/** * Copyright 2017 Google Inc. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ import {Protocol} from 'devtools-protocol'; import {assert} from '../util/assert.js'; import {createDebuggableDeferred} from '../util/DebuggableDeferred.js'; import {Deferred} from '../util/Deferred.js'; import {CDPSession} from './Connection.js'; import {EventEmitter} from './EventEmitter.js'; import {FrameManager} from './FrameManager.js'; import {HTTPRequest} from './HTTPRequest.js'; import {HTTPResponse} from './HTTPResponse.js'; import {FetchRequestId, NetworkEventManager} from './NetworkEventManager.js'; import {debugError, isString} from './util.js'; /** * @public */ export interface Credentials { username: string; password: string; } /** * @public */ export interface NetworkConditions { // Download speed (bytes/s) download: number; // Upload speed (bytes/s) upload: number; // Latency (ms) latency: number; } /** * @public */ export interface InternalNetworkConditions extends NetworkConditions { offline: boolean; } /** * We use symbols to prevent any external parties listening to these events. * They are internal to Puppeteer. * * @internal */ export const NetworkManagerEmittedEvents = { Request: Symbol('NetworkManager.Request'), RequestServedFromCache: Symbol('NetworkManager.RequestServedFromCache'), Response: Symbol('NetworkManager.Response'), RequestFailed: Symbol('NetworkManager.RequestFailed'), RequestFinished: Symbol('NetworkManager.RequestFinished'), } as const; /** * @internal */ export class NetworkManager extends EventEmitter { #client: CDPSession; #ignoreHTTPSErrors: boolean; #frameManager: Pick; #networkEventManager = new NetworkEventManager(); #extraHTTPHeaders: Record = {}; #credentials?: Credentials; #attemptedAuthentications = new Set(); #userRequestInterceptionEnabled = false; #protocolRequestInterceptionEnabled = false; #userCacheDisabled = false; #emulatedNetworkConditions: InternalNetworkConditions = { offline: false, upload: -1, download: -1, latency: 0, }; #deferredInit?: Deferred; constructor( client: CDPSession, ignoreHTTPSErrors: boolean, frameManager: Pick ) { super(); this.#client = client; this.#ignoreHTTPSErrors = ignoreHTTPSErrors; this.#frameManager = frameManager; this.#client.on('Fetch.requestPaused', this.#onRequestPaused.bind(this)); this.#client.on('Fetch.authRequired', this.#onAuthRequired.bind(this)); this.#client.on( 'Network.requestWillBeSent', this.#onRequestWillBeSent.bind(this) ); this.#client.on( 'Network.requestServedFromCache', this.#onRequestServedFromCache.bind(this) ); this.#client.on( 'Network.responseReceived', this.#onResponseReceived.bind(this) ); this.#client.on( 'Network.loadingFinished', this.#onLoadingFinished.bind(this) ); this.#client.on('Network.loadingFailed', this.#onLoadingFailed.bind(this)); this.#client.on( 'Network.responseReceivedExtraInfo', this.#onResponseReceivedExtraInfo.bind(this) ); } /** * Initialize calls should avoid async dependencies between CDP calls as those * might not resolve until after the target is resumed causing a deadlock. */ initialize(): Promise { if (this.#deferredInit) { return this.#deferredInit.valueOrThrow(); } this.#deferredInit = createDebuggableDeferred( 'NetworkManager initialization timed out' ); const init = Promise.all([ this.#ignoreHTTPSErrors ? this.#client.send('Security.setIgnoreCertificateErrors', { ignore: true, }) : null, this.#client.send('Network.enable'), ]); const deferredInitPromise = this.#deferredInit; init .then(() => { deferredInitPromise.resolve(); }) .catch(err => { deferredInitPromise.reject(err); }); return this.#deferredInit.valueOrThrow(); } async authenticate(credentials?: Credentials): Promise { this.#credentials = credentials; await this.#updateProtocolRequestInterception(); } async setExtraHTTPHeaders( extraHTTPHeaders: Record ): Promise { this.#extraHTTPHeaders = {}; for (const key of Object.keys(extraHTTPHeaders)) { const value = extraHTTPHeaders[key]; assert( isString(value), `Expected value of header "${key}" to be String, but "${typeof value}" is found.` ); this.#extraHTTPHeaders[key.toLowerCase()] = value; } await this.#client.send('Network.setExtraHTTPHeaders', { headers: this.#extraHTTPHeaders, }); } extraHTTPHeaders(): Record { return Object.assign({}, this.#extraHTTPHeaders); } inFlightRequestsCount(): number { return this.#networkEventManager.inFlightRequestsCount(); } async setOfflineMode(value: boolean): Promise { this.#emulatedNetworkConditions.offline = value; await this.#updateNetworkConditions(); } async emulateNetworkConditions( networkConditions: NetworkConditions | null ): Promise { this.#emulatedNetworkConditions.upload = networkConditions ? networkConditions.upload : -1; this.#emulatedNetworkConditions.download = networkConditions ? networkConditions.download : -1; this.#emulatedNetworkConditions.latency = networkConditions ? networkConditions.latency : 0; await this.#updateNetworkConditions(); } async #updateNetworkConditions(): Promise { await this.#client.send('Network.emulateNetworkConditions', { offline: this.#emulatedNetworkConditions.offline, latency: this.#emulatedNetworkConditions.latency, uploadThroughput: this.#emulatedNetworkConditions.upload, downloadThroughput: this.#emulatedNetworkConditions.download, }); } async setUserAgent( userAgent: string, userAgentMetadata?: Protocol.Emulation.UserAgentMetadata ): Promise { await this.#client.send('Network.setUserAgentOverride', { userAgent: userAgent, userAgentMetadata: userAgentMetadata, }); } async setCacheEnabled(enabled: boolean): Promise { this.#userCacheDisabled = !enabled; await this.#updateProtocolCacheDisabled(); } async setRequestInterception(value: boolean): Promise { this.#userRequestInterceptionEnabled = value; await this.#updateProtocolRequestInterception(); } async #updateProtocolRequestInterception(): Promise { const enabled = this.#userRequestInterceptionEnabled || !!this.#credentials; if (enabled === this.#protocolRequestInterceptionEnabled) { return; } this.#protocolRequestInterceptionEnabled = enabled; if (enabled) { await Promise.all([ this.#updateProtocolCacheDisabled(), this.#client.send('Fetch.enable', { handleAuthRequests: true, patterns: [{urlPattern: '*'}], }), ]); } else { await Promise.all([ this.#updateProtocolCacheDisabled(), this.#client.send('Fetch.disable'), ]); } } #cacheDisabled(): boolean { return this.#userCacheDisabled; } async #updateProtocolCacheDisabled(): Promise { await this.#client.send('Network.setCacheDisabled', { cacheDisabled: this.#cacheDisabled(), }); } #onRequestWillBeSent(event: Protocol.Network.RequestWillBeSentEvent): void { // Request interception doesn't happen for data URLs with Network Service. if ( this.#userRequestInterceptionEnabled && !event.request.url.startsWith('data:') ) { const {requestId: networkRequestId} = event; this.#networkEventManager.storeRequestWillBeSent(networkRequestId, event); /** * CDP may have sent a Fetch.requestPaused event already. Check for it. */ const requestPausedEvent = this.#networkEventManager.getRequestPaused(networkRequestId); if (requestPausedEvent) { const {requestId: fetchRequestId} = requestPausedEvent; this.#patchRequestEventHeaders(event, requestPausedEvent); this.#onRequest(event, fetchRequestId); this.#networkEventManager.forgetRequestPaused(networkRequestId); } return; } this.#onRequest(event, undefined); } #onAuthRequired(event: Protocol.Fetch.AuthRequiredEvent): void { let response: Protocol.Fetch.AuthChallengeResponse['response'] = 'Default'; if (this.#attemptedAuthentications.has(event.requestId)) { response = 'CancelAuth'; } else if (this.#credentials) { response = 'ProvideCredentials'; this.#attemptedAuthentications.add(event.requestId); } const {username, password} = this.#credentials || { username: undefined, password: undefined, }; this.#client .send('Fetch.continueWithAuth', { requestId: event.requestId, authChallengeResponse: {response, username, password}, }) .catch(debugError); } /** * CDP may send a Fetch.requestPaused without or before a * Network.requestWillBeSent * * CDP may send multiple Fetch.requestPaused * for the same Network.requestWillBeSent. */ #onRequestPaused(event: Protocol.Fetch.RequestPausedEvent): void { if ( !this.#userRequestInterceptionEnabled && this.#protocolRequestInterceptionEnabled ) { this.#client .send('Fetch.continueRequest', { requestId: event.requestId, }) .catch(debugError); } const {networkId: networkRequestId, requestId: fetchRequestId} = event; if (!networkRequestId) { this.#onRequestWithoutNetworkInstrumentation(event); return; } const requestWillBeSentEvent = (() => { const requestWillBeSentEvent = this.#networkEventManager.getRequestWillBeSent(networkRequestId); // redirect requests have the same `requestId`, if ( requestWillBeSentEvent && (requestWillBeSentEvent.request.url !== event.request.url || requestWillBeSentEvent.request.method !== event.request.method) ) { this.#networkEventManager.forgetRequestWillBeSent(networkRequestId); return; } return requestWillBeSentEvent; })(); if (requestWillBeSentEvent) { this.#patchRequestEventHeaders(requestWillBeSentEvent, event); this.#onRequest(requestWillBeSentEvent, fetchRequestId); } else { this.#networkEventManager.storeRequestPaused(networkRequestId, event); } } #patchRequestEventHeaders( requestWillBeSentEvent: Protocol.Network.RequestWillBeSentEvent, requestPausedEvent: Protocol.Fetch.RequestPausedEvent ): void { requestWillBeSentEvent.request.headers = { ...requestWillBeSentEvent.request.headers, // includes extra headers, like: Accept, Origin ...requestPausedEvent.request.headers, }; } #onRequestWithoutNetworkInstrumentation( event: Protocol.Fetch.RequestPausedEvent ): void { // If an event has no networkId it should not have any network events. We // still want to dispatch it for the interception by the user. const frame = event.frameId ? this.#frameManager.frame(event.frameId) : null; const request = new HTTPRequest( this.#client, frame, event.requestId, this.#userRequestInterceptionEnabled, event, [] ); this.emit(NetworkManagerEmittedEvents.Request, request); void request.finalizeInterceptions(); } #onRequest( event: Protocol.Network.RequestWillBeSentEvent, fetchRequestId?: FetchRequestId ): void { let redirectChain: HTTPRequest[] = []; if (event.redirectResponse) { // We want to emit a response and requestfinished for the // redirectResponse, but we can't do so unless we have a // responseExtraInfo ready to pair it up with. If we don't have any // responseExtraInfos saved in our queue, they we have to wait until // the next one to emit response and requestfinished, *and* we should // also wait to emit this Request too because it should come after the // response/requestfinished. let redirectResponseExtraInfo = null; if (event.redirectHasExtraInfo) { redirectResponseExtraInfo = this.#networkEventManager .responseExtraInfo(event.requestId) .shift(); if (!redirectResponseExtraInfo) { this.#networkEventManager.queueRedirectInfo(event.requestId, { event, fetchRequestId, }); return; } } const request = this.#networkEventManager.getRequest(event.requestId); // If we connect late to the target, we could have missed the // requestWillBeSent event. if (request) { this.#handleRequestRedirect( request, event.redirectResponse, redirectResponseExtraInfo ); redirectChain = request._redirectChain; } } const frame = event.frameId ? this.#frameManager.frame(event.frameId) : null; const request = new HTTPRequest( this.#client, frame, fetchRequestId, this.#userRequestInterceptionEnabled, event, redirectChain ); this.#networkEventManager.storeRequest(event.requestId, request); this.emit(NetworkManagerEmittedEvents.Request, request); void request.finalizeInterceptions(); } #onRequestServedFromCache( event: Protocol.Network.RequestServedFromCacheEvent ): void { const request = this.#networkEventManager.getRequest(event.requestId); if (request) { request._fromMemoryCache = true; } this.emit(NetworkManagerEmittedEvents.RequestServedFromCache, request); } #handleRequestRedirect( request: HTTPRequest, responsePayload: Protocol.Network.Response, extraInfo: Protocol.Network.ResponseReceivedExtraInfoEvent | null ): void { const response = new HTTPResponse( this.#client, request, responsePayload, extraInfo ); request._response = response; request._redirectChain.push(request); response._resolveBody( new Error('Response body is unavailable for redirect responses') ); this.#forgetRequest(request, false); this.emit(NetworkManagerEmittedEvents.Response, response); this.emit(NetworkManagerEmittedEvents.RequestFinished, request); } #emitResponseEvent( responseReceived: Protocol.Network.ResponseReceivedEvent, extraInfo: Protocol.Network.ResponseReceivedExtraInfoEvent | null ): void { const request = this.#networkEventManager.getRequest( responseReceived.requestId ); // FileUpload sends a response without a matching request. if (!request) { return; } const extraInfos = this.#networkEventManager.responseExtraInfo( responseReceived.requestId ); if (extraInfos.length) { debugError( new Error( 'Unexpected extraInfo events for request ' + responseReceived.requestId ) ); } // Chromium sends wrong extraInfo events for responses served from cache. // See https://github.com/puppeteer/puppeteer/issues/9965 and // https://crbug.com/1340398. if (responseReceived.response.fromDiskCache) { extraInfo = null; } const response = new HTTPResponse( this.#client, request, responseReceived.response, extraInfo ); request._response = response; this.emit(NetworkManagerEmittedEvents.Response, response); } #onResponseReceived(event: Protocol.Network.ResponseReceivedEvent): void { const request = this.#networkEventManager.getRequest(event.requestId); let extraInfo = null; if (request && !request._fromMemoryCache && event.hasExtraInfo) { extraInfo = this.#networkEventManager .responseExtraInfo(event.requestId) .shift(); if (!extraInfo) { // Wait until we get the corresponding ExtraInfo event. this.#networkEventManager.queueEventGroup(event.requestId, { responseReceivedEvent: event, }); return; } } this.#emitResponseEvent(event, extraInfo); } #onResponseReceivedExtraInfo( event: Protocol.Network.ResponseReceivedExtraInfoEvent ): void { // We may have skipped a redirect response/request pair due to waiting for // this ExtraInfo event. If so, continue that work now that we have the // request. const redirectInfo = this.#networkEventManager.takeQueuedRedirectInfo( event.requestId ); if (redirectInfo) { this.#networkEventManager.responseExtraInfo(event.requestId).push(event); this.#onRequest(redirectInfo.event, redirectInfo.fetchRequestId); return; } // We may have skipped response and loading events because we didn't have // this ExtraInfo event yet. If so, emit those events now. const queuedEvents = this.#networkEventManager.getQueuedEventGroup( event.requestId ); if (queuedEvents) { this.#networkEventManager.forgetQueuedEventGroup(event.requestId); this.#emitResponseEvent(queuedEvents.responseReceivedEvent, event); if (queuedEvents.loadingFinishedEvent) { this.#emitLoadingFinished(queuedEvents.loadingFinishedEvent); } if (queuedEvents.loadingFailedEvent) { this.#emitLoadingFailed(queuedEvents.loadingFailedEvent); } return; } // Wait until we get another event that can use this ExtraInfo event. this.#networkEventManager.responseExtraInfo(event.requestId).push(event); } #forgetRequest(request: HTTPRequest, events: boolean): void { const requestId = request._requestId; const interceptionId = request._interceptionId; this.#networkEventManager.forgetRequest(requestId); interceptionId !== undefined && this.#attemptedAuthentications.delete(interceptionId); if (events) { this.#networkEventManager.forget(requestId); } } #onLoadingFinished(event: Protocol.Network.LoadingFinishedEvent): void { // If the response event for this request is still waiting on a // corresponding ExtraInfo event, then wait to emit this event too. const queuedEvents = this.#networkEventManager.getQueuedEventGroup( event.requestId ); if (queuedEvents) { queuedEvents.loadingFinishedEvent = event; } else { this.#emitLoadingFinished(event); } } #emitLoadingFinished(event: Protocol.Network.LoadingFinishedEvent): void { const request = this.#networkEventManager.getRequest(event.requestId); // For certain requestIds we never receive requestWillBeSent event. // @see https://crbug.com/750469 if (!request) { return; } // Under certain conditions we never get the Network.responseReceived // event from protocol. @see https://crbug.com/883475 if (request.response()) { request.response()?._resolveBody(null); } this.#forgetRequest(request, true); this.emit(NetworkManagerEmittedEvents.RequestFinished, request); } #onLoadingFailed(event: Protocol.Network.LoadingFailedEvent): void { // If the response event for this request is still waiting on a // corresponding ExtraInfo event, then wait to emit this event too. const queuedEvents = this.#networkEventManager.getQueuedEventGroup( event.requestId ); if (queuedEvents) { queuedEvents.loadingFailedEvent = event; } else { this.#emitLoadingFailed(event); } } #emitLoadingFailed(event: Protocol.Network.LoadingFailedEvent): void { const request = this.#networkEventManager.getRequest(event.requestId); // For certain requestIds we never receive requestWillBeSent event. // @see https://crbug.com/750469 if (!request) { return; } request._failureText = event.errorText; const response = request.response(); if (response) { response._resolveBody(null); } this.#forgetRequest(request, true); this.emit(NetworkManagerEmittedEvents.RequestFailed, request); } }