// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. import { assert } from "../util.ts"; import { startGlobalTimer, stopGlobalTimer } from "../ops/timers.ts"; import { RBTree } from "../rbtree.ts"; const { console } = globalThis; interface Timer { id: number; callback: () => void; delay: number; due: number; repeat: boolean; scheduled: boolean; } // Timeout values > TIMEOUT_MAX are set to 1. const TIMEOUT_MAX = 2 ** 31 - 1; let globalTimeoutDue: number | null = null; let nextTimerId = 1; const idMap = new Map(); type DueNode = { due: number; timers: Timer[] }; const dueTree = new RBTree((a, b) => a.due - b.due); function clearGlobalTimeout(): void { globalTimeoutDue = null; stopGlobalTimer(); } let pendingEvents = 0; const pendingFireTimers: Timer[] = []; /** Process and run a single ready timer macrotask. * This function should be registered through Deno.core.setMacrotaskCallback. * Returns true when all ready macrotasks have been processed, false if more * ready ones are available. The Isolate future would rely on the return value * to repeatedly invoke this function until depletion. Multiple invocations * of this function one at a time ensures newly ready microtasks are processed * before next macrotask timer callback is invoked. */ export function handleTimerMacrotask(): boolean { if (pendingFireTimers.length > 0) { fire(pendingFireTimers.shift()!); return pendingFireTimers.length === 0; } return true; } async function setGlobalTimeout(due: number, now: number): Promise { // Since JS and Rust don't use the same clock, pass the time to rust as a // relative time value. On the Rust side we'll turn that into an absolute // value again. const timeout = due - now; assert(timeout >= 0); // Send message to the backend. globalTimeoutDue = due; pendingEvents++; // FIXME(bartlomieju): this is problematic, because `clearGlobalTimeout` // is synchronous. That means that timer is cancelled, but this promise is still pending // until next turn of event loop. This leads to "leaking of async ops" in tests; // because `clearTimeout/clearInterval` might be the last statement in test function // `opSanitizer` will immediately complain that there is pending op going on, unless // some timeout/defer is put in place to allow promise resolution. // Ideally `clearGlobalTimeout` doesn't return until this op is resolved, but // I'm not if that's possible. await startGlobalTimer(timeout); pendingEvents--; // eslint-disable-next-line @typescript-eslint/no-use-before-define prepareReadyTimers(); } function prepareReadyTimers(): void { const now = Date.now(); // Bail out if we're not expecting the global timer to fire. if (globalTimeoutDue === null || pendingEvents > 0) { return; } // After firing the timers that are due now, this will hold the first timer // list that hasn't fired yet. let nextDueNode: DueNode | null; while ((nextDueNode = dueTree.min()) !== null && nextDueNode.due <= now) { dueTree.remove(nextDueNode); // Fire all the timers in the list. for (const timer of nextDueNode.timers) { // With the list dropped, the timer is no longer scheduled. timer.scheduled = false; // Place the callback to pending timers to fire. pendingFireTimers.push(timer); } } setOrClearGlobalTimeout(nextDueNode && nextDueNode.due, now); } function setOrClearGlobalTimeout(due: number | null, now: number): void { if (due == null) { clearGlobalTimeout(); } else { setGlobalTimeout(due, now); } } function schedule(timer: Timer, now: number): void { assert(!timer.scheduled); assert(now <= timer.due); // Find or create the list of timers that will fire at point-in-time `due`. const maybeNewDueNode = { due: timer.due, timers: [] }; let dueNode = dueTree.find(maybeNewDueNode); if (dueNode === null) { dueTree.insert(maybeNewDueNode); dueNode = maybeNewDueNode; } // Append the newly scheduled timer to the list and mark it as scheduled. dueNode!.timers.push(timer); timer.scheduled = true; // If the new timer is scheduled to fire before any timer that existed before, // update the global timeout to reflect this. if (globalTimeoutDue === null || globalTimeoutDue > timer.due) { setOrClearGlobalTimeout(timer.due, now); } } function unschedule(timer: Timer): void { // Check if our timer is pending scheduling or pending firing. // If either is true, they are not in tree, and their idMap entry // will be deleted soon. Remove it from queue. let index = -1; if ((index = pendingFireTimers.indexOf(timer)) >= 0) { pendingFireTimers.splice(index); return; } // If timer is not in the 2 pending queues and is unscheduled, // it is not in the tree. if (!timer.scheduled) { return; } const searchKey = { due: timer.due, timers: [] }; // Find the list of timers that will fire at point-in-time `due`. const list = dueTree.find(searchKey)!.timers; if (list.length === 1) { // Time timer is the only one in the list. Remove the entire list. assert(list[0] === timer); dueTree.remove(searchKey); // If the unscheduled timer was 'next up', find when the next timer that // still exists is due, and update the global alarm accordingly. if (timer.due === globalTimeoutDue) { const nextDueNode: DueNode | null = dueTree.min(); setOrClearGlobalTimeout(nextDueNode && nextDueNode.due, Date.now()); } } else { // Multiple timers that are due at the same point in time. // Remove this timer from the list. const index = list.indexOf(timer); assert(index > -1); list.splice(index, 1); } } function fire(timer: Timer): void { // If the timer isn't found in the ID map, that means it has been cancelled // between the timer firing and the promise callback (this function). if (!idMap.has(timer.id)) { return; } // Reschedule the timer if it is a repeating one, otherwise drop it. if (!timer.repeat) { // One-shot timer: remove the timer from this id-to-timer map. idMap.delete(timer.id); } else { // Interval timer: compute when timer was supposed to fire next. // However make sure to never schedule the next interval in the past. const now = Date.now(); timer.due = Math.max(now, timer.due + timer.delay); schedule(timer, now); } // Call the user callback. Intermediate assignment is to avoid leaking `this` // to it, while also keeping the stack trace neat when it shows up in there. const callback = timer.callback; callback(); } export type Args = unknown[]; function checkThis(thisArg: unknown): void { if (thisArg !== null && thisArg !== undefined && thisArg !== globalThis) { throw new TypeError("Illegal invocation"); } } function checkBigInt(n: unknown): void { if (typeof n === "bigint") { throw new TypeError("Cannot convert a BigInt value to a number"); } } function setTimer( cb: (...args: Args) => void, delay: number, args: Args, repeat: boolean ): number { // Bind `args` to the callback and bind `this` to globalThis(global). const callback: () => void = cb.bind(globalThis, ...args); // In the browser, the delay value must be coercible to an integer between 0 // and INT32_MAX. Any other value will cause the timer to fire immediately. // We emulate this behavior. const now = Date.now(); if (delay > TIMEOUT_MAX) { console.warn( `${delay} does not fit into` + " a 32-bit signed integer." + "\nTimeout duration was set to 1." ); delay = 1; } delay = Math.max(0, delay | 0); // Create a new, unscheduled timer object. const timer = { id: nextTimerId++, callback, args, delay, due: now + delay, repeat, scheduled: false }; // Register the timer's existence in the id-to-timer map. idMap.set(timer.id, timer); // Schedule the timer in the due table. schedule(timer, now); return timer.id; } export function setTimeout( cb: (...args: Args) => void, delay = 0, ...args: Args ): number { checkBigInt(delay); // @ts-ignore checkThis(this); return setTimer(cb, delay, args, false); } export function setInterval( cb: (...args: Args) => void, delay = 0, ...args: Args ): number { checkBigInt(delay); // @ts-ignore checkThis(this); return setTimer(cb, delay, args, true); } function clearTimer(id: number): void { id = Number(id); const timer = idMap.get(id); if (timer === undefined) { // Timer doesn't exist any more or never existed. This is not an error. return; } // Unschedule the timer if it is currently scheduled, and forget about it. unschedule(timer); idMap.delete(timer.id); } export function clearTimeout(id = 0): void { checkBigInt(id); if (id === 0) { return; } clearTimer(id); } export function clearInterval(id = 0): void { checkBigInt(id); if (id === 0) { return; } clearTimer(id); }