/**
* @license node-stream-zip | (c) 2020 Antelle | https://github.com/antelle/node-stream-zip/blob/master/LICENSE
* Portions copyright https://github.com/cthackers/adm-zip | https://raw.githubusercontent.com/cthackers/adm-zip/master/LICENSE
*/
let fs = require('fs');
const util = require('util');
const path = require('path');
const events = require('events');
const zlib = require('zlib');
const stream = require('stream');
const consts = {
/* The local file header */
LOCHDR: 30, // LOC header size
LOCSIG: 0x04034b50, // "PK\003\004"
LOCVER: 4, // version needed to extract
LOCFLG: 6, // general purpose bit flag
LOCHOW: 8, // compression method
LOCTIM: 10, // modification time (2 bytes time, 2 bytes date)
LOCCRC: 14, // uncompressed file crc-32 value
LOCSIZ: 18, // compressed size
LOCLEN: 22, // uncompressed size
LOCNAM: 26, // filename length
LOCEXT: 28, // extra field length
/* The Data descriptor */
EXTSIG: 0x08074b50, // "PK\007\008"
EXTHDR: 16, // EXT header size
EXTCRC: 4, // uncompressed file crc-32 value
EXTSIZ: 8, // compressed size
EXTLEN: 12, // uncompressed size
/* The central directory file header */
CENHDR: 46, // CEN header size
CENSIG: 0x02014b50, // "PK\001\002"
CENVEM: 4, // version made by
CENVER: 6, // version needed to extract
CENFLG: 8, // encrypt, decrypt flags
CENHOW: 10, // compression method
CENTIM: 12, // modification time (2 bytes time, 2 bytes date)
CENCRC: 16, // uncompressed file crc-32 value
CENSIZ: 20, // compressed size
CENLEN: 24, // uncompressed size
CENNAM: 28, // filename length
CENEXT: 30, // extra field length
CENCOM: 32, // file comment length
CENDSK: 34, // volume number start
CENATT: 36, // internal file attributes
CENATX: 38, // external file attributes (host system dependent)
CENOFF: 42, // LOC header offset
/* The entries in the end of central directory */
ENDHDR: 22, // END header size
ENDSIG: 0x06054b50, // "PK\005\006"
ENDSIGFIRST: 0x50,
ENDSUB: 8, // number of entries on this disk
ENDTOT: 10, // total number of entries
ENDSIZ: 12, // central directory size in bytes
ENDOFF: 16, // offset of first CEN header
ENDCOM: 20, // zip file comment length
MAXFILECOMMENT: 0xffff,
/* The entries in the end of ZIP64 central directory locator */
ENDL64HDR: 20, // ZIP64 end of central directory locator header size
ENDL64SIG: 0x07064b50, // ZIP64 end of central directory locator signature
ENDL64SIGFIRST: 0x50,
ENDL64OFS: 8, // ZIP64 end of central directory offset
/* The entries in the end of ZIP64 central directory */
END64HDR: 56, // ZIP64 end of central directory header size
END64SIG: 0x06064b50, // ZIP64 end of central directory signature
END64SIGFIRST: 0x50,
END64SUB: 24, // number of entries on this disk
END64TOT: 32, // total number of entries
END64SIZ: 40,
END64OFF: 48,
/* Compression methods */
STORED: 0, // no compression
SHRUNK: 1, // shrunk
REDUCED1: 2, // reduced with compression factor 1
REDUCED2: 3, // reduced with compression factor 2
REDUCED3: 4, // reduced with compression factor 3
REDUCED4: 5, // reduced with compression factor 4
IMPLODED: 6, // imploded
// 7 reserved
DEFLATED: 8, // deflated
ENHANCED_DEFLATED: 9, // deflate64
PKWARE: 10, // PKWare DCL imploded
// 11 reserved
BZIP2: 12, // compressed using BZIP2
// 13 reserved
LZMA: 14, // LZMA
// 15-17 reserved
IBM_TERSE: 18, // compressed using IBM TERSE
IBM_LZ77: 19, //IBM LZ77 z
/* General purpose bit flag */
FLG_ENC: 0, // encrypted file
FLG_COMP1: 1, // compression option
FLG_COMP2: 2, // compression option
FLG_DESC: 4, // data descriptor
FLG_ENH: 8, // enhanced deflation
FLG_STR: 16, // strong encryption
FLG_LNG: 1024, // language encoding
FLG_MSK: 4096, // mask header values
FLG_ENTRY_ENC: 1,
/* 4.5 Extensible data fields */
EF_ID: 0,
EF_SIZE: 2,
/* Header IDs */
ID_ZIP64: 0x0001,
ID_AVINFO: 0x0007,
ID_PFS: 0x0008,
ID_OS2: 0x0009,
ID_NTFS: 0x000a,
ID_OPENVMS: 0x000c,
ID_UNIX: 0x000d,
ID_FORK: 0x000e,
ID_PATCH: 0x000f,
ID_X509_PKCS7: 0x0014,
ID_X509_CERTID_F: 0x0015,
ID_X509_CERTID_C: 0x0016,
ID_STRONGENC: 0x0017,
ID_RECORD_MGT: 0x0018,
ID_X509_PKCS7_RL: 0x0019,
ID_IBM1: 0x0065,
ID_IBM2: 0x0066,
ID_POSZIP: 0x4690,
EF_ZIP64_OR_32: 0xffffffff,
EF_ZIP64_OR_16: 0xffff,
};
const StreamZip = function (config) {
let fd, fileSize, chunkSize, op, centralDirectory, closed;
const ready = false,
that = this,
entries = config.storeEntries !== false ? {} : null,
fileName = config.file,
textDecoder = config.nameEncoding ? new TextDecoder(config.nameEncoding) : null;
open();
function open() {
if (config.fd) {
fd = config.fd;
readFile();
} else {
fs.open(fileName, 'r', (err, f) => {
if (err) {
return that.emit('error', err);
}
fd = f;
readFile();
});
}
}
function readFile() {
fs.fstat(fd, (err, stat) => {
if (err) {
return that.emit('error', err);
}
fileSize = stat.size;
chunkSize = config.chunkSize || Math.round(fileSize / 1000);
chunkSize = Math.max(
Math.min(chunkSize, Math.min(128 * 1024, fileSize)),
Math.min(1024, fileSize)
);
readCentralDirectory();
});
}
function readUntilFoundCallback(err, bytesRead) {
if (err || !bytesRead) {
return that.emit('error', err || new Error('Archive read error'));
}
let pos = op.lastPos;
let bufferPosition = pos - op.win.position;
const buffer = op.win.buffer;
const minPos = op.minPos;
while (--pos >= minPos && --bufferPosition >= 0) {
if (buffer.length - bufferPosition >= 4 && buffer[bufferPosition] === op.firstByte) {
// quick check first signature byte
if (buffer.readUInt32LE(bufferPosition) === op.sig) {
op.lastBufferPosition = bufferPosition;
op.lastBytesRead = bytesRead;
op.complete();
return;
}
}
}
if (pos === minPos) {
return that.emit('error', new Error('Bad archive'));
}
op.lastPos = pos + 1;
op.chunkSize *= 2;
if (pos <= minPos) {
return that.emit('error', new Error('Bad archive'));
}
const expandLength = Math.min(op.chunkSize, pos - minPos);
op.win.expandLeft(expandLength, readUntilFoundCallback);
}
function readCentralDirectory() {
const totalReadLength = Math.min(consts.ENDHDR + consts.MAXFILECOMMENT, fileSize);
op = {
win: new FileWindowBuffer(fd),
totalReadLength,
minPos: fileSize - totalReadLength,
lastPos: fileSize,
chunkSize: Math.min(1024, chunkSize),
firstByte: consts.ENDSIGFIRST,
sig: consts.ENDSIG,
complete: readCentralDirectoryComplete,
};
op.win.read(fileSize - op.chunkSize, op.chunkSize, readUntilFoundCallback);
}
function readCentralDirectoryComplete() {
const buffer = op.win.buffer;
const pos = op.lastBufferPosition;
try {
centralDirectory = new CentralDirectoryHeader();
centralDirectory.read(buffer.slice(pos, pos + consts.ENDHDR));
centralDirectory.headerOffset = op.win.position + pos;
if (centralDirectory.commentLength) {
that.comment = buffer
.slice(
pos + consts.ENDHDR,
pos + consts.ENDHDR + centralDirectory.commentLength
)
.toString();
} else {
that.comment = null;
}
that.entriesCount = centralDirectory.volumeEntries;
that.centralDirectory = centralDirectory;
if (
(centralDirectory.volumeEntries === consts.EF_ZIP64_OR_16 &&
centralDirectory.totalEntries === consts.EF_ZIP64_OR_16) ||
centralDirectory.size === consts.EF_ZIP64_OR_32 ||
centralDirectory.offset === consts.EF_ZIP64_OR_32
) {
readZip64CentralDirectoryLocator();
} else {
op = {};
readEntries();
}
} catch (err) {
that.emit('error', err);
}
}
function readZip64CentralDirectoryLocator() {
const length = consts.ENDL64HDR;
if (op.lastBufferPosition > length) {
op.lastBufferPosition -= length;
readZip64CentralDirectoryLocatorComplete();
} else {
op = {
win: op.win,
totalReadLength: length,
minPos: op.win.position - length,
lastPos: op.win.position,
chunkSize: op.chunkSize,
firstByte: consts.ENDL64SIGFIRST,
sig: consts.ENDL64SIG,
complete: readZip64CentralDirectoryLocatorComplete,
};
op.win.read(op.lastPos - op.chunkSize, op.chunkSize, readUntilFoundCallback);
}
}
function readZip64CentralDirectoryLocatorComplete() {
const buffer = op.win.buffer;
const locHeader = new CentralDirectoryLoc64Header();
locHeader.read(
buffer.slice(op.lastBufferPosition, op.lastBufferPosition + consts.ENDL64HDR)
);
const readLength = fileSize - locHeader.headerOffset;
op = {
win: op.win,
totalReadLength: readLength,
minPos: locHeader.headerOffset,
lastPos: op.lastPos,
chunkSize: op.chunkSize,
firstByte: consts.END64SIGFIRST,
sig: consts.END64SIG,
complete: readZip64CentralDirectoryComplete,
};
op.win.read(fileSize - op.chunkSize, op.chunkSize, readUntilFoundCallback);
}
function readZip64CentralDirectoryComplete() {
const buffer = op.win.buffer;
const zip64cd = new CentralDirectoryZip64Header();
zip64cd.read(buffer.slice(op.lastBufferPosition, op.lastBufferPosition + consts.END64HDR));
that.centralDirectory.volumeEntries = zip64cd.volumeEntries;
that.centralDirectory.totalEntries = zip64cd.totalEntries;
that.centralDirectory.size = zip64cd.size;
that.centralDirectory.offset = zip64cd.offset;
that.entriesCount = zip64cd.volumeEntries;
op = {};
readEntries();
}
function readEntries() {
op = {
win: new FileWindowBuffer(fd),
pos: centralDirectory.offset,
chunkSize,
entriesLeft: centralDirectory.volumeEntries,
};
op.win.read(op.pos, Math.min(chunkSize, fileSize - op.pos), readEntriesCallback);
}
function readEntriesCallback(err, bytesRead) {
if (err || !bytesRead) {
return that.emit('error', err || new Error('Entries read error'));
}
let bufferPos = op.pos - op.win.position;
let entry = op.entry;
const buffer = op.win.buffer;
const bufferLength = buffer.length;
try {
while (op.entriesLeft > 0) {
if (!entry) {
entry = new ZipEntry();
entry.readHeader(buffer, bufferPos);
entry.headerOffset = op.win.position + bufferPos;
op.entry = entry;
op.pos += consts.CENHDR;
bufferPos += consts.CENHDR;
}
const entryHeaderSize = entry.fnameLen + entry.extraLen + entry.comLen;
const advanceBytes = entryHeaderSize + (op.entriesLeft > 1 ? consts.CENHDR : 0);
if (bufferLength - bufferPos < advanceBytes) {
op.win.moveRight(chunkSize, readEntriesCallback, bufferPos);
op.move = true;
return;
}
entry.read(buffer, bufferPos, textDecoder);
if (!config.skipEntryNameValidation) {
entry.validateName();
}
if (entries) {
entries[entry.name] = entry;
}
that.emit('entry', entry);
op.entry = entry = null;
op.entriesLeft--;
op.pos += entryHeaderSize;
bufferPos += entryHeaderSize;
}
that.emit('ready');
} catch (err) {
that.emit('error', err);
}
}
function checkEntriesExist() {
if (!entries) {
throw new Error('storeEntries disabled');
}
}
Object.defineProperty(this, 'ready', {
get() {
return ready;
},
});
this.entry = function (name) {
checkEntriesExist();
return entries[name];
};
this.entries = function () {
checkEntriesExist();
return entries;
};
this.stream = function (entry, callback) {
return this.openEntry(
entry,
(err, entry) => {
if (err) {
return callback(err);
}
const offset = dataOffset(entry);
let entryStream = new EntryDataReaderStream(fd, offset, entry.compressedSize);
if (entry.method === consts.STORED) {
// nothing to do
} else if (entry.method === consts.DEFLATED) {
entryStream = entryStream.pipe(zlib.createInflateRaw());
} else {
return callback(new Error('Unknown compression method: ' + entry.method));
}
if (canVerifyCrc(entry)) {
entryStream = entryStream.pipe(
new EntryVerifyStream(entryStream, entry.crc, entry.size)
);
}
callback(null, entryStream);
},
false
);
};
this.entryDataSync = function (entry) {
let err = null;
this.openEntry(
entry,
(e, en) => {
err = e;
entry = en;
},
true
);
if (err) {
throw err;
}
let data = Buffer.alloc(entry.compressedSize);
new FsRead(fd, data, 0, entry.compressedSize, dataOffset(entry), (e) => {
err = e;
}).read(true);
if (err) {
throw err;
}
if (entry.method === consts.STORED) {
// nothing to do
} else if (entry.method === consts.DEFLATED || entry.method === consts.ENHANCED_DEFLATED) {
data = zlib.inflateRawSync(data);
} else {
throw new Error('Unknown compression method: ' + entry.method);
}
if (data.length !== entry.size) {
throw new Error('Invalid size');
}
if (canVerifyCrc(entry)) {
const verify = new CrcVerify(entry.crc, entry.size);
verify.data(data);
}
return data;
};
this.openEntry = function (entry, callback, sync) {
if (typeof entry === 'string') {
checkEntriesExist();
entry = entries[entry];
if (!entry) {
return callback(new Error('Entry not found'));
}
}
if (!entry.isFile) {
return callback(new Error('Entry is not file'));
}
if (!fd) {
return callback(new Error('Archive closed'));
}
const buffer = Buffer.alloc(consts.LOCHDR);
new FsRead(fd, buffer, 0, buffer.length, entry.offset, (err) => {
if (err) {
return callback(err);
}
let readEx;
try {
entry.readDataHeader(buffer);
if (entry.encrypted) {
readEx = new Error('Entry encrypted');
}
} catch (ex) {
readEx = ex;
}
callback(readEx, entry);
}).read(sync);
};
function dataOffset(entry) {
return entry.offset + consts.LOCHDR + entry.fnameLen + entry.extraLen;
}
function canVerifyCrc(entry) {
// if bit 3 (0x08) of the general-purpose flags field is set, then the CRC-32 and file sizes are not known when the header is written
return (entry.flags & 0x8) !== 0x8;
}
function extract(entry, outPath, callback) {
that.stream(entry, (err, stm) => {
if (err) {
callback(err);
} else {
let fsStm, errThrown;
stm.on('error', (err) => {
errThrown = err;
if (fsStm) {
stm.unpipe(fsStm);
fsStm.close(() => {
callback(err);
});
}
});
fs.open(outPath, 'w', (err, fdFile) => {
if (err) {
return callback(err);
}
if (errThrown) {
fs.close(fd, () => {
callback(errThrown);
});
return;
}
fsStm = fs.createWriteStream(outPath, { fd: fdFile });
fsStm.on('finish', () => {
that.emit('extract', entry, outPath);
if (!errThrown) {
callback();
}
});
stm.pipe(fsStm);
});
}
});
}
function createDirectories(baseDir, dirs, callback) {
if (!dirs.length) {
return callback();
}
let dir = dirs.shift();
dir = path.join(baseDir, path.join(...dir));
fs.mkdir(dir, { recursive: true }, (err) => {
if (err && err.code !== 'EEXIST') {
return callback(err);
}
createDirectories(baseDir, dirs, callback);
});
}
function extractFiles(baseDir, baseRelPath, files, callback, extractedCount) {
if (!files.length) {
return callback(null, extractedCount);
}
const file = files.shift();
const targetPath = path.join(baseDir, file.name.replace(baseRelPath, ''));
extract(file, targetPath, (err) => {
if (err) {
return callback(err, extractedCount);
}
extractFiles(baseDir, baseRelPath, files, callback, extractedCount + 1);
});
}
this.extract = function (entry, outPath, callback) {
let entryName = entry || '';
if (typeof entry === 'string') {
entry = this.entry(entry);
if (entry) {
entryName = entry.name;
} else {
if (entryName.length && entryName[entryName.length - 1] !== '/') {
entryName += '/';
}
}
}
if (!entry || entry.isDirectory) {
const files = [],
dirs = [],
allDirs = {};
for (const e in entries) {
if (
Object.prototype.hasOwnProperty.call(entries, e) &&
e.lastIndexOf(entryName, 0) === 0
) {
let relPath = e.replace(entryName, '');
const childEntry = entries[e];
if (childEntry.isFile) {
files.push(childEntry);
relPath = path.dirname(relPath);
}
if (relPath && !allDirs[relPath] && relPath !== '.') {
allDirs[relPath] = true;
let parts = relPath.split('/').filter((f) => {
return f;
});
if (parts.length) {
dirs.push(parts);
}
while (parts.length > 1) {
parts = parts.slice(0, parts.length - 1);
const partsPath = parts.join('/');
if (allDirs[partsPath] || partsPath === '.') {
break;
}
allDirs[partsPath] = true;
dirs.push(parts);
}
}
}
}
dirs.sort((x, y) => {
return x.length - y.length;
});
if (dirs.length) {
createDirectories(outPath, dirs, (err) => {
if (err) {
callback(err);
} else {
extractFiles(outPath, entryName, files, callback, 0);
}
});
} else {
extractFiles(outPath, entryName, files, callback, 0);
}
} else {
fs.stat(outPath, (err, stat) => {
if (stat && stat.isDirectory()) {
extract(entry, path.join(outPath, path.basename(entry.name)), callback);
} else {
extract(entry, outPath, callback);
}
});
}
};
this.close = function (callback) {
if (closed || !fd) {
closed = true;
if (callback) {
callback();
}
} else {
closed = true;
fs.close(fd, (err) => {
fd = null;
if (callback) {
callback(err);
}
});
}
};
const originalEmit = events.EventEmitter.prototype.emit;
this.emit = function (...args) {
if (!closed) {
return originalEmit.call(this, ...args);
}
};
};
StreamZip.setFs = function (customFs) {
fs = customFs;
};
StreamZip.debugLog = (...args) => {
if (StreamZip.debug) {
// eslint-disable-next-line no-console
console.log(...args);
}
};
util.inherits(StreamZip, events.EventEmitter);
const propZip = Symbol('zip');
StreamZip.async = class StreamZipAsync extends events.EventEmitter {
constructor(config) {
super();
const zip = new StreamZip(config);
zip.on('entry', (entry) => this.emit('entry', entry));
zip.on('extract', (entry, outPath) => this.emit('extract', entry, outPath));
this[propZip] = new Promise((resolve, reject) => {
zip.on('ready', () => {
zip.removeListener('error', reject);
resolve(zip);
});
zip.on('error', reject);
});
}
get entriesCount() {
return this[propZip].then((zip) => zip.entriesCount);
}
get comment() {
return this[propZip].then((zip) => zip.comment);
}
async entry(name) {
const zip = await this[propZip];
return zip.entry(name);
}
async entries() {
const zip = await this[propZip];
return zip.entries();
}
async stream(entry) {
const zip = await this[propZip];
return new Promise((resolve, reject) => {
zip.stream(entry, (err, stm) => {
if (err) {
reject(err);
} else {
resolve(stm);
}
});
});
}
async entryData(entry) {
const stm = await this.stream(entry);
return new Promise((resolve, reject) => {
const data = [];
stm.on('data', (chunk) => data.push(chunk));
stm.on('end', () => {
resolve(Buffer.concat(data));
});
stm.on('error', (err) => {
stm.removeAllListeners('end');
reject(err);
});
});
}
async extract(entry, outPath) {
const zip = await this[propZip];
return new Promise((resolve, reject) => {
zip.extract(entry, outPath, (err, res) => {
if (err) {
reject(err);
} else {
resolve(res);
}
});
});
}
async close() {
const zip = await this[propZip];
return new Promise((resolve, reject) => {
zip.close((err) => {
if (err) {
reject(err);
} else {
resolve();
}
});
});
}
};
class CentralDirectoryHeader {
read(data) {
if (data.length !== consts.ENDHDR || data.readUInt32LE(0) !== consts.ENDSIG) {
throw new Error('Invalid central directory');
}
// number of entries on this volume
this.volumeEntries = data.readUInt16LE(consts.ENDSUB);
// total number of entries
this.totalEntries = data.readUInt16LE(consts.ENDTOT);
// central directory size in bytes
this.size = data.readUInt32LE(consts.ENDSIZ);
// offset of first CEN header
this.offset = data.readUInt32LE(consts.ENDOFF);
// zip file comment length
this.commentLength = data.readUInt16LE(consts.ENDCOM);
}
}
class CentralDirectoryLoc64Header {
read(data) {
if (data.length !== consts.ENDL64HDR || data.readUInt32LE(0) !== consts.ENDL64SIG) {
throw new Error('Invalid zip64 central directory locator');
}
// ZIP64 EOCD header offset
this.headerOffset = readUInt64LE(data, consts.ENDSUB);
}
}
class CentralDirectoryZip64Header {
read(data) {
if (data.length !== consts.END64HDR || data.readUInt32LE(0) !== consts.END64SIG) {
throw new Error('Invalid central directory');
}
// number of entries on this volume
this.volumeEntries = readUInt64LE(data, consts.END64SUB);
// total number of entries
this.totalEntries = readUInt64LE(data, consts.END64TOT);
// central directory size in bytes
this.size = readUInt64LE(data, consts.END64SIZ);
// offset of first CEN header
this.offset = readUInt64LE(data, consts.END64OFF);
}
}
class ZipEntry {
readHeader(data, offset) {
// data should be 46 bytes and start with "PK 01 02"
if (data.length < offset + consts.CENHDR || data.readUInt32LE(offset) !== consts.CENSIG) {
throw new Error('Invalid entry header');
}
// version made by
this.verMade = data.readUInt16LE(offset + consts.CENVEM);
// version needed to extract
this.version = data.readUInt16LE(offset + consts.CENVER);
// encrypt, decrypt flags
this.flags = data.readUInt16LE(offset + consts.CENFLG);
// compression method
this.method = data.readUInt16LE(offset + consts.CENHOW);
// modification time (2 bytes time, 2 bytes date)
const timebytes = data.readUInt16LE(offset + consts.CENTIM);
const datebytes = data.readUInt16LE(offset + consts.CENTIM + 2);
this.time = parseZipTime(timebytes, datebytes);
// uncompressed file crc-32 value
this.crc = data.readUInt32LE(offset + consts.CENCRC);
// compressed size
this.compressedSize = data.readUInt32LE(offset + consts.CENSIZ);
// uncompressed size
this.size = data.readUInt32LE(offset + consts.CENLEN);
// filename length
this.fnameLen = data.readUInt16LE(offset + consts.CENNAM);
// extra field length
this.extraLen = data.readUInt16LE(offset + consts.CENEXT);
// file comment length
this.comLen = data.readUInt16LE(offset + consts.CENCOM);
// volume number start
this.diskStart = data.readUInt16LE(offset + consts.CENDSK);
// internal file attributes
this.inattr = data.readUInt16LE(offset + consts.CENATT);
// external file attributes
this.attr = data.readUInt32LE(offset + consts.CENATX);
// LOC header offset
this.offset = data.readUInt32LE(offset + consts.CENOFF);
}
readDataHeader(data) {
// 30 bytes and should start with "PK\003\004"
if (data.readUInt32LE(0) !== consts.LOCSIG) {
throw new Error('Invalid local header');
}
// version needed to extract
this.version = data.readUInt16LE(consts.LOCVER);
// general purpose bit flag
this.flags = data.readUInt16LE(consts.LOCFLG);
// compression method
this.method = data.readUInt16LE(consts.LOCHOW);
// modification time (2 bytes time ; 2 bytes date)
const timebytes = data.readUInt16LE(consts.LOCTIM);
const datebytes = data.readUInt16LE(consts.LOCTIM + 2);
this.time = parseZipTime(timebytes, datebytes);
// uncompressed file crc-32 value
this.crc = data.readUInt32LE(consts.LOCCRC) || this.crc;
// compressed size
const compressedSize = data.readUInt32LE(consts.LOCSIZ);
if (compressedSize && compressedSize !== consts.EF_ZIP64_OR_32) {
this.compressedSize = compressedSize;
}
// uncompressed size
const size = data.readUInt32LE(consts.LOCLEN);
if (size && size !== consts.EF_ZIP64_OR_32) {
this.size = size;
}
// filename length
this.fnameLen = data.readUInt16LE(consts.LOCNAM);
// extra field length
this.extraLen = data.readUInt16LE(consts.LOCEXT);
}
read(data, offset, textDecoder) {
const nameData = data.slice(offset, (offset += this.fnameLen));
this.name = textDecoder
? textDecoder.decode(new Uint8Array(nameData))
: nameData.toString('utf8');
const lastChar = data[offset - 1];
this.isDirectory = lastChar === 47 || lastChar === 92;
if (this.extraLen) {
this.readExtra(data, offset);
offset += this.extraLen;
}
this.comment = this.comLen ? data.slice(offset, offset + this.comLen).toString() : null;
}
validateName() {
if (/\\|^\w+:|^\/|(^|\/)\.\.(\/|$)/.test(this.name)) {
throw new Error('Malicious entry: ' + this.name);
}
}
readExtra(data, offset) {
let signature, size;
const maxPos = offset + this.extraLen;
while (offset < maxPos) {
signature = data.readUInt16LE(offset);
offset += 2;
size = data.readUInt16LE(offset);
offset += 2;
if (consts.ID_ZIP64 === signature) {
this.parseZip64Extra(data, offset, size);
}
offset += size;
}
}
parseZip64Extra(data, offset, length) {
if (length >= 8 && this.size === consts.EF_ZIP64_OR_32) {
this.size = readUInt64LE(data, offset);
offset += 8;
length -= 8;
}
if (length >= 8 && this.compressedSize === consts.EF_ZIP64_OR_32) {
this.compressedSize = readUInt64LE(data, offset);
offset += 8;
length -= 8;
}
if (length >= 8 && this.offset === consts.EF_ZIP64_OR_32) {
this.offset = readUInt64LE(data, offset);
offset += 8;
length -= 8;
}
if (length >= 4 && this.diskStart === consts.EF_ZIP64_OR_16) {
this.diskStart = data.readUInt32LE(offset);
// offset += 4; length -= 4;
}
}
get encrypted() {
return (this.flags & consts.FLG_ENTRY_ENC) === consts.FLG_ENTRY_ENC;
}
get isFile() {
return !this.isDirectory;
}
}
class FsRead {
constructor(fd, buffer, offset, length, position, callback) {
this.fd = fd;
this.buffer = buffer;
this.offset = offset;
this.length = length;
this.position = position;
this.callback = callback;
this.bytesRead = 0;
this.waiting = false;
}
read(sync) {
StreamZip.debugLog('read', this.position, this.bytesRead, this.length, this.offset);
this.waiting = true;
let err;
if (sync) {
let bytesRead = 0;
try {
bytesRead = fs.readSync(
this.fd,
this.buffer,
this.offset + this.bytesRead,
this.length - this.bytesRead,
this.position + this.bytesRead
);
} catch (e) {
err = e;
}
this.readCallback(sync, err, err ? bytesRead : null);
} else {
fs.read(
this.fd,
this.buffer,
this.offset + this.bytesRead,
this.length - this.bytesRead,
this.position + this.bytesRead,
this.readCallback.bind(this, sync)
);
}
}
readCallback(sync, err, bytesRead) {
if (typeof bytesRead === 'number') {
this.bytesRead += bytesRead;
}
if (err || !bytesRead || this.bytesRead === this.length) {
this.waiting = false;
return this.callback(err, this.bytesRead);
} else {
this.read(sync);
}
}
}
class FileWindowBuffer {
constructor(fd) {
this.position = 0;
this.buffer = Buffer.alloc(0);
this.fd = fd;
this.fsOp = null;
}
checkOp() {
if (this.fsOp && this.fsOp.waiting) {
throw new Error('Operation in progress');
}
}
read(pos, length, callback) {
this.checkOp();
if (this.buffer.length < length) {
this.buffer = Buffer.alloc(length);
}
this.position = pos;
this.fsOp = new FsRead(this.fd, this.buffer, 0, length, this.position, callback).read();
}
expandLeft(length, callback) {
this.checkOp();
this.buffer = Buffer.concat([Buffer.alloc(length), this.buffer]);
this.position -= length;
if (this.position < 0) {
this.position = 0;
}
this.fsOp = new FsRead(this.fd, this.buffer, 0, length, this.position, callback).read();
}
expandRight(length, callback) {
this.checkOp();
const offset = this.buffer.length;
this.buffer = Buffer.concat([this.buffer, Buffer.alloc(length)]);
this.fsOp = new FsRead(
this.fd,
this.buffer,
offset,
length,
this.position + offset,
callback
).read();
}
moveRight(length, callback, shift) {
this.checkOp();
if (shift) {
this.buffer.copy(this.buffer, 0, shift);
} else {
shift = 0;
}
this.position += shift;
this.fsOp = new FsRead(
this.fd,
this.buffer,
this.buffer.length - shift,
shift,
this.position + this.buffer.length - shift,
callback
).read();
}
}
class EntryDataReaderStream extends stream.Readable {
constructor(fd, offset, length) {
super();
this.fd = fd;
this.offset = offset;
this.length = length;
this.pos = 0;
this.readCallback = this.readCallback.bind(this);
}
_read(n) {
const buffer = Buffer.alloc(Math.min(n, this.length - this.pos));
if (buffer.length) {
fs.read(this.fd, buffer, 0, buffer.length, this.offset + this.pos, this.readCallback);
} else {
this.push(null);
}
}
readCallback(err, bytesRead, buffer) {
this.pos += bytesRead;
if (err) {
this.emit('error', err);
this.push(null);
} else if (!bytesRead) {
this.push(null);
} else {
if (bytesRead !== buffer.length) {
buffer = buffer.slice(0, bytesRead);
}
this.push(buffer);
}
}
}
class EntryVerifyStream extends stream.Transform {
constructor(baseStm, crc, size) {
super();
this.verify = new CrcVerify(crc, size);
baseStm.on('error', (e) => {
this.emit('error', e);
});
}
_transform(data, encoding, callback) {
let err;
try {
this.verify.data(data);
} catch (e) {
err = e;
}
callback(err, data);
}
}
class CrcVerify {
constructor(crc, size) {
this.crc = crc;
this.size = size;
this.state = {
crc: ~0,
size: 0,
};
}
data(data) {
const crcTable = CrcVerify.getCrcTable();
let crc = this.state.crc;
let off = 0;
let len = data.length;
while (--len >= 0) {
crc = crcTable[(crc ^ data[off++]) & 0xff] ^ (crc >>> 8);
}
this.state.crc = crc;
this.state.size += data.length;
if (this.state.size >= this.size) {
const buf = Buffer.alloc(4);
buf.writeInt32LE(~this.state.crc & 0xffffffff, 0);
crc = buf.readUInt32LE(0);
if (crc !== this.crc) {
throw new Error('Invalid CRC');
}
if (this.state.size !== this.size) {
throw new Error('Invalid size');
}
}
}
static getCrcTable() {
let crcTable = CrcVerify.crcTable;
if (!crcTable) {
CrcVerify.crcTable = crcTable = [];
const b = Buffer.alloc(4);
for (let n = 0; n < 256; n++) {
let c = n;
for (let k = 8; --k >= 0;) {
if ((c & 1) !== 0) {
c = 0xedb88320 ^ (c >>> 1);
} else {
c = c >>> 1;
}
}
if (c < 0) {
b.writeInt32LE(c, 0);
c = b.readUInt32LE(0);
}
crcTable[n] = c;
}
}
return crcTable;
}
}
function parseZipTime(timebytes, datebytes) {
const timebits = toBits(timebytes, 16);
const datebits = toBits(datebytes, 16);
const mt = {
h: parseInt(timebits.slice(0, 5).join(''), 2),
m: parseInt(timebits.slice(5, 11).join(''), 2),
s: parseInt(timebits.slice(11, 16).join(''), 2) * 2,
Y: parseInt(datebits.slice(0, 7).join(''), 2) + 1980,
M: parseInt(datebits.slice(7, 11).join(''), 2),
D: parseInt(datebits.slice(11, 16).join(''), 2),
};
const dt_str = [mt.Y, mt.M, mt.D].join('-') + ' ' + [mt.h, mt.m, mt.s].join(':') + ' GMT+0';
return new Date(dt_str).getTime();
}
function toBits(dec, size) {
let b = (dec >>> 0).toString(2);
while (b.length < size) {
b = '0' + b;
}
return b.split('');
}
function readUInt64LE(buffer, offset) {
return buffer.readUInt32LE(offset + 4) * 0x0000000100000000 + buffer.readUInt32LE(offset);
}
module.exports = StreamZip;