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denoland-deno/runtime/js/99_main.js

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// 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,
SafeArrayIterator,
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<object>"](
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 (const { url, script } of new SafeArrayIterator(scripts)) {
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_exception(promise, reason);
ArrayPrototypePush(pendingRejections, promise);
WeakMapPrototypeSet(pendingRejectionsReasons, promise, reason);
break;
}
case 1: {
ops.op_remove_pending_promise_exception(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_exception(
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_exception(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_exception(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.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.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);