// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. import "./lib.deno.shared_globals.d.ts"; import * as abortController from "./web/abort_controller.ts"; import * as abortSignal from "./web/abort_signal.ts"; import * as blob from "./web/blob.ts"; import * as consoleTypes from "./web/console.ts"; import * as csprng from "./ops/get_random_values.ts"; import * as promiseTypes from "./web/promise.ts"; import * as customEvent from "./web/custom_event.ts"; import * as domException from "./web/dom_exception.ts"; import * as domFile from "./web/dom_file.ts"; import * as errorEvent from "./web/error_event.ts"; import * as event from "./web/event.ts"; import * as eventTarget from "./web/event_target.ts"; import * as formData from "./web/form_data.ts"; import * as fetchTypes from "./web/fetch.ts"; import * as headers from "./web/headers.ts"; import * as textEncoding from "./web/text_encoding.ts"; import * as timers from "./web/timers.ts"; import * as url from "./web/url.ts"; import * as urlSearchParams from "./web/url_search_params.ts"; import * as workers from "./web/workers.ts"; import * as performanceUtil from "./web/performance.ts"; import * as request from "./web/request.ts"; import * as readableStream from "./web/streams/readable_stream.ts"; import * as transformStream from "./web/streams/transform_stream.ts"; import * as queuingStrategy from "./web/streams/queuing_strategy.ts"; import * as writableStream from "./web/streams/writable_stream.ts"; // These imports are not exposed and therefore are fine to just import the // symbols required. import { core } from "./core.ts"; // This global augmentation is just enough types to be able to build Deno, // the runtime types are fully defined in `lib.deno.*.d.ts`. declare global { interface CallSite { getThis(): unknown; getTypeName(): string | null; getFunction(): Function | null; getFunctionName(): string | null; getMethodName(): string | null; getFileName(): string | null; getLineNumber(): number | null; getColumnNumber(): number | null; getEvalOrigin(): string | null; isToplevel(): boolean | null; isEval(): boolean; isNative(): boolean; isConstructor(): boolean; isAsync(): boolean; isPromiseAll(): boolean; getPromiseIndex(): number | null; } interface ErrorConstructor { prepareStackTrace(error: Error, structuredStackTrace: CallSite[]): string; } interface Object { [consoleTypes.customInspect]?(): string; } interface EvalErrorInfo { isNativeError: boolean; isCompileError: boolean; // eslint-disable-next-line @typescript-eslint/no-explicit-any thrown: any; } interface ImportMeta { url: string; main: boolean; } interface DenoCore { print(s: string, isErr?: boolean): void; dispatch( opId: number, control: Uint8Array, ...zeroCopy: ArrayBufferView[] ): Uint8Array | null; setAsyncHandler(opId: number, cb: (msg: Uint8Array) => void): void; sharedQueue: { head(): number; numRecords(): number; size(): number; push(buf: Uint8Array): boolean; reset(): void; shift(): Uint8Array | null; }; ops(): Record; recv(cb: (opId: number, msg: Uint8Array) => void): void; send( opId: number, control: null | ArrayBufferView, ...data: ArrayBufferView[] ): null | Uint8Array; setMacrotaskCallback(cb: () => boolean): void; shared: SharedArrayBuffer; evalContext( code: string, scriptName?: string ): [unknown, EvalErrorInfo | null]; formatError: (e: Error) => string; /** * Get promise details as two elements array. * * First element is the `PromiseState`. * If promise isn't pending, second element would be the result of the promise. * Otherwise, second element would be undefined. * * Throws `TypeError` if argument isn't a promise * */ getPromiseDetails(promise: Promise): promiseTypes.PromiseDetails; decode(bytes: Uint8Array): string; encode(text: string): Uint8Array; } // Only `var` variables show up in the `globalThis` type when doing a global // scope augmentation. /* eslint-disable no-var */ // Assigned to `window` global - main runtime var Deno: { core: DenoCore; noColor: boolean; }; var onload: ((e: Event) => void) | undefined; var onunload: ((e: Event) => void) | undefined; // These methods are used to prepare different runtime // environments. After bootrapping, this namespace // should be removed from global scope. var bootstrap: { mainRuntime: (() => void) | undefined; // Assigned to `self` global - worker runtime and compiler workerRuntime: ((name: string) => Promise | void) | undefined; // Assigned to `self` global - compiler tsCompilerRuntime: (() => void) | undefined; }; var onerror: | (( msg: string, source: string, lineno: number, colno: number, e: Event ) => boolean | void) | undefined; // eslint-disable-next-line @typescript-eslint/no-explicit-any var onmessage: ((e: { data: any }) => Promise | void) | undefined; // Called in compiler var close: () => void; // eslint-disable-next-line @typescript-eslint/no-explicit-any var postMessage: (msg: any) => void; /* eslint-enable */ } export function writable(value: unknown): PropertyDescriptor { return { value, writable: true, enumerable: true, configurable: true, }; } export function nonEnumerable(value: unknown): PropertyDescriptor { return { value, writable: true, configurable: true, }; } export function readOnly(value: unknown): PropertyDescriptor { return { value, enumerable: true, }; } // eslint-disable-next-line @typescript-eslint/no-explicit-any export function getterOnly(getter: () => any): PropertyDescriptor { return { get: getter, enumerable: true, }; } // https://developer.mozilla.org/en-US/docs/Web/API/WindowOrWorkerGlobalScope export const windowOrWorkerGlobalScopeMethods = { atob: writable(textEncoding.atob), btoa: writable(textEncoding.btoa), clearInterval: writable(timers.clearInterval), clearTimeout: writable(timers.clearTimeout), fetch: writable(fetchTypes.fetch), // queueMicrotask is bound in Rust setInterval: writable(timers.setInterval), setTimeout: writable(timers.setTimeout), }; // Other properties shared between WindowScope and WorkerGlobalScope export const windowOrWorkerGlobalScopeProperties = { console: writable(new consoleTypes.Console(core.print)), AbortController: nonEnumerable(abortController.AbortControllerImpl), AbortSignal: nonEnumerable(abortSignal.AbortSignalImpl), Blob: nonEnumerable(blob.DenoBlob), ByteLengthQueuingStrategy: nonEnumerable( queuingStrategy.ByteLengthQueuingStrategyImpl ), CountQueuingStrategy: nonEnumerable(queuingStrategy.CountQueuingStrategyImpl), crypto: readOnly(csprng), File: nonEnumerable(domFile.DomFileImpl), CustomEvent: nonEnumerable(customEvent.CustomEventImpl), DOMException: nonEnumerable(domException.DOMExceptionImpl), ErrorEvent: nonEnumerable(errorEvent.ErrorEventImpl), Event: nonEnumerable(event.EventImpl), EventTarget: nonEnumerable(eventTarget.EventTargetImpl), URL: nonEnumerable(url.URLImpl), URLSearchParams: nonEnumerable(urlSearchParams.URLSearchParamsImpl), Headers: nonEnumerable(headers.HeadersImpl), FormData: nonEnumerable(formData.FormDataImpl), TextEncoder: nonEnumerable(textEncoding.TextEncoder), TextDecoder: nonEnumerable(textEncoding.TextDecoder), ReadableStream: nonEnumerable(readableStream.ReadableStreamImpl), TransformStream: nonEnumerable(transformStream.TransformStreamImpl), Request: nonEnumerable(request.Request), Response: nonEnumerable(fetchTypes.Response), performance: writable(new performanceUtil.Performance()), Worker: nonEnumerable(workers.WorkerImpl), WritableStream: nonEnumerable(writableStream.WritableStreamImpl), }; // eslint-disable-next-line @typescript-eslint/no-explicit-any export function setEventTargetData(value: any): void { eventTarget.eventTargetData.set(value, eventTarget.getDefaultTargetData()); } export const eventTargetProperties = { addEventListener: readOnly( eventTarget.EventTargetImpl.prototype.addEventListener ), dispatchEvent: readOnly(eventTarget.EventTargetImpl.prototype.dispatchEvent), removeEventListener: readOnly( eventTarget.EventTargetImpl.prototype.removeEventListener ), };