1
0
Fork 0
mirror of https://github.com/denoland/deno.git synced 2024-12-14 19:37:59 -05:00
denoland-deno/ext/node/polyfills/_fs/_fs_watch.ts

377 lines
9.1 KiB
TypeScript
Raw Normal View History

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
// TODO(petamoriken): enable prefer-primordials for node polyfills
// deno-lint-ignore-file prefer-primordials
import { basename } from "node:path";
import { EventEmitter } from "node:events";
import { notImplemented } from "ext:deno_node/_utils.ts";
import { promisify } from "node:util";
import { getValidatedPath } from "ext:deno_node/internal/fs/utils.mjs";
import { validateFunction } from "ext:deno_node/internal/validators.mjs";
import { stat, Stats } from "ext:deno_node/_fs/_fs_stat.ts";
import { Buffer } from "node:buffer";
import { delay } from "ext:deno_node/_util/async.ts";
const statPromisified = promisify(stat);
const statAsync = async (filename: string): Promise<Stats | null> => {
try {
return await statPromisified(filename);
} catch {
return emptyStats;
}
};
const emptyStats = new Stats(
0,
0,
0,
0,
0,
0,
0,
0,
0,
0,
Date.UTC(1970, 0, 1, 0, 0, 0),
Date.UTC(1970, 0, 1, 0, 0, 0),
Date.UTC(1970, 0, 1, 0, 0, 0),
Date.UTC(1970, 0, 1, 0, 0, 0),
) as unknown as Stats;
export function asyncIterableIteratorToCallback<T>(
iterator: AsyncIterableIterator<T>,
callback: (val: T, done?: boolean) => void,
) {
function next() {
iterator.next().then((obj) => {
if (obj.done) {
callback(obj.value, true);
return;
}
callback(obj.value);
next();
});
}
next();
}
export function asyncIterableToCallback<T>(
iter: AsyncIterable<T>,
callback: (val: T, done?: boolean) => void,
errCallback: (e: unknown) => void,
) {
const iterator = iter[Symbol.asyncIterator]();
function next() {
iterator.next().then((obj) => {
if (obj.done) {
callback(obj.value, true);
return;
}
callback(obj.value);
next();
}, errCallback);
}
next();
}
type watchOptions = {
persistent?: boolean;
recursive?: boolean;
encoding?: string;
};
type watchListener = (eventType: string, filename: string) => void;
export function watch(
filename: string | URL,
options: watchOptions,
listener: watchListener,
): FSWatcher;
export function watch(
filename: string | URL,
listener: watchListener,
): FSWatcher;
export function watch(
filename: string | URL,
options: watchOptions,
): FSWatcher;
export function watch(filename: string | URL): FSWatcher;
export function watch(
filename: string | URL,
optionsOrListener?: watchOptions | watchListener,
optionsOrListener2?: watchOptions | watchListener,
) {
const listener = typeof optionsOrListener === "function"
? optionsOrListener
: typeof optionsOrListener2 === "function"
? optionsOrListener2
: undefined;
const options = typeof optionsOrListener === "object"
? optionsOrListener
: typeof optionsOrListener2 === "object"
? optionsOrListener2
: undefined;
const watchPath = getValidatedPath(filename).toString();
let iterator: Deno.FsWatcher;
// Start the actual watcher a few msec later to avoid race condition
// error in test case in compat test case
// (parallel/test-fs-watch.js, parallel/test-fs-watchfile.js)
const timer = setTimeout(() => {
iterator = Deno.watchFs(watchPath, {
recursive: options?.recursive || false,
});
asyncIterableToCallback<Deno.FsEvent>(iterator, (val, done) => {
if (done) return;
fsWatcher.emit(
"change",
convertDenoFsEventToNodeFsEvent(val.kind),
basename(val.paths[0]),
);
}, (e) => {
fsWatcher.emit("error", e);
});
}, 5);
const fsWatcher = new FSWatcher(() => {
clearTimeout(timer);
try {
iterator?.close();
} catch (e) {
if (e instanceof Deno.errors.BadResource) {
// already closed
return;
}
throw e;
}
}, () => iterator);
if (listener) {
fsWatcher.on("change", listener.bind({ _handle: fsWatcher }));
}
return fsWatcher;
}
export function watchPromise(
filename: string | Buffer | URL,
options?: {
persistent?: boolean;
recursive?: boolean;
encoding?: string;
signal?: AbortSignal;
},
): AsyncIterable<{ eventType: string; filename: string | Buffer | null }> {
const watchPath = getValidatedPath(filename).toString();
const watcher = Deno.watchFs(watchPath, {
recursive: options?.recursive ?? false,
});
if (options?.signal) {
options?.signal.addEventListener("abort", () => watcher.close());
}
const fsIterable = watcher[Symbol.asyncIterator]();
const iterable = {
async next() {
const result = await fsIterable.next();
if (result.done) return result;
const eventType = convertDenoFsEventToNodeFsEvent(result.value.kind);
return {
value: { eventType, filename: basename(result.value.paths[0]) },
done: result.done,
};
},
};
return {
[Symbol.asyncIterator]: () => iterable,
};
}
type WatchFileListener = (curr: Stats, prev: Stats) => void;
type WatchFileOptions = {
bigint?: boolean;
persistent?: boolean;
interval?: number;
};
export function watchFile(
filename: string | Buffer | URL,
listener: WatchFileListener,
): StatWatcher;
export function watchFile(
filename: string | Buffer | URL,
options: WatchFileOptions,
listener: WatchFileListener,
): StatWatcher;
export function watchFile(
filename: string | Buffer | URL,
listenerOrOptions: WatchFileListener | WatchFileOptions,
listener?: WatchFileListener,
): StatWatcher {
const watchPath = getValidatedPath(filename).toString();
const handler = typeof listenerOrOptions === "function"
? listenerOrOptions
: listener!;
validateFunction(handler, "listener");
const {
bigint = false,
persistent = true,
interval = 5007,
} = typeof listenerOrOptions === "object" ? listenerOrOptions : {};
let stat = statWatchers.get(watchPath);
if (stat === undefined) {
stat = new StatWatcher(bigint);
stat[kFSStatWatcherStart](watchPath, persistent, interval);
statWatchers.set(watchPath, stat);
}
stat.addListener("change", handler);
return stat;
}
export function unwatchFile(
filename: string | Buffer | URL,
listener?: WatchFileListener,
) {
const watchPath = getValidatedPath(filename).toString();
const stat = statWatchers.get(watchPath);
if (!stat) {
return;
}
if (typeof listener === "function") {
const beforeListenerCount = stat.listenerCount("change");
stat.removeListener("change", listener);
if (stat.listenerCount("change") < beforeListenerCount) {
stat[kFSStatWatcherAddOrCleanRef]("clean");
}
} else {
stat.removeAllListeners("change");
stat[kFSStatWatcherAddOrCleanRef]("cleanAll");
}
if (stat.listenerCount("change") === 0) {
stat.stop();
statWatchers.delete(watchPath);
}
}
const statWatchers = new Map<string, StatWatcher>();
const kFSStatWatcherStart = Symbol("kFSStatWatcherStart");
const kFSStatWatcherAddOrCleanRef = Symbol("kFSStatWatcherAddOrCleanRef");
class StatWatcher extends EventEmitter {
#bigint: boolean;
#refCount = 0;
#abortController = new AbortController();
constructor(bigint: boolean) {
super();
this.#bigint = bigint;
}
[kFSStatWatcherStart](
filename: string,
persistent: boolean,
interval: number,
) {
if (persistent) {
this.#refCount++;
}
(async () => {
let prev = await statAsync(filename);
if (prev === emptyStats) {
this.emit("change", prev, prev);
}
try {
while (true) {
await delay(interval, { signal: this.#abortController.signal });
const curr = await statAsync(filename);
if (curr?.mtime !== prev?.mtime) {
this.emit("change", curr, prev);
prev = curr;
}
}
} catch (e) {
if (e instanceof DOMException && e.name === "AbortError") {
return;
}
this.emit("error", e);
}
})();
}
[kFSStatWatcherAddOrCleanRef](addOrClean: "add" | "clean" | "cleanAll") {
if (addOrClean === "add") {
this.#refCount++;
} else if (addOrClean === "clean") {
this.#refCount--;
} else {
this.#refCount = 0;
}
}
stop() {
if (this.#abortController.signal.aborted) {
return;
}
this.#abortController.abort();
this.emit("stop");
}
ref() {
notImplemented("StatWatcher.ref() is not implemented");
}
unref() {
notImplemented("StatWatcher.unref() is not implemented");
}
}
class FSWatcher extends EventEmitter {
#closer: () => void;
#closed = false;
#watcher: () => Deno.FsWatcher;
constructor(closer: () => void, getter: () => Deno.FsWatcher) {
super();
this.#closer = closer;
this.#watcher = getter;
}
close() {
if (this.#closed) {
return;
}
this.#closed = true;
this.emit("close");
this.#closer();
}
ref() {
this.#watcher().ref();
}
unref() {
this.#watcher().unref();
}
}
type NodeFsEventType = "rename" | "change";
function convertDenoFsEventToNodeFsEvent(
kind: Deno.FsEvent["kind"],
): NodeFsEventType {
if (kind === "create" || kind === "remove") {
return "rename";
} else if (kind === "rename") {
return "rename";
} else {
return "change";
}
}