {
return 'osx';
} else if (opSys === 'win32'){
return 'windows';
} else if (opSys === 'linux'){
return 'linux';
} else {
return 'unknown_os';
}
}
/**
* Checks whether or not a library is valid for download on a particular OS, following
* the rule format specified in the mojang version data index. If the allow property has
* an OS specified, then the library can ONLY be downloaded on that OS. If the disallow
* property has instead specified an OS, the library can be downloaded on any OS EXCLUDING
* the one specified.
*
* @param {Object} rules The Library's download rules.
* @returns {boolean} True if the Library follows the specified rules, otherwise false.
*/
static validateRules(rules){
if(rules == null) return true
let result = true
rules.forEach((rule) => {
const action = rule['action']
const osProp = rule['os']
if(action != null){
if(osProp != null){
const osName = osProp['name']
const osMoj = Library.mojangFriendlyOS()
if(action === 'allow'){
result = osName === osMoj
return
} else if(action === 'disallow'){
result = osName !== osMoj
return
}
}
}
})
return result
}
}
class DistroModule extends Asset {
/**
* Create a DistroModule. This is for processing,
* not equivalent to the module objects in the
* distro index.
*
* @param {any} id The id of the asset.
* @param {string} hash The hash value of the asset.
* @param {number} size The size in bytes of the asset.
* @param {string} from The url where the asset can be found.
* @param {string} to The absolute local file path of the asset.
* @param {string} type The the module type.
*/
constructor(id, hash, size, from, to, type){
super(id, hash, size, from, to)
this.type = type
}
}
/**
* Class representing a download tracker. This is used to store meta data
* about a download queue, including the queue itself.
*/
class DLTracker {
/**
* Create a DLTracker
*
* @param {Array.<Asset>} dlqueue An array containing assets queued for download.
* @param {number} dlsize The combined size of each asset in the download queue array.
* @param {function(Asset)} callback Optional callback which is called when an asset finishes downloading.
*/
constructor(dlqueue, dlsize, callback = null){
this.dlqueue = dlqueue
this.dlsize = dlsize
this.callback = callback
}
}
let distributionData = null
let launchWithLocal = false
/**
* Central object class used for control flow. This object stores data about
* categories of downloads. Each category is assigned an identifier with a
* DLTracker object as its value. Combined information is also stored, such as
* the total size of all the queued files in each category. This event is used
* to emit events so that external modules can listen into processing done in
* this module.
*/
class AssetGuard extends EventEmitter {
/**
* Create an instance of AssetGuard.
* On creation the object's properties are never-null default
* values. Each identifier is resolved to an empty DLTracker.
*
* @param {string} basePath The base path for asset validation (game root).
* @param {string} launcherPath The root launcher directory.
* @param {string} javaexec The path to a java executable which will be used
* to finalize installation.
*/
constructor(basePath, launcherPath, javaexec){
super()
this.totaldlsize = 0
this.progress = 0
this.assets = new DLTracker([], 0)
this.libraries = new DLTracker([], 0)
this.files = new DLTracker([], 0)
this.forge = new DLTracker([], 0)
this.java = new DLTracker([], 0)
this.extractQueue = []
this.basePath = basePath
this.launcherPath = launcherPath
this.javaexec = javaexec
}
// Static Utility Functions
// #region
// Static General Resolve Functions
// #region
/**
* Resolve an artifact id into a path. For example, on windows
* 'net.minecraftforge:forge:1.11.2-13.20.0.2282', '.jar' becomes
* net\minecraftforge\forge\1.11.2-13.20.0.2282\forge-1.11.2-13.20.0.2282.jar
*
* @param {string} artifactid The artifact id string.
* @param {string} extension The extension of the file at the resolved path.
* @returns {string} The resolved relative path from the artifact id.
*/
static _resolvePath(artifactid, extension){
let ps = artifactid.split(':')
let cs = ps[0].split('.')
cs.push(ps[1])
cs.push(ps[2])
cs.push(ps[1].concat('-').concat(ps[2]).concat(extension))
return path.join.apply(path, cs)
}
/**
* Resolve an artifact id into a URL. For example,
* 'net.minecraftforge:forge:1.11.2-13.20.0.2282', '.jar' becomes
* net/minecraftforge/forge/1.11.2-13.20.0.2282/forge-1.11.2-13.20.0.2282.jar
*
* @param {string} artifactid The artifact id string.
* @param {string} extension The extension of the file at the resolved url.
* @returns {string} The resolved relative URL from the artifact id.
*/
static _resolveURL(artifactid, extension){
let ps = artifactid.split(':')
let cs = ps[0].split('.')
cs.push(ps[1])
cs.push(ps[2])
cs.push(ps[1].concat('-').concat(ps[2]).concat(extension))
return cs.join('/')
}
// #endregion
// Static Hash Validation Functions
// #region
/**
* Calculates the hash for a file using the specified algorithm.
*
* @param {Buffer} buf The buffer containing file data.
* @param {string} algo The hash algorithm.
* @returns {string} The calculated hash in hex.
*/
static _calculateHash(buf, algo){
return crypto.createHash(algo).update(buf).digest('hex')
}
/**
* Used to parse a checksums file. This is specifically designed for
* the checksums.sha1 files found inside the forge scala dependencies.
*
* @param {string} content The string content of the checksums file.
* @returns {Object} An object with keys being the file names, and values being the hashes.
*/
static _parseChecksumsFile(content){
let finalContent = {}
let lines = content.split('\n')
for(let i=0; i<lines.length; i++){
let bits = lines[i].split(' ')
if(bits[1] == null) {
continue
}
finalContent[bits[1]] = bits[0]
}
return finalContent
}
/**
* Validate that a file exists and matches a given hash value.
*
* @param {string} filePath The path of the file to validate.
* @param {string} algo The hash algorithm to check against.
* @param {string} hash The existing hash to check against.
* @returns {boolean} True if the file exists and calculated hash matches the given hash, otherwise false.
*/
static _validateLocal(filePath, algo, hash){
if(fs.existsSync(filePath)){
//No hash provided, have to assume it's good.
if(hash == null){
return true
}
let fileName = path.basename(filePath)
let buf = fs.readFileSync(filePath)
let calcdhash = AssetGuard._calculateHash(buf, algo)
return calcdhash === hash
}
return false;
}
/**
* Validates a file in the style used by forge's version index.
*
* @param {string} filePath The path of the file to validate.
* @param {Array.<string>} checksums The checksums listed in the forge version index.
* @returns {boolean} True if the file exists and the hashes match, otherwise false.
*/
static _validateForgeChecksum(filePath, checksums){
if(fs.existsSync(filePath)){
if(checksums == null || checksums.length === 0){
return true
}
let buf = fs.readFileSync(filePath)
let calcdhash = AssetGuard._calculateHash(buf, 'sha1')
let valid = checksums.includes(calcdhash)
if(!valid && filePath.endsWith('.jar')){
valid = AssetGuard._validateForgeJar(filePath, checksums)
}
return valid
}
return false
}
/**
* Validates a forge jar file dependency who declares a checksums.sha1 file.
* This can be an expensive task as it usually requires that we calculate thousands
* of hashes.
*
* @param {Buffer} buf The buffer of the jar file.
* @param {Array.<string>} checksums The checksums listed in the forge version index.
* @returns {boolean} True if all hashes declared in the checksums.sha1 file match the actual hashes.
*/
static _validateForgeJar(buf, checksums){
// Double pass method was the quickest I found. I tried a version where we store data
// to only require a single pass, plus some quick cleanup but that seemed to take slightly more time.
const hashes = {}
let expected = {}
const zip = new AdmZip(buf)
const zipEntries = zip.getEntries()
//First pass
for(let i=0; i<zipEntries.length; i++){
let entry = zipEntries[i]
if(entry.entryName === 'checksums.sha1'){
expected = AssetGuard._parseChecksumsFile(zip.readAsText(entry))
}
hashes[entry.entryName] = AssetGuard._calculateHash(entry.getData(), 'sha1')
}
if(!checksums.includes(hashes['checksums.sha1'])){
return false
}
//Check against expected
const expectedEntries = Object.keys(expected)
for(let i=0; i<expectedEntries.length; i++){
if(expected[expectedEntries[i]] !== hashes[expectedEntries[i]]){
return false
}
}
return true
}
// #endregion
// Static Distribution Index Functions
// #region
/**
* Retrieve a new copy of the distribution index from our servers.
*
* @param {string} launcherPath The root launcher directory.
* @returns {Promise.<Object>} A promise which resolves to the distribution data object.
*/
static refreshDistributionDataRemote(launcherPath){
return new Promise((resolve, reject) => {
const distroURL = 'http://mc.westeroscraft.com/WesterosCraftLauncher/westeroscraft.json'
const opts = {
url: distroURL,
timeout: 2500
}
const distroDest = path.join(launcherPath, 'westeroscraft.json')
request(opts, (error, resp, body) => {
if(!error){
distributionData = JSON.parse(body)
fs.writeFile(distroDest, body, 'utf-8', (err) => {
if(!err){
resolve(distributionData)
} else {
reject(err)
}
})
} else {
reject(error)
}
})
})
}
/**
* Retrieve a local copy of the distribution index asynchronously.
*
* @param {string} launcherPath The root launcher directory.
* @returns {Promise.<Object>} A promise which resolves to the distribution data object.
*/
static refreshDistributionDataLocal(launcherPath){
return new Promise((resolve, reject) => {
fs.readFile(path.join(launcherPath, 'westeroscraft.json'), 'utf-8', (err, data) => {
if(!err){
distributionData = JSON.parse(data)
resolve(distributionData)
} else {
reject(err)
}
})
})
}
/**
* Retrieve a local copy of the distribution index synchronously.
*
* @param {string} launcherPath The root launcher directory.
* @returns {Object} The distribution data object.
*/
static refreshDistributionDataLocalSync(launcherPath){
distributionData = JSON.parse(fs.readFileSync(path.join(launcherPath, 'westeroscraft.json'), 'utf-8'))
return distributionData
}
/**
* Get a cached copy of the distribution index.
*/
static getDistributionData(){
return distributionData
}
/**
* Resolve the default selected server from the distribution index.
*
* @returns {Object} An object resolving to the default selected server.
*/
static resolveSelectedServer(){
const distro = AssetGuard.getDistributionData()
const servers = distro.servers
for(let i=0; i<servers.length; i++){
if(servers[i].default_selected){
return servers[i]
}
}
// If no server declares default_selected, default to the first one declared.
return (servers.length > 0) ? servers[0] : null
}
/**
* Gets a server from the distro index which maches the provided ID.
* Returns null if the ID could not be found or the distro index has
* not yet been loaded.
*
* @param {string} serverID The id of the server to retrieve.
* @returns {Object} The server object whose id matches the parameter.
*/
static getServerById(serverID){
const distro = AssetGuard.getDistributionData()
const servers = distro.servers
let serv = null
for(let i=0; i<servers.length; i++){
if(servers[i].id === serverID){
serv = servers[i]
}
}
return serv
}
/**
* Set whether or not we should launch with a local copy of the distribution
* index. This is useful for testing experimental changes to the distribution index.
*
* @param {boolean} value True if we should launch with a local copy. Otherwise false.
*/
static launchWithLocal(value, silent = false){
if(!silent){
if(value){
console.log('%c[AssetGuard]', 'color: #a02d2a; font-weight: bold', 'Will now launch using a local copy of the distribution index.')
console.log('%c[AssetGuard]', 'color: #a02d2a; font-weight: bold', 'Unless you are a developer, revert this change immediately.')
} else {
console.log('%c[AssetGuard]', 'color: #a02d2a; font-weight: bold', 'Will now retrieve a fresh copy of the distribution index on launch.')
}
}
launchWithLocal = value
}
/**
* Check if AssetGuard is configured to launch with a local copy
* of the distribution index.
*
* @returns {boolean} True if launching with local, otherwise false.
*/
static isLocalLaunch(){
return launchWithLocal
}
// #endregion
// Miscellaneous Static Functions
// #region
/**
* Extracts and unpacks a file from .pack.xz format.
*
* @param {Array.<string>} filePaths The paths of the files to be extracted and unpacked.
* @returns {Promise.<void>} An empty promise to indicate the extraction has completed.
*/
static _extractPackXZ(filePaths, javaExecutable){
console.log('[PackXZExtract] Starting')
return new Promise((resolve, reject) => {
let libPath
if(isDev){
libPath = path.join(process.cwd(), 'libraries', 'java', 'PackXZExtract.jar')
} else {
if(process.platform === 'darwin'){
libPath = path.join(process.cwd(),'Contents', 'Resources', 'libraries', 'java', 'PackXZExtract.jar')
} else {
libPath = path.join(process.cwd(), 'resources', 'libraries', 'java', 'PackXZExtract.jar')
}
}
const filePath = filePaths.join(',')
const child = child_process.spawn(javaExecutable, ['-jar', libPath, '-packxz', filePath])
child.stdout.on('data', (data) => {
console.log('[PackXZExtract]', data.toString('utf8'))
})
child.stderr.on('data', (data) => {
console.log('[PackXZExtract]', data.toString('utf8'))
})
child.on('close', (code, signal) => {
console.log('[PackXZExtract]', 'Exited with code', code)
resolve()
})
})
}
/**
* Function which finalizes the forge installation process. This creates a 'version'
* instance for forge and saves its version.json file into that instance. If that
* instance already exists, the contents of the version.json file are read and returned
* in a promise.
*
* @param {Asset} asset The Asset object representing Forge.
* @param {string} basePath Base path for asset validation (game root).
* @returns {Promise.<Object>} A promise which resolves to the contents of forge's version.json.
*/
static _finalizeForgeAsset(asset, basePath){
return new Promise((resolve, reject) => {
fs.readFile(asset.to, (err, data) => {
const zip = new AdmZip(data)
const zipEntries = zip.getEntries()
for(let i=0; i<zipEntries.length; i++){
if(zipEntries[i].entryName === 'version.json'){
const forgeVersion = JSON.parse(zip.readAsText(zipEntries[i]))
const versionPath = path.join(basePath, 'versions', forgeVersion.id)
const versionFile = path.join(versionPath, forgeVersion.id + '.json')
if(!fs.existsSync(versionFile)){
mkpath.sync(versionPath)
fs.writeFileSync(path.join(versionPath, forgeVersion.id + '.json'), zipEntries[i].getData())
resolve(forgeVersion)
} else {
//Read the saved file to allow for user modifications.
resolve(JSON.parse(fs.readFileSync(versionFile, 'utf-8')))
}
return
}
}
//We didn't find forge's version.json.
reject('Unable to finalize Forge processing, version.json not found! Has forge changed their format?')
})
})
}
// #endregion
// Static Java Utility
// #region
/**
* @typedef OracleJREData
* @property {string} uri The base uri of the JRE.
* @property {{major: string, update: string, build: string}} version Object containing version information.
*/
/**
* Resolves the latest version of Oracle's JRE and parses its download link.
*
* @returns {Promise.<OracleJREData>} Promise which resolved to an object containing the JRE download data.
*/
static _latestJREOracle(){
const url = 'http://www.oracle.com/technetwork/java/javase/downloads/jre8-downloads-2133155.html'
const regex = /http:\/\/.+?(?=\/java)\/java\/jdk\/([0-9]+u[0-9]+)-(b[0-9]+)\/([a-f0-9]{32})?\/jre-\1/
return new Promise((resolve, reject) => {
request(url, (err, resp, body) => {
if(!err){
const arr = body.match(regex)
const verSplit = arr[1].split('u')
resolve({
uri: arr[0],
version: {
major: verSplit[0],
update: verSplit[1],
build: arr[2]
}
})
} else {
resolve(null)
}
})
})
}
/**
* Returns the path of the OS-specific executable for the given Java
* installation. Supported OS's are win32, darwin, linux.
*
* @param {string} rootDir The root directory of the Java installation.
* @returns {string} The path to the Java executable.
*/
static javaExecFromRoot(rootDir){
if(process.platform === 'win32'){
return path.join(rootDir, 'bin', 'javaw.exe')
} else if(process.platform === 'darwin'){
return path.join(rootDir, 'Contents', 'Home', 'bin', 'java')
} else if(process.platform === 'linux'){
return path.join(rootDir, 'bin', 'java')
}
return rootDir
}
/**
* Check to see if the given path points to a Java executable.
*
* @param {string} pth The path to check against.
* @returns {boolean} True if the path points to a Java executable, otherwise false.
*/
static isJavaExecPath(pth){
if(process.platform === 'win32'){
return pth.endsWith(path.join('bin', 'javaw.exe'))
} else if(process.platform === 'darwin'){
return pth.endsWith(path.join('bin', 'java'))
} else if(process.platform === 'linux'){
return pth.endsWith(path.join('bin', 'java'))
}
return false
}
/**
* Load Mojang's launcher.json file.
*
* @returns {Promise.<Object>} Promise which resolves to Mojang's launcher.json object.
*/
static loadMojangLauncherData(){
return new Promise((resolve, reject) => {
request.get('https://launchermeta.mojang.com/mc/launcher.json', (err, resp, body) => {
if(err){
resolve(null)
} else {
resolve(JSON.parse(body))
}
})
})
}
/**
* Parses a **full** Java Runtime version string and resolves
* the version information. Uses Java 8 formatting.
*
* @param {string} verString Full version string to parse.
* @returns Object containing the version information.
*/
static parseJavaRuntimeVersion(verString){
// 1.{major}.0_{update}-b{build}
// ex. 1.8.0_152-b16
const ret = {}
let pts = verString.split('-')
ret.build = parseInt(pts[1].substring(1))
pts = pts[0].split('_')
ret.update = parseInt(pts[1])
ret.major = parseInt(pts[0].split('.')[1])
return ret
}
/**
* Validates the output of a JVM's properties. Currently validates that a JRE is x64
* and that the major = 8, update > 52.
*
* @param {string} stderr The output to validate.
*
* @returns {Promise.<Object>} A promise which resolves to a meta object about the JVM.
* The validity is stored inside the `valid` property.
*/
static _validateJVMProperties(stderr){
const res = stderr
const props = res.split('\n')
const goal = 2
let checksum = 0
const meta = {}
for(let i=0; i<props.length; i++){
if(props[i].indexOf('sun.arch.data.model') > -1){
let arch = props[i].split('=')[1].trim()
arch = parseInt(arch)
console.log(props[i].trim())
if(arch === 64){
meta.arch = arch
++checksum
if(checksum === goal){
break
}
}
} else if(props[i].indexOf('java.runtime.version') > -1){
let verString = props[i].split('=')[1].trim()
console.log(props[i].trim())
const verOb = AssetGuard.parseJavaRuntimeVersion(verString)
if(verOb.major === 8 && verOb.update > 52){
meta.version = verOb
++checksum
if(checksum === goal){
break
}
}
}
}
meta.valid = checksum === goal
return meta
}
/**
* Validates that a Java binary is at least 64 bit. This makes use of the non-standard
* command line option -XshowSettings:properties. The output of this contains a property,
* sun.arch.data.model = ARCH, in which ARCH is either 32 or 64. This option is supported
* in Java 8 and 9. Since this is a non-standard option. This will resolve to true if
* the function's code throws errors. That would indicate that the option is changed or
* removed.
*
* @param {string} binaryExecPath Path to the java executable we wish to validate.
*
* @returns {Promise.<Object>} A promise which resolves to a meta object about the JVM.
* The validity is stored inside the `valid` property.
*/
static _validateJavaBinary(binaryExecPath){
return new Promise((resolve, reject) => {
if(fs.existsSync(binaryExecPath)){
child_process.exec('"' + binaryExecPath + '" -XshowSettings:properties', (err, stdout, stderr) => {
try {
// Output is stored in stderr?
resolve(this._validateJVMProperties(stderr))
} catch (err){
// Output format might have changed, validation cannot be completed.
resolve({valid: false})
}
})
} else {
resolve({valid: false})
}
})
}
/**
* Checks for the presence of the environment variable JAVA_HOME. If it exits, we will check
* to see if the value points to a path which exists. If the path exits, the path is returned.
*
* @returns {string} The path defined by JAVA_HOME, if it exists. Otherwise null.
*/
static _scanJavaHome(){
const jHome = process.env.JAVA_HOME
try {
let res = fs.existsSync(jHome)
return res ? jHome : null
} catch (err) {
// Malformed JAVA_HOME property.
return null
}
}
/**
* Scans the registry for 64-bit Java entries. The paths of each entry are added to
* a set and returned. Currently, only Java 8 (1.8) is supported.
*
* @returns {Promise.<Set.<string>>} A promise which resolves to a set of 64-bit Java root
* paths found in the registry.
*/
static _scanRegistry(){
return new Promise((resolve, reject) => {
// Keys for Java v9.0.0 and later:
// 'SOFTWARE\\JavaSoft\\JRE'
// 'SOFTWARE\\JavaSoft\\JDK'
// Forge does not yet support Java 9, therefore we do not.
// Keys for Java 1.8 and prior:
const regKeys = [
'\\SOFTWARE\\JavaSoft\\Java Runtime Environment',
'\\SOFTWARE\\JavaSoft\\Java Development Kit'
]
let keysDone = 0
const candidates = new Set()
for(let i=0; i<regKeys.length; i++){
const key = new Registry({
hive: Registry.HKLM,
key: regKeys[i],
arch: 'x64'
})
key.keyExists((err, exists) => {
if(exists) {
key.keys((err, javaVers) => {
if(err){
keysDone++
console.error(err)
// REG KEY DONE
// DUE TO ERROR
if(keysDone === regKeys.length){
resolve(candidates)
}
} else {
if(javaVers.length === 0){
// REG KEY DONE
// NO SUBKEYS
keysDone++
if(keysDone === regKeys.length){
resolve(candidates)
}
} else {
let numDone = 0
for(let j=0; j<javaVers.length; j++){
const javaVer = javaVers[j]
const vKey = javaVer.key.substring(javaVer.key.lastIndexOf('\\')+1)
// Only Java 8 is supported currently.
if(parseFloat(vKey) === 1.8){
javaVer.get('JavaHome', (err, res) => {
const jHome = res.value
if(jHome.indexOf('(x86)') === -1){
candidates.add(jHome)
}
// SUBKEY DONE
numDone++
if(numDone === javaVers.length){
keysDone++
if(keysDone === regKeys.length){
resolve(candidates)
}
}
})
} else {
// SUBKEY DONE
// NOT JAVA 8
numDone++
if(numDone === javaVers.length){
keysDone++
if(keysDone === regKeys.length){
resolve(candidates)
}
}
}
}
}
}
})
} else {
// REG KEY DONE
// DUE TO NON-EXISTANCE
keysDone++
if(keysDone === regKeys.length){
resolve(candidates)
}
}
})
}
})
}
/**
* See if JRE exists in the Internet Plug-Ins folder.
*
* @returns {string} The path of the JRE if found, otherwise null.
*/
static _scanInternetPlugins(){
// /Library/Internet Plug-Ins/JavaAppletPlugin.plugin/Contents/Home/bin/java
const pth = '/Library/Internet Plug-Ins/JavaAppletPlugin.plugin'
const res = fs.existsSync(AssetGuard.javaExecFromRoot(pth))
return res ? pth : null
}
/**
* Scan a directory for root JVM folders.
*
* @param {string} scanDir The directory to scan.
* @returns {Promise.<Set.<string>>} A promise which resolves to a set of the discovered
* root JVM folders.
*/
static _scanFileSystem(scanDir){
return new Promise((resolve, reject) => {
fs.exists(scanDir, (e) => {
let res = new Set()
if(e){
fs.readdir(scanDir, (err, files) => {
if(err){
resolve(res)
console.log(err)
} else {
let pathsDone = 0
for(let i=0; i<files.length; i++){
const combinedPath = path.join(scanDir, files[i])
const execPath = AssetGuard.javaExecFromRoot(combinedPath)
fs.exists(execPath, (v) => {
if(v){
res.add(combinedPath)
}
++pathsDone
if(pathsDone === files.length){
resolve(res)
}
})
}
if(pathsDone === files.length){
resolve(res)
}
}
})
} else {
resolve(res)
}
})
})
}
/**
*
* @param {Set.<string>} rootSet A set of JVM root strings to validate.
* @returns {Promise.<Object[]>} A promise which resolves to an array of meta objects
* for each valid JVM root directory.
*/
static async _validateJavaRootSet(rootSet){
const rootArr = Array.from(rootSet)
const validArr = []
for(let i=0; i<rootArr.length; i++){
const execPath = AssetGuard.javaExecFromRoot(rootArr[i])
const metaOb = await AssetGuard._validateJavaBinary(execPath)
if(metaOb.valid){
metaOb.execPath = execPath
validArr.push(metaOb)
}
}
return validArr
}
/**
* Sort an array of JVM meta objects. Best candidates are placed before all others.
* Sorts based on version and gives priority to JREs over JDKs if versions match.
*
* @param {Object[]} validArr An array of JVM meta objects.
* @returns {Object[]} A sorted array of JVM meta objects.
*/
static _sortValidJavaArray(validArr){
const retArr = validArr.sort((a, b) => {
// Note that Java 9+ uses semver and that will need to be accounted for in
// the future.
if(a.version.major === b.version.major){
if(a.version.update === b.version.update){
if(a.version.build === b.version.build){
// Same version, give priority to JRE.
if(a.execPath.toLowerCase().indexOf('jdk') > -1){
return b.execPath.toLowerCase().indexOf('jdk') > -1 ? 0 : 1
} else {
return -1
}
} else {
return a.version.build > b.version.build ? -1 : 1
}
} else {
return a.version.update > b.version.update ? -1 : 1
}
} else {
return a.version.major > b.version.major ? -1 : 1
}
})
return retArr
}
/**
* Attempts to find a valid x64 installation of Java on Windows machines.
* Possible paths will be pulled from the registry and the JAVA_HOME environment
* variable. The paths will be sorted with higher versions preceeding lower, and
* JREs preceeding JDKs. The binaries at the sorted paths will then be validated.
* The first validated is returned.
*
* Higher versions > Lower versions
* If versions are equal, JRE > JDK.
*
* @param {string} dataDir The base launcher directory.
* @returns {Promise.<string>} A Promise which resolves to the executable path of a valid
* x64 Java installation. If none are found, null is returned.
*/
static async _win32JavaValidate(dataDir){
// Get possible paths from the registry.
let pathSet1 = await AssetGuard._scanRegistry()
if(pathSet1.length === 0){
// Do a manual file system scan of program files.
pathSet1 = AssetGuard._scanFileSystem('C:\\Program Files\\Java')
}
// Get possible paths from the data directory.
const pathSet2 = await AssetGuard._scanFileSystem(path.join(dataDir, 'runtime', 'x64'))
// Merge the results.
const uberSet = new Set([...pathSet1, ...pathSet2])
// Validate JAVA_HOME.
const jHome = AssetGuard._scanJavaHome()
if(jHome != null && jHome.indexOf('(x86)') === -1){
uberSet.add(jHome)
}
let pathArr = await AssetGuard._validateJavaRootSet(uberSet)
pathArr = AssetGuard._sortValidJavaArray(pathArr)
if(pathArr.length > 0){
return pathArr[0].execPath
} else {
return null
}
}
/**
* Attempts to find a valid x64 installation of Java on MacOS.
* The system JVM directory is scanned for possible installations.
* The JAVA_HOME enviroment variable and internet plugins directory
* are also scanned and validated.
*
* Higher versions > Lower versions
* If versions are equal, JRE > JDK.
*
* @param {string} dataDir The base launcher directory.
* @returns {Promise.<string>} A Promise which resolves to the executable path of a valid
* x64 Java installation. If none are found, null is returned.
*/
static async _darwinJavaValidate(dataDir){
const pathSet1 = await AssetGuard._scanFileSystem('/Library/Java/JavaVirtualMachines')
const pathSet2 = await AssetGuard._scanFileSystem(path.join(dataDir, 'runtime', 'x64'))
const uberSet = new Set([...pathSet1, ...pathSet2])
// Check Internet Plugins folder.
const iPPath = AssetGuard._scanInternetPlugins()
if(iPPath != null){
uberSet.add(iPPath)
}
// Check the JAVA_HOME environment variable.
const jHome = AssetGuard._scanJavaHome()
if(jHome != null){
// Ensure we are at the absolute root.
if(jHome.contains('/Contents/Home')){
jHome = jHome.substring(0, jHome.indexOf('/Contents/Home'))
}
uberSet.add(jHome)
}
let pathArr = await AssetGuard._validateJavaRootSet(uberSet)
pathArr = AssetGuard._sortValidJavaArray(pathArr)
if(pathArr.length > 0){
return pathArr[0].execPath
} else {
return null
}
}
/**
* Attempts to find a valid x64 installation of Java on Linux.
* The system JVM directory is scanned for possible installations.
* The JAVA_HOME enviroment variable is also scanned and validated.
*
* Higher versions > Lower versions
* If versions are equal, JRE > JDK.
*
* @param {string} dataDir The base launcher directory.
* @returns {Promise.<string>} A Promise which resolves to the executable path of a valid
* x64 Java installation. If none are found, null is returned.
*/
static async _linuxJavaValidate(dataDir){
const pathSet1 = await AssetGuard._scanFileSystem('/usr/lib/jvm')
const pathSet2 = await AssetGuard._scanFileSystem(path.join(dataDir, 'runtime', 'x64'))
const uberSet = new Set([...pathSet1, ...pathSet2])
// Validate JAVA_HOME
const jHome = AssetGuard._scanJavaHome()
if(jHome != null){
uberSet.add(jHome)
}
let pathArr = await AssetGuard._validateJavaRootSet(uberSet)
pathArr = AssetGuard._sortValidJavaArray(pathArr)
if(pathArr.length > 0){
return pathArr[0].execPath
} else {
return null
}
}
/**
* Retrieve the path of a valid x64 Java installation.
*
* @param {string} dataDir The base launcher directory.
* @returns {string} A path to a valid x64 Java installation, null if none found.
*/
static async validateJava(dataDir){
return await AssetGuard['_' + process.platform + 'JavaValidate'](dataDir)
}
// #endregion
// #endregion
// Validation Functions
// #region
/**
* Loads the version data for a given minecraft version.
*
* @param {string} version The game version for which to load the index data.
* @param {boolean} force Optional. If true, the version index will be downloaded even if it exists locally. Defaults to false.
* @returns {Promise.<Object>} Promise which resolves to the version data object.
*/
loadVersionData(version, force = false){
const self = this
return new Promise((resolve, reject) => {
const name = version + '.json'
const url = 'https://s3.amazonaws.com/Minecraft.Download/versions/' + version + '/' + name
const versionPath = path.join(self.basePath, 'versions', version)
const versionFile = path.join(versionPath, name)
if(!fs.existsSync(versionFile) || force){
//This download will never be tracked as it's essential and trivial.
console.log('Preparing download of ' + version + ' assets.')
mkpath.sync(versionPath)
const stream = request(url).pipe(fs.createWriteStream(versionFile))
stream.on('finish', () => {
resolve(JSON.parse(fs.readFileSync(versionFile)))
})
} else {
resolve(JSON.parse(fs.readFileSync(versionFile)))
}
})
}
// Asset (Category=''') Validation Functions
// #region
/**
* Public asset validation function. This function will handle the validation of assets.
* It will parse the asset index specified in the version data, analyzing each
* asset entry. In this analysis it will check to see if the local file exists and is valid.
* If not, it will be added to the download queue for the 'assets' identifier.
*
* @param {Object} versionData The version data for the assets.
* @param {boolean} force Optional. If true, the asset index will be downloaded even if it exists locally. Defaults to false.
* @returns {Promise.<void>} An empty promise to indicate the async processing has completed.
*/
validateAssets(versionData, force = false){
const self = this
return new Promise((resolve, reject) => {
self._assetChainIndexData(versionData, force).then(() => {
resolve()
})
})
}
//Chain the asset tasks to provide full async. The below functions are private.
/**
* Private function used to chain the asset validation process. This function retrieves
* the index data.
* @param {Object} versionData
* @param {boolean} force
* @returns {Promise.<void>} An empty promise to indicate the async processing has completed.
*/
_assetChainIndexData(versionData, force = false){
const self = this
return new Promise((resolve, reject) => {
//Asset index constants.
const assetIndex = versionData.assetIndex
const name = assetIndex.id + '.json'
const indexPath = path.join(self.basePath, 'assets', 'indexes')
const assetIndexLoc = path.join(indexPath, name)
let data = null
if(!fs.existsSync(assetIndexLoc) || force){
console.log('Downloading ' + versionData.id + ' asset index.')
mkpath.sync(indexPath)
const stream = request(assetIndex.url).pipe(fs.createWriteStream(assetIndexLoc))
stream.on('finish', () => {
data = JSON.parse(fs.readFileSync(assetIndexLoc, 'utf-8'))
self._assetChainValidateAssets(versionData, data).then(() => {
resolve()
})
})
} else {
data = JSON.parse(fs.readFileSync(assetIndexLoc, 'utf-8'))
self._assetChainValidateAssets(versionData, data).then(() => {
resolve()
})
}
})
}
/**
* Private function used to chain the asset validation process. This function processes
* the assets and enqueues missing or invalid files.
* @param {Object} versionData
* @param {boolean} force
* @returns {Promise.<void>} An empty promise to indicate the async processing has completed.
*/
_assetChainValidateAssets(versionData, indexData){
const self = this
return new Promise((resolve, reject) => {
//Asset constants
const resourceURL = 'http://resources.download.minecraft.net/'
const localPath = path.join(self.basePath, 'assets')
const indexPath = path.join(localPath, 'indexes')
const objectPath = path.join(localPath, 'objects')
const assetDlQueue = []
let dlSize = 0
let acc = 0
const total = Object.keys(indexData.objects).length
//const objKeys = Object.keys(data.objects)
async.forEachOfLimit(indexData.objects, 10, (value, key, cb) => {
acc++
self.emit('assetVal', {acc, total})
const hash = value.hash
const assetName = path.join(hash.substring(0, 2), hash)
const urlName = hash.substring(0, 2) + "/" + hash
const ast = new Asset(key, hash, String(value.size), resourceURL + urlName, path.join(objectPath, assetName))
if(!AssetGuard._validateLocal(ast.to, 'sha1', ast.hash)){
dlSize += (ast.size*1)
assetDlQueue.push(ast)
}
cb()
}, (err) => {
self.assets = new DLTracker(assetDlQueue, dlSize)
resolve()
})
})
}
// #endregion
// Library (Category=''') Validation Functions
// #region
/**
* Public library validation function. This function will handle the validation of libraries.
* It will parse the version data, analyzing each library entry. In this analysis, it will
* check to see if the local file exists and is valid. If not, it will be added to the download
* queue for the 'libraries' identifier.
*
* @param {Object} versionData The version data for the assets.
* @returns {Promise.<void>} An empty promise to indicate the async processing has completed.
*/
validateLibraries(versionData){
const self = this
return new Promise((resolve, reject) => {
const libArr = versionData.libraries
const libPath = path.join(self.basePath, 'libraries')
const libDlQueue = []
let dlSize = 0
//Check validity of each library. If the hashs don't match, download the library.
async.eachLimit(libArr, 5, (lib, cb) => {
if(Library.validateRules(lib.rules)){
let artifact = (lib.natives == null) ? lib.downloads.artifact : lib.downloads.classifiers[lib.natives[Library.mojangFriendlyOS()]]
const libItm = new Library(lib.name, artifact.sha1, artifact.size, artifact.url, path.join(libPath, artifact.path))
if(!AssetGuard._validateLocal(libItm.to, 'sha1', libItm.hash)){
dlSize += (libItm.size*1)
libDlQueue.push(libItm)
}
}
cb()
}, (err) => {
self.libraries = new DLTracker(libDlQueue, dlSize)
resolve()
})
})
}
// #endregion
// Miscellaneous (Category=files) Validation Functions
// #region
/**
* Public miscellaneous mojang file validation function. These files will be enqueued under
* the 'files' identifier.
*
* @param {Object} versionData The version data for the assets.
* @returns {Promise.<void>} An empty promise to indicate the async processing has completed.
*/
validateMiscellaneous(versionData){
const self = this
return new Promise(async (resolve, reject) => {
await self.validateClient(versionData)
await self.validateLogConfig(versionData)
resolve()
})
}
/**
* Validate client file - artifact renamed from client.jar to '{version}'.jar.
*
* @param {Object} versionData The version data for the assets.
* @param {boolean} force Optional. If true, the asset index will be downloaded even if it exists locally. Defaults to false.
* @returns {Promise.<void>} An empty promise to indicate the async processing has completed.
*/
validateClient(versionData, force = false){
const self = this
return new Promise((resolve, reject) => {
const clientData = versionData.downloads.client
const version = versionData.id
const targetPath = path.join(self.basePath, 'versions', version)
const targetFile = version + '.jar'
let client = new Asset(version + ' client', clientData.sha1, clientData.size, clientData.url, path.join(targetPath, targetFile))
if(!AssetGuard._validateLocal(client.to, 'sha1', client.hash) || force){
self.files.dlqueue.push(client)
self.files.dlsize += client.size*1
resolve()
} else {
resolve()
}
})
}
/**
* Validate log config.
*
* @param {Object} versionData The version data for the assets.
* @param {boolean} force Optional. If true, the asset index will be downloaded even if it exists locally. Defaults to false.
* @returns {Promise.<void>} An empty promise to indicate the async processing has completed.
*/
validateLogConfig(versionData){
const self = this
return new Promise((resolve, reject) => {
const client = versionData.logging.client
const file = client.file
const targetPath = path.join(self.basePath, 'assets', 'log_configs')
let logConfig = new Asset(file.id, file.sha1, file.size, file.url, path.join(targetPath, file.id))
if(!AssetGuard._validateLocal(logConfig.to, 'sha1', logConfig.hash)){
self.files.dlqueue.push(logConfig)
self.files.dlsize += logConfig.size*1
resolve()
} else {
resolve()
}
})
}
// #endregion
// Distribution (Category=forge) Validation Functions
// #region
/**
* Validate the distribution.
*
* @param {string} serverpackid The id of the server to validate.
* @returns {Promise.<Object>} A promise which resolves to the server distribution object.
*/
validateDistribution(serverpackid){
const self = this
return new Promise((resolve, reject) => {
AssetGuard.refreshDistributionDataLocal(self.launcherPath).then((v) => {
const serv = AssetGuard.getServerById(serverpackid)
if(serv == null) {
console.error('Invalid server pack id:', serverpackid)
}
self.forge = self._parseDistroModules(serv.modules, serv.mc_version)
// Correct our workaround here.
let decompressqueue = self.forge.callback
self.extractQueue = decompressqueue
self.forge.callback = (asset, self) => {
if(asset.type === 'forge-hosted' || asset.type === 'forge'){
AssetGuard._finalizeForgeAsset(asset, self.basePath)
}
}
resolve(serv)
})
})
}
_parseDistroModules(modules, version){
let alist = []
let asize = 0;
let decompressqueue = []
for(let i=0; i<modules.length; i++){
let ob = modules[i]
let obType = ob.type
let obArtifact = ob.artifact
let obPath = obArtifact.path == null ? AssetGuard._resolvePath(ob.id, obArtifact.extension) : obArtifact.path
switch(obType){
case 'forge-hosted':
case 'forge':
case 'library':
obPath = path.join(this.basePath, 'libraries', obPath)
break
case 'forgemod':
//obPath = path.join(this.basePath, 'mods', obPath)
obPath = path.join(this.basePath, 'modstore', obPath)
break
case 'litemod':
//obPath = path.join(this.basePath, 'mods', version, obPath)
obPath = path.join(this.basePath, 'modstore', obPath)
break
case 'file':
default:
obPath = path.join(this.basePath, obPath)
}
let artifact = new DistroModule(ob.id, obArtifact.MD5, obArtifact.size, obArtifact.url, obPath, obType)
const validationPath = obPath.toLowerCase().endsWith('.pack.xz') ? obPath.substring(0, obPath.toLowerCase().lastIndexOf('.pack.xz')) : obPath
if(!AssetGuard._validateLocal(validationPath, 'MD5', artifact.hash)){
asize += artifact.size*1
alist.push(artifact)
if(validationPath !== obPath) decompressqueue.push(obPath)
}
//Recursively process the submodules then combine the results.
if(ob.sub_modules != null){
let dltrack = this._parseDistroModules(ob.sub_modules, version)
asize += dltrack.dlsize*1
alist = alist.concat(dltrack.dlqueue)
decompressqueue = decompressqueue.concat(dltrack.callback)
}
}
//Since we have no callback at this point, we use this value to store the decompressqueue.
return new DLTracker(alist, asize, decompressqueue)
}
/**
* Loads Forge's version.json data into memory for the specified server id.
*
* @param {string} serverpack The id of the server to load Forge data for.
* @returns {Promise.<Object>} A promise which resolves to Forge's version.json data.
*/
loadForgeData(serverpack){
const self = this
return new Promise(async (resolve, reject) => {
let distro = AssetGuard.getDistributionData()
const servers = distro.servers
let serv = null
for(let i=0; i<servers.length; i++){
if(servers[i].id === serverpack){
serv = servers[i]
break
}
}
const modules = serv.modules
for(let i=0; i<modules.length; i++){
const ob = modules[i]
if(ob.type === 'forge-hosted' || ob.type === 'forge'){
let obArtifact = ob.artifact
let obPath = obArtifact.path == null ? path.join(self.basePath, 'libraries', AssetGuard._resolvePath(ob.id, obArtifact.extension)) : obArtifact.path
let asset = new DistroModule(ob.id, obArtifact.MD5, obArtifact.size, obArtifact.url, obPath, ob.type)
let forgeData = await AssetGuard._finalizeForgeAsset(asset, self.basePath)
resolve(forgeData)
return
}
}
reject('No forge module found!')
})
}
_parseForgeLibraries(){
/* TODO
* Forge asset validations are already implemented. When there's nothing much
* to work on, implement forge downloads using forge's version.json. This is to
* have the code on standby if we ever need it (since it's half implemented already).
*/
}
// #endregion
// Java (Category=''') Validation (download) Functions
// #region
_enqueueOracleJRE(dataDir){
return new Promise((resolve, reject) => {
AssetGuard._latestJREOracle().then(verData => {
if(verData != null){
const combined = verData.uri + PLATFORM_MAP[process.platform]
const opts = {
url: combined,
headers: {
'Cookie': 'oraclelicense=accept-securebackup-cookie'
}
}
request.head(opts, (err, resp, body) => {
if(err){
resolve(false)
} else {
dataDir = path.join(dataDir, 'runtime', 'x64')
const name = combined.substring(combined.lastIndexOf('/')+1)
const fDir = path.join(dataDir, name)
const jre = new Asset(name, null, resp.headers['content-length'], opts, fDir)
this.java = new DLTracker([jre], jre.size, (a, self) => {
let h = null
fs.createReadStream(a.to)
.on('error', err => console.log(err))
.pipe(zlib.createGunzip())
.on('error', err => console.log(err))
.pipe(tar.extract(dataDir, {
map: (header) => {
if(h == null){
h = header.name
}
}
}))
.on('error', err => console.log(err))
.on('finish', () => {
fs.unlink(a.to, err => {
if(err){
console.log(err)
}
if(h.indexOf('/') > -1){
h = h.substring(0, h.indexOf('/'))
}
const pos = path.join(dataDir, h)
self.emit('jExtracted', AssetGuard.javaExecFromRoot(pos))
})
})
})
resolve(true)
}
})
} else {
resolve(false)
}
})
})
}
/*_enqueueMojangJRE(dir){
return new Promise((resolve, reject) => {
// Mojang does not host the JRE for linux.
if(process.platform === 'linux'){
resolve(false)
}
AssetGuard.loadMojangLauncherData().then(data => {
if(data != null) {
try {
const mJRE = data[Library.mojangFriendlyOS()]['64'].jre
const url = mJRE.url
request.head(url, (err, resp, body) => {
if(err){
resolve(false)
} else {
const name = url.substring(url.lastIndexOf('/')+1)
const fDir = path.join(dir, name)
const jre = new Asset('jre' + mJRE.version, mJRE.sha1, resp.headers['content-length'], url, fDir)
this.java = new DLTracker([jre], jre.size, a => {
fs.readFile(a.to, (err, data) => {
// Data buffer needs to be decompressed from lzma,
// not really possible using node.js
})
})
}
})
} catch (err){
resolve(false)
}
}
})
})
}*/
// #endregion
// #endregion
// Control Flow Functions
// #region
/**
* Initiate an async download process for an AssetGuard DLTracker.
*
* @param {string} identifier The identifier of the AssetGuard DLTracker.
* @param {number} limit Optional. The number of async processes to run in parallel.
* @returns {boolean} True if the process began, otherwise false.
*/
startAsyncProcess(identifier, limit = 5){
const self = this
let acc = 0
const concurrentDlTracker = this[identifier]
const concurrentDlQueue = concurrentDlTracker.dlqueue.slice(0)
if(concurrentDlQueue.length === 0){
return false
} else {
console.log('DLQueue', concurrentDlQueue)
async.eachLimit(concurrentDlQueue, limit, (asset, cb) => {
let count = 0;
mkpath.sync(path.join(asset.to, ".."))
let req = request(asset.from)
req.pause()
req.on('response', (resp) => {
if(resp.statusCode === 200){
let writeStream = fs.createWriteStream(asset.to)
writeStream.on('close', () => {
//console.log('DLResults ' + asset.size + ' ' + count + ' ', asset.size === count)
if(concurrentDlTracker.callback != null){
concurrentDlTracker.callback.apply(concurrentDlTracker, [asset, self])
}
cb()
})
req.pipe(writeStream)
req.resume()
} else {
req.abort()
const realFrom = typeof asset.from === 'object' ? asset.from.url : asset.from
console.log('Failed to download ' + realFrom + '. Response code', resp.statusCode)
self.progress += asset.size*1
self.emit('totaldlprogress', {acc: self.progress, total: self.totaldlsize})
cb()
}
})
req.on('error', (err) => {
self.emit('dlerror', err)
})
req.on('data', (chunk) => {
count += chunk.length
self.progress += chunk.length
acc += chunk.length
self.emit(identifier + 'dlprogress', acc)
self.emit('totaldlprogress', {acc: self.progress, total: self.totaldlsize})
})
}, (err) => {
if(err){
self.emit(identifier + 'dlerror')
console.log('An item in ' + identifier + ' failed to process');
} else {
self.emit(identifier + 'dlcomplete')
console.log('All ' + identifier + ' have been processed successfully')
}
self.totaldlsize -= self[identifier].dlsize
self.progress -= self[identifier].dlsize
self[identifier] = new DLTracker([], 0)
if(self.totaldlsize === 0) {
if(self.extractQueue.length > 0){
self.emit('extracting')
AssetGuard._extractPackXZ(self.extractQueue, self.javaexec).then(() => {
self.extractQueue = []
self.emit('dlcomplete')
})
} else {
self.emit('dlcomplete')
}
}
})
return true
}
}
/**
* This function will initiate the download processed for the specified identifiers. If no argument is
* given, all identifiers will be initiated. Note that in order for files to be processed you need to run
* the processing function corresponding to that identifier. If you run this function without processing
* the files, it is likely nothing will be enqueued in the object and processing will complete
* immediately. Once all downloads are complete, this function will fire the 'dlcomplete' event on the
* global object instance.
*
* @param {Array.<{id: string, limit: number}>} identifiers Optional. The identifiers to process and corresponding parallel async task limit.
*/
processDlQueues(identifiers = [{id:'assets', limit:20}, {id:'libraries', limit:5}, {id:'files', limit:5}, {id:'forge', limit:5}]){
this.progress = 0;
let shouldFire = true
// Assign dltracking variables.
this.totaldlsize = 0
this.progress = 0
for(let i=0; i<identifiers.length; i++){
this.totaldlsize += this[identifiers[i].id].dlsize
}
for(let i=0; i<identifiers.length; i++){
let iden = identifiers[i]
let r = this.startAsyncProcess(iden.id, iden.limit)
if(r) shouldFire = false
}
if(shouldFire){
this.emit('dlcomplete')
}
}
// #endregion
}
module.exports = {
AssetGuard,
Asset,
Library
}
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