// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. "use strict"; // Removes the `__proto__` for security reasons. // https://tc39.es/ecma262/#sec-get-object.prototype.__proto__ delete Object.prototype.__proto__; // Remove Intl.v8BreakIterator because it is a non-standard API. delete Intl.v8BreakIterator; ((window) => { const core = Deno.core; const ops = core.ops; const { ArrayPrototypeIndexOf, ArrayPrototypePush, ArrayPrototypeShift, ArrayPrototypeSplice, ArrayPrototypeMap, DateNow, Error, ErrorPrototype, FunctionPrototypeCall, FunctionPrototypeBind, ObjectAssign, ObjectDefineProperty, ObjectDefineProperties, ObjectFreeze, ObjectPrototypeIsPrototypeOf, ObjectSetPrototypeOf, PromiseResolve, Symbol, SymbolFor, SymbolIterator, PromisePrototypeThen, SafeWeakMap, TypeError, WeakMapPrototypeDelete, WeakMapPrototypeGet, WeakMapPrototypeSet, } = window.__bootstrap.primordials; const util = window.__bootstrap.util; const event = window.__bootstrap.event; const eventTarget = window.__bootstrap.eventTarget; const location = window.__bootstrap.location; const build = window.__bootstrap.build; const version = window.__bootstrap.version; const os = window.__bootstrap.os; const timers = window.__bootstrap.timers; const colors = window.__bootstrap.colors; const inspectArgs = window.__bootstrap.console.inspectArgs; const quoteString = window.__bootstrap.console.quoteString; const internals = window.__bootstrap.internals; const performance = window.__bootstrap.performance; const net = window.__bootstrap.net; const url = window.__bootstrap.url; const fetch = window.__bootstrap.fetch; const messagePort = window.__bootstrap.messagePort; const denoNs = window.__bootstrap.denoNs; const denoNsUnstable = window.__bootstrap.denoNsUnstable; const errors = window.__bootstrap.errors.errors; const webidl = window.__bootstrap.webidl; const domException = window.__bootstrap.domException; const { defineEventHandler, reportException } = window.__bootstrap.event; const { deserializeJsMessageData, serializeJsMessageData } = window.__bootstrap.messagePort; const { windowOrWorkerGlobalScope, unstableWindowOrWorkerGlobalScope, workerRuntimeGlobalProperties, mainRuntimeGlobalProperties, setNumCpus, setUserAgent, setLanguage, } = window.__bootstrap.globalScope; let windowIsClosing = false; function windowClose() { if (!windowIsClosing) { windowIsClosing = true; // Push a macrotask to exit after a promise resolve. // This is not perfect, but should be fine for first pass. PromisePrototypeThen( PromiseResolve(), () => FunctionPrototypeCall(timers.setTimeout, null, () => { // This should be fine, since only Window/MainWorker has .close() os.exit(0); }, 0), ); } } function workerClose() { if (isClosing) { return; } isClosing = true; ops.op_worker_close(); } function postMessage(message, transferOrOptions = {}) { const prefix = "Failed to execute 'postMessage' on 'DedicatedWorkerGlobalScope'"; webidl.requiredArguments(arguments.length, 1, { prefix }); message = webidl.converters.any(message); let options; if ( webidl.type(transferOrOptions) === "Object" && transferOrOptions !== undefined && transferOrOptions[SymbolIterator] !== undefined ) { const transfer = webidl.converters["sequence"]( transferOrOptions, { prefix, context: "Argument 2" }, ); options = { transfer }; } else { options = webidl.converters.StructuredSerializeOptions( transferOrOptions, { prefix, context: "Argument 2", }, ); } const { transfer } = options; const data = serializeJsMessageData(message, transfer); ops.op_worker_post_message(data); } let isClosing = false; let globalDispatchEvent; async function pollForMessages() { if (!globalDispatchEvent) { globalDispatchEvent = FunctionPrototypeBind( globalThis.dispatchEvent, globalThis, ); } while (!isClosing) { const data = await core.opAsync("op_worker_recv_message"); if (data === null) break; const v = deserializeJsMessageData(data); const message = v[0]; const transferables = v[1]; const msgEvent = new event.MessageEvent("message", { cancelable: false, data: message, ports: transferables.filter((t) => ObjectPrototypeIsPrototypeOf(messagePort.MessagePortPrototype, t) ), }); try { globalDispatchEvent(msgEvent); } catch (e) { const errorEvent = new event.ErrorEvent("error", { cancelable: true, message: e.message, lineno: e.lineNumber ? e.lineNumber + 1 : undefined, colno: e.columnNumber ? e.columnNumber + 1 : undefined, filename: e.fileName, error: e, }); globalDispatchEvent(errorEvent); if (!errorEvent.defaultPrevented) { throw e; } } } } let loadedMainWorkerScript = false; function importScripts(...urls) { if (ops.op_worker_get_type() === "module") { throw new TypeError("Can't import scripts in a module worker."); } const baseUrl = location.getLocationHref(); const parsedUrls = ArrayPrototypeMap(urls, (scriptUrl) => { try { return new url.URL(scriptUrl, baseUrl ?? undefined).href; } catch { throw new domException.DOMException( "Failed to parse URL.", "SyntaxError", ); } }); // A classic worker's main script has looser MIME type checks than any // imported scripts, so we use `loadedMainWorkerScript` to distinguish them. // TODO(andreubotella) Refactor worker creation so the main script isn't // loaded with `importScripts()`. const scripts = ops.op_worker_sync_fetch( parsedUrls, !loadedMainWorkerScript, ); loadedMainWorkerScript = true; for (let i = 0; i < scripts.length; ++i) { const { url, script } = scripts[i]; const err = core.evalContext(script, url)[1]; if (err !== null) { throw err.thrown; } } } function opMainModule() { return ops.op_main_module(); } function formatException(error) { if (ObjectPrototypeIsPrototypeOf(ErrorPrototype, error)) { return null; } else if (typeof error == "string") { return `Uncaught ${ inspectArgs([quoteString(error)], { colors: !colors.getNoColor(), }) }`; } else { return `Uncaught ${ inspectArgs([error], { colors: !colors.getNoColor() }) }`; } } function runtimeStart(runtimeOptions, source) { core.setMacrotaskCallback(timers.handleTimerMacrotask); core.setMacrotaskCallback(promiseRejectMacrotaskCallback); core.setWasmStreamingCallback(fetch.handleWasmStreaming); core.setReportExceptionCallback(reportException); ops.op_set_format_exception_callback(formatException); version.setVersions( runtimeOptions.denoVersion, runtimeOptions.v8Version, runtimeOptions.tsVersion, ); build.setBuildInfo(runtimeOptions.target); util.setLogDebug(runtimeOptions.debugFlag, source); colors.setNoColor(runtimeOptions.noColor || !runtimeOptions.isTty); // deno-lint-ignore prefer-primordials Error.prepareStackTrace = core.prepareStackTrace; registerErrors(); } function registerErrors() { core.registerErrorClass("NotFound", errors.NotFound); core.registerErrorClass("PermissionDenied", errors.PermissionDenied); core.registerErrorClass("ConnectionRefused", errors.ConnectionRefused); core.registerErrorClass("ConnectionReset", errors.ConnectionReset); core.registerErrorClass("ConnectionAborted", errors.ConnectionAborted); core.registerErrorClass("NotConnected", errors.NotConnected); core.registerErrorClass("AddrInUse", errors.AddrInUse); core.registerErrorClass("AddrNotAvailable", errors.AddrNotAvailable); core.registerErrorClass("BrokenPipe", errors.BrokenPipe); core.registerErrorClass("AlreadyExists", errors.AlreadyExists); core.registerErrorClass("InvalidData", errors.InvalidData); core.registerErrorClass("TimedOut", errors.TimedOut); core.registerErrorClass("Interrupted", errors.Interrupted); core.registerErrorClass("WriteZero", errors.WriteZero); core.registerErrorClass("UnexpectedEof", errors.UnexpectedEof); core.registerErrorClass("BadResource", errors.BadResource); core.registerErrorClass("Http", errors.Http); core.registerErrorClass("Busy", errors.Busy); core.registerErrorClass("NotSupported", errors.NotSupported); core.registerErrorBuilder( "DOMExceptionOperationError", function DOMExceptionOperationError(msg) { return new domException.DOMException(msg, "OperationError"); }, ); core.registerErrorBuilder( "DOMExceptionQuotaExceededError", function DOMExceptionQuotaExceededError(msg) { return new domException.DOMException(msg, "QuotaExceededError"); }, ); core.registerErrorBuilder( "DOMExceptionNotSupportedError", function DOMExceptionNotSupportedError(msg) { return new domException.DOMException(msg, "NotSupported"); }, ); core.registerErrorBuilder( "DOMExceptionNetworkError", function DOMExceptionNetworkError(msg) { return new domException.DOMException(msg, "NetworkError"); }, ); core.registerErrorBuilder( "DOMExceptionAbortError", function DOMExceptionAbortError(msg) { return new domException.DOMException(msg, "AbortError"); }, ); core.registerErrorBuilder( "DOMExceptionInvalidCharacterError", function DOMExceptionInvalidCharacterError(msg) { return new domException.DOMException(msg, "InvalidCharacterError"); }, ); core.registerErrorBuilder( "DOMExceptionDataError", function DOMExceptionDataError(msg) { return new domException.DOMException(msg, "DataError"); }, ); } const pendingRejections = []; const pendingRejectionsReasons = new SafeWeakMap(); function promiseRejectCallback(type, promise, reason) { switch (type) { case 0: { ops.op_store_pending_promise_rejection(promise, reason); ArrayPrototypePush(pendingRejections, promise); WeakMapPrototypeSet(pendingRejectionsReasons, promise, reason); break; } case 1: { ops.op_remove_pending_promise_rejection(promise); const index = ArrayPrototypeIndexOf(pendingRejections, promise); if (index > -1) { ArrayPrototypeSplice(pendingRejections, index, 1); WeakMapPrototypeDelete(pendingRejectionsReasons, promise); } break; } default: return false; } return !!globalThis.onunhandledrejection || eventTarget.listenerCount(globalThis, "unhandledrejection") > 0; } function promiseRejectMacrotaskCallback() { while (pendingRejections.length > 0) { const promise = ArrayPrototypeShift(pendingRejections); const hasPendingException = ops.op_has_pending_promise_rejection( promise, ); const reason = WeakMapPrototypeGet(pendingRejectionsReasons, promise); WeakMapPrototypeDelete(pendingRejectionsReasons, promise); if (!hasPendingException) { continue; } const rejectionEvent = new event.PromiseRejectionEvent( "unhandledrejection", { cancelable: true, promise, reason, }, ); const errorEventCb = (event) => { if (event.error === reason) { ops.op_remove_pending_promise_rejection(promise); } }; // Add a callback for "error" event - it will be dispatched // if error is thrown during dispatch of "unhandledrejection" // event. globalThis.addEventListener("error", errorEventCb); globalThis.dispatchEvent(rejectionEvent); globalThis.removeEventListener("error", errorEventCb); // If event was not prevented (or "unhandledrejection" listeners didn't // throw) we will let Rust side handle it. if (rejectionEvent.defaultPrevented) { ops.op_remove_pending_promise_rejection(promise); } } return true; } let hasBootstrapped = false; function bootstrapMainRuntime(runtimeOptions) { if (hasBootstrapped) { throw new Error("Worker runtime already bootstrapped"); } core.initializeAsyncOps(); performance.setTimeOrigin(DateNow()); net.setup(runtimeOptions.unstableFlag); const consoleFromV8 = window.Deno.core.console; const wrapConsole = window.__bootstrap.console.wrapConsole; // Remove bootstrapping data from the global scope const __bootstrap = globalThis.__bootstrap; delete globalThis.__bootstrap; delete globalThis.bootstrap; util.log("bootstrapMainRuntime"); hasBootstrapped = true; // If the `--location` flag isn't set, make `globalThis.location` `undefined` and // writable, so that they can mock it themselves if they like. If the flag was // set, define `globalThis.location`, using the provided value. if (runtimeOptions.location == null) { mainRuntimeGlobalProperties.location = { writable: true, }; } else { location.setLocationHref(runtimeOptions.location); } ObjectDefineProperties(globalThis, windowOrWorkerGlobalScope); if (runtimeOptions.unstableFlag) { ObjectDefineProperties(globalThis, unstableWindowOrWorkerGlobalScope); } ObjectDefineProperties(globalThis, mainRuntimeGlobalProperties); ObjectDefineProperties(globalThis, { close: util.writable(windowClose), closed: util.getterOnly(() => windowIsClosing), }); ObjectSetPrototypeOf(globalThis, Window.prototype); if (runtimeOptions.inspectFlag) { const consoleFromDeno = globalThis.console; wrapConsole(consoleFromDeno, consoleFromV8); } eventTarget.setEventTargetData(globalThis); defineEventHandler(window, "error"); defineEventHandler(window, "load"); defineEventHandler(window, "beforeunload"); defineEventHandler(window, "unload"); defineEventHandler(window, "unhandledrejection"); core.setPromiseRejectCallback(promiseRejectCallback); const isUnloadDispatched = SymbolFor("isUnloadDispatched"); // Stores the flag for checking whether unload is dispatched or not. // This prevents the recursive dispatches of unload events. // See https://github.com/denoland/deno/issues/9201. window[isUnloadDispatched] = false; window.addEventListener("unload", () => { window[isUnloadDispatched] = true; }); runtimeStart(runtimeOptions); setNumCpus(runtimeOptions.cpuCount); setUserAgent(runtimeOptions.userAgent); setLanguage(runtimeOptions.locale); const internalSymbol = Symbol("Deno.internal"); // These have to initialized here and not in `90_deno_ns.js` because // the op function that needs to be passed will be invalidated by creating // a snapshot ObjectAssign(internals, { nodeUnstable: { Command: __bootstrap.spawn.createCommand( __bootstrap.spawn.createSpawn(ops.op_node_unstable_spawn_child), __bootstrap.spawn.createSpawnSync( ops.op_node_unstable_spawn_sync, ), __bootstrap.spawn.createSpawnChild( ops.op_node_unstable_spawn_child, ), ), serve: __bootstrap.flash.createServe(ops.op_node_unstable_flash_serve), upgradeHttpRaw: __bootstrap.flash.upgradeHttpRaw, listenDatagram: __bootstrap.net.createListenDatagram( ops.op_node_unstable_net_listen_udp, ops.op_node_unstable_net_listen_unixpacket, ), osUptime: __bootstrap.os.createOsUptime(ops.op_node_unstable_os_uptime), }, }); const finalDenoNs = { core, internal: internalSymbol, [internalSymbol]: internals, resources: core.resources, close: core.close, ...denoNs, }; ObjectDefineProperties(finalDenoNs, { pid: util.readOnly(runtimeOptions.pid), ppid: util.readOnly(runtimeOptions.ppid), noColor: util.readOnly(runtimeOptions.noColor), args: util.readOnly(ObjectFreeze(runtimeOptions.args)), mainModule: util.getterOnly(opMainModule), }); if (runtimeOptions.unstableFlag) { ObjectAssign(finalDenoNs, denoNsUnstable); // These have to initialized here and not in `90_deno_ns.js` because // the op function that needs to be passed will be invalidated by creating // a snapshot ObjectAssign(finalDenoNs, { Command: __bootstrap.spawn.createCommand( __bootstrap.spawn.createSpawn(ops.op_spawn_child), __bootstrap.spawn.createSpawnSync(ops.op_spawn_sync), __bootstrap.spawn.createSpawnChild(ops.op_spawn_child), ), serve: __bootstrap.flash.createServe(ops.op_flash_serve), listenDatagram: __bootstrap.net.createListenDatagram( ops.op_net_listen_udp, ops.op_net_listen_unixpacket, ), osUptime: __bootstrap.os.createOsUptime(ops.op_os_uptime), }); } // Setup `Deno` global - we're actually overriding already existing global // `Deno` with `Deno` namespace from "./deno.ts". ObjectDefineProperty(globalThis, "Deno", util.readOnly(finalDenoNs)); ObjectFreeze(globalThis.Deno.core); util.log("args", runtimeOptions.args); } function bootstrapWorkerRuntime( runtimeOptions, name, internalName, ) { if (hasBootstrapped) { throw new Error("Worker runtime already bootstrapped"); } core.initializeAsyncOps(); performance.setTimeOrigin(DateNow()); net.setup(runtimeOptions.unstableFlag); const consoleFromV8 = window.Deno.core.console; const wrapConsole = window.__bootstrap.console.wrapConsole; // Remove bootstrapping data from the global scope const __bootstrap = globalThis.__bootstrap; delete globalThis.__bootstrap; delete globalThis.bootstrap; util.log("bootstrapWorkerRuntime"); hasBootstrapped = true; ObjectDefineProperties(globalThis, windowOrWorkerGlobalScope); if (runtimeOptions.unstableFlag) { ObjectDefineProperties(globalThis, unstableWindowOrWorkerGlobalScope); } ObjectDefineProperties(globalThis, workerRuntimeGlobalProperties); ObjectDefineProperties(globalThis, { name: util.writable(name), // TODO(bartlomieju): should be readonly? close: util.nonEnumerable(workerClose), postMessage: util.writable(postMessage), }); if (runtimeOptions.enableTestingFeaturesFlag) { ObjectDefineProperty( globalThis, "importScripts", util.writable(importScripts), ); } ObjectSetPrototypeOf(globalThis, DedicatedWorkerGlobalScope.prototype); const consoleFromDeno = globalThis.console; wrapConsole(consoleFromDeno, consoleFromV8); eventTarget.setEventTargetData(globalThis); defineEventHandler(self, "message"); defineEventHandler(self, "error", undefined, true); defineEventHandler(self, "unhandledrejection"); core.setPromiseRejectCallback(promiseRejectCallback); // `Deno.exit()` is an alias to `self.close()`. Setting and exit // code using an op in worker context is a no-op. os.setExitHandler((_exitCode) => { workerClose(); }); runtimeStart( runtimeOptions, internalName ?? name, ); location.setLocationHref(runtimeOptions.location); setNumCpus(runtimeOptions.cpuCount); setLanguage(runtimeOptions.locale); globalThis.pollForMessages = pollForMessages; const internalSymbol = Symbol("Deno.internal"); // These have to initialized here and not in `90_deno_ns.js` because // the op function that needs to be passed will be invalidated by creating // a snapshot ObjectAssign(internals, { nodeUnstable: { Command: __bootstrap.spawn.createCommand( __bootstrap.spawn.createSpawn(ops.op_node_unstable_spawn_child), __bootstrap.spawn.createSpawnSync( ops.op_node_unstable_spawn_sync, ), __bootstrap.spawn.createSpawnChild( ops.op_node_unstable_spawn_child, ), ), serve: __bootstrap.flash.createServe(ops.op_node_unstable_flash_serve), upgradeHttpRaw: __bootstrap.flash.upgradeHttpRaw, listenDatagram: __bootstrap.net.createListenDatagram( ops.op_node_unstable_net_listen_udp, ops.op_node_unstable_net_listen_unixpacket, ), osUptime: __bootstrap.os.createOsUptime(ops.op_node_unstable_os_uptime), }, }); const finalDenoNs = { core, internal: internalSymbol, [internalSymbol]: internals, resources: core.resources, close: core.close, ...denoNs, }; if (runtimeOptions.unstableFlag) { ObjectAssign(finalDenoNs, denoNsUnstable); // These have to initialized here and not in `90_deno_ns.js` because // the op function that needs to be passed will be invalidated by creating // a snapshot ObjectAssign(finalDenoNs, { Command: __bootstrap.spawn.createCommand( __bootstrap.spawn.createSpawn(ops.op_spawn_child), __bootstrap.spawn.createSpawnSync(ops.op_spawn_sync), __bootstrap.spawn.createSpawnChild(ops.op_spawn_child), ), serve: __bootstrap.flash.createServe(ops.op_flash_serve), listenDatagram: __bootstrap.net.createListenDatagram( ops.op_net_listen_udp, ops.op_net_listen_unixpacket, ), osUptime: __bootstrap.os.createOsUptime(ops.op_os_uptime), }); } ObjectDefineProperties(finalDenoNs, { pid: util.readOnly(runtimeOptions.pid), noColor: util.readOnly(runtimeOptions.noColor), args: util.readOnly(ObjectFreeze(runtimeOptions.args)), }); // Setup `Deno` global - we're actually overriding already // existing global `Deno` with `Deno` namespace from "./deno.ts". ObjectDefineProperty(globalThis, "Deno", util.readOnly(finalDenoNs)); ObjectFreeze(globalThis.Deno.core); } ObjectDefineProperties(globalThis, { bootstrap: { value: { mainRuntime: bootstrapMainRuntime, workerRuntime: bootstrapWorkerRuntime, }, configurable: true, }, }); })(this);