/** * @license Angular v5.2.10 * (c) 2010-2018 Google, Inc. https://angular.io/ * License: MIT */ import { Inject, Injectable, InjectionToken, Injector, NgModule, PLATFORM_ID } from '@angular/core'; import { of } from 'rxjs/observable/of'; import { concatMap } from 'rxjs/operator/concatMap'; import { filter } from 'rxjs/operator/filter'; import { map } from 'rxjs/operator/map'; import { DOCUMENT, ɵparseCookieValue } from '@angular/common'; import { Observable } from 'rxjs/Observable'; /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * 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. * * \@stable * @abstract */ 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. * * \@stable * @abstract */ class HttpBackend { } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * @record */ /** * Immutable set of Http headers, with lazy parsing. * \@stable */ class HttpHeaders { /** * @param {?=} headers */ 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 /** @type {?} */ index = line.indexOf(':'); if (index > 0) { const /** @type {?} */ name = line.slice(0, index); const /** @type {?} */ key = name.toLowerCase(); const /** @type {?} */ value = line.slice(index + 1).trim(); this.maybeSetNormalizedName(name, key); if (this.headers.has(key)) { /** @type {?} */ ((this.headers.get(key))).push(value); } else { this.headers.set(key, [value]); } } }); }; } else { this.lazyInit = () => { this.headers = new Map(); Object.keys(headers).forEach(name => { let /** @type {?} */ values = headers[name]; const /** @type {?} */ key = name.toLowerCase(); if (typeof values === 'string') { values = [values]; } if (values.length > 0) { this.headers.set(key, values); this.maybeSetNormalizedName(name, key); } }); }; } } /** * Checks for existence of header by given name. * @param {?} name * @return {?} */ has(name) { this.init(); return this.headers.has(name.toLowerCase()); } /** * Returns first header that matches given name. * @param {?} name * @return {?} */ get(name) { this.init(); const /** @type {?} */ values = this.headers.get(name.toLowerCase()); return values && values.length > 0 ? values[0] : null; } /** * Returns the names of the headers * @return {?} */ keys() { this.init(); return Array.from(this.normalizedNames.values()); } /** * Returns list of header values for a given name. * @param {?} name * @return {?} */ getAll(name) { this.init(); return this.headers.get(name.toLowerCase()) || null; } /** * @param {?} name * @param {?} value * @return {?} */ append(name, value) { return this.clone({ name, value, op: 'a' }); } /** * @param {?} name * @param {?} value * @return {?} */ set(name, value) { return this.clone({ name, value, op: 's' }); } /** * @param {?} name * @param {?=} value * @return {?} */ delete(name, value) { return this.clone({ name, value, op: 'd' }); } /** * @param {?} name * @param {?} lcName * @return {?} */ maybeSetNormalizedName(name, lcName) { if (!this.normalizedNames.has(lcName)) { this.normalizedNames.set(lcName, name); } } /** * @return {?} */ 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; } } } /** * @param {?} other * @return {?} */ copyFrom(other) { other.init(); Array.from(other.headers.keys()).forEach(key => { this.headers.set(key, /** @type {?} */ ((other.headers.get(key)))); this.normalizedNames.set(key, /** @type {?} */ ((other.normalizedNames.get(key)))); }); } /** * @param {?} update * @return {?} */ clone(update) { const /** @type {?} */ clone = new HttpHeaders(); clone.lazyInit = (!!this.lazyInit && this.lazyInit instanceof HttpHeaders) ? this.lazyInit : this; clone.lazyUpdate = (this.lazyUpdate || []).concat([update]); return clone; } /** * @param {?} update * @return {?} */ applyUpdate(update) { const /** @type {?} */ key = update.name.toLowerCase(); switch (update.op) { case 'a': case 's': let /** @type {?} */ value = /** @type {?} */ ((update.value)); if (typeof value === 'string') { value = [value]; } if (value.length === 0) { return; } this.maybeSetNormalizedName(update.name, key); const /** @type {?} */ base = (update.op === 'a' ? this.headers.get(key) : undefined) || []; base.push(...value); this.headers.set(key, base); break; case 'd': const /** @type {?} */ toDelete = /** @type {?} */ (update.value); if (!toDelete) { this.headers.delete(key); this.normalizedNames.delete(key); } else { let /** @type {?} */ 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; } } /** * \@internal * @param {?} fn * @return {?} */ forEach(fn) { this.init(); Array.from(this.normalizedNames.keys()) .forEach(key => fn(/** @type {?} */ ((this.normalizedNames.get(key))), /** @type {?} */ ((this.headers.get(key))))); } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * A codec for encoding and decoding parameters in URLs. * * Used by `HttpParams`. * * \@stable * * @record */ /** * A `HttpParameterCodec` that uses `encodeURIComponent` and `decodeURIComponent` to * serialize and parse URL parameter keys and values. * * \@stable */ class HttpUrlEncodingCodec { /** * @param {?} k * @return {?} */ encodeKey(k) { return standardEncoding(k); } /** * @param {?} v * @return {?} */ encodeValue(v) { return standardEncoding(v); } /** * @param {?} k * @return {?} */ decodeKey(k) { return decodeURIComponent(k); } /** * @param {?} v * @return {?} */ decodeValue(v) { return decodeURIComponent(v); } } /** * @param {?} rawParams * @param {?} codec * @return {?} */ function paramParser(rawParams, codec) { const /** @type {?} */ map$$1 = new Map(); if (rawParams.length > 0) { const /** @type {?} */ params = rawParams.split('&'); params.forEach((param) => { const /** @type {?} */ eqIdx = param.indexOf('='); const [key, val] = eqIdx == -1 ? [codec.decodeKey(param), ''] : [codec.decodeKey(param.slice(0, eqIdx)), codec.decodeValue(param.slice(eqIdx + 1))]; const /** @type {?} */ list = map$$1.get(key) || []; list.push(val); map$$1.set(key, list); }); } return map$$1; } /** * @param {?} v * @return {?} */ function standardEncoding(v) { return encodeURIComponent(v) .replace(/%40/gi, '@') .replace(/%3A/gi, ':') .replace(/%24/gi, '$') .replace(/%2C/gi, ',') .replace(/%3B/gi, ';') .replace(/%2B/gi, '+') .replace(/%3D/gi, '=') .replace(/%3F/gi, '?') .replace(/%2F/gi, '/'); } /** * 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. * * \@stable */ class HttpParams { /** * @param {?=} options */ constructor(options = /** @type {?} */ ({})) { 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 /** @type {?} */ value = (/** @type {?} */ (options.fromObject))[key]; /** @type {?} */ ((this.map)).set(key, Array.isArray(value) ? value : [value]); }); } else { this.map = null; } } /** * Check whether the body has one or more values for the given parameter name. * @param {?} param * @return {?} */ has(param) { this.init(); return /** @type {?} */ ((this.map)).has(param); } /** * Get the first value for the given parameter name, or `null` if it's not present. * @param {?} param * @return {?} */ get(param) { this.init(); const /** @type {?} */ res = /** @type {?} */ ((this.map)).get(param); return !!res ? res[0] : null; } /** * Get all values for the given parameter name, or `null` if it's not present. * @param {?} param * @return {?} */ getAll(param) { this.init(); return /** @type {?} */ ((this.map)).get(param) || null; } /** * Get all the parameter names for this body. * @return {?} */ keys() { this.init(); return Array.from(/** @type {?} */ ((this.map)).keys()); } /** * Construct a new body with an appended value for the given parameter name. * @param {?} param * @param {?} value * @return {?} */ append(param, value) { return this.clone({ param, value, op: 'a' }); } /** * Construct a new body with a new value for the given parameter name. * @param {?} param * @param {?} value * @return {?} */ set(param, value) { return this.clone({ param, value, op: 's' }); } /** * Construct a new body with either the given value for the given parameter * removed, if a value is given, or all values for the given parameter removed * if not. * @param {?} param * @param {?=} value * @return {?} */ delete(param, value) { return this.clone({ param, value, op: 'd' }); } /** * Serialize the body to an encoded string, where key-value pairs (separated by `=`) are * separated by `&`s. * @return {?} */ toString() { this.init(); return this.keys() .map(key => { const /** @type {?} */ eKey = this.encoder.encodeKey(key); return /** @type {?} */ ((/** @type {?} */ ((this.map)).get(key))).map(value => eKey + '=' + this.encoder.encodeValue(value)).join('&'); }) .join('&'); } /** * @param {?} update * @return {?} */ clone(update) { const /** @type {?} */ clone = new HttpParams({ encoder: this.encoder }); clone.cloneFrom = this.cloneFrom || this; clone.updates = (this.updates || []).concat([update]); return clone; } /** * @return {?} */ init() { if (this.map === null) { this.map = new Map(); } if (this.cloneFrom !== null) { this.cloneFrom.init(); this.cloneFrom.keys().forEach(key => /** @type {?} */ ((this.map)).set(key, /** @type {?} */ ((/** @type {?} */ ((/** @type {?} */ ((this.cloneFrom)).map)).get(key))))); /** @type {?} */ ((this.updates)).forEach(update => { switch (update.op) { case 'a': case 's': const /** @type {?} */ base = (update.op === 'a' ? /** @type {?} */ ((this.map)).get(update.param) : undefined) || []; base.push(/** @type {?} */ ((update.value))); /** @type {?} */ ((this.map)).set(update.param, base); break; case 'd': if (update.value !== undefined) { let /** @type {?} */ base = /** @type {?} */ ((this.map)).get(update.param) || []; const /** @type {?} */ idx = base.indexOf(update.value); if (idx !== -1) { base.splice(idx, 1); } if (base.length > 0) { /** @type {?} */ ((this.map)).set(update.param, base); } else { /** @type {?} */ ((this.map)).delete(update.param); } } else { /** @type {?} */ ((this.map)).delete(update.param); break; } } }); this.cloneFrom = null; } } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * Determine whether the given HTTP method may include a body. * @param {?} method * @return {?} */ 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. * @param {?} value * @return {?} */ 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. * @param {?} value * @return {?} */ 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. * @param {?} value * @return {?} */ function isFormData(value) { return typeof FormData !== 'undefined' && value instanceof FormData; } /** * 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. * * \@stable * @template T */ class HttpRequest { /** * @param {?} method * @param {?} url * @param {?=} third * @param {?=} fourth */ 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. */ 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 /** @type {?} */ 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) ? /** @type {?} */ (third) : null; options = fourth; } else { // No body required, options are the third argument. The body stays null. options = /** @type {?} */ (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.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 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 /** @type {?} */ 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 /** @type {?} */ 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 /** @type {?} */ 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. * @return {?} */ 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) || 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 (/** @type {?} */ (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`. * @return {?} */ 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, and numbers will be encoded as JSON. if (typeof this.body === 'object' || typeof this.body === 'number' || Array.isArray(this.body)) { return 'application/json'; } // No type could be inferred. return null; } /** * @param {?=} update * @return {?} */ clone(update = {}) { // For method, url, and responseType, take the current value unless // it is overridden in the update hash. const /** @type {?} */ method = update.method || this.method; const /** @type {?} */ url = update.url || this.url; const /** @type {?} */ 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 /** @type {?} */ body = (update.body !== undefined) ? update.body : this.body; // Carefully handle the boolean options to differentiate between // `false` and `undefined` in the update args. const /** @type {?} */ withCredentials = (update.withCredentials !== undefined) ? update.withCredentials : this.withCredentials; const /** @type {?} */ reportProgress = (update.reportProgress !== undefined) ? update.reportProgress : this.reportProgress; // Headers and params may be appended to if `setHeaders` or // `setParams` are used. let /** @type {?} */ headers = update.headers || this.headers; let /** @type {?} */ params = update.params || this.params; // 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, /** @type {?} */ ((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, /** @type {?} */ ((update.setParams))[param]), params); } // Finally, construct the new HttpRequest using the pieces from above. return new HttpRequest(method, url, body, { params, headers, reportProgress, responseType, withCredentials, }); } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** @enum {number} */ const HttpEventType = { /** * The request was sent out over the wire. */ Sent: 0, /** * An upload progress event was received. */ UploadProgress: 1, /** * The response status code and headers were received. */ ResponseHeader: 2, /** * A download progress event was received. */ DownloadProgress: 3, /** * The full response including the body was received. */ Response: 4, /** * A custom event from an interceptor or a backend. */ User: 5, }; HttpEventType[HttpEventType.Sent] = "Sent"; HttpEventType[HttpEventType.UploadProgress] = "UploadProgress"; HttpEventType[HttpEventType.ResponseHeader] = "ResponseHeader"; HttpEventType[HttpEventType.DownloadProgress] = "DownloadProgress"; HttpEventType[HttpEventType.Response] = "Response"; HttpEventType[HttpEventType.User] = "User"; /** * Base interface for progress events. * * \@stable * @record */ /** * A download progress event. * * \@stable * @record */ /** * An upload progress event. * * \@stable * @record */ /** * An event indicating that the request was sent to the server. Useful * when a request may be retried multiple times, to distinguish between * retries on the final event stream. * * \@stable * @record */ /** * A user-defined event. * * Grouping all custom events under this type ensures they will be handled * and forwarded by all implementations of interceptors. * * \@stable * @record * @template T */ /** * An error that represents a failed attempt to JSON.parse text coming back * from the server. * * It bundles the Error object with the actual response body that failed to parse. * * \@stable * @record */ /** * Base class for both `HttpResponse` and `HttpHeaderResponse`. * * \@stable * @abstract */ 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. * @param {?} init * @param {?=} defaultStatus * @param {?=} defaultStatusText */ constructor(init, defaultStatus = 200, 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. * * \@stable */ class HttpHeaderResponse extends HttpResponseBase { /** * Create a new `HttpHeaderResponse` with the given parameters. * @param {?=} init */ constructor(init = {}) { super(init); this.type = HttpEventType.ResponseHeader; } /** * Copy this `HttpHeaderResponse`, overriding its contents with the * given parameter hash. * @param {?=} update * @return {?} */ 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. * * \@stable * @template T */ class HttpResponse extends HttpResponseBase { /** * Construct a new `HttpResponse`. * @param {?=} init */ constructor(init = {}) { super(init); this.type = HttpEventType.Response; this.body = init.body !== undefined ? init.body : null; } /** * @param {?=} update * @return {?} */ 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. * * \@stable */ class HttpErrorResponse extends HttpResponseBase { /** * @param {?} init */ 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; } } /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * Construct an instance of `HttpRequestOptions` from a source `HttpMethodOptions` and * the given `body`. Basically, this clones the object and adds the body. * @template T * @param {?} options * @param {?} body * @return {?} */ function addBody(options, body) { return { body, headers: options.headers, observe: options.observe, params: options.params, reportProgress: options.reportProgress, responseType: options.responseType, withCredentials: options.withCredentials, }; } /** * Perform HTTP requests. * * `HttpClient` is available as an injectable class, with methods to perform HTTP requests. * Each request method has multiple signatures, and the return type varies according to which * signature is called (mainly the values of `observe` and `responseType`). * * \@stable */ class HttpClient { /** * @param {?} handler */ constructor(handler) { this.handler = handler; } /** * Constructs an `Observable` for a particular HTTP request that, when subscribed, * fires the request through the chain of registered interceptors and on to the * server. * * This method can be called in one of two ways. Either an `HttpRequest` * instance can be passed directly as the only parameter, or a method can be * passed as the first parameter, a string URL as the second, and an * options hash as the third. * * If a `HttpRequest` object is passed directly, an `Observable` of the * raw `HttpEvent` stream will be returned. * * If a request is instead built by providing a URL, the options object * determines the return type of `request()`. In addition to configuring * request parameters such as the outgoing headers and/or the body, the options * hash specifies two key pieces of information about the request: the * `responseType` and what to `observe`. * * The `responseType` value determines how a successful response body will be * parsed. If `responseType` is the default `json`, a type interface for the * resulting object may be passed as a type parameter to `request()`. * * The `observe` value determines the return type of `request()`, based on what * the consumer is interested in observing. A value of `events` will return an * `Observable` representing the raw `HttpEvent` stream, * including progress events by default. A value of `response` will return an * `Observable>` where the `T` parameter of `HttpResponse` * depends on the `responseType` and any optionally provided type parameter. * A value of `body` will return an `Observable` with the same `T` body type. * @param {?} first * @param {?=} url * @param {?=} options * @return {?} */ request(first, url, options = {}) { let /** @type {?} */ req; // Firstly, 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 = /** @type {?} */ (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 /** @type {?} */ headers = undefined; if (options.headers instanceof HttpHeaders) { headers = options.headers; } else { headers = new HttpHeaders(options.headers); } // Sort out parameters. let /** @type {?} */ 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, /** @type {?} */ ((url)), (options.body !== undefined ? options.body : null), { headers, 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 /** @type {?} */ events$ = concatMap.call(of(req), (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$; } // The requested stream contains either the full response or the body. In either // case, the first step is to filter the event stream to extract a stream of // responses(s). const /** @type {?} */ res$ = filter.call(events$, (event) => event instanceof HttpResponse); // Decide which stream to return. switch (options.observe || 'body') { case 'body': // The requested stream is the body. Map the response stream to the response // body. This could be done more simply, but a misbehaving interceptor might // transform the response body into a different format and ignore the requested // responseType. Guard against this by validating that the response is of the // requested type. switch (req.responseType) { case 'arraybuffer': return map.call(res$, (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 map.call(res$, (res) => { // Validate that the body is a Blob. if (res.body !== null && !(res.body instanceof Blob)) { throw new Error('Response is not a Blob.'); } return res.body; }); case 'text': return map.call(res$, (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 map.call(res$, (res) => res.body); } case 'response': // The response stream was requested directly, so return it. return res$; default: // Guard against new future observe types being added. throw new Error(`Unreachable: unhandled observe type ${options.observe}}`); } } /** * Constructs an `Observable` which, when subscribed, will cause the configured * DELETE request to be executed on the server. See the individual overloads for * details of `delete()`'s return type based on the provided options. * @param {?} url * @param {?=} options * @return {?} */ delete(url, options = {}) { return this.request('DELETE', url, /** @type {?} */ (options)); } /** * Constructs an `Observable` which, when subscribed, will cause the configured * GET request to be executed on the server. See the individual overloads for * details of `get()`'s return type based on the provided options. * @param {?} url * @param {?=} options * @return {?} */ get(url, options = {}) { return this.request('GET', url, /** @type {?} */ (options)); } /** * Constructs an `Observable` which, when subscribed, will cause the configured * HEAD request to be executed on the server. See the individual overloads for * details of `head()`'s return type based on the provided options. * @param {?} url * @param {?=} options * @return {?} */ head(url, options = {}) { return this.request('HEAD', url, /** @type {?} */ (options)); } /** * Constructs an `Observable` which, when subscribed, will cause a request * with the special method `JSONP` to be dispatched via the interceptor pipeline. * * A suitable interceptor must be installed (e.g. via the `HttpClientJsonpModule`). * If no such interceptor is reached, then the `JSONP` request will likely be * rejected by the configured backend. * @template T * @param {?} url * @param {?} callbackParam * @return {?} */ jsonp(url, callbackParam) { return this.request('JSONP', url, { params: new HttpParams().append(callbackParam, 'JSONP_CALLBACK'), observe: 'body', responseType: 'json', }); } /** * Constructs an `Observable` which, when subscribed, will cause the configured * OPTIONS request to be executed on the server. See the individual overloads for * details of `options()`'s return type based on the provided options. * @param {?} url * @param {?=} options * @return {?} */ options(url, options = {}) { return this.request('OPTIONS', url, /** @type {?} */ (options)); } /** * Constructs an `Observable` which, when subscribed, will cause the configured * PATCH request to be executed on the server. See the individual overloads for * details of `patch()`'s return type based on the provided options. * @param {?} url * @param {?} body * @param {?=} options * @return {?} */ patch(url, body, options = {}) { return this.request('PATCH', url, addBody(options, body)); } /** * Constructs an `Observable` which, when subscribed, will cause the configured * POST request to be executed on the server. See the individual overloads for * details of `post()`'s return type based on the provided options. * @param {?} url * @param {?} body * @param {?=} options * @return {?} */ post(url, body, options = {}) { return this.request('POST', url, addBody(options, body)); } /** * Constructs an `Observable` which, when subscribed, will cause the configured * POST request to be executed on the server. See the individual overloads for * details of `post()`'s return type based on the provided options. * @param {?} url * @param {?} body * @param {?=} options * @return {?} */ put(url, body, options = {}) { return this.request('PUT', url, addBody(options, body)); } } HttpClient.decorators = [ { type: Injectable }, ]; /** @nocollapse */ HttpClient.ctorParameters = () => [ { type: HttpHandler, }, ]; /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ /** * Intercepts `HttpRequest` and handles them. * * Most interceptors will transform the outgoing request before passing it to the * next interceptor in the chain, by calling `next.handle(transformedReq)`. * * In rare cases, interceptors may wish to completely handle a request themselves, * and not delegate to the remainder of the chain. This behavior is allowed. * * \@stable * @record */ /** * `HttpHandler` which applies an `HttpInterceptor` to an `HttpRequest`. * * \@stable */ class HttpInterceptorHandler { /** * @param {?} next * @param {?} interceptor */ constructor(next, interceptor) { this.next = next; this.interceptor = interceptor; } /** * @param {?} req * @return {?} */ handle(req) { return this.interceptor.intercept(req, this.next); } } /** * A multi-provider token which represents the array of `HttpInterceptor`s that * are registered. * * \@stable */ const HTTP_INTERCEPTORS = new InjectionToken('HTTP_INTERCEPTORS'); class NoopInterceptor { /** * @param {?} req * @param {?} next * @return {?} */ intercept(req, next) { return next.handle(req); } } NoopInterceptor.decorators = [ { type: Injectable }, ]; /** @nocollapse */ NoopInterceptor.ctorParameters = () => []; /** * @fileoverview added by tsickle * @suppress {checkTypes} checked by tsc */ /** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ // 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; // 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.'; /** * DI token/abstract type representing a map of JSONP callbacks. * * In the browser, this should always be the `window` object. * * \@stable * @abstract */ class JsonpCallbackContext { } /** * `HttpBackend` that only processes `HttpRequest` with the JSONP method, * by performing JSONP style requests. * * \@stable */ class JsonpClientBackend { /** * @param {?} callbackMap * @param {?} document */ constructor(callbackMap, document) { this.callbackMap = callbackMap; this.document = document; } /** * Get the name of the next callback method, by incrementing the global `nextRequestId`. * @return {?} */ nextCallback() { return `ng_jsonp_callback_${nextRequestId++}`; } /** * Process a JSONP request and return an event stream of the results. * @param {?} req * @return {?} */ 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); } // 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 /** @type {?} */ callback = this.nextCallback(); const /** @type {?} */ url = req.urlWithParams.replace(/=JSONP_CALLBACK(&|$)/, `=${callback}$1`); // Construct the