// Copyright (c) 2012 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/test/spawner_communicator.h" #include "base/json/json_reader.h" #include "base/logging.h" #include "base/stringprintf.h" #include "base/supports_user_data.h" #include "base/test/test_timeouts.h" #include "base/time.h" #include "base/values.h" #include "build/build_config.h" #include "googleurl/src/gurl.h" #include "net/base/net_util.h" #include "net/http/http_response_headers.h" #include "net/url_request/url_request_test_util.h" namespace net { namespace { GURL GenerateSpawnerCommandURL(const std::string& command, uint16 port) { // Always performs HTTP request for sending command to the spawner server. return GURL(base::StringPrintf("%s:%u/%s", "http://127.0.0.1", port, command.c_str())); } int kBufferSize = 2048; // A class to hold all data needed to send a command to spawner server. class SpawnerRequestData : public base::SupportsUserData::Data { public: SpawnerRequestData(int id, int* result_code, std::string* data_received) : request_id_(id), buf_(new IOBuffer(kBufferSize)), result_code_(result_code), data_received_(data_received), response_started_count_(0) { DCHECK(result_code); *result_code_ = OK; DCHECK(data_received); data_received_->clear(); } virtual ~SpawnerRequestData() {} bool DoesRequestIdMatch(int request_id) const { return request_id_ == request_id; } IOBuffer* buf() const { return buf_.get(); } bool IsResultOK() const { return *result_code_ == OK; } void ClearReceivedData() { data_received_->clear(); } void SetResultCode(int result_code) { *result_code_ = result_code; } void IncreaseResponseStartedCount() { response_started_count_++; } int response_started_count() const { return response_started_count_; } // Write data read from URLRequest::Read() to |data_received_|. Returns true // if |num_bytes| is great than 0. |num_bytes| is 0 for EOF, < 0 on errors. bool ConsumeBytesRead(int num_bytes) { // Error while reading, or EOF. if (num_bytes <= 0) return false; data_received_->append(buf_->data(), num_bytes); return true; } private: // Unique ID for the current request. int request_id_; // Buffer that URLRequest writes into. scoped_refptr buf_; // Holds the error condition that was hit on the current request, or OK. int* result_code_; // Data received from server; std::string* data_received_; // Used to track how many times the OnResponseStarted get called after // sending a command to spawner server. int response_started_count_; DISALLOW_COPY_AND_ASSIGN(SpawnerRequestData); }; } // namespace SpawnerCommunicator::SpawnerCommunicator(uint16 port) : io_thread_("spawner_communicator"), event_(false, false), port_(port), next_id_(0), ALLOW_THIS_IN_INITIALIZER_LIST(weak_factory_(this)), is_running_(false) {} SpawnerCommunicator::~SpawnerCommunicator() { DCHECK(!is_running_); } void SpawnerCommunicator::WaitForResponse() { DCHECK_NE(MessageLoop::current(), io_thread_.message_loop()); event_.Wait(); event_.Reset(); } void SpawnerCommunicator::StartIOThread() { DCHECK_NE(MessageLoop::current(), io_thread_.message_loop()); if (is_running_) return; allowed_port_.reset(new ScopedPortException(port_)); base::Thread::Options options; options.message_loop_type = MessageLoop::TYPE_IO; is_running_ = io_thread_.StartWithOptions(options); DCHECK(is_running_); } void SpawnerCommunicator::Shutdown() { DCHECK_NE(MessageLoop::current(), io_thread_.message_loop()); DCHECK(is_running_); // The request and its context should be created and destroyed only on the // IO thread. DCHECK(!cur_request_.get()); DCHECK(!context_.get()); is_running_ = false; io_thread_.Stop(); allowed_port_.reset(); } void SpawnerCommunicator::SendCommandAndWaitForResult( const std::string& command, const std::string& post_data, int* result_code, std::string* data_received) { if (!result_code || !data_received) return; // Start the communicator thread to talk to test server spawner. StartIOThread(); DCHECK(io_thread_.message_loop()); // Since the method will be blocked until SpawnerCommunicator gets result // from the spawner server or timed-out. It's safe to use base::Unretained // when using base::Bind. io_thread_.message_loop()->PostTask(FROM_HERE, base::Bind( &SpawnerCommunicator::SendCommandAndWaitForResultOnIOThread, base::Unretained(this), command, post_data, result_code, data_received)); WaitForResponse(); } void SpawnerCommunicator::SendCommandAndWaitForResultOnIOThread( const std::string& command, const std::string& post_data, int* result_code, std::string* data_received) { MessageLoop* loop = io_thread_.message_loop(); DCHECK(loop); DCHECK_EQ(MessageLoop::current(), loop); // Prepare the URLRequest for sending the command. DCHECK(!cur_request_.get()); context_.reset(new TestURLRequestContext); cur_request_.reset(context_->CreateRequest( GenerateSpawnerCommandURL(command, port_), this)); DCHECK(cur_request_.get()); int current_request_id = ++next_id_; SpawnerRequestData* data = new SpawnerRequestData(current_request_id, result_code, data_received); DCHECK(data); cur_request_->SetUserData(this, data); if (post_data.empty()) { cur_request_->set_method("GET"); } else { cur_request_->set_method("POST"); cur_request_->AppendBytesToUpload(post_data.c_str(), post_data.size()); net::HttpRequestHeaders headers; headers.SetHeader(net::HttpRequestHeaders::kContentType, "application/json"); cur_request_->SetExtraRequestHeaders(headers); } // Post a task to timeout this request if it takes too long. MessageLoop::current()->PostDelayedTask( FROM_HERE, base::Bind(&SpawnerCommunicator::OnTimeout, weak_factory_.GetWeakPtr(), current_request_id), TestTimeouts::action_max_timeout()); // Start the request. cur_request_->Start(); } void SpawnerCommunicator::OnTimeout(int id) { // Timeout tasks may outlive the URLRequest they reference. Make sure it // is still applicable. if (!cur_request_.get()) return; SpawnerRequestData* data = static_cast(cur_request_->GetUserData(this)); DCHECK(data); if (!data->DoesRequestIdMatch(id)) return; // Set the result code and cancel the timed-out task. data->SetResultCode(ERR_TIMED_OUT); cur_request_->Cancel(); OnSpawnerCommandCompleted(cur_request_.get()); } void SpawnerCommunicator::OnSpawnerCommandCompleted(URLRequest* request) { if (!cur_request_.get()) return; DCHECK_EQ(request, cur_request_.get()); SpawnerRequestData* data = static_cast(cur_request_->GetUserData(this)); DCHECK(data); // If request is faild,return the error code. if (!cur_request_->status().is_success()) data->SetResultCode(cur_request_->status().error()); if (!data->IsResultOK()) { LOG(ERROR) << "request failed, status: " << static_cast(request->status().status()) << ", error: " << request->status().error(); // Clear the buffer of received data if any net error happened. data->ClearReceivedData(); } else { DCHECK_EQ(1, data->response_started_count()); } // Clear current request to indicate the completion of sending a command // to spawner server and getting the result. cur_request_.reset(); context_.reset(); // Invalidate the weak pointers on the IO thread. weak_factory_.InvalidateWeakPtrs(); // Wakeup the caller in user thread. event_.Signal(); } void SpawnerCommunicator::ReadResult(URLRequest* request) { DCHECK_EQ(request, cur_request_.get()); SpawnerRequestData* data = static_cast(cur_request_->GetUserData(this)); DCHECK(data); IOBuffer* buf = data->buf(); // Read as many bytes as are available synchronously. while (true) { int num_bytes; if (!request->Read(buf, kBufferSize, &num_bytes)) { // Check whether the read failed synchronously. if (!request->status().is_io_pending()) OnSpawnerCommandCompleted(request); return; } if (!data->ConsumeBytesRead(num_bytes)) { OnSpawnerCommandCompleted(request); return; } } } void SpawnerCommunicator::OnResponseStarted(URLRequest* request) { DCHECK_EQ(request, cur_request_.get()); SpawnerRequestData* data = static_cast(cur_request_->GetUserData(this)); DCHECK(data); data->IncreaseResponseStartedCount(); if (!request->status().is_success()) { OnSpawnerCommandCompleted(request); return; } // Require HTTP responses to have a success status code. if (request->GetResponseCode() != 200) { LOG(ERROR) << "Spawner server returned bad status: " << request->response_headers()->GetStatusLine(); data->SetResultCode(ERR_FAILED); request->Cancel(); OnSpawnerCommandCompleted(request); return; } ReadResult(request); } void SpawnerCommunicator::OnReadCompleted(URLRequest* request, int num_bytes) { if (!cur_request_.get()) return; DCHECK_EQ(request, cur_request_.get()); SpawnerRequestData* data = static_cast(cur_request_->GetUserData(this)); DCHECK(data); if (data->ConsumeBytesRead(num_bytes)) { // Keep reading. ReadResult(request); } else { OnSpawnerCommandCompleted(request); } } bool SpawnerCommunicator::StartServer(const std::string& arguments, uint16* port) { *port = 0; // Send the start command to spawner server to start the Python test server // on remote machine. std::string server_return_data; int result_code; SendCommandAndWaitForResult("start", arguments, &result_code, &server_return_data); if (OK != result_code || server_return_data.empty()) return false; // Check whether the data returned from spawner server is JSON-formatted. scoped_ptr value(base::JSONReader::Read(server_return_data)); if (!value.get() || !value->IsType(base::Value::TYPE_DICTIONARY)) { LOG(ERROR) << "Invalid server data: " << server_return_data.c_str(); return false; } // Check whether spawner server returns valid data. DictionaryValue* server_data = static_cast(value.get()); std::string message; if (!server_data->GetString("message", &message) || message != "started") { LOG(ERROR) << "Invalid message in server data: "; return false; } int int_port; if (!server_data->GetInteger("port", &int_port) || int_port <= 0 || int_port > kuint16max) { LOG(ERROR) << "Invalid port value: " << int_port; return false; } *port = static_cast(int_port); return true; } bool SpawnerCommunicator::StopServer() { // It's OK to stop the SpawnerCommunicator without starting it. Some tests // have test server on their test fixture but do not actually use it. if (!is_running_) return true; // When the test is done, ask the test server spawner to kill the test server // on the remote machine. std::string server_return_data; int result_code; SendCommandAndWaitForResult("kill", "", &result_code, &server_return_data); Shutdown(); if (OK != result_code || server_return_data != "killed") return false; return true; } } // namespace net