mirror of
https://github.com/denoland/deno
synced 2024-11-05 18:45:24 +00:00
167 lines
4.7 KiB
TypeScript
167 lines
4.7 KiB
TypeScript
// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
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import * as dispatch from "./dispatch";
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import * as flatbuffers from "./flatbuffers";
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import * as msg from "gen/msg_generated";
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import { File, close } from "./files";
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import { ReadCloser, WriteCloser } from "./io";
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import { readAll } from "./buffer";
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import { assert, unreachable } from "./util";
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/** How to handle subsubprocess stdio.
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*
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* "inherit" The default if unspecified. The child inherits from the
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* corresponding parent descriptor.
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*
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* "piped" A new pipe should be arranged to connect the parent and child
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* subprocesses.
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*
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* "null" This stream will be ignored. This is the equivalent of attaching the
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* stream to /dev/null.
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*/
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export type ProcessStdio = "inherit" | "piped" | "null";
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// TODO Maybe extend VSCode's 'CommandOptions'?
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// tslint:disable-next-line:max-line-length
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// See https://code.visualstudio.com/docs/editor/tasks-appendix#_schema-for-tasksjson
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export interface RunOptions {
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args: string[];
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cwd?: string;
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env?: { [key: string]: string };
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stdout?: ProcessStdio;
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stderr?: ProcessStdio;
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stdin?: ProcessStdio;
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}
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export class Process {
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readonly rid: number;
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readonly pid: number;
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readonly stdin?: WriteCloser;
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readonly stdout?: ReadCloser;
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readonly stderr?: ReadCloser;
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// @internal
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constructor(res: msg.RunRes) {
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this.rid = res.rid();
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this.pid = res.pid();
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if (res.stdinRid() > 0) {
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this.stdin = new File(res.stdinRid());
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}
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if (res.stdoutRid() > 0) {
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this.stdout = new File(res.stdoutRid());
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}
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if (res.stderrRid() > 0) {
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this.stderr = new File(res.stderrRid());
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}
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}
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async status(): Promise<ProcessStatus> {
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return await runStatus(this.rid);
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}
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/** Buffer the stdout and return it as Uint8Array after EOF.
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* You must have set stdout to "piped" in when creating the process.
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* This calls close() on stdout after its done.
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*/
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async output(): Promise<Uint8Array> {
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if (!this.stdout) {
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throw new Error("Process.output: stdout is undefined");
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}
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try {
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return await readAll(this.stdout);
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} finally {
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this.stdout.close();
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}
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}
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close(): void {
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close(this.rid);
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}
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}
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export interface ProcessStatus {
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success: boolean;
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code?: number;
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signal?: number; // TODO: Make this a string, e.g. 'SIGTERM'.
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}
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function stdioMap(s: ProcessStdio): msg.ProcessStdio {
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switch (s) {
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case "inherit":
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return msg.ProcessStdio.Inherit;
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case "piped":
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return msg.ProcessStdio.Piped;
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case "null":
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return msg.ProcessStdio.Null;
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default:
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return unreachable();
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}
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}
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export function run(opt: RunOptions): Process {
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const builder = flatbuffers.createBuilder();
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const argsOffset = msg.Run.createArgsVector(
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builder,
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opt.args.map(a => builder.createString(a))
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);
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const cwdOffset = opt.cwd == null ? -1 : builder.createString(opt.cwd);
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const kvOffset: flatbuffers.Offset[] = [];
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if (opt.env) {
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for (const [key, val] of Object.entries(opt.env)) {
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const keyOffset = builder.createString(key);
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const valOffset = builder.createString(String(val));
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msg.KeyValue.startKeyValue(builder);
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msg.KeyValue.addKey(builder, keyOffset);
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msg.KeyValue.addValue(builder, valOffset);
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kvOffset.push(msg.KeyValue.endKeyValue(builder));
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}
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}
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const envOffset = msg.Run.createEnvVector(builder, kvOffset);
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msg.Run.startRun(builder);
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msg.Run.addArgs(builder, argsOffset);
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if (opt.cwd != null) {
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msg.Run.addCwd(builder, cwdOffset);
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}
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msg.Run.addEnv(builder, envOffset);
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if (opt.stdin) {
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msg.Run.addStdin(builder, stdioMap(opt.stdin!));
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}
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if (opt.stdout) {
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msg.Run.addStdout(builder, stdioMap(opt.stdout!));
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}
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if (opt.stderr) {
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msg.Run.addStderr(builder, stdioMap(opt.stderr!));
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}
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const inner = msg.Run.endRun(builder);
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const baseRes = dispatch.sendSync(builder, msg.Any.Run, inner);
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assert(baseRes != null);
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assert(msg.Any.RunRes === baseRes!.innerType());
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const res = new msg.RunRes();
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assert(baseRes!.inner(res) != null);
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return new Process(res);
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}
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async function runStatus(rid: number): Promise<ProcessStatus> {
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const builder = flatbuffers.createBuilder();
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msg.RunStatus.startRunStatus(builder);
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msg.RunStatus.addRid(builder, rid);
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const inner = msg.RunStatus.endRunStatus(builder);
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const baseRes = await dispatch.sendAsync(builder, msg.Any.RunStatus, inner);
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assert(baseRes != null);
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assert(msg.Any.RunStatusRes === baseRes!.innerType());
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const res = new msg.RunStatusRes();
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assert(baseRes!.inner(res) != null);
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if (res.gotSignal()) {
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const signal = res.exitSignal();
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return { signal, success: false };
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} else {
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const code = res.exitCode();
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return { code, success: code === 0 };
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}
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}
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