// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. import { Signal } from "./process.ts"; import { sendSync, sendAsync } from "./ops/dispatch_json.ts"; import { build } from "./build.ts"; /** * Returns the stream of the given signal number. You can use it as an async * iterator. * * for await (const _ of Deno.signal(Deno.Signal.SIGTERM)) { * console.log("got SIGTERM!"); * } * * You can also use it as a promise. In this case you can only receive the * first one. * * await Deno.signal(Deno.Signal.SIGTERM); * console.log("SIGTERM received!") * * If you want to stop receiving the signals, you can use .dispose() method * of the signal stream object. * * const sig = Deno.signal(Deno.Signal.SIGTERM); * setTimeout(() => { sig.dispose(); }, 5000); * for await (const _ of sig) { * console.log("SIGTERM!") * } * * The above for-await loop exits after 5 seconds when sig.dispose() is called. */ export function signal(signo: number): SignalStream { if (build.os === "win") { throw new Error("not implemented!"); } return new SignalStream(signo); } export const signals = { /** Returns the stream of SIGALRM signals. * This method is the shorthand for Deno.signal(Deno.Signal.SIGALRM). */ alarm(): SignalStream { return signal(Signal.SIGALRM); }, /** Returns the stream of SIGCHLD signals. * This method is the shorthand for Deno.signal(Deno.Signal.SIGCHLD). */ child(): SignalStream { return signal(Signal.SIGCHLD); }, /** Returns the stream of SIGHUP signals. * This method is the shorthand for Deno.signal(Deno.Signal.SIGHUP). */ hungup(): SignalStream { return signal(Signal.SIGHUP); }, /** Returns the stream of SIGINT signals. * This method is the shorthand for Deno.signal(Deno.Signal.SIGINT). */ interrupt(): SignalStream { return signal(Signal.SIGINT); }, /** Returns the stream of SIGIO signals. * This method is the shorthand for Deno.signal(Deno.Signal.SIGIO). */ io(): SignalStream { return signal(Signal.SIGIO); }, /** Returns the stream of SIGPIPE signals. * This method is the shorthand for Deno.signal(Deno.Signal.SIGPIPE). */ pipe(): SignalStream { return signal(Signal.SIGPIPE); }, /** Returns the stream of SIGQUIT signals. * This method is the shorthand for Deno.signal(Deno.Signal.SIGQUIT). */ quit(): SignalStream { return signal(Signal.SIGQUIT); }, /** Returns the stream of SIGTERM signals. * This method is the shorthand for Deno.signal(Deno.Signal.SIGTERM). */ terminate(): SignalStream { return signal(Signal.SIGTERM); }, /** Returns the stream of SIGUSR1 signals. * This method is the shorthand for Deno.signal(Deno.Signal.SIGUSR1). */ userDefined1(): SignalStream { return signal(Signal.SIGUSR1); }, /** Returns the stream of SIGUSR2 signals. * This method is the shorthand for Deno.signal(Deno.Signal.SIGUSR2). */ userDefined2(): SignalStream { return signal(Signal.SIGUSR2); }, /** Returns the stream of SIGWINCH signals. * This method is the shorthand for Deno.signal(Deno.Signal.SIGWINCH). */ windowChange(): SignalStream { return signal(Signal.SIGWINCH); } }; /** SignalStream represents the stream of signals, implements both * AsyncIterator and PromiseLike */ export class SignalStream implements AsyncIterableIterator, PromiseLike { private rid: number; /** The promise of polling the signal, * resolves with false when it receives signal, * Resolves with true when the signal stream is disposed. */ private pollingPromise: Promise = Promise.resolve(false); /** The flag, which is true when the stream is disposed. */ private disposed = false; constructor(signo: number) { this.rid = sendSync("op_signal_bind", { signo }).rid; this.loop(); } private async pollSignal(): Promise { return ( await sendAsync("op_signal_poll", { rid: this.rid }) ).done; } private async loop(): Promise { do { this.pollingPromise = this.pollSignal(); } while (!(await this.pollingPromise) && !this.disposed); } then( f: (v: void) => T | Promise, g?: (v: Error) => S | Promise ): Promise { return this.pollingPromise.then((_): void => {}).then(f, g); } async next(): Promise> { return { done: await this.pollingPromise, value: undefined }; } [Symbol.asyncIterator](): AsyncIterableIterator { return this; } dispose(): void { if (this.disposed) { throw new Error("The stream has already been disposed."); } this.disposed = true; sendSync("op_signal_unbind", { rid: this.rid }); } }