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denoland-deno/core/00_primordials.js
Bartek Iwańczuk 60bf79c184
Revert "refactor(core): cleanup feature flags for js source inclusion… (#19490)
… (#19463)"

This reverts commit ceb03cfb03.

This is being reverted because it causes 3.5Mb increase in the binary
size,
due to runtime JS code being included in the binary, even though it's
already snapshotted.

CC @nayeemrmn
2023-06-13 22:36:16 +00:00

615 lines
19 KiB
JavaScript

// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
// Based on https://github.com/nodejs/node/blob/889ad35d3d41e376870f785b0c1b669cb732013d/lib/internal/per_context/primordials.js
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// This file subclasses and stores the JS builtins that come from the VM
// so that Node.js's builtin modules do not need to later look these up from
// the global proxy, which can be mutated by users.
// Use of primordials have sometimes a dramatic impact on performance, please
// benchmark all changes made in performance-sensitive areas of the codebase.
// See: https://github.com/nodejs/node/pull/38248
// deno-lint-ignore-file prefer-primordials
"use strict";
(() => {
const primordials = {};
const {
defineProperty: ReflectDefineProperty,
getOwnPropertyDescriptor: ReflectGetOwnPropertyDescriptor,
ownKeys: ReflectOwnKeys,
} = Reflect;
// `uncurryThis` is equivalent to `func => Function.prototype.call.bind(func)`.
// It is using `bind.bind(call)` to avoid using `Function.prototype.bind`
// and `Function.prototype.call` after it may have been mutated by users.
const { apply, bind, call } = Function.prototype;
const uncurryThis = bind.bind(call);
primordials.uncurryThis = uncurryThis;
// `applyBind` is equivalent to `func => Function.prototype.apply.bind(func)`.
// It is using `bind.bind(apply)` to avoid using `Function.prototype.bind`
// and `Function.prototype.apply` after it may have been mutated by users.
const applyBind = bind.bind(apply);
primordials.applyBind = applyBind;
// Methods that accept a variable number of arguments, and thus it's useful to
// also create `${prefix}${key}Apply`, which uses `Function.prototype.apply`,
// instead of `Function.prototype.call`, and thus doesn't require iterator
// destructuring.
const varargsMethods = [
// 'ArrayPrototypeConcat' is omitted, because it performs the spread
// on its own for arrays and array-likes with a truthy
// @@isConcatSpreadable symbol property.
"ArrayOf",
"ArrayPrototypePush",
"ArrayPrototypeUnshift",
// 'FunctionPrototypeCall' is omitted, since there's 'ReflectApply'
// and 'FunctionPrototypeApply'.
"MathHypot",
"MathMax",
"MathMin",
"StringPrototypeConcat",
"TypedArrayOf",
];
function getNewKey(key) {
return typeof key === "symbol"
? `Symbol${key.description[7].toUpperCase()}${key.description.slice(8)}`
: `${key[0].toUpperCase()}${key.slice(1)}`;
}
function copyAccessor(dest, prefix, key, { enumerable, get, set }) {
ReflectDefineProperty(dest, `${prefix}Get${key}`, {
value: uncurryThis(get),
enumerable,
});
if (set !== undefined) {
ReflectDefineProperty(dest, `${prefix}Set${key}`, {
value: uncurryThis(set),
enumerable,
});
}
}
function copyPropsRenamed(src, dest, prefix) {
for (const key of ReflectOwnKeys(src)) {
const newKey = getNewKey(key);
const desc = ReflectGetOwnPropertyDescriptor(src, key);
if ("get" in desc) {
copyAccessor(dest, prefix, newKey, desc);
} else {
const name = `${prefix}${newKey}`;
ReflectDefineProperty(dest, name, desc);
if (varargsMethods.includes(name)) {
ReflectDefineProperty(dest, `${name}Apply`, {
// `src` is bound as the `this` so that the static `this` points
// to the object it was defined on,
// e.g.: `ArrayOfApply` gets a `this` of `Array`:
value: applyBind(desc.value, src),
});
}
}
}
}
function copyPropsRenamedBound(src, dest, prefix) {
for (const key of ReflectOwnKeys(src)) {
const newKey = getNewKey(key);
const desc = ReflectGetOwnPropertyDescriptor(src, key);
if ("get" in desc) {
copyAccessor(dest, prefix, newKey, desc);
} else {
const { value } = desc;
if (typeof value === "function") {
desc.value = value.bind(src);
}
const name = `${prefix}${newKey}`;
ReflectDefineProperty(dest, name, desc);
if (varargsMethods.includes(name)) {
ReflectDefineProperty(dest, `${name}Apply`, {
value: applyBind(value, src),
});
}
}
}
}
function copyPrototype(src, dest, prefix) {
for (const key of ReflectOwnKeys(src)) {
const newKey = getNewKey(key);
const desc = ReflectGetOwnPropertyDescriptor(src, key);
if ("get" in desc) {
copyAccessor(dest, prefix, newKey, desc);
} else {
const { value } = desc;
if (typeof value === "function") {
desc.value = uncurryThis(value);
}
const name = `${prefix}${newKey}`;
ReflectDefineProperty(dest, name, desc);
if (varargsMethods.includes(name)) {
ReflectDefineProperty(dest, `${name}Apply`, {
value: applyBind(value),
});
}
}
}
}
// Create copies of configurable value properties of the global object
[
"Proxy",
"globalThis",
].forEach((name) => {
primordials[name] = globalThis[name];
});
// Create copy of isNaN
primordials[isNaN.name] = isNaN;
// Create copies of URI handling functions
[
decodeURI,
decodeURIComponent,
encodeURI,
encodeURIComponent,
].forEach((fn) => {
primordials[fn.name] = fn;
});
// Create copies of the namespace objects
[
"JSON",
"Math",
"Proxy",
"Reflect",
].forEach((name) => {
copyPropsRenamed(globalThis[name], primordials, name);
});
// Create copies of intrinsic objects
[
"AggregateError",
"Array",
"ArrayBuffer",
"BigInt",
"BigInt64Array",
"BigUint64Array",
"Boolean",
"DataView",
"Date",
"Error",
"EvalError",
"FinalizationRegistry",
"Float32Array",
"Float64Array",
"Function",
"Int16Array",
"Int32Array",
"Int8Array",
"Map",
"Number",
"Object",
"RangeError",
"ReferenceError",
"RegExp",
"Set",
"String",
"Symbol",
"SyntaxError",
"TypeError",
"URIError",
"Uint16Array",
"Uint32Array",
"Uint8Array",
"Uint8ClampedArray",
"WeakMap",
"WeakRef",
"WeakSet",
].forEach((name) => {
const original = globalThis[name];
primordials[name] = original;
copyPropsRenamed(original, primordials, name);
copyPrototype(original.prototype, primordials, `${name}Prototype`);
});
// Create copies of intrinsic objects that require a valid `this` to call
// static methods.
// Refs: https://www.ecma-international.org/ecma-262/#sec-promise.all
[
"Promise",
].forEach((name) => {
const original = globalThis[name];
primordials[name] = original;
copyPropsRenamedBound(original, primordials, name);
copyPrototype(original.prototype, primordials, `${name}Prototype`);
});
// Create copies of abstract intrinsic objects that are not directly exposed
// on the global object.
// Refs: https://tc39.es/ecma262/#sec-%typedarray%-intrinsic-object
[
{ name: "TypedArray", original: Reflect.getPrototypeOf(Uint8Array) },
{
name: "ArrayIterator",
original: {
prototype: Reflect.getPrototypeOf(Array.prototype[Symbol.iterator]()),
},
},
{
name: "SetIterator",
original: {
prototype: Reflect.getPrototypeOf(new Set()[Symbol.iterator]()),
},
},
{
name: "MapIterator",
original: {
prototype: Reflect.getPrototypeOf(new Map()[Symbol.iterator]()),
},
},
{
name: "StringIterator",
original: {
prototype: Reflect.getPrototypeOf(String.prototype[Symbol.iterator]()),
},
},
{ name: "Generator", original: Reflect.getPrototypeOf(function* () {}) },
{
name: "AsyncGenerator",
original: Reflect.getPrototypeOf(async function* () {}),
},
].forEach(({ name, original }) => {
primordials[name] = original;
// The static %TypedArray% methods require a valid `this`, but can't be bound,
// as they need a subclass constructor as the receiver:
copyPrototype(original, primordials, name);
copyPrototype(original.prototype, primordials, `${name}Prototype`);
});
const {
ArrayPrototypeForEach,
ArrayPrototypeJoin,
ArrayPrototypeMap,
FunctionPrototypeCall,
ObjectDefineProperty,
ObjectFreeze,
ObjectPrototypeIsPrototypeOf,
ObjectSetPrototypeOf,
Promise,
PromisePrototype,
PromisePrototypeThen,
SymbolIterator,
TypedArrayPrototypeJoin,
} = primordials;
// Because these functions are used by `makeSafe`, which is exposed
// on the `primordials` object, it's important to use const references
// to the primordials that they use:
const createSafeIterator = (factory, next) => {
class SafeIterator {
constructor(iterable) {
this._iterator = factory(iterable);
}
next() {
return next(this._iterator);
}
[SymbolIterator]() {
return this;
}
}
ObjectSetPrototypeOf(SafeIterator.prototype, null);
ObjectFreeze(SafeIterator.prototype);
ObjectFreeze(SafeIterator);
return SafeIterator;
};
const SafeArrayIterator = createSafeIterator(
primordials.ArrayPrototypeSymbolIterator,
primordials.ArrayIteratorPrototypeNext,
);
primordials.SafeArrayIterator = SafeArrayIterator;
primordials.SafeSetIterator = createSafeIterator(
primordials.SetPrototypeSymbolIterator,
primordials.SetIteratorPrototypeNext,
);
primordials.SafeMapIterator = createSafeIterator(
primordials.MapPrototypeSymbolIterator,
primordials.MapIteratorPrototypeNext,
);
primordials.SafeStringIterator = createSafeIterator(
primordials.StringPrototypeSymbolIterator,
primordials.StringIteratorPrototypeNext,
);
const copyProps = (src, dest) => {
ArrayPrototypeForEach(ReflectOwnKeys(src), (key) => {
if (!ReflectGetOwnPropertyDescriptor(dest, key)) {
ReflectDefineProperty(
dest,
key,
ReflectGetOwnPropertyDescriptor(src, key),
);
}
});
};
/**
* @type {typeof primordials.makeSafe}
*/
const makeSafe = (unsafe, safe) => {
if (SymbolIterator in unsafe.prototype) {
const dummy = new unsafe();
let next; // We can reuse the same `next` method.
ArrayPrototypeForEach(ReflectOwnKeys(unsafe.prototype), (key) => {
if (!ReflectGetOwnPropertyDescriptor(safe.prototype, key)) {
const desc = ReflectGetOwnPropertyDescriptor(unsafe.prototype, key);
if (
typeof desc.value === "function" &&
desc.value.length === 0 &&
SymbolIterator in (FunctionPrototypeCall(desc.value, dummy) ?? {})
) {
const createIterator = uncurryThis(desc.value);
next ??= uncurryThis(createIterator(dummy).next);
const SafeIterator = createSafeIterator(createIterator, next);
desc.value = function () {
return new SafeIterator(this);
};
}
ReflectDefineProperty(safe.prototype, key, desc);
}
});
} else {
copyProps(unsafe.prototype, safe.prototype);
}
copyProps(unsafe, safe);
ObjectSetPrototypeOf(safe.prototype, null);
ObjectFreeze(safe.prototype);
ObjectFreeze(safe);
return safe;
};
primordials.makeSafe = makeSafe;
// Subclass the constructors because we need to use their prototype
// methods later.
// Defining the `constructor` is necessary here to avoid the default
// constructor which uses the user-mutable `%ArrayIteratorPrototype%.next`.
primordials.SafeMap = makeSafe(
Map,
class SafeMap extends Map {
constructor(i) {
if (i == null) {
super();
return;
}
super(new SafeArrayIterator(i));
}
},
);
primordials.SafeWeakMap = makeSafe(
WeakMap,
class SafeWeakMap extends WeakMap {
constructor(i) {
if (i == null) {
super();
return;
}
super(new SafeArrayIterator(i));
}
},
);
primordials.SafeSet = makeSafe(
Set,
class SafeSet extends Set {
constructor(i) {
if (i == null) {
super();
return;
}
super(new SafeArrayIterator(i));
}
},
);
primordials.SafeWeakSet = makeSafe(
WeakSet,
class SafeWeakSet extends WeakSet {
constructor(i) {
if (i == null) {
super();
return;
}
super(new SafeArrayIterator(i));
}
},
);
primordials.SafeRegExp = makeSafe(
RegExp,
class SafeRegExp extends RegExp {
constructor(pattern, flags) {
super(pattern, flags);
}
},
);
primordials.SafeFinalizationRegistry = makeSafe(
FinalizationRegistry,
class SafeFinalizationRegistry extends FinalizationRegistry {
constructor(cleanupCallback) {
super(cleanupCallback);
}
},
);
primordials.SafeWeakRef = makeSafe(
WeakRef,
class SafeWeakRef extends WeakRef {
constructor(target) {
super(target);
}
},
);
const SafePromise = makeSafe(
Promise,
class SafePromise extends Promise {
constructor(executor) {
super(executor);
}
},
);
primordials.ArrayPrototypeToString = (thisArray) =>
ArrayPrototypeJoin(thisArray);
primordials.TypedArrayPrototypeToString = (thisArray) =>
TypedArrayPrototypeJoin(thisArray);
primordials.PromisePrototypeCatch = (thisPromise, onRejected) =>
PromisePrototypeThen(thisPromise, undefined, onRejected);
const arrayToSafePromiseIterable = (array) =>
new SafeArrayIterator(
ArrayPrototypeMap(
array,
(p) => {
if (ObjectPrototypeIsPrototypeOf(PromisePrototype, p)) {
return new SafePromise((c, d) => PromisePrototypeThen(p, c, d));
}
return p;
},
),
);
/**
* Creates a Promise that is resolved with an array of results when all of the
* provided Promises resolve, or rejected when any Promise is rejected.
* @template T
* @param {Array<T | PromiseLike<T>>} values
* @returns {Promise<Awaited<T>[]>}
*/
primordials.SafePromiseAll = (values) =>
// Wrapping on a new Promise is necessary to not expose the SafePromise
// prototype to user-land.
new Promise((a, b) =>
SafePromise.all(arrayToSafePromiseIterable(values)).then(a, b)
);
// NOTE: Uncomment the following functions when you need to use them
// /**
// * Creates a Promise that is resolved with an array of results when all
// * of the provided Promises resolve or reject.
// * @template T
// * @param {Array<T | PromiseLike<T>>} values
// * @returns {Promise<PromiseSettledResult<T>[]>}
// */
// primordials.SafePromiseAllSettled = (values) =>
// // Wrapping on a new Promise is necessary to not expose the SafePromise
// // prototype to user-land.
// new Promise((a, b) =>
// SafePromise.allSettled(arrayToSafePromiseIterable(values)).then(a, b)
// );
// /**
// * The any function returns a promise that is fulfilled by the first given
// * promise to be fulfilled, or rejected with an AggregateError containing
// * an array of rejection reasons if all of the given promises are rejected.
// * It resolves all elements of the passed iterable to promises as it runs
// * this algorithm.
// * @template T
// * @param {T} values
// * @returns {Promise<Awaited<T[number]>>}
// */
// primordials.SafePromiseAny = (values) =>
// // Wrapping on a new Promise is necessary to not expose the SafePromise
// // prototype to user-land.
// new Promise((a, b) =>
// SafePromise.any(arrayToSafePromiseIterable(values)).then(a, b)
// );
// /**
// * Creates a Promise that is resolved or rejected when any of the provided
// * Promises are resolved or rejected.
// * @template T
// * @param {T} values
// * @returns {Promise<Awaited<T[number]>>}
// */
// primordials.SafePromiseRace = (values) =>
// // Wrapping on a new Promise is necessary to not expose the SafePromise
// // prototype to user-land.
// new Promise((a, b) =>
// SafePromise.race(arrayToSafePromiseIterable(values)).then(a, b)
// );
/**
* Attaches a callback that is invoked when the Promise is settled (fulfilled or
* rejected). The resolved value cannot be modified from the callback.
* Prefer using async functions when possible.
* @param {Promise<any>} thisPromise
* @param {() => void) | undefined | null} onFinally The callback to execute
* when the Promise is settled (fulfilled or rejected).
* @returns A Promise for the completion of the callback.
*/
primordials.SafePromisePrototypeFinally = (thisPromise, onFinally) =>
// Wrapping on a new Promise is necessary to not expose the SafePromise
// prototype to user-land.
new Promise((a, b) =>
new SafePromise((a, b) => PromisePrototypeThen(thisPromise, a, b))
.finally(onFinally)
.then(a, b)
);
// Create getter and setter for `queueMicrotask`, it hasn't been bound yet.
let queueMicrotask = undefined;
ObjectDefineProperty(primordials, "queueMicrotask", {
get() {
return queueMicrotask;
},
});
primordials.setQueueMicrotask = (value) => {
if (queueMicrotask !== undefined) {
throw new Error("queueMicrotask is already defined");
}
queueMicrotask = value;
};
// Renaming from `eval` is necessary because otherwise it would perform direct
// evaluation, allowing user-land access to local variables.
// This is because the identifier `eval` is somewhat treated as a keyword
primordials.indirectEval = eval;
ObjectSetPrototypeOf(primordials, null);
ObjectFreeze(primordials);
// Provide bootstrap namespace
globalThis.__bootstrap = { primordials };
})();