// Copyright 2014 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 "chrome/browser/devtools/device/android_device_manager.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_util.h" #include "base/strings/stringprintf.h" #include "net/base/io_buffer.h" #include "net/base/net_errors.h" #include "net/socket/stream_socket.h" using content::BrowserThread; namespace { const char kDevToolsAdbBridgeThreadName[] = "Chrome_DevToolsADBThread"; const int kBufferSize = 16 * 1024; static const char kModelOffline[] = "Offline"; static const char kHttpGetRequest[] = "GET %s HTTP/1.1\r\n\r\n"; static const char kWebSocketUpgradeRequest[] = "GET %s HTTP/1.1\r\n" "Upgrade: WebSocket\r\n" "Connection: Upgrade\r\n" "Sec-WebSocket-Key: dGhlIHNhbXBsZSBub25jZQ==\r\n" "Sec-WebSocket-Version: 13\r\n" "\r\n"; static void PostDeviceInfoCallback( scoped_refptr response_message_loop, const AndroidDeviceManager::DeviceInfoCallback& callback, const AndroidDeviceManager::DeviceInfo& device_info) { response_message_loop->PostTask(FROM_HERE, base::Bind(callback, device_info)); } static void PostCommandCallback( scoped_refptr response_message_loop, const AndroidDeviceManager::CommandCallback& callback, int result, const std::string& response) { response_message_loop->PostTask(FROM_HERE, base::Bind(callback, result, response)); } static void PostSocketCallback( scoped_refptr response_message_loop, const AndroidDeviceManager::SocketCallback& callback, int result, net::StreamSocket* socket) { response_message_loop->PostTask(FROM_HERE, base::Bind(callback, result, socket)); } class HttpRequest { public: typedef AndroidDeviceManager::CommandCallback CommandCallback; typedef AndroidDeviceManager::SocketCallback SocketCallback; static void CommandRequest(const std::string& request, const CommandCallback& callback, int result, net::StreamSocket* socket) { if (result != net::OK) { callback.Run(result, std::string()); return; } new HttpRequest(socket, request, callback); } static void SocketRequest(const std::string& request, const SocketCallback& callback, int result, net::StreamSocket* socket) { if (result != net::OK) { callback.Run(result, NULL); return; } new HttpRequest(socket, request, callback); } private: HttpRequest(net::StreamSocket* socket, const std::string& request, const CommandCallback& callback) : socket_(socket), command_callback_(callback), body_pos_(0) { SendRequest(request); } HttpRequest(net::StreamSocket* socket, const std::string& request, const SocketCallback& callback) : socket_(socket), socket_callback_(callback), body_pos_(0) { SendRequest(request); } ~HttpRequest() { } void SendRequest(const std::string& request) { scoped_refptr request_buffer = new net::StringIOBuffer(request); int result = socket_->Write( request_buffer.get(), request_buffer->size(), base::Bind(&HttpRequest::ReadResponse, base::Unretained(this))); if (result != net::ERR_IO_PENDING) ReadResponse(result); } void ReadResponse(int result) { if (!CheckNetResultOrDie(result)) return; scoped_refptr response_buffer = new net::IOBuffer(kBufferSize); result = socket_->Read( response_buffer.get(), kBufferSize, base::Bind(&HttpRequest::OnResponseData, base::Unretained(this), response_buffer, -1)); if (result != net::ERR_IO_PENDING) OnResponseData(response_buffer, -1, result); } void OnResponseData(scoped_refptr response_buffer, int bytes_total, int result) { if (!CheckNetResultOrDie(result)) return; if (result == 0) { CheckNetResultOrDie(net::ERR_CONNECTION_CLOSED); return; } response_ += std::string(response_buffer->data(), result); int expected_length = 0; if (bytes_total < 0) { // TODO(kaznacheev): Use net::HttpResponseHeader to parse the header. size_t content_pos = response_.find("Content-Length:"); if (content_pos != std::string::npos) { size_t endline_pos = response_.find("\n", content_pos); if (endline_pos != std::string::npos) { std::string len = response_.substr(content_pos + 15, endline_pos - content_pos - 15); base::TrimWhitespace(len, base::TRIM_ALL, &len); if (!base::StringToInt(len, &expected_length)) { CheckNetResultOrDie(net::ERR_FAILED); return; } } } body_pos_ = response_.find("\r\n\r\n"); if (body_pos_ != std::string::npos) { body_pos_ += 4; bytes_total = body_pos_ + expected_length; } } if (bytes_total == static_cast(response_.length())) { if (!command_callback_.is_null()) command_callback_.Run(net::OK, response_.substr(body_pos_)); else socket_callback_.Run(net::OK, socket_.release()); delete this; return; } result = socket_->Read( response_buffer.get(), kBufferSize, base::Bind(&HttpRequest::OnResponseData, base::Unretained(this), response_buffer, bytes_total)); if (result != net::ERR_IO_PENDING) OnResponseData(response_buffer, bytes_total, result); } bool CheckNetResultOrDie(int result) { if (result >= 0) return true; if (!command_callback_.is_null()) command_callback_.Run(result, std::string()); else socket_callback_.Run(result, NULL); delete this; return false; } scoped_ptr socket_; std::string response_; AndroidDeviceManager::CommandCallback command_callback_; AndroidDeviceManager::SocketCallback socket_callback_; size_t body_pos_; }; class DevicesRequest : public base::RefCountedThreadSafe { public: typedef AndroidDeviceManager::DeviceInfo DeviceInfo; typedef AndroidDeviceManager::DeviceProvider DeviceProvider; typedef AndroidDeviceManager::DeviceProviders DeviceProviders; typedef AndroidDeviceManager::DeviceDescriptors DeviceDescriptors; typedef base::Callback DescriptorsCallback; static void Start(scoped_refptr device_message_loop, const DeviceProviders& providers, const DescriptorsCallback& callback) { // Don't keep counted reference on calling thread; DevicesRequest* request = new DevicesRequest(callback); // Avoid destruction while sending requests request->AddRef(); for (DeviceProviders::const_iterator it = providers.begin(); it != providers.end(); ++it) { device_message_loop->PostTask( FROM_HERE, base::Bind( &DeviceProvider::QueryDevices, *it, base::Bind(&DevicesRequest::ProcessSerials, request, *it))); } device_message_loop->ReleaseSoon(FROM_HERE, request); } private: explicit DevicesRequest(const DescriptorsCallback& callback) : response_message_loop_(base::MessageLoopProxy::current()), callback_(callback), descriptors_(new DeviceDescriptors()) { } friend class base::RefCountedThreadSafe; ~DevicesRequest() { response_message_loop_->PostTask(FROM_HERE, base::Bind(callback_, descriptors_.release())); } typedef std::vector Serials; void ProcessSerials(scoped_refptr provider, const Serials& serials) { for (Serials::const_iterator it = serials.begin(); it != serials.end(); ++it) { descriptors_->resize(descriptors_->size() + 1); descriptors_->back().provider = provider; descriptors_->back().serial = *it; } } scoped_refptr response_message_loop_; DescriptorsCallback callback_; scoped_ptr descriptors_; }; void ReleaseDeviceAndProvider( AndroidDeviceManager::DeviceProvider* provider, const std::string& serial) { provider->ReleaseDevice(serial); provider->Release(); } } // namespace AndroidDeviceManager::BrowserInfo::BrowserInfo() : type(kTypeOther) { } AndroidDeviceManager::DeviceInfo::DeviceInfo() : model(kModelOffline), connected(false) { } AndroidDeviceManager::DeviceInfo::~DeviceInfo() { } AndroidDeviceManager::DeviceDescriptor::DeviceDescriptor() { } AndroidDeviceManager::DeviceDescriptor::~DeviceDescriptor() { } void AndroidDeviceManager::DeviceProvider::SendJsonRequest( const std::string& serial, const std::string& socket_name, const std::string& request, const CommandCallback& callback) { OpenSocket(serial, socket_name, base::Bind(&HttpRequest::CommandRequest, base::StringPrintf(kHttpGetRequest, request.c_str()), callback)); } void AndroidDeviceManager::DeviceProvider::HttpUpgrade( const std::string& serial, const std::string& socket_name, const std::string& url, const SocketCallback& callback) { OpenSocket( serial, socket_name, base::Bind(&HttpRequest::SocketRequest, base::StringPrintf(kWebSocketUpgradeRequest, url.c_str()), callback)); } void AndroidDeviceManager::DeviceProvider::ReleaseDevice( const std::string& serial) { } AndroidDeviceManager::DeviceProvider::DeviceProvider() { } AndroidDeviceManager::DeviceProvider::~DeviceProvider() { } void AndroidDeviceManager::Device::QueryDeviceInfo( const DeviceInfoCallback& callback) { device_message_loop_->PostTask( FROM_HERE, base::Bind(&DeviceProvider::QueryDeviceInfo, provider_, serial_, base::Bind(&PostDeviceInfoCallback, base::MessageLoopProxy::current(), callback))); } void AndroidDeviceManager::Device::OpenSocket(const std::string& socket_name, const SocketCallback& callback) { device_message_loop_->PostTask( FROM_HERE, base::Bind(&DeviceProvider::OpenSocket, provider_, serial_, socket_name, callback)); } void AndroidDeviceManager::Device::SendJsonRequest( const std::string& socket_name, const std::string& request, const CommandCallback& callback) { device_message_loop_->PostTask( FROM_HERE, base::Bind(&DeviceProvider::SendJsonRequest, provider_, serial_, socket_name, request, base::Bind(&PostCommandCallback, base::MessageLoopProxy::current(), callback))); } void AndroidDeviceManager::Device::HttpUpgrade(const std::string& socket_name, const std::string& url, const SocketCallback& callback) { device_message_loop_->PostTask( FROM_HERE, base::Bind(&DeviceProvider::HttpUpgrade, provider_, serial_, socket_name, url, base::Bind(&PostSocketCallback, base::MessageLoopProxy::current(), callback))); } AndroidDeviceManager::Device::Device( scoped_refptr device_message_loop, scoped_refptr provider, const std::string& serial) : device_message_loop_(device_message_loop), provider_(provider), serial_(serial), weak_factory_(this) { } AndroidDeviceManager::Device::~Device() { provider_->AddRef(); DeviceProvider* raw_ptr = provider_.get(); provider_ = NULL; device_message_loop_->PostTask( FROM_HERE, base::Bind(&ReleaseDeviceAndProvider, base::Unretained(raw_ptr), serial_)); } AndroidDeviceManager::HandlerThread* AndroidDeviceManager::HandlerThread::instance_ = NULL; // static scoped_refptr AndroidDeviceManager::HandlerThread::GetInstance() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); if (!instance_) new HandlerThread(); return instance_; } AndroidDeviceManager::HandlerThread::HandlerThread() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); instance_ = this; thread_ = new base::Thread(kDevToolsAdbBridgeThreadName); base::Thread::Options options; options.message_loop_type = base::MessageLoop::TYPE_IO; if (!thread_->StartWithOptions(options)) { delete thread_; thread_ = NULL; } } scoped_refptr AndroidDeviceManager::HandlerThread::message_loop() { return thread_ ? thread_->message_loop_proxy() : NULL; } // static void AndroidDeviceManager::HandlerThread::StopThread( base::Thread* thread) { thread->Stop(); } AndroidDeviceManager::HandlerThread::~HandlerThread() { DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI)); instance_ = NULL; if (!thread_) return; // Shut down thread on FILE thread to join into IO. content::BrowserThread::PostTask( content::BrowserThread::FILE, FROM_HERE, base::Bind(&HandlerThread::StopThread, thread_)); } // static scoped_refptr AndroidDeviceManager::Create() { return new AndroidDeviceManager(); } void AndroidDeviceManager::SetDeviceProviders( const DeviceProviders& providers) { for (DeviceProviders::iterator it = providers_.begin(); it != providers_.end(); ++it) { (*it)->AddRef(); DeviceProvider* raw_ptr = it->get(); *it = NULL; handler_thread_->message_loop()->ReleaseSoon(FROM_HERE, raw_ptr); } providers_ = providers; } void AndroidDeviceManager::QueryDevices(const DevicesCallback& callback) { DevicesRequest::Start(handler_thread_->message_loop(), providers_, base::Bind(&AndroidDeviceManager::UpdateDevices, this, callback)); } AndroidDeviceManager::AndroidDeviceManager() : handler_thread_(HandlerThread::GetInstance()) { } AndroidDeviceManager::~AndroidDeviceManager() { SetDeviceProviders(DeviceProviders()); } void AndroidDeviceManager::UpdateDevices( const DevicesCallback& callback, DeviceDescriptors* descriptors_raw) { scoped_ptr descriptors(descriptors_raw); Devices response; DeviceWeakMap new_devices; for (DeviceDescriptors::const_iterator it = descriptors->begin(); it != descriptors->end(); ++it) { DeviceWeakMap::iterator found = devices_.find(it->serial); scoped_refptr device; if (found == devices_.end() || !found->second || found->second->provider_ != it->provider) { device = new Device(handler_thread_->message_loop(), it->provider, it->serial); } else { device = found->second.get(); } response.push_back(device); new_devices[it->serial] = device->weak_factory_.GetWeakPtr(); } devices_.swap(new_devices); callback.Run(response); }