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Icard/angular-clarity-master(work.../node_modules/undici/lib/api/readable.js

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JavaScript
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// Ported from https://github.com/nodejs/undici/pull/907
'use strict'
const assert = require('node:assert')
const { Readable } = require('node:stream')
const { RequestAbortedError, NotSupportedError, InvalidArgumentError, AbortError } = require('../core/errors')
const util = require('../core/util')
const { ReadableStreamFrom } = require('../core/util')
const kConsume = Symbol('kConsume')
const kReading = Symbol('kReading')
const kBody = Symbol('kBody')
const kAbort = Symbol('kAbort')
const kContentType = Symbol('kContentType')
const kContentLength = Symbol('kContentLength')
const noop = () => {}
class BodyReadable extends Readable {
constructor ({
resume,
abort,
contentType = '',
contentLength,
highWaterMark = 64 * 1024 // Same as nodejs fs streams.
}) {
super({
autoDestroy: true,
read: resume,
highWaterMark
})
this._readableState.dataEmitted = false
this[kAbort] = abort
this[kConsume] = null
this[kBody] = null
this[kContentType] = contentType
this[kContentLength] = contentLength
// Is stream being consumed through Readable API?
// This is an optimization so that we avoid checking
// for 'data' and 'readable' listeners in the hot path
// inside push().
this[kReading] = false
}
destroy (err) {
if (!err && !this._readableState.endEmitted) {
err = new RequestAbortedError()
}
if (err) {
this[kAbort]()
}
return super.destroy(err)
}
_destroy (err, callback) {
// Workaround for Node "bug". If the stream is destroyed in same
// tick as it is created, then a user who is waiting for a
// promise (i.e micro tick) for installing a 'error' listener will
// never get a chance and will always encounter an unhandled exception.
// - tick => process.nextTick(fn)
// - micro tick => queueMicrotask(fn)
queueMicrotask(() => {
callback(err)
})
}
on (ev, ...args) {
if (ev === 'data' || ev === 'readable') {
this[kReading] = true
}
return super.on(ev, ...args)
}
addListener (ev, ...args) {
return this.on(ev, ...args)
}
off (ev, ...args) {
const ret = super.off(ev, ...args)
if (ev === 'data' || ev === 'readable') {
this[kReading] = (
this.listenerCount('data') > 0 ||
this.listenerCount('readable') > 0
)
}
return ret
}
removeListener (ev, ...args) {
return this.off(ev, ...args)
}
push (chunk) {
if (this[kConsume] && chunk !== null) {
consumePush(this[kConsume], chunk)
return this[kReading] ? super.push(chunk) : true
}
return super.push(chunk)
}
// https://fetch.spec.whatwg.org/#dom-body-text
async text () {
return consume(this, 'text')
}
// https://fetch.spec.whatwg.org/#dom-body-json
async json () {
return consume(this, 'json')
}
// https://fetch.spec.whatwg.org/#dom-body-blob
async blob () {
return consume(this, 'blob')
}
// https://fetch.spec.whatwg.org/#dom-body-arraybuffer
async arrayBuffer () {
return consume(this, 'arrayBuffer')
}
// https://fetch.spec.whatwg.org/#dom-body-formdata
async formData () {
// TODO: Implement.
throw new NotSupportedError()
}
// https://fetch.spec.whatwg.org/#dom-body-bodyused
get bodyUsed () {
return util.isDisturbed(this)
}
// https://fetch.spec.whatwg.org/#dom-body-body
get body () {
if (!this[kBody]) {
this[kBody] = ReadableStreamFrom(this)
if (this[kConsume]) {
// TODO: Is this the best way to force a lock?
this[kBody].getReader() // Ensure stream is locked.
assert(this[kBody].locked)
}
}
return this[kBody]
}
async dump (opts) {
let limit = Number.isFinite(opts?.limit) ? opts.limit : 128 * 1024
const signal = opts?.signal
if (signal != null && (typeof signal !== 'object' || !('aborted' in signal))) {
throw new InvalidArgumentError('signal must be an AbortSignal')
}
signal?.throwIfAborted()
if (this._readableState.closeEmitted) {
return null
}
return await new Promise((resolve, reject) => {
if (this[kContentLength] > limit) {
this.destroy(new AbortError())
}
const onAbort = () => {
this.destroy(signal.reason ?? new AbortError())
}
signal?.addEventListener('abort', onAbort)
this
.on('close', function () {
signal?.removeEventListener('abort', onAbort)
if (signal?.aborted) {
reject(signal.reason ?? new AbortError())
} else {
resolve(null)
}
})
.on('error', noop)
.on('data', function (chunk) {
limit -= chunk.length
if (limit <= 0) {
this.destroy()
}
})
.resume()
})
}
}
// https://streams.spec.whatwg.org/#readablestream-locked
function isLocked (self) {
// Consume is an implicit lock.
return (self[kBody] && self[kBody].locked === true) || self[kConsume]
}
// https://fetch.spec.whatwg.org/#body-unusable
function isUnusable (self) {
return util.isDisturbed(self) || isLocked(self)
}
async function consume (stream, type) {
assert(!stream[kConsume])
return new Promise((resolve, reject) => {
if (isUnusable(stream)) {
const rState = stream._readableState
if (rState.destroyed && rState.closeEmitted === false) {
stream
.on('error', err => {
reject(err)
})
.on('close', () => {
reject(new TypeError('unusable'))
})
} else {
reject(rState.errored ?? new TypeError('unusable'))
}
} else {
queueMicrotask(() => {
stream[kConsume] = {
type,
stream,
resolve,
reject,
length: 0,
body: []
}
stream
.on('error', function (err) {
consumeFinish(this[kConsume], err)
})
.on('close', function () {
if (this[kConsume].body !== null) {
consumeFinish(this[kConsume], new RequestAbortedError())
}
})
consumeStart(stream[kConsume])
})
}
})
}
function consumeStart (consume) {
if (consume.body === null) {
return
}
const { _readableState: state } = consume.stream
if (state.bufferIndex) {
const start = state.bufferIndex
const end = state.buffer.length
for (let n = start; n < end; n++) {
consumePush(consume, state.buffer[n])
}
} else {
for (const chunk of state.buffer) {
consumePush(consume, chunk)
}
}
if (state.endEmitted) {
consumeEnd(this[kConsume])
} else {
consume.stream.on('end', function () {
consumeEnd(this[kConsume])
})
}
consume.stream.resume()
while (consume.stream.read() != null) {
// Loop
}
}
/**
* @param {Buffer[]} chunks
* @param {number} length
*/
function chunksDecode (chunks, length) {
if (chunks.length === 0 || length === 0) {
return ''
}
const buffer = chunks.length === 1 ? chunks[0] : Buffer.concat(chunks, length)
const bufferLength = buffer.length
// Skip BOM.
const start =
bufferLength > 2 &&
buffer[0] === 0xef &&
buffer[1] === 0xbb &&
buffer[2] === 0xbf
? 3
: 0
return buffer.utf8Slice(start, bufferLength)
}
function consumeEnd (consume) {
const { type, body, resolve, stream, length } = consume
try {
if (type === 'text') {
resolve(chunksDecode(body, length))
} else if (type === 'json') {
resolve(JSON.parse(chunksDecode(body, length)))
} else if (type === 'arrayBuffer') {
const dst = new Uint8Array(length)
let pos = 0
for (const buf of body) {
dst.set(buf, pos)
pos += buf.byteLength
}
resolve(dst.buffer)
} else if (type === 'blob') {
resolve(new Blob(body, { type: stream[kContentType] }))
}
consumeFinish(consume)
} catch (err) {
stream.destroy(err)
}
}
function consumePush (consume, chunk) {
consume.length += chunk.length
consume.body.push(chunk)
}
function consumeFinish (consume, err) {
if (consume.body === null) {
return
}
if (err) {
consume.reject(err)
} else {
consume.resolve()
}
consume.type = null
consume.stream = null
consume.resolve = null
consume.reject = null
consume.length = 0
consume.body = null
}
module.exports = { Readable: BodyReadable, chunksDecode }
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