392 lines
11 KiB
JavaScript
392 lines
11 KiB
JavaScript
'use strict'
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const {
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kState,
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kError,
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kResult,
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kAborted,
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kLastProgressEventFired
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} = require('./symbols')
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const { ProgressEvent } = require('./progressevent')
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const { getEncoding } = require('./encoding')
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const { DOMException } = require('../fetch/constants')
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const { serializeAMimeType, parseMIMEType } = require('../fetch/dataURL')
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const { types } = require('util')
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const { StringDecoder } = require('string_decoder')
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const { btoa } = require('buffer')
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/** @type {PropertyDescriptor} */
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const staticPropertyDescriptors = {
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enumerable: true,
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writable: false,
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configurable: false
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}
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/**
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* @see https://w3c.github.io/FileAPI/#readOperation
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* @param {import('./filereader').FileReader} fr
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* @param {import('buffer').Blob} blob
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* @param {string} type
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* @param {string?} encodingName
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*/
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function readOperation (fr, blob, type, encodingName) {
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// 1. If fr’s state is "loading", throw an InvalidStateError
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// DOMException.
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if (fr[kState] === 'loading') {
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throw new DOMException('Invalid state', 'InvalidStateError')
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}
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// 2. Set fr’s state to "loading".
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fr[kState] = 'loading'
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// 3. Set fr’s result to null.
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fr[kResult] = null
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// 4. Set fr’s error to null.
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fr[kError] = null
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// 5. Let stream be the result of calling get stream on blob.
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/** @type {import('stream/web').ReadableStream} */
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const stream = blob.stream()
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// 6. Let reader be the result of getting a reader from stream.
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const reader = stream.getReader()
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// 7. Let bytes be an empty byte sequence.
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/** @type {Uint8Array[]} */
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const bytes = []
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// 8. Let chunkPromise be the result of reading a chunk from
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// stream with reader.
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let chunkPromise = reader.read()
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// 9. Let isFirstChunk be true.
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let isFirstChunk = true
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// 10. In parallel, while true:
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// Note: "In parallel" just means non-blocking
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// Note 2: readOperation itself cannot be async as double
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// reading the body would then reject the promise, instead
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// of throwing an error.
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;(async () => {
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while (!fr[kAborted]) {
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// 1. Wait for chunkPromise to be fulfilled or rejected.
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try {
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const { done, value } = await chunkPromise
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// 2. If chunkPromise is fulfilled, and isFirstChunk is
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// true, queue a task to fire a progress event called
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// loadstart at fr.
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if (isFirstChunk && !fr[kAborted]) {
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queueMicrotask(() => {
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fireAProgressEvent('loadstart', fr)
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})
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}
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// 3. Set isFirstChunk to false.
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isFirstChunk = false
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// 4. If chunkPromise is fulfilled with an object whose
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// done property is false and whose value property is
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// a Uint8Array object, run these steps:
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if (!done && types.isUint8Array(value)) {
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// 1. Let bs be the byte sequence represented by the
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// Uint8Array object.
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// 2. Append bs to bytes.
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bytes.push(value)
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// 3. If roughly 50ms have passed since these steps
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// were last invoked, queue a task to fire a
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// progress event called progress at fr.
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if (
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(
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fr[kLastProgressEventFired] === undefined ||
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Date.now() - fr[kLastProgressEventFired] >= 50
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) &&
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!fr[kAborted]
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) {
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fr[kLastProgressEventFired] = Date.now()
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queueMicrotask(() => {
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fireAProgressEvent('progress', fr)
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})
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}
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// 4. Set chunkPromise to the result of reading a
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// chunk from stream with reader.
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chunkPromise = reader.read()
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} else if (done) {
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// 5. Otherwise, if chunkPromise is fulfilled with an
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// object whose done property is true, queue a task
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// to run the following steps and abort this algorithm:
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queueMicrotask(() => {
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// 1. Set fr’s state to "done".
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fr[kState] = 'done'
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// 2. Let result be the result of package data given
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// bytes, type, blob’s type, and encodingName.
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try {
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const result = packageData(bytes, type, blob.type, encodingName)
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// 4. Else:
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if (fr[kAborted]) {
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return
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}
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// 1. Set fr’s result to result.
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fr[kResult] = result
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// 2. Fire a progress event called load at the fr.
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fireAProgressEvent('load', fr)
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} catch (error) {
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// 3. If package data threw an exception error:
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// 1. Set fr’s error to error.
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fr[kError] = error
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// 2. Fire a progress event called error at fr.
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fireAProgressEvent('error', fr)
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}
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// 5. If fr’s state is not "loading", fire a progress
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// event called loadend at the fr.
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if (fr[kState] !== 'loading') {
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fireAProgressEvent('loadend', fr)
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}
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})
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break
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}
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} catch (error) {
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if (fr[kAborted]) {
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return
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}
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// 6. Otherwise, if chunkPromise is rejected with an
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// error error, queue a task to run the following
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// steps and abort this algorithm:
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queueMicrotask(() => {
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// 1. Set fr’s state to "done".
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fr[kState] = 'done'
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// 2. Set fr’s error to error.
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fr[kError] = error
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// 3. Fire a progress event called error at fr.
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fireAProgressEvent('error', fr)
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// 4. If fr’s state is not "loading", fire a progress
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// event called loadend at fr.
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if (fr[kState] !== 'loading') {
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fireAProgressEvent('loadend', fr)
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}
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})
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break
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}
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}
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})()
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}
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/**
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* @see https://w3c.github.io/FileAPI/#fire-a-progress-event
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* @see https://dom.spec.whatwg.org/#concept-event-fire
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* @param {string} e The name of the event
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* @param {import('./filereader').FileReader} reader
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*/
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function fireAProgressEvent (e, reader) {
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// The progress event e does not bubble. e.bubbles must be false
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// The progress event e is NOT cancelable. e.cancelable must be false
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const event = new ProgressEvent(e, {
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bubbles: false,
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cancelable: false
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})
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reader.dispatchEvent(event)
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}
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/**
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* @see https://w3c.github.io/FileAPI/#blob-package-data
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* @param {Uint8Array[]} bytes
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* @param {string} type
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* @param {string?} mimeType
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* @param {string?} encodingName
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*/
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function packageData (bytes, type, mimeType, encodingName) {
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// 1. A Blob has an associated package data algorithm, given
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// bytes, a type, a optional mimeType, and a optional
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// encodingName, which switches on type and runs the
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// associated steps:
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switch (type) {
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case 'DataURL': {
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// 1. Return bytes as a DataURL [RFC2397] subject to
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// the considerations below:
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// * Use mimeType as part of the Data URL if it is
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// available in keeping with the Data URL
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// specification [RFC2397].
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// * If mimeType is not available return a Data URL
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// without a media-type. [RFC2397].
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// https://datatracker.ietf.org/doc/html/rfc2397#section-3
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// dataurl := "data:" [ mediatype ] [ ";base64" ] "," data
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// mediatype := [ type "/" subtype ] *( ";" parameter )
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// data := *urlchar
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// parameter := attribute "=" value
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let dataURL = 'data:'
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const parsed = parseMIMEType(mimeType || 'application/octet-stream')
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if (parsed !== 'failure') {
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dataURL += serializeAMimeType(parsed)
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}
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dataURL += ';base64,'
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const decoder = new StringDecoder('latin1')
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for (const chunk of bytes) {
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dataURL += btoa(decoder.write(chunk))
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}
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dataURL += btoa(decoder.end())
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return dataURL
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}
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case 'Text': {
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// 1. Let encoding be failure
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let encoding = 'failure'
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// 2. If the encodingName is present, set encoding to the
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// result of getting an encoding from encodingName.
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if (encodingName) {
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encoding = getEncoding(encodingName)
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}
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// 3. If encoding is failure, and mimeType is present:
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if (encoding === 'failure' && mimeType) {
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// 1. Let type be the result of parse a MIME type
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// given mimeType.
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const type = parseMIMEType(mimeType)
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// 2. If type is not failure, set encoding to the result
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// of getting an encoding from type’s parameters["charset"].
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if (type !== 'failure') {
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encoding = getEncoding(type.parameters.get('charset'))
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}
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}
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// 4. If encoding is failure, then set encoding to UTF-8.
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if (encoding === 'failure') {
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encoding = 'UTF-8'
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}
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// 5. Decode bytes using fallback encoding encoding, and
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// return the result.
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return decode(bytes, encoding)
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}
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case 'ArrayBuffer': {
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// Return a new ArrayBuffer whose contents are bytes.
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const sequence = combineByteSequences(bytes)
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return sequence.buffer
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}
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case 'BinaryString': {
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// Return bytes as a binary string, in which every byte
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// is represented by a code unit of equal value [0..255].
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let binaryString = ''
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const decoder = new StringDecoder('latin1')
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for (const chunk of bytes) {
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binaryString += decoder.write(chunk)
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}
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binaryString += decoder.end()
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return binaryString
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}
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}
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}
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/**
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* @see https://encoding.spec.whatwg.org/#decode
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* @param {Uint8Array[]} ioQueue
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* @param {string} encoding
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*/
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function decode (ioQueue, encoding) {
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const bytes = combineByteSequences(ioQueue)
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// 1. Let BOMEncoding be the result of BOM sniffing ioQueue.
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const BOMEncoding = BOMSniffing(bytes)
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let slice = 0
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// 2. If BOMEncoding is non-null:
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if (BOMEncoding !== null) {
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// 1. Set encoding to BOMEncoding.
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encoding = BOMEncoding
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// 2. Read three bytes from ioQueue, if BOMEncoding is
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// UTF-8; otherwise read two bytes.
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// (Do nothing with those bytes.)
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slice = BOMEncoding === 'UTF-8' ? 3 : 2
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}
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// 3. Process a queue with an instance of encoding’s
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// decoder, ioQueue, output, and "replacement".
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// 4. Return output.
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const sliced = bytes.slice(slice)
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return new TextDecoder(encoding).decode(sliced)
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}
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/**
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* @see https://encoding.spec.whatwg.org/#bom-sniff
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* @param {Uint8Array} ioQueue
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*/
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function BOMSniffing (ioQueue) {
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// 1. Let BOM be the result of peeking 3 bytes from ioQueue,
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// converted to a byte sequence.
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const [a, b, c] = ioQueue
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// 2. For each of the rows in the table below, starting with
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// the first one and going down, if BOM starts with the
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// bytes given in the first column, then return the
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// encoding given in the cell in the second column of that
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// row. Otherwise, return null.
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if (a === 0xEF && b === 0xBB && c === 0xBF) {
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return 'UTF-8'
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} else if (a === 0xFE && b === 0xFF) {
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return 'UTF-16BE'
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} else if (a === 0xFF && b === 0xFE) {
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return 'UTF-16LE'
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}
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return null
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}
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/**
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* @param {Uint8Array[]} sequences
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*/
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function combineByteSequences (sequences) {
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const size = sequences.reduce((a, b) => {
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return a + b.byteLength
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}, 0)
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let offset = 0
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return sequences.reduce((a, b) => {
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a.set(b, offset)
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offset += b.byteLength
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return a
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}, new Uint8Array(size))
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}
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module.exports = {
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staticPropertyDescriptors,
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readOperation,
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fireAProgressEvent
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}
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