// Copyright 2018-2020 the Deno authors. All rights reserved. MIT license. ((window) => { const core = window.Deno.core; // provided by "deno_web" const { URLSearchParams } = window.__bootstrap.url; const { requiredArguments } = window.__bootstrap.fetchUtil; const { ReadableStream, isReadableStreamDisturbed } = window.__bootstrap.streams; const { DomIterableMixin } = window.__bootstrap.domIterable; const { Headers } = window.__bootstrap.headers; // FIXME(bartlomieju): stubbed out, needed in blob const build = { os: "", }; const MAX_SIZE = 2 ** 32 - 2; // `off` is the offset into `dst` where it will at which to begin writing values // from `src`. // Returns the number of bytes copied. function copyBytes(src, dst, off = 0) { const r = dst.byteLength - off; if (src.byteLength > r) { src = src.subarray(0, r); } dst.set(src, off); return src.byteLength; } class Buffer { #buf = null; // contents are the bytes buf[off : len(buf)] #off = 0; // read at buf[off], write at buf[buf.byteLength] constructor(ab) { if (ab == null) { this.#buf = new Uint8Array(0); return; } this.#buf = new Uint8Array(ab); } bytes(options = { copy: true }) { if (options.copy === false) return this.#buf.subarray(this.#off); return this.#buf.slice(this.#off); } empty() { return this.#buf.byteLength <= this.#off; } get length() { return this.#buf.byteLength - this.#off; } get capacity() { return this.#buf.buffer.byteLength; } reset() { this.#reslice(0); this.#off = 0; } #tryGrowByReslice = (n) => { const l = this.#buf.byteLength; if (n <= this.capacity - l) { this.#reslice(l + n); return l; } return -1; }; #reslice = (len) => { if (!(len <= this.#buf.buffer.byteLength)) { throw new Error("assert"); } this.#buf = new Uint8Array(this.#buf.buffer, 0, len); }; writeSync(p) { const m = this.#grow(p.byteLength); return copyBytes(p, this.#buf, m); } write(p) { const n = this.writeSync(p); return Promise.resolve(n); } #grow = (n) => { const m = this.length; // If buffer is empty, reset to recover space. if (m === 0 && this.#off !== 0) { this.reset(); } // Fast: Try to grow by means of a reslice. const i = this.#tryGrowByReslice(n); if (i >= 0) { return i; } const c = this.capacity; if (n <= Math.floor(c / 2) - m) { // We can slide things down instead of allocating a new // ArrayBuffer. We only need m+n <= c to slide, but // we instead let capacity get twice as large so we // don't spend all our time copying. copyBytes(this.#buf.subarray(this.#off), this.#buf); } else if (c + n > MAX_SIZE) { throw new Error("The buffer cannot be grown beyond the maximum size."); } else { // Not enough space anywhere, we need to allocate. const buf = new Uint8Array(Math.min(2 * c + n, MAX_SIZE)); copyBytes(this.#buf.subarray(this.#off), buf); this.#buf = buf; } // Restore this.#off and len(this.#buf). this.#off = 0; this.#reslice(Math.min(m + n, MAX_SIZE)); return m; }; grow(n) { if (n < 0) { throw Error("Buffer.grow: negative count"); } const m = this.#grow(n); this.#reslice(m); } } function isTypedArray(x) { return ArrayBuffer.isView(x) && !(x instanceof DataView); } function hasHeaderValueOf(s, value) { return new RegExp(`^${value}[\t\s]*;?`).test(s); } function getHeaderValueParams(value) { const params = new Map(); // Forced to do so for some Map constructor param mismatch value .split(";") .slice(1) .map((s) => s.trim().split("=")) .filter((arr) => arr.length > 1) .map(([k, v]) => [k, v.replace(/^"([^"]*)"$/, "$1")]) .forEach(([k, v]) => params.set(k, v)); return params; } const decoder = new TextDecoder(); const encoder = new TextEncoder(); const CR = "\r".charCodeAt(0); const LF = "\n".charCodeAt(0); const dataSymbol = Symbol("data"); const bytesSymbol = Symbol("bytes"); function containsOnlyASCII(str) { if (typeof str !== "string") { return false; } return /^[\x00-\x7F]*$/.test(str); } function convertLineEndingsToNative(s) { const nativeLineEnd = build.os == "windows" ? "\r\n" : "\n"; let position = 0; let collectionResult = collectSequenceNotCRLF(s, position); let token = collectionResult.collected; position = collectionResult.newPosition; let result = token; while (position < s.length) { const c = s.charAt(position); if (c == "\r") { result += nativeLineEnd; position++; if (position < s.length && s.charAt(position) == "\n") { position++; } } else if (c == "\n") { position++; result += nativeLineEnd; } collectionResult = collectSequenceNotCRLF(s, position); token = collectionResult.collected; position = collectionResult.newPosition; result += token; } return result; } function collectSequenceNotCRLF( s, position, ) { const start = position; for ( let c = s.charAt(position); position < s.length && !(c == "\r" || c == "\n"); c = s.charAt(++position) ); return { collected: s.slice(start, position), newPosition: position }; } function toUint8Arrays( blobParts, doNormalizeLineEndingsToNative, ) { const ret = []; const enc = new TextEncoder(); for (const element of blobParts) { if (typeof element === "string") { let str = element; if (doNormalizeLineEndingsToNative) { str = convertLineEndingsToNative(element); } ret.push(enc.encode(str)); // eslint-disable-next-line @typescript-eslint/no-use-before-define } else if (element instanceof Blob) { ret.push(element[bytesSymbol]); } else if (element instanceof Uint8Array) { ret.push(element); } else if (element instanceof Uint16Array) { const uint8 = new Uint8Array(element.buffer); ret.push(uint8); } else if (element instanceof Uint32Array) { const uint8 = new Uint8Array(element.buffer); ret.push(uint8); } else if (ArrayBuffer.isView(element)) { // Convert view to Uint8Array. const uint8 = new Uint8Array(element.buffer); ret.push(uint8); } else if (element instanceof ArrayBuffer) { // Create a new Uint8Array view for the given ArrayBuffer. const uint8 = new Uint8Array(element); ret.push(uint8); } else { ret.push(enc.encode(String(element))); } } return ret; } function processBlobParts( blobParts, options, ) { const normalizeLineEndingsToNative = options.ending === "native"; // ArrayBuffer.transfer is not yet implemented in V8, so we just have to // pre compute size of the array buffer and do some sort of static allocation // instead of dynamic allocation. const uint8Arrays = toUint8Arrays(blobParts, normalizeLineEndingsToNative); const byteLength = uint8Arrays .map((u8) => u8.byteLength) .reduce((a, b) => a + b, 0); const ab = new ArrayBuffer(byteLength); const bytes = new Uint8Array(ab); let courser = 0; for (const u8 of uint8Arrays) { bytes.set(u8, courser); courser += u8.byteLength; } return bytes; } function getStream(blobBytes) { // TODO: Align to spec https://fetch.spec.whatwg.org/#concept-construct-readablestream return new ReadableStream({ type: "bytes", start: (controller) => { controller.enqueue(blobBytes); controller.close(); }, }); } async function readBytes( reader, ) { const chunks = []; while (true) { const { done, value } = await reader.read(); if (!done && value instanceof Uint8Array) { chunks.push(value); } else if (done) { const size = chunks.reduce((p, i) => p + i.byteLength, 0); const bytes = new Uint8Array(size); let offs = 0; for (const chunk of chunks) { bytes.set(chunk, offs); offs += chunk.byteLength; } return bytes.buffer; } else { throw new TypeError("Invalid reader result."); } } } // A WeakMap holding blob to byte array mapping. // Ensures it does not impact garbage collection. // const blobBytesWeakMap = new WeakMap(); class Blob { constructor(blobParts, options) { if (arguments.length === 0) { this[bytesSymbol] = new Uint8Array(); return; } const { ending = "transparent", type = "" } = options ?? {}; // Normalize options.type. let normalizedType = type; if (!containsOnlyASCII(type)) { normalizedType = ""; } else { if (type.length) { for (let i = 0; i < type.length; ++i) { const char = type[i]; if (char < "\u0020" || char > "\u007E") { normalizedType = ""; break; } } normalizedType = type.toLowerCase(); } } const bytes = processBlobParts(blobParts, { ending, type }); // Set Blob object's properties. this[bytesSymbol] = bytes; this.size = bytes.byteLength; this.type = normalizedType; } slice(start, end, contentType) { return new Blob([this[bytesSymbol].slice(start, end)], { type: contentType || this.type, }); } stream() { return getStream(this[bytesSymbol]); } async text() { const reader = getStream(this[bytesSymbol]).getReader(); const decoder = new TextDecoder(); return decoder.decode(await readBytes(reader)); } arrayBuffer() { return readBytes(getStream(this[bytesSymbol]).getReader()); } } class DomFile extends Blob { constructor( fileBits, fileName, options, ) { const { lastModified = Date.now(), ...blobPropertyBag } = options ?? {}; super(fileBits, blobPropertyBag); // 4.1.2.1 Replace any "/" character (U+002F SOLIDUS) // with a ":" (U + 003A COLON) this.name = String(fileName).replace(/\u002F/g, "\u003A"); // 4.1.3.3 If lastModified is not provided, set lastModified to the current // date and time represented in number of milliseconds since the Unix Epoch. this.lastModified = lastModified; } } function parseFormDataValue(value, filename) { if (value instanceof DomFile) { return new DomFile([value], filename || value.name, { type: value.type, lastModified: value.lastModified, }); } else if (value instanceof Blob) { return new DomFile([value], filename || "blob", { type: value.type, }); } else { return String(value); } } class FormDataBase { [dataSymbol] = []; append(name, value, filename) { requiredArguments("FormData.append", arguments.length, 2); name = String(name); this[dataSymbol].push([name, parseFormDataValue(value, filename)]); } delete(name) { requiredArguments("FormData.delete", arguments.length, 1); name = String(name); let i = 0; while (i < this[dataSymbol].length) { if (this[dataSymbol][i][0] === name) { this[dataSymbol].splice(i, 1); } else { i++; } } } getAll(name) { requiredArguments("FormData.getAll", arguments.length, 1); name = String(name); const values = []; for (const entry of this[dataSymbol]) { if (entry[0] === name) { values.push(entry[1]); } } return values; } get(name) { requiredArguments("FormData.get", arguments.length, 1); name = String(name); for (const entry of this[dataSymbol]) { if (entry[0] === name) { return entry[1]; } } return null; } has(name) { requiredArguments("FormData.has", arguments.length, 1); name = String(name); return this[dataSymbol].some((entry) => entry[0] === name); } set(name, value, filename) { requiredArguments("FormData.set", arguments.length, 2); name = String(name); // If there are any entries in the context object’s entry list whose name // is name, replace the first such entry with entry and remove the others let found = false; let i = 0; while (i < this[dataSymbol].length) { if (this[dataSymbol][i][0] === name) { if (!found) { this[dataSymbol][i][1] = parseFormDataValue(value, filename); found = true; } else { this[dataSymbol].splice(i, 1); continue; } } i++; } // Otherwise, append entry to the context object’s entry list. if (!found) { this[dataSymbol].push([name, parseFormDataValue(value, filename)]); } } get [Symbol.toStringTag]() { return "FormData"; } } class FormData extends DomIterableMixin(FormDataBase, dataSymbol) {} class MultipartBuilder { constructor(formData, boundary) { this.formData = formData; this.boundary = boundary ?? this.#createBoundary(); this.writer = new Buffer(); } getContentType() { return `multipart/form-data; boundary=${this.boundary}`; } getBody() { for (const [fieldName, fieldValue] of this.formData.entries()) { if (fieldValue instanceof DomFile) { this.#writeFile(fieldName, fieldValue); } else this.#writeField(fieldName, fieldValue); } this.writer.writeSync(encoder.encode(`\r\n--${this.boundary}--`)); return this.writer.bytes(); } #createBoundary = () => { return ( "----------" + Array.from(Array(32)) .map(() => Math.random().toString(36)[2] || 0) .join("") ); }; #writeHeaders = (headers) => { let buf = this.writer.empty() ? "" : "\r\n"; buf += `--${this.boundary}\r\n`; for (const [key, value] of headers) { buf += `${key}: ${value}\r\n`; } buf += `\r\n`; // FIXME(Bartlomieju): this should use `writeSync()` this.writer.write(encoder.encode(buf)); }; #writeFileHeaders = ( field, filename, type, ) => { const headers = [ [ "Content-Disposition", `form-data; name="${field}"; filename="${filename}"`, ], ["Content-Type", type || "application/octet-stream"], ]; return this.#writeHeaders(headers); }; #writeFieldHeaders = (field) => { const headers = [["Content-Disposition", `form-data; name="${field}"`]]; return this.#writeHeaders(headers); }; #writeField = (field, value) => { this.#writeFieldHeaders(field); this.writer.writeSync(encoder.encode(value)); }; #writeFile = (field, value) => { this.#writeFileHeaders(field, value.name, value.type); this.writer.writeSync(value[bytesSymbol]); }; } class MultipartParser { constructor(body, boundary) { if (!boundary) { throw new TypeError("multipart/form-data must provide a boundary"); } this.boundary = `--${boundary}`; this.body = body; this.boundaryChars = encoder.encode(this.boundary); } #parseHeaders = (headersText) => { const headers = new Headers(); const rawHeaders = headersText.split("\r\n"); for (const rawHeader of rawHeaders) { const sepIndex = rawHeader.indexOf(":"); if (sepIndex < 0) { continue; // Skip this header } const key = rawHeader.slice(0, sepIndex); const value = rawHeader.slice(sepIndex + 1); headers.set(key, value); } return { headers, disposition: getHeaderValueParams( headers.get("Content-Disposition") ?? "", ), }; }; parse() { const formData = new FormData(); let headerText = ""; let boundaryIndex = 0; let state = 0; let fileStart = 0; for (let i = 0; i < this.body.length; i++) { const byte = this.body[i]; const prevByte = this.body[i - 1]; const isNewLine = byte === LF && prevByte === CR; if (state === 1 || state === 2 || state == 3) { headerText += String.fromCharCode(byte); } if (state === 0 && isNewLine) { state = 1; } else if (state === 1 && isNewLine) { state = 2; const headersDone = this.body[i + 1] === CR && this.body[i + 2] === LF; if (headersDone) { state = 3; } } else if (state === 2 && isNewLine) { state = 3; } else if (state === 3 && isNewLine) { state = 4; fileStart = i + 1; } else if (state === 4) { if (this.boundaryChars[boundaryIndex] !== byte) { boundaryIndex = 0; } else { boundaryIndex++; } if (boundaryIndex >= this.boundary.length) { const { headers, disposition } = this.#parseHeaders(headerText); const content = this.body.subarray( fileStart, i - boundaryIndex - 1, ); // https://fetch.spec.whatwg.org/#ref-for-dom-body-formdata const filename = disposition.get("filename"); const name = disposition.get("name"); state = 5; // Reset boundaryIndex = 0; headerText = ""; if (!name) { continue; // Skip, unknown name } if (filename) { const blob = new Blob([content], { type: headers.get("Content-Type") || "application/octet-stream", }); formData.append(name, blob, filename); } else { formData.append(name, decoder.decode(content)); } } } else if (state === 5 && isNewLine) { state = 1; } } return formData; } } function validateBodyType(owner, bodySource) { if (isTypedArray(bodySource)) { return true; } else if (bodySource instanceof ArrayBuffer) { return true; } else if (typeof bodySource === "string") { return true; } else if (bodySource instanceof ReadableStream) { return true; } else if (bodySource instanceof FormData) { return true; } else if (bodySource instanceof URLSearchParams) { return true; } else if (!bodySource) { return true; // null body is fine } throw new Error( `Bad ${owner.constructor.name} body type: ${bodySource.constructor.name}`, ); } async function bufferFromStream( stream, size, ) { const encoder = new TextEncoder(); const buffer = new Buffer(); if (size) { // grow to avoid unnecessary allocations & copies buffer.grow(size); } while (true) { const { done, value } = await stream.read(); if (done) break; if (typeof value === "string") { buffer.writeSync(encoder.encode(value)); } else if (value instanceof ArrayBuffer) { buffer.writeSync(new Uint8Array(value)); } else if (value instanceof Uint8Array) { buffer.writeSync(value); } else if (!value) { // noop for undefined } else { throw new Error("unhandled type on stream read"); } } return buffer.bytes().buffer; } function bodyToArrayBuffer(bodySource) { if (isTypedArray(bodySource)) { return bodySource.buffer; } else if (bodySource instanceof ArrayBuffer) { return bodySource; } else if (typeof bodySource === "string") { const enc = new TextEncoder(); return enc.encode(bodySource).buffer; } else if (bodySource instanceof ReadableStream) { throw new Error( `Can't convert stream to ArrayBuffer (try bufferFromStream)`, ); } else if ( bodySource instanceof FormData || bodySource instanceof URLSearchParams ) { const enc = new TextEncoder(); return enc.encode(bodySource.toString()).buffer; } else if (!bodySource) { return new ArrayBuffer(0); } throw new Error( `Body type not implemented: ${bodySource.constructor.name}`, ); } const BodyUsedError = "Failed to execute 'clone' on 'Body': body is already used"; class Body { #contentType = ""; #size = undefined; constructor(_bodySource, meta) { validateBodyType(this, _bodySource); this._bodySource = _bodySource; this.#contentType = meta.contentType; this.#size = meta.size; this._stream = null; } get body() { if (this._stream) { return this._stream; } if (!this._bodySource) { return null; } else if (this._bodySource instanceof ReadableStream) { this._stream = this._bodySource; } else { const buf = bodyToArrayBuffer(this._bodySource); if (!(buf instanceof ArrayBuffer)) { throw new Error( `Expected ArrayBuffer from body`, ); } this._stream = new ReadableStream({ start(controller) { controller.enqueue(buf); controller.close(); }, }); } return this._stream; } get bodyUsed() { if (this.body && isReadableStreamDisturbed(this.body)) { return true; } return false; } async blob() { return new Blob([await this.arrayBuffer()], { type: this.#contentType, }); } // ref: https://fetch.spec.whatwg.org/#body-mixin async formData() { const formData = new FormData(); if (hasHeaderValueOf(this.#contentType, "multipart/form-data")) { const params = getHeaderValueParams(this.#contentType); // ref: https://tools.ietf.org/html/rfc2046#section-5.1 const boundary = params.get("boundary"); const body = new Uint8Array(await this.arrayBuffer()); const multipartParser = new MultipartParser(body, boundary); return multipartParser.parse(); } else if ( hasHeaderValueOf(this.#contentType, "application/x-www-form-urlencoded") ) { // From https://github.com/github/fetch/blob/master/fetch.js // Copyright (c) 2014-2016 GitHub, Inc. MIT License const body = await this.text(); try { body .trim() .split("&") .forEach((bytes) => { if (bytes) { const split = bytes.split("="); const name = split.shift().replace(/\+/g, " "); const value = split.join("=").replace(/\+/g, " "); formData.append( decodeURIComponent(name), decodeURIComponent(value), ); } }); } catch (e) { throw new TypeError("Invalid form urlencoded format"); } return formData; } else { throw new TypeError("Invalid form data"); } } async text() { if (typeof this._bodySource === "string") { return this._bodySource; } const ab = await this.arrayBuffer(); const decoder = new TextDecoder("utf-8"); return decoder.decode(ab); } async json() { const raw = await this.text(); return JSON.parse(raw); } arrayBuffer() { if (this._bodySource instanceof ReadableStream) { return bufferFromStream(this._bodySource.getReader(), this.#size); } return bodyToArrayBuffer(this._bodySource); } } function createHttpClient(options) { return new HttpClient(opCreateHttpClient(options)); } function opCreateHttpClient(args) { return core.jsonOpSync("op_create_http_client", args); } class HttpClient { constructor(rid) { this.rid = rid; } close() { core.close(this.rid); } } function opFetch(args, body) { let zeroCopy; if (body != null) { zeroCopy = new Uint8Array(body.buffer, body.byteOffset, body.byteLength); } return core.jsonOpAsync("op_fetch", args, ...(zeroCopy ? [zeroCopy] : [])); } const NULL_BODY_STATUS = [101, 204, 205, 304]; const REDIRECT_STATUS = [301, 302, 303, 307, 308]; function byteUpperCase(s) { return String(s).replace(/[a-z]/g, function byteUpperCaseReplace(c) { return c.toUpperCase(); }); } function normalizeMethod(m) { const u = byteUpperCase(m); if ( u === "DELETE" || u === "GET" || u === "HEAD" || u === "OPTIONS" || u === "POST" || u === "PUT" ) { return u; } return m; } class Request extends Body { constructor(input, init) { if (arguments.length < 1) { throw TypeError("Not enough arguments"); } if (!init) { init = {}; } let b; // prefer body from init if (init.body) { b = init.body; } else if (input instanceof Request && input._bodySource) { if (input.bodyUsed) { throw TypeError(BodyUsedError); } b = input._bodySource; } else if (typeof input === "object" && "body" in input && input.body) { if (input.bodyUsed) { throw TypeError(BodyUsedError); } b = input.body; } else { b = ""; } let headers; // prefer headers from init if (init.headers) { headers = new Headers(init.headers); } else if (input instanceof Request) { headers = input.headers; } else { headers = new Headers(); } const contentType = headers.get("content-type") || ""; super(b, { contentType }); this.headers = headers; // readonly attribute ByteString method; this.method = "GET"; // readonly attribute USVString url; this.url = ""; // readonly attribute RequestCredentials credentials; this.credentials = "omit"; if (input instanceof Request) { if (input.bodyUsed) { throw TypeError(BodyUsedError); } this.method = input.method; this.url = input.url; this.headers = new Headers(input.headers); this.credentials = input.credentials; this._stream = input._stream; } else if (typeof input === "string") { this.url = input; } if (init && "method" in init) { this.method = normalizeMethod(init.method); } if ( init && "credentials" in init && init.credentials && ["omit", "same-origin", "include"].indexOf(init.credentials) !== -1 ) { this.credentials = init.credentials; } } clone() { if (this.bodyUsed) { throw TypeError(BodyUsedError); } const iterators = this.headers.entries(); const headersList = []; for (const header of iterators) { headersList.push(header); } let body2 = this._bodySource; if (this._bodySource instanceof ReadableStream) { const tees = this._bodySource.tee(); this._stream = this._bodySource = tees[0]; body2 = tees[1]; } return new Request(this.url, { body: body2, method: this.method, headers: new Headers(headersList), credentials: this.credentials, }); } } const responseData = new WeakMap(); class Response extends Body { constructor(body = null, init) { init = init ?? {}; if (typeof init !== "object") { throw new TypeError(`'init' is not an object`); } const extraInit = responseData.get(init) || {}; let { type = "default", url = "" } = extraInit; let status = init.status === undefined ? 200 : Number(init.status || 0); let statusText = init.statusText ?? ""; let headers = init.headers instanceof Headers ? init.headers : new Headers(init.headers); if (init.status !== undefined && (status < 200 || status > 599)) { throw new RangeError( `The status provided (${init.status}) is outside the range [200, 599]`, ); } // null body status if (body && NULL_BODY_STATUS.includes(status)) { throw new TypeError("Response with null body status cannot have body"); } if (!type) { type = "default"; } else { if (type == "error") { // spec: https://fetch.spec.whatwg.org/#concept-network-error status = 0; statusText = ""; headers = new Headers(); body = null; /* spec for other Response types: https://fetch.spec.whatwg.org/#concept-filtered-response-basic Please note that type "basic" is not the same thing as "default".*/ } else if (type == "basic") { for (const h of headers) { /* Forbidden Response-Header Names: https://fetch.spec.whatwg.org/#forbidden-response-header-name */ if (["set-cookie", "set-cookie2"].includes(h[0].toLowerCase())) { headers.delete(h[0]); } } } else if (type == "cors") { /* CORS-safelisted Response-Header Names: https://fetch.spec.whatwg.org/#cors-safelisted-response-header-name */ const allowedHeaders = [ "Cache-Control", "Content-Language", "Content-Length", "Content-Type", "Expires", "Last-Modified", "Pragma", ].map((c) => c.toLowerCase()); for (const h of headers) { /* Technically this is still not standards compliant because we are supposed to allow headers allowed in the 'Access-Control-Expose-Headers' header in the 'internal response' However, this implementation of response doesn't seem to have an easy way to access the internal response, so we ignore that header. TODO(serverhiccups): change how internal responses are handled so we can do this properly. */ if (!allowedHeaders.includes(h[0].toLowerCase())) { headers.delete(h[0]); } } /* TODO(serverhiccups): Once I fix the 'internal response' thing, these actually need to treat the internal response differently */ } else if (type == "opaque" || type == "opaqueredirect") { url = ""; status = 0; statusText = ""; headers = new Headers(); body = null; } } const contentType = headers.get("content-type") || ""; const size = Number(headers.get("content-length")) || undefined; super(body, { contentType, size }); this.url = url; this.statusText = statusText; this.status = extraInit.status || status; this.headers = headers; this.redirected = extraInit.redirected || false; this.type = type; } get ok() { return 200 <= this.status && this.status < 300; } clone() { if (this.bodyUsed) { throw TypeError(BodyUsedError); } const iterators = this.headers.entries(); const headersList = []; for (const header of iterators) { headersList.push(header); } let resBody = this._bodySource; if (this._bodySource instanceof ReadableStream) { const tees = this._bodySource.tee(); this._stream = this._bodySource = tees[0]; resBody = tees[1]; } return new Response(resBody, { status: this.status, statusText: this.statusText, headers: new Headers(headersList), }); } static redirect(url, status) { if (![301, 302, 303, 307, 308].includes(status)) { throw new RangeError( "The redirection status must be one of 301, 302, 303, 307 and 308.", ); } return new Response(null, { status, statusText: "", headers: [["Location", typeof url === "string" ? url : url.toString()]], }); } } function sendFetchReq(url, method, headers, body, clientRid) { let headerArray = []; if (headers) { headerArray = Array.from(headers.entries()); } const args = { method, url, headers: headerArray, clientRid, }; return opFetch(args, body); } async function fetch(input, init) { let url; let method = null; let headers = null; let body; let clientRid = null; let redirected = false; let remRedirectCount = 20; // TODO: use a better way to handle if (typeof input === "string" || input instanceof URL) { url = typeof input === "string" ? input : input.href; if (init != null) { method = init.method || null; if (init.headers) { headers = init.headers instanceof Headers ? init.headers : new Headers(init.headers); } else { headers = null; } // ref: https://fetch.spec.whatwg.org/#body-mixin // Body should have been a mixin // but we are treating it as a separate class if (init.body) { if (!headers) { headers = new Headers(); } let contentType = ""; if (typeof init.body === "string") { body = new TextEncoder().encode(init.body); contentType = "text/plain;charset=UTF-8"; } else if (isTypedArray(init.body)) { body = init.body; } else if (init.body instanceof ArrayBuffer) { body = new Uint8Array(init.body); } else if (init.body instanceof URLSearchParams) { body = new TextEncoder().encode(init.body.toString()); contentType = "application/x-www-form-urlencoded;charset=UTF-8"; } else if (init.body instanceof Blob) { body = init.body[bytesSymbol]; contentType = init.body.type; } else if (init.body instanceof FormData) { let boundary; if (headers.has("content-type")) { const params = getHeaderValueParams("content-type"); boundary = params.get("boundary"); } const multipartBuilder = new MultipartBuilder( init.body, boundary, ); body = multipartBuilder.getBody(); contentType = multipartBuilder.getContentType(); } else { // TODO: ReadableStream throw new Error("Not implemented"); } if (contentType && !headers.has("content-type")) { headers.set("content-type", contentType); } } if (init.client instanceof HttpClient) { clientRid = init.client.rid; } } } else { url = input.url; method = input.method; headers = input.headers; if (input._bodySource) { body = new DataView(await input.arrayBuffer()); } } let responseBody; let responseInit = {}; while (remRedirectCount) { const fetchResponse = await sendFetchReq( url, method, headers, body, clientRid, ); const rid = fetchResponse.bodyRid; if ( NULL_BODY_STATUS.includes(fetchResponse.status) || REDIRECT_STATUS.includes(fetchResponse.status) ) { // We won't use body of received response, so close it now // otherwise it will be kept in resource table. core.close(fetchResponse.bodyRid); responseBody = null; } else { responseBody = new ReadableStream({ type: "bytes", async pull(controller) { try { const result = await core.jsonOpAsync("op_fetch_read", { rid }); if (!result || !result.chunk) { controller.close(); core.close(rid); } else { // TODO(ry) This is terribly inefficient. Make this zero-copy. const chunk = new Uint8Array(result.chunk); controller.enqueue(chunk); } } catch (e) { controller.error(e); controller.close(); core.close(rid); } }, cancel() { // When reader.cancel() is called core.close(rid); }, }); } responseInit = { status: 200, statusText: fetchResponse.statusText, headers: fetchResponse.headers, }; responseData.set(responseInit, { redirected, rid: fetchResponse.bodyRid, status: fetchResponse.status, url, }); const response = new Response(responseBody, responseInit); if (REDIRECT_STATUS.includes(fetchResponse.status)) { // We're in a redirect status switch ((init && init.redirect) || "follow") { case "error": responseInit = {}; responseData.set(responseInit, { type: "error", redirected: false, url: "", }); return new Response(null, responseInit); case "manual": responseInit = {}; responseData.set(responseInit, { type: "opaqueredirect", redirected: false, url: "", }); return new Response(null, responseInit); case "follow": default: let redirectUrl = response.headers.get("Location"); if (redirectUrl == null) { return response; // Unspecified } if ( !redirectUrl.startsWith("http://") && !redirectUrl.startsWith("https://") ) { redirectUrl = new URL(redirectUrl, url).href; } url = redirectUrl; redirected = true; remRedirectCount--; } } else { return response; } } responseData.set(responseInit, { type: "error", redirected: false, url: "", }); return new Response(null, responseInit); } window.__bootstrap.fetch = { Blob, DomFile, FormData, fetch, Request, Response, HttpClient, createHttpClient, }; })(this);