// Copyright (c) 2017 The Chromium Embedded Framework 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 "tests/cefclient/browser/server_test.h" #include #include #include "include/base/cef_bind.h" #include "include/base/cef_weak_ptr.h" #include "include/cef_parser.h" #include "include/cef_server.h" #include "include/wrapper/cef_closure_task.h" #include "tests/shared/browser/resource_util.h" namespace client { namespace server_test { namespace { // Application-specific error codes. const int kMessageFormatError = 1; const int kActionStateError = 1; // JSON dictionary keys. const char kActionKey[] = "action"; const char kResultKey[] = "result"; const char kPortKey[] = "port"; const char kStatusKey[] = "status"; const char kMessageKey[] = "message"; // Required URL for cefQuery execution. const char kTestUrl[] = "http://tests/server"; // Server default values. const char kServerAddress[] = "127.0.0.1"; const int kServerPortDefault = 8099; const int kServerBacklog = 10; const char kDefaultPath[] = "websocket.html"; // Handles the HTTP/WebSocket server. class ServerHandler : public CefServerHandler { public: typedef base::Callback CompleteCallback; ServerHandler() {} // |complete_callback| will be executed on the UI thread after completion. void StartServer(int port, const CompleteCallback& complete_callback) { CEF_REQUIRE_UI_THREAD(); DCHECK(!server_); DCHECK(port >= 1025 && port <= 65535); port_ = port; complete_callback_ = complete_callback; CefServer::CreateServer(kServerAddress, port, kServerBacklog, this); } // |complete_callback| will be executed on the UI thread after completion. void StopServer(const CompleteCallback& complete_callback) { CEF_REQUIRE_UI_THREAD(); DCHECK(server_); complete_callback_ = complete_callback; server_->Shutdown(); } // CefServerHandler methods are called on the server thread. void OnServerCreated(CefRefPtr server) override { DCHECK(!server_); server_ = server; RunCompleteCallback(server->IsRunning()); } void OnServerDestroyed(CefRefPtr server) override { DCHECK(server_); server_ = nullptr; RunCompleteCallback(true); } void OnClientConnected(CefRefPtr server, int connection_id) override {} void OnClientDisconnected(CefRefPtr server, int connection_id) override {} void OnHttpRequest(CefRefPtr server, int connection_id, const CefString& client_address, CefRefPtr request) override { // Parse the request URL and retrieve the path without leading slash. CefURLParts url_parts; CefParseURL(request->GetURL(), url_parts); std::string path = CefString(&url_parts.path); if (!path.empty() && path[0] == '/') path = path.substr(1); if (path.empty()) path = kDefaultPath; std::string mime_type; const size_t sep = path.find_last_of("."); if (sep != std::string::npos) { // Determine the mime type based on the extension. mime_type = CefGetMimeType(path.substr(sep + 1)); } else { // No extension. Assume html. path += ".html"; } if (mime_type.empty()) mime_type = "text/html"; CefRefPtr stream; CefResponse::HeaderMap extra_headers; if (path == "request.html") { // Return the request contents. stream = test_runner::GetDumpResponse(request, extra_headers); } if (!stream) { // Load any resource supported by cefclient. stream = GetBinaryResourceReader(path.c_str()); } if (stream) { SendHttpResponseStream(server, connection_id, mime_type, stream, extra_headers); } else { server->SendHttp404Response(connection_id); } } void OnWebSocketRequest(CefRefPtr server, int connection_id, const CefString& client_address, CefRefPtr request, CefRefPtr callback) override { // Always accept WebSocket connections. callback->Continue(); } void OnWebSocketConnected(CefRefPtr server, int connection_id) override {} void OnWebSocketMessage(CefRefPtr server, int connection_id, const void* data, size_t data_size) override { // Echo the reverse of the message. std::string message(static_cast(data), data_size); std::reverse(message.begin(), message.end()); server->SendWebSocketMessage(connection_id, message.data(), message.size()); } int port() const { return port_; } private: void RunCompleteCallback(bool success) { if (!CefCurrentlyOn(TID_UI)) { CefPostTask(TID_UI, base::Bind(&ServerHandler::RunCompleteCallback, this, success)); return; } if (!complete_callback_.is_null()) { complete_callback_.Run(success); complete_callback_.Reset(); } } static void SendHttpResponseStream(CefRefPtr server, int connection_id, const std::string& mime_type, CefRefPtr stream, CefResponse::HeaderMap extra_headers) { // Determine the stream size. stream->Seek(0, SEEK_END); int64 content_length = stream->Tell(); stream->Seek(0, SEEK_SET); // Send response headers. server->SendHttpResponse(connection_id, 200, mime_type, content_length, extra_headers); // Send stream contents. char buffer[8192]; size_t read; do { read = stream->Read(buffer, 1, sizeof(buffer)); if (read > 0) server->SendRawData(connection_id, buffer, read); } while (!stream->Eof() && read != 0); // Close the connection. server->CloseConnection(connection_id); } CefRefPtr server_; // The below members are only accessed on the UI thread. int port_; CompleteCallback complete_callback_; IMPLEMENT_REFCOUNTING(ServerHandler); DISALLOW_COPY_AND_ASSIGN(ServerHandler); }; // Handle messages in the browser process. class Handler : public CefMessageRouterBrowserSide::Handler { public: Handler() : weak_ptr_factory_(this) {} virtual ~Handler() { if (handler_) { handler_->StopServer(ServerHandler::CompleteCallback()); handler_ = nullptr; } } // Called due to cefQuery execution in server.html. virtual bool OnQuery(CefRefPtr browser, CefRefPtr frame, int64 query_id, const CefString& request, bool persistent, CefRefPtr callback) OVERRIDE { CEF_REQUIRE_UI_THREAD(); // Only handle messages from the test URL. const std::string& url = frame->GetURL(); if (url.find(kTestUrl) != 0) return false; // Parse |request| as a JSON dictionary. CefRefPtr request_dict = ParseJSON(request); if (!request_dict) { callback->Failure(kMessageFormatError, "Incorrect message format"); return true; } if (!VerifyKey(request_dict, kActionKey, VTYPE_STRING, callback)) return true; const std::string& action = request_dict->GetString(kActionKey); if (action == "query") { HandleQueryAction(request_dict, callback); } else if (action == "start") { HandleStartAction(request_dict, callback); } else if (action == "stop") { HandleStopAction(request_dict, callback); } else { callback->Failure(kMessageFormatError, "Unrecognized action: " + action); } return true; } private: // Return current server status. void HandleQueryAction(CefRefPtr request_dict, CefRefPtr callback) { CefRefPtr result_dict = CefDictionaryValue::Create(); if (handler_) { result_dict->SetInt(kPortKey, handler_->port()); result_dict->SetString(kStatusKey, "running"); } else { result_dict->SetInt(kPortKey, kServerPortDefault); result_dict->SetString(kStatusKey, "stopped"); } SendResponse(callback, true, result_dict); } // Start the server. void HandleStartAction(CefRefPtr request_dict, CefRefPtr callback) { if (handler_) { callback->Failure(kActionStateError, "Server is currently running"); return; } if (!VerifyKey(request_dict, kPortKey, VTYPE_INT, callback)) return; const int port = request_dict->GetInt(kPortKey); if (port < 8000 || port > 65535) { callback->Failure(kMessageFormatError, "Invalid port number specified"); return; } handler_ = new ServerHandler(); // Start the server. OnComplete will be executed upon completion. handler_->StartServer(port, base::Bind(&Handler::OnStartComplete, weak_ptr_factory_.GetWeakPtr(), callback)); } // Stop the server. void HandleStopAction(CefRefPtr request_dict, CefRefPtr callback) { if (!handler_) { callback->Failure(kActionStateError, "Server is not currently running"); return; } // Stop the server. OnComplete will be executed upon completion. handler_->StopServer(base::Bind(&Handler::OnStopComplete, weak_ptr_factory_.GetWeakPtr(), callback)); handler_ = nullptr; } // Server start completed. void OnStartComplete(CefRefPtr callback, bool success) { CEF_REQUIRE_UI_THREAD(); CefRefPtr result_dict = CefDictionaryValue::Create(); if (!success) { handler_ = nullptr; result_dict->SetString(kMessageKey, "Server failed to start."); } SendResponse(callback, success, result_dict); } // Server stop completed. void OnStopComplete(CefRefPtr callback, bool success) { CEF_REQUIRE_UI_THREAD(); CefRefPtr result_dict = CefDictionaryValue::Create(); if (!success) { result_dict->SetString(kMessageKey, "Server failed to stop."); } SendResponse(callback, success, result_dict); } // Send a response in the format expected by server.html. static void SendResponse(CefRefPtr callback, bool success, CefRefPtr result_dict) { if (!result_dict) { result_dict = CefDictionaryValue::Create(); } result_dict->SetString(kResultKey, success ? "success" : "failure"); CefRefPtr value = CefValue::Create(); value->SetDictionary(result_dict); const std::string& response = CefWriteJSON(value, JSON_WRITER_DEFAULT); callback->Success(response); } // Convert a JSON string to a dictionary value. static CefRefPtr ParseJSON(const CefString& string) { CefRefPtr value = CefParseJSON(string, JSON_PARSER_RFC); if (value.get() && value->GetType() == VTYPE_DICTIONARY) return value->GetDictionary(); return nullptr; } // Verify that |key| exists in |dictionary| and has type |value_type|. Fails // |callback| and returns false on failure. static bool VerifyKey(CefRefPtr dictionary, const char* key, cef_value_type_t value_type, CefRefPtr callback) { if (!dictionary->HasKey(key) || dictionary->GetType(key) != value_type) { callback->Failure( kMessageFormatError, "Missing or incorrectly formatted message key: " + std::string(key)); return false; } return true; } // Non-nullptr while the server is running. CefRefPtr handler_; // Must be the last member. base::WeakPtrFactory weak_ptr_factory_; }; } // namespace void CreateMessageHandlers(test_runner::MessageHandlerSet& handlers) { handlers.insert(new Handler()); } } // namespace server_test } // namespace client