API/api.medcify.app/node_modules/vm2/lib/bridge.js

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2022-09-26 06:11:44 +00:00
'use strict';
/**
* __ ___ ____ _ _ ___ _ _ ____
* \ \ / / \ | _ \| \ | |_ _| \ | |/ ___|
* \ \ /\ / / _ \ | |_) | \| || || \| | | _
* \ V V / ___ \| _ <| |\ || || |\ | |_| |
* \_/\_/_/ \_\_| \_\_| \_|___|_| \_|\____|
*
* This file is critical for vm2. It implements the bridge between the host and the sandbox.
* If you do not know exactly what you are doing, you should NOT edit this file.
*
* The file is loaded in the host and sandbox to handle objects in both directions.
* This is done to ensure that RangeErrors are from the correct context.
* The boundary between the sandbox and host might throw RangeErrors from both contexts.
* Therefore, thisFromOther and friends can handle objects from both domains.
*
* Method parameters have comments to tell from which context they came.
*
*/
const globalsList = [
'Number',
'String',
'Boolean',
'Date',
'RegExp',
'Map',
'WeakMap',
'Set',
'WeakSet',
'Promise',
'Function'
];
const errorsList = [
'RangeError',
'ReferenceError',
'SyntaxError',
'TypeError',
'EvalError',
'URIError',
'Error'
];
const OPNA = 'Operation not allowed on contextified object.';
const thisGlobalPrototypes = {
__proto__: null,
Object: Object.prototype,
Array: Array.prototype
};
for (let i = 0; i < globalsList.length; i++) {
const key = globalsList[i];
const g = global[key];
if (g) thisGlobalPrototypes[key] = g.prototype;
}
for (let i = 0; i < errorsList.length; i++) {
const key = errorsList[i];
const g = global[key];
if (g) thisGlobalPrototypes[key] = g.prototype;
}
const {
getPrototypeOf: thisReflectGetPrototypeOf,
setPrototypeOf: thisReflectSetPrototypeOf,
defineProperty: thisReflectDefineProperty,
deleteProperty: thisReflectDeleteProperty,
getOwnPropertyDescriptor: thisReflectGetOwnPropertyDescriptor,
isExtensible: thisReflectIsExtensible,
preventExtensions: thisReflectPreventExtensions,
apply: thisReflectApply,
construct: thisReflectConstruct,
set: thisReflectSet,
get: thisReflectGet,
has: thisReflectHas,
ownKeys: thisReflectOwnKeys,
enumerate: thisReflectEnumerate,
} = Reflect;
const thisObject = Object;
const {
freeze: thisObjectFreeze,
prototype: thisObjectPrototype
} = thisObject;
const thisObjectHasOwnProperty = thisObjectPrototype.hasOwnProperty;
const ThisProxy = Proxy;
const ThisWeakMap = WeakMap;
const {
get: thisWeakMapGet,
set: thisWeakMapSet
} = ThisWeakMap.prototype;
const ThisMap = Map;
const thisMapGet = ThisMap.prototype.get;
const thisMapSet = ThisMap.prototype.set;
const thisFunction = Function;
const thisFunctionBind = thisFunction.prototype.bind;
const thisArrayIsArray = Array.isArray;
const thisErrorCaptureStackTrace = Error.captureStackTrace;
const thisSymbolToString = Symbol.prototype.toString;
const thisSymbolToStringTag = Symbol.toStringTag;
/**
* VMError.
*
* @public
* @extends {Error}
*/
class VMError extends Error {
/**
* Create VMError instance.
*
* @public
* @param {string} message - Error message.
* @param {string} code - Error code.
*/
constructor(message, code) {
super(message);
this.name = 'VMError';
this.code = code;
thisErrorCaptureStackTrace(this, this.constructor);
}
}
thisGlobalPrototypes['VMError'] = VMError.prototype;
function thisUnexpected() {
return new VMError('Unexpected');
}
if (!thisReflectSetPrototypeOf(exports, null)) throw thisUnexpected();
function thisSafeGetOwnPropertyDescriptor(obj, key) {
const desc = thisReflectGetOwnPropertyDescriptor(obj, key);
if (!desc) return desc;
if (!thisReflectSetPrototypeOf(desc, null)) throw thisUnexpected();
return desc;
}
function thisThrowCallerCalleeArgumentsAccess(key) {
'use strict';
thisThrowCallerCalleeArgumentsAccess[key];
return thisUnexpected();
}
function thisIdMapping(factory, other) {
return other;
}
const thisThrowOnKeyAccessHandler = thisObjectFreeze({
__proto__: null,
get(target, key, receiver) {
if (typeof key === 'symbol') {
key = thisReflectApply(thisSymbolToString, key, []);
}
throw new VMError(`Unexpected access to key '${key}'`);
}
});
const emptyForzenObject = thisObjectFreeze({
__proto__: null
});
const thisThrowOnKeyAccess = new ThisProxy(emptyForzenObject, thisThrowOnKeyAccessHandler);
function SafeBase() {}
if (!thisReflectDefineProperty(SafeBase, 'prototype', {
__proto__: null,
value: thisThrowOnKeyAccess
})) throw thisUnexpected();
function SHARED_FUNCTION() {}
const TEST_PROXY_HANDLER = thisObjectFreeze({
__proto__: thisThrowOnKeyAccess,
construct() {
return this;
}
});
function thisIsConstructor(obj) {
// Note: obj@any(unsafe)
const Func = new ThisProxy(obj, TEST_PROXY_HANDLER);
try {
// eslint-disable-next-line no-new
new Func();
return true;
} catch (e) {
return false;
}
}
function thisCreateTargetObject(obj, proto) {
// Note: obj@any(unsafe) proto@any(unsafe) returns@this(unsafe) throws@this(unsafe)
let base;
if (typeof obj === 'function') {
if (thisIsConstructor(obj)) {
// Bind the function since bound functions do not have a prototype property.
base = thisReflectApply(thisFunctionBind, SHARED_FUNCTION, [null]);
} else {
base = () => {};
}
} else if (thisArrayIsArray(obj)) {
base = [];
} else {
return {__proto__: proto};
}
if (!thisReflectSetPrototypeOf(base, proto)) throw thisUnexpected();
return base;
}
function createBridge(otherInit, registerProxy) {
const mappingOtherToThis = new ThisWeakMap();
const protoMappings = new ThisMap();
const protoName = new ThisMap();
function thisAddProtoMapping(proto, other, name) {
// Note: proto@this(unsafe) other@other(unsafe) name@this(unsafe) throws@this(unsafe)
thisReflectApply(thisMapSet, protoMappings, [proto, thisIdMapping]);
thisReflectApply(thisMapSet, protoMappings, [other,
(factory, object) => thisProxyOther(factory, object, proto)]);
if (name) thisReflectApply(thisMapSet, protoName, [proto, name]);
}
function thisAddProtoMappingFactory(protoFactory, other, name) {
// Note: protoFactory@this(unsafe) other@other(unsafe) name@this(unsafe) throws@this(unsafe)
let proto;
thisReflectApply(thisMapSet, protoMappings, [other,
(factory, object) => {
if (!proto) {
proto = protoFactory();
thisReflectApply(thisMapSet, protoMappings, [proto, thisIdMapping]);
if (name) thisReflectApply(thisMapSet, protoName, [proto, name]);
}
return thisProxyOther(factory, object, proto);
}]);
}
const result = {
__proto__: null,
globalPrototypes: thisGlobalPrototypes,
safeGetOwnPropertyDescriptor: thisSafeGetOwnPropertyDescriptor,
fromArguments: thisFromOtherArguments,
from: thisFromOther,
fromWithFactory: thisFromOtherWithFactory,
ensureThis: thisEnsureThis,
mapping: mappingOtherToThis,
connect: thisConnect,
reflectSet: thisReflectSet,
reflectGet: thisReflectGet,
reflectDefineProperty: thisReflectDefineProperty,
reflectDeleteProperty: thisReflectDeleteProperty,
reflectApply: thisReflectApply,
reflectConstruct: thisReflectConstruct,
reflectHas: thisReflectHas,
reflectOwnKeys: thisReflectOwnKeys,
reflectEnumerate: thisReflectEnumerate,
reflectGetPrototypeOf: thisReflectGetPrototypeOf,
reflectIsExtensible: thisReflectIsExtensible,
reflectPreventExtensions: thisReflectPreventExtensions,
objectHasOwnProperty: thisObjectHasOwnProperty,
weakMapSet: thisWeakMapSet,
addProtoMapping: thisAddProtoMapping,
addProtoMappingFactory: thisAddProtoMappingFactory,
defaultFactory,
protectedFactory,
readonlyFactory,
VMError
};
const isHost = typeof otherInit !== 'object';
if (isHost) {
otherInit = otherInit(result, registerProxy);
}
result.other = otherInit;
const {
globalPrototypes: otherGlobalPrototypes,
safeGetOwnPropertyDescriptor: otherSafeGetOwnPropertyDescriptor,
fromArguments: otherFromThisArguments,
from: otherFromThis,
mapping: mappingThisToOther,
reflectSet: otherReflectSet,
reflectGet: otherReflectGet,
reflectDefineProperty: otherReflectDefineProperty,
reflectDeleteProperty: otherReflectDeleteProperty,
reflectApply: otherReflectApply,
reflectConstruct: otherReflectConstruct,
reflectHas: otherReflectHas,
reflectOwnKeys: otherReflectOwnKeys,
reflectEnumerate: otherReflectEnumerate,
reflectGetPrototypeOf: otherReflectGetPrototypeOf,
reflectIsExtensible: otherReflectIsExtensible,
reflectPreventExtensions: otherReflectPreventExtensions,
objectHasOwnProperty: otherObjectHasOwnProperty,
weakMapSet: otherWeakMapSet
} = otherInit;
function thisOtherHasOwnProperty(object, key) {
// Note: object@other(safe) key@prim throws@this(unsafe)
try {
return otherReflectApply(otherObjectHasOwnProperty, object, [key]) === true;
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
}
function thisDefaultGet(handler, object, key, desc) {
// Note: object@other(unsafe) key@prim desc@other(safe)
let ret; // @other(unsafe)
if (desc.get || desc.set) {
const getter = desc.get;
if (!getter) return undefined;
try {
ret = otherReflectApply(getter, object, [key]);
} catch (e) {
throw thisFromOtherForThrow(e);
}
} else {
ret = desc.value;
}
return handler.fromOtherWithContext(ret);
}
function otherFromThisIfAvailable(to, from, key) {
// Note: to@other(safe) from@this(safe) key@prim throws@this(unsafe)
if (!thisReflectApply(thisObjectHasOwnProperty, from, [key])) return false;
try {
to[key] = otherFromThis(from[key]);
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
return true;
}
class BaseHandler extends SafeBase {
constructor(object) {
// Note: object@other(unsafe) throws@this(unsafe)
super();
this.object = object;
}
getFactory() {
return defaultFactory;
}
fromOtherWithContext(other) {
// Note: other@other(unsafe) throws@this(unsafe)
return thisFromOtherWithFactory(this.getFactory(), other);
}
doPreventExtensions(target, object, factory) {
// Note: target@this(unsafe) object@other(unsafe) throws@this(unsafe)
let keys; // @other(safe-array-of-prim)
try {
keys = otherReflectOwnKeys(object);
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
for (let i = 0; i < keys.length; i++) {
const key = keys[i]; // @prim
let desc;
try {
desc = otherSafeGetOwnPropertyDescriptor(object, key);
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
if (!desc) continue;
if (!desc.configurable) {
const current = thisSafeGetOwnPropertyDescriptor(target, key);
if (current && !current.configurable) continue;
if (desc.get || desc.set) {
desc.get = this.fromOtherWithContext(desc.get);
desc.set = this.fromOtherWithContext(desc.set);
} else if (typeof object === 'function' && (key === 'caller' || key === 'callee' || key === 'arguments')) {
desc.value = null;
} else {
desc.value = this.fromOtherWithContext(desc.value);
}
} else {
if (desc.get || desc.set) {
desc = {
__proto__: null,
configurable: true,
enumerable: desc.enumerable,
writable: true,
value: null
};
} else {
desc.value = null;
}
}
if (!thisReflectDefineProperty(target, key, desc)) throw thisUnexpected();
}
if (!thisReflectPreventExtensions(target)) throw thisUnexpected();
}
get(target, key, receiver) {
// Note: target@this(unsafe) key@prim receiver@this(unsafe) throws@this(unsafe)
const object = this.object; // @other(unsafe)
switch (key) {
case 'constructor': {
const desc = otherSafeGetOwnPropertyDescriptor(object, key);
if (desc) return thisDefaultGet(this, object, key, desc);
const proto = thisReflectGetPrototypeOf(target);
return proto === null ? undefined : proto.constructor;
}
case '__proto__': {
const desc = otherSafeGetOwnPropertyDescriptor(object, key);
if (desc) return thisDefaultGet(this, object, key, desc);
return thisReflectGetPrototypeOf(target);
}
case thisSymbolToStringTag:
if (!thisOtherHasOwnProperty(object, thisSymbolToStringTag)) {
const proto = thisReflectGetPrototypeOf(target);
const name = thisReflectApply(thisMapGet, protoName, [proto]);
if (name) return name;
}
break;
case 'arguments':
case 'caller':
case 'callee':
if (typeof object === 'function' && thisOtherHasOwnProperty(object, key)) {
throw thisThrowCallerCalleeArgumentsAccess(key);
}
break;
}
let ret; // @other(unsafe)
try {
ret = otherReflectGet(object, key);
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
return this.fromOtherWithContext(ret);
}
set(target, key, value, receiver) {
// Note: target@this(unsafe) key@prim value@this(unsafe) receiver@this(unsafe) throws@this(unsafe)
const object = this.object; // @other(unsafe)
if (key === '__proto__' && !thisOtherHasOwnProperty(object, key)) {
return this.setPrototypeOf(target, value);
}
try {
value = otherFromThis(value);
return otherReflectSet(object, key, value) === true;
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
}
getPrototypeOf(target) {
// Note: target@this(unsafe)
return thisReflectGetPrototypeOf(target);
}
setPrototypeOf(target, value) {
// Note: target@this(unsafe) throws@this(unsafe)
throw new VMError(OPNA);
}
apply(target, context, args) {
// Note: target@this(unsafe) context@this(unsafe) args@this(safe-array) throws@this(unsafe)
const object = this.object; // @other(unsafe)
let ret; // @other(unsafe)
try {
context = otherFromThis(context);
args = otherFromThisArguments(args);
ret = otherReflectApply(object, context, args);
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
return thisFromOther(ret);
}
construct(target, args, newTarget) {
// Note: target@this(unsafe) args@this(safe-array) newTarget@this(unsafe) throws@this(unsafe)
const object = this.object; // @other(unsafe)
let ret; // @other(unsafe)
try {
args = otherFromThisArguments(args);
ret = otherReflectConstruct(object, args);
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
return thisFromOtherWithFactory(this.getFactory(), ret, thisFromOther(object));
}
getOwnPropertyDescriptorDesc(target, prop, desc) {
// Note: target@this(unsafe) prop@prim desc@other{safe} throws@this(unsafe)
const object = this.object; // @other(unsafe)
if (desc && typeof object === 'function' && (prop === 'arguments' || prop === 'caller' || prop === 'callee')) desc.value = null;
return desc;
}
getOwnPropertyDescriptor(target, prop) {
// Note: target@this(unsafe) prop@prim throws@this(unsafe)
const object = this.object; // @other(unsafe)
let desc; // @other(safe)
try {
desc = otherSafeGetOwnPropertyDescriptor(object, prop);
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
desc = this.getOwnPropertyDescriptorDesc(target, prop, desc);
if (!desc) return undefined;
let thisDesc;
if (desc.get || desc.set) {
thisDesc = {
__proto__: null,
get: this.fromOtherWithContext(desc.get),
set: this.fromOtherWithContext(desc.set),
enumerable: desc.enumerable === true,
configurable: desc.configurable === true
};
} else {
thisDesc = {
__proto__: null,
value: this.fromOtherWithContext(desc.value),
writable: desc.writable === true,
enumerable: desc.enumerable === true,
configurable: desc.configurable === true
};
}
if (!thisDesc.configurable) {
const oldDesc = thisSafeGetOwnPropertyDescriptor(target, prop);
if (!oldDesc || oldDesc.configurable || oldDesc.writable !== thisDesc.writable) {
if (!thisReflectDefineProperty(target, prop, thisDesc)) throw thisUnexpected();
}
}
return thisDesc;
}
definePropertyDesc(target, prop, desc) {
// Note: target@this(unsafe) prop@prim desc@this(safe) throws@this(unsafe)
return desc;
}
defineProperty(target, prop, desc) {
// Note: target@this(unsafe) prop@prim desc@this(unsafe) throws@this(unsafe)
const object = this.object; // @other(unsafe)
if (!thisReflectSetPrototypeOf(desc, null)) throw thisUnexpected();
desc = this.definePropertyDesc(target, prop, desc);
if (!desc) return false;
let otherDesc = {__proto__: null};
let hasFunc = true;
let hasValue = true;
let hasBasic = true;
hasFunc &= otherFromThisIfAvailable(otherDesc, desc, 'get');
hasFunc &= otherFromThisIfAvailable(otherDesc, desc, 'set');
hasValue &= otherFromThisIfAvailable(otherDesc, desc, 'value');
hasValue &= otherFromThisIfAvailable(otherDesc, desc, 'writable');
hasBasic &= otherFromThisIfAvailable(otherDesc, desc, 'enumerable');
hasBasic &= otherFromThisIfAvailable(otherDesc, desc, 'configurable');
try {
if (!otherReflectDefineProperty(object, prop, otherDesc)) return false;
if (otherDesc.configurable !== true && (!hasBasic || !(hasFunc || hasValue))) {
otherDesc = otherSafeGetOwnPropertyDescriptor(object, prop);
}
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
if (!otherDesc.configurable) {
let thisDesc;
if (otherDesc.get || otherDesc.set) {
thisDesc = {
__proto__: null,
get: this.fromOtherWithContext(otherDesc.get),
set: this.fromOtherWithContext(otherDesc.set),
enumerable: otherDesc.enumerable,
configurable: otherDesc.configurable
};
} else {
thisDesc = {
__proto__: null,
value: this.fromOtherWithContext(otherDesc.value),
writable: otherDesc.writable,
enumerable: otherDesc.enumerable,
configurable: otherDesc.configurable
};
}
if (!thisReflectDefineProperty(target, prop, thisDesc)) throw thisUnexpected();
}
return true;
}
deleteProperty(target, prop) {
// Note: target@this(unsafe) prop@prim throws@this(unsafe)
const object = this.object; // @other(unsafe)
try {
return otherReflectDeleteProperty(object, prop) === true;
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
}
has(target, key) {
// Note: target@this(unsafe) key@prim throws@this(unsafe)
const object = this.object; // @other(unsafe)
try {
return otherReflectHas(object, key) === true;
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
}
isExtensible(target) {
// Note: target@this(unsafe) throws@this(unsafe)
const object = this.object; // @other(unsafe)
try {
if (otherReflectIsExtensible(object)) return true;
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
if (thisReflectIsExtensible(target)) {
this.doPreventExtensions(target, object, this);
}
return false;
}
ownKeys(target) {
// Note: target@this(unsafe) throws@this(unsafe)
const object = this.object; // @other(unsafe)
let res; // @other(unsafe)
try {
res = otherReflectOwnKeys(object);
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
return thisFromOther(res);
}
preventExtensions(target) {
// Note: target@this(unsafe) throws@this(unsafe)
const object = this.object; // @other(unsafe)
try {
if (!otherReflectPreventExtensions(object)) return false;
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
if (thisReflectIsExtensible(target)) {
this.doPreventExtensions(target, object, this);
}
return true;
}
enumerate(target) {
// Note: target@this(unsafe) throws@this(unsafe)
const object = this.object; // @other(unsafe)
let res; // @other(unsafe)
try {
res = otherReflectEnumerate(object);
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
return this.fromOtherWithContext(res);
}
}
function defaultFactory(object) {
// Note: other@other(unsafe) returns@this(unsafe) throws@this(unsafe)
return new BaseHandler(object);
}
class ProtectedHandler extends BaseHandler {
getFactory() {
return protectedFactory;
}
set(target, key, value, receiver) {
// Note: target@this(unsafe) key@prim value@this(unsafe) receiver@this(unsafe) throws@this(unsafe)
if (typeof value === 'function') {
return thisReflectDefineProperty(receiver, key, {
__proto__: null,
value: value,
writable: true,
enumerable: true,
configurable: true
}) === true;
}
return super.set(target, key, value, receiver);
}
definePropertyDesc(target, prop, desc) {
// Note: target@this(unsafe) prop@prim desc@this(safe) throws@this(unsafe)
if (desc && (desc.set || desc.get || typeof desc.value === 'function')) return undefined;
return desc;
}
}
function protectedFactory(object) {
// Note: other@other(unsafe) returns@this(unsafe) throws@this(unsafe)
return new ProtectedHandler(object);
}
class ReadOnlyHandler extends BaseHandler {
getFactory() {
return readonlyFactory;
}
set(target, key, value, receiver) {
// Note: target@this(unsafe) key@prim value@this(unsafe) receiver@this(unsafe) throws@this(unsafe)
return thisReflectDefineProperty(receiver, key, {
__proto__: null,
value: value,
writable: true,
enumerable: true,
configurable: true
});
}
setPrototypeOf(target, value) {
// Note: target@this(unsafe) throws@this(unsafe)
return false;
}
defineProperty(target, prop, desc) {
// Note: target@this(unsafe) prop@prim desc@this(unsafe) throws@this(unsafe)
return false;
}
deleteProperty(target, prop) {
// Note: target@this(unsafe) prop@prim throws@this(unsafe)
return false;
}
isExtensible(target) {
// Note: target@this(unsafe) throws@this(unsafe)
return false;
}
preventExtensions(target) {
// Note: target@this(unsafe) throws@this(unsafe)
return false;
}
}
function readonlyFactory(object) {
// Note: other@other(unsafe) returns@this(unsafe) throws@this(unsafe)
return new ReadOnlyHandler(object);
}
class ReadOnlyMockHandler extends ReadOnlyHandler {
constructor(object, mock) {
// Note: object@other(unsafe) mock:this(unsafe) throws@this(unsafe)
super(object);
this.mock = mock;
}
get(target, key, receiver) {
// Note: target@this(unsafe) key@prim receiver@this(unsafe) throws@this(unsafe)
const object = this.object; // @other(unsafe)
const mock = this.mock;
if (thisReflectApply(thisObjectHasOwnProperty, mock, key) && !thisOtherHasOwnProperty(object, key)) {
return mock[key];
}
return super.get(target, key, receiver);
}
}
function thisFromOther(other) {
// Note: other@other(unsafe) returns@this(unsafe) throws@this(unsafe)
return thisFromOtherWithFactory(defaultFactory, other);
}
function thisProxyOther(factory, other, proto) {
const target = thisCreateTargetObject(other, proto);
const handler = factory(other);
const proxy = new ThisProxy(target, handler);
try {
otherReflectApply(otherWeakMapSet, mappingThisToOther, [proxy, other]);
registerProxy(proxy, handler);
} catch (e) {
throw new VMError('Unexpected error');
}
if (!isHost) {
thisReflectApply(thisWeakMapSet, mappingOtherToThis, [other, proxy]);
return proxy;
}
const proxy2 = new ThisProxy(proxy, emptyForzenObject);
try {
otherReflectApply(otherWeakMapSet, mappingThisToOther, [proxy2, other]);
registerProxy(proxy2, handler);
} catch (e) {
throw new VMError('Unexpected error');
}
thisReflectApply(thisWeakMapSet, mappingOtherToThis, [other, proxy2]);
return proxy2;
}
function thisEnsureThis(other) {
const type = typeof other;
switch (type) {
case 'object':
if (other === null) {
return null;
}
// fallthrough
case 'function':
let proto = thisReflectGetPrototypeOf(other);
if (!proto) {
return other;
}
while (proto) {
const mapping = thisReflectApply(thisMapGet, protoMappings, [proto]);
if (mapping) {
const mapped = thisReflectApply(thisWeakMapGet, mappingOtherToThis, [other]);
if (mapped) return mapped;
return mapping(defaultFactory, other);
}
proto = thisReflectGetPrototypeOf(proto);
}
return other;
case 'undefined':
case 'string':
case 'number':
case 'boolean':
case 'symbol':
case 'bigint':
return other;
default: // new, unknown types can be dangerous
throw new VMError(`Unknown type '${type}'`);
}
}
function thisFromOtherForThrow(other) {
for (let loop = 0; loop < 10; loop++) {
const type = typeof other;
switch (type) {
case 'object':
if (other === null) {
return null;
}
// fallthrough
case 'function':
const mapped = thisReflectApply(thisWeakMapGet, mappingOtherToThis, [other]);
if (mapped) return mapped;
let proto;
try {
proto = otherReflectGetPrototypeOf(other);
} catch (e) { // @other(unsafe)
other = e;
break;
}
if (!proto) {
return thisProxyOther(defaultFactory, other, null);
}
for (;;) {
const mapping = thisReflectApply(thisMapGet, protoMappings, [proto]);
if (mapping) return mapping(defaultFactory, other);
try {
proto = otherReflectGetPrototypeOf(proto);
} catch (e) { // @other(unsafe)
other = e;
break;
}
if (!proto) return thisProxyOther(defaultFactory, other, thisObjectPrototype);
}
break;
case 'undefined':
case 'string':
case 'number':
case 'boolean':
case 'symbol':
case 'bigint':
return other;
default: // new, unknown types can be dangerous
throw new VMError(`Unknown type '${type}'`);
}
}
throw new VMError('Exception recursion depth');
}
function thisFromOtherWithFactory(factory, other, proto) {
const type = typeof other;
switch (type) {
case 'object':
if (other === null) {
return null;
}
// fallthrough
case 'function':
const mapped = thisReflectApply(thisWeakMapGet, mappingOtherToThis, [other]);
if (mapped) return mapped;
if (proto) {
return thisProxyOther(factory, other, proto);
}
try {
proto = otherReflectGetPrototypeOf(other);
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
if (!proto) {
return thisProxyOther(factory, other, null);
}
do {
const mapping = thisReflectApply(thisMapGet, protoMappings, [proto]);
if (mapping) return mapping(factory, other);
try {
proto = otherReflectGetPrototypeOf(proto);
} catch (e) { // @other(unsafe)
throw thisFromOtherForThrow(e);
}
} while (proto);
return thisProxyOther(factory, other, thisObjectPrototype);
case 'undefined':
case 'string':
case 'number':
case 'boolean':
case 'symbol':
case 'bigint':
return other;
default: // new, unknown types can be dangerous
throw new VMError(`Unknown type '${type}'`);
}
}
function thisFromOtherArguments(args) {
// Note: args@other(safe-array) returns@this(safe-array) throws@this(unsafe)
const arr = [];
for (let i = 0; i < args.length; i++) {
const value = thisFromOther(args[i]);
thisReflectDefineProperty(arr, i, {
__proto__: null,
value: value,
writable: true,
enumerable: true,
configurable: true
});
}
return arr;
}
function thisConnect(obj, other) {
// Note: obj@this(unsafe) other@other(unsafe) throws@this(unsafe)
try {
otherReflectApply(otherWeakMapSet, mappingThisToOther, [obj, other]);
} catch (e) {
throw new VMError('Unexpected error');
}
thisReflectApply(thisWeakMapSet, mappingOtherToThis, [other, obj]);
}
thisAddProtoMapping(thisGlobalPrototypes.Object, otherGlobalPrototypes.Object);
thisAddProtoMapping(thisGlobalPrototypes.Array, otherGlobalPrototypes.Array);
for (let i = 0; i < globalsList.length; i++) {
const key = globalsList[i];
const tp = thisGlobalPrototypes[key];
const op = otherGlobalPrototypes[key];
if (tp && op) thisAddProtoMapping(tp, op, key);
}
for (let i = 0; i < errorsList.length; i++) {
const key = errorsList[i];
const tp = thisGlobalPrototypes[key];
const op = otherGlobalPrototypes[key];
if (tp && op) thisAddProtoMapping(tp, op, 'Error');
}
thisAddProtoMapping(thisGlobalPrototypes.VMError, otherGlobalPrototypes.VMError, 'Error');
result.BaseHandler = BaseHandler;
result.ProtectedHandler = ProtectedHandler;
result.ReadOnlyHandler = ReadOnlyHandler;
result.ReadOnlyMockHandler = ReadOnlyMockHandler;
return result;
}
exports.createBridge = createBridge;
exports.VMError = VMError;