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source: trip-planner-front/node_modules/webpack/lib/serialization/FileMiddleware.js@ 59329aa

Last change on this file since 59329aa was 6a3a178, checked in by Ema <ema_spirova@…>, 3 years ago
initial commit
Property mode set to `100644`
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1	/*
2	MIT License http://www.opensource.org/licenses/mit-license.php
3	*/
4
5	"use strict";
6
7	const { constants } = require("buffer");
8	const { pipeline } = require("stream");
9	const {
10	createBrotliCompress,
11	createBrotliDecompress,
12	createGzip,
13	createGunzip,
14	constants: zConstants
15	} = require("zlib");
16	const createHash = require("../util/createHash");
17	const { dirname, join, mkdirp } = require("../util/fs");
18	const memoize = require("../util/memoize");
19	const SerializerMiddleware = require("./SerializerMiddleware");
20
21	/** @typedef {import("../util/fs").IntermediateFileSystem} IntermediateFileSystem */
22	/** @typedef {import("./types").BufferSerializableType} BufferSerializableType */
23
24	/*
25	Format:
26
27	File -> Header Section*
28
29	Version -> u32
30	AmountOfSections -> u32
31	SectionSize -> i32 (if less than zero represents lazy value)
32
33	Header -> Version AmountOfSections SectionSize*
34
35	Buffer -> n bytes
36	Section -> Buffer
37
38	*/
39
40	// "wpc" + 1 in little-endian
41	const VERSION = 0x01637077;
42	const hashForName = buffers => {
43	const hash = createHash("md4");
44	for (const buf of buffers) hash.update(buf);
45	return /** @type {string} */ (hash.digest("hex"));
46	};
47
48	const COMPRESSION_CHUNK_SIZE = 100 * 1024 * 1024;
49	const DECOMPRESSION_CHUNK_SIZE = 100 * 1024 * 1024;
50
51	const writeUInt64LE = Buffer.prototype.writeBigUInt64LE
52	? (buf, value, offset) => {
53	buf.writeBigUInt64LE(BigInt(value), offset);
54	}
55	: (buf, value, offset) => {
56	const low = value % 0x100000000;
57	const high = (value - low) / 0x100000000;
58	buf.writeUInt32LE(low, offset);
59	buf.writeUInt32LE(high, offset + 4);
60	};
61
62	const readUInt64LE = Buffer.prototype.readBigUInt64LE
63	? (buf, offset) => {
64	return Number(buf.readBigUInt64LE(offset));
65	}
66	: (buf, offset) => {
67	const low = buf.readUInt32LE(offset);
68	const high = buf.readUInt32LE(offset + 4);
69	return high * 0x100000000 + low;
70	};
71
72	/**
73	* @typedef {Object} SerializeResult
74	* @property {string \| false} name
75	* @property {number} size
76	* @property {Promise=} backgroundJob
77	*/
78
79	/**
80	* @param {FileMiddleware} middleware this
81	* @param {BufferSerializableType[] \| Promise<BufferSerializableType[]>} data data to be serialized
82	* @param {string \| boolean} name file base name
83	* @param {function(string \| false, Buffer[]): Promise<void>} writeFile writes a file
84	* @returns {Promise<SerializeResult>} resulting file pointer and promise
85	*/
86	const serialize = async (middleware, data, name, writeFile) => {
87	/** @type {(Buffer[] \| Buffer \| SerializeResult \| Promise<SerializeResult>)[]} */
88	const processedData = [];
89	/** @type {WeakMap<SerializeResult, function(): any \| Promise<any>>} */
90	const resultToLazy = new WeakMap();
91	/** @type {Buffer[]} */
92	let lastBuffers = undefined;
93	for (const item of await data) {
94	if (typeof item === "function") {
95	if (!SerializerMiddleware.isLazy(item))
96	throw new Error("Unexpected function");
97	if (!SerializerMiddleware.isLazy(item, middleware)) {
98	throw new Error(
99	"Unexpected lazy value with non-this target (can't pass through lazy values)"
100	);
101	}
102	lastBuffers = undefined;
103	const serializedInfo = SerializerMiddleware.getLazySerializedValue(item);
104	if (serializedInfo) {
105	if (typeof serializedInfo === "function") {
106	throw new Error(
107	"Unexpected lazy value with non-this target (can't pass through lazy values)"
108	);
109	} else {
110	processedData.push(serializedInfo);
111	}
112	} else {
113	const content = item();
114	if (content) {
115	const options = SerializerMiddleware.getLazyOptions(item);
116	processedData.push(
117	serialize(
118	middleware,
119	content,
120	(options && options.name) \|\| true,
121	writeFile
122	).then(result => {
123	/** @type {any} */ (item).options.size = result.size;
124	resultToLazy.set(result, item);
125	return result;
126	})
127	);
128	} else {
129	throw new Error(
130	"Unexpected falsy value returned by lazy value function"
131	);
132	}
133	}
134	} else if (item) {
135	if (lastBuffers) {
136	lastBuffers.push(item);
137	} else {
138	lastBuffers = [item];
139	processedData.push(lastBuffers);
140	}
141	} else {
142	throw new Error("Unexpected falsy value in items array");
143	}
144	}
145	/** @type {Promise<any>[]} */
146	const backgroundJobs = [];
147	const resolvedData = (
148	await Promise.all(
149	/** @type {Promise<Buffer[] \| Buffer \| SerializeResult>[]} */ (
150	processedData
151	)
152	)
153	).map(item => {
154	if (Array.isArray(item) \|\| Buffer.isBuffer(item)) return item;
155
156	backgroundJobs.push(item.backgroundJob);
157	// create pointer buffer from size and name
158	const name = /** @type {string} */ (item.name);
159	const nameBuffer = Buffer.from(name);
160	const buf = Buffer.allocUnsafe(8 + nameBuffer.length);
161	writeUInt64LE(buf, item.size, 0);
162	nameBuffer.copy(buf, 8, 0);
163	const lazy = resultToLazy.get(item);
164	SerializerMiddleware.setLazySerializedValue(lazy, buf);
165	return buf;
166	});
167	const lengths = [];
168	for (const item of resolvedData) {
169	if (Array.isArray(item)) {
170	let l = 0;
171	for (const b of item) l += b.length;
172	while (l > 0x7fffffff) {
173	lengths.push(0x7fffffff);
174	l -= 0x7fffffff;
175	}
176	lengths.push(l);
177	} else if (item) {
178	lengths.push(-item.length);
179	} else {
180	throw new Error("Unexpected falsy value in resolved data " + item);
181	}
182	}
183	const header = Buffer.allocUnsafe(8 + lengths.length * 4);
184	header.writeUInt32LE(VERSION, 0);
185	header.writeUInt32LE(lengths.length, 4);
186	for (let i = 0; i < lengths.length; i++) {
187	header.writeInt32LE(lengths[i], 8 + i * 4);
188	}
189	const buf = [header];
190	for (const item of resolvedData) {
191	if (Array.isArray(item)) {
192	for (const b of item) buf.push(b);
193	} else if (item) {
194	buf.push(item);
195	}
196	}
197	if (name === true) {
198	name = hashForName(buf);
199	}
200	backgroundJobs.push(writeFile(name, buf));
201	let size = 0;
202	for (const b of buf) size += b.length;
203	return {
204	size,
205	name,
206	backgroundJob:
207	backgroundJobs.length === 1
208	? backgroundJobs[0]
209	: Promise.all(backgroundJobs)
210	};
211	};
212
213	/**
214	* @param {FileMiddleware} middleware this
215	* @param {string \| false} name filename
216	* @param {function(string \| false): Promise<Buffer[]>} readFile read content of a file
217	* @returns {Promise<BufferSerializableType[]>} deserialized data
218	*/
219	const deserialize = async (middleware, name, readFile) => {
220	const contents = await readFile(name);
221	if (contents.length === 0) throw new Error("Empty file " + name);
222	let contentsIndex = 0;
223	let contentItem = contents[0];
224	let contentItemLength = contentItem.length;
225	let contentPosition = 0;
226	if (contentItemLength === 0) throw new Error("Empty file " + name);
227	const nextContent = () => {
228	contentsIndex++;
229	contentItem = contents[contentsIndex];
230	contentItemLength = contentItem.length;
231	contentPosition = 0;
232	};
233	const ensureData = n => {
234	if (contentPosition === contentItemLength) {
235	nextContent();
236	}
237	while (contentItemLength - contentPosition < n) {
238	const remaining = contentItem.slice(contentPosition);
239	let lengthFromNext = n - remaining.length;
240	const buffers = [remaining];
241	for (let i = contentsIndex + 1; i < contents.length; i++) {
242	const l = contents[i].length;
243	if (l > lengthFromNext) {
244	buffers.push(contents[i].slice(0, lengthFromNext));
245	contents[i] = contents[i].slice(lengthFromNext);
246	lengthFromNext = 0;
247	break;
248	} else {
249	buffers.push(contents[i]);
250	contentsIndex = i;
251	lengthFromNext -= l;
252	}
253	}
254	if (lengthFromNext > 0) throw new Error("Unexpected end of data");
255	contentItem = Buffer.concat(buffers, n);
256	contentItemLength = n;
257	contentPosition = 0;
258	}
259	};
260	const readUInt32LE = () => {
261	ensureData(4);
262	const value = contentItem.readUInt32LE(contentPosition);
263	contentPosition += 4;
264	return value;
265	};
266	const readInt32LE = () => {
267	ensureData(4);
268	const value = contentItem.readInt32LE(contentPosition);
269	contentPosition += 4;
270	return value;
271	};
272	const readSlice = l => {
273	ensureData(l);
274	if (contentPosition === 0 && contentItemLength === l) {
275	const result = contentItem;
276	if (contentsIndex + 1 < contents.length) {
277	nextContent();
278	} else {
279	contentPosition = l;
280	}
281	return result;
282	}
283	const result = contentItem.slice(contentPosition, contentPosition + l);
284	contentPosition += l;
285	// we clone the buffer here to allow the original content to be garbage collected
286	return l * 2 < contentItem.buffer.byteLength ? Buffer.from(result) : result;
287	};
288	const version = readUInt32LE();
289	if (version !== VERSION) {
290	throw new Error("Invalid file version");
291	}
292	const sectionCount = readUInt32LE();
293	const lengths = [];
294	let lastLengthPositive = false;
295	for (let i = 0; i < sectionCount; i++) {
296	const value = readInt32LE();
297	const valuePositive = value >= 0;
298	if (lastLengthPositive && valuePositive) {
299	lengths[lengths.length - 1] += value;
300	} else {
301	lengths.push(value);
302	lastLengthPositive = valuePositive;
303	}
304	}
305	const result = [];
306	for (let length of lengths) {
307	if (length < 0) {
308	const slice = readSlice(-length);
309	const size = Number(readUInt64LE(slice, 0));
310	const nameBuffer = slice.slice(8);
311	const name = nameBuffer.toString();
312	result.push(
313	SerializerMiddleware.createLazy(
314	memoize(() => deserialize(middleware, name, readFile)),
315	middleware,
316	{
317	name,
318	size
319	},
320	slice
321	)
322	);
323	} else {
324	if (contentPosition === contentItemLength) {
325	nextContent();
326	} else if (contentPosition !== 0) {
327	if (length <= contentItemLength - contentPosition) {
328	result.push(
329	Buffer.from(
330	contentItem.buffer,
331	contentItem.byteOffset + contentPosition,
332	length
333	)
334	);
335	contentPosition += length;
336	length = 0;
337	} else {
338	const l = contentItemLength - contentPosition;
339	result.push(
340	Buffer.from(
341	contentItem.buffer,
342	contentItem.byteOffset + contentPosition,
343	l
344	)
345	);
346	length -= l;
347	contentPosition = contentItemLength;
348	}
349	} else {
350	if (length >= contentItemLength) {
351	result.push(contentItem);
352	length -= contentItemLength;
353	contentPosition = contentItemLength;
354	} else {
355	result.push(
356	Buffer.from(contentItem.buffer, contentItem.byteOffset, length)
357	);
358	contentPosition += length;
359	length = 0;
360	}
361	}
362	while (length > 0) {
363	nextContent();
364	if (length >= contentItemLength) {
365	result.push(contentItem);
366	length -= contentItemLength;
367	contentPosition = contentItemLength;
368	} else {
369	result.push(
370	Buffer.from(contentItem.buffer, contentItem.byteOffset, length)
371	);
372	contentPosition += length;
373	length = 0;
374	}
375	}
376	}
377	}
378	return result;
379	};
380
381	/**
382	* @typedef {BufferSerializableType[]} DeserializedType
383	* @typedef {true} SerializedType
384	* @extends {SerializerMiddleware<DeserializedType, SerializedType>}
385	*/
386	class FileMiddleware extends SerializerMiddleware {
387	/**
388	* @param {IntermediateFileSystem} fs filesystem
389	*/
390	constructor(fs) {
391	super();
392	this.fs = fs;
393	}
394	/**
395	* @param {DeserializedType} data data
396	* @param {Object} context context object
397	* @returns {SerializedType\|Promise<SerializedType>} serialized data
398	*/
399	serialize(data, context) {
400	const { filename, extension = "" } = context;
401	return new Promise((resolve, reject) => {
402	mkdirp(this.fs, dirname(this.fs, filename), err => {
403	if (err) return reject(err);
404
405	// It's important that we don't touch existing files during serialization
406	// because serialize may read existing files (when deserializing)
407	const allWrittenFiles = new Set();
408	const writeFile = async (name, content) => {
409	const file = name
410	? join(this.fs, filename, `../${name}${extension}`)
411	: filename;
412	await new Promise((resolve, reject) => {
413	let stream = this.fs.createWriteStream(file + "_");
414	let compression;
415	if (file.endsWith(".gz")) {
416	compression = createGzip({
417	chunkSize: COMPRESSION_CHUNK_SIZE,
418	level: zConstants.Z_BEST_SPEED
419	});
420	} else if (file.endsWith(".br")) {
421	compression = createBrotliCompress({
422	chunkSize: COMPRESSION_CHUNK_SIZE,
423	params: {
424	[zConstants.BROTLI_PARAM_MODE]: zConstants.BROTLI_MODE_TEXT,
425	[zConstants.BROTLI_PARAM_QUALITY]: 2,
426	[zConstants.BROTLI_PARAM_DISABLE_LITERAL_CONTEXT_MODELING]: true,
427	[zConstants.BROTLI_PARAM_SIZE_HINT]: content.reduce(
428	(size, b) => size + b.length,
429	0
430	)
431	}
432	});
433	}
434	if (compression) {
435	pipeline(compression, stream, reject);
436	stream = compression;
437	stream.on("finish", () => resolve());
438	} else {
439	stream.on("error", err => reject(err));
440	stream.on("finish", () => resolve());
441	}
442	for (const b of content) stream.write(b);
443	stream.end();
444	});
445	if (name) allWrittenFiles.add(file);
446	};
447
448	resolve(
449	serialize(this, data, false, writeFile).then(
450	async ({ backgroundJob }) => {
451	await backgroundJob;
452
453	// Rename the index file to disallow access during inconsistent file state
454	await new Promise(resolve =>
455	this.fs.rename(filename, filename + ".old", err => {
456	resolve();
457	})
458	);
459
460	// update all written files
461	await Promise.all(
462	Array.from(
463	allWrittenFiles,
464	file =>
465	new Promise((resolve, reject) => {
466	this.fs.rename(file + "_", file, err => {
467	if (err) return reject(err);
468	resolve();
469	});
470	})
471	)
472	);
473
474	// As final step automatically update the index file to have a consistent pack again
475	await new Promise(resolve => {
476	this.fs.rename(filename + "_", filename, err => {
477	if (err) return reject(err);
478	resolve();
479	});
480	});
481	return /** @type {true} */ (true);
482	}
483	)
484	);
485	});
486	});
487	}
488
489	/**
490	* @param {SerializedType} data data
491	* @param {Object} context context object
492	* @returns {DeserializedType\|Promise<DeserializedType>} deserialized data
493	*/
494	deserialize(data, context) {
495	const { filename, extension = "" } = context;
496	const readFile = name =>
497	new Promise((resolve, reject) => {
498	const file = name
499	? join(this.fs, filename, `../${name}${extension}`)
500	: filename;
501	this.fs.stat(file, (err, stats) => {
502	if (err) {
503	reject(err);
504	return;
505	}
506	let remaining = /** @type {number} */ (stats.size);
507	let currentBuffer;
508	let currentBufferUsed;
509	const buf = [];
510	let decompression;
511	if (file.endsWith(".gz")) {
512	decompression = createGunzip({
513	chunkSize: DECOMPRESSION_CHUNK_SIZE
514	});
515	} else if (file.endsWith(".br")) {
516	decompression = createBrotliDecompress({
517	chunkSize: DECOMPRESSION_CHUNK_SIZE
518	});
519	}
520	if (decompression) {
521	let newResolve, newReject;
522	resolve(
523	Promise.all([
524	new Promise((rs, rj) => {
525	newResolve = rs;
526	newReject = rj;
527	}),
528	new Promise((resolve, reject) => {
529	decompression.on("data", chunk => buf.push(chunk));
530	decompression.on("end", () => resolve());
531	decompression.on("error", err => reject(err));
532	})
533	]).then(() => buf)
534	);
535	resolve = newResolve;
536	reject = newReject;
537	}
538	this.fs.open(file, "r", (err, fd) => {
539	if (err) {
540	reject(err);
541	return;
542	}
543	const read = () => {
544	if (currentBuffer === undefined) {
545	currentBuffer = Buffer.allocUnsafeSlow(
546	Math.min(
547	constants.MAX_LENGTH,
548	remaining,
549	decompression ? DECOMPRESSION_CHUNK_SIZE : Infinity
550	)
551	);
552	currentBufferUsed = 0;
553	}
554	let readBuffer = currentBuffer;
555	let readOffset = currentBufferUsed;
556	let readLength = currentBuffer.length - currentBufferUsed;
557	// values passed to fs.read must be valid int32 values
558	if (readOffset > 0x7fffffff) {
559	readBuffer = currentBuffer.slice(readOffset);
560	readOffset = 0;
561	}
562	if (readLength > 0x7fffffff) {
563	readLength = 0x7fffffff;
564	}
565	this.fs.read(
566	fd,
567	readBuffer,
568	readOffset,
569	readLength,
570	null,
571	(err, bytesRead) => {
572	if (err) {
573	this.fs.close(fd, () => {
574	reject(err);
575	});
576	return;
577	}
578	currentBufferUsed += bytesRead;
579	remaining -= bytesRead;
580	if (currentBufferUsed === currentBuffer.length) {
581	if (decompression) {
582	decompression.write(currentBuffer);
583	} else {
584	buf.push(currentBuffer);
585	}
586	currentBuffer = undefined;
587	if (remaining === 0) {
588	if (decompression) {
589	decompression.end();
590	}
591	this.fs.close(fd, err => {
592	if (err) {
593	reject(err);
594	return;
595	}
596	resolve(buf);
597	});
598	return;
599	}
600	}
601	read();
602	}
603	);
604	};
605	read();
606	});
607	});
608	});
609	return deserialize(this, false, readFile);
610	}
611	}
612
613	module.exports = FileMiddleware;

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