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/*
MIT License http://www.opensource.org/licenses/mit-license.php
*/
"use strict";
const createHash = require("../util/createHash");
const ArraySerializer = require("./ArraySerializer");
const DateObjectSerializer = require("./DateObjectSerializer");
const ErrorObjectSerializer = require("./ErrorObjectSerializer");
const MapObjectSerializer = require("./MapObjectSerializer");
const NullPrototypeObjectSerializer = require("./NullPrototypeObjectSerializer");
const PlainObjectSerializer = require("./PlainObjectSerializer");
const RegExpObjectSerializer = require("./RegExpObjectSerializer");
const SerializerMiddleware = require("./SerializerMiddleware");
const SetObjectSerializer = require("./SetObjectSerializer");
/** @typedef {import("./types").ComplexSerializableType} ComplexSerializableType */
/** @typedef {import("./types").PrimitiveSerializableType} PrimitiveSerializableType */
/** @typedef {new (...params: any[]) => any} Constructor */
/*
Format:
File -> Section*
Section -> ObjectSection | ReferenceSection | EscapeSection | OtherSection
ObjectSection -> ESCAPE (
number:relativeOffset (number > 0) |
string:request (string|null):export
) Section:value* ESCAPE ESCAPE_END_OBJECT
ReferenceSection -> ESCAPE number:relativeOffset (number < 0)
EscapeSection -> ESCAPE ESCAPE_ESCAPE_VALUE (escaped value ESCAPE)
EscapeSection -> ESCAPE ESCAPE_UNDEFINED (escaped value ESCAPE)
OtherSection -> any (except ESCAPE)
Why using null as escape value?
Multiple null values can merged by the BinaryMiddleware, which makes it very efficient
Technically any value can be used.
*/
/**
* @typedef {Object} ObjectSerializerContext
* @property {function(any): void} write
*/
/**
* @typedef {Object} ObjectDeserializerContext
* @property {function(): any} read
*/
/**
* @typedef {Object} ObjectSerializer
* @property {function(any, ObjectSerializerContext): void} serialize
* @property {function(ObjectDeserializerContext): any} deserialize
*/
const setSetSize = (set, size) => {
let i = 0;
for (const item of set) {
if (i++ >= size) {
set.delete(item);
}
}
};
const setMapSize = (map, size) => {
let i = 0;
for (const item of map.keys()) {
if (i++ >= size) {
map.delete(item);
}
}
};
const toHash = buffer => {
const hash = createHash("md4");
hash.update(buffer);
return /** @type {string} */ (hash.digest("latin1"));
};
const ESCAPE = null;
const ESCAPE_ESCAPE_VALUE = null;
const ESCAPE_END_OBJECT = true;
const ESCAPE_UNDEFINED = false;
const CURRENT_VERSION = 2;
const serializers = new Map();
const serializerInversed = new Map();
const loadedRequests = new Set();
const NOT_SERIALIZABLE = {};
const jsTypes = new Map();
jsTypes.set(Object, new PlainObjectSerializer());
jsTypes.set(Array, new ArraySerializer());
jsTypes.set(null, new NullPrototypeObjectSerializer());
jsTypes.set(Map, new MapObjectSerializer());
jsTypes.set(Set, new SetObjectSerializer());
jsTypes.set(Date, new DateObjectSerializer());
jsTypes.set(RegExp, new RegExpObjectSerializer());
jsTypes.set(Error, new ErrorObjectSerializer(Error));
jsTypes.set(EvalError, new ErrorObjectSerializer(EvalError));
jsTypes.set(RangeError, new ErrorObjectSerializer(RangeError));
jsTypes.set(ReferenceError, new ErrorObjectSerializer(ReferenceError));
jsTypes.set(SyntaxError, new ErrorObjectSerializer(SyntaxError));
jsTypes.set(TypeError, new ErrorObjectSerializer(TypeError));
// If in a sandboxed environment (e. g. jest), this escapes the sandbox and registers
// real Object and Array types to. These types may occur in the wild too, e. g. when
// using Structured Clone in postMessage.
if (exports.constructor !== Object) {
const Obj = /** @type {typeof Object} */ (exports.constructor);
const Fn = /** @type {typeof Function} */ (Obj.constructor);
for (const [type, config] of Array.from(jsTypes)) {
if (type) {
const Type = new Fn(`return ${type.name};`)();
jsTypes.set(Type, config);
}
}
}
{
let i = 1;
for (const [type, serializer] of jsTypes) {
serializers.set(type, {
request: "",
name: i++,
serializer
});
}
}
for (const { request, name, serializer } of serializers.values()) {
serializerInversed.set(`${request}/${name}`, serializer);
}
/** @type {Map<RegExp, (request: string) => boolean>} */
const loaders = new Map();
/**
* @typedef {ComplexSerializableType[]} DeserializedType
* @typedef {PrimitiveSerializableType[]} SerializedType
* @extends {SerializerMiddleware<DeserializedType, SerializedType>}
*/
class ObjectMiddleware extends SerializerMiddleware {
constructor(extendContext) {
super();
this.extendContext = extendContext;
}
/**
* @param {RegExp} regExp RegExp for which the request is tested
* @param {function(string): boolean} loader loader to load the request, returns true when successful
* @returns {void}
*/
static registerLoader(regExp, loader) {
loaders.set(regExp, loader);
}
/**
* @param {Constructor} Constructor the constructor
* @param {string} request the request which will be required when deserializing
* @param {string} name the name to make multiple serializer unique when sharing a request
* @param {ObjectSerializer} serializer the serializer
* @returns {void}
*/
static register(Constructor, request, name, serializer) {
const key = request + "/" + name;
if (serializers.has(Constructor)) {
throw new Error(
`ObjectMiddleware.register: serializer for ${Constructor.name} is already registered`
);
}
if (serializerInversed.has(key)) {
throw new Error(
`ObjectMiddleware.register: serializer for ${key} is already registered`
);
}
serializers.set(Constructor, {
request,
name,
serializer
});
serializerInversed.set(key, serializer);
}
/**
* @param {Constructor} Constructor the constructor
* @returns {void}
*/
static registerNotSerializable(Constructor) {
if (serializers.has(Constructor)) {
throw new Error(
`ObjectMiddleware.registerNotSerializable: serializer for ${Constructor.name} is already registered`
);
}
serializers.set(Constructor, NOT_SERIALIZABLE);
}
static getSerializerFor(object) {
const proto = Object.getPrototypeOf(object);
let c;
if (proto === null) {
// Object created with Object.create(null)
c = null;
} else {
c = proto.constructor;
if (!c) {
throw new Error(
"Serialization of objects with prototype without valid constructor property not possible"
);
}
}
const config = serializers.get(c);
if (!config) throw new Error(`No serializer registered for ${c.name}`);
if (config === NOT_SERIALIZABLE) throw NOT_SERIALIZABLE;
return config;
}
static getDeserializerFor(request, name) {
const key = request + "/" + name;
const serializer = serializerInversed.get(key);
if (serializer === undefined) {
throw new Error(`No deserializer registered for ${key}`);
}
return serializer;
}
static _getDeserializerForWithoutError(request, name) {
const key = request + "/" + name;
const serializer = serializerInversed.get(key);
return serializer;
}
/**
* @param {DeserializedType} data data
* @param {Object} context context object
* @returns {SerializedType|Promise<SerializedType>} serialized data
*/
serialize(data, context) {
/** @type {any[]} */
let result = [CURRENT_VERSION];
let currentPos = 0;
let referenceable = new Map();
const addReferenceable = item => {
referenceable.set(item, currentPos++);
};
let bufferDedupeMap = new Map();
const dedupeBuffer = buf => {
const len = buf.length;
const entry = bufferDedupeMap.get(len);
if (entry === undefined) {
bufferDedupeMap.set(len, buf);
return buf;
}
if (Buffer.isBuffer(entry)) {
if (len < 32) {
if (buf.equals(entry)) {
return entry;
}
bufferDedupeMap.set(len, [entry, buf]);
return buf;
} else {
const hash = toHash(entry);
const newMap = new Map();
newMap.set(hash, entry);
bufferDedupeMap.set(len, newMap);
const hashBuf = toHash(buf);
if (hash === hashBuf) {
return entry;
}
return buf;
}
} else if (Array.isArray(entry)) {
if (entry.length < 16) {
for (const item of entry) {
if (buf.equals(item)) {
return item;
}
}
entry.push(buf);
return buf;
} else {
const newMap = new Map();
const hash = toHash(buf);
let found;
for (const item of entry) {
const itemHash = toHash(item);
newMap.set(itemHash, item);
if (found === undefined && itemHash === hash) found = item;
}
bufferDedupeMap.set(len, newMap);
if (found === undefined) {
newMap.set(hash, buf);
return buf;
} else {
return found;
}
}
} else {
const hash = toHash(buf);
const item = entry.get(hash);
if (item !== undefined) {
return item;
}
entry.set(hash, buf);
return buf;
}
};
let currentPosTypeLookup = 0;
let objectTypeLookup = new Map();
const cycleStack = new Set();
const stackToString = item => {
const arr = Array.from(cycleStack);
arr.push(item);
return arr
.map(item => {
if (typeof item === "string") {
if (item.length > 100) {
return `String ${JSON.stringify(item.slice(0, 100)).slice(
0,
-1
)}..."`;
}
return `String ${JSON.stringify(item)}`;
}
try {
const { request, name } = ObjectMiddleware.getSerializerFor(item);
if (request) {
return `${request}${name ? `.${name}` : ""}`;
}
} catch (e) {
// ignore -> fallback
}
if (typeof item === "object" && item !== null) {
if (item.constructor) {
if (item.constructor === Object)
return `Object { ${Object.keys(item).join(", ")} }`;
if (item.constructor === Map) return `Map { ${item.size} items }`;
if (item.constructor === Array)
return `Array { ${item.length} items }`;
if (item.constructor === Set) return `Set { ${item.size} items }`;
if (item.constructor === RegExp) return item.toString();
return `${item.constructor.name}`;
}
return `Object [null prototype] { ${Object.keys(item).join(
", "
)} }`;
}
try {
return `${item}`;
} catch (e) {
return `(${e.message})`;
}
})
.join(" -> ");
};
let hasDebugInfoAttached;
let ctx = {
write(value, key) {
try {
process(value);
} catch (e) {
if (e !== NOT_SERIALIZABLE) {
if (hasDebugInfoAttached === undefined)
hasDebugInfoAttached = new WeakSet();
if (!hasDebugInfoAttached.has(e)) {
e.message += `\nwhile serializing ${stackToString(value)}`;
hasDebugInfoAttached.add(e);
}
}
throw e;
}
},
setCircularReference(ref) {
addReferenceable(ref);
},
snapshot() {
return {
length: result.length,
cycleStackSize: cycleStack.size,
referenceableSize: referenceable.size,
currentPos,
objectTypeLookupSize: objectTypeLookup.size,
currentPosTypeLookup
};
},
rollback(snapshot) {
result.length = snapshot.length;
setSetSize(cycleStack, snapshot.cycleStackSize);
setMapSize(referenceable, snapshot.referenceableSize);
currentPos = snapshot.currentPos;
setMapSize(objectTypeLookup, snapshot.objectTypeLookupSize);
currentPosTypeLookup = snapshot.currentPosTypeLookup;
},
...context
};
this.extendContext(ctx);
const process = item => {
if (Buffer.isBuffer(item)) {
// check if we can emit a reference
const ref = referenceable.get(item);
if (ref !== undefined) {
result.push(ESCAPE, ref - currentPos);
return;
}
const alreadyUsedBuffer = dedupeBuffer(item);
if (alreadyUsedBuffer !== item) {
const ref = referenceable.get(alreadyUsedBuffer);
if (ref !== undefined) {
referenceable.set(item, ref);
result.push(ESCAPE, ref - currentPos);
return;
}
item = alreadyUsedBuffer;
}
addReferenceable(item);
result.push(item);
} else if (item === ESCAPE) {
result.push(ESCAPE, ESCAPE_ESCAPE_VALUE);
} else if (
typeof item === "object"
// We don't have to check for null as ESCAPE is null and this has been checked before
) {
// check if we can emit a reference
const ref = referenceable.get(item);
if (ref !== undefined) {
result.push(ESCAPE, ref - currentPos);
return;
}
if (cycleStack.has(item)) {
throw new Error(
`This is a circular references. To serialize circular references use 'setCircularReference' somewhere in the circle during serialize and deserialize.`
);
}
const { request, name, serializer } =
ObjectMiddleware.getSerializerFor(item);
const key = `${request}/${name}`;
const lastIndex = objectTypeLookup.get(key);
if (lastIndex === undefined) {
objectTypeLookup.set(key, currentPosTypeLookup++);
result.push(ESCAPE, request, name);
} else {
result.push(ESCAPE, currentPosTypeLookup - lastIndex);
}
cycleStack.add(item);
try {
serializer.serialize(item, ctx);
} finally {
cycleStack.delete(item);
}
result.push(ESCAPE, ESCAPE_END_OBJECT);
addReferenceable(item);
} else if (typeof item === "string") {
if (item.length > 1) {
// short strings are shorter when not emitting a reference (this saves 1 byte per empty string)
// check if we can emit a reference
const ref = referenceable.get(item);
if (ref !== undefined) {
result.push(ESCAPE, ref - currentPos);
return;
}
addReferenceable(item);
}
if (item.length > 102400 && context.logger) {
context.logger.warn(
`Serializing big strings (${Math.round(
item.length / 1024
)}kiB) impacts deserialization performance (consider using Buffer instead and decode when needed)`
);
}
result.push(item);
} else if (typeof item === "function") {
if (!SerializerMiddleware.isLazy(item))
throw new Error("Unexpected function " + item);
/** @type {SerializedType} */
const serializedData =
SerializerMiddleware.getLazySerializedValue(item);
if (serializedData !== undefined) {
if (typeof serializedData === "function") {
result.push(serializedData);
} else {
throw new Error("Not implemented");
}
} else if (SerializerMiddleware.isLazy(item, this)) {
throw new Error("Not implemented");
} else {
result.push(
SerializerMiddleware.serializeLazy(item, data =>
this.serialize([data], context)
)
);
}
} else if (item === undefined) {
result.push(ESCAPE, ESCAPE_UNDEFINED);
} else {
result.push(item);
}
};
try {
for (const item of data) {
process(item);
}
return result;
} catch (e) {
if (e === NOT_SERIALIZABLE) return null;
throw e;
} finally {
// Get rid of these references to avoid leaking memory
// This happens because the optimized code v8 generates
// is optimized for our "ctx.write" method so it will reference
// it from e. g. Dependency.prototype.serialize -(IC)-> ctx.write
data =
result =
referenceable =
bufferDedupeMap =
objectTypeLookup =
ctx =
undefined;
}
}
/**
* @param {SerializedType} data data
* @param {Object} context context object
* @returns {DeserializedType|Promise<DeserializedType>} deserialized data
*/
deserialize(data, context) {
let currentDataPos = 0;
const read = () => {
if (currentDataPos >= data.length)
throw new Error("Unexpected end of stream");
return data[currentDataPos++];
};
if (read() !== CURRENT_VERSION)
throw new Error("Version mismatch, serializer changed");
let currentPos = 0;
let referenceable = [];
const addReferenceable = item => {
referenceable.push(item);
currentPos++;
};
let currentPosTypeLookup = 0;
let objectTypeLookup = [];
let result = [];
let ctx = {
read() {
return decodeValue();
},
setCircularReference(ref) {
addReferenceable(ref);
},
...context
};
this.extendContext(ctx);
const decodeValue = () => {
const item = read();
if (item === ESCAPE) {
const nextItem = read();
if (nextItem === ESCAPE_ESCAPE_VALUE) {
return ESCAPE;
} else if (nextItem === ESCAPE_UNDEFINED) {
return undefined;
} else if (nextItem === ESCAPE_END_OBJECT) {
throw new Error(
`Unexpected end of object at position ${currentDataPos - 1}`
);
} else {
const request = nextItem;
let serializer;
if (typeof request === "number") {
if (request < 0) {
// relative reference
return referenceable[currentPos + request];
}
serializer = objectTypeLookup[currentPosTypeLookup - request];
} else {
if (typeof request !== "string") {
throw new Error(
`Unexpected type (${typeof request}) of request ` +
`at position ${currentDataPos - 1}`
);
}
const name = read();
serializer = ObjectMiddleware._getDeserializerForWithoutError(
request,
name
);
if (serializer === undefined) {
if (request && !loadedRequests.has(request)) {
let loaded = false;
for (const [regExp, loader] of loaders) {
if (regExp.test(request)) {
if (loader(request)) {
loaded = true;
break;
}
}
}
if (!loaded) {
require(request);
}
loadedRequests.add(request);
}
serializer = ObjectMiddleware.getDeserializerFor(request, name);
}
objectTypeLookup.push(serializer);
currentPosTypeLookup++;
}
try {
const item = serializer.deserialize(ctx);
const end1 = read();
if (end1 !== ESCAPE) {
throw new Error("Expected end of object");
}
const end2 = read();
if (end2 !== ESCAPE_END_OBJECT) {
throw new Error("Expected end of object");
}
addReferenceable(item);
return item;
} catch (err) {
// As this is only for error handling, we omit creating a Map for
// faster access to this information, as this would affect performance
// in the good case
let serializerEntry;
for (const entry of serializers) {
if (entry[1].serializer === serializer) {
serializerEntry = entry;
break;
}
}
const name = !serializerEntry
? "unknown"
: !serializerEntry[1].request
? serializerEntry[0].name
: serializerEntry[1].name
? `${serializerEntry[1].request} ${serializerEntry[1].name}`
: serializerEntry[1].request;
err.message += `\n(during deserialization of ${name})`;
throw err;
}
}
} else if (typeof item === "string") {
if (item.length > 1) {
addReferenceable(item);
}
return item;
} else if (Buffer.isBuffer(item)) {
addReferenceable(item);
return item;
} else if (typeof item === "function") {
return SerializerMiddleware.deserializeLazy(
item,
data => this.deserialize(data, context)[0]
);
} else {
return item;
}
};
try {
while (currentDataPos < data.length) {
result.push(decodeValue());
}
return result;
} finally {
// Get rid of these references to avoid leaking memory
// This happens because the optimized code v8 generates
// is optimized for our "ctx.read" method so it will reference
// it from e. g. Dependency.prototype.deserialize -(IC)-> ctx.read
result = referenceable = data = objectTypeLookup = ctx = undefined;
}
}
}
module.exports = ObjectMiddleware;
module.exports.NOT_SERIALIZABLE = NOT_SERIALIZABLE;