// Copyright 2018-2022 the Deno authors. All rights reserved. MIT license. "use strict"; ((window) => { const { Error, RangeError, ReferenceError, SyntaxError, TypeError, URIError, Map, Array, ArrayPrototypeFill, ArrayPrototypeMap, ErrorCaptureStackTrace, Promise, ObjectFromEntries, MapPrototypeGet, MapPrototypeDelete, MapPrototypeSet, PromisePrototypeThen, PromisePrototypeFinally, StringPrototypeSlice, ObjectAssign, SymbolFor, setQueueMicrotask, } = window.__bootstrap.primordials; const ops = window.Deno.core.ops; const errorMap = {}; // Builtin v8 / JS errors registerErrorClass("Error", Error); registerErrorClass("RangeError", RangeError); registerErrorClass("ReferenceError", ReferenceError); registerErrorClass("SyntaxError", SyntaxError); registerErrorClass("TypeError", TypeError); registerErrorClass("URIError", URIError); let nextPromiseId = 1; const promiseMap = new Map(); const RING_SIZE = 4 * 1024; const NO_PROMISE = null; // Alias to null is faster than plain nulls const promiseRing = ArrayPrototypeFill(new Array(RING_SIZE), NO_PROMISE); // TODO(bartlomieju): it future use `v8::Private` so it's not visible // to users. Currently missing bindings. const promiseIdSymbol = SymbolFor("Deno.core.internalPromiseId"); let opCallTracingEnabled = false; const opCallTraces = new Map(); function enableOpCallTracing() { opCallTracingEnabled = true; } function isOpCallTracingEnabled() { return opCallTracingEnabled; } function setPromise(promiseId) { const idx = promiseId % RING_SIZE; // Move old promise from ring to map const oldPromise = promiseRing[idx]; if (oldPromise !== NO_PROMISE) { const oldPromiseId = promiseId - RING_SIZE; MapPrototypeSet(promiseMap, oldPromiseId, oldPromise); } // Set new promise return promiseRing[idx] = newPromise(); } function getPromise(promiseId) { // Check if out of ring bounds, fallback to map const outOfBounds = promiseId < nextPromiseId - RING_SIZE; if (outOfBounds) { const promise = MapPrototypeGet(promiseMap, promiseId); MapPrototypeDelete(promiseMap, promiseId); return promise; } // Otherwise take from ring const idx = promiseId % RING_SIZE; const promise = promiseRing[idx]; promiseRing[idx] = NO_PROMISE; return promise; } function newPromise() { let resolve, reject; const promise = new Promise((resolve_, reject_) => { resolve = resolve_; reject = reject_; }); promise.resolve = resolve; promise.reject = reject; return promise; } function hasPromise(promiseId) { // Check if out of ring bounds, fallback to map const outOfBounds = promiseId < nextPromiseId - RING_SIZE; if (outOfBounds) { return MapPrototypeHas(promiseMap, promiseId); } // Otherwise check it in ring const idx = promiseId % RING_SIZE; return promiseRing[idx] != NO_PROMISE; } function opresolve() { for (let i = 0; i < arguments.length; i += 2) { const promiseId = arguments[i]; const res = arguments[i + 1]; const promise = getPromise(promiseId); promise.resolve(res); } } function registerErrorClass(className, errorClass) { registerErrorBuilder(className, (msg) => new errorClass(msg)); } function registerErrorBuilder(className, errorBuilder) { if (typeof errorMap[className] !== "undefined") { throw new TypeError(`Error class for "${className}" already registered`); } errorMap[className] = errorBuilder; } function unwrapOpResult(res) { // .$err_class_name is a special key that should only exist on errors if (res?.$err_class_name) { const className = res.$err_class_name; const errorBuilder = errorMap[className]; const err = errorBuilder ? errorBuilder(res.message) : new Error( `Unregistered error class: "${className}"\n ${res.message}\n Classes of errors returned from ops should be registered via Deno.core.registerErrorClass().`, ); // Set .code if error was a known OS error, see error_codes.rs if (res.code) { err.code = res.code; } // Strip unwrapOpResult() and errorBuilder() calls from stack trace ErrorCaptureStackTrace(err, unwrapOpResult); throw err; } return res; } function opAsync(opName, ...args) { const promiseId = nextPromiseId++; const maybeError = ops[opName](promiseId, ...args); // Handle sync error (e.g: error parsing args) if (maybeError) return unwrapOpResult(maybeError); let p = PromisePrototypeThen(setPromise(promiseId), unwrapOpResult); if (opCallTracingEnabled) { // Capture a stack trace by creating a new `Error` object. We remove the // first 6 characters (the `Error\n` prefix) to get just the stack trace. const stack = StringPrototypeSlice(new Error().stack, 6); MapPrototypeSet(opCallTraces, promiseId, { opName, stack }); p = PromisePrototypeFinally( p, () => MapPrototypeDelete(opCallTraces, promiseId), ); } // Save the id on the promise so it can later be ref'ed or unref'ed p[promiseIdSymbol] = promiseId; return p; } function opSync(opName, ...args) { return unwrapOpResult(ops[opName](...args)); } function refOp(promiseId) { if (!hasPromise(promiseId)) { return; } opSync("op_ref_op", promiseId); } function unrefOp(promiseId) { if (!hasPromise(promiseId)) { return; } opSync("op_unref_op", promiseId); } function resources() { return ObjectFromEntries(opSync("op_resources")); } function metrics() { const [aggregate, perOps] = opSync("op_metrics"); aggregate.ops = ObjectFromEntries(ArrayPrototypeMap( core.opSync("op_op_names"), (opName, opId) => [opName, perOps[opId]], )); return aggregate; } function queueMicrotask(...args) { return opSync("op_queue_microtask", ...args); } // Some "extensions" rely on "BadResource" and "Interrupted" errors in the // JS code (eg. "deno_net") so they are provided in "Deno.core" but later // reexported on "Deno.errors" class BadResource extends Error { constructor(msg) { super(msg); this.name = "BadResource"; } } const BadResourcePrototype = BadResource.prototype; class Interrupted extends Error { constructor(msg) { super(msg); this.name = "Interrupted"; } } const InterruptedPrototype = Interrupted.prototype; // Extra Deno.core.* exports const core = ObjectAssign(globalThis.Deno.core, { opAsync, opSync, resources, metrics, registerErrorBuilder, registerErrorClass, opresolve, BadResource, BadResourcePrototype, Interrupted, InterruptedPrototype, enableOpCallTracing, isOpCallTracingEnabled, opCallTraces, refOp, unrefOp, close: opSync.bind(null, "op_close"), tryClose: opSync.bind(null, "op_try_close"), read: opAsync.bind(null, "op_read"), write: opAsync.bind(null, "op_write"), shutdown: opAsync.bind(null, "op_shutdown"), print: opSync.bind(null, "op_print"), setMacrotaskCallback: opSync.bind(null, "op_set_macrotask_callback"), setNextTickCallback: opSync.bind(null, "op_set_next_tick_callback"), runMicrotasks: opSync.bind(null, "op_run_microtasks"), hasTickScheduled: opSync.bind(null, "op_has_tick_scheduled"), setHasTickScheduled: opSync.bind(null, "op_set_has_tick_scheduled"), evalContext: opSync.bind(null, "op_eval_context"), createHostObject: opSync.bind(null, "op_create_host_object"), encode: opSync.bind(null, "op_encode"), decode: opSync.bind(null, "op_decode"), serialize: opSync.bind(null, "op_serialize"), deserialize: opSync.bind(null, "op_deserialize"), getPromiseDetails: opSync.bind(null, "op_get_promise_details"), getProxyDetails: opSync.bind(null, "op_get_proxy_details"), isProxy: opSync.bind(null, "op_is_proxy"), memoryUsage: opSync.bind(null, "op_memory_usage"), setWasmStreamingCallback: opSync.bind( null, "op_set_wasm_streaming_callback", ), abortWasmStreaming: opSync.bind(null, "op_abort_wasm_streaming"), destructureError: opSync.bind(null, "op_destructure_error"), terminate: opSync.bind(null, "op_terminate"), opNames: opSync.bind(null, "op_op_names"), }); ObjectAssign(globalThis.__bootstrap, { core }); ObjectAssign(globalThis.Deno, { core }); // Direct bindings on `globalThis` ObjectAssign(globalThis, { queueMicrotask }); setQueueMicrotask(queueMicrotask); })(globalThis);