Updating trunk VERSION from 2139.0 to 2140.0
[chromium-blink-merge.git] / content / browser / geolocation / wifi_data_provider_win.cc
blob6f168fc59468d9eb9a5b9df361bfd45826e6e290
1 // Copyright (c) 2010 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 // Windows Vista uses the Native Wifi (WLAN) API for accessing WiFi cards. See
6 // http://msdn.microsoft.com/en-us/library/ms705945(VS.85).aspx. Windows XP
7 // Service Pack 3 (and Windows XP Service Pack 2, if upgraded with a hot fix)
8 // also support a limited version of the WLAN API. See
9 // http://msdn.microsoft.com/en-us/library/bb204766.aspx. The WLAN API uses
10 // wlanapi.h, which is not part of the SDK used by Gears, so is replicated
11 // locally using data from the MSDN.
13 // Windows XP from Service Pack 2 onwards supports the Wireless Zero
14 // Configuration (WZC) programming interface. See
15 // http://msdn.microsoft.com/en-us/library/ms706587(VS.85).aspx.
17 // The MSDN recommends that one use the WLAN API where available, and WZC
18 // otherwise.
20 // However, it seems that WZC fails for some wireless cards. Also, WLAN seems
21 // not to work on XP SP3. So we use WLAN on Vista, and use NDIS directly
22 // otherwise.
24 #include "content/browser/geolocation/wifi_data_provider_win.h"
26 #include <windows.h>
27 #include <winioctl.h>
28 #include <wlanapi.h>
30 #include "base/metrics/histogram.h"
31 #include "base/strings/utf_string_conversions.h"
32 #include "base/win/windows_version.h"
33 #include "content/browser/geolocation/wifi_data_provider_common.h"
34 #include "content/browser/geolocation/wifi_data_provider_common_win.h"
35 #include "content/browser/geolocation/wifi_data_provider_manager.h"
37 // Taken from ndis.h for WinCE.
38 #define NDIS_STATUS_INVALID_LENGTH ((NDIS_STATUS)0xC0010014L)
39 #define NDIS_STATUS_BUFFER_TOO_SHORT ((NDIS_STATUS)0xC0010016L)
41 namespace content {
42 namespace {
43 // The limits on the size of the buffer used for the OID query.
44 const int kInitialBufferSize = 2 << 12; // Good for about 50 APs.
45 const int kMaximumBufferSize = 2 << 20; // 2MB
47 // Length for generic string buffers passed to Windows APIs.
48 const int kStringLength = 512;
50 // The time periods, in milliseconds, between successive polls of the wifi data.
51 const int kDefaultPollingInterval = 10000; // 10s
52 const int kNoChangePollingInterval = 120000; // 2 mins
53 const int kTwoNoChangePollingInterval = 600000; // 10 mins
54 const int kNoWifiPollingIntervalMilliseconds = 20 * 1000; // 20s
56 // WlanOpenHandle
57 typedef DWORD (WINAPI* WlanOpenHandleFunction)(DWORD dwClientVersion,
58 PVOID pReserved,
59 PDWORD pdwNegotiatedVersion,
60 PHANDLE phClientHandle);
62 // WlanEnumInterfaces
63 typedef DWORD (WINAPI* WlanEnumInterfacesFunction)(
64 HANDLE hClientHandle,
65 PVOID pReserved,
66 PWLAN_INTERFACE_INFO_LIST* ppInterfaceList);
68 // WlanGetNetworkBssList
69 typedef DWORD (WINAPI* WlanGetNetworkBssListFunction)(
70 HANDLE hClientHandle,
71 const GUID* pInterfaceGuid,
72 const PDOT11_SSID pDot11Ssid,
73 DOT11_BSS_TYPE dot11BssType,
74 BOOL bSecurityEnabled,
75 PVOID pReserved,
76 PWLAN_BSS_LIST* ppWlanBssList
79 // WlanFreeMemory
80 typedef VOID (WINAPI* WlanFreeMemoryFunction)(PVOID pMemory);
82 // WlanCloseHandle
83 typedef DWORD (WINAPI* WlanCloseHandleFunction)(HANDLE hClientHandle,
84 PVOID pReserved);
87 // Local classes and functions
88 class WindowsWlanApi : public WifiDataProviderCommon::WlanApiInterface {
89 public:
90 virtual ~WindowsWlanApi();
91 // Factory function. Will return NULL if this API is unavailable.
92 static WindowsWlanApi* Create();
94 // WlanApiInterface
95 virtual bool GetAccessPointData(WifiData::AccessPointDataSet* data);
97 private:
98 // Takes ownership of the library handle.
99 explicit WindowsWlanApi(HINSTANCE library);
101 // Loads the required functions from the DLL.
102 void GetWLANFunctions(HINSTANCE wlan_library);
103 int GetInterfaceDataWLAN(HANDLE wlan_handle,
104 const GUID& interface_id,
105 WifiData::AccessPointDataSet* data);
107 // Logs number of detected wlan interfaces.
108 static void LogWlanInterfaceCount(int count);
110 // Handle to the wlanapi.dll library.
111 HINSTANCE library_;
113 // Function pointers for WLAN
114 WlanOpenHandleFunction WlanOpenHandle_function_;
115 WlanEnumInterfacesFunction WlanEnumInterfaces_function_;
116 WlanGetNetworkBssListFunction WlanGetNetworkBssList_function_;
117 WlanFreeMemoryFunction WlanFreeMemory_function_;
118 WlanCloseHandleFunction WlanCloseHandle_function_;
121 class WindowsNdisApi : public WifiDataProviderCommon::WlanApiInterface {
122 public:
123 virtual ~WindowsNdisApi();
124 static WindowsNdisApi* Create();
126 // WlanApiInterface
127 virtual bool GetAccessPointData(WifiData::AccessPointDataSet* data);
129 private:
130 static bool GetInterfacesNDIS(
131 std::vector<base::string16>* interface_service_names_out);
133 // Swaps in content of the vector passed
134 explicit WindowsNdisApi(std::vector<base::string16>* interface_service_names);
136 bool GetInterfaceDataNDIS(HANDLE adapter_handle,
137 WifiData::AccessPointDataSet* data);
138 // NDIS variables.
139 std::vector<base::string16> interface_service_names_;
141 // Remembers scan result buffer size across calls.
142 int oid_buffer_size_;
145 // Extracts data for an access point and converts to Gears format.
146 bool GetNetworkData(const WLAN_BSS_ENTRY& bss_entry,
147 AccessPointData* access_point_data);
148 bool UndefineDosDevice(const base::string16& device_name);
149 bool DefineDosDeviceIfNotExists(const base::string16& device_name);
150 HANDLE GetFileHandle(const base::string16& device_name);
151 // Makes the OID query and returns a Windows API error code.
152 int PerformQuery(HANDLE adapter_handle,
153 BYTE* buffer,
154 DWORD buffer_size,
155 DWORD* bytes_out);
156 bool ResizeBuffer(int requested_size,
157 scoped_ptr<BYTE, base::FreeDeleter>* buffer);
158 // Gets the system directory and appends a trailing slash if not already
159 // present.
160 bool GetSystemDirectory(base::string16* path);
161 } // namespace
163 WifiDataProvider* WifiDataProviderManager::DefaultFactoryFunction() {
164 return new WifiDataProviderWin();
167 WifiDataProviderWin::WifiDataProviderWin() {
170 WifiDataProviderWin::~WifiDataProviderWin() {
173 WifiDataProviderCommon::WlanApiInterface* WifiDataProviderWin::NewWlanApi() {
174 // Use the WLAN interface if we're on Vista and if it's available. Otherwise,
175 // use NDIS.
176 WlanApiInterface* api = WindowsWlanApi::Create();
177 if (api) {
178 return api;
180 return WindowsNdisApi::Create();
183 WifiPollingPolicy* WifiDataProviderWin::NewPollingPolicy() {
184 return new GenericWifiPollingPolicy<kDefaultPollingInterval,
185 kNoChangePollingInterval,
186 kTwoNoChangePollingInterval,
187 kNoWifiPollingIntervalMilliseconds>;
190 // Local classes and functions
191 namespace {
193 // WindowsWlanApi
194 WindowsWlanApi::WindowsWlanApi(HINSTANCE library)
195 : library_(library) {
196 GetWLANFunctions(library_);
199 WindowsWlanApi::~WindowsWlanApi() {
200 FreeLibrary(library_);
203 WindowsWlanApi* WindowsWlanApi::Create() {
204 if (base::win::GetVersion() < base::win::VERSION_VISTA)
205 return NULL;
206 // We use an absolute path to load the DLL to avoid DLL preloading attacks.
207 base::string16 system_directory;
208 if (!GetSystemDirectory(&system_directory)) {
209 return NULL;
211 DCHECK(!system_directory.empty());
212 base::string16 dll_path = system_directory + L"wlanapi.dll";
213 HINSTANCE library = LoadLibraryEx(dll_path.c_str(),
214 NULL,
215 LOAD_WITH_ALTERED_SEARCH_PATH);
216 if (!library) {
217 return NULL;
219 return new WindowsWlanApi(library);
222 void WindowsWlanApi::GetWLANFunctions(HINSTANCE wlan_library) {
223 DCHECK(wlan_library);
224 WlanOpenHandle_function_ = reinterpret_cast<WlanOpenHandleFunction>(
225 GetProcAddress(wlan_library, "WlanOpenHandle"));
226 WlanEnumInterfaces_function_ = reinterpret_cast<WlanEnumInterfacesFunction>(
227 GetProcAddress(wlan_library, "WlanEnumInterfaces"));
228 WlanGetNetworkBssList_function_ =
229 reinterpret_cast<WlanGetNetworkBssListFunction>(
230 GetProcAddress(wlan_library, "WlanGetNetworkBssList"));
231 WlanFreeMemory_function_ = reinterpret_cast<WlanFreeMemoryFunction>(
232 GetProcAddress(wlan_library, "WlanFreeMemory"));
233 WlanCloseHandle_function_ = reinterpret_cast<WlanCloseHandleFunction>(
234 GetProcAddress(wlan_library, "WlanCloseHandle"));
235 DCHECK(WlanOpenHandle_function_ &&
236 WlanEnumInterfaces_function_ &&
237 WlanGetNetworkBssList_function_ &&
238 WlanFreeMemory_function_ &&
239 WlanCloseHandle_function_);
242 void WindowsWlanApi::LogWlanInterfaceCount(int count) {
243 UMA_HISTOGRAM_CUSTOM_COUNTS(
244 "Net.Wifi.InterfaceCount",
245 count,
251 bool WindowsWlanApi::GetAccessPointData(
252 WifiData::AccessPointDataSet* data) {
253 DCHECK(data);
255 // Get the handle to the WLAN API.
256 DWORD negotiated_version;
257 HANDLE wlan_handle = NULL;
258 // We could be executing on either Windows XP or Windows Vista, so use the
259 // lower version of the client WLAN API. It seems that the negotiated version
260 // is the Vista version irrespective of what we pass!
261 static const int kXpWlanClientVersion = 1;
262 if ((*WlanOpenHandle_function_)(kXpWlanClientVersion,
263 NULL,
264 &negotiated_version,
265 &wlan_handle) != ERROR_SUCCESS) {
266 LogWlanInterfaceCount(0);
267 return false;
269 DCHECK(wlan_handle);
271 // Get the list of interfaces. WlanEnumInterfaces allocates interface_list.
272 WLAN_INTERFACE_INFO_LIST* interface_list = NULL;
273 if ((*WlanEnumInterfaces_function_)(wlan_handle, NULL, &interface_list) !=
274 ERROR_SUCCESS) {
275 LogWlanInterfaceCount(0);
276 return false;
278 DCHECK(interface_list);
280 LogWlanInterfaceCount(interface_list->dwNumberOfItems);
282 // Go through the list of interfaces and get the data for each.
283 for (int i = 0; i < static_cast<int>(interface_list->dwNumberOfItems); ++i) {
284 // Skip any interface that is midway through association; the
285 // WlanGetNetworkBssList function call is known to hang indefinitely
286 // when it's in this state. http://crbug.com/39300
287 if (interface_list->InterfaceInfo[i].isState ==
288 wlan_interface_state_associating) {
289 LOG(WARNING) << "Skipping wifi scan on adapter " << i << " ("
290 << interface_list->InterfaceInfo[i].strInterfaceDescription
291 << ") in 'associating' state. Repeated occurrences "
292 "indicates a non-responding adapter.";
293 continue;
295 GetInterfaceDataWLAN(wlan_handle,
296 interface_list->InterfaceInfo[i].InterfaceGuid,
297 data);
300 // Free interface_list.
301 (*WlanFreeMemory_function_)(interface_list);
303 // Close the handle.
304 if ((*WlanCloseHandle_function_)(wlan_handle, NULL) != ERROR_SUCCESS) {
305 return false;
308 return true;
311 // Appends the data for a single interface to the data vector. Returns the
312 // number of access points found, or -1 on error.
313 int WindowsWlanApi::GetInterfaceDataWLAN(
314 const HANDLE wlan_handle,
315 const GUID& interface_id,
316 WifiData::AccessPointDataSet* data) {
317 DCHECK(data);
319 const base::TimeTicks start_time = base::TimeTicks::Now();
321 // WlanGetNetworkBssList allocates bss_list.
322 WLAN_BSS_LIST* bss_list = NULL;
323 if ((*WlanGetNetworkBssList_function_)(wlan_handle,
324 &interface_id,
325 NULL, // Use all SSIDs.
326 dot11_BSS_type_any,
327 false, // bSecurityEnabled - unused
328 NULL, // reserved
329 &bss_list) != ERROR_SUCCESS) {
330 return -1;
332 // According to http://www.attnetclient.com/kb/questions.php?questionid=75
333 // WlanGetNetworkBssList can sometimes return success, but leave the bss
334 // list as NULL.
335 if (!bss_list)
336 return -1;
338 const base::TimeDelta duration = base::TimeTicks::Now() - start_time;
340 UMA_HISTOGRAM_CUSTOM_TIMES(
341 "Net.Wifi.ScanLatency",
342 duration,
343 base::TimeDelta::FromMilliseconds(1),
344 base::TimeDelta::FromMinutes(1),
345 100);
348 int found = 0;
349 for (int i = 0; i < static_cast<int>(bss_list->dwNumberOfItems); ++i) {
350 AccessPointData access_point_data;
351 if (GetNetworkData(bss_list->wlanBssEntries[i], &access_point_data)) {
352 ++found;
353 data->insert(access_point_data);
357 (*WlanFreeMemory_function_)(bss_list);
359 return found;
362 // WindowsNdisApi
363 WindowsNdisApi::WindowsNdisApi(
364 std::vector<base::string16>* interface_service_names)
365 : oid_buffer_size_(kInitialBufferSize) {
366 DCHECK(!interface_service_names->empty());
367 interface_service_names_.swap(*interface_service_names);
370 WindowsNdisApi::~WindowsNdisApi() {
373 WindowsNdisApi* WindowsNdisApi::Create() {
374 std::vector<base::string16> interface_service_names;
375 if (GetInterfacesNDIS(&interface_service_names)) {
376 return new WindowsNdisApi(&interface_service_names);
378 return NULL;
381 bool WindowsNdisApi::GetAccessPointData(WifiData::AccessPointDataSet* data) {
382 DCHECK(data);
383 int interfaces_failed = 0;
384 int interfaces_succeeded = 0;
386 for (int i = 0; i < static_cast<int>(interface_service_names_.size()); ++i) {
387 // First, check that we have a DOS device for this adapter.
388 if (!DefineDosDeviceIfNotExists(interface_service_names_[i])) {
389 continue;
392 // Get the handle to the device. This will fail if the named device is not
393 // valid.
394 HANDLE adapter_handle = GetFileHandle(interface_service_names_[i]);
395 if (adapter_handle == INVALID_HANDLE_VALUE) {
396 continue;
399 // Get the data.
400 if (GetInterfaceDataNDIS(adapter_handle, data)) {
401 ++interfaces_succeeded;
402 } else {
403 ++interfaces_failed;
406 // Clean up.
407 CloseHandle(adapter_handle);
408 UndefineDosDevice(interface_service_names_[i]);
411 // Return true if at least one interface succeeded, or at the very least none
412 // failed.
413 return interfaces_succeeded > 0 || interfaces_failed == 0;
416 bool WindowsNdisApi::GetInterfacesNDIS(
417 std::vector<base::string16>* interface_service_names_out) {
418 HKEY network_cards_key = NULL;
419 if (RegOpenKeyEx(
420 HKEY_LOCAL_MACHINE,
421 L"Software\\Microsoft\\Windows NT\\CurrentVersion\\NetworkCards",
423 KEY_READ,
424 &network_cards_key) != ERROR_SUCCESS) {
425 return false;
427 DCHECK(network_cards_key);
429 for (int i = 0; ; ++i) {
430 TCHAR name[kStringLength];
431 DWORD name_size = kStringLength;
432 FILETIME time;
433 if (RegEnumKeyEx(network_cards_key,
435 name,
436 &name_size,
437 NULL,
438 NULL,
439 NULL,
440 &time) != ERROR_SUCCESS) {
441 break;
443 HKEY hardware_key = NULL;
444 if (RegOpenKeyEx(network_cards_key, name, 0, KEY_READ, &hardware_key) !=
445 ERROR_SUCCESS) {
446 break;
448 DCHECK(hardware_key);
450 TCHAR service_name[kStringLength];
451 DWORD service_name_size = kStringLength;
452 DWORD type = 0;
453 if (RegQueryValueEx(hardware_key,
454 L"ServiceName",
455 NULL,
456 &type,
457 reinterpret_cast<LPBYTE>(service_name),
458 &service_name_size) == ERROR_SUCCESS) {
459 interface_service_names_out->push_back(service_name);
461 RegCloseKey(hardware_key);
464 RegCloseKey(network_cards_key);
465 return true;
469 bool WindowsNdisApi::GetInterfaceDataNDIS(HANDLE adapter_handle,
470 WifiData::AccessPointDataSet* data) {
471 DCHECK(data);
473 scoped_ptr<BYTE, base::FreeDeleter> buffer(
474 static_cast<BYTE*>(malloc(oid_buffer_size_)));
475 if (buffer == NULL) {
476 return false;
479 DWORD bytes_out;
480 int result;
482 while (true) {
483 bytes_out = 0;
484 result = PerformQuery(adapter_handle, buffer.get(),
485 oid_buffer_size_, &bytes_out);
486 if (result == ERROR_GEN_FAILURE || // Returned by some Intel cards.
487 result == ERROR_INSUFFICIENT_BUFFER ||
488 result == ERROR_MORE_DATA ||
489 result == NDIS_STATUS_INVALID_LENGTH ||
490 result == NDIS_STATUS_BUFFER_TOO_SHORT) {
491 // The buffer we supplied is too small, so increase it. bytes_out should
492 // provide the required buffer size, but this is not always the case.
493 if (bytes_out > static_cast<DWORD>(oid_buffer_size_)) {
494 oid_buffer_size_ = bytes_out;
495 } else {
496 oid_buffer_size_ *= 2;
498 if (!ResizeBuffer(oid_buffer_size_, &buffer)) {
499 oid_buffer_size_ = kInitialBufferSize; // Reset for next time.
500 return false;
502 } else {
503 // The buffer is not too small.
504 break;
507 DCHECK(buffer.get());
509 if (result == ERROR_SUCCESS) {
510 NDIS_802_11_BSSID_LIST* bssid_list =
511 reinterpret_cast<NDIS_802_11_BSSID_LIST*>(buffer.get());
512 GetDataFromBssIdList(*bssid_list, oid_buffer_size_, data);
515 return true;
518 bool GetNetworkData(const WLAN_BSS_ENTRY& bss_entry,
519 AccessPointData* access_point_data) {
520 // Currently we get only MAC address, signal strength and SSID.
521 DCHECK(access_point_data);
522 access_point_data->mac_address = MacAddressAsString16(bss_entry.dot11Bssid);
523 access_point_data->radio_signal_strength = bss_entry.lRssi;
524 // bss_entry.dot11Ssid.ucSSID is not null-terminated.
525 base::UTF8ToUTF16(reinterpret_cast<const char*>(bss_entry.dot11Ssid.ucSSID),
526 static_cast<ULONG>(bss_entry.dot11Ssid.uSSIDLength),
527 &access_point_data->ssid);
528 // TODO(steveblock): Is it possible to get the following?
529 // access_point_data->signal_to_noise
530 // access_point_data->age
531 // access_point_data->channel
532 return true;
535 bool UndefineDosDevice(const base::string16& device_name) {
536 // We remove only the mapping we use, that is \Device\<device_name>.
537 base::string16 target_path = L"\\Device\\" + device_name;
538 return DefineDosDevice(
539 DDD_RAW_TARGET_PATH | DDD_REMOVE_DEFINITION | DDD_EXACT_MATCH_ON_REMOVE,
540 device_name.c_str(),
541 target_path.c_str()) == TRUE;
544 bool DefineDosDeviceIfNotExists(const base::string16& device_name) {
545 // We create a DOS device name for the device at \Device\<device_name>.
546 base::string16 target_path = L"\\Device\\" + device_name;
548 TCHAR target[kStringLength];
549 if (QueryDosDevice(device_name.c_str(), target, kStringLength) > 0 &&
550 target_path.compare(target) == 0) {
551 // Device already exists.
552 return true;
555 if (GetLastError() != ERROR_FILE_NOT_FOUND) {
556 return false;
559 if (!DefineDosDevice(DDD_RAW_TARGET_PATH,
560 device_name.c_str(),
561 target_path.c_str())) {
562 return false;
565 // Check that the device is really there.
566 return QueryDosDevice(device_name.c_str(), target, kStringLength) > 0 &&
567 target_path.compare(target) == 0;
570 HANDLE GetFileHandle(const base::string16& device_name) {
571 // We access a device with DOS path \Device\<device_name> at
572 // \\.\<device_name>.
573 base::string16 formatted_device_name = L"\\\\.\\" + device_name;
575 return CreateFile(formatted_device_name.c_str(),
576 GENERIC_READ,
577 FILE_SHARE_READ | FILE_SHARE_WRITE, // share mode
578 0, // security attributes
579 OPEN_EXISTING,
580 0, // flags and attributes
581 INVALID_HANDLE_VALUE);
584 int PerformQuery(HANDLE adapter_handle,
585 BYTE* buffer,
586 DWORD buffer_size,
587 DWORD* bytes_out) {
588 DWORD oid = OID_802_11_BSSID_LIST;
589 if (!DeviceIoControl(adapter_handle,
590 IOCTL_NDIS_QUERY_GLOBAL_STATS,
591 &oid,
592 sizeof(oid),
593 buffer,
594 buffer_size,
595 bytes_out,
596 NULL)) {
597 return GetLastError();
599 return ERROR_SUCCESS;
602 bool ResizeBuffer(int requested_size,
603 scoped_ptr<BYTE, base::FreeDeleter>* buffer) {
604 DCHECK_GT(requested_size, 0);
605 DCHECK(buffer);
606 if (requested_size > kMaximumBufferSize) {
607 buffer->reset();
608 return false;
611 buffer->reset(reinterpret_cast<BYTE*>(
612 realloc(buffer->release(), requested_size)));
613 return buffer != NULL;
616 bool GetSystemDirectory(base::string16* path) {
617 DCHECK(path);
618 // Return value includes terminating NULL.
619 int buffer_size = ::GetSystemDirectory(NULL, 0);
620 if (buffer_size == 0) {
621 return false;
623 scoped_ptr<base::char16[]> buffer(new base::char16[buffer_size]);
625 // Return value excludes terminating NULL.
626 int characters_written = ::GetSystemDirectory(buffer.get(), buffer_size);
627 if (characters_written == 0) {
628 return false;
630 DCHECK_EQ(buffer_size - 1, characters_written);
632 path->assign(buffer.get(), characters_written);
634 if (*path->rbegin() != L'\\') {
635 path->append(L"\\");
637 DCHECK_EQ(L'\\', *path->rbegin());
638 return true;
640 } // namespace
642 } // namespace content