Merge pull request #158 from crazy-max/node-16

update to node 16
This commit is contained in:
CrazyMax 2022-02-28 08:43:40 +01:00 committed by GitHub
commit 4e3c9375bb
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GPG Key ID: 4AEE18F83AFDEB23
17 changed files with 2541 additions and 56040 deletions

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@ -1,3 +1,4 @@
import {beforeEach, describe, expect, jest, test} from '@jest/globals';
import {AuthorizationData} from '@aws-sdk/client-ecr';
import * as aws from '../src/aws';

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@ -1,3 +1,4 @@
import {expect, test} from '@jest/globals';
import {getInputs} from '../src/context';
test('with password and username getInputs does not throw error', async () => {

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@ -1,20 +1,19 @@
import {expect, jest, test} from '@jest/globals';
import {loginStandard, logout} from '../src/docker';
import * as path from 'path';
import * as exec from '@actions/exec';
process.env['RUNNER_TEMP'] = path.join(__dirname, 'runner');
test('loginStandard calls exec', async () => {
const execSpy: jest.SpyInstance = jest.spyOn(exec, 'getExecOutput');
execSpy.mockImplementation(() =>
Promise.resolve({
// @ts-ignore
const execSpy = jest.spyOn(exec, 'getExecOutput').mockImplementation(async () => {
return {
exitCode: expect.any(Number),
stdout: expect.any(Function),
stderr: expect.any(Function)
})
);
};
});
const username: string = 'dbowie';
const password: string = 'groundcontrol';
@ -30,14 +29,14 @@ test('loginStandard calls exec', async () => {
});
test('logout calls exec', async () => {
const execSpy: jest.SpyInstance = jest.spyOn(exec, 'getExecOutput');
execSpy.mockImplementation(() =>
Promise.resolve({
// @ts-ignore
const execSpy = jest.spyOn(exec, 'getExecOutput').mockImplementation(async () => {
return {
exitCode: expect.any(Number),
stdout: expect.any(Function),
stderr: expect.any(Function)
})
);
};
});
const registry: string = 'https://ghcr.io';

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@ -1,3 +1,4 @@
import {expect, jest, test} from '@jest/globals';
import osm = require('os');
import {run} from '../src/main';
@ -7,26 +8,20 @@ import * as stateHelper from '../src/state-helper';
import * as core from '@actions/core';
test('errors without username and password', async () => {
const platSpy = jest.spyOn(osm, 'platform');
platSpy.mockImplementation(() => 'linux');
const platSpy = jest.spyOn(osm, 'platform').mockImplementation(() => 'linux');
process.env['INPUT_LOGOUT'] = 'true'; // default value
const coreSpy: jest.SpyInstance = jest.spyOn(core, 'setFailed');
const coreSpy = jest.spyOn(core, 'setFailed');
await run();
expect(coreSpy).toHaveBeenCalledWith('Username and password required');
});
test('successful with username and password', async () => {
const platSpy = jest.spyOn(osm, 'platform');
platSpy.mockImplementation(() => 'linux');
const setRegistrySpy: jest.SpyInstance = jest.spyOn(stateHelper, 'setRegistry');
const setLogoutSpy: jest.SpyInstance = jest.spyOn(stateHelper, 'setLogout');
const dockerSpy: jest.SpyInstance = jest.spyOn(docker, 'login');
dockerSpy.mockImplementation(() => {});
const platSpy = jest.spyOn(osm, 'platform').mockImplementation(() => 'linux');
const setRegistrySpy = jest.spyOn(stateHelper, 'setRegistry');
const setLogoutSpy = jest.spyOn(stateHelper, 'setLogout');
const dockerSpy = jest.spyOn(docker, 'login').mockImplementation(jest.fn());
const username: string = 'dbowie';
process.env[`INPUT_USERNAME`] = username;
@ -48,13 +43,11 @@ test('successful with username and password', async () => {
});
test('calls docker login', async () => {
const platSpy = jest.spyOn(osm, 'platform');
platSpy.mockImplementation(() => 'linux');
const setRegistrySpy: jest.SpyInstance = jest.spyOn(stateHelper, 'setRegistry');
const setLogoutSpy: jest.SpyInstance = jest.spyOn(stateHelper, 'setLogout');
const dockerSpy: jest.SpyInstance = jest.spyOn(docker, 'login');
dockerSpy.mockImplementation(() => {});
const platSpy = jest.spyOn(osm, 'platform').mockImplementation(() => 'linux');
const setRegistrySpy = jest.spyOn(stateHelper, 'setRegistry');
const setLogoutSpy = jest.spyOn(stateHelper, 'setLogout');
const dockerSpy = jest.spyOn(docker, 'login');
dockerSpy.mockImplementation(jest.fn());
const username: string = 'dbowie';
process.env[`INPUT_USERNAME`] = username;

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@ -26,6 +26,6 @@ inputs:
required: false
runs:
using: 'node12'
using: 'node16'
main: 'dist/index.js'
post: 'dist/index.js'

984
dist/bridge.js vendored
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@ -1,984 +0,0 @@
/******/ (() => { // webpackBootstrap
/******/ "use strict";
/******/ var __webpack_modules__ = ({
/***/ 989:
/***/ ((__unused_webpack_module, exports) => {
/**
* __ ___ ____ _ _ ___ _ _ ____
* \ \ / / \ | _ \| \ | |_ _| \ | |/ ___|
* \ \ /\ / / _ \ | |_) | \| || || \| | | _
* \ 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 thisFromOther(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 thisFromOther(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 thisFromOther(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 thisFromOther(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 thisFromOther(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 (thisOtherHasOwnProperty(object, key)) throw thisThrowCallerCalleeArgumentsAccess(key);
break;
}
let ret; // @other(unsafe)
try {
ret = otherReflectGet(object, key);
} catch (e) { // @other(unsafe)
throw thisFromOther(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 thisFromOther(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 thisFromOther(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 thisFromOther(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 thisFromOther(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 thisFromOther(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 thisFromOther(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 thisFromOther(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 thisFromOther(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 thisFromOther(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 thisFromOther(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 thisFromOther(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':
case 'function':
if (other === null) {
return null;
} else {
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 thisFromOtherWithFactory(factory, other, proto) {
for (let loop = 0; loop < 10; loop++) {
const type = typeof other;
switch (type) {
case 'object':
case 'function':
if (other === null) {
return null;
} else {
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)
other = e;
break;
}
if (!proto) {
return thisProxyOther(factory, other, null);
}
while (proto) {
const mapping = thisReflectApply(thisMapGet, protoMappings, [proto]);
if (mapping) return mapping(factory, other);
try {
proto = otherReflectGetPrototypeOf(proto);
} catch (e) { // @other(unsafe)
other = e;
break;
}
}
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}'`);
}
factory = defaultFactory;
proto = undefined;
}
throw new VMError('Exception recursion depth');
}
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;
/***/ })
/******/ });
/************************************************************************/
/******/ /* webpack/runtime/compat */
/******/
/******/ if (typeof __nccwpck_require__ !== 'undefined') __nccwpck_require__.ab = __dirname + "/";/************************************************************************/
/******/
/******/ // startup
/******/ // Load entry module and return exports
/******/ // This entry module is referenced by other modules so it can't be inlined
/******/ var __webpack_exports__ = {};
/******/ __webpack_modules__[989](0, __webpack_exports__);
/******/ module.exports = __webpack_exports__;
/******/
/******/ })()
;

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/******/ (() => { // webpackBootstrap
/******/ "use strict";
/******/ /* webpack/runtime/compat */
/******/
/******/ if (typeof __nccwpck_require__ !== 'undefined') __nccwpck_require__.ab = __dirname + "/";/************************************************************************/
var __webpack_exports__ = {};
/* global host, data, VMError */
const LocalError = Error;
const LocalTypeError = TypeError;
const LocalWeakMap = WeakMap;
const {
apply: localReflectApply,
defineProperty: localReflectDefineProperty
} = Reflect;
const {
set: localWeakMapSet,
get: localWeakMapGet
} = LocalWeakMap.prototype;
const {
isArray: localArrayIsArray
} = Array;
function uncurryThis(func) {
return (thiz, ...args) => localReflectApply(func, thiz, args);
}
const localArrayPrototypeSlice = uncurryThis(Array.prototype.slice);
const localArrayPrototypeIncludes = uncurryThis(Array.prototype.includes);
const localArrayPrototypePush = uncurryThis(Array.prototype.push);
const localArrayPrototypeIndexOf = uncurryThis(Array.prototype.indexOf);
const localArrayPrototypeSplice = uncurryThis(Array.prototype.splice);
const localStringPrototypeStartsWith = uncurryThis(String.prototype.startsWith);
const localStringPrototypeSlice = uncurryThis(String.prototype.slice);
const localStringPrototypeIndexOf = uncurryThis(String.prototype.indexOf);
const {
argv: optionArgv,
env: optionEnv,
console: optionConsole,
vm,
resolver,
extensions
} = data;
function ensureSandboxArray(a) {
return localArrayPrototypeSlice(a);
}
const globalPaths = ensureSandboxArray(resolver.globalPaths);
class Module {
constructor(id, path, parent) {
this.id = id;
this.filename = id;
this.path = path;
this.parent = parent;
this.loaded = false;
this.paths = path ? ensureSandboxArray(resolver.genLookupPaths(path)) : [];
this.children = [];
this.exports = {};
}
_updateChildren(child, isNew) {
const children = this.children;
if (children && (isNew || !localArrayPrototypeIncludes(children, child))) {
localArrayPrototypePush(children, child);
}
}
require(id) {
return requireImpl(this, id, false);
}
}
const originalRequire = Module.prototype.require;
const cacheBuiltins = {__proto__: null};
function requireImpl(mod, id, direct) {
if (direct && mod.require !== originalRequire) {
return mod.require(id);
}
const filename = resolver.resolve(mod, id, undefined, Module._extensions, direct);
if (localStringPrototypeStartsWith(filename, 'node:')) {
id = localStringPrototypeSlice(filename, 5);
let nmod = cacheBuiltins[id];
if (!nmod) {
nmod = resolver.loadBuiltinModule(vm, id);
if (!nmod) throw new VMError(`Cannot find module '${filename}'`, 'ENOTFOUND');
cacheBuiltins[id] = nmod;
}
return nmod;
}
const cachedModule = Module._cache[filename];
if (cachedModule !== undefined) {
mod._updateChildren(cachedModule, false);
return cachedModule.exports;
}
let nmod = cacheBuiltins[id];
if (nmod) return nmod;
nmod = resolver.loadBuiltinModule(vm, id);
if (nmod) {
cacheBuiltins[id] = nmod;
return nmod;
}
const path = resolver.pathDirname(filename);
const module = new Module(filename, path, mod);
resolver.registerModule(module, filename, path, mod, direct);
mod._updateChildren(module, true);
try {
Module._cache[filename] = module;
const handler = findBestExtensionHandler(filename);
handler(module, filename);
module.loaded = true;
} catch (e) {
delete Module._cache[filename];
const children = mod.children;
if (localArrayIsArray(children)) {
const index = localArrayPrototypeIndexOf(children, module);
if (index !== -1) {
localArrayPrototypeSplice(children, index, 1);
}
}
throw e;
}
return module.exports;
}
Module.builtinModules = ensureSandboxArray(resolver.getBuiltinModulesList());
Module.globalPaths = globalPaths;
Module._extensions = {__proto__: null};
Module._cache = {__proto__: null};
{
const keys = Object.getOwnPropertyNames(extensions);
for (let i = 0; i < keys.length; i++) {
const key = keys[i];
const handler = extensions[key];
Module._extensions[key] = (mod, filename) => handler(mod, filename);
}
}
function findBestExtensionHandler(filename) {
const name = resolver.pathBasename(filename);
for (let i = 0; (i = localStringPrototypeIndexOf(name, '.', i + 1)) !== -1;) {
const ext = localStringPrototypeSlice(name, i + 1);
const handler = Module._extensions[ext];
if (handler) return handler;
}
const js = Module._extensions['.js'];
if (js) return js;
const keys = Object.getOwnPropertyNames(Module._extensions);
if (keys.length === 0) throw new VMError(`Failed to load '${filename}': Unknown type.`, 'ELOADFAIL');
return Module._extensions[keys[0]];
}
function createRequireForModule(mod) {
// eslint-disable-next-line no-shadow
function require(id) {
return requireImpl(mod, id, true);
}
function resolve(id, options) {
return resolver.resolve(mod, id, options, Module._extensions, true);
}
require.resolve = resolve;
function paths(id) {
return ensureSandboxArray(resolver.lookupPaths(mod, id));
}
resolve.paths = paths;
require.extensions = Module._extensions;
require.cache = Module._cache;
return require;
}
/**
* Prepare sandbox.
*/
const TIMERS = new LocalWeakMap();
class Timeout {
}
class Interval {
}
class Immediate {
}
function clearTimer(timer) {
const obj = localReflectApply(localWeakMapGet, TIMERS, [timer]);
if (obj) {
obj.clear(obj.value);
}
}
// This is a function and not an arrow function, since the original is also a function
// eslint-disable-next-line no-shadow
global.setTimeout = function setTimeout(callback, delay, ...args) {
if (typeof callback !== 'function') throw new LocalTypeError('"callback" argument must be a function');
const obj = new Timeout(callback, args);
const cb = () => {
localReflectApply(callback, null, args);
};
const tmr = host.setTimeout(cb, delay);
const ref = {
__proto__: null,
clear: host.clearTimeout,
value: tmr
};
localReflectApply(localWeakMapSet, TIMERS, [obj, ref]);
return obj;
};
// eslint-disable-next-line no-shadow
global.setInterval = function setInterval(callback, interval, ...args) {
if (typeof callback !== 'function') throw new LocalTypeError('"callback" argument must be a function');
const obj = new Interval();
const cb = () => {
localReflectApply(callback, null, args);
};
const tmr = host.setInterval(cb, interval);
const ref = {
__proto__: null,
clear: host.clearInterval,
value: tmr
};
localReflectApply(localWeakMapSet, TIMERS, [obj, ref]);
return obj;
};
// eslint-disable-next-line no-shadow
global.setImmediate = function setImmediate(callback, ...args) {
if (typeof callback !== 'function') throw new LocalTypeError('"callback" argument must be a function');
const obj = new Immediate();
const cb = () => {
localReflectApply(callback, null, args);
};
const tmr = host.setImmediate(cb);
const ref = {
__proto__: null,
clear: host.clearImmediate,
value: tmr
};
localReflectApply(localWeakMapSet, TIMERS, [obj, ref]);
return obj;
};
// eslint-disable-next-line no-shadow
global.clearTimeout = function clearTimeout(timeout) {
clearTimer(timeout);
};
// eslint-disable-next-line no-shadow
global.clearInterval = function clearInterval(interval) {
clearTimer(interval);
};
// eslint-disable-next-line no-shadow
global.clearImmediate = function clearImmediate(immediate) {
clearTimer(immediate);
};
const localProcess = host.process;
function vmEmitArgs(event, args) {
const allargs = [event];
for (let i = 0; i < args.length; i++) {
if (!localReflectDefineProperty(allargs, i + 1, {
__proto__: null,
value: args[i],
writable: true,
enumerable: true,
configurable: true
})) throw new LocalError('Unexpected');
}
return localReflectApply(vm.emit, vm, allargs);
}
const LISTENERS = new LocalWeakMap();
const LISTENER_HANDLER = new LocalWeakMap();
/**
*
* @param {*} name
* @param {*} handler
* @this process
* @return {this}
*/
function addListener(name, handler) {
if (name !== 'beforeExit' && name !== 'exit') {
throw new LocalError(`Access denied to listen for '${name}' event.`);
}
let cb = localReflectApply(localWeakMapGet, LISTENERS, [handler]);
if (!cb) {
cb = () => {
handler();
};
localReflectApply(localWeakMapSet, LISTENER_HANDLER, [cb, handler]);
localReflectApply(localWeakMapSet, LISTENERS, [handler, cb]);
}
localProcess.on(name, cb);
return this;
}
/**
*
* @this process
* @return {this}
*/
// eslint-disable-next-line no-shadow
function process() {
return this;
}
// FIXME wrong class structure
global.process = {
__proto__: process.prototype,
argv: optionArgv !== undefined ? optionArgv : [],
title: localProcess.title,
version: localProcess.version,
versions: localProcess.versions,
arch: localProcess.arch,
platform: localProcess.platform,
env: optionEnv !== undefined ? optionEnv : {},
pid: localProcess.pid,
features: localProcess.features,
nextTick: function nextTick(callback, ...args) {
if (typeof callback !== 'function') {
throw new LocalError('Callback must be a function.');
}
localProcess.nextTick(()=>{
localReflectApply(callback, null, args);
});
},
hrtime: function hrtime(time) {
return localProcess.hrtime(time);
},
cwd: function cwd() {
return localProcess.cwd();
},
addListener,
on: addListener,
once: function once(name, handler) {
if (name !== 'beforeExit' && name !== 'exit') {
throw new LocalError(`Access denied to listen for '${name}' event.`);
}
let triggered = false;
const cb = () => {
if (triggered) return;
triggered = true;
localProcess.removeListener(name, cb);
handler();
};
localReflectApply(localWeakMapSet, LISTENER_HANDLER, [cb, handler]);
localProcess.on(name, cb);
return this;
},
listeners: function listeners(name) {
if (name !== 'beforeExit' && name !== 'exit') {
// Maybe add ({__proto__:null})[name] to throw when name fails in https://tc39.es/ecma262/#sec-topropertykey.
return [];
}
// Filter out listeners, which were not created in this sandbox
const all = localProcess.listeners(name);
const filtered = [];
let j = 0;
for (let i = 0; i < all.length; i++) {
const h = localReflectApply(localWeakMapGet, LISTENER_HANDLER, [all[i]]);
if (h) {
if (!localReflectDefineProperty(filtered, j, {
__proto__: null,
value: h,
writable: true,
enumerable: true,
configurable: true
})) throw new LocalError('Unexpected');
j++;
}
}
return filtered;
},
removeListener: function removeListener(name, handler) {
if (name !== 'beforeExit' && name !== 'exit') {
return this;
}
const cb = localReflectApply(localWeakMapGet, LISTENERS, [handler]);
if (cb) localProcess.removeListener(name, cb);
return this;
},
umask: function umask() {
if (arguments.length) {
throw new LocalError('Access denied to set umask.');
}
return localProcess.umask();
}
};
if (optionConsole === 'inherit') {
global.console = host.console;
} else if (optionConsole === 'redirect') {
global.console = {
debug(...args) {
vmEmitArgs('console.debug', args);
},
log(...args) {
vmEmitArgs('console.log', args);
},
info(...args) {
vmEmitArgs('console.info', args);
},
warn(...args) {
vmEmitArgs('console.warn', args);
},
error(...args) {
vmEmitArgs('console.error', args);
},
dir(...args) {
vmEmitArgs('console.dir', args);
},
time() {},
timeEnd() {},
trace(...args) {
vmEmitArgs('console.trace', args);
}
};
}
return {
__proto__: null,
Module,
jsonParse: JSON.parse,
createRequireForModule
};
module.exports = __webpack_exports__;
/******/ })()
;

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dist/setup-sandbox.js vendored
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@ -1,462 +0,0 @@
/******/ (() => { // webpackBootstrap
/******/ "use strict";
/******/ /* webpack/runtime/compat */
/******/
/******/ if (typeof __nccwpck_require__ !== 'undefined') __nccwpck_require__.ab = __dirname + "/";/************************************************************************/
var __webpack_exports__ = {};
/* global host, bridge, data, context */
const {
Object: localObject,
Array: localArray,
Error: LocalError,
Reflect: localReflect,
Proxy: LocalProxy,
WeakMap: LocalWeakMap,
Function: localFunction,
Promise: localPromise,
eval: localEval
} = global;
const {
freeze: localObjectFreeze
} = localObject;
const {
getPrototypeOf: localReflectGetPrototypeOf,
apply: localReflectApply,
deleteProperty: localReflectDeleteProperty,
has: localReflectHas,
defineProperty: localReflectDefineProperty,
setPrototypeOf: localReflectSetPrototypeOf,
getOwnPropertyDescriptor: localReflectGetOwnPropertyDescriptor
} = localReflect;
const {
isArray: localArrayIsArray
} = localArray;
const {
ensureThis,
ReadOnlyHandler,
from,
fromWithFactory,
readonlyFactory,
connect,
addProtoMapping,
VMError,
ReadOnlyMockHandler
} = bridge;
const {
allowAsync,
GeneratorFunction,
AsyncFunction,
AsyncGeneratorFunction
} = data;
const localWeakMapGet = LocalWeakMap.prototype.get;
function localUnexpected() {
return new VMError('Should not happen');
}
// global is originally prototype of host.Object so it can be used to climb up from the sandbox.
if (!localReflectSetPrototypeOf(context, localObject.prototype)) throw localUnexpected();
Object.defineProperties(global, {
global: {value: global, writable: true, configurable: true, enumerable: true},
globalThis: {value: global, writable: true, configurable: true},
GLOBAL: {value: global, writable: true, configurable: true},
root: {value: global, writable: true, configurable: true}
});
if (!localReflectDefineProperty(global, 'VMError', {
__proto__: null,
value: VMError,
writable: true,
enumerable: false,
configurable: true
})) throw localUnexpected();
// Fixes buffer unsafe allocation
/* eslint-disable no-use-before-define */
class BufferHandler extends ReadOnlyHandler {
apply(target, thiz, args) {
if (args.length > 0 && typeof args[0] === 'number') {
return LocalBuffer.alloc(args[0]);
}
return localReflectApply(LocalBuffer.from, LocalBuffer, args);
}
construct(target, args, newTarget) {
if (args.length > 0 && typeof args[0] === 'number') {
return LocalBuffer.alloc(args[0]);
}
return localReflectApply(LocalBuffer.from, LocalBuffer, args);
}
}
/* eslint-enable no-use-before-define */
const LocalBuffer = fromWithFactory(obj => new BufferHandler(obj), host.Buffer);
if (!localReflectDefineProperty(global, 'Buffer', {
__proto__: null,
value: LocalBuffer,
writable: true,
enumerable: false,
configurable: true
})) throw localUnexpected();
addProtoMapping(LocalBuffer.prototype, host.Buffer.prototype, 'Uint8Array');
/**
*
* @param {*} size Size of new buffer
* @this LocalBuffer
* @return {LocalBuffer}
*/
function allocUnsafe(size) {
return LocalBuffer.alloc(size);
}
connect(allocUnsafe, host.Buffer.allocUnsafe);
/**
*
* @param {*} size Size of new buffer
* @this LocalBuffer
* @return {LocalBuffer}
*/
function allocUnsafeSlow(size) {
return LocalBuffer.alloc(size);
}
connect(allocUnsafeSlow, host.Buffer.allocUnsafeSlow);
/**
* Replacement for Buffer inspect
*
* @param {*} recurseTimes
* @param {*} ctx
* @this LocalBuffer
* @return {string}
*/
function inspect(recurseTimes, ctx) {
// Mimic old behavior, could throw but didn't pass a test.
const max = host.INSPECT_MAX_BYTES;
const actualMax = Math.min(max, this.length);
const remaining = this.length - max;
let str = this.hexSlice(0, actualMax).replace(/(.{2})/g, '$1 ').trim();
if (remaining > 0) str += ` ... ${remaining} more byte${remaining > 1 ? 's' : ''}`;
return `<${this.constructor.name} ${str}>`;
}
connect(inspect, host.Buffer.prototype.inspect);
connect(localFunction.prototype.bind, host.Function.prototype.bind);
connect(localObject.prototype.__defineGetter__, host.Object.prototype.__defineGetter__);
connect(localObject.prototype.__defineSetter__, host.Object.prototype.__defineSetter__);
connect(localObject.prototype.__lookupGetter__, host.Object.prototype.__lookupGetter__);
connect(localObject.prototype.__lookupSetter__, host.Object.prototype.__lookupSetter__);
/*
* PrepareStackTrace sanitization
*/
const oldPrepareStackTraceDesc = localReflectGetOwnPropertyDescriptor(LocalError, 'prepareStackTrace');
let currentPrepareStackTrace = LocalError.prepareStackTrace;
const wrappedPrepareStackTrace = new LocalWeakMap();
if (typeof currentPrepareStackTrace === 'function') {
wrappedPrepareStackTrace.set(currentPrepareStackTrace, currentPrepareStackTrace);
}
let OriginalCallSite;
LocalError.prepareStackTrace = (e, sst) => {
OriginalCallSite = sst[0].constructor;
};
new LocalError().stack;
if (typeof OriginalCallSite === 'function') {
LocalError.prepareStackTrace = undefined;
function makeCallSiteGetters(list) {
const callSiteGetters = [];
for (let i=0; i<list.length; i++) {
const name = list[i];
const func = OriginalCallSite.prototype[name];
callSiteGetters[i] = {__proto__: null,
name,
propName: '_' + name,
func: (thiz) => {
return localReflectApply(func, thiz, []);
}
};
}
return callSiteGetters;
}
function applyCallSiteGetters(thiz, callSite, getters) {
for (let i=0; i<getters.length; i++) {
const getter = getters[i];
localReflectDefineProperty(thiz, getter.propName, {
__proto__: null,
value: getter.func(callSite)
});
}
}
const callSiteGetters = makeCallSiteGetters([
'getTypeName',
'getFunctionName',
'getMethodName',
'getFileName',
'getLineNumber',
'getColumnNumber',
'getEvalOrigin',
'isToplevel',
'isEval',
'isNative',
'isConstructor',
'isAsync',
'isPromiseAll',
'getPromiseIndex'
]);
class CallSite {
constructor(callSite) {
applyCallSiteGetters(this, callSite, callSiteGetters);
}
getThis() {
return undefined;
}
getFunction() {
return undefined;
}
toString() {
return 'CallSite {}';
}
}
for (let i=0; i<callSiteGetters.length; i++) {
const name = callSiteGetters[i].name;
const funcProp = localReflectGetOwnPropertyDescriptor(OriginalCallSite.prototype, name);
if (!funcProp) continue;
const propertyName = callSiteGetters[i].propName;
const func = {func() {
return this[propertyName];
}}.func;
const nameProp = localReflectGetOwnPropertyDescriptor(func, 'name');
if (!nameProp) throw localUnexpected();
nameProp.value = name;
if (!localReflectDefineProperty(func, 'name', nameProp)) throw localUnexpected();
funcProp.value = func;
if (!localReflectDefineProperty(CallSite.prototype, name, funcProp)) throw localUnexpected();
}
if (!localReflectDefineProperty(LocalError, 'prepareStackTrace', {
configurable: false,
enumerable: false,
get() {
return currentPrepareStackTrace;
},
set(value) {
if (typeof(value) !== 'function') {
currentPrepareStackTrace = value;
return;
}
const wrapped = localReflectApply(localWeakMapGet, wrappedPrepareStackTrace, [value]);
if (wrapped) {
currentPrepareStackTrace = wrapped;
return;
}
const newWrapped = (error, sst) => {
if (localArrayIsArray(sst)) {
for (let i=0; i < sst.length; i++) {
const cs = sst[i];
if (typeof cs === 'object' && localReflectGetPrototypeOf(cs) === OriginalCallSite.prototype) {
sst[i] = new CallSite(cs);
}
}
}
return value(error, sst);
};
wrappedPrepareStackTrace.set(value, newWrapped);
wrappedPrepareStackTrace.set(newWrapped, newWrapped);
currentPrepareStackTrace = newWrapped;
}
})) throw localUnexpected();
} else if (oldPrepareStackTraceDesc) {
localReflectDefineProperty(LocalError, 'prepareStackTrace', oldPrepareStackTraceDesc);
} else {
localReflectDeleteProperty(LocalError, 'prepareStackTrace');
}
/*
* Exception sanitization
*/
const withProxy = localObjectFreeze({
__proto__: null,
has(target, key) {
if (key === host.INTERNAL_STATE_NAME) return false;
return localReflectHas(target, key);
}
});
const interanState = localObjectFreeze({
__proto__: null,
wrapWith(x) {
return new LocalProxy(x, withProxy);
},
handleException: ensureThis,
import(what) {
throw new VMError('Dynamic Import not supported');
}
});
if (!localReflectDefineProperty(global, host.INTERNAL_STATE_NAME, {
__proto__: null,
configurable: false,
enumerable: false,
writable: false,
value: interanState
})) throw localUnexpected();
/*
* Eval sanitization
*/
function throwAsync() {
return new VMError('Async not available');
}
function makeFunction(inputArgs, isAsync, isGenerator) {
const lastArgs = inputArgs.length - 1;
let code = lastArgs >= 0 ? `${inputArgs[lastArgs]}` : '';
let args = lastArgs > 0 ? `${inputArgs[0]}` : '';
for (let i = 1; i < lastArgs; i++) {
args += `,${inputArgs[i]}`;
}
try {
code = host.transformAndCheck(args, code, isAsync, isGenerator, allowAsync);
} catch (e) {
throw bridge.from(e);
}
return localEval(code);
}
const FunctionHandler = {
__proto__: null,
apply(target, thiz, args) {
return makeFunction(args, this.isAsync, this.isGenerator);
},
construct(target, args, newTarget) {
return makeFunction(args, this.isAsync, this.isGenerator);
}
};
const EvalHandler = {
__proto__: null,
apply(target, thiz, args) {
if (args.length === 0) return undefined;
let code = `${args[0]}`;
try {
code = host.transformAndCheck(null, code, false, false, allowAsync);
} catch (e) {
throw bridge.from(e);
}
return localEval(code);
}
};
const AsyncErrorHandler = {
__proto__: null,
apply(target, thiz, args) {
throw throwAsync();
},
construct(target, args, newTarget) {
throw throwAsync();
}
};
function makeCheckFunction(isAsync, isGenerator) {
if (isAsync && !allowAsync) return AsyncErrorHandler;
return {
__proto__: FunctionHandler,
isAsync,
isGenerator
};
}
function overrideWithProxy(obj, prop, value, handler) {
const proxy = new LocalProxy(value, handler);
if (!localReflectDefineProperty(obj, prop, {__proto__: null, value: proxy})) throw localUnexpected();
return proxy;
}
const proxiedFunction = overrideWithProxy(localFunction.prototype, 'constructor', localFunction, makeCheckFunction(false, false));
if (GeneratorFunction) {
if (!localReflectSetPrototypeOf(GeneratorFunction, proxiedFunction)) throw localUnexpected();
overrideWithProxy(GeneratorFunction.prototype, 'constructor', GeneratorFunction, makeCheckFunction(false, true));
}
if (AsyncFunction) {
if (!localReflectSetPrototypeOf(AsyncFunction, proxiedFunction)) throw localUnexpected();
overrideWithProxy(AsyncFunction.prototype, 'constructor', AsyncFunction, makeCheckFunction(true, false));
}
if (AsyncGeneratorFunction) {
if (!localReflectSetPrototypeOf(AsyncGeneratorFunction, proxiedFunction)) throw localUnexpected();
overrideWithProxy(AsyncGeneratorFunction.prototype, 'constructor', AsyncGeneratorFunction, makeCheckFunction(true, true));
}
global.Function = proxiedFunction;
global.eval = new LocalProxy(localEval, EvalHandler);
/*
* Promise sanitization
*/
if (localPromise && !allowAsync) {
const PromisePrototype = localPromise.prototype;
overrideWithProxy(PromisePrototype, 'then', PromisePrototype.then, AsyncErrorHandler);
// This seems not to work, and will produce
// UnhandledPromiseRejectionWarning: TypeError: Method Promise.prototype.then called on incompatible receiver [object Object].
// This is likely caused since the host.Promise.prototype.then cannot use the VM Proxy object.
// Contextify.connect(host.Promise.prototype.then, Promise.prototype.then);
if (PromisePrototype.finally) {
overrideWithProxy(PromisePrototype, 'finally', PromisePrototype.finally, AsyncErrorHandler);
// Contextify.connect(host.Promise.prototype.finally, Promise.prototype.finally);
}
if (Promise.prototype.catch) {
overrideWithProxy(PromisePrototype, 'catch', PromisePrototype.catch, AsyncErrorHandler);
// Contextify.connect(host.Promise.prototype.catch, Promise.prototype.catch);
}
}
function readonly(other, mock) {
// Note: other@other(unsafe) mock@other(unsafe) returns@this(unsafe) throws@this(unsafe)
if (!mock) return fromWithFactory(readonlyFactory, other);
const tmock = from(mock);
return fromWithFactory(obj=>new ReadOnlyMockHandler(obj, tmock), other);
}
return {
__proto__: null,
readonly,
global
};
module.exports = __webpack_exports__;
/******/ })()
;

View File

@ -1,5 +1,5 @@
variable "NODE_VERSION" {
default = "12"
default = "16"
}
target "node-version" {

View File

@ -2,9 +2,7 @@ module.exports = {
clearMocks: true,
moduleFileExtensions: ['js', 'ts'],
setupFiles: ["dotenv/config"],
testEnvironment: 'node',
testMatch: ['**/*.test.ts'],
testRunner: 'jest-circus/runner',
transform: {
'^.+\\.ts$': 'ts-jest'
},

View File

@ -4,8 +4,8 @@
"main": "lib/main.js",
"scripts": {
"build": "tsc && ncc build",
"format": "prettier --write **/*.ts",
"format-check": "prettier --check **/*.ts",
"format": "prettier --write '**/*.ts'",
"format-check": "prettier --check '**/*.ts'",
"test": "jest --coverage",
"pre-checkin": "yarn run format && yarn run build"
},
@ -13,6 +13,9 @@
"type": "git",
"url": "git+https://github.com/docker/login-action.git"
},
"engines": {
"node": "^16"
},
"keywords": [
"actions",
"docker",
@ -32,19 +35,16 @@
"@actions/io": "^1.1.1",
"@aws-sdk/client-ecr": "^3.45.0",
"@aws-sdk/client-ecr-public": "^3.45.0",
"proxy-agent": "^5.0.0"
"http-proxy-agent": "^5.0.0",
"https-proxy-agent": "^5.0.0"
},
"devDependencies": {
"@types/jest": "^26.0.23",
"@types/node": "^14.17.4",
"@vercel/ncc": "^0.28.6",
"dotenv": "^8.6.0",
"jest": "^26.6.3",
"jest-circus": "^26.6.3",
"jest-runtime": "^26.6.3",
"prettier": "^2.3.2",
"ts-jest": "^26.5.6",
"typescript": "^3.9.10",
"typescript-formatter": "^7.2.2"
"@types/node": "^16.11.26",
"@vercel/ncc": "^0.33.3",
"dotenv": "^16.0.0",
"jest": "^27.2.5",
"prettier": "^2.5.1",
"ts-jest": "^27.1.2",
"typescript": "^4.4.4"
}
}

View File

@ -2,7 +2,8 @@ import * as core from '@actions/core';
import {ECR} from '@aws-sdk/client-ecr';
import {ECRPUBLIC} from '@aws-sdk/client-ecr-public';
import {NodeHttpHandler} from '@aws-sdk/node-http-handler';
import ProxyAgent from 'proxy-agent';
import {HttpProxyAgent} from 'http-proxy-agent';
import {HttpsProxyAgent} from 'https-proxy-agent';
const ecrRegistryRegex = /^(([0-9]{12})\.dkr\.ecr\.(.+)\.amazonaws\.com(.cn)?)(\/([^:]+)(:.+)?)?$/;
@ -60,14 +61,14 @@ export const getRegistriesData = async (registry: string, username?: string, pas
const httpProxy = process.env.http_proxy || process.env.HTTP_PROXY || '';
if (httpProxy) {
core.debug(`Using http proxy ${httpProxy}`);
httpProxyAgent = new ProxyAgent(httpProxy);
httpProxyAgent = new HttpProxyAgent(httpProxy);
}
let httpsProxyAgent: any = null;
const httpsProxy = process.env.https_proxy || process.env.HTTPS_PROXY || '';
if (httpsProxy) {
core.debug(`Using https proxy ${httpsProxy}`);
httpsProxyAgent = new ProxyAgent(httpsProxy);
httpsProxyAgent = new HttpsProxyAgent(httpsProxy);
}
const credentials =

View File

@ -9,7 +9,7 @@ export async function run(): Promise<void> {
stateHelper.setRegistry(input.registry);
stateHelper.setLogout(input.logout);
await docker.login(input.registry, input.username, input.password, input.ecr);
} catch (error) {
} catch (error: any) {
core.setFailed(error.message);
}
}

View File

@ -1,11 +1,7 @@
{
"compilerOptions": {
"target": "es6",
"target": "esnext",
"module": "commonjs",
"lib": [
"es6",
"dom"
],
"newLine": "lf",
"outDir": "./lib",
"rootDir": "./src",

2803
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