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"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
Object.defineProperty(exports, "__esModule", { value: true });
exports.Parser = void 0;
const events_1 = require("events");
const minizlib_1 = require("minizlib");
const yallist_1 = require("yallist");
const header_js_1 = require("./header.js");
const pax_js_1 = require("./pax.js");
const read_entry_js_1 = require("./read-entry.js");
const warn_method_js_1 = require("./warn-method.js");
const maxMetaEntrySize = 1024 * 1024;
const gzipHeader = Buffer.from([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 SAW_VALID_ENTRY = Symbol('sawValidEntry');
const SAW_NULL_BLOCK = Symbol('sawNullBlock');
const SAW_EOF = Symbol('sawEOF');
const CLOSESTREAM = Symbol('closeStream');
const noop = () => true;
class Parser extends events_1.EventEmitter {
file;
strict;
maxMetaEntrySize;
filter;
brotli;
writable = true;
readable = false;
[QUEUE] = new yallist_1.Yallist();
[BUFFER];
[READENTRY];
[WRITEENTRY];
[STATE] = 'begin';
[META] = '';
[EX];
[GEX];
[ENDED] = false;
[UNZIP];
[ABORTED] = false;
[SAW_VALID_ENTRY];
[SAW_NULL_BLOCK] = false;
[SAW_EOF] = false;
[WRITING] = false;
[CONSUMING] = false;
[EMITTEDEND] = false;
constructor(opt = {}) {
super();
this.file = opt.file || '';
// these BADARCHIVE errors can't be detected early. listen on DONE.
this.on(DONE, () => {
if (this[STATE] === 'begin' ||
this[SAW_VALID_ENTRY] === false) {
// either less than 1 block of data, or all entries were invalid.
// Either way, probably not even a tarball.
this.warn('TAR_BAD_ARCHIVE', 'Unrecognized archive format');
}
});
if (opt.ondone) {
this.on(DONE, opt.ondone);
}
else {
this.on(DONE, () => {
this.emit('prefinish');
this.emit('finish');
this.emit('end');
});
}
this.strict = !!opt.strict;
this.maxMetaEntrySize = opt.maxMetaEntrySize || maxMetaEntrySize;
this.filter = typeof opt.filter === 'function' ? opt.filter : noop;
// Unlike gzip, brotli doesn't have any magic bytes to identify it
// Users need to explicitly tell us they're extracting a brotli file
// Or we infer from the file extension
const isTBR = opt.file &&
(opt.file.endsWith('.tar.br') || opt.file.endsWith('.tbr'));
// if it's a tbr file it MIGHT be brotli, but we don't know until
// we look at it and verify it's not a valid tar file.
this.brotli =
!opt.gzip && opt.brotli !== undefined ? opt.brotli
: isTBR ? undefined
: false;
// have to set this so that streams are ok piping into it
this.on('end', () => this[CLOSESTREAM]());
if (typeof opt.onwarn === 'function') {
this.on('warn', opt.onwarn);
}
if (typeof opt.onReadEntry === 'function') {
this.on('entry', opt.onReadEntry);
}
}
warn(code, message, data = {}) {
(0, warn_method_js_1.warnMethod)(this, code, message, data);
}
[CONSUMEHEADER](chunk, position) {
if (this[SAW_VALID_ENTRY] === undefined) {
this[SAW_VALID_ENTRY] = false;
}
let header;
try {
header = new header_js_1.Header(chunk, position, this[EX], this[GEX]);
}
catch (er) {
return this.warn('TAR_ENTRY_INVALID', er);
}
if (header.nullBlock) {
if (this[SAW_NULL_BLOCK]) {
this[SAW_EOF] = true;
// ending an archive with no entries. pointless, but legal.
if (this[STATE] === 'begin') {
this[STATE] = 'header';
}
this[EMIT]('eof');
}
else {
this[SAW_NULL_BLOCK] = true;
this[EMIT]('nullBlock');
}
}
else {
this[SAW_NULL_BLOCK] = false;
if (!header.cksumValid) {
this.warn('TAR_ENTRY_INVALID', 'checksum failure', { header });
}
else if (!header.path) {
this.warn('TAR_ENTRY_INVALID', 'path is required', { header });
}
else {
const type = header.type;
if (/^(Symbolic)?Link$/.test(type) && !header.linkpath) {
this.warn('TAR_ENTRY_INVALID', 'linkpath required', {
header,
});
}
else if (!/^(Symbolic)?Link$/.test(type) &&
!/^(Global)?ExtendedHeader$/.test(type) &&
header.linkpath) {
this.warn('TAR_ENTRY_INVALID', 'linkpath forbidden', {
header,
});
}
else {
const entry = (this[WRITEENTRY] = new read_entry_js_1.ReadEntry(header, this[EX], this[GEX]));
// we do this for meta & ignored entries as well, because they
// are still valid tar, or else we wouldn't know to ignore them
if (!this[SAW_VALID_ENTRY]) {
if (entry.remain) {
// this might be the one!
const onend = () => {
if (!entry.invalid) {
this[SAW_VALID_ENTRY] = true;
}
};
entry.on('end', onend);
}
else {
this[SAW_VALID_ENTRY] = true;
}
}
if (entry.meta) {
if (entry.size > this.maxMetaEntrySize) {
entry.ignore = true;
this[EMIT]('ignoredEntry', entry);
this[STATE] = 'ignore';
entry.resume();
}
else if (entry.size > 0) {
this[META] = '';
entry.on('data', c => (this[META] += c));
this[STATE] = 'meta';
}
}
else {
this[EX] = undefined;
entry.ignore =
entry.ignore || !this.filter(entry.path, entry);
if (entry.ignore) {
// probably valid, just not something we care about
this[EMIT]('ignoredEntry', entry);
this[STATE] = entry.remain ? 'ignore' : 'header';
entry.resume();
}
else {
if (entry.remain) {
this[STATE] = 'body';
}
else {
this[STATE] = 'header';
entry.end();
}
if (!this[READENTRY]) {
this[QUEUE].push(entry);
this[NEXTENTRY]();
}
else {
this[QUEUE].push(entry);
}
}
}
}
}
}
}
[CLOSESTREAM]() {
queueMicrotask(() => this.emit('close'));
}
[PROCESSENTRY](entry) {
let go = true;
if (!entry) {
this[READENTRY] = undefined;
go = false;
}
else if (Array.isArray(entry)) {
const [ev, ...args] = entry;
this.emit(ev, ...args);
}
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];
/* c8 ignore start */
if (!entry) {
throw new Error('attempt to consume body without entry??');
}
const br = entry.blockRemain ?? 0;
/* c8 ignore stop */
const c = br >= chunk.length && position === 0 ?
chunk
: chunk.subarray(position, position + br);
entry.write(c);
if (!entry.blockRemain) {
this[STATE] = 'header';
this[WRITEENTRY] = undefined;
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] && entry) {
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_js_1.Pax.parse(this[META], this[EX], false);
break;
case 'GlobalExtendedHeader':
this[GEX] = pax_js_1.Pax.parse(this[META], this[GEX], true);
break;
case 'NextFileHasLongPath':
case 'OldGnuLongPath': {
const ex = this[EX] ?? Object.create(null);
this[EX] = ex;
ex.path = this[META].replace(/\0.*/, '');
break;
}
case 'NextFileHasLongLinkpath': {
const ex = this[EX] || Object.create(null);
this[EX] = ex;
ex.linkpath = this[META].replace(/\0.*/, '');
break;
}
/* c8 ignore start */
default:
throw new Error('unknown meta: ' + entry.type);
/* c8 ignore stop */
}
}
abort(error) {
this[ABORTED] = true;
this.emit('abort', error);
// always throws, even in non-strict mode
this.warn('TAR_ABORT', error, { recoverable: false });
}
write(chunk, encoding, cb) {
if (typeof encoding === 'function') {
cb = encoding;
encoding = undefined;
}
if (typeof chunk === 'string') {
chunk = Buffer.from(chunk,
/* c8 ignore next */
typeof encoding === 'string' ? encoding : 'utf8');
}
if (this[ABORTED]) {
/* c8 ignore next */
cb?.();
return false;
}
// first write, might be gzipped
const needSniff = this[UNZIP] === undefined ||
(this.brotli === undefined && this[UNZIP] === false);
if (needSniff && chunk) {
if (this[BUFFER]) {
chunk = Buffer.concat([this[BUFFER], chunk]);
this[BUFFER] = undefined;
}
if (chunk.length < gzipHeader.length) {
this[BUFFER] = chunk;
/* c8 ignore next */
cb?.();
return true;
}
// look for gzip header
for (let i = 0; this[UNZIP] === undefined && i < gzipHeader.length; i++) {
if (chunk[i] !== gzipHeader[i]) {
this[UNZIP] = false;
}
}
const maybeBrotli = this.brotli === undefined;
if (this[UNZIP] === false && maybeBrotli) {
// read the first header to see if it's a valid tar file. If so,
// we can safely assume that it's not actually brotli, despite the
// .tbr or .tar.br file extension.
// if we ended before getting a full chunk, yes, def brotli
if (chunk.length < 512) {
if (this[ENDED]) {
this.brotli = true;
}
else {
this[BUFFER] = chunk;
/* c8 ignore next */
cb?.();
return true;
}
}
else {
// if it's tar, it's pretty reliably not brotli, chances of
// that happening are astronomical.
try {
new header_js_1.Header(chunk.subarray(0, 512));
this.brotli = false;
}
catch (_) {
this.brotli = true;
}
}
}
if (this[UNZIP] === undefined ||
(this[UNZIP] === false && this.brotli)) {
const ended = this[ENDED];
this[ENDED] = false;
this[UNZIP] =
this[UNZIP] === undefined ?
new minizlib_1.Unzip({})
: new minizlib_1.BrotliDecompress({});
this[UNZIP].on('data', chunk => this[CONSUMECHUNK](chunk));
this[UNZIP].on('error', er => this.abort(er));
this[UNZIP].on('end', () => {
this[ENDED] = true;
this[CONSUMECHUNK]();
});
this[WRITING] = true;
const ret = !!this[UNZIP][ended ? 'end' : 'write'](chunk);
this[WRITING] = false;
cb?.();
return ret;
}
}
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'));
}
/* c8 ignore next */
cb?.();
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[CONSUMING]) {
this[EMITTEDEND] = true;
const entry = this[WRITEENTRY];
if (entry && entry.blockRemain) {
// truncated, likely a damaged file
const have = this[BUFFER] ? this[BUFFER].length : 0;
this.warn('TAR_BAD_ARCHIVE', `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] && chunk) {
this[BUFFERCONCAT](chunk);
}
else if (!chunk && !this[BUFFER]) {
this[MAYBEEND]();
}
else if (chunk) {
this[CONSUMING] = true;
if (this[BUFFER]) {
this[BUFFERCONCAT](chunk);
const c = this[BUFFER];
this[BUFFER] = undefined;
this[CONSUMECHUNKSUB](c);
}
else {
this[CONSUMECHUNKSUB](chunk);
}
while (this[BUFFER] &&
this[BUFFER]?.length >= 512 &&
!this[ABORTED] &&
!this[SAW_EOF]) {
const c = this[BUFFER];
this[BUFFER] = undefined;
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;
const length = chunk.length;
while (position + 512 <= length &&
!this[ABORTED] &&
!this[SAW_EOF]) {
switch (this[STATE]) {
case 'begin':
case 'header':
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;
/* c8 ignore start */
default:
throw new Error('invalid state: ' + this[STATE]);
/* c8 ignore stop */
}
}
if (position < length) {
if (this[BUFFER]) {
this[BUFFER] = Buffer.concat([
chunk.subarray(position),
this[BUFFER],
]);
}
else {
this[BUFFER] = chunk.subarray(position);
}
}
}
end(chunk, encoding, cb) {
if (typeof chunk === 'function') {
cb = chunk;
encoding = undefined;
chunk = undefined;
}
if (typeof encoding === 'function') {
cb = encoding;
encoding = undefined;
}
if (typeof chunk === 'string') {
chunk = Buffer.from(chunk, encoding);
}
if (cb)
this.once('finish', cb);
if (!this[ABORTED]) {
if (this[UNZIP]) {
/* c8 ignore start */
if (chunk)
this[UNZIP].write(chunk);
/* c8 ignore stop */
this[UNZIP].end();
}
else {
this[ENDED] = true;
if (this.brotli === undefined)
chunk = chunk || Buffer.alloc(0);
if (chunk)
this.write(chunk);
this[MAYBEEND]();
}
}
return this;
}
}
exports.Parser = Parser;
//# sourceMappingURL=parse.js.map