Updating trunk VERSION from 2139.0 to 2140.0
[chromium-blink-merge.git] / device / bluetooth / bluetooth_socket_win.cc
blob402337e8064ed409104512c2de8b92a72068f192
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "device/bluetooth/bluetooth_socket_win.h"
7 #include <objbase.h>
9 #include <string>
11 #include "base/logging.h"
12 #include "base/memory/ref_counted.h"
13 #include "base/sequenced_task_runner.h"
14 #include "base/strings/stringprintf.h"
15 #include "base/strings/sys_string_conversions.h"
16 #include "base/strings/utf_string_conversions.h"
17 #include "base/threading/thread_restrictions.h"
18 #include "device/bluetooth/bluetooth_device_win.h"
19 #include "device/bluetooth/bluetooth_init_win.h"
20 #include "device/bluetooth/bluetooth_service_record_win.h"
21 #include "device/bluetooth/bluetooth_socket_thread.h"
22 #include "net/base/io_buffer.h"
23 #include "net/base/ip_endpoint.h"
24 #include "net/base/net_errors.h"
25 #include "net/base/winsock_init.h"
27 namespace {
29 const char kL2CAPNotSupported[] = "Bluetooth L2CAP protocal is not supported";
30 const char kSocketAlreadyConnected[] = "Socket is already connected.";
31 const char kInvalidRfcommPort[] = "Invalid RFCCOMM port.";
32 const char kFailedToCreateSocket[] = "Failed to create socket.";
33 const char kFailedToBindSocket[] = "Failed to bind socket.";
34 const char kFailedToListenOnSocket[] = "Failed to listen on socket.";
35 const char kFailedToGetSockNameForSocket[] = "Failed to getsockname.";
36 const char kFailedToAccept[] = "Failed to accept.";
37 const char kInvalidUUID[] = "Invalid UUID";
38 const char kWsaSetServiceError[] = "WSASetService error.";
40 std::string IPEndPointToBluetoothAddress(const net::IPEndPoint& end_point) {
41 if (end_point.address().size() != net::kBluetoothAddressSize)
42 return std::string();
43 // The address is copied from BTH_ADDR field of SOCKADDR_BTH, which is a
44 // 64-bit ULONGLONG that stores Bluetooth address in little-endian. Print in
45 // reverse order to preserve the correct ordering.
46 return base::StringPrintf("%02X:%02X:%02X:%02X:%02X:%02X",
47 end_point.address()[5],
48 end_point.address()[4],
49 end_point.address()[3],
50 end_point.address()[2],
51 end_point.address()[1],
52 end_point.address()[0]);
55 } // namespace
57 namespace device {
59 struct BluetoothSocketWin::ServiceRegData {
60 ServiceRegData() {
61 ZeroMemory(&address, sizeof(address));
62 ZeroMemory(&address_info, sizeof(address_info));
63 ZeroMemory(&uuid, sizeof(uuid));
64 ZeroMemory(&service, sizeof(service));
67 SOCKADDR_BTH address;
68 CSADDR_INFO address_info;
69 GUID uuid;
70 base::string16 name;
71 WSAQUERYSET service;
74 // static
75 scoped_refptr<BluetoothSocketWin>
76 BluetoothSocketWin::CreateBluetoothSocket(
77 scoped_refptr<base::SequencedTaskRunner> ui_task_runner,
78 scoped_refptr<device::BluetoothSocketThread> socket_thread) {
79 DCHECK(ui_task_runner->RunsTasksOnCurrentThread());
81 return make_scoped_refptr(
82 new BluetoothSocketWin(ui_task_runner, socket_thread));
85 BluetoothSocketWin::BluetoothSocketWin(
86 scoped_refptr<base::SequencedTaskRunner> ui_task_runner,
87 scoped_refptr<BluetoothSocketThread> socket_thread)
88 : BluetoothSocketNet(ui_task_runner, socket_thread),
89 supports_rfcomm_(false),
90 rfcomm_channel_(0xFF),
91 bth_addr_(BTH_ADDR_NULL) {
94 BluetoothSocketWin::~BluetoothSocketWin() {
97 void BluetoothSocketWin::Connect(
98 const BluetoothDeviceWin* device,
99 const BluetoothUUID& uuid,
100 const base::Closure& success_callback,
101 const ErrorCompletionCallback& error_callback) {
102 DCHECK(ui_task_runner()->RunsTasksOnCurrentThread());
103 DCHECK(device);
105 if (!uuid.IsValid()) {
106 error_callback.Run(kInvalidUUID);
107 return;
110 const BluetoothServiceRecordWin* service_record_win =
111 device->GetServiceRecord(uuid);
112 if (!service_record_win) {
113 error_callback.Run(kInvalidUUID);
114 return;
117 device_address_ = service_record_win->device_address();
118 if (service_record_win->SupportsRfcomm()) {
119 supports_rfcomm_ = true;
120 rfcomm_channel_ = service_record_win->rfcomm_channel();
121 bth_addr_ = service_record_win->device_bth_addr();
124 socket_thread()->task_runner()->PostTask(
125 FROM_HERE,
126 base::Bind(
127 &BluetoothSocketWin::DoConnect,
128 this,
129 base::Bind(&BluetoothSocketWin::PostSuccess, this, success_callback),
130 base::Bind(
131 &BluetoothSocketWin::PostErrorCompletion, this, error_callback)));
134 void BluetoothSocketWin::Listen(scoped_refptr<BluetoothAdapter> adapter,
135 const BluetoothUUID& uuid,
136 const BluetoothAdapter::ServiceOptions& options,
137 const base::Closure& success_callback,
138 const ErrorCompletionCallback& error_callback) {
139 DCHECK(ui_task_runner()->RunsTasksOnCurrentThread());
141 adapter_ = adapter;
142 int rfcomm_channel = options.channel ? *options.channel : 0;
144 // TODO(xiyuan): Use |options.name|.
145 socket_thread()->task_runner()->PostTask(
146 FROM_HERE,
147 base::Bind(&BluetoothSocketWin::DoListen,
148 this,
149 uuid,
150 rfcomm_channel,
151 success_callback,
152 error_callback));
155 void BluetoothSocketWin::ResetData() {
156 if (service_reg_data_) {
157 if (WSASetService(&service_reg_data_->service,RNRSERVICE_DELETE, 0) ==
158 SOCKET_ERROR) {
159 LOG(WARNING) << "Failed to unregister service.";
161 service_reg_data_.reset();
165 void BluetoothSocketWin::Accept(
166 const AcceptCompletionCallback& success_callback,
167 const ErrorCompletionCallback& error_callback) {
168 DCHECK(ui_task_runner()->RunsTasksOnCurrentThread());
170 socket_thread()->task_runner()->PostTask(
171 FROM_HERE,
172 base::Bind(&BluetoothSocketWin::DoAccept,
173 this,
174 success_callback,
175 error_callback));
178 void BluetoothSocketWin::DoConnect(
179 const base::Closure& success_callback,
180 const ErrorCompletionCallback& error_callback) {
181 DCHECK(socket_thread()->task_runner()->RunsTasksOnCurrentThread());
182 base::ThreadRestrictions::AssertIOAllowed();
184 if (tcp_socket()) {
185 error_callback.Run(kSocketAlreadyConnected);
186 return;
189 if (!supports_rfcomm_) {
190 // TODO(youngki) add support for L2CAP sockets as well.
191 error_callback.Run(kL2CAPNotSupported);
192 return;
195 scoped_ptr<net::TCPSocket> scoped_socket(
196 new net::TCPSocket(NULL, net::NetLog::Source()));
197 net::EnsureWinsockInit();
198 SOCKET socket_fd = socket(AF_BTH, SOCK_STREAM, BTHPROTO_RFCOMM);
199 SOCKADDR_BTH sa;
200 ZeroMemory(&sa, sizeof(sa));
201 sa.addressFamily = AF_BTH;
202 sa.port = rfcomm_channel_;
203 sa.btAddr = bth_addr_;
205 // TODO(rpaquay): Condider making this call non-blocking.
206 int status = connect(socket_fd, reinterpret_cast<SOCKADDR*>(&sa), sizeof(sa));
207 DWORD error_code = WSAGetLastError();
208 if (!(status == 0 || error_code == WSAEINPROGRESS)) {
209 LOG(ERROR) << "Failed to connect bluetooth socket "
210 << "(" << device_address_ << "): "
211 << logging::SystemErrorCodeToString(error_code);
212 error_callback.Run("Error connecting to socket: " +
213 logging::SystemErrorCodeToString(error_code));
214 closesocket(socket_fd);
215 return;
218 // Note: We don't have a meaningful |IPEndPoint|, but that is ok since the
219 // TCPSocket implementation does not actually require one.
220 int net_result =
221 scoped_socket->AdoptConnectedSocket(socket_fd, net::IPEndPoint());
222 if (net_result != net::OK) {
223 error_callback.Run("Error connecting to socket: " +
224 net::ErrorToString(net_result));
225 closesocket(socket_fd);
226 return;
229 SetTCPSocket(scoped_socket.Pass());
230 success_callback.Run();
233 void BluetoothSocketWin::DoListen(
234 const BluetoothUUID& uuid,
235 int rfcomm_channel,
236 const base::Closure& success_callback,
237 const ErrorCompletionCallback& error_callback) {
238 DCHECK(socket_thread()->task_runner()->RunsTasksOnCurrentThread());
239 DCHECK(!tcp_socket() && !service_reg_data_);
241 // The valid range is 0-30. 0 means BT_PORT_ANY and 1-30 are the
242 // valid RFCOMM port numbers of SOCKADDR_BTH.
243 if (rfcomm_channel < 0 || rfcomm_channel > 30) {
244 LOG(WARNING) << "Failed to start service: "
245 << "Invalid RFCCOMM port " << rfcomm_channel
246 << ", uuid=" << uuid.value();
247 PostErrorCompletion(error_callback, kInvalidRfcommPort);
248 return;
251 SOCKET socket_fd = socket(AF_BTH, SOCK_STREAM, BTHPROTO_RFCOMM);
252 if (socket_fd == INVALID_SOCKET) {
253 LOG(WARNING) << "Failed to start service: create socket, "
254 << "winsock err=" << WSAGetLastError();
255 PostErrorCompletion(error_callback, kFailedToCreateSocket);
256 return;
259 // Note that |socket_fd| belongs to a non-TCP address family (i.e. AF_BTH),
260 // TCPSocket methods that involve address could not be called. So bind()
261 // is called on |socket_fd| directly.
262 scoped_ptr<net::TCPSocket> scoped_socket(
263 new net::TCPSocket(NULL, net::NetLog::Source()));
264 scoped_socket->AdoptListenSocket(socket_fd);
266 SOCKADDR_BTH sa;
267 struct sockaddr* sock_addr = reinterpret_cast<struct sockaddr*>(&sa);
268 int sock_addr_len = sizeof(sa);
269 ZeroMemory(&sa, sock_addr_len);
270 sa.addressFamily = AF_BTH;
271 sa.port = rfcomm_channel ? rfcomm_channel : BT_PORT_ANY;
272 if (bind(socket_fd, sock_addr, sock_addr_len) < 0) {
273 LOG(WARNING) << "Failed to start service: create socket, "
274 << "winsock err=" << WSAGetLastError();
275 PostErrorCompletion(error_callback, kFailedToBindSocket);
276 return;
279 const int kListenBacklog = 5;
280 if (scoped_socket->Listen(kListenBacklog) < 0) {
281 LOG(WARNING) << "Failed to start service: Listen"
282 << "winsock err=" << WSAGetLastError();
283 PostErrorCompletion(error_callback, kFailedToListenOnSocket);
284 return;
287 scoped_ptr<ServiceRegData> reg_data(new ServiceRegData);
288 reg_data->name = base::UTF8ToUTF16(uuid.canonical_value());
290 if (getsockname(socket_fd, sock_addr, &sock_addr_len)) {
291 LOG(WARNING) << "Failed to start service: getsockname, "
292 << "winsock err=" << WSAGetLastError();
293 PostErrorCompletion(error_callback, kFailedToGetSockNameForSocket);
294 return;
296 reg_data->address = sa;
298 reg_data->address_info.LocalAddr.iSockaddrLength = sizeof(sa);
299 reg_data->address_info.LocalAddr.lpSockaddr =
300 reinterpret_cast<struct sockaddr*>(&reg_data->address);
301 reg_data->address_info.iSocketType = SOCK_STREAM;
302 reg_data->address_info.iProtocol = BTHPROTO_RFCOMM;
304 base::string16 cannonical_uuid = L"{" + base::ASCIIToUTF16(
305 uuid.canonical_value()) + L"}";
306 if (!SUCCEEDED(CLSIDFromString(cannonical_uuid.c_str(), &reg_data->uuid))) {
307 LOG(WARNING) << "Failed to start service: "
308 << ", invalid uuid=" << cannonical_uuid;
309 PostErrorCompletion(error_callback, kInvalidUUID);
310 return;
313 reg_data->service.dwSize = sizeof(WSAQUERYSET);
314 reg_data->service.lpszServiceInstanceName =
315 const_cast<LPWSTR>(reg_data->name.c_str());
316 reg_data->service.lpServiceClassId = &reg_data->uuid;
317 reg_data->service.dwNameSpace = NS_BTH;
318 reg_data->service.dwNumberOfCsAddrs = 1;
319 reg_data->service.lpcsaBuffer = &reg_data->address_info;
321 if (WSASetService(&reg_data->service,
322 RNRSERVICE_REGISTER, 0) == SOCKET_ERROR) {
323 LOG(WARNING) << "Failed to register profile: WSASetService"
324 << "winsock err=" << WSAGetLastError();
325 PostErrorCompletion(error_callback, kWsaSetServiceError);
326 return;
329 SetTCPSocket(scoped_socket.Pass());
330 service_reg_data_ = reg_data.Pass();
332 PostSuccess(success_callback);
335 void BluetoothSocketWin::DoAccept(
336 const AcceptCompletionCallback& success_callback,
337 const ErrorCompletionCallback& error_callback) {
338 DCHECK(socket_thread()->task_runner()->RunsTasksOnCurrentThread());
339 int result = tcp_socket()->Accept(
340 &accept_socket_,
341 &accept_address_,
342 base::Bind(&BluetoothSocketWin::OnAcceptOnSocketThread,
343 this,
344 success_callback,
345 error_callback));
346 if (result != net::OK && result != net::ERR_IO_PENDING) {
347 LOG(WARNING) << "Failed to accept, net err=" << result;
348 PostErrorCompletion(error_callback, kFailedToAccept);
352 void BluetoothSocketWin::OnAcceptOnSocketThread(
353 const AcceptCompletionCallback& success_callback,
354 const ErrorCompletionCallback& error_callback,
355 int accept_result) {
356 DCHECK(socket_thread()->task_runner()->RunsTasksOnCurrentThread());
357 if (accept_result != net::OK) {
358 LOG(WARNING) << "OnAccept error, net err=" << accept_result;
359 PostErrorCompletion(error_callback, kFailedToAccept);
360 return;
363 ui_task_runner()->PostTask(
364 FROM_HERE,
365 base::Bind(&BluetoothSocketWin::OnAcceptOnUI,
366 this,
367 base::Passed(&accept_socket_),
368 accept_address_,
369 success_callback,
370 error_callback));
373 void BluetoothSocketWin::OnAcceptOnUI(
374 scoped_ptr<net::TCPSocket> accept_socket,
375 const net::IPEndPoint& peer_address,
376 const AcceptCompletionCallback& success_callback,
377 const ErrorCompletionCallback& error_callback) {
378 DCHECK(ui_task_runner()->RunsTasksOnCurrentThread());
380 const std::string peer_device_address =
381 IPEndPointToBluetoothAddress(peer_address);
382 const BluetoothDevice* peer_device = adapter_->GetDevice(peer_device_address);
383 if (!peer_device) {
384 LOG(WARNING) << "OnAccept failed with unknown device, addr="
385 << peer_device_address;
386 error_callback.Run(kFailedToAccept);
387 return;
390 scoped_refptr<BluetoothSocketWin> peer_socket =
391 CreateBluetoothSocket(ui_task_runner(), socket_thread());
392 peer_socket->SetTCPSocket(accept_socket.Pass());
393 success_callback.Run(peer_device, peer_socket);
396 } // namespace device