File: /var/www/vhost/disk-apps/pwa.sports-crowd.com/node_modules/@angular/common/fesm2022/http.mjs
/**
* @license Angular v16.2.12
* (c) 2010-2022 Google LLC. https://angular.io/
* License: MIT
*/
import * as i0 from '@angular/core';
import { Injectable, inject, NgZone, InjectionToken, ɵInitialRenderPendingTasks, Inject, ɵRuntimeError, PLATFORM_ID, makeEnvironmentProviders, NgModule, TransferState, makeStateKey, ɵENABLED_SSR_FEATURES, APP_BOOTSTRAP_LISTENER, ApplicationRef } from '@angular/core';
import { of, Observable, from } from 'rxjs';
import { concatMap, filter, map, finalize, switchMap, tap, first } from 'rxjs/operators';
import * as i1 from '@angular/common';
import { DOCUMENT, ɵparseCookieValue } from '@angular/common';
/**
* Transforms an `HttpRequest` into a stream of `HttpEvent`s, one of which will likely be a
* `HttpResponse`.
*
* `HttpHandler` is injectable. When injected, the handler instance dispatches requests to the
* first interceptor in the chain, which dispatches to the second, etc, eventually reaching the
* `HttpBackend`.
*
* In an `HttpInterceptor`, the `HttpHandler` parameter is the next interceptor in the chain.
*
* @publicApi
*/
class HttpHandler {
}
/**
* A final `HttpHandler` which will dispatch the request via browser HTTP APIs to a backend.
*
* Interceptors sit between the `HttpClient` interface and the `HttpBackend`.
*
* When injected, `HttpBackend` dispatches requests directly to the backend, without going
* through the interceptor chain.
*
* @publicApi
*/
class HttpBackend {
}
/**
* Represents the header configuration options for an HTTP request.
* Instances are immutable. Modifying methods return a cloned
* instance with the change. The original object is never changed.
*
* @publicApi
*/
class HttpHeaders {
/** Constructs a new HTTP header object with the given values.*/
constructor(headers) {
/**
* Internal map of lowercased header names to the normalized
* form of the name (the form seen first).
*/
this.normalizedNames = new Map();
/**
* Queued updates to be materialized the next initialization.
*/
this.lazyUpdate = null;
if (!headers) {
this.headers = new Map();
}
else if (typeof headers === 'string') {
this.lazyInit = () => {
this.headers = new Map();
headers.split('\n').forEach(line => {
const index = line.indexOf(':');
if (index > 0) {
const name = line.slice(0, index);
const key = name.toLowerCase();
const value = line.slice(index + 1).trim();
this.maybeSetNormalizedName(name, key);
if (this.headers.has(key)) {
this.headers.get(key).push(value);
}
else {
this.headers.set(key, [value]);
}
}
});
};
}
else if (typeof Headers !== 'undefined' && headers instanceof Headers) {
this.headers = new Map();
headers.forEach((values, name) => {
this.setHeaderEntries(name, values);
});
}
else {
this.lazyInit = () => {
if (typeof ngDevMode === 'undefined' || ngDevMode) {
assertValidHeaders(headers);
}
this.headers = new Map();
Object.entries(headers).forEach(([name, values]) => {
this.setHeaderEntries(name, values);
});
};
}
}
/**
* Checks for existence of a given header.
*
* @param name The header name to check for existence.
*
* @returns True if the header exists, false otherwise.
*/
has(name) {
this.init();
return this.headers.has(name.toLowerCase());
}
/**
* Retrieves the first value of a given header.
*
* @param name The header name.
*
* @returns The value string if the header exists, null otherwise
*/
get(name) {
this.init();
const values = this.headers.get(name.toLowerCase());
return values && values.length > 0 ? values[0] : null;
}
/**
* Retrieves the names of the headers.
*
* @returns A list of header names.
*/
keys() {
this.init();
return Array.from(this.normalizedNames.values());
}
/**
* Retrieves a list of values for a given header.
*
* @param name The header name from which to retrieve values.
*
* @returns A string of values if the header exists, null otherwise.
*/
getAll(name) {
this.init();
return this.headers.get(name.toLowerCase()) || null;
}
/**
* Appends a new value to the existing set of values for a header
* and returns them in a clone of the original instance.
*
* @param name The header name for which to append the values.
* @param value The value to append.
*
* @returns A clone of the HTTP headers object with the value appended to the given header.
*/
append(name, value) {
return this.clone({ name, value, op: 'a' });
}
/**
* Sets or modifies a value for a given header in a clone of the original instance.
* If the header already exists, its value is replaced with the given value
* in the returned object.
*
* @param name The header name.
* @param value The value or values to set or override for the given header.
*
* @returns A clone of the HTTP headers object with the newly set header value.
*/
set(name, value) {
return this.clone({ name, value, op: 's' });
}
/**
* Deletes values for a given header in a clone of the original instance.
*
* @param name The header name.
* @param value The value or values to delete for the given header.
*
* @returns A clone of the HTTP headers object with the given value deleted.
*/
delete(name, value) {
return this.clone({ name, value, op: 'd' });
}
maybeSetNormalizedName(name, lcName) {
if (!this.normalizedNames.has(lcName)) {
this.normalizedNames.set(lcName, name);
}
}
init() {
if (!!this.lazyInit) {
if (this.lazyInit instanceof HttpHeaders) {
this.copyFrom(this.lazyInit);
}
else {
this.lazyInit();
}
this.lazyInit = null;
if (!!this.lazyUpdate) {
this.lazyUpdate.forEach(update => this.applyUpdate(update));
this.lazyUpdate = null;
}
}
}
copyFrom(other) {
other.init();
Array.from(other.headers.keys()).forEach(key => {
this.headers.set(key, other.headers.get(key));
this.normalizedNames.set(key, other.normalizedNames.get(key));
});
}
clone(update) {
const clone = new HttpHeaders();
clone.lazyInit =
(!!this.lazyInit && this.lazyInit instanceof HttpHeaders) ? this.lazyInit : this;
clone.lazyUpdate = (this.lazyUpdate || []).concat([update]);
return clone;
}
applyUpdate(update) {
const key = update.name.toLowerCase();
switch (update.op) {
case 'a':
case 's':
let value = update.value;
if (typeof value === 'string') {
value = [value];
}
if (value.length === 0) {
return;
}
this.maybeSetNormalizedName(update.name, key);
const base = (update.op === 'a' ? this.headers.get(key) : undefined) || [];
base.push(...value);
this.headers.set(key, base);
break;
case 'd':
const toDelete = update.value;
if (!toDelete) {
this.headers.delete(key);
this.normalizedNames.delete(key);
}
else {
let existing = this.headers.get(key);
if (!existing) {
return;
}
existing = existing.filter(value => toDelete.indexOf(value) === -1);
if (existing.length === 0) {
this.headers.delete(key);
this.normalizedNames.delete(key);
}
else {
this.headers.set(key, existing);
}
}
break;
}
}
setHeaderEntries(name, values) {
const headerValues = (Array.isArray(values) ? values : [values]).map((value) => value.toString());
const key = name.toLowerCase();
this.headers.set(key, headerValues);
this.maybeSetNormalizedName(name, key);
}
/**
* @internal
*/
forEach(fn) {
this.init();
Array.from(this.normalizedNames.keys())
.forEach(key => fn(this.normalizedNames.get(key), this.headers.get(key)));
}
}
/**
* Verifies that the headers object has the right shape: the values
* must be either strings, numbers or arrays. Throws an error if an invalid
* header value is present.
*/
function assertValidHeaders(headers) {
for (const [key, value] of Object.entries(headers)) {
if (!(typeof value === 'string' || typeof value === 'number') && !Array.isArray(value)) {
throw new Error(`Unexpected value of the \`${key}\` header provided. ` +
`Expecting either a string, a number or an array, but got: \`${value}\`.`);
}
}
}
/**
* Provides encoding and decoding of URL parameter and query-string values.
*
* Serializes and parses URL parameter keys and values to encode and decode them.
* If you pass URL query parameters without encoding,
* the query parameters can be misinterpreted at the receiving end.
*
*
* @publicApi
*/
class HttpUrlEncodingCodec {
/**
* Encodes a key name for a URL parameter or query-string.
* @param key The key name.
* @returns The encoded key name.
*/
encodeKey(key) {
return standardEncoding(key);
}
/**
* Encodes the value of a URL parameter or query-string.
* @param value The value.
* @returns The encoded value.
*/
encodeValue(value) {
return standardEncoding(value);
}
/**
* Decodes an encoded URL parameter or query-string key.
* @param key The encoded key name.
* @returns The decoded key name.
*/
decodeKey(key) {
return decodeURIComponent(key);
}
/**
* Decodes an encoded URL parameter or query-string value.
* @param value The encoded value.
* @returns The decoded value.
*/
decodeValue(value) {
return decodeURIComponent(value);
}
}
function paramParser(rawParams, codec) {
const map = new Map();
if (rawParams.length > 0) {
// The `window.location.search` can be used while creating an instance of the `HttpParams` class
// (e.g. `new HttpParams({ fromString: window.location.search })`). The `window.location.search`
// may start with the `?` char, so we strip it if it's present.
const params = rawParams.replace(/^\?/, '').split('&');
params.forEach((param) => {
const eqIdx = param.indexOf('=');
const [key, val] = eqIdx == -1 ?
[codec.decodeKey(param), ''] :
[codec.decodeKey(param.slice(0, eqIdx)), codec.decodeValue(param.slice(eqIdx + 1))];
const list = map.get(key) || [];
list.push(val);
map.set(key, list);
});
}
return map;
}
/**
* Encode input string with standard encodeURIComponent and then un-encode specific characters.
*/
const STANDARD_ENCODING_REGEX = /%(\d[a-f0-9])/gi;
const STANDARD_ENCODING_REPLACEMENTS = {
'40': '@',
'3A': ':',
'24': '$',
'2C': ',',
'3B': ';',
'3D': '=',
'3F': '?',
'2F': '/',
};
function standardEncoding(v) {
return encodeURIComponent(v).replace(STANDARD_ENCODING_REGEX, (s, t) => STANDARD_ENCODING_REPLACEMENTS[t] ?? s);
}
function valueToString(value) {
return `${value}`;
}
/**
* An HTTP request/response body that represents serialized parameters,
* per the MIME type `application/x-www-form-urlencoded`.
*
* This class is immutable; all mutation operations return a new instance.
*
* @publicApi
*/
class HttpParams {
constructor(options = {}) {
this.updates = null;
this.cloneFrom = null;
this.encoder = options.encoder || new HttpUrlEncodingCodec();
if (!!options.fromString) {
if (!!options.fromObject) {
throw new Error(`Cannot specify both fromString and fromObject.`);
}
this.map = paramParser(options.fromString, this.encoder);
}
else if (!!options.fromObject) {
this.map = new Map();
Object.keys(options.fromObject).forEach(key => {
const value = options.fromObject[key];
// convert the values to strings
const values = Array.isArray(value) ? value.map(valueToString) : [valueToString(value)];
this.map.set(key, values);
});
}
else {
this.map = null;
}
}
/**
* Reports whether the body includes one or more values for a given parameter.
* @param param The parameter name.
* @returns True if the parameter has one or more values,
* false if it has no value or is not present.
*/
has(param) {
this.init();
return this.map.has(param);
}
/**
* Retrieves the first value for a parameter.
* @param param The parameter name.
* @returns The first value of the given parameter,
* or `null` if the parameter is not present.
*/
get(param) {
this.init();
const res = this.map.get(param);
return !!res ? res[0] : null;
}
/**
* Retrieves all values for a parameter.
* @param param The parameter name.
* @returns All values in a string array,
* or `null` if the parameter not present.
*/
getAll(param) {
this.init();
return this.map.get(param) || null;
}
/**
* Retrieves all the parameters for this body.
* @returns The parameter names in a string array.
*/
keys() {
this.init();
return Array.from(this.map.keys());
}
/**
* Appends a new value to existing values for a parameter.
* @param param The parameter name.
* @param value The new value to add.
* @return A new body with the appended value.
*/
append(param, value) {
return this.clone({ param, value, op: 'a' });
}
/**
* Constructs a new body with appended values for the given parameter name.
* @param params parameters and values
* @return A new body with the new value.
*/
appendAll(params) {
const updates = [];
Object.keys(params).forEach(param => {
const value = params[param];
if (Array.isArray(value)) {
value.forEach(_value => {
updates.push({ param, value: _value, op: 'a' });
});
}
else {
updates.push({ param, value: value, op: 'a' });
}
});
return this.clone(updates);
}
/**
* Replaces the value for a parameter.
* @param param The parameter name.
* @param value The new value.
* @return A new body with the new value.
*/
set(param, value) {
return this.clone({ param, value, op: 's' });
}
/**
* Removes a given value or all values from a parameter.
* @param param The parameter name.
* @param value The value to remove, if provided.
* @return A new body with the given value removed, or with all values
* removed if no value is specified.
*/
delete(param, value) {
return this.clone({ param, value, op: 'd' });
}
/**
* Serializes the body to an encoded string, where key-value pairs (separated by `=`) are
* separated by `&`s.
*/
toString() {
this.init();
return this.keys()
.map(key => {
const eKey = this.encoder.encodeKey(key);
// `a: ['1']` produces `'a=1'`
// `b: []` produces `''`
// `c: ['1', '2']` produces `'c=1&c=2'`
return this.map.get(key).map(value => eKey + '=' + this.encoder.encodeValue(value))
.join('&');
})
// filter out empty values because `b: []` produces `''`
// which results in `a=1&&c=1&c=2` instead of `a=1&c=1&c=2` if we don't
.filter(param => param !== '')
.join('&');
}
clone(update) {
const clone = new HttpParams({ encoder: this.encoder });
clone.cloneFrom = this.cloneFrom || this;
clone.updates = (this.updates || []).concat(update);
return clone;
}
init() {
if (this.map === null) {
this.map = new Map();
}
if (this.cloneFrom !== null) {
this.cloneFrom.init();
this.cloneFrom.keys().forEach(key => this.map.set(key, this.cloneFrom.map.get(key)));
this.updates.forEach(update => {
switch (update.op) {
case 'a':
case 's':
const base = (update.op === 'a' ? this.map.get(update.param) : undefined) || [];
base.push(valueToString(update.value));
this.map.set(update.param, base);
break;
case 'd':
if (update.value !== undefined) {
let base = this.map.get(update.param) || [];
const idx = base.indexOf(valueToString(update.value));
if (idx !== -1) {
base.splice(idx, 1);
}
if (base.length > 0) {
this.map.set(update.param, base);
}
else {
this.map.delete(update.param);
}
}
else {
this.map.delete(update.param);
break;
}
}
});
this.cloneFrom = this.updates = null;
}
}
}
/**
* A token used to manipulate and access values stored in `HttpContext`.
*
* @publicApi
*/
class HttpContextToken {
constructor(defaultValue) {
this.defaultValue = defaultValue;
}
}
/**
* Http context stores arbitrary user defined values and ensures type safety without
* actually knowing the types. It is backed by a `Map` and guarantees that keys do not clash.
*
* This context is mutable and is shared between cloned requests unless explicitly specified.
*
* @usageNotes
*
* ### Usage Example
*
* ```typescript
* // inside cache.interceptors.ts
* export const IS_CACHE_ENABLED = new HttpContextToken<boolean>(() => false);
*
* export class CacheInterceptor implements HttpInterceptor {
*
* intercept(req: HttpRequest<any>, delegate: HttpHandler): Observable<HttpEvent<any>> {
* if (req.context.get(IS_CACHE_ENABLED) === true) {
* return ...;
* }
* return delegate.handle(req);
* }
* }
*
* // inside a service
*
* this.httpClient.get('/api/weather', {
* context: new HttpContext().set(IS_CACHE_ENABLED, true)
* }).subscribe(...);
* ```
*
* @publicApi
*/
class HttpContext {
constructor() {
this.map = new Map();
}
/**
* Store a value in the context. If a value is already present it will be overwritten.
*
* @param token The reference to an instance of `HttpContextToken`.
* @param value The value to store.
*
* @returns A reference to itself for easy chaining.
*/
set(token, value) {
this.map.set(token, value);
return this;
}
/**
* Retrieve the value associated with the given token.
*
* @param token The reference to an instance of `HttpContextToken`.
*
* @returns The stored value or default if one is defined.
*/
get(token) {
if (!this.map.has(token)) {
this.map.set(token, token.defaultValue());
}
return this.map.get(token);
}
/**
* Delete the value associated with the given token.
*
* @param token The reference to an instance of `HttpContextToken`.
*
* @returns A reference to itself for easy chaining.
*/
delete(token) {
this.map.delete(token);
return this;
}
/**
* Checks for existence of a given token.
*
* @param token The reference to an instance of `HttpContextToken`.
*
* @returns True if the token exists, false otherwise.
*/
has(token) {
return this.map.has(token);
}
/**
* @returns a list of tokens currently stored in the context.
*/
keys() {
return this.map.keys();
}
}
/**
* Determine whether the given HTTP method may include a body.
*/
function mightHaveBody(method) {
switch (method) {
case 'DELETE':
case 'GET':
case 'HEAD':
case 'OPTIONS':
case 'JSONP':
return false;
default:
return true;
}
}
/**
* Safely assert whether the given value is an ArrayBuffer.
*
* In some execution environments ArrayBuffer is not defined.
*/
function isArrayBuffer(value) {
return typeof ArrayBuffer !== 'undefined' && value instanceof ArrayBuffer;
}
/**
* Safely assert whether the given value is a Blob.
*
* In some execution environments Blob is not defined.
*/
function isBlob(value) {
return typeof Blob !== 'undefined' && value instanceof Blob;
}
/**
* Safely assert whether the given value is a FormData instance.
*
* In some execution environments FormData is not defined.
*/
function isFormData(value) {
return typeof FormData !== 'undefined' && value instanceof FormData;
}
/**
* Safely assert whether the given value is a URLSearchParams instance.
*
* In some execution environments URLSearchParams is not defined.
*/
function isUrlSearchParams(value) {
return typeof URLSearchParams !== 'undefined' && value instanceof URLSearchParams;
}
/**
* An outgoing HTTP request with an optional typed body.
*
* `HttpRequest` represents an outgoing request, including URL, method,
* headers, body, and other request configuration options. Instances should be
* assumed to be immutable. To modify a `HttpRequest`, the `clone`
* method should be used.
*
* @publicApi
*/
class HttpRequest {
constructor(method, url, third, fourth) {
this.url = url;
/**
* The request body, or `null` if one isn't set.
*
* Bodies are not enforced to be immutable, as they can include a reference to any
* user-defined data type. However, interceptors should take care to preserve
* idempotence by treating them as such.
*/
this.body = null;
/**
* Whether this request should be made in a way that exposes progress events.
*
* Progress events are expensive (change detection runs on each event) and so
* they should only be requested if the consumer intends to monitor them.
*
* Note: The `FetchBackend` doesn't support progress report on uploads.
*/
this.reportProgress = false;
/**
* Whether this request should be sent with outgoing credentials (cookies).
*/
this.withCredentials = false;
/**
* The expected response type of the server.
*
* This is used to parse the response appropriately before returning it to
* the requestee.
*/
this.responseType = 'json';
this.method = method.toUpperCase();
// Next, need to figure out which argument holds the HttpRequestInit
// options, if any.
let options;
// Check whether a body argument is expected. The only valid way to omit
// the body argument is to use a known no-body method like GET.
if (mightHaveBody(this.method) || !!fourth) {
// Body is the third argument, options are the fourth.
this.body = (third !== undefined) ? third : null;
options = fourth;
}
else {
// No body required, options are the third argument. The body stays null.
options = third;
}
// If options have been passed, interpret them.
if (options) {
// Normalize reportProgress and withCredentials.
this.reportProgress = !!options.reportProgress;
this.withCredentials = !!options.withCredentials;
// Override default response type of 'json' if one is provided.
if (!!options.responseType) {
this.responseType = options.responseType;
}
// Override headers if they're provided.
if (!!options.headers) {
this.headers = options.headers;
}
if (!!options.context) {
this.context = options.context;
}
if (!!options.params) {
this.params = options.params;
}
}
// If no headers have been passed in, construct a new HttpHeaders instance.
if (!this.headers) {
this.headers = new HttpHeaders();
}
// If no context have been passed in, construct a new HttpContext instance.
if (!this.context) {
this.context = new HttpContext();
}
// If no parameters have been passed in, construct a new HttpUrlEncodedParams instance.
if (!this.params) {
this.params = new HttpParams();
this.urlWithParams = url;
}
else {
// Encode the parameters to a string in preparation for inclusion in the URL.
const params = this.params.toString();
if (params.length === 0) {
// No parameters, the visible URL is just the URL given at creation time.
this.urlWithParams = url;
}
else {
// Does the URL already have query parameters? Look for '?'.
const qIdx = url.indexOf('?');
// There are 3 cases to handle:
// 1) No existing parameters -> append '?' followed by params.
// 2) '?' exists and is followed by existing query string ->
// append '&' followed by params.
// 3) '?' exists at the end of the url -> append params directly.
// This basically amounts to determining the character, if any, with
// which to join the URL and parameters.
const sep = qIdx === -1 ? '?' : (qIdx < url.length - 1 ? '&' : '');
this.urlWithParams = url + sep + params;
}
}
}
/**
* Transform the free-form body into a serialized format suitable for
* transmission to the server.
*/
serializeBody() {
// If no body is present, no need to serialize it.
if (this.body === null) {
return null;
}
// Check whether the body is already in a serialized form. If so,
// it can just be returned directly.
if (isArrayBuffer(this.body) || isBlob(this.body) || isFormData(this.body) ||
isUrlSearchParams(this.body) || typeof this.body === 'string') {
return this.body;
}
// Check whether the body is an instance of HttpUrlEncodedParams.
if (this.body instanceof HttpParams) {
return this.body.toString();
}
// Check whether the body is an object or array, and serialize with JSON if so.
if (typeof this.body === 'object' || typeof this.body === 'boolean' ||
Array.isArray(this.body)) {
return JSON.stringify(this.body);
}
// Fall back on toString() for everything else.
return this.body.toString();
}
/**
* Examine the body and attempt to infer an appropriate MIME type
* for it.
*
* If no such type can be inferred, this method will return `null`.
*/
detectContentTypeHeader() {
// An empty body has no content type.
if (this.body === null) {
return null;
}
// FormData bodies rely on the browser's content type assignment.
if (isFormData(this.body)) {
return null;
}
// Blobs usually have their own content type. If it doesn't, then
// no type can be inferred.
if (isBlob(this.body)) {
return this.body.type || null;
}
// Array buffers have unknown contents and thus no type can be inferred.
if (isArrayBuffer(this.body)) {
return null;
}
// Technically, strings could be a form of JSON data, but it's safe enough
// to assume they're plain strings.
if (typeof this.body === 'string') {
return 'text/plain';
}
// `HttpUrlEncodedParams` has its own content-type.
if (this.body instanceof HttpParams) {
return 'application/x-www-form-urlencoded;charset=UTF-8';
}
// Arrays, objects, boolean and numbers will be encoded as JSON.
if (typeof this.body === 'object' || typeof this.body === 'number' ||
typeof this.body === 'boolean') {
return 'application/json';
}
// No type could be inferred.
return null;
}
clone(update = {}) {
// For method, url, and responseType, take the current value unless
// it is overridden in the update hash.
const method = update.method || this.method;
const url = update.url || this.url;
const responseType = update.responseType || this.responseType;
// The body is somewhat special - a `null` value in update.body means
// whatever current body is present is being overridden with an empty
// body, whereas an `undefined` value in update.body implies no
// override.
const body = (update.body !== undefined) ? update.body : this.body;
// Carefully handle the boolean options to differentiate between
// `false` and `undefined` in the update args.
const withCredentials = (update.withCredentials !== undefined) ? update.withCredentials : this.withCredentials;
const reportProgress = (update.reportProgress !== undefined) ? update.reportProgress : this.reportProgress;
// Headers and params may be appended to if `setHeaders` or
// `setParams` are used.
let headers = update.headers || this.headers;
let params = update.params || this.params;
// Pass on context if needed
const context = update.context ?? this.context;
// Check whether the caller has asked to add headers.
if (update.setHeaders !== undefined) {
// Set every requested header.
headers =
Object.keys(update.setHeaders)
.reduce((headers, name) => headers.set(name, update.setHeaders[name]), headers);
}
// Check whether the caller has asked to set params.
if (update.setParams) {
// Set every requested param.
params = Object.keys(update.setParams)
.reduce((params, param) => params.set(param, update.setParams[param]), params);
}
// Finally, construct the new HttpRequest using the pieces from above.
return new HttpRequest(method, url, body, {
params,
headers,
context,
reportProgress,
responseType,
withCredentials,
});
}
}
/**
* Type enumeration for the different kinds of `HttpEvent`.
*
* @publicApi
*/
var HttpEventType;
(function (HttpEventType) {
/**
* The request was sent out over the wire.
*/
HttpEventType[HttpEventType["Sent"] = 0] = "Sent";
/**
* An upload progress event was received.
*
* Note: The `FetchBackend` doesn't support progress report on uploads.
*/
HttpEventType[HttpEventType["UploadProgress"] = 1] = "UploadProgress";
/**
* The response status code and headers were received.
*/
HttpEventType[HttpEventType["ResponseHeader"] = 2] = "ResponseHeader";
/**
* A download progress event was received.
*/
HttpEventType[HttpEventType["DownloadProgress"] = 3] = "DownloadProgress";
/**
* The full response including the body was received.
*/
HttpEventType[HttpEventType["Response"] = 4] = "Response";
/**
* A custom event from an interceptor or a backend.
*/
HttpEventType[HttpEventType["User"] = 5] = "User";
})(HttpEventType || (HttpEventType = {}));
/**
* Base class for both `HttpResponse` and `HttpHeaderResponse`.
*
* @publicApi
*/
class HttpResponseBase {
/**
* Super-constructor for all responses.
*
* The single parameter accepted is an initialization hash. Any properties
* of the response passed there will override the default values.
*/
constructor(init, defaultStatus = 200 /* HttpStatusCode.Ok */, defaultStatusText = 'OK') {
// If the hash has values passed, use them to initialize the response.
// Otherwise use the default values.
this.headers = init.headers || new HttpHeaders();
this.status = init.status !== undefined ? init.status : defaultStatus;
this.statusText = init.statusText || defaultStatusText;
this.url = init.url || null;
// Cache the ok value to avoid defining a getter.
this.ok = this.status >= 200 && this.status < 300;
}
}
/**
* A partial HTTP response which only includes the status and header data,
* but no response body.
*
* `HttpHeaderResponse` is a `HttpEvent` available on the response
* event stream, only when progress events are requested.
*
* @publicApi
*/
class HttpHeaderResponse extends HttpResponseBase {
/**
* Create a new `HttpHeaderResponse` with the given parameters.
*/
constructor(init = {}) {
super(init);
this.type = HttpEventType.ResponseHeader;
}
/**
* Copy this `HttpHeaderResponse`, overriding its contents with the
* given parameter hash.
*/
clone(update = {}) {
// Perform a straightforward initialization of the new HttpHeaderResponse,
// overriding the current parameters with new ones if given.
return new HttpHeaderResponse({
headers: update.headers || this.headers,
status: update.status !== undefined ? update.status : this.status,
statusText: update.statusText || this.statusText,
url: update.url || this.url || undefined,
});
}
}
/**
* A full HTTP response, including a typed response body (which may be `null`
* if one was not returned).
*
* `HttpResponse` is a `HttpEvent` available on the response event
* stream.
*
* @publicApi
*/
class HttpResponse extends HttpResponseBase {
/**
* Construct a new `HttpResponse`.
*/
constructor(init = {}) {
super(init);
this.type = HttpEventType.Response;
this.body = init.body !== undefined ? init.body : null;
}
clone(update = {}) {
return new HttpResponse({
body: (update.body !== undefined) ? update.body : this.body,
headers: update.headers || this.headers,
status: (update.status !== undefined) ? update.status : this.status,
statusText: update.statusText || this.statusText,
url: update.url || this.url || undefined,
});
}
}
/**
* A response that represents an error or failure, either from a
* non-successful HTTP status, an error while executing the request,
* or some other failure which occurred during the parsing of the response.
*
* Any error returned on the `Observable` response stream will be
* wrapped in an `HttpErrorResponse` to provide additional context about
* the state of the HTTP layer when the error occurred. The error property
* will contain either a wrapped Error object or the error response returned
* from the server.
*
* @publicApi
*/
class HttpErrorResponse extends HttpResponseBase {
constructor(init) {
// Initialize with a default status of 0 / Unknown Error.
super(init, 0, 'Unknown Error');
this.name = 'HttpErrorResponse';
/**
* Errors are never okay, even when the status code is in the 2xx success range.
*/
this.ok = false;
// If the response was successful, then this was a parse error. Otherwise, it was
// a protocol-level failure of some sort. Either the request failed in transit
// or the server returned an unsuccessful status code.
if (this.status >= 200 && this.status < 300) {
this.message = `Http failure during parsing for ${init.url || '(unknown url)'}`;
}
else {
this.message = `Http failure response for ${init.url || '(unknown url)'}: ${init.status} ${init.statusText}`;
}
this.error = init.error || null;
}
}
/**
* Constructs an instance of `HttpRequestOptions<T>` from a source `HttpMethodOptions` and
* the given `body`. This function clones the object and adds the body.
*
* Note that the `responseType` *options* value is a String that identifies the
* single data type of the response.
* A single overload version of the method handles each response type.
* The value of `responseType` cannot be a union, as the combined signature could imply.
*
*/
function addBody(options, body) {
return {
body,
headers: options.headers,
context: options.context,
observe: options.observe,
params: options.params,
reportProgress: options.reportProgress,
responseType: options.responseType,
withCredentials: options.withCredentials,
};
}
/**
* Performs HTTP requests.
* This service is available as an injectable class, with methods to perform HTTP requests.
* Each request method has multiple signatures, and the return type varies based on
* the signature that is called (mainly the values of `observe` and `responseType`).
*
* Note that the `responseType` *options* value is a String that identifies the
* single data type of the response.
* A single overload version of the method handles each response type.
* The value of `responseType` cannot be a union, as the combined signature could imply.
*
* @usageNotes
* Sample HTTP requests for the [Tour of Heroes](/tutorial/tour-of-heroes/toh-pt0) application.
*
* ### HTTP Request Example
*
* ```
* // GET heroes whose name contains search term
* searchHeroes(term: string): observable<Hero[]>{
*
* const params = new HttpParams({fromString: 'name=term'});
* return this.httpClient.request('GET', this.heroesUrl, {responseType:'json', params});
* }
* ```
*
* Alternatively, the parameter string can be used without invoking HttpParams
* by directly joining to the URL.
* ```
* this.httpClient.request('GET', this.heroesUrl + '?' + 'name=term', {responseType:'json'});
* ```
*
*
* ### JSONP Example
* ```
* requestJsonp(url, callback = 'callback') {
* return this.httpClient.jsonp(this.heroesURL, callback);
* }
* ```
*
* ### PATCH Example
* ```
* // PATCH one of the heroes' name
* patchHero (id: number, heroName: string): Observable<{}> {
* const url = `${this.heroesUrl}/${id}`; // PATCH api/heroes/42
* return this.httpClient.patch(url, {name: heroName}, httpOptions)
* .pipe(catchError(this.handleError('patchHero')));
* }
* ```
*
* @see [HTTP Guide](guide/understanding-communicating-with-http)
* @see [HTTP Request](api/common/http/HttpRequest)
*
* @publicApi
*/
class HttpClient {
constructor(handler) {
this.handler = handler;
}
/**
* Constructs an observable for a generic HTTP request that, when subscribed,
* fires the request through the chain of registered interceptors and on to the
* server.
*
* You can pass an `HttpRequest` directly as the only parameter. In this case,
* the call returns an observable of the raw `HttpEvent` stream.
*
* Alternatively you can pass an HTTP method as the first parameter,
* a URL string as the second, and an options hash containing the request body as the third.
* See `addBody()`. In this case, the specified `responseType` and `observe` options determine the
* type of returned observable.
* * The `responseType` value determines how a successful response body is parsed.
* * If `responseType` is the default `json`, you can pass a type interface for the resulting
* object as a type parameter to the call.
*
* The `observe` value determines the return type, according to what you are interested in
* observing.
* * An `observe` value of events returns an observable of the raw `HttpEvent` stream, including
* progress events by default.
* * An `observe` value of response returns an observable of `HttpResponse<T>`,
* where the `T` parameter depends on the `responseType` and any optionally provided type
* parameter.
* * An `observe` value of body returns an observable of `<T>` with the same `T` body type.
*
*/
request(first, url, options = {}) {
let req;
// First, check whether the primary argument is an instance of `HttpRequest`.
if (first instanceof HttpRequest) {
// It is. The other arguments must be undefined (per the signatures) and can be
// ignored.
req = first;
}
else {
// It's a string, so it represents a URL. Construct a request based on it,
// and incorporate the remaining arguments (assuming `GET` unless a method is
// provided.
// Figure out the headers.
let headers = undefined;
if (options.headers instanceof HttpHeaders) {
headers = options.headers;
}
else {
headers = new HttpHeaders(options.headers);
}
// Sort out parameters.
let params = undefined;
if (!!options.params) {
if (options.params instanceof HttpParams) {
params = options.params;
}
else {
params = new HttpParams({ fromObject: options.params });
}
}
// Construct the request.
req = new HttpRequest(first, url, (options.body !== undefined ? options.body : null), {
headers,
context: options.context,
params,
reportProgress: options.reportProgress,
// By default, JSON is assumed to be returned for all calls.
responseType: options.responseType || 'json',
withCredentials: options.withCredentials,
});
}
// Start with an Observable.of() the initial request, and run the handler (which
// includes all interceptors) inside a concatMap(). This way, the handler runs
// inside an Observable chain, which causes interceptors to be re-run on every
// subscription (this also makes retries re-run the handler, including interceptors).
const events$ = of(req).pipe(concatMap((req) => this.handler.handle(req)));
// If coming via the API signature which accepts a previously constructed HttpRequest,
// the only option is to get the event stream. Otherwise, return the event stream if
// that is what was requested.
if (first instanceof HttpRequest || options.observe === 'events') {
return events$;
}
// The requested stream contains either the full response or the body. In either
// case, the first step is to filter the event stream to extract a stream of
// responses(s).
const res$ = events$.pipe(filter((event) => event instanceof HttpResponse));
// Decide which stream to return.
switch (options.observe || 'body') {
case 'body':
// The requested stream is the body. Map the response stream to the response
// body. This could be done more simply, but a misbehaving interceptor might
// transform the response body into a different format and ignore the requested
// responseType. Guard against this by validating that the response is of the
// requested type.
switch (req.responseType) {
case 'arraybuffer':
return res$.pipe(map((res) => {
// Validate that the body is an ArrayBuffer.
if (res.body !== null && !(res.body instanceof ArrayBuffer)) {
throw new Error('Response is not an ArrayBuffer.');
}
return res.body;
}));
case 'blob':
return res$.pipe(map((res) => {
// Validate that the body is a Blob.
if (res.body !== null && !(res.body instanceof Blob)) {
throw new Error('Response is not a Blob.');
}
return res.body;
}));
case 'text':
return res$.pipe(map((res) => {
// Validate that the body is a string.
if (res.body !== null && typeof res.body !== 'string') {
throw new Error('Response is not a string.');
}
return res.body;
}));
case 'json':
default:
// No validation needed for JSON responses, as they can be of any type.
return res$.pipe(map((res) => res.body));
}
case 'response':
// The response stream was requested directly, so return it.
return res$;
default:
// Guard against new future observe types being added.
throw new Error(`Unreachable: unhandled observe type ${options.observe}}`);
}
}
/**
* Constructs an observable that, when subscribed, causes the configured
* `DELETE` request to execute on the server. See the individual overloads for
* details on the return type.
*
* @param url The endpoint URL.
* @param options The HTTP options to send with the request.
*
*/
delete(url, options = {}) {
return this.request('DELETE', url, options);
}
/**
* Constructs an observable that, when subscribed, causes the configured
* `GET` request to execute on the server. See the individual overloads for
* details on the return type.
*/
get(url, options = {}) {
return this.request('GET', url, options);
}
/**
* Constructs an observable that, when subscribed, causes the configured
* `HEAD` request to execute on the server. The `HEAD` method returns
* meta information about the resource without transferring the
* resource itself. See the individual overloads for
* details on the return type.
*/
head(url, options = {}) {
return this.request('HEAD', url, options);
}
/**
* Constructs an `Observable` that, when subscribed, causes a request with the special method
* `JSONP` to be dispatched via the interceptor pipeline.
* The [JSONP pattern](https://en.wikipedia.org/wiki/JSONP) works around limitations of certain
* API endpoints that don't support newer,
* and preferable [CORS](https://developer.mozilla.org/en-US/docs/Web/HTTP/CORS) protocol.
* JSONP treats the endpoint API as a JavaScript file and tricks the browser to process the
* requests even if the API endpoint is not located on the same domain (origin) as the client-side
* application making the request.
* The endpoint API must support JSONP callback for JSONP requests to work.
* The resource API returns the JSON response wrapped in a callback function.
* You can pass the callback function name as one of the query parameters.
* Note that JSONP requests can only be used with `GET` requests.
*
* @param url The resource URL.
* @param callbackParam The callback function name.
*
*/
jsonp(url, callbackParam) {
return this.request('JSONP', url, {
params: new HttpParams().append(callbackParam, 'JSONP_CALLBACK'),
observe: 'body',
responseType: 'json',
});
}
/**
* Constructs an `Observable` that, when subscribed, causes the configured
* `OPTIONS` request to execute on the server. This method allows the client
* to determine the supported HTTP methods and other capabilities of an endpoint,
* without implying a resource action. See the individual overloads for
* details on the return type.
*/
options(url, options = {}) {
return this.request('OPTIONS', url, options);
}
/**
* Constructs an observable that, when subscribed, causes the configured
* `PATCH` request to execute on the server. See the individual overloads for
* details on the return type.
*/
patch(url, body, options = {}) {
return this.request('PATCH', url, addBody(options, body));
}
/**
* Constructs an observable that, when subscribed, causes the configured
* `POST` request to execute on the server. The server responds with the location of
* the replaced resource. See the individual overloads for
* details on the return type.
*/
post(url, body, options = {}) {
return this.request('POST', url, addBody(options, body));
}
/**
* Constructs an observable that, when subscribed, causes the configured
* `PUT` request to execute on the server. The `PUT` method replaces an existing resource
* with a new set of values.
* See the individual overloads for details on the return type.
*/
put(url, body, options = {}) {
return this.request('PUT', url, addBody(options, body));
}
static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClient, deps: [{ token: HttpHandler }], target: i0.ɵɵFactoryTarget.Injectable }); }
static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClient }); }
}
i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClient, decorators: [{
type: Injectable
}], ctorParameters: function () { return [{ type: HttpHandler }]; } });
const XSSI_PREFIX$1 = /^\)\]\}',?\n/;
const REQUEST_URL_HEADER = `X-Request-URL`;
/**
* Determine an appropriate URL for the response, by checking either
* response url or the X-Request-URL header.
*/
function getResponseUrl$1(response) {
if (response.url) {
return response.url;
}
// stored as lowercase in the map
const xRequestUrl = REQUEST_URL_HEADER.toLocaleLowerCase();
return response.headers.get(xRequestUrl);
}
/**
* Uses `fetch` to send requests to a backend server.
*
* This `FetchBackend` requires the support of the
* [Fetch API](https://developer.mozilla.org/en-US/docs/Web/API/Fetch_API) which is available on all
* supported browsers and on Node.js v18 or later.
*
* @see {@link HttpHandler}
*
* @publicApi
* @developerPreview
*/
class FetchBackend {
constructor() {
// We need to bind the native fetch to its context or it will throw an "illegal invocation"
this.fetchImpl = inject(FetchFactory, { optional: true })?.fetch ?? fetch.bind(globalThis);
this.ngZone = inject(NgZone);
}
handle(request) {
return new Observable(observer => {
const aborter = new AbortController();
this.doRequest(request, aborter.signal, observer)
.then(noop, error => observer.error(new HttpErrorResponse({ error })));
return () => aborter.abort();
});
}
async doRequest(request, signal, observer) {
const init = this.createRequestInit(request);
let response;
try {
const fetchPromise = this.fetchImpl(request.urlWithParams, { signal, ...init });
// Make sure Zone.js doesn't trigger false-positive unhandled promise
// error in case the Promise is rejected synchronously. See function
// description for additional information.
silenceSuperfluousUnhandledPromiseRejection(fetchPromise);
// Send the `Sent` event before awaiting the response.
observer.next({ type: HttpEventType.Sent });
response = await fetchPromise;
}
catch (error) {
observer.error(new HttpErrorResponse({
error,
status: error.status ?? 0,
statusText: error.statusText,
url: request.urlWithParams,
headers: error.headers,
}));
return;
}
const headers = new HttpHeaders(response.headers);
const statusText = response.statusText;
const url = getResponseUrl$1(response) ?? request.urlWithParams;
let status = response.status;
let body = null;
if (request.reportProgress) {
observer.next(new HttpHeaderResponse({ headers, status, statusText, url }));
}
if (response.body) {
// Read Progress
const contentLength = response.headers.get('content-length');
const chunks = [];
const reader = response.body.getReader();
let receivedLength = 0;
let decoder;
let partialText;
// We have to check whether the Zone is defined in the global scope because this may be called
// when the zone is nooped.
const reqZone = typeof Zone !== 'undefined' && Zone.current;
// Perform response processing outside of Angular zone to
// ensure no excessive change detection runs are executed
// Here calling the async ReadableStreamDefaultReader.read() is responsible for triggering CD
await this.ngZone.runOutsideAngular(async () => {
while (true) {
const { done, value } = await reader.read();
if (done) {
break;
}
chunks.push(value);
receivedLength += value.length;
if (request.reportProgress) {
partialText = request.responseType === 'text' ?
(partialText ?? '') + (decoder ??= new TextDecoder).decode(value, { stream: true }) :
undefined;
const reportProgress = () => observer.next({
type: HttpEventType.DownloadProgress,
total: contentLength ? +contentLength : undefined,
loaded: receivedLength,
partialText,
});
reqZone ? reqZone.run(reportProgress) : reportProgress();
}
}
});
// Combine all chunks.
const chunksAll = this.concatChunks(chunks, receivedLength);
try {
body = this.parseBody(request, chunksAll);
}
catch (error) {
// Body loading or parsing failed
observer.error(new HttpErrorResponse({
error,
headers: new HttpHeaders(response.headers),
status: response.status,
statusText: response.statusText,
url: getResponseUrl$1(response) ?? request.urlWithParams,
}));
return;
}
}
// Same behavior as the XhrBackend
if (status === 0) {
status = body ? 200 /* HttpStatusCode.Ok */ : 0;
}
// ok determines whether the response will be transmitted on the event or
// error channel. Unsuccessful status codes (not 2xx) will always be errors,
// but a successful status code can still result in an error if the user
// asked for JSON data and the body cannot be parsed as such.
const ok = status >= 200 && status < 300;
if (ok) {
observer.next(new HttpResponse({
body,
headers,
status,
statusText,
url,
}));
// The full body has been received and delivered, no further events
// are possible. This request is complete.
observer.complete();
}
else {
observer.error(new HttpErrorResponse({
error: body,
headers,
status,
statusText,
url,
}));
}
}
parseBody(request, binContent) {
switch (request.responseType) {
case 'json':
// stripping the XSSI when present
const text = new TextDecoder().decode(binContent).replace(XSSI_PREFIX$1, '');
return text === '' ? null : JSON.parse(text);
case 'text':
return new TextDecoder().decode(binContent);
case 'blob':
return new Blob([binContent]);
case 'arraybuffer':
return binContent.buffer;
}
}
createRequestInit(req) {
// We could share some of this logic with the XhrBackend
const headers = {};
const credentials = req.withCredentials ? 'include' : undefined;
// Setting all the requested headers.
req.headers.forEach((name, values) => (headers[name] = values.join(',')));
// Add an Accept header if one isn't present already.
headers['Accept'] ??= 'application/json, text/plain, */*';
// Auto-detect the Content-Type header if one isn't present already.
if (!headers['Content-Type']) {
const detectedType = req.detectContentTypeHeader();
// Sometimes Content-Type detection fails.
if (detectedType !== null) {
headers['Content-Type'] = detectedType;
}
}
return {
body: req.serializeBody(),
method: req.method,
headers,
credentials,
};
}
concatChunks(chunks, totalLength) {
const chunksAll = new Uint8Array(totalLength);
let position = 0;
for (const chunk of chunks) {
chunksAll.set(chunk, position);
position += chunk.length;
}
return chunksAll;
}
static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: FetchBackend, deps: [], target: i0.ɵɵFactoryTarget.Injectable }); }
static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: FetchBackend }); }
}
i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: FetchBackend, decorators: [{
type: Injectable
}] });
/**
* Abstract class to provide a mocked implementation of `fetch()`
*/
class FetchFactory {
}
function noop() { }
/**
* Zone.js treats a rejected promise that has not yet been awaited
* as an unhandled error. This function adds a noop `.then` to make
* sure that Zone.js doesn't throw an error if the Promise is rejected
* synchronously.
*/
function silenceSuperfluousUnhandledPromiseRejection(promise) {
promise.then(noop, noop);
}
function interceptorChainEndFn(req, finalHandlerFn) {
return finalHandlerFn(req);
}
/**
* Constructs a `ChainedInterceptorFn` which adapts a legacy `HttpInterceptor` to the
* `ChainedInterceptorFn` interface.
*/
function adaptLegacyInterceptorToChain(chainTailFn, interceptor) {
return (initialRequest, finalHandlerFn) => interceptor.intercept(initialRequest, {
handle: (downstreamRequest) => chainTailFn(downstreamRequest, finalHandlerFn),
});
}
/**
* Constructs a `ChainedInterceptorFn` which wraps and invokes a functional interceptor in the given
* injector.
*/
function chainedInterceptorFn(chainTailFn, interceptorFn, injector) {
// clang-format off
return (initialRequest, finalHandlerFn) => injector.runInContext(() => interceptorFn(initialRequest, downstreamRequest => chainTailFn(downstreamRequest, finalHandlerFn)));
// clang-format on
}
/**
* A multi-provider token that represents the array of registered
* `HttpInterceptor` objects.
*
* @publicApi
*/
const HTTP_INTERCEPTORS = new InjectionToken(ngDevMode ? 'HTTP_INTERCEPTORS' : '');
/**
* A multi-provided token of `HttpInterceptorFn`s.
*/
const HTTP_INTERCEPTOR_FNS = new InjectionToken(ngDevMode ? 'HTTP_INTERCEPTOR_FNS' : '');
/**
* A multi-provided token of `HttpInterceptorFn`s that are only set in root.
*/
const HTTP_ROOT_INTERCEPTOR_FNS = new InjectionToken(ngDevMode ? 'HTTP_ROOT_INTERCEPTOR_FNS' : '');
/**
* Creates an `HttpInterceptorFn` which lazily initializes an interceptor chain from the legacy
* class-based interceptors and runs the request through it.
*/
function legacyInterceptorFnFactory() {
let chain = null;
return (req, handler) => {
if (chain === null) {
const interceptors = inject(HTTP_INTERCEPTORS, { optional: true }) ?? [];
// Note: interceptors are wrapped right-to-left so that final execution order is
// left-to-right. That is, if `interceptors` is the array `[a, b, c]`, we want to
// produce a chain that is conceptually `c(b(a(end)))`, which we build from the inside
// out.
chain = interceptors.reduceRight(adaptLegacyInterceptorToChain, interceptorChainEndFn);
}
const pendingTasks = inject(ɵInitialRenderPendingTasks);
const taskId = pendingTasks.add();
return chain(req, handler).pipe(finalize(() => pendingTasks.remove(taskId)));
};
}
class HttpInterceptorHandler extends HttpHandler {
constructor(backend, injector) {
super();
this.backend = backend;
this.injector = injector;
this.chain = null;
this.pendingTasks = inject(ɵInitialRenderPendingTasks);
}
handle(initialRequest) {
if (this.chain === null) {
const dedupedInterceptorFns = Array.from(new Set([
...this.injector.get(HTTP_INTERCEPTOR_FNS),
...this.injector.get(HTTP_ROOT_INTERCEPTOR_FNS, []),
]));
// Note: interceptors are wrapped right-to-left so that final execution order is
// left-to-right. That is, if `dedupedInterceptorFns` is the array `[a, b, c]`, we want to
// produce a chain that is conceptually `c(b(a(end)))`, which we build from the inside
// out.
this.chain = dedupedInterceptorFns.reduceRight((nextSequencedFn, interceptorFn) => chainedInterceptorFn(nextSequencedFn, interceptorFn, this.injector), interceptorChainEndFn);
}
const taskId = this.pendingTasks.add();
return this.chain(initialRequest, downstreamRequest => this.backend.handle(downstreamRequest))
.pipe(finalize(() => this.pendingTasks.remove(taskId)));
}
static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpInterceptorHandler, deps: [{ token: HttpBackend }, { token: i0.EnvironmentInjector }], target: i0.ɵɵFactoryTarget.Injectable }); }
static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpInterceptorHandler }); }
}
i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpInterceptorHandler, decorators: [{
type: Injectable
}], ctorParameters: function () { return [{ type: HttpBackend }, { type: i0.EnvironmentInjector }]; } });
// Every request made through JSONP needs a callback name that's unique across the
// whole page. Each request is assigned an id and the callback name is constructed
// from that. The next id to be assigned is tracked in a global variable here that
// is shared among all applications on the page.
let nextRequestId = 0;
/**
* When a pending <script> is unsubscribed we'll move it to this document, so it won't be
* executed.
*/
let foreignDocument;
// Error text given when a JSONP script is injected, but doesn't invoke the callback
// passed in its URL.
const JSONP_ERR_NO_CALLBACK = 'JSONP injected script did not invoke callback.';
// Error text given when a request is passed to the JsonpClientBackend that doesn't
// have a request method JSONP.
const JSONP_ERR_WRONG_METHOD = 'JSONP requests must use JSONP request method.';
const JSONP_ERR_WRONG_RESPONSE_TYPE = 'JSONP requests must use Json response type.';
// Error text given when a request is passed to the JsonpClientBackend that has
// headers set
const JSONP_ERR_HEADERS_NOT_SUPPORTED = 'JSONP requests do not support headers.';
/**
* DI token/abstract type representing a map of JSONP callbacks.
*
* In the browser, this should always be the `window` object.
*
*
*/
class JsonpCallbackContext {
}
/**
* Factory function that determines where to store JSONP callbacks.
*
* Ordinarily JSONP callbacks are stored on the `window` object, but this may not exist
* in test environments. In that case, callbacks are stored on an anonymous object instead.
*
*
*/
function jsonpCallbackContext() {
if (typeof window === 'object') {
return window;
}
return {};
}
/**
* Processes an `HttpRequest` with the JSONP method,
* by performing JSONP style requests.
* @see {@link HttpHandler}
* @see {@link HttpXhrBackend}
*
* @publicApi
*/
class JsonpClientBackend {
constructor(callbackMap, document) {
this.callbackMap = callbackMap;
this.document = document;
/**
* A resolved promise that can be used to schedule microtasks in the event handlers.
*/
this.resolvedPromise = Promise.resolve();
}
/**
* Get the name of the next callback method, by incrementing the global `nextRequestId`.
*/
nextCallback() {
return `ng_jsonp_callback_${nextRequestId++}`;
}
/**
* Processes a JSONP request and returns an event stream of the results.
* @param req The request object.
* @returns An observable of the response events.
*
*/
handle(req) {
// Firstly, check both the method and response type. If either doesn't match
// then the request was improperly routed here and cannot be handled.
if (req.method !== 'JSONP') {
throw new Error(JSONP_ERR_WRONG_METHOD);
}
else if (req.responseType !== 'json') {
throw new Error(JSONP_ERR_WRONG_RESPONSE_TYPE);
}
// Check the request headers. JSONP doesn't support headers and
// cannot set any that were supplied.
if (req.headers.keys().length > 0) {
throw new Error(JSONP_ERR_HEADERS_NOT_SUPPORTED);
}
// Everything else happens inside the Observable boundary.
return new Observable((observer) => {
// The first step to make a request is to generate the callback name, and replace the
// callback placeholder in the URL with the name. Care has to be taken here to ensure
// a trailing &, if matched, gets inserted back into the URL in the correct place.
const callback = this.nextCallback();
const url = req.urlWithParams.replace(/=JSONP_CALLBACK(&|$)/, `=${callback}$1`);
// Construct the <script> tag and point it at the URL.
const node = this.document.createElement('script');
node.src = url;
// A JSONP request requires waiting for multiple callbacks. These variables
// are closed over and track state across those callbacks.
// The response object, if one has been received, or null otherwise.
let body = null;
// Whether the response callback has been called.
let finished = false;
// Set the response callback in this.callbackMap (which will be the window
// object in the browser. The script being loaded via the <script> tag will
// eventually call this callback.
this.callbackMap[callback] = (data) => {
// Data has been received from the JSONP script. Firstly, delete this callback.
delete this.callbackMap[callback];
// Set state to indicate data was received.
body = data;
finished = true;
};
// cleanup() is a utility closure that removes the <script> from the page and
// the response callback from the window. This logic is used in both the
// success, error, and cancellation paths, so it's extracted out for convenience.
const cleanup = () => {
// Remove the <script> tag if it's still on the page.
if (node.parentNode) {
node.parentNode.removeChild(node);
}
// Remove the response callback from the callbackMap (window object in the
// browser).
delete this.callbackMap[callback];
};
// onLoad() is the success callback which runs after the response callback
// if the JSONP script loads successfully. The event itself is unimportant.
// If something went wrong, onLoad() may run without the response callback
// having been invoked.
const onLoad = (event) => {
// We wrap it in an extra Promise, to ensure the microtask
// is scheduled after the loaded endpoint has executed any potential microtask itself,
// which is not guaranteed in Internet Explorer and EdgeHTML. See issue #39496
this.resolvedPromise.then(() => {
// Cleanup the page.
cleanup();
// Check whether the response callback has run.
if (!finished) {
// It hasn't, something went wrong with the request. Return an error via
// the Observable error path. All JSONP errors have status 0.
observer.error(new HttpErrorResponse({
url,
status: 0,
statusText: 'JSONP Error',
error: new Error(JSONP_ERR_NO_CALLBACK),
}));
return;
}
// Success. body either contains the response body or null if none was
// returned.
observer.next(new HttpResponse({
body,
status: 200 /* HttpStatusCode.Ok */,
statusText: 'OK',
url,
}));
// Complete the stream, the response is over.
observer.complete();
});
};
// onError() is the error callback, which runs if the script returned generates
// a Javascript error. It emits the error via the Observable error channel as
// a HttpErrorResponse.
const onError = (error) => {
cleanup();
// Wrap the error in a HttpErrorResponse.
observer.error(new HttpErrorResponse({
error,
status: 0,
statusText: 'JSONP Error',
url,
}));
};
// Subscribe to both the success (load) and error events on the <script> tag,
// and add it to the page.
node.addEventListener('load', onLoad);
node.addEventListener('error', onError);
this.document.body.appendChild(node);
// The request has now been successfully sent.
observer.next({ type: HttpEventType.Sent });
// Cancellation handler.
return () => {
if (!finished) {
this.removeListeners(node);
}
// And finally, clean up the page.
cleanup();
};
});
}
removeListeners(script) {
// Issue #34818
// Changing <script>'s ownerDocument will prevent it from execution.
// https://html.spec.whatwg.org/multipage/scripting.html#execute-the-script-block
if (!foreignDocument) {
foreignDocument = this.document.implementation.createHTMLDocument();
}
foreignDocument.adoptNode(script);
}
static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: JsonpClientBackend, deps: [{ token: JsonpCallbackContext }, { token: DOCUMENT }], target: i0.ɵɵFactoryTarget.Injectable }); }
static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: JsonpClientBackend }); }
}
i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: JsonpClientBackend, decorators: [{
type: Injectable
}], ctorParameters: function () { return [{ type: JsonpCallbackContext }, { type: undefined, decorators: [{
type: Inject,
args: [DOCUMENT]
}] }]; } });
/**
* Identifies requests with the method JSONP and shifts them to the `JsonpClientBackend`.
*/
function jsonpInterceptorFn(req, next) {
if (req.method === 'JSONP') {
return inject(JsonpClientBackend).handle(req);
}
// Fall through for normal HTTP requests.
return next(req);
}
/**
* Identifies requests with the method JSONP and
* shifts them to the `JsonpClientBackend`.
*
* @see {@link HttpInterceptor}
*
* @publicApi
*/
class JsonpInterceptor {
constructor(injector) {
this.injector = injector;
}
/**
* Identifies and handles a given JSONP request.
* @param initialRequest The outgoing request object to handle.
* @param next The next interceptor in the chain, or the backend
* if no interceptors remain in the chain.
* @returns An observable of the event stream.
*/
intercept(initialRequest, next) {
return this.injector.runInContext(() => jsonpInterceptorFn(initialRequest, downstreamRequest => next.handle(downstreamRequest)));
}
static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: JsonpInterceptor, deps: [{ token: i0.EnvironmentInjector }], target: i0.ɵɵFactoryTarget.Injectable }); }
static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: JsonpInterceptor }); }
}
i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: JsonpInterceptor, decorators: [{
type: Injectable
}], ctorParameters: function () { return [{ type: i0.EnvironmentInjector }]; } });
const XSSI_PREFIX = /^\)\]\}',?\n/;
/**
* Determine an appropriate URL for the response, by checking either
* XMLHttpRequest.responseURL or the X-Request-URL header.
*/
function getResponseUrl(xhr) {
if ('responseURL' in xhr && xhr.responseURL) {
return xhr.responseURL;
}
if (/^X-Request-URL:/m.test(xhr.getAllResponseHeaders())) {
return xhr.getResponseHeader('X-Request-URL');
}
return null;
}
/**
* Uses `XMLHttpRequest` to send requests to a backend server.
* @see {@link HttpHandler}
* @see {@link JsonpClientBackend}
*
* @publicApi
*/
class HttpXhrBackend {
constructor(xhrFactory) {
this.xhrFactory = xhrFactory;
}
/**
* Processes a request and returns a stream of response events.
* @param req The request object.
* @returns An observable of the response events.
*/
handle(req) {
// Quick check to give a better error message when a user attempts to use
// HttpClient.jsonp() without installing the HttpClientJsonpModule
if (req.method === 'JSONP') {
throw new ɵRuntimeError(-2800 /* RuntimeErrorCode.MISSING_JSONP_MODULE */, (typeof ngDevMode === 'undefined' || ngDevMode) &&
`Cannot make a JSONP request without JSONP support. To fix the problem, either add the \`withJsonpSupport()\` call (if \`provideHttpClient()\` is used) or import the \`HttpClientJsonpModule\` in the root NgModule.`);
}
// Check whether this factory has a special function to load an XHR implementation
// for various non-browser environments. We currently limit it to only `ServerXhr`
// class, which needs to load an XHR implementation.
const xhrFactory = this.xhrFactory;
const source = xhrFactory.ɵloadImpl ? from(xhrFactory.ɵloadImpl()) : of(null);
return source.pipe(switchMap(() => {
// Everything happens on Observable subscription.
return new Observable((observer) => {
// Start by setting up the XHR object with request method, URL, and withCredentials
// flag.
const xhr = xhrFactory.build();
xhr.open(req.method, req.urlWithParams);
if (req.withCredentials) {
xhr.withCredentials = true;
}
// Add all the requested headers.
req.headers.forEach((name, values) => xhr.setRequestHeader(name, values.join(',')));
// Add an Accept header if one isn't present already.
if (!req.headers.has('Accept')) {
xhr.setRequestHeader('Accept', 'application/json, text/plain, */*');
}
// Auto-detect the Content-Type header if one isn't present already.
if (!req.headers.has('Content-Type')) {
const detectedType = req.detectContentTypeHeader();
// Sometimes Content-Type detection fails.
if (detectedType !== null) {
xhr.setRequestHeader('Content-Type', detectedType);
}
}
// Set the responseType if one was requested.
if (req.responseType) {
const responseType = req.responseType.toLowerCase();
// JSON responses need to be processed as text. This is because if the server
// returns an XSSI-prefixed JSON response, the browser will fail to parse it,
// xhr.response will be null, and xhr.responseText cannot be accessed to
// retrieve the prefixed JSON data in order to strip the prefix. Thus, all JSON
// is parsed by first requesting text and then applying JSON.parse.
xhr.responseType = ((responseType !== 'json') ? responseType : 'text');
}
// Serialize the request body if one is present. If not, this will be set to null.
const reqBody = req.serializeBody();
// If progress events are enabled, response headers will be delivered
// in two events - the HttpHeaderResponse event and the full HttpResponse
// event. However, since response headers don't change in between these
// two events, it doesn't make sense to parse them twice. So headerResponse
// caches the data extracted from the response whenever it's first parsed,
// to ensure parsing isn't duplicated.
let headerResponse = null;
// partialFromXhr extracts the HttpHeaderResponse from the current XMLHttpRequest
// state, and memoizes it into headerResponse.
const partialFromXhr = () => {
if (headerResponse !== null) {
return headerResponse;
}
const statusText = xhr.statusText || 'OK';
// Parse headers from XMLHttpRequest - this step is lazy.
const headers = new HttpHeaders(xhr.getAllResponseHeaders());
// Read the response URL from the XMLHttpResponse instance and fall back on the
// request URL.
const url = getResponseUrl(xhr) || req.url;
// Construct the HttpHeaderResponse and memoize it.
headerResponse =
new HttpHeaderResponse({ headers, status: xhr.status, statusText, url });
return headerResponse;
};
// Next, a few closures are defined for the various events which XMLHttpRequest can
// emit. This allows them to be unregistered as event listeners later.
// First up is the load event, which represents a response being fully available.
const onLoad = () => {
// Read response state from the memoized partial data.
let { headers, status, statusText, url } = partialFromXhr();
// The body will be read out if present.
let body = null;
if (status !== 204 /* HttpStatusCode.NoContent */) {
// Use XMLHttpRequest.response if set, responseText otherwise.
body = (typeof xhr.response === 'undefined') ? xhr.responseText : xhr.response;
}
// Normalize another potential bug (this one comes from CORS).
if (status === 0) {
status = !!body ? 200 /* HttpStatusCode.Ok */ : 0;
}
// ok determines whether the response will be transmitted on the event or
// error channel. Unsuccessful status codes (not 2xx) will always be errors,
// but a successful status code can still result in an error if the user
// asked for JSON data and the body cannot be parsed as such.
let ok = status >= 200 && status < 300;
// Check whether the body needs to be parsed as JSON (in many cases the browser
// will have done that already).
if (req.responseType === 'json' && typeof body === 'string') {
// Save the original body, before attempting XSSI prefix stripping.
const originalBody = body;
body = body.replace(XSSI_PREFIX, '');
try {
// Attempt the parse. If it fails, a parse error should be delivered to the
// user.
body = body !== '' ? JSON.parse(body) : null;
}
catch (error) {
// Since the JSON.parse failed, it's reasonable to assume this might not have
// been a JSON response. Restore the original body (including any XSSI prefix)
// to deliver a better error response.
body = originalBody;
// If this was an error request to begin with, leave it as a string, it
// probably just isn't JSON. Otherwise, deliver the parsing error to the user.
if (ok) {
// Even though the response status was 2xx, this is still an error.
ok = false;
// The parse error contains the text of the body that failed to parse.
body = { error, text: body };
}
}
}
if (ok) {
// A successful response is delivered on the event stream.
observer.next(new HttpResponse({
body,
headers,
status,
statusText,
url: url || undefined,
}));
// The full body has been received and delivered, no further events
// are possible. This request is complete.
observer.complete();
}
else {
// An unsuccessful request is delivered on the error channel.
observer.error(new HttpErrorResponse({
// The error in this case is the response body (error from the server).
error: body,
headers,
status,
statusText,
url: url || undefined,
}));
}
};
// The onError callback is called when something goes wrong at the network level.
// Connection timeout, DNS error, offline, etc. These are actual errors, and are
// transmitted on the error channel.
const onError = (error) => {
const { url } = partialFromXhr();
const res = new HttpErrorResponse({
error,
status: xhr.status || 0,
statusText: xhr.statusText || 'Unknown Error',
url: url || undefined,
});
observer.error(res);
};
// The sentHeaders flag tracks whether the HttpResponseHeaders event
// has been sent on the stream. This is necessary to track if progress
// is enabled since the event will be sent on only the first download
// progress event.
let sentHeaders = false;
// The download progress event handler, which is only registered if
// progress events are enabled.
const onDownProgress = (event) => {
// Send the HttpResponseHeaders event if it hasn't been sent already.
if (!sentHeaders) {
observer.next(partialFromXhr());
sentHeaders = true;
}
// Start building the download progress event to deliver on the response
// event stream.
let progressEvent = {
type: HttpEventType.DownloadProgress,
loaded: event.loaded,
};
// Set the total number of bytes in the event if it's available.
if (event.lengthComputable) {
progressEvent.total = event.total;
}
// If the request was for text content and a partial response is
// available on XMLHttpRequest, include it in the progress event
// to allow for streaming reads.
if (req.responseType === 'text' && !!xhr.responseText) {
progressEvent.partialText = xhr.responseText;
}
// Finally, fire the event.
observer.next(progressEvent);
};
// The upload progress event handler, which is only registered if
// progress events are enabled.
const onUpProgress = (event) => {
// Upload progress events are simpler. Begin building the progress
// event.
let progress = {
type: HttpEventType.UploadProgress,
loaded: event.loaded,
};
// If the total number of bytes being uploaded is available, include
// it.
if (event.lengthComputable) {
progress.total = event.total;
}
// Send the event.
observer.next(progress);
};
// By default, register for load and error events.
xhr.addEventListener('load', onLoad);
xhr.addEventListener('error', onError);
xhr.addEventListener('timeout', onError);
xhr.addEventListener('abort', onError);
// Progress events are only enabled if requested.
if (req.reportProgress) {
// Download progress is always enabled if requested.
xhr.addEventListener('progress', onDownProgress);
// Upload progress depends on whether there is a body to upload.
if (reqBody !== null && xhr.upload) {
xhr.upload.addEventListener('progress', onUpProgress);
}
}
// Fire the request, and notify the event stream that it was fired.
xhr.send(reqBody);
observer.next({ type: HttpEventType.Sent });
// This is the return from the Observable function, which is the
// request cancellation handler.
return () => {
// On a cancellation, remove all registered event listeners.
xhr.removeEventListener('error', onError);
xhr.removeEventListener('abort', onError);
xhr.removeEventListener('load', onLoad);
xhr.removeEventListener('timeout', onError);
if (req.reportProgress) {
xhr.removeEventListener('progress', onDownProgress);
if (reqBody !== null && xhr.upload) {
xhr.upload.removeEventListener('progress', onUpProgress);
}
}
// Finally, abort the in-flight request.
if (xhr.readyState !== xhr.DONE) {
xhr.abort();
}
};
});
}));
}
static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpXhrBackend, deps: [{ token: i1.XhrFactory }], target: i0.ɵɵFactoryTarget.Injectable }); }
static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpXhrBackend }); }
}
i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpXhrBackend, decorators: [{
type: Injectable
}], ctorParameters: function () { return [{ type: i1.XhrFactory }]; } });
const XSRF_ENABLED = new InjectionToken('XSRF_ENABLED');
const XSRF_DEFAULT_COOKIE_NAME = 'XSRF-TOKEN';
const XSRF_COOKIE_NAME = new InjectionToken('XSRF_COOKIE_NAME', {
providedIn: 'root',
factory: () => XSRF_DEFAULT_COOKIE_NAME,
});
const XSRF_DEFAULT_HEADER_NAME = 'X-XSRF-TOKEN';
const XSRF_HEADER_NAME = new InjectionToken('XSRF_HEADER_NAME', {
providedIn: 'root',
factory: () => XSRF_DEFAULT_HEADER_NAME,
});
/**
* Retrieves the current XSRF token to use with the next outgoing request.
*
* @publicApi
*/
class HttpXsrfTokenExtractor {
}
/**
* `HttpXsrfTokenExtractor` which retrieves the token from a cookie.
*/
class HttpXsrfCookieExtractor {
constructor(doc, platform, cookieName) {
this.doc = doc;
this.platform = platform;
this.cookieName = cookieName;
this.lastCookieString = '';
this.lastToken = null;
/**
* @internal for testing
*/
this.parseCount = 0;
}
getToken() {
if (this.platform === 'server') {
return null;
}
const cookieString = this.doc.cookie || '';
if (cookieString !== this.lastCookieString) {
this.parseCount++;
this.lastToken = ɵparseCookieValue(cookieString, this.cookieName);
this.lastCookieString = cookieString;
}
return this.lastToken;
}
static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpXsrfCookieExtractor, deps: [{ token: DOCUMENT }, { token: PLATFORM_ID }, { token: XSRF_COOKIE_NAME }], target: i0.ɵɵFactoryTarget.Injectable }); }
static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpXsrfCookieExtractor }); }
}
i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpXsrfCookieExtractor, decorators: [{
type: Injectable
}], ctorParameters: function () { return [{ type: undefined, decorators: [{
type: Inject,
args: [DOCUMENT]
}] }, { type: undefined, decorators: [{
type: Inject,
args: [PLATFORM_ID]
}] }, { type: undefined, decorators: [{
type: Inject,
args: [XSRF_COOKIE_NAME]
}] }]; } });
function xsrfInterceptorFn(req, next) {
const lcUrl = req.url.toLowerCase();
// Skip both non-mutating requests and absolute URLs.
// Non-mutating requests don't require a token, and absolute URLs require special handling
// anyway as the cookie set
// on our origin is not the same as the token expected by another origin.
if (!inject(XSRF_ENABLED) || req.method === 'GET' || req.method === 'HEAD' ||
lcUrl.startsWith('http://') || lcUrl.startsWith('https://')) {
return next(req);
}
const token = inject(HttpXsrfTokenExtractor).getToken();
const headerName = inject(XSRF_HEADER_NAME);
// Be careful not to overwrite an existing header of the same name.
if (token != null && !req.headers.has(headerName)) {
req = req.clone({ headers: req.headers.set(headerName, token) });
}
return next(req);
}
/**
* `HttpInterceptor` which adds an XSRF token to eligible outgoing requests.
*/
class HttpXsrfInterceptor {
constructor(injector) {
this.injector = injector;
}
intercept(initialRequest, next) {
return this.injector.runInContext(() => xsrfInterceptorFn(initialRequest, downstreamRequest => next.handle(downstreamRequest)));
}
static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpXsrfInterceptor, deps: [{ token: i0.EnvironmentInjector }], target: i0.ɵɵFactoryTarget.Injectable }); }
static { this.ɵprov = i0.ɵɵngDeclareInjectable({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpXsrfInterceptor }); }
}
i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpXsrfInterceptor, decorators: [{
type: Injectable
}], ctorParameters: function () { return [{ type: i0.EnvironmentInjector }]; } });
/**
* Identifies a particular kind of `HttpFeature`.
*
* @publicApi
*/
var HttpFeatureKind;
(function (HttpFeatureKind) {
HttpFeatureKind[HttpFeatureKind["Interceptors"] = 0] = "Interceptors";
HttpFeatureKind[HttpFeatureKind["LegacyInterceptors"] = 1] = "LegacyInterceptors";
HttpFeatureKind[HttpFeatureKind["CustomXsrfConfiguration"] = 2] = "CustomXsrfConfiguration";
HttpFeatureKind[HttpFeatureKind["NoXsrfProtection"] = 3] = "NoXsrfProtection";
HttpFeatureKind[HttpFeatureKind["JsonpSupport"] = 4] = "JsonpSupport";
HttpFeatureKind[HttpFeatureKind["RequestsMadeViaParent"] = 5] = "RequestsMadeViaParent";
HttpFeatureKind[HttpFeatureKind["Fetch"] = 6] = "Fetch";
})(HttpFeatureKind || (HttpFeatureKind = {}));
function makeHttpFeature(kind, providers) {
return {
ɵkind: kind,
ɵproviders: providers,
};
}
/**
* Configures Angular's `HttpClient` service to be available for injection.
*
* By default, `HttpClient` will be configured for injection with its default options for XSRF
* protection of outgoing requests. Additional configuration options can be provided by passing
* feature functions to `provideHttpClient`. For example, HTTP interceptors can be added using the
* `withInterceptors(...)` feature.
*
* @see {@link withInterceptors}
* @see {@link withInterceptorsFromDi}
* @see {@link withXsrfConfiguration}
* @see {@link withNoXsrfProtection}
* @see {@link withJsonpSupport}
* @see {@link withRequestsMadeViaParent}
* @see {@link withFetch}
*/
function provideHttpClient(...features) {
if (ngDevMode) {
const featureKinds = new Set(features.map(f => f.ɵkind));
if (featureKinds.has(HttpFeatureKind.NoXsrfProtection) &&
featureKinds.has(HttpFeatureKind.CustomXsrfConfiguration)) {
throw new Error(ngDevMode ?
`Configuration error: found both withXsrfConfiguration() and withNoXsrfProtection() in the same call to provideHttpClient(), which is a contradiction.` :
'');
}
}
const providers = [
HttpClient,
HttpXhrBackend,
HttpInterceptorHandler,
{ provide: HttpHandler, useExisting: HttpInterceptorHandler },
{ provide: HttpBackend, useExisting: HttpXhrBackend },
{
provide: HTTP_INTERCEPTOR_FNS,
useValue: xsrfInterceptorFn,
multi: true,
},
{ provide: XSRF_ENABLED, useValue: true },
{ provide: HttpXsrfTokenExtractor, useClass: HttpXsrfCookieExtractor },
];
for (const feature of features) {
providers.push(...feature.ɵproviders);
}
return makeEnvironmentProviders(providers);
}
/**
* Adds one or more functional-style HTTP interceptors to the configuration of the `HttpClient`
* instance.
*
* @see {@link HttpInterceptorFn}
* @see {@link provideHttpClient}
* @publicApi
*/
function withInterceptors(interceptorFns) {
return makeHttpFeature(HttpFeatureKind.Interceptors, interceptorFns.map(interceptorFn => {
return {
provide: HTTP_INTERCEPTOR_FNS,
useValue: interceptorFn,
multi: true,
};
}));
}
const LEGACY_INTERCEPTOR_FN = new InjectionToken('LEGACY_INTERCEPTOR_FN');
/**
* Includes class-based interceptors configured using a multi-provider in the current injector into
* the configured `HttpClient` instance.
*
* Prefer `withInterceptors` and functional interceptors instead, as support for DI-provided
* interceptors may be phased out in a later release.
*
* @see {@link HttpInterceptor}
* @see {@link HTTP_INTERCEPTORS}
* @see {@link provideHttpClient}
*/
function withInterceptorsFromDi() {
// Note: the legacy interceptor function is provided here via an intermediate token
// (`LEGACY_INTERCEPTOR_FN`), using a pattern which guarantees that if these providers are
// included multiple times, all of the multi-provider entries will have the same instance of the
// interceptor function. That way, the `HttpINterceptorHandler` will dedup them and legacy
// interceptors will not run multiple times.
return makeHttpFeature(HttpFeatureKind.LegacyInterceptors, [
{
provide: LEGACY_INTERCEPTOR_FN,
useFactory: legacyInterceptorFnFactory,
},
{
provide: HTTP_INTERCEPTOR_FNS,
useExisting: LEGACY_INTERCEPTOR_FN,
multi: true,
}
]);
}
/**
* Customizes the XSRF protection for the configuration of the current `HttpClient` instance.
*
* This feature is incompatible with the `withNoXsrfProtection` feature.
*
* @see {@link provideHttpClient}
*/
function withXsrfConfiguration({ cookieName, headerName }) {
const providers = [];
if (cookieName !== undefined) {
providers.push({ provide: XSRF_COOKIE_NAME, useValue: cookieName });
}
if (headerName !== undefined) {
providers.push({ provide: XSRF_HEADER_NAME, useValue: headerName });
}
return makeHttpFeature(HttpFeatureKind.CustomXsrfConfiguration, providers);
}
/**
* Disables XSRF protection in the configuration of the current `HttpClient` instance.
*
* This feature is incompatible with the `withXsrfConfiguration` feature.
*
* @see {@link provideHttpClient}
*/
function withNoXsrfProtection() {
return makeHttpFeature(HttpFeatureKind.NoXsrfProtection, [
{
provide: XSRF_ENABLED,
useValue: false,
},
]);
}
/**
* Add JSONP support to the configuration of the current `HttpClient` instance.
*
* @see {@link provideHttpClient}
*/
function withJsonpSupport() {
return makeHttpFeature(HttpFeatureKind.JsonpSupport, [
JsonpClientBackend,
{ provide: JsonpCallbackContext, useFactory: jsonpCallbackContext },
{ provide: HTTP_INTERCEPTOR_FNS, useValue: jsonpInterceptorFn, multi: true },
]);
}
/**
* Configures the current `HttpClient` instance to make requests via the parent injector's
* `HttpClient` instead of directly.
*
* By default, `provideHttpClient` configures `HttpClient` in its injector to be an independent
* instance. For example, even if `HttpClient` is configured in the parent injector with
* one or more interceptors, they will not intercept requests made via this instance.
*
* With this option enabled, once the request has passed through the current injector's
* interceptors, it will be delegated to the parent injector's `HttpClient` chain instead of
* dispatched directly, and interceptors in the parent configuration will be applied to the request.
*
* If there are several `HttpClient` instances in the injector hierarchy, it's possible for
* `withRequestsMadeViaParent` to be used at multiple levels, which will cause the request to
* "bubble up" until either reaching the root level or an `HttpClient` which was not configured with
* this option.
*
* @see {@link provideHttpClient}
* @developerPreview
*/
function withRequestsMadeViaParent() {
return makeHttpFeature(HttpFeatureKind.RequestsMadeViaParent, [
{
provide: HttpBackend,
useFactory: () => {
const handlerFromParent = inject(HttpHandler, { skipSelf: true, optional: true });
if (ngDevMode && handlerFromParent === null) {
throw new Error('withRequestsMadeViaParent() can only be used when the parent injector also configures HttpClient');
}
return handlerFromParent;
},
},
]);
}
/**
* Configures the current `HttpClient` instance to make requests using the fetch API.
*
* This `FetchBackend` requires the support of the Fetch API which is available on all evergreen
* browsers and on NodeJS from v18 onward.
*
* Note: The Fetch API doesn't support progress report on uploads.
*
* @publicApi
* @developerPreview
*/
function withFetch() {
if ((typeof ngDevMode === 'undefined' || ngDevMode) && typeof fetch !== 'function') {
// TODO: Create a runtime error
// TODO: Use ENVIRONMENT_INITIALIZER to contextualize the error message (browser or server)
throw new Error('The `withFetch` feature of HttpClient requires the `fetch` API to be available. ' +
'If you run the code in a Node environment, make sure you use Node v18.10 or later.');
}
return makeHttpFeature(HttpFeatureKind.Fetch, [
FetchBackend,
{ provide: HttpBackend, useExisting: FetchBackend },
]);
}
/**
* Configures XSRF protection support for outgoing requests.
*
* For a server that supports a cookie-based XSRF protection system,
* use directly to configure XSRF protection with the correct
* cookie and header names.
*
* If no names are supplied, the default cookie name is `XSRF-TOKEN`
* and the default header name is `X-XSRF-TOKEN`.
*
* @publicApi
*/
class HttpClientXsrfModule {
/**
* Disable the default XSRF protection.
*/
static disable() {
return {
ngModule: HttpClientXsrfModule,
providers: [
withNoXsrfProtection().ɵproviders,
],
};
}
/**
* Configure XSRF protection.
* @param options An object that can specify either or both
* cookie name or header name.
* - Cookie name default is `XSRF-TOKEN`.
* - Header name default is `X-XSRF-TOKEN`.
*
*/
static withOptions(options = {}) {
return {
ngModule: HttpClientXsrfModule,
providers: withXsrfConfiguration(options).ɵproviders,
};
}
static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClientXsrfModule, deps: [], target: i0.ɵɵFactoryTarget.NgModule }); }
static { this.ɵmod = i0.ɵɵngDeclareNgModule({ minVersion: "14.0.0", version: "16.2.12", ngImport: i0, type: HttpClientXsrfModule }); }
static { this.ɵinj = i0.ɵɵngDeclareInjector({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClientXsrfModule, providers: [
HttpXsrfInterceptor,
{ provide: HTTP_INTERCEPTORS, useExisting: HttpXsrfInterceptor, multi: true },
{ provide: HttpXsrfTokenExtractor, useClass: HttpXsrfCookieExtractor },
withXsrfConfiguration({
cookieName: XSRF_DEFAULT_COOKIE_NAME,
headerName: XSRF_DEFAULT_HEADER_NAME,
}).ɵproviders,
{ provide: XSRF_ENABLED, useValue: true },
] }); }
}
i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClientXsrfModule, decorators: [{
type: NgModule,
args: [{
providers: [
HttpXsrfInterceptor,
{ provide: HTTP_INTERCEPTORS, useExisting: HttpXsrfInterceptor, multi: true },
{ provide: HttpXsrfTokenExtractor, useClass: HttpXsrfCookieExtractor },
withXsrfConfiguration({
cookieName: XSRF_DEFAULT_COOKIE_NAME,
headerName: XSRF_DEFAULT_HEADER_NAME,
}).ɵproviders,
{ provide: XSRF_ENABLED, useValue: true },
],
}]
}] });
/**
* Configures the [dependency injector](guide/glossary#injector) for `HttpClient`
* with supporting services for XSRF. Automatically imported by `HttpClientModule`.
*
* You can add interceptors to the chain behind `HttpClient` by binding them to the
* multiprovider for built-in [DI token](guide/glossary#di-token) `HTTP_INTERCEPTORS`.
*
* @publicApi
*/
class HttpClientModule {
static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClientModule, deps: [], target: i0.ɵɵFactoryTarget.NgModule }); }
static { this.ɵmod = i0.ɵɵngDeclareNgModule({ minVersion: "14.0.0", version: "16.2.12", ngImport: i0, type: HttpClientModule }); }
static { this.ɵinj = i0.ɵɵngDeclareInjector({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClientModule, providers: [
provideHttpClient(withInterceptorsFromDi()),
] }); }
}
i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClientModule, decorators: [{
type: NgModule,
args: [{
/**
* Configures the [dependency injector](guide/glossary#injector) where it is imported
* with supporting services for HTTP communications.
*/
providers: [
provideHttpClient(withInterceptorsFromDi()),
],
}]
}] });
/**
* Configures the [dependency injector](guide/glossary#injector) for `HttpClient`
* with supporting services for JSONP.
* Without this module, Jsonp requests reach the backend
* with method JSONP, where they are rejected.
*
* @publicApi
*/
class HttpClientJsonpModule {
static { this.ɵfac = i0.ɵɵngDeclareFactory({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClientJsonpModule, deps: [], target: i0.ɵɵFactoryTarget.NgModule }); }
static { this.ɵmod = i0.ɵɵngDeclareNgModule({ minVersion: "14.0.0", version: "16.2.12", ngImport: i0, type: HttpClientJsonpModule }); }
static { this.ɵinj = i0.ɵɵngDeclareInjector({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClientJsonpModule, providers: [
withJsonpSupport().ɵproviders,
] }); }
}
i0.ɵɵngDeclareClassMetadata({ minVersion: "12.0.0", version: "16.2.12", ngImport: i0, type: HttpClientJsonpModule, decorators: [{
type: NgModule,
args: [{
providers: [
withJsonpSupport().ɵproviders,
],
}]
}] });
const CACHE_STATE = new InjectionToken(ngDevMode ? 'HTTP_TRANSFER_STATE_CACHE_STATE' : '');
/**
* A list of allowed HTTP methods to cache.
*/
const ALLOWED_METHODS = ['GET', 'HEAD'];
function transferCacheInterceptorFn(req, next) {
const { isCacheActive } = inject(CACHE_STATE);
// Stop using the cache if the application has stabilized, indicating initial rendering
// is complete.
if (!isCacheActive || !ALLOWED_METHODS.includes(req.method)) {
// Cache is no longer active or method is not HEAD or GET.
// Pass the request through.
return next(req);
}
const transferState = inject(TransferState);
const storeKey = makeCacheKey(req);
const response = transferState.get(storeKey, null);
if (response) {
// Request found in cache. Respond using it.
let body = response.body;
switch (response.responseType) {
case 'arraybuffer':
body = new TextEncoder().encode(response.body).buffer;
break;
case 'blob':
body = new Blob([response.body]);
break;
}
return of(new HttpResponse({
body,
headers: new HttpHeaders(response.headers),
status: response.status,
statusText: response.statusText,
url: response.url,
}));
}
// Request not found in cache. Make the request and cache it.
return next(req).pipe(tap((event) => {
if (event instanceof HttpResponse) {
transferState.set(storeKey, {
body: event.body,
headers: getHeadersMap(event.headers),
status: event.status,
statusText: event.statusText,
url: event.url || '',
responseType: req.responseType,
});
}
}));
}
function getHeadersMap(headers) {
const headersMap = {};
for (const key of headers.keys()) {
const values = headers.getAll(key);
if (values !== null) {
headersMap[key] = values;
}
}
return headersMap;
}
function makeCacheKey(request) {
// make the params encoded same as a url so it's easy to identify
const { params, method, responseType, url } = request;
const encodedParams = params.keys().sort().map((k) => `${k}=${params.getAll(k)}`).join('&');
const key = method + '.' + responseType + '.' + url + '?' + encodedParams;
const hash = generateHash(key);
return makeStateKey(hash);
}
/**
* A method that returns a hash representation of a string using a variant of DJB2 hash
* algorithm.
*
* This is the same hashing logic that is used to generate component ids.
*/
function generateHash(value) {
let hash = 0;
for (const char of value) {
hash = Math.imul(31, hash) + char.charCodeAt(0) << 0;
}
// Force positive number hash.
// 2147483647 = equivalent of Integer.MAX_VALUE.
hash += 2147483647 + 1;
return hash.toString();
}
/**
* Returns the DI providers needed to enable HTTP transfer cache.
*
* By default, when using server rendering, requests are performed twice: once on the server and
* other one on the browser.
*
* When these providers are added, requests performed on the server are cached and reused during the
* bootstrapping of the application in the browser thus avoiding duplicate requests and reducing
* load time.
*
*/
function withHttpTransferCache() {
return [
{
provide: CACHE_STATE,
useFactory: () => {
inject(ɵENABLED_SSR_FEATURES).add('httpcache');
return { isCacheActive: true };
}
},
{
provide: HTTP_ROOT_INTERCEPTOR_FNS,
useValue: transferCacheInterceptorFn,
multi: true,
deps: [TransferState, CACHE_STATE]
},
{
provide: APP_BOOTSTRAP_LISTENER,
multi: true,
useFactory: () => {
const appRef = inject(ApplicationRef);
const cacheState = inject(CACHE_STATE);
return () => {
appRef.isStable.pipe(first((isStable) => isStable)).toPromise().then(() => {
cacheState.isCacheActive = false;
});
};
}
}
];
}
// This file is not used to build this module. It is only used during editing
/**
* Generated bundle index. Do not edit.
*/
export { FetchBackend, HTTP_INTERCEPTORS, HttpBackend, HttpClient, HttpClientJsonpModule, HttpClientModule, HttpClientXsrfModule, HttpContext, HttpContextToken, HttpErrorResponse, HttpEventType, HttpFeatureKind, HttpHandler, HttpHeaderResponse, HttpHeaders, HttpParams, HttpRequest, HttpResponse, HttpResponseBase, HttpUrlEncodingCodec, HttpXhrBackend, HttpXsrfTokenExtractor, JsonpClientBackend, JsonpInterceptor, provideHttpClient, withFetch, withInterceptors, withInterceptorsFromDi, withJsonpSupport, withNoXsrfProtection, withRequestsMadeViaParent, withXsrfConfiguration, HttpInterceptorHandler as ɵHttpInterceptingHandler, HttpInterceptorHandler as ɵHttpInterceptorHandler, withHttpTransferCache as ɵwithHttpTransferCache };
//# sourceMappingURL=http.mjs.map