GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

'use strict' // this[BUFFER] is the remainder of a chunk if we're waiting for // the full 512 bytes of a header to come in. We will Buffer.concat() // it to the next write(), which is a mem copy, but a small one. // // this[QUEUE] is a Yallist of entries that haven't been emitted // yet this can only get filled up if the user keeps write()ing after // a write() returns false, or does a write() with more than one entry // // We don't buffer chunks, we always parse them and either create an // entry, or push it into the active entry. The ReadEntry class knows // to throw data away if .ignore=true // // Shift entry off the buffer when it emits 'end', and emit 'entry' for // the next one in the list. // // At any time, we're pushing body chunks into the entry at WRITEENTRY, // and waiting for 'end' on the entry at READENTRY // // ignored entries get .resume() called on them straight away const warner = require('./warn-mixin.js') const path = require('path') const Header = require('./header.js') const EE = require('events') const Yallist = require('yallist') const maxMetaEntrySize = 1024 * 1024 const Entry = require('./read-entry.js') const Pax = require('./pax.js') const zlib = require('minizlib') const gzipHeader = new Buffer([0x1f, 0x8b]) const STATE = Symbol('state') const WRITEENTRY = Symbol('writeEntry') const READENTRY = Symbol('readEntry') const NEXTENTRY = Symbol('nextEntry') const PROCESSENTRY = Symbol('processEntry') const EX = Symbol('extendedHeader') const GEX = Symbol('globalExtendedHeader') const META = Symbol('meta') const EMITMETA = Symbol('emitMeta') const BUFFER = Symbol('buffer') const QUEUE = Symbol('queue') const ENDED = Symbol('ended') const EMITTEDEND = Symbol('emittedEnd') const EMIT = Symbol('emit') const UNZIP = Symbol('unzip') const CONSUMECHUNK = Symbol('consumeChunk') const CONSUMECHUNKSUB = Symbol('consumeChunkSub') const CONSUMEBODY = Symbol('consumeBody') const CONSUMEMETA = Symbol('consumeMeta') const CONSUMEHEADER = Symbol('consumeHeader') const CONSUMING = Symbol('consuming') const BUFFERCONCAT = Symbol('bufferConcat') const MAYBEEND = Symbol('maybeEnd') const WRITING = Symbol('writing') const ABORTED = Symbol('aborted') const DONE = Symbol('onDone') const noop = _ => true module.exports = warner(class Parser extends EE { constructor (opt) { opt = opt || {} super(opt) if (opt.ondone) this.on(DONE, opt.ondone) else this.on(DONE, _ => { this.emit('prefinish') this.emit('finish') this.emit('end') this.emit('close') }) this.strict = !!opt.strict this.maxMetaEntrySize = opt.maxMetaEntrySize || maxMetaEntrySize this.filter = typeof opt.filter === 'function' ? opt.filter : noop // have to set this so that streams are ok piping into it this.writable = true this.readable = false this[QUEUE] = new Yallist() this[BUFFER] = null this[READENTRY] = null this[WRITEENTRY] = null this[STATE] = 'begin' this[META] = '' this[EX] = null this[GEX] = null this[ENDED] = false this[UNZIP] = null this[ABORTED] = false if (typeof opt.onwarn === 'function') this.on('warn', opt.onwarn) if (typeof opt.onentry === 'function') this.on('entry', opt.onentry) } [CONSUMEHEADER] (chunk, position) { const header = new Header(chunk, position) if (header.nullBlock) this[EMIT]('nullBlock') else if (!header.cksumValid) this.warn('invalid entry', header) else if (!header.path) this.warn('invalid: path is required', header) else { const type = header.type if (/^(Symbolic)?Link$/.test(type) && !header.linkpath) this.warn('invalid: linkpath required', header) else if (!/^(Symbolic)?Link$/.test(type) && header.linkpath) this.warn('invalid: linkpath forbidden', header) else { const entry = this[WRITEENTRY] = new Entry(header, this[EX], this[GEX]) if (entry.meta) { if (entry.size > this.maxMetaEntrySize) { entry.ignore = true this[EMIT]('ignoredEntry', entry) this[STATE] = 'ignore' } else if (entry.size > 0) { this[META] = '' entry.on('data', c => this[META] += c) this[STATE] = 'meta' } } else { this[EX] = null entry.ignore = entry.ignore || !this.filter(entry.path, entry) if (entry.ignore) { this[EMIT]('ignoredEntry', entry) this[STATE] = entry.remain ? 'ignore' : 'begin' } else { if (entry.remain) this[STATE] = 'body' else { this[STATE] = 'begin' entry.end() } if (!this[READENTRY]) { this[QUEUE].push(entry) this[NEXTENTRY]() } else this[QUEUE].push(entry) } } } } } [PROCESSENTRY] (entry) { let go = true if (!entry) { this[READENTRY] = null go = false } else if (Array.isArray(entry)) this.emit.apply(this, entry) else { this[READENTRY] = entry this.emit('entry', entry) if (!entry.emittedEnd) { entry.on('end', _ => this[NEXTENTRY]()) go = false } } return go } [NEXTENTRY] () { do {} while (this[PROCESSENTRY](this[QUEUE].shift())) if (!this[QUEUE].length) { // At this point, there's nothing in the queue, but we may have an // entry which is being consumed (readEntry). // If we don't, then we definitely can handle more data. // If we do, and either it's flowing, or it has never had any data // written to it, then it needs more. // The only other possibility is that it has returned false from a // write() call, so we wait for the next drain to continue. const re = this[READENTRY] const drainNow = !re || re.flowing || re.size === re.remain if (drainNow) { if (!this[WRITING]) this.emit('drain') } else re.once('drain', _ => this.emit('drain')) } } [CONSUMEBODY] (chunk, position) { // write up to but no more than writeEntry.blockRemain const entry = this[WRITEENTRY] const br = entry.blockRemain const c = (br >= chunk.length && position === 0) ? chunk : chunk.slice(position, position + br) entry.write(c) if (!entry.blockRemain) { this[STATE] = 'begin' this[WRITEENTRY] = null entry.end() } return c.length } [CONSUMEMETA] (chunk, position) { const entry = this[WRITEENTRY] const ret = this[CONSUMEBODY](chunk, position) // if we finished, then the entry is reset if (!this[WRITEENTRY]) this[EMITMETA](entry) return ret } [EMIT] (ev, data, extra) { if (!this[QUEUE].length && !this[READENTRY]) this.emit(ev, data, extra) else this[QUEUE].push([ev, data, extra]) } [EMITMETA] (entry) { this[EMIT]('meta', this[META]) switch (entry.type) { case 'ExtendedHeader': case 'OldExtendedHeader': this[EX] = Pax.parse(this[META], this[EX], false) break case 'GlobalExtendedHeader': this[GEX] = Pax.parse(this[META], this[GEX], true) break case 'NextFileHasLongPath': case 'OldGnuLongPath': this[EX] = this[EX] || Object.create(null) this[EX].path = this[META].replace(/\0.*/, '') break case 'NextFileHasLongLinkpath': this[EX] = this[EX] || Object.create(null) this[EX].linkpath = this[META].replace(/\0.*/, '') break /* istanbul ignore next */ default: throw new Error('unknown meta: ' + entry.type) } } abort (msg, error) { this[ABORTED] = true this.warn(msg, error) this.emit('abort') } write (chunk) { if (this[ABORTED]) return // first write, might be gzipped if (this[UNZIP] === null && chunk) { if (this[BUFFER]) { chunk = Buffer.concat([this[BUFFER], chunk]) this[BUFFER] = null } if (chunk.length < gzipHeader.length) { this[BUFFER] = chunk return true } for (let i = 0; this[UNZIP] === null && i < gzipHeader.length; i++) { if (chunk[i] !== gzipHeader[i]) this[UNZIP] = false } if (this[UNZIP] === null) { const ended = this[ENDED] this[ENDED] = false this[UNZIP] = new zlib.Unzip() this[UNZIP].on('data', chunk => this[CONSUMECHUNK](chunk)) this[UNZIP].on('error', er => this.abort('zlib error: ' + er.message, er)) this[UNZIP].on('end', _ => { this[ENDED] = true this[CONSUMECHUNK]() }) return ended ? this[UNZIP].end(chunk) : this[UNZIP].write(chunk) } } this[WRITING] = true if (this[UNZIP]) this[UNZIP].write(chunk) else this[CONSUMECHUNK](chunk) this[WRITING] = false // return false if there's a queue, or if the current entry isn't flowing const ret = this[QUEUE].length ? false : this[READENTRY] ? this[READENTRY].flowing : true // if we have no queue, then that means a clogged READENTRY if (!ret && !this[QUEUE].length) this[READENTRY].once('drain', _ => this.emit('drain')) return ret } [BUFFERCONCAT] (c) { if (c && !this[ABORTED]) this[BUFFER] = this[BUFFER] ? Buffer.concat([this[BUFFER], c]) : c } [MAYBEEND] () { if (this[ENDED] && !this[EMITTEDEND] && !this[ABORTED]) { this[EMITTEDEND] = true const entry = this[WRITEENTRY] if (entry && entry.blockRemain) { const have = this[BUFFER] ? this[BUFFER].length : 0 this.warn('Truncated input (needed ' + entry.blockRemain + ' more bytes, only ' + have + ' available)', entry) if (this[BUFFER]) entry.write(this[BUFFER]) entry.end() } this[EMIT](DONE) } } [CONSUMECHUNK] (chunk) { if (this[CONSUMING]) { this[BUFFERCONCAT](chunk) } else if (!chunk && !this[BUFFER]) { this[MAYBEEND]() } else { this[CONSUMING] = true if (this[BUFFER]) { this[BUFFERCONCAT](chunk) const c = this[BUFFER] this[BUFFER] = null this[CONSUMECHUNKSUB](c) } else { this[CONSUMECHUNKSUB](chunk) } while (this[BUFFER] && this[BUFFER].length >= 512 && !this[ABORTED]) { const c = this[BUFFER] this[BUFFER] = null this[CONSUMECHUNKSUB](c) } this[CONSUMING] = false } if (!this[BUFFER] || this[ENDED]) this[MAYBEEND]() } [CONSUMECHUNKSUB] (chunk) { // we know that we are in CONSUMING mode, so anything written goes into // the buffer. Advance the position and put any remainder in the buffer. let position = 0 let length = chunk.length while (position + 512 <= length && !this[ABORTED]) { switch (this[STATE]) { case 'begin': this[CONSUMEHEADER](chunk, position) position += 512 break case 'ignore': case 'body': position += this[CONSUMEBODY](chunk, position) break case 'meta': position += this[CONSUMEMETA](chunk, position) break /* istanbul ignore next */ default: throw new Error('invalid state: ' + this[STATE]) } } if (position < length) { if (this[BUFFER]) this[BUFFER] = Buffer.concat([chunk.slice(position), this[BUFFER]]) else this[BUFFER] = chunk.slice(position) } } end (chunk) { if (!this[ABORTED]) { if (this[UNZIP]) this[UNZIP].end(chunk) else { this[ENDED] = true this.write(chunk) } } } })