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@smapiot/piral-cloud-node

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Piral Cloud: Node-usable API Client for the Piral Feed Service.

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JavaScript

var __create = Object.create; var __defProp = Object.defineProperty; var __getOwnPropDesc = Object.getOwnPropertyDescriptor; var __getOwnPropNames = Object.getOwnPropertyNames; var __getProtoOf = Object.getPrototypeOf; var __hasOwnProp = Object.prototype.hasOwnProperty; var __require = /* @__PURE__ */ ((x2) => typeof require !== "undefined" ? require : typeof Proxy !== "undefined" ? new Proxy(x2, { get: (a, b) => (typeof require !== "undefined" ? require : a)[b] }) : x2)(function(x2) { if (typeof require !== "undefined") return require.apply(this, arguments); throw Error('Dynamic require of "' + x2 + '" is not supported'); }); var __esm = (fn, res) => function __init() { return fn && (res = (0, fn[__getOwnPropNames(fn)[0]])(fn = 0)), res; }; var __commonJS = (cb, mod) => function __require2() { return mod || (0, cb[__getOwnPropNames(cb)[0]])((mod = { exports: {} }).exports, mod), mod.exports; }; var __export = (target, all) => { for (var name in all) __defProp(target, name, { get: all[name], enumerable: true }); }; var __copyProps = (to, from, except, desc) => { if (from && typeof from === "object" || typeof from === "function") { for (let key of __getOwnPropNames(from)) if (!__hasOwnProp.call(to, key) && key !== except) __defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable }); } return to; }; var __toESM = (mod, isNodeMode, target) => (target = mod != null ? __create(__getProtoOf(mod)) : {}, __copyProps( // If the importer is in node compatibility mode or this is not an ESM // file that has been converted to a CommonJS file using a Babel- // compatible transform (i.e. "__esModule" has not been set), then set // "default" to the CommonJS "module.exports" for node compatibility. isNodeMode || !mod || !mod.__esModule ? __defProp(target, "default", { value: mod, enumerable: true }) : target, mod )); // ../../../node_modules/web-streams-polyfill/dist/ponyfill.es2018.js var require_ponyfill_es2018 = __commonJS({ "../../../node_modules/web-streams-polyfill/dist/ponyfill.es2018.js"(exports, module) { (function(global2, factory) { typeof exports === "object" && typeof module !== "undefined" ? factory(exports) : typeof define === "function" && define.amd ? define(["exports"], factory) : (global2 = typeof globalThis !== "undefined" ? globalThis : global2 || self, factory(global2.WebStreamsPolyfill = {})); })(exports, function(exports2) { "use strict"; function noop2() { return void 0; } function typeIsObject(x2) { return typeof x2 === "object" && x2 !== null || typeof x2 === "function"; } const rethrowAssertionErrorRejection = noop2; function setFunctionName(fn, name) { try { Object.defineProperty(fn, "name", { value: name, configurable: true }); } catch (_a2) { } } const originalPromise = Promise; const originalPromiseThen = Promise.prototype.then; const originalPromiseReject = Promise.reject.bind(originalPromise); function newPromise(executor) { return new originalPromise(executor); } function promiseResolvedWith(value) { return newPromise((resolve) => resolve(value)); } function promiseRejectedWith(reason) { return originalPromiseReject(reason); } function PerformPromiseThen(promise, onFulfilled, onRejected) { return originalPromiseThen.call(promise, onFulfilled, onRejected); } function uponPromise(promise, onFulfilled, onRejected) { PerformPromiseThen(PerformPromiseThen(promise, onFulfilled, onRejected), void 0, rethrowAssertionErrorRejection); } function uponFulfillment(promise, onFulfilled) { uponPromise(promise, onFulfilled); } function uponRejection(promise, onRejected) { uponPromise(promise, void 0, onRejected); } function transformPromiseWith(promise, fulfillmentHandler, rejectionHandler) { return PerformPromiseThen(promise, fulfillmentHandler, rejectionHandler); } function setPromiseIsHandledToTrue(promise) { PerformPromiseThen(promise, void 0, rethrowAssertionErrorRejection); } let _queueMicrotask = (callback) => { if (typeof queueMicrotask === "function") { _queueMicrotask = queueMicrotask; } else { const resolvedPromise = promiseResolvedWith(void 0); _queueMicrotask = (cb) => PerformPromiseThen(resolvedPromise, cb); } return _queueMicrotask(callback); }; function reflectCall(F2, V, args) { if (typeof F2 !== "function") { throw new TypeError("Argument is not a function"); } return Function.prototype.apply.call(F2, V, args); } function promiseCall(F2, V, args) { try { return promiseResolvedWith(reflectCall(F2, V, args)); } catch (value) { return promiseRejectedWith(value); } } const QUEUE_MAX_ARRAY_SIZE = 16384; class SimpleQueue { constructor() { this._cursor = 0; this._size = 0; this._front = { _elements: [], _next: void 0 }; this._back = this._front; this._cursor = 0; this._size = 0; } get length() { return this._size; } // For exception safety, this method is structured in order: // 1. Read state // 2. Calculate required state mutations // 3. Perform state mutations push(element) { const oldBack = this._back; let newBack = oldBack; if (oldBack._elements.length === QUEUE_MAX_ARRAY_SIZE - 1) { newBack = { _elements: [], _next: void 0 }; } oldBack._elements.push(element); if (newBack !== oldBack) { this._back = newBack; oldBack._next = newBack; } ++this._size; } // Like push(), shift() follows the read -> calculate -> mutate pattern for // exception safety. shift() { const oldFront = this._front; let newFront = oldFront; const oldCursor = this._cursor; let newCursor = oldCursor + 1; const elements = oldFront._elements; const element = elements[oldCursor]; if (newCursor === QUEUE_MAX_ARRAY_SIZE) { newFront = oldFront._next; newCursor = 0; } --this._size; this._cursor = newCursor; if (oldFront !== newFront) { this._front = newFront; } elements[oldCursor] = void 0; return element; } // The tricky thing about forEach() is that it can be called // re-entrantly. The queue may be mutated inside the callback. It is easy to // see that push() within the callback has no negative effects since the end // of the queue is checked for on every iteration. If shift() is called // repeatedly within the callback then the next iteration may return an // element that has been removed. In this case the callback will be called // with undefined values until we either "catch up" with elements that still // exist or reach the back of the queue. forEach(callback) { let i2 = this._cursor; let node = this._front; let elements = node._elements; while (i2 !== elements.length || node._next !== void 0) { if (i2 === elements.length) { node = node._next; elements = node._elements; i2 = 0; if (elements.length === 0) { break; } } callback(elements[i2]); ++i2; } } // Return the element that would be returned if shift() was called now, // without modifying the queue. peek() { const front = this._front; const cursor = this._cursor; return front._elements[cursor]; } } const AbortSteps = Symbol("[[AbortSteps]]"); const ErrorSteps = Symbol("[[ErrorSteps]]"); const CancelSteps = Symbol("[[CancelSteps]]"); const PullSteps = Symbol("[[PullSteps]]"); const ReleaseSteps = Symbol("[[ReleaseSteps]]"); function ReadableStreamReaderGenericInitialize(reader, stream) { reader._ownerReadableStream = stream; stream._reader = reader; if (stream._state === "readable") { defaultReaderClosedPromiseInitialize(reader); } else if (stream._state === "closed") { defaultReaderClosedPromiseInitializeAsResolved(reader); } else { defaultReaderClosedPromiseInitializeAsRejected(reader, stream._storedError); } } function ReadableStreamReaderGenericCancel(reader, reason) { const stream = reader._ownerReadableStream; return ReadableStreamCancel(stream, reason); } function ReadableStreamReaderGenericRelease(reader) { const stream = reader._ownerReadableStream; if (stream._state === "readable") { defaultReaderClosedPromiseReject(reader, new TypeError(`Reader was released and can no longer be used to monitor the stream's closedness`)); } else { defaultReaderClosedPromiseResetToRejected(reader, new TypeError(`Reader was released and can no longer be used to monitor the stream's closedness`)); } stream._readableStreamController[ReleaseSteps](); stream._reader = void 0; reader._ownerReadableStream = void 0; } function readerLockException(name) { return new TypeError("Cannot " + name + " a stream using a released reader"); } function defaultReaderClosedPromiseInitialize(reader) { reader._closedPromise = newPromise((resolve, reject) => { reader._closedPromise_resolve = resolve; reader._closedPromise_reject = reject; }); } function defaultReaderClosedPromiseInitializeAsRejected(reader, reason) { defaultReaderClosedPromiseInitialize(reader); defaultReaderClosedPromiseReject(reader, reason); } function defaultReaderClosedPromiseInitializeAsResolved(reader) { defaultReaderClosedPromiseInitialize(reader); defaultReaderClosedPromiseResolve(reader); } function defaultReaderClosedPromiseReject(reader, reason) { if (reader._closedPromise_reject === void 0) { return; } setPromiseIsHandledToTrue(reader._closedPromise); reader._closedPromise_reject(reason); reader._closedPromise_resolve = void 0; reader._closedPromise_reject = void 0; } function defaultReaderClosedPromiseResetToRejected(reader, reason) { defaultReaderClosedPromiseInitializeAsRejected(reader, reason); } function defaultReaderClosedPromiseResolve(reader) { if (reader._closedPromise_resolve === void 0) { return; } reader._closedPromise_resolve(void 0); reader._closedPromise_resolve = void 0; reader._closedPromise_reject = void 0; } const NumberIsFinite = Number.isFinite || function(x2) { return typeof x2 === "number" && isFinite(x2); }; const MathTrunc = Math.trunc || function(v) { return v < 0 ? Math.ceil(v) : Math.floor(v); }; function isDictionary(x2) { return typeof x2 === "object" || typeof x2 === "function"; } function assertDictionary(obj, context) { if (obj !== void 0 && !isDictionary(obj)) { throw new TypeError(`${context} is not an object.`); } } function assertFunction(x2, context) { if (typeof x2 !== "function") { throw new TypeError(`${context} is not a function.`); } } function isObject(x2) { return typeof x2 === "object" && x2 !== null || typeof x2 === "function"; } function assertObject(x2, context) { if (!isObject(x2)) { throw new TypeError(`${context} is not an object.`); } } function assertRequiredArgument(x2, position, context) { if (x2 === void 0) { throw new TypeError(`Parameter ${position} is required in '${context}'.`); } } function assertRequiredField(x2, field, context) { if (x2 === void 0) { throw new TypeError(`${field} is required in '${context}'.`); } } function convertUnrestrictedDouble(value) { return Number(value); } function censorNegativeZero(x2) { return x2 === 0 ? 0 : x2; } function integerPart(x2) { return censorNegativeZero(MathTrunc(x2)); } function convertUnsignedLongLongWithEnforceRange(value, context) { const lowerBound = 0; const upperBound = Number.MAX_SAFE_INTEGER; let x2 = Number(value); x2 = censorNegativeZero(x2); if (!NumberIsFinite(x2)) { throw new TypeError(`${context} is not a finite number`); } x2 = integerPart(x2); if (x2 < lowerBound || x2 > upperBound) { throw new TypeError(`${context} is outside the accepted range of ${lowerBound} to ${upperBound}, inclusive`); } if (!NumberIsFinite(x2) || x2 === 0) { return 0; } return x2; } function assertReadableStream(x2, context) { if (!IsReadableStream(x2)) { throw new TypeError(`${context} is not a ReadableStream.`); } } function AcquireReadableStreamDefaultReader(stream) { return new ReadableStreamDefaultReader(stream); } function ReadableStreamAddReadRequest(stream, readRequest) { stream._reader._readRequests.push(readRequest); } function ReadableStreamFulfillReadRequest(stream, chunk, done) { const reader = stream._reader; const readRequest = reader._readRequests.shift(); if (done) { readRequest._closeSteps(); } else { readRequest._chunkSteps(chunk); } } function ReadableStreamGetNumReadRequests(stream) { return stream._reader._readRequests.length; } function ReadableStreamHasDefaultReader(stream) { const reader = stream._reader; if (reader === void 0) { return false; } if (!IsReadableStreamDefaultReader(reader)) { return false; } return true; } class ReadableStreamDefaultReader { constructor(stream) { assertRequiredArgument(stream, 1, "ReadableStreamDefaultReader"); assertReadableStream(stream, "First parameter"); if (IsReadableStreamLocked(stream)) { throw new TypeError("This stream has already been locked for exclusive reading by another reader"); } ReadableStreamReaderGenericInitialize(this, stream); this._readRequests = new SimpleQueue(); } /** * Returns a promise that will be fulfilled when the stream becomes closed, * or rejected if the stream ever errors or the reader's lock is released before the stream finishes closing. */ get closed() { if (!IsReadableStreamDefaultReader(this)) { return promiseRejectedWith(defaultReaderBrandCheckException("closed")); } return this._closedPromise; } /** * If the reader is active, behaves the same as {@link ReadableStream.cancel | stream.cancel(reason)}. */ cancel(reason = void 0) { if (!IsReadableStreamDefaultReader(this)) { return promiseRejectedWith(defaultReaderBrandCheckException("cancel")); } if (this._ownerReadableStream === void 0) { return promiseRejectedWith(readerLockException("cancel")); } return ReadableStreamReaderGenericCancel(this, reason); } /** * Returns a promise that allows access to the next chunk from the stream's internal queue, if available. * * If reading a chunk causes the queue to become empty, more data will be pulled from the underlying source. */ read() { if (!IsReadableStreamDefaultReader(this)) { return promiseRejectedWith(defaultReaderBrandCheckException("read")); } if (this._ownerReadableStream === void 0) { return promiseRejectedWith(readerLockException("read from")); } let resolvePromise; let rejectPromise; const promise = newPromise((resolve, reject) => { resolvePromise = resolve; rejectPromise = reject; }); const readRequest = { _chunkSteps: (chunk) => resolvePromise({ value: chunk, done: false }), _closeSteps: () => resolvePromise({ value: void 0, done: true }), _errorSteps: (e2) => rejectPromise(e2) }; ReadableStreamDefaultReaderRead(this, readRequest); return promise; } /** * Releases the reader's lock on the corresponding stream. After the lock is released, the reader is no longer active. * If the associated stream is errored when the lock is released, the reader will appear errored in the same way * from now on; otherwise, the reader will appear closed. * * A reader's lock cannot be released while it still has a pending read request, i.e., if a promise returned by * the reader's {@link ReadableStreamDefaultReader.read | read()} method has not yet been settled. Attempting to * do so will throw a `TypeError` and leave the reader locked to the stream. */ releaseLock() { if (!IsReadableStreamDefaultReader(this)) { throw defaultReaderBrandCheckException("releaseLock"); } if (this._ownerReadableStream === void 0) { return; } ReadableStreamDefaultReaderRelease(this); } } Object.defineProperties(ReadableStreamDefaultReader.prototype, { cancel: { enumerable: true }, read: { enumerable: true }, releaseLock: { enumerable: true }, closed: { enumerable: true } }); setFunctionName(ReadableStreamDefaultReader.prototype.cancel, "cancel"); setFunctionName(ReadableStreamDefaultReader.prototype.read, "read"); setFunctionName(ReadableStreamDefaultReader.prototype.releaseLock, "releaseLock"); if (typeof Symbol.toStringTag === "symbol") { Object.defineProperty(ReadableStreamDefaultReader.prototype, Symbol.toStringTag, { value: "ReadableStreamDefaultReader", configurable: true }); } function IsReadableStreamDefaultReader(x2) { if (!typeIsObject(x2)) { return false; } if (!Object.prototype.hasOwnProperty.call(x2, "_readRequests")) { return false; } return x2 instanceof ReadableStreamDefaultReader; } function ReadableStreamDefaultReaderRead(reader, readRequest) { const stream = reader._ownerReadableStream; stream._disturbed = true; if (stream._state === "closed") { readRequest._closeSteps(); } else if (stream._state === "errored") { readRequest._errorSteps(stream._storedError); } else { stream._readableStreamController[PullSteps](readRequest); } } function ReadableStreamDefaultReaderRelease(reader) { ReadableStreamReaderGenericRelease(reader); const e2 = new TypeError("Reader was released"); ReadableStreamDefaultReaderErrorReadRequests(reader, e2); } function ReadableStreamDefaultReaderErrorReadRequests(reader, e2) { const readRequests = reader._readRequests; reader._readRequests = new SimpleQueue(); readRequests.forEach((readRequest) => { readRequest._errorSteps(e2); }); } function defaultReaderBrandCheckException(name) { return new TypeError(`ReadableStreamDefaultReader.prototype.${name} can only be used on a ReadableStreamDefaultReader`); } const AsyncIteratorPrototype = Object.getPrototypeOf(Object.getPrototypeOf(async function* () { }).prototype); class ReadableStreamAsyncIteratorImpl { constructor(reader, preventCancel) { this._ongoingPromise = void 0; this._isFinished = false; this._reader = reader; this._preventCancel = preventCancel; } next() { const nextSteps = () => this._nextSteps(); this._ongoingPromise = this._ongoingPromise ? transformPromiseWith(this._ongoingPromise, nextSteps, nextSteps) : nextSteps(); return this._ongoingPromise; } return(value) { const returnSteps = () => this._returnSteps(value); return this._ongoingPromise ? transformPromiseWith(this._ongoingPromise, returnSteps, returnSteps) : returnSteps(); } _nextSteps() { if (this._isFinished) { return Promise.resolve({ value: void 0, done: true }); } const reader = this._reader; let resolvePromise; let rejectPromise; const promise = newPromise((resolve, reject) => { resolvePromise = resolve; rejectPromise = reject; }); const readRequest = { _chunkSteps: (chunk) => { this._ongoingPromise = void 0; _queueMicrotask(() => resolvePromise({ value: chunk, done: false })); }, _closeSteps: () => { this._ongoingPromise = void 0; this._isFinished = true; ReadableStreamReaderGenericRelease(reader); resolvePromise({ value: void 0, done: true }); }, _errorSteps: (reason) => { this._ongoingPromise = void 0; this._isFinished = true; ReadableStreamReaderGenericRelease(reader); rejectPromise(reason); } }; ReadableStreamDefaultReaderRead(reader, readRequest); return promise; } _returnSteps(value) { if (this._isFinished) { return Promise.resolve({ value, done: true }); } this._isFinished = true; const reader = this._reader; if (!this._preventCancel) { const result = ReadableStreamReaderGenericCancel(reader, value); ReadableStreamReaderGenericRelease(reader); return transformPromiseWith(result, () => ({ value, done: true })); } ReadableStreamReaderGenericRelease(reader); return promiseResolvedWith({ value, done: true }); } } const ReadableStreamAsyncIteratorPrototype = { next() { if (!IsReadableStreamAsyncIterator(this)) { return promiseRejectedWith(streamAsyncIteratorBrandCheckException("next")); } return this._asyncIteratorImpl.next(); }, return(value) { if (!IsReadableStreamAsyncIterator(this)) { return promiseRejectedWith(streamAsyncIteratorBrandCheckException("return")); } return this._asyncIteratorImpl.return(value); } }; Object.setPrototypeOf(ReadableStreamAsyncIteratorPrototype, AsyncIteratorPrototype); function AcquireReadableStreamAsyncIterator(stream, preventCancel) { const reader = AcquireReadableStreamDefaultReader(stream); const impl = new ReadableStreamAsyncIteratorImpl(reader, preventCancel); const iterator = Object.create(ReadableStreamAsyncIteratorPrototype); iterator._asyncIteratorImpl = impl; return iterator; } function IsReadableStreamAsyncIterator(x2) { if (!typeIsObject(x2)) { return false; } if (!Object.prototype.hasOwnProperty.call(x2, "_asyncIteratorImpl")) { return false; } try { return x2._asyncIteratorImpl instanceof ReadableStreamAsyncIteratorImpl; } catch (_a2) { return false; } } function streamAsyncIteratorBrandCheckException(name) { return new TypeError(`ReadableStreamAsyncIterator.${name} can only be used on a ReadableSteamAsyncIterator`); } const NumberIsNaN = Number.isNaN || function(x2) { return x2 !== x2; }; var _a, _b, _c; function CreateArrayFromList(elements) { return elements.slice(); } function CopyDataBlockBytes(dest, destOffset, src, srcOffset, n) { new Uint8Array(dest).set(new Uint8Array(src, srcOffset, n), destOffset); } let TransferArrayBuffer = (O) => { if (typeof O.transfer === "function") { TransferArrayBuffer = (buffer) => buffer.transfer(); } else if (typeof structuredClone === "function") { TransferArrayBuffer = (buffer) => structuredClone(buffer, { transfer: [buffer] }); } else { TransferArrayBuffer = (buffer) => buffer; } return TransferArrayBuffer(O); }; let IsDetachedBuffer = (O) => { if (typeof O.detached === "boolean") { IsDetachedBuffer = (buffer) => buffer.detached; } else { IsDetachedBuffer = (buffer) => buffer.byteLength === 0; } return IsDetachedBuffer(O); }; function ArrayBufferSlice(buffer, begin, end) { if (buffer.slice) { return buffer.slice(begin, end); } const length = end - begin; const slice = new ArrayBuffer(length); CopyDataBlockBytes(slice, 0, buffer, begin, length); return slice; } function GetMethod(receiver, prop) { const func = receiver[prop]; if (func === void 0 || func === null) { return void 0; } if (typeof func !== "function") { throw new TypeError(`${String(prop)} is not a function`); } return func; } function CreateAsyncFromSyncIterator(syncIteratorRecord) { const syncIterable = { [Symbol.iterator]: () => syncIteratorRecord.iterator }; const asyncIterator = async function* () { return yield* syncIterable; }(); const nextMethod = asyncIterator.next; return { iterator: asyncIterator, nextMethod, done: false }; } const SymbolAsyncIterator = (_c = (_a = Symbol.asyncIterator) !== null && _a !== void 0 ? _a : (_b = Symbol.for) === null || _b === void 0 ? void 0 : _b.call(Symbol, "Symbol.asyncIterator")) !== null && _c !== void 0 ? _c : "@@asyncIterator"; function GetIterator(obj, hint = "sync", method) { if (method === void 0) { if (hint === "async") { method = GetMethod(obj, SymbolAsyncIterator); if (method === void 0) { const syncMethod = GetMethod(obj, Symbol.iterator); const syncIteratorRecord = GetIterator(obj, "sync", syncMethod); return CreateAsyncFromSyncIterator(syncIteratorRecord); } } else { method = GetMethod(obj, Symbol.iterator); } } if (method === void 0) { throw new TypeError("The object is not iterable"); } const iterator = reflectCall(method, obj, []); if (!typeIsObject(iterator)) { throw new TypeError("The iterator method must return an object"); } const nextMethod = iterator.next; return { iterator, nextMethod, done: false }; } function IteratorNext(iteratorRecord) { const result = reflectCall(iteratorRecord.nextMethod, iteratorRecord.iterator, []); if (!typeIsObject(result)) { throw new TypeError("The iterator.next() method must return an object"); } return result; } function IteratorComplete(iterResult) { return Boolean(iterResult.done); } function IteratorValue(iterResult) { return iterResult.value; } function IsNonNegativeNumber(v) { if (typeof v !== "number") { return false; } if (NumberIsNaN(v)) { return false; } if (v < 0) { return false; } return true; } function CloneAsUint8Array(O) { const buffer = ArrayBufferSlice(O.buffer, O.byteOffset, O.byteOffset + O.byteLength); return new Uint8Array(buffer); } function DequeueValue(container) { const pair = container._queue.shift(); container._queueTotalSize -= pair.size; if (container._queueTotalSize < 0) { container._queueTotalSize = 0; } return pair.value; } function EnqueueValueWithSize(container, value, size) { if (!IsNonNegativeNumber(size) || size === Infinity) { throw new RangeError("Size must be a finite, non-NaN, non-negative number."); } container._queue.push({ value, size }); container._queueTotalSize += size; } function PeekQueueValue(container) { const pair = container._queue.peek(); return pair.value; } function ResetQueue(container) { container._queue = new SimpleQueue(); container._queueTotalSize = 0; } function isDataViewConstructor(ctor) { return ctor === DataView; } function isDataView(view) { return isDataViewConstructor(view.constructor); } function arrayBufferViewElementSize(ctor) { if (isDataViewConstructor(ctor)) { return 1; } return ctor.BYTES_PER_ELEMENT; } class ReadableStreamBYOBRequest { constructor() { throw new TypeError("Illegal constructor"); } /** * Returns the view for writing in to, or `null` if the BYOB request has already been responded to. */ get view() { if (!IsReadableStreamBYOBRequest(this)) { throw byobRequestBrandCheckException("view"); } return this._view; } respond(bytesWritten) { if (!IsReadableStreamBYOBRequest(this)) { throw byobRequestBrandCheckException("respond"); } assertRequiredArgument(bytesWritten, 1, "respond"); bytesWritten = convertUnsignedLongLongWithEnforceRange(bytesWritten, "First parameter"); if (this._associatedReadableByteStreamController === void 0) { throw new TypeError("This BYOB request has been invalidated"); } if (IsDetachedBuffer(this._view.buffer)) { throw new TypeError(`The BYOB request's buffer has been detached and so cannot be used as a response`); } ReadableByteStreamControllerRespond(this._associatedReadableByteStreamController, bytesWritten); } respondWithNewView(view) { if (!IsReadableStreamBYOBRequest(this)) { throw byobRequestBrandCheckException("respondWithNewView"); } assertRequiredArgument(view, 1, "respondWithNewView"); if (!ArrayBuffer.isView(view)) { throw new TypeError("You can only respond with array buffer views"); } if (this._associatedReadableByteStreamController === void 0) { throw new TypeError("This BYOB request has been invalidated"); } if (IsDetachedBuffer(view.buffer)) { throw new TypeError("The given view's buffer has been detached and so cannot be used as a response"); } ReadableByteStreamControllerRespondWithNewView(this._associatedReadableByteStreamController, view); } } Object.defineProperties(ReadableStreamBYOBRequest.prototype, { respond: { enumerable: true }, respondWithNewView: { enumerable: true }, view: { enumerable: true } }); setFunctionName(ReadableStreamBYOBRequest.prototype.respond, "respond"); setFunctionName(ReadableStreamBYOBRequest.prototype.respondWithNewView, "respondWithNewView"); if (typeof Symbol.toStringTag === "symbol") { Object.defineProperty(ReadableStreamBYOBRequest.prototype, Symbol.toStringTag, { value: "ReadableStreamBYOBRequest", configurable: true }); } class ReadableByteStreamController { constructor() { throw new TypeError("Illegal constructor"); } /** * Returns the current BYOB pull request, or `null` if there isn't one. */ get byobRequest() { if (!IsReadableByteStreamController(this)) { throw byteStreamControllerBrandCheckException("byobRequest"); } return ReadableByteStreamControllerGetBYOBRequest(this); } /** * Returns the desired size to fill the controlled stream's internal queue. It can be negative, if the queue is * over-full. An underlying byte source ought to use this information to determine when and how to apply backpressure. */ get desiredSize() { if (!IsReadableByteStreamController(this)) { throw byteStreamControllerBrandCheckException("desiredSize"); } return ReadableByteStreamControllerGetDesiredSize(this); } /** * Closes the controlled readable stream. Consumers will still be able to read any previously-enqueued chunks from * the stream, but once those are read, the stream will become closed. */ close() { if (!IsReadableByteStreamController(this)) { throw byteStreamControllerBrandCheckException("close"); } if (this._closeRequested) { throw new TypeError("The stream has already been closed; do not close it again!"); } const state = this._controlledReadableByteStream._state; if (state !== "readable") { throw new TypeError(`The stream (in ${state} state) is not in the readable state and cannot be closed`); } ReadableByteStreamControllerClose(this); } enqueue(chunk) { if (!IsReadableByteStreamController(this)) { throw byteStreamControllerBrandCheckException("enqueue"); } assertRequiredArgument(chunk, 1, "enqueue"); if (!ArrayBuffer.isView(chunk)) { throw new TypeError("chunk must be an array buffer view"); } if (chunk.byteLength === 0) { throw new TypeError("chunk must have non-zero byteLength"); } if (chunk.buffer.byteLength === 0) { throw new TypeError(`chunk's buffer must have non-zero byteLength`); } if (this._closeRequested) { throw new TypeError("stream is closed or draining"); } const state = this._controlledReadableByteStream._state; if (state !== "readable") { throw new TypeError(`The stream (in ${state} state) is not in the readable state and cannot be enqueued to`); } ReadableByteStreamControllerEnqueue(this, chunk); } /** * Errors the controlled readable stream, making all future interactions with it fail with the given error `e`. */ error(e2 = void 0) { if (!IsReadableByteStreamController(this)) { throw byteStreamControllerBrandCheckException("error"); } ReadableByteStreamControllerError(this, e2); } /** @internal */ [CancelSteps](reason) { ReadableByteStreamControllerClearPendingPullIntos(this); ResetQueue(this); const result = this._cancelAlgorithm(reason); ReadableByteStreamControllerClearAlgorithms(this); return result; } /** @internal */ [PullSteps](readRequest) { const stream = this._controlledReadableByteStream; if (this._queueTotalSize > 0) { ReadableByteStreamControllerFillReadRequestFromQueue(this, readRequest); return; } const autoAllocateChunkSize = this._autoAllocateChunkSize; if (autoAllocateChunkSize !== void 0) { let buffer; try { buffer = new ArrayBuffer(autoAllocateChunkSize); } catch (bufferE) { readRequest._errorSteps(bufferE); return; } const pullIntoDescriptor = { buffer, bufferByteLength: autoAllocateChunkSize, byteOffset: 0, byteLength: autoAllocateChunkSize, bytesFilled: 0, minimumFill: 1, elementSize: 1, viewConstructor: Uint8Array, readerType: "default" }; this._pendingPullIntos.push(pullIntoDescriptor); } ReadableStreamAddReadRequest(stream, readRequest); ReadableByteStreamControllerCallPullIfNeeded(this); } /** @internal */ [ReleaseSteps]() { if (this._pendingPullIntos.length > 0) { const firstPullInto = this._pendingPullIntos.peek(); firstPullInto.readerType = "none"; this._pendingPullIntos = new SimpleQueue(); this._pendingPullIntos.push(firstPullInto); } } } Object.defineProperties(ReadableByteStreamController.prototype, { close: { enumerable: true }, enqueue: { enumerable: true }, error: { enumerable: true }, byobRequest: { enumerable: true }, desiredSize: { enumerable: true } }); setFunctionName(ReadableByteStreamController.prototype.close, "close"); setFunctionName(ReadableByteStreamController.prototype.enqueue, "enqueue"); setFunctionName(ReadableByteStreamController.prototype.error, "error"); if (typeof Symbol.toStringTag === "symbol") { Object.defineProperty(ReadableByteStreamController.prototype, Symbol.toStringTag, { value: "ReadableByteStreamController", configurable: true }); } function IsReadableByteStreamController(x2) { if (!typeIsObject(x2)) { return false; } if (!Object.prototype.hasOwnProperty.call(x2, "_controlledReadableByteStream")) { return false; } return x2 instanceof ReadableByteStreamController; } function IsReadableStreamBYOBRequest(x2) { if (!typeIsObject(x2)) { return false; } if (!Object.prototype.hasOwnProperty.call(x2, "_associatedReadableByteStreamController")) { return false; } return x2 instanceof ReadableStreamBYOBRequest; } function ReadableByteStreamControllerCallPullIfNeeded(controller) { const shouldPull = ReadableByteStreamControllerShouldCallPull(controller); if (!shouldPull) { return; } if (controller._pulling) { controller._pullAgain = true; return; } controller._pulling = true; const pullPromise = controller._pullAlgorithm(); uponPromise(pullPromise, () => { controller._pulling = false; if (controller._pullAgain) { controller._pullAgain = false; ReadableByteStreamControllerCallPullIfNeeded(controller); } return null; }, (e2) => { ReadableByteStreamControllerError(controller, e2); return null; }); } function ReadableByteStreamControllerClearPendingPullIntos(controller) { ReadableByteStreamControllerInvalidateBYOBRequest(controller); controller._pendingPullIntos = new SimpleQueue(); } function ReadableByteStreamControllerCommitPullIntoDescriptor(stream, pullIntoDescriptor) { let done = false; if (stream._state === "closed") { done = true; } const filledView = ReadableByteStreamControllerConvertPullIntoDescriptor(pullIntoDescriptor); if (pullIntoDescriptor.readerType === "default") { ReadableStreamFulfillReadRequest(stream, filledView, done); } else { ReadableStreamFulfillReadIntoRequest(stream, filledView, done); } } function ReadableByteStreamControllerConvertPullIntoDescriptor(pullIntoDescriptor) { const bytesFilled = pullIntoDescriptor.bytesFilled; const elementSize = pullIntoDescriptor.elementSize; return new pullIntoDescriptor.viewConstructor(pullIntoDescriptor.buffer, pullIntoDescriptor.byteOffset, bytesFilled / elementSize); } function ReadableByteStreamControllerEnqueueChunkToQueue(controller, buffer, byteOffset, byteLength) { controller._queue.push({ buffer, byteOffset, byteLength }); controller._queueTotalSize += byteLength; } function ReadableByteStreamControllerEnqueueClonedChunkToQueue(controller, buffer, byteOffset, byteLength) { let clonedChunk; try { clonedChunk = ArrayBufferSlice(buffer, byteOffset, byteOffset + byteLength); } catch (cloneE) { ReadableByteStreamControllerError(controller, cloneE); throw cloneE; } ReadableByteStreamControllerEnqueueChunkToQueue(controller, clonedChunk, 0, byteLength); } function ReadableByteStreamControllerEnqueueDetachedPullIntoToQueue(controller, firstDescriptor) { if (firstDescriptor.bytesFilled > 0) { ReadableByteStreamControllerEnqueueClonedChunkToQueue(controller, firstDescriptor.buffer, firstDescriptor.byteOffset, firstDescriptor.bytesFilled); } ReadableByteStreamControllerShiftPendingPullInto(controller); } function ReadableByteStreamControllerFillPullIntoDescriptorFromQueue(controller, pullIntoDescriptor) { const maxBytesToCopy = Math.min(controller._queueTotalSize, pullIntoDescriptor.byteLength - pullIntoDescriptor.bytesFilled); const maxBytesFilled = pullIntoDescriptor.bytesFilled + maxBytesToCopy; let totalBytesToCopyRemaining = maxBytesToCopy; let ready = false; const remainderBytes = maxBytesFilled % pullIntoDescriptor.elementSize; const maxAlignedBytes = maxBytesFilled - remainderBytes; if (maxAlignedBytes >= pullIntoDescriptor.minimumFill) { totalBytesToCopyRemaining = maxAlignedBytes - pullIntoDescriptor.bytesFilled; ready = true; } const queue = controller._queue; while (totalBytesToCopyRemaining > 0) { const headOfQueue = queue.peek(); const bytesToCopy = Math.min(totalBytesToCopyRemaining, headOfQueue.byteLength); const destStart = pullIntoDescriptor.byteOffset + pullIntoDescriptor.bytesFilled; CopyDataBlockBytes(pullIntoDescriptor.buffer, destStart, headOfQueue.buffer, headOfQueue.byteOffset, bytesToCopy); if (headOfQueue.byteLength === bytesToCopy) { queue.shift(); } else { headOfQueue.byteOffset += bytesToCopy; headOfQueue.byteLength -= bytesToCopy; } controller._queueTotalSize -= bytesToCopy; ReadableByteStreamControllerFillHeadPullIntoDescriptor(controller, bytesToCopy, pullIntoDescriptor); totalBytesToCopyRemaining -= bytesToCopy; } return ready; } function ReadableByteStreamControllerFillHeadPullIntoDescriptor(controller, size, pullIntoDescriptor) { pullIntoDescriptor.bytesFilled += size; } function ReadableByteStreamControllerHandleQueueDrain(controller) { if (controller._queueTotalSize === 0 && controller._closeRequested) { ReadableByteStreamControllerClearAlgorithms(controller); ReadableStreamClose(controller._controlledReadableByteStream); } else { ReadableByteStreamControllerCallPullIfNeeded(controller); } } function ReadableByteStreamControllerInvalidateBYOBRequest(controller) { if (controller._byobRequest === null) { return; } controller._byobRequest._associatedReadableByteStreamController = void 0; controller._byobRequest._view = null; controller._byobRequest = null; } function ReadableByteStreamControllerProcessPullIntoDescriptorsUsingQueue(controller) { while (controller._pendingPullIntos.length > 0) { if (controller._queueTotalSize === 0) { return; } const pullIntoDescriptor = controller._pendingPullIntos.peek(); if (ReadableByteStreamControllerFillPullIntoDescriptorFromQueue(controller, pullIntoDescriptor)) { ReadableByteStreamControllerShiftPendingPullInto(controller); ReadableByteStreamControllerCommitPullIntoDescriptor(controller._controlledReadableByteStream, pullIntoDescriptor); } } } function ReadableByteStreamControllerProcessReadRequestsUsingQueue(controller) { const reader = controller._controlledReadableByteStream._reader; while (reader._readRequests.length > 0) { if (controller._queueTotalSize === 0) { return; } const readRequest = reader._readRequests.shift(); ReadableByteStreamControllerFillReadRequestFromQueue(controller, readRequest); } } function ReadableByteStreamControllerPullInto(controller, view, min, readIntoRequest) { const stream = controller._controlledReadableByteStream; const ctor = view.constructor; const elementSize = arrayBufferViewElementSize(ctor); const { byteOffset, byteLength } = view; const minimumFill = min * elementSize; let buffer; try { buffer = TransferArrayBuffer(view.buffer); } catch (e2) { readIntoRequest._errorSteps(e2); return; } const pullIntoDescriptor = { buffer, bufferByteLength: buffer.byteLength, byteOffset, byteLength, bytesFilled: 0, minimumFill, elementSize, viewConstructor: ctor, readerType: "byob" }; if (controller._pendingPullIntos.length > 0) { controller._pendingPullIntos.push(pullIntoDescriptor); ReadableStreamAddReadIntoRequest(stream, readIntoRequest); return; } if (stream._state === "closed") { const emptyView = new ctor(pullIntoDescriptor.buffer, pullIntoDescriptor.byteOffset, 0); readIntoRequest._closeSteps(emptyView); return; } if (controller._queueTotalSize > 0) { if (ReadableByteStreamControllerFillPullIntoDescriptorFromQueue(controller, pullIntoDescriptor)) { const filledView = ReadableByteStreamControllerConvertPullIntoDescriptor(pullIntoDescriptor); ReadableByteStreamControllerHandleQueueDrain(controller); readIntoRequest._chunkSteps(filledView); return; } if (controller._closeRequested) { const e2 = new TypeError("Insufficient bytes to fill elements in the given buffer"); ReadableByteStreamControllerError(controller, e2); readIntoRequest._errorSteps(e2); return; } } controller._pendingPullIntos.push(pullIntoDescriptor); ReadableStreamAddReadIntoRequest(stream, readIntoRequest); ReadableByteStreamControllerCallPullIfNeeded(controller); } function ReadableByteStreamControllerRespondInClosedState(controller, firstDescriptor) { if (firstDescriptor.readerType === "none") { ReadableByteStreamControllerShiftPendingPullInto(controller); } const stream = controller._controlledReadableByteStream; if (ReadableStreamHasBYOBReader(stream)) { while (ReadableStreamGetNumReadIntoRequests(stream) > 0) { const pullIntoDescriptor = ReadableByteStreamControllerShiftPendingPullInto(controller); ReadableByteStreamControllerCommitPullIntoDescriptor(stream, pullIntoDescriptor); } } } function ReadableByteStreamControllerRespondInReadableState(controller, bytesWritten, pullIntoDescriptor) { ReadableByteStreamControllerFillHeadPullIntoDescriptor(controller, bytesWritten, pullIntoDescriptor); if (pullIntoDescriptor.readerType === "none") { ReadableByteStreamControllerEnqueueDetachedPullIntoToQueue(controller, pullIntoDescriptor); ReadableByteStreamControllerProcessPullIntoDescriptorsUsingQueue(controller); return; } if (pullIntoDescriptor.bytesFilled < pullIntoDescriptor.minimumFill) { return; } ReadableByteStreamControllerShiftPendingPullInto(controller); const remainderSize = pullIntoDescriptor.bytesFilled % pullIntoDescriptor.elementSize; if (remainderSize > 0) { const end = pullIntoDescriptor.byteOffset + pullIntoDescriptor.bytesFilled; ReadableByteStreamControllerEnqueueClonedChunkToQueue(controller, pullIntoDescriptor.buffer, end - remainderSize, remainderSize); } pullIntoDescriptor.bytesFilled -= remainderSize; ReadableByteStreamControllerCommitPullIntoDescripto