All files / lib/internal/per_context primordials.js

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'use strict';
 
/* eslint-disable node-core/prefer-primordials */
 
// 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.
 
// TODO(joyeecheung): we can restrict access to these globals in builtin
// modules through the JS linter, for example: ban access such as `Object`
// (which falls back to a lookup in the global proxy) in favor of
// `primordials.Object` where `primordials` is a lexical variable passed
// by the native module compiler.
 
// `uncurryThis` is equivalent to `func => Function.prototype.call.bind(func)`.
// It is using `call.bind(bind, call)` to avoid using `Function.prototype.bind`
// after it may have been mutated by users.
const { bind, call } = Function.prototype;
const uncurryThis = call.bind(bind, call);
primordials.uncurryThis = uncurryThis;
 
function copyProps(src, dest) {
  for (const key of Reflect.ownKeys(src)) {
    if (!Reflect.getOwnPropertyDescriptor(dest, key)) {
      Reflect.defineProperty(
        dest,
        key,
        Reflect.getOwnPropertyDescriptor(src, key));
    }
  }
}
 
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 }) {
  Reflect.defineProperty(dest, `${prefix}Get${key}`, {
    value: uncurryThis(get),
    enumerable
  });
  if (set !== undefined) {
    Reflect.defineProperty(dest, `${prefix}Set${key}`, {
      value: uncurryThis(set),
      enumerable
    });
  }
}
 
function copyPropsRenamed(src, dest, prefix) {
  for (const key of Reflect.ownKeys(src)) {
    const newKey = getNewKey(key);
    const desc = Reflect.getOwnPropertyDescriptor(src, key);
    if ('get' in desc) {
      copyAccessor(dest, prefix, newKey, desc);
    } else {
      Reflect.defineProperty(dest, `${prefix}${newKey}`, desc);
    }
  }
}
 
function copyPropsRenamedBound(src, dest, prefix) {
  for (const key of Reflect.ownKeys(src)) {
    const newKey = getNewKey(key);
    const desc = Reflect.getOwnPropertyDescriptor(src, key);
    if ('get' in desc) {
      copyAccessor(dest, prefix, newKey, desc);
    } else {
      if (typeof desc.value === 'function') {
        desc.value = desc.value.bind(src);
      }
      Reflect.defineProperty(dest, `${prefix}${newKey}`, desc);
    }
  }
}
 
function copyPrototype(src, dest, prefix) {
  for (const key of Reflect.ownKeys(src)) {
    const newKey = getNewKey(key);
    const desc = Reflect.getOwnPropertyDescriptor(src, key);
    if ('get' in desc) {
      copyAccessor(dest, prefix, newKey, desc);
    } else {
      if (typeof desc.value === 'function') {
        desc.value = uncurryThis(desc.value);
      }
      Reflect.defineProperty(dest, `${prefix}${newKey}`, desc);
    }
  }
}
 
const createSafeIterator = (factory, next) => {
  class SafeIterator {
    constructor(iterable) {
      this._iterator = factory(iterable);
    }
    next() {
      return next(this._iterator);
    }
    [Symbol.iterator]() {
      return this;
    }
  }
  Object.setPrototypeOf(SafeIterator.prototype, null);
  Object.freeze(SafeIterator.prototype);
  Object.freeze(SafeIterator);
  return SafeIterator;
};
 
function makeSafe(unsafe, safe) {
  if (Symbol.iterator in unsafe.prototype) {
    const dummy = new unsafe();
    let next; // We can reuse the same `next` method.
 
    for (const key of Reflect.ownKeys(unsafe.prototype)) {
      if (!Reflect.getOwnPropertyDescriptor(safe.prototype, key)) {
        const desc = Reflect.getOwnPropertyDescriptor(unsafe.prototype, key);
        if (
          typeof desc.value === 'function' &&
          desc.value.length === 0 &&
          Symbol.iterator in (desc.value.call(dummy) ?? {})
        ) {
          const createIterator = uncurryThis(desc.value);
          next ??= uncurryThis(createIterator(dummy).next);
          const SafeIterator = createSafeIterator(createIterator, next);
          desc.value = function() {
            return new SafeIterator(this);
          };
        }
        Reflect.defineProperty(safe.prototype, key, desc);
      }
    }
  } else {
    copyProps(unsafe.prototype, safe.prototype);
  }
  copyProps(unsafe, safe);
 
  Object.setPrototypeOf(safe.prototype, null);
  Object.freeze(safe.prototype);
  Object.freeze(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) { super(i); } // eslint-disable-line no-useless-constructor
  }
);
primordials.SafeWeakMap = makeSafe(
  WeakMap,
  class SafeWeakMap extends WeakMap {
    constructor(i) { super(i); } // eslint-disable-line no-useless-constructor
  }
);
primordials.SafeSet = makeSafe(
  Set,
  class SafeSet extends Set {
    constructor(i) { super(i); } // eslint-disable-line no-useless-constructor
  }
);
primordials.SafeWeakSet = makeSafe(
  WeakSet,
  class SafeWeakSet extends WeakSet {
    constructor(i) { super(i); } // eslint-disable-line no-useless-constructor
  }
);
 
// Create copies of the namespace objects
[
  'JSON',
  'Math',
  'Reflect'
].forEach((name) => {
  copyPropsRenamed(global[name], primordials, name);
});
 
// Create copies of intrinsic objects
[
  'Array',
  'ArrayBuffer',
  'BigInt',
  'BigInt64Array',
  'BigUint64Array',
  'Boolean',
  'DataView',
  'Date',
  'Error',
  'EvalError',
  'Float32Array',
  'Float64Array',
  'Function',
  'Int16Array',
  'Int32Array',
  'Int8Array',
  'Map',
  'Number',
  'Object',
  'RangeError',
  'ReferenceError',
  'RegExp',
  'Set',
  'String',
  'Symbol',
  'SyntaxError',
  'TypeError',
  'URIError',
  'Uint16Array',
  'Uint32Array',
  'Uint8Array',
  'Uint8ClampedArray',
  'WeakMap',
  'WeakSet',
].forEach((name) => {
  const original = global[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 = global[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: 'StringIterator', original: {
    prototype: Reflect.getPrototypeOf(String.prototype[Symbol.iterator]()),
  } },
].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`);
});
 
primordials.SafeArrayIterator = createSafeIterator(
  primordials.ArrayPrototypeSymbolIterator,
  primordials.ArrayIteratorPrototypeNext
);
primordials.SafeStringIterator = createSafeIterator(
  primordials.StringPrototypeSymbolIterator,
  primordials.StringIteratorPrototypeNext
);
 
Object.setPrototypeOf(primordials, null);
Object.freeze(primordials);