// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/websockets/websocket_stream.h" #include #include "base/logging.h" #include "base/metrics/histogram_macros.h" #include "base/metrics/sparse_histogram.h" #include "base/time/time.h" #include "base/timer/timer.h" #include "net/base/load_flags.h" #include "net/base/url_util.h" #include "net/http/http_request_headers.h" #include "net/http/http_response_headers.h" #include "net/http/http_status_code.h" #include "net/traffic_annotation/network_traffic_annotation.h" #include "net/url_request/redirect_info.h" #include "net/url_request/url_request.h" #include "net/url_request/url_request_context.h" #include "net/websockets/websocket_errors.h" #include "net/websockets/websocket_event_interface.h" #include "net/websockets/websocket_handshake_constants.h" #include "net/websockets/websocket_handshake_stream_base.h" #include "net/websockets/websocket_handshake_stream_create_helper.h" #include "url/gurl.h" #include "url/origin.h" namespace { constexpr net::NetworkTrafficAnnotationTag kTrafficAnnotation = net::DefineNetworkTrafficAnnotation("websocket_stream", R"( semantics { sender: "WebSocket Handshake" description: "Renderer process initiated WebSocket handshake. The WebSocket " "handshake is used to establish a connection between a web page " "and a consenting server for bi-directional communication." trigger: "A handshake is performed every time a new connection is " "established via the Javascript or PPAPI WebSocket API. Any web " "page or extension can create a WebSocket connection." data: "The path and sub-protocols requested when the WebSocket was " "created, plus the origin of the creating page." destination: OTHER } policy { cookies_allowed: YES cookies_store: "user or per-app cookie store" setting: "These requests cannot be disabled." policy_exception_justification: "Not implemented. WebSocket is a core web platform API." })"); } // namespace namespace net { namespace { // The timeout duration of WebSocket handshake. // It is defined as the same value as the TCP connection timeout value in // net/socket/websocket_transport_client_socket_pool.cc to make it hard for // JavaScript programs to recognize the timeout cause. const int kHandshakeTimeoutIntervalInSeconds = 240; class WebSocketStreamRequestImpl; class Delegate : public URLRequest::Delegate { public: enum HandshakeResult { INCOMPLETE, CONNECTED, FAILED, NUM_HANDSHAKE_RESULT_TYPES, }; explicit Delegate(WebSocketStreamRequestImpl* owner) : owner_(owner), result_(INCOMPLETE) {} ~Delegate() override { UMA_HISTOGRAM_ENUMERATION( "Net.WebSocket.HandshakeResult", result_, NUM_HANDSHAKE_RESULT_TYPES); } // Implementation of URLRequest::Delegate methods. void OnReceivedRedirect(URLRequest* request, const RedirectInfo& redirect_info, bool* defer_redirect) override; void OnResponseStarted(URLRequest* request, int net_error) override; void OnAuthRequired(URLRequest* request, AuthChallengeInfo* auth_info) override; void OnCertificateRequested(URLRequest* request, SSLCertRequestInfo* cert_request_info) override; void OnSSLCertificateError(URLRequest* request, const SSLInfo& ssl_info, bool fatal) override; void OnReadCompleted(URLRequest* request, int bytes_read) override; private: WebSocketStreamRequestImpl* owner_; HandshakeResult result_; }; class WebSocketStreamRequestImpl : public WebSocketStreamRequest { public: WebSocketStreamRequestImpl( const GURL& url, const URLRequestContext* context, const url::Origin& origin, const GURL& site_for_cookies, const std::string& additional_headers, std::unique_ptr connect_delegate, std::unique_ptr create_helper) : delegate_(new Delegate(this)), url_request_(context->CreateRequest(url, DEFAULT_PRIORITY, delegate_.get(), kTrafficAnnotation)), connect_delegate_(std::move(connect_delegate)), handshake_stream_(nullptr) { create_helper->set_stream_request(this); HttpRequestHeaders headers; headers.SetHeader(websockets::kUpgrade, websockets::kWebSocketLowercase); headers.SetHeader(HttpRequestHeaders::kConnection, websockets::kUpgrade); headers.SetHeader(HttpRequestHeaders::kOrigin, origin.Serialize()); headers.SetHeader(websockets::kSecWebSocketVersion, websockets::kSupportedVersion); headers.AddHeadersFromString(additional_headers); url_request_->SetExtraRequestHeaders(headers); url_request_->set_initiator(origin); url_request_->set_site_for_cookies(site_for_cookies); url_request_->SetUserData( WebSocketHandshakeStreamBase::CreateHelper::DataKey(), std::move(create_helper)); url_request_->SetLoadFlags(LOAD_DISABLE_CACHE | LOAD_BYPASS_CACHE); connect_delegate_->OnCreateRequest(url_request_.get()); } // Destroying this object destroys the URLRequest, which cancels the request // and so terminates the handshake if it is incomplete. ~WebSocketStreamRequestImpl() override {} void OnHandshakeStreamCreated( WebSocketHandshakeStreamBase* handshake_stream) override { handshake_stream_ = handshake_stream; } void OnFailure(const std::string& message) override { failure_message_ = message; } void Start(std::unique_ptr timer) { DCHECK(timer); base::TimeDelta timeout(base::TimeDelta::FromSeconds( kHandshakeTimeoutIntervalInSeconds)); timer_ = std::move(timer); timer_->Start(FROM_HERE, timeout, base::Bind(&WebSocketStreamRequestImpl::OnTimeout, base::Unretained(this))); url_request_->Start(); } void PerformUpgrade() { DCHECK(timer_); DCHECK(handshake_stream_); timer_->Stop(); std::unique_ptr url_request = std::move(url_request_); WebSocketHandshakeStreamBase* handshake_stream = handshake_stream_; handshake_stream_ = nullptr; connect_delegate_->OnSuccess(handshake_stream->Upgrade()); // This is safe even if |this| has already been deleted. url_request->CancelWithError(ERR_WS_UPGRADE); } std::string FailureMessageFromNetError(int net_error) { if (net_error == ERR_TUNNEL_CONNECTION_FAILED) { // This error is common and confusing, so special-case it. // TODO(ricea): Include the HostPortPair of the selected proxy server in // the error message. This is not currently possible because it isn't set // in HttpResponseInfo when a ERR_TUNNEL_CONNECTION_FAILED error happens. return "Establishing a tunnel via proxy server failed."; } else { return std::string("Error in connection establishment: ") + ErrorToString(net_error); } } void ReportFailure(int net_error) { DCHECK(timer_); timer_->Stop(); if (failure_message_.empty()) { switch (net_error) { case OK: case ERR_IO_PENDING: break; case ERR_ABORTED: failure_message_ = "WebSocket opening handshake was canceled"; break; case ERR_TIMED_OUT: failure_message_ = "WebSocket opening handshake timed out"; break; default: failure_message_ = FailureMessageFromNetError(net_error); break; } } ReportFailureWithMessage(failure_message_); } void ReportFailureWithMessage(const std::string& failure_message) { connect_delegate_->OnFailure(failure_message); } void OnFinishOpeningHandshake() { WebSocketDispatchOnFinishOpeningHandshake(connect_delegate(), url_request_->url(), url_request_->response_headers(), url_request_->response_time()); } WebSocketStream::ConnectDelegate* connect_delegate() const { return connect_delegate_.get(); } void OnTimeout() { url_request_->CancelWithError(ERR_TIMED_OUT); } private: // |delegate_| needs to be declared before |url_request_| so that it gets // initialised first. std::unique_ptr delegate_; // Deleting the WebSocketStreamRequestImpl object deletes this URLRequest // object, cancelling the whole connection. std::unique_ptr url_request_; std::unique_ptr connect_delegate_; // This is owned by the caller of // WebsocketHandshakeStreamCreateHelper::CreateBaseStream(). Both the stream // and this object will be destroyed during the destruction of the URLRequest // object associated with the handshake. This is only guaranteed to be a valid // pointer if the handshake succeeded. WebSocketHandshakeStreamBase* handshake_stream_; // The failure message supplied by WebSocketBasicHandshakeStream, if any. std::string failure_message_; // A timer for handshake timeout. std::unique_ptr timer_; }; class SSLErrorCallbacks : public WebSocketEventInterface::SSLErrorCallbacks { public: explicit SSLErrorCallbacks(URLRequest* url_request) : url_request_(url_request) {} void CancelSSLRequest(int error, const SSLInfo* ssl_info) override { if (ssl_info) { url_request_->CancelWithSSLError(error, *ssl_info); } else { url_request_->CancelWithError(error); } } void ContinueSSLRequest() override { url_request_->ContinueDespiteLastError(); } private: URLRequest* url_request_; }; void Delegate::OnReceivedRedirect(URLRequest* request, const RedirectInfo& redirect_info, bool* defer_redirect) { // This code should never be reached for externally generated redirects, // as WebSocketBasicHandshakeStream is responsible for filtering out // all response codes besides 101, 401, and 407. As such, the URLRequest // should never see a redirect sent over the network. However, internal // redirects also result in this method being called, such as those // caused by HSTS. // Because it's security critical to prevent externally-generated // redirects in WebSockets, perform additional checks to ensure this // is only internal. GURL::Replacements replacements; replacements.SetSchemeStr("wss"); GURL expected_url = request->original_url().ReplaceComponents(replacements); if (redirect_info.new_method != "GET" || redirect_info.new_url != expected_url) { // This should not happen. DLOG(FATAL) << "Unauthorized WebSocket redirect to " << redirect_info.new_method << " " << redirect_info.new_url.spec(); request->Cancel(); } } void Delegate::OnResponseStarted(URLRequest* request, int net_error) { DCHECK_NE(ERR_IO_PENDING, net_error); // All error codes, including OK and ABORTED, as with // Net.ErrorCodesForMainFrame3 UMA_HISTOGRAM_SPARSE_SLOWLY("Net.WebSocket.ErrorCodes", -net_error); if (net::IsLocalhost(request->url().HostNoBrackets())) { UMA_HISTOGRAM_SPARSE_SLOWLY("Net.WebSocket.ErrorCodes_Localhost", -net_error); } else { UMA_HISTOGRAM_SPARSE_SLOWLY("Net.WebSocket.ErrorCodes_NotLocalhost", -net_error); } if (net_error != OK) { DVLOG(3) << "OnResponseStarted (request failed)"; owner_->ReportFailure(net_error); return; } const int response_code = request->GetResponseCode(); DVLOG(3) << "OnResponseStarted (response code " << response_code << ")"; switch (response_code) { case HTTP_SWITCHING_PROTOCOLS: result_ = CONNECTED; owner_->PerformUpgrade(); return; case HTTP_UNAUTHORIZED: result_ = FAILED; owner_->OnFinishOpeningHandshake(); owner_->ReportFailureWithMessage( "HTTP Authentication failed; no valid credentials available"); return; case HTTP_PROXY_AUTHENTICATION_REQUIRED: result_ = FAILED; owner_->OnFinishOpeningHandshake(); owner_->ReportFailureWithMessage("Proxy authentication failed"); return; default: result_ = FAILED; owner_->ReportFailure(net_error); } } void Delegate::OnAuthRequired(URLRequest* request, AuthChallengeInfo* auth_info) { // This should only be called if credentials are not already stored. request->CancelAuth(); } void Delegate::OnCertificateRequested(URLRequest* request, SSLCertRequestInfo* cert_request_info) { // This method is called when a client certificate is requested, and the // request context does not already contain a client certificate selection for // the endpoint. In this case, a main frame resource request would pop-up UI // to permit selection of a client certificate, but since WebSockets are // sub-resources they should not pop-up UI and so there is nothing more we can // do. request->Cancel(); } void Delegate::OnSSLCertificateError(URLRequest* request, const SSLInfo& ssl_info, bool fatal) { owner_->connect_delegate()->OnSSLCertificateError( std::unique_ptr( new SSLErrorCallbacks(request)), ssl_info, fatal); } void Delegate::OnReadCompleted(URLRequest* request, int bytes_read) { NOTREACHED(); } } // namespace WebSocketStreamRequest::~WebSocketStreamRequest() {} WebSocketStream::WebSocketStream() {} WebSocketStream::~WebSocketStream() {} WebSocketStream::ConnectDelegate::~ConnectDelegate() {} std::unique_ptr WebSocketStream::CreateAndConnectStream( const GURL& socket_url, std::unique_ptr create_helper, const url::Origin& origin, const GURL& site_for_cookies, const std::string& additional_headers, URLRequestContext* url_request_context, const NetLogWithSource& net_log, std::unique_ptr connect_delegate) { std::unique_ptr request( new WebSocketStreamRequestImpl(socket_url, url_request_context, origin, site_for_cookies, additional_headers, std::move(connect_delegate), std::move(create_helper))); request->Start(std::unique_ptr(new base::Timer(false, false))); return std::move(request); } std::unique_ptr WebSocketStream::CreateAndConnectStreamForTesting( const GURL& socket_url, std::unique_ptr create_helper, const url::Origin& origin, const GURL& site_for_cookies, const std::string& additional_headers, URLRequestContext* url_request_context, const NetLogWithSource& net_log, std::unique_ptr connect_delegate, std::unique_ptr timer) { std::unique_ptr request( new WebSocketStreamRequestImpl(socket_url, url_request_context, origin, site_for_cookies, additional_headers, std::move(connect_delegate), std::move(create_helper))); request->Start(std::move(timer)); return std::move(request); } void WebSocketDispatchOnFinishOpeningHandshake( WebSocketStream::ConnectDelegate* connect_delegate, const GURL& url, const scoped_refptr& headers, base::Time response_time) { DCHECK(connect_delegate); if (headers.get()) { connect_delegate->OnFinishOpeningHandshake( std::make_unique( url, headers->response_code(), headers->GetStatusText(), headers, response_time)); } } } // namespace net