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1 // Copyright 2013 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.
4 
5 #include "components/wifi/wifi_service.h"
6 
7 #include <iphlpapi.h>
8 #include <objbase.h>
9 #include <wlanapi.h>
10 
11 #include <set>
12 
13 #include "base/base_paths_win.h"
14 #include "base/bind.h"
15 #include "base/files/file_path.h"
16 #include "base/memory/ref_counted.h"
17 #include "base/message_loop/message_loop.h"
18 #include "base/path_service.h"
19 #include "base/strings/string16.h"
20 #include "base/strings/string_util.h"
21 #include "base/strings/utf_string_conversions.h"
22 #include "base/win/registry.h"
23 #include "components/onc/onc_constants.h"
24 #include "components/wifi/network_properties.h"
25 #include "third_party/libxml/chromium/libxml_utils.h"
26 
27 namespace {
28 const wchar_t kNwCategoryWizardRegKey[] =
29     L"Software\\Microsoft\\Windows NT\\CurrentVersion\\Network\\"
30     L"NwCategoryWizard";
31 const wchar_t kNwCategoryWizardRegValue[] = L"Show";
32 const wchar_t kNwCategoryWizardSavedRegValue[] = L"ShowSaved";
33 const wchar_t kNwCategoryWizardDeleteRegValue[] = L"ShowDelete";
34 const wchar_t kWlanApiDll[] = L"wlanapi.dll";
35 
36 // Created Profile Dictionary keys
37 const char kProfileXmlKey[] = "xml";
38 const char kProfileSharedKey[] = "shared";
39 
40 // WlanApi function names
41 const char kWlanConnect[] = "WlanConnect";
42 const char kWlanCloseHandle[] = "WlanCloseHandle";
43 const char kWlanDeleteProfile[] = "WlanDeleteProfile";
44 const char kWlanDisconnect[] = "WlanDisconnect";
45 const char kWlanEnumInterfaces[] = "WlanEnumInterfaces";
46 const char kWlanFreeMemory[] = "WlanFreeMemory";
47 const char kWlanGetAvailableNetworkList[] = "WlanGetAvailableNetworkList";
48 const char kWlanGetNetworkBssList[] = "WlanGetNetworkBssList";
49 const char kWlanGetProfile[] = "WlanGetProfile";
50 const char kWlanOpenHandle[] = "WlanOpenHandle";
51 const char kWlanQueryInterface[] = "WlanQueryInterface";
52 const char kWlanRegisterNotification[] = "WlanRegisterNotification";
53 const char kWlanSaveTemporaryProfile[] = "WlanSaveTemporaryProfile";
54 const char kWlanScan[] = "WlanScan";
55 const char kWlanSetProfile[] = "WlanSetProfile";
56 
57 // WlanApi function definitions
58 typedef DWORD(WINAPI* WlanConnectFunction)(
59     HANDLE hClientHandle,
60     CONST GUID* pInterfaceGuid,
61     CONST PWLAN_CONNECTION_PARAMETERS pConnectionParameters,
62     PVOID pReserved);
63 
64 typedef DWORD (WINAPI* WlanCloseHandleFunction)(
65     HANDLE hClientHandle,
66     PVOID pReserved);
67 
68 typedef DWORD(WINAPI* WlanDeleteProfileFunction)(HANDLE hClientHandle,
69                                                  const GUID* pInterfaceGuid,
70                                                  LPCWSTR strProfileName,
71                                                  PVOID pReserved);
72 
73 typedef DWORD(WINAPI* WlanDisconnectFunction)(HANDLE hClientHandle,
74                                               CONST GUID* pInterfaceGuid,
75                                               PVOID pReserved);
76 
77 typedef DWORD(WINAPI* WlanEnumInterfacesFunction)(
78     HANDLE hClientHandle,
79     PVOID pReserved,
80     PWLAN_INTERFACE_INFO_LIST* ppInterfaceList);
81 
82 typedef VOID (WINAPI* WlanFreeMemoryFunction)(
83     _In_ PVOID pMemory);
84 
85 typedef DWORD(WINAPI* WlanGetAvailableNetworkListFunction)(
86     HANDLE hClientHandle,
87     CONST GUID* pInterfaceGuid,
88     DWORD dwFlags,
89     PVOID pReserved,
90     PWLAN_AVAILABLE_NETWORK_LIST* ppAvailableNetworkList);
91 
92 typedef DWORD (WINAPI* WlanGetNetworkBssListFunction)(
93     HANDLE hClientHandle,
94     const GUID* pInterfaceGuid,
95     const  PDOT11_SSID pDot11Ssid,
96     DOT11_BSS_TYPE dot11BssType,
97     BOOL bSecurityEnabled,
98     PVOID pReserved,
99     PWLAN_BSS_LIST* ppWlanBssList);
100 
101 typedef DWORD(WINAPI* WlanGetProfileFunction)(HANDLE hClientHandle,
102                                               CONST GUID* pInterfaceGuid,
103                                               LPCWSTR strProfileName,
104                                               PVOID pReserved,
105                                               LPWSTR* pstrProfileXml,
106                                               DWORD* pdwFlags,
107                                               DWORD* pdwGrantedAccess);
108 
109 typedef DWORD (WINAPI* WlanOpenHandleFunction)(
110     DWORD dwClientVersion,
111     PVOID pReserved,
112     PDWORD pdwNegotiatedVersion,
113     PHANDLE phClientHandle);
114 
115 typedef DWORD(WINAPI* WlanQueryInterfaceFunction)(
116     HANDLE hClientHandle,
117     const GUID* pInterfaceGuid,
118     WLAN_INTF_OPCODE OpCode,
119     PVOID pReserved,
120     PDWORD pdwDataSize,
121     PVOID* ppData,
122     PWLAN_OPCODE_VALUE_TYPE pWlanOpcodeValueType);
123 
124 typedef DWORD (WINAPI* WlanRegisterNotificationFunction)(
125     HANDLE hClientHandle,
126     DWORD dwNotifSource,
127     BOOL bIgnoreDuplicate,
128     WLAN_NOTIFICATION_CALLBACK funcCallback,
129     PVOID pCallbackContext,
130     PVOID pReserved,
131     PDWORD pdwPrevNotifSource);
132 
133 typedef DWORD (WINAPI* WlanSaveTemporaryProfileFunction)(
134     HANDLE hClientHandle,
135     CONST GUID* pInterfaceGuid,
136     LPCWSTR strProfileName,
137     LPCWSTR strAllUserProfileSecurity,
138     DWORD dwFlags,
139     BOOL bOverWrite,
140     PVOID pReserved);
141 
142 typedef DWORD(WINAPI* WlanScanFunction)(HANDLE hClientHandle,
143                                         CONST GUID* pInterfaceGuid,
144                                         CONST PDOT11_SSID pDot11Ssid,
145                                         CONST PWLAN_RAW_DATA pIeData,
146                                         PVOID pReserved);
147 
148 typedef DWORD(WINAPI* WlanSetProfileFunction)(HANDLE hClientHandle,
149                                               const GUID* pInterfaceGuid,
150                                               DWORD dwFlags,
151                                               LPCWSTR strProfileXml,
152                                               LPCWSTR strAllUserProfileSecurity,
153                                               BOOL bOverwrite,
154                                               PVOID pReserved,
155                                               DWORD* pdwReasonCode);
156 
157 // Values for WLANProfile XML.
158 const char kAuthenticationOpen[] = "open";
159 const char kAuthenticationWepPsk[] = "WEP";
160 const char kAuthenticationWpaPsk[] = "WPAPSK";
161 const char kAuthenticationWpa2Psk[] = "WPA2PSK";
162 const char kEncryptionAES[] = "AES";
163 const char kEncryptionNone[] = "none";
164 const char kEncryptionTKIP[] = "TKIP";
165 const char kEncryptionWEP[] = "WEP";
166 const char kKeyTypeNetwork[] = "networkKey";
167 const char kKeyTypePassphrase[] = "passPhrase";
168 
169 }  // namespace
170 
171 namespace wifi {
172 
173 // Implementation of WiFiService for Windows.
174 class WiFiServiceImpl : public WiFiService {
175  public:
176   WiFiServiceImpl();
177   virtual ~WiFiServiceImpl();
178 
179   // WiFiService interface implementation.
180   virtual void Initialize(
181       scoped_refptr<base::SequencedTaskRunner> task_runner) OVERRIDE;
182 
183   virtual void UnInitialize() OVERRIDE;
184 
185   virtual void GetProperties(const std::string& network_guid,
186                              base::DictionaryValue* properties,
187                              std::string* error) OVERRIDE;
188 
189   virtual void GetManagedProperties(const std::string& network_guid,
190                                     base::DictionaryValue* managed_properties,
191                                     std::string* error) OVERRIDE;
192 
193   virtual void GetState(const std::string& network_guid,
194                         base::DictionaryValue* properties,
195                         std::string* error) OVERRIDE;
196 
197   virtual void SetProperties(const std::string& network_guid,
198                              scoped_ptr<base::DictionaryValue> properties,
199                              std::string* error) OVERRIDE;
200 
201   virtual void CreateNetwork(bool shared,
202                              scoped_ptr<base::DictionaryValue> properties,
203                              std::string* network_guid,
204                              std::string* error) OVERRIDE;
205 
206   virtual void GetVisibleNetworks(const std::string& network_type,
207                                   base::ListValue* network_list,
208                                   bool include_details) OVERRIDE;
209 
210   virtual void RequestNetworkScan() OVERRIDE;
211 
212   virtual void StartConnect(const std::string& network_guid,
213                             std::string* error) OVERRIDE;
214 
215   virtual void StartDisconnect(const std::string& network_guid,
216                                std::string* error) OVERRIDE;
217 
218   virtual void GetKeyFromSystem(const std::string& network_guid,
219                                 std::string* key_data,
220                                 std::string* error) OVERRIDE;
221 
222   virtual void SetEventObservers(
223       scoped_refptr<base::MessageLoopProxy> message_loop_proxy,
224       const NetworkGuidListCallback& networks_changed_observer,
225       const NetworkGuidListCallback& network_list_changed_observer) OVERRIDE;
226 
RequestConnectedNetworkUpdate()227   virtual void RequestConnectedNetworkUpdate() OVERRIDE {}
228 
229  private:
230   typedef int32 EncryptionType;
231   enum EncryptionTypeEnum {
232     kEncryptionTypeAny = 0,
233     kEncryptionTypeAES = 1,
234     kEncryptionTypeTKIP = 2
235   };
236 
237   // Static callback for Windows WLAN_NOTIFICATION. Calls OnWlanNotification
238   // on WiFiServiceImpl passed back as |context|.
239   static void __stdcall OnWlanNotificationCallback(
240       PWLAN_NOTIFICATION_DATA wlan_notification_data,
241       PVOID context);
242 
243   // Callback for Windows WLAN_NOTIFICATION. Called on random thread from
244   // OnWlanNotificationCallback. Handles network connectivity and scan complete
245   // notification and posts tasks to main thread.
246   void OnWlanNotification(PWLAN_NOTIFICATION_DATA wlan_notification_data);
247 
248   // Handles NetworkScanComplete notification on main thread. Sends
249   // |NetworkListChanged| event with new list of visible networks.
250   void OnNetworkScanCompleteOnMainThread();
251 
252   // Wait up to |kMaxAttempts| with |kAttemptDelayMs| delay for connection
253   // to network with |network_guid|. Reset DHCP and Notify that |NetworkChanged|
254   // upon success.
255   void WaitForNetworkConnect(const std::string& network_guid, int attempt);
256 
257   // Check |error_code| and if is not |ERROR_SUCCESS|, then store |error_name|
258   // into |error|.
259   bool CheckError(DWORD error_code,
260                   const std::string& error_name,
261                   std::string* error) const;
262 
263   // Return |iterator| to network identified by |network_guid| in |networks|
264   // list.
265   NetworkList::iterator FindNetwork(NetworkList& networks,
266                                     const std::string& network_guid);
267 
268   // Save currently connected network profile so it can be re-connected later.
269   DWORD SaveCurrentConnectedNetwork(const NetworkProperties& properties);
270 
271   // Sort networks, so connected/connecting is up front, then by type:
272   // Ethernet, WiFi, Cellular, VPN
273   static void SortNetworks(NetworkList* networks);
274 
275   // Open a WLAN client handle, register for WLAN notifications.
276   DWORD OpenClientHandle();
277 
278   // Reset DHCP on wireless network to work around an issue when Windows
279   // takes forever to connect to the network, e.g. after Chromecast
280   // device reset.
281   DWORD ResetDHCP();
282 
283   // Find |adapter_index_map| by |interface_guid| for DHCP reset.
284   DWORD FindAdapterIndexMapByGUID(const GUID& interface_guid,
285                                   IP_ADAPTER_INDEX_MAP* adapter_index_map);
286 
287   // Avoid the network location wizard to pop up when network is connected.
288   // Preserve current value in |saved_nw_category_wizard_|.
289   DWORD DisableNwCategoryWizard();
290 
291   // Restore network location wizard to value saved by DisableNwCategoryWizard.
292   DWORD RestoreNwCategoryWizard();
293 
294   // Ensure that |client_| handle is initialized.
295   DWORD EnsureInitialized();
296 
297   // Close |client_| handle if it is open.
298   DWORD CloseClientHandle();
299 
300   // Get |profile_name| from unique |network_guid|.
ProfileNameFromGUID(const std::string & network_guid) const301   base::string16 ProfileNameFromGUID(const std::string& network_guid) const {
302     return base::UTF8ToUTF16(network_guid);
303   }
304 
305   // Get |dot11_ssid| from unique |network_guid|.
306   DOT11_SSID SSIDFromGUID(const std::string& network_guid) const;
307 
308   // Get unique |network_guid| string based on |dot11_ssid|.
GUIDFromSSID(const DOT11_SSID & dot11_ssid) const309   std::string GUIDFromSSID(const DOT11_SSID& dot11_ssid) const {
310     return std::string(reinterpret_cast<const char*>(dot11_ssid.ucSSID),
311                        dot11_ssid.uSSIDLength);
312   }
313 
314   // Get network |ssid| string based on |wlan|.
SSIDFromWLAN(const WLAN_AVAILABLE_NETWORK & wlan) const315   std::string SSIDFromWLAN(const WLAN_AVAILABLE_NETWORK& wlan) const {
316     return GUIDFromSSID(wlan.dot11Ssid);
317   }
318 
319   // Get unique |network_guid| string based on |wlan|.
GUIDFromWLAN(const WLAN_AVAILABLE_NETWORK & wlan) const320   std::string GUIDFromWLAN(const WLAN_AVAILABLE_NETWORK& wlan) const {
321     return SSIDFromWLAN(wlan);
322   }
323 
324   // Deduce |onc::wifi| security from |alg|.
325   std::string SecurityFromDot11AuthAlg(DOT11_AUTH_ALGORITHM alg) const;
326 
327   // Deduce |onc::connection_state| from |wlan_state|.
328   std::string ConnectionStateFromInterfaceState(
329       WLAN_INTERFACE_STATE wlan_state) const;
330 
331   // Convert |EncryptionType| into WPA(2) encryption type string.
332   std::string WpaEncryptionFromEncryptionType(
333       EncryptionType encryption_type) const;
334 
335   // Deduce WLANProfile |authEncryption| values from |onc::wifi| security.
336   bool AuthEncryptionFromSecurity(const std::string& security,
337                                   EncryptionType encryption_type,
338                                   std::string* authentication,
339                                   std::string* encryption,
340                                   std::string* key_type) const;
341 
342   // Populate |properties| based on |wlan|.
343   void NetworkPropertiesFromAvailableNetwork(const WLAN_AVAILABLE_NETWORK& wlan,
344                                              NetworkProperties* properties);
345 
346   // Update |properties| based on bss info from |wlan_bss_list|. If |bssid| in
347   // |properties| is not empty, then it is not changed and |frequency| is set
348   // based on that bssid.
349   void UpdateNetworkPropertiesFromBssList(const std::string& network_guid,
350                                           const WLAN_BSS_LIST& wlan_bss_list,
351                                           NetworkProperties* properties);
352 
353   // Get the list of visible wireless networks.
354   DWORD GetVisibleNetworkList(NetworkList* network_list);
355 
356   // Get properties of the network currently used (connected or in transition)
357   // by interface. Populate |current_properties| on success.
358   DWORD GetCurrentProperties(NetworkProperties* current_properties);
359 
360   // Connect to network |network_guid| using previosly stored profile if exists,
361   // or just network sid. If |frequency| is not |kFrequencyUnknown| then
362   // connects only to BSS which uses that frequency and returns
363   // |ERROR_NOT_FOUND| if such BSS cannot be found.
364   DWORD Connect(const std::string& network_guid, Frequency frequency);
365 
366   // Disconnect from currently connected network if any.
367   DWORD Disconnect();
368 
369   // Get desired connection freqency if it was set using |SetProperties|.
370   // Default to |kFrequencyAny|.
371   Frequency GetFrequencyToConnect(const std::string& network_guid) const;
372 
373   // Get DOT11_BSSID_LIST of desired BSSIDs to connect to |ssid| network on
374   // given |frequency|.
375   DWORD GetDesiredBssList(DOT11_SSID& ssid,
376                           Frequency frequency,
377                           scoped_ptr<DOT11_BSSID_LIST>* desired_list);
378 
379   // Normalizes |frequency_in_mhz| into one of |Frequency| values.
380   Frequency GetNormalizedFrequency(int frequency_in_mhz) const;
381 
382   // Create |profile_xml| based on |network_properties|. If |encryption_type|
383   // is |kEncryptionTypeAny| applies the type most suitable for parameters in
384   // |network_properties|.
385   bool CreateProfile(const NetworkProperties& network_properties,
386                      EncryptionType encryption_type,
387                      std::string* profile_xml);
388 
389   // Save temporary wireless profile for |network_guid|.
390   DWORD SaveTempProfile(const std::string& network_guid);
391 
392   // Get previously stored |profile_xml| for |network_guid|.
393   // If |get_plaintext_key| is true, and process has sufficient privileges, then
394   // <sharedKey> data in |profile_xml| will be unprotected.
395   DWORD GetProfile(const std::string& network_guid,
396                    bool get_plaintext_key,
397                    std::string* profile_xml);
398 
399   // Set |profile_xml| to current user or all users depending on |shared| flag.
400   // If |overwrite| is false, then returns an error if profile exists.
401   DWORD SetProfile(bool shared, const std::string& profile_xml, bool overwrite);
402 
403   // Return true if there is previously stored profile xml for |network_guid|.
404   bool HaveProfile(const std::string& network_guid);
405 
406   // Delete profile that was created, but failed to connect.
407   DWORD DeleteCreatedProfile(const std::string& network_guid);
408 
409   // Notify |network_list_changed_observer_| that list of visible networks has
410   // changed to |networks|.
411   void NotifyNetworkListChanged(const NetworkList& networks);
412 
413   // Notify |networks_changed_observer_| that network |network_guid| status has
414   // changed.
415   void NotifyNetworkChanged(const std::string& network_guid);
416 
417   // Load WlanApi.dll from SystemDirectory and get Api function pointers.
418   DWORD LoadWlanLibrary();
419   // Instance of WlanApi.dll.
420   HINSTANCE wlan_api_library_;
421   // WlanApi function pointers
422   WlanConnectFunction WlanConnect_function_;
423   WlanCloseHandleFunction WlanCloseHandle_function_;
424   WlanDeleteProfileFunction WlanDeleteProfile_function_;
425   WlanDisconnectFunction WlanDisconnect_function_;
426   WlanEnumInterfacesFunction WlanEnumInterfaces_function_;
427   WlanFreeMemoryFunction WlanFreeMemory_function_;
428   WlanGetAvailableNetworkListFunction WlanGetAvailableNetworkList_function_;
429   // WlanGetNetworkBssList function may not be avaiable on Windows XP.
430   WlanGetNetworkBssListFunction WlanGetNetworkBssList_function_;
431   WlanGetProfileFunction WlanGetProfile_function_;
432   WlanOpenHandleFunction WlanOpenHandle_function_;
433   WlanQueryInterfaceFunction WlanQueryInterface_function_;
434   WlanRegisterNotificationFunction WlanRegisterNotification_function_;
435   WlanScanFunction WlanScan_function_;
436   WlanSetProfileFunction WlanSetProfile_function_;
437   // WlanSaveTemporaryProfile function may not be avaiable on Windows XP.
438   WlanSaveTemporaryProfileFunction WlanSaveTemporaryProfile_function_;
439 
440   // WLAN service handle.
441   HANDLE client_;
442   // GUID of the currently connected interface, if any, otherwise the GUID of
443   // one of the WLAN interfaces.
444   GUID interface_guid_;
445   // Temporary storage of network properties indexed by |network_guid|. Persist
446   // only in memory.
447   base::DictionaryValue connect_properties_;
448   // Preserved WLAN profile xml.
449   std::map<std::string, std::string> saved_profiles_xml_;
450   // Created WLAN Profiles, indexed by |network_guid|. Contains xml with TKIP
451   // encryption type saved by |CreateNetwork| if applicable. Profile has to be
452   // deleted if connection fails. Implicitly created profiles have to be deleted
453   // if connection succeeds. Persist only in memory.
454   base::DictionaryValue created_profiles_;
455   // Observer to get notified when network(s) have changed (e.g. connect).
456   NetworkGuidListCallback networks_changed_observer_;
457   // Observer to get notified when network list has changed (scan complete).
458   NetworkGuidListCallback network_list_changed_observer_;
459   // Saved value of network location wizard show value.
460   scoped_ptr<DWORD> saved_nw_category_wizard_;
461   // MessageLoopProxy to post events on UI thread.
462   scoped_refptr<base::MessageLoopProxy> message_loop_proxy_;
463   // Task runner for worker tasks.
464   scoped_refptr<base::SequencedTaskRunner> task_runner_;
465   // If |false|, then |networks_changed_observer_| is not notified.
466   bool enable_notify_network_changed_;
467   // Number of attempts to check that network has connected successfully.
468   static const int kMaxAttempts = 100;
469   // Delay between attempts to check that network has connected successfully.
470   static const int kAttemptDelayMs = 100;
471   DISALLOW_COPY_AND_ASSIGN(WiFiServiceImpl);
472 };
473 
WiFiServiceImpl()474 WiFiServiceImpl::WiFiServiceImpl()
475     : wlan_api_library_(NULL),
476       WlanConnect_function_(NULL),
477       WlanCloseHandle_function_(NULL),
478       WlanDeleteProfile_function_(NULL),
479       WlanDisconnect_function_(NULL),
480       WlanEnumInterfaces_function_(NULL),
481       WlanFreeMemory_function_(NULL),
482       WlanGetAvailableNetworkList_function_(NULL),
483       WlanGetNetworkBssList_function_(NULL),
484       WlanGetProfile_function_(NULL),
485       WlanOpenHandle_function_(NULL),
486       WlanRegisterNotification_function_(NULL),
487       WlanSaveTemporaryProfile_function_(NULL),
488       WlanScan_function_(NULL),
489       WlanSetProfile_function_(NULL),
490       client_(NULL),
491       enable_notify_network_changed_(true) {}
492 
~WiFiServiceImpl()493 WiFiServiceImpl::~WiFiServiceImpl() { UnInitialize(); }
494 
Initialize(scoped_refptr<base::SequencedTaskRunner> task_runner)495 void WiFiServiceImpl::Initialize(
496     scoped_refptr<base::SequencedTaskRunner> task_runner) {
497   DCHECK(!client_);
498   task_runner_.swap(task_runner);
499   // Restore NwCategoryWizard in case if we crashed during connect.
500   RestoreNwCategoryWizard();
501   OpenClientHandle();
502 }
503 
UnInitialize()504 void WiFiServiceImpl::UnInitialize() {
505   CloseClientHandle();
506 }
507 
GetProperties(const std::string & network_guid,base::DictionaryValue * properties,std::string * error)508 void WiFiServiceImpl::GetProperties(const std::string& network_guid,
509                                     base::DictionaryValue* properties,
510                                     std::string* error) {
511   DWORD error_code = EnsureInitialized();
512   if (CheckError(error_code, kErrorWiFiService, error))
513     return;
514 
515   NetworkProperties connected_properties;
516   error_code = GetCurrentProperties(&connected_properties);
517   if (error_code == ERROR_SUCCESS &&
518       connected_properties.guid == network_guid) {
519     properties->Swap(connected_properties.ToValue(false).get());
520     return;
521   }
522 
523   NetworkList network_list;
524   error_code = GetVisibleNetworkList(&network_list);
525   if (error_code == ERROR_SUCCESS) {
526     NetworkList::const_iterator it = FindNetwork(network_list, network_guid);
527     if (it != network_list.end()) {
528       DVLOG(1) << "Get Properties: " << network_guid << ":"
529                   << it->connection_state;
530       properties->Swap(it->ToValue(false).get());
531       return;
532     }
533     error_code = ERROR_NOT_FOUND;
534   }
535 
536   CheckError(error_code, kErrorWiFiService, error);
537 }
538 
GetManagedProperties(const std::string & network_guid,base::DictionaryValue * managed_properties,std::string * error)539 void WiFiServiceImpl::GetManagedProperties(
540     const std::string& network_guid,
541     base::DictionaryValue* managed_properties,
542     std::string* error) {
543   CheckError(ERROR_CALL_NOT_IMPLEMENTED, kErrorWiFiService, error);
544 }
545 
GetState(const std::string & network_guid,base::DictionaryValue * properties,std::string * error)546 void WiFiServiceImpl::GetState(const std::string& network_guid,
547                                base::DictionaryValue* properties,
548                                std::string* error) {
549   CheckError(ERROR_CALL_NOT_IMPLEMENTED, kErrorWiFiService, error);
550 }
551 
SetProperties(const std::string & network_guid,scoped_ptr<base::DictionaryValue> properties,std::string * error)552 void WiFiServiceImpl::SetProperties(
553     const std::string& network_guid,
554     scoped_ptr<base::DictionaryValue> properties,
555     std::string* error) {
556   // Temporary preserve WiFi properties (desired frequency, wifi password) to
557   // use in StartConnect.
558   DCHECK(properties.get());
559   if (!properties->HasKey(onc::network_type::kWiFi)) {
560     DVLOG(0) << "Missing WiFi properties:" << *properties;
561     *error = kErrorWiFiService;
562     return;
563   }
564 
565   base::DictionaryValue* existing_properties;
566   // If the network properties already exist, don't override previously set
567   // properties, unless they are set in |properties|.
568   if (connect_properties_.GetDictionaryWithoutPathExpansion(
569           network_guid, &existing_properties)) {
570     existing_properties->MergeDictionary(properties.get());
571   } else {
572     connect_properties_.SetWithoutPathExpansion(network_guid,
573                                                 properties.release());
574   }
575 }
576 
CreateNetwork(bool shared,scoped_ptr<base::DictionaryValue> properties,std::string * network_guid,std::string * error)577 void WiFiServiceImpl::CreateNetwork(
578     bool shared,
579     scoped_ptr<base::DictionaryValue> properties,
580     std::string* network_guid,
581     std::string* error) {
582   DWORD error_code = EnsureInitialized();
583   if (CheckError(error_code, kErrorWiFiService, error))
584     return;
585 
586   NetworkProperties network_properties;
587   if (!network_properties.UpdateFromValue(*properties)) {
588     CheckError(ERROR_INVALID_DATA, kErrorWiFiService, error);
589     return;
590   }
591 
592   network_properties.guid = network_properties.ssid;
593   std::string profile_xml;
594   if (!CreateProfile(network_properties, kEncryptionTypeAny, &profile_xml)) {
595     CheckError(ERROR_INVALID_DATA, kErrorWiFiService, error);
596     return;
597   }
598 
599   error_code = SetProfile(shared, profile_xml, false);
600   if (CheckError(error_code, kErrorWiFiService, error)) {
601     DVLOG(0) << profile_xml;
602     return;
603   }
604 
605   // WAP and WAP2 networks could use either AES or TKIP encryption type.
606   // Preserve alternative profile to use in case if connection with default
607   // encryption type fails.
608   std::string tkip_profile_xml;
609   if (!CreateProfile(network_properties,
610                      kEncryptionTypeTKIP,
611                      &tkip_profile_xml)) {
612     CheckError(ERROR_INVALID_DATA, kErrorWiFiService, error);
613     return;
614   }
615 
616   if (tkip_profile_xml != profile_xml) {
617     scoped_ptr<base::DictionaryValue> tkip_profile(new base::DictionaryValue());
618     tkip_profile->SetString(kProfileXmlKey, tkip_profile_xml);
619     tkip_profile->SetBoolean(kProfileSharedKey, shared);
620     created_profiles_.SetWithoutPathExpansion(network_properties.guid,
621                                               tkip_profile.release());
622   }
623 
624   *network_guid = network_properties.guid;
625 }
626 
GetVisibleNetworks(const std::string & network_type,base::ListValue * network_list,bool include_details)627 void WiFiServiceImpl::GetVisibleNetworks(const std::string& network_type,
628                                          base::ListValue* network_list,
629                                          bool include_details) {
630   if (!network_type.empty() &&
631       network_type != onc::network_type::kAllTypes &&
632       network_type != onc::network_type::kWiFi) {
633     return;
634   }
635 
636   DWORD error = EnsureInitialized();
637   if (error == ERROR_SUCCESS) {
638     NetworkList networks;
639     error = GetVisibleNetworkList(&networks);
640     if (error == ERROR_SUCCESS && !networks.empty()) {
641       SortNetworks(&networks);
642       for (NetworkList::const_iterator it = networks.begin();
643            it != networks.end();
644            ++it) {
645         scoped_ptr<base::DictionaryValue> network(
646             it->ToValue(!include_details));
647         network_list->Append(network.release());
648       }
649     }
650   }
651 }
652 
RequestNetworkScan()653 void WiFiServiceImpl::RequestNetworkScan() {
654   DWORD error = EnsureInitialized();
655   if (error == ERROR_SUCCESS) {
656     WlanScan_function_(client_, &interface_guid_, NULL, NULL, NULL);
657   }
658 }
659 
StartConnect(const std::string & network_guid,std::string * error)660 void WiFiServiceImpl::StartConnect(const std::string& network_guid,
661                                    std::string* error) {
662   DVLOG(1) << "Start Connect: " << network_guid;
663   DWORD error_code = EnsureInitialized();
664   if (CheckError(error_code, kErrorWiFiService, error))
665     return;
666 
667   // Check, if the network is already connected on desired frequency.
668   Frequency frequency = GetFrequencyToConnect(network_guid);
669   NetworkProperties properties;
670   GetCurrentProperties(&properties);
671   bool already_connected =
672       network_guid == properties.guid &&
673       properties.connection_state == onc::connection_state::kConnected &&
674       (frequency == kFrequencyAny || frequency == properties.frequency);
675 
676   // Connect only if network |network_guid| is not connected already.
677   if (!already_connected) {
678     SaveCurrentConnectedNetwork(properties);
679     error_code = Connect(network_guid, frequency);
680   }
681   if (error_code == ERROR_SUCCESS) {
682     // Notify that previously connected network has changed.
683     NotifyNetworkChanged(properties.guid);
684     // Start waiting for network connection state change.
685     if (!networks_changed_observer_.is_null()) {
686       DisableNwCategoryWizard();
687       // Disable automatic network change notifications as they get fired
688       // when network is just connected, but not yet accessible (doesn't
689       // have valid IP address).
690       enable_notify_network_changed_ = false;
691       WaitForNetworkConnect(network_guid, 0);
692       return;
693     }
694   } else if (error_code == ERROR_ACCESS_DENIED) {
695     CheckError(error_code, kErrorNotConfigured, error);
696   } else {
697     CheckError(error_code, kErrorWiFiService, error);
698   }
699 }
700 
StartDisconnect(const std::string & network_guid,std::string * error)701 void WiFiServiceImpl::StartDisconnect(const std::string& network_guid,
702                                       std::string* error) {
703   DVLOG(1) << "Start Disconnect: " << network_guid;
704   DWORD error_code = EnsureInitialized();
705   if (CheckError(error_code, kErrorWiFiService, error))
706     return;
707 
708   // Check, if the network is currently connected.
709   NetworkProperties properties;
710   GetCurrentProperties(&properties);
711   if (network_guid == properties.guid) {
712     if (properties.connection_state == onc::connection_state::kConnected)
713       SaveCurrentConnectedNetwork(properties);
714     error_code = Disconnect();
715     if (error_code == ERROR_SUCCESS) {
716       NotifyNetworkChanged(network_guid);
717       return;
718     }
719   }
720   CheckError(error_code, kErrorWiFiService, error);
721 }
722 
GetKeyFromSystem(const std::string & network_guid,std::string * key_data,std::string * error)723 void WiFiServiceImpl::GetKeyFromSystem(const std::string& network_guid,
724                                        std::string* key_data,
725                                        std::string* error) {
726   DWORD error_code = EnsureInitialized();
727   if (CheckError(error_code, kErrorWiFiService, error))
728     return;
729 
730   std::string profile_xml;
731   error_code = GetProfile(network_guid, true, &profile_xml);
732   if (CheckError(error_code, kErrorWiFiService, error))
733     return;
734 
735   const char kSharedKeyElement[] = "sharedKey";
736   const char kProtectedElement[] = "protected";
737   const char kKeyMaterialElement[] = "keyMaterial";
738 
739   // Quick check to verify presence of <sharedKey> element.
740   if (profile_xml.find(kSharedKeyElement) == std::string::npos) {
741     *error = kErrorWiFiService;
742     return;
743   }
744 
745   XmlReader reader;
746   if (reader.Load(profile_xml)) {
747     while (reader.Read()) {
748       reader.SkipToElement();
749       if (reader.NodeName() == kSharedKeyElement) {
750         while (reader.Read()) {
751           reader.SkipToElement();
752           if (reader.NodeName() == kKeyMaterialElement) {
753             reader.ReadElementContent(key_data);
754           } else if (reader.NodeName() == kProtectedElement) {
755             std::string protected_data;
756             reader.ReadElementContent(&protected_data);
757             // Without UAC privilege escalation call to |GetProfile| with
758             // |WLAN_PROFILE_GET_PLAINTEXT_KEY| flag returns success, but has
759             // protected keyMaterial. Report an error in this case.
760             if (protected_data != "false") {
761               *error = kErrorWiFiService;
762               break;
763             }
764           }
765         }
766         return;
767       }
768     }
769   }
770 
771   // Did not find passphrase in the profile.
772   *error = kErrorWiFiService;
773 }
774 
SetEventObservers(scoped_refptr<base::MessageLoopProxy> message_loop_proxy,const NetworkGuidListCallback & networks_changed_observer,const NetworkGuidListCallback & network_list_changed_observer)775 void WiFiServiceImpl::SetEventObservers(
776     scoped_refptr<base::MessageLoopProxy> message_loop_proxy,
777     const NetworkGuidListCallback& networks_changed_observer,
778     const NetworkGuidListCallback& network_list_changed_observer) {
779   DWORD error_code = EnsureInitialized();
780   if (error_code != ERROR_SUCCESS)
781     return;
782   message_loop_proxy_.swap(message_loop_proxy);
783   if (!networks_changed_observer_.is_null() ||
784       !network_list_changed_observer_.is_null()) {
785     // Stop listening to WLAN notifications.
786     WlanRegisterNotification_function_(client_,
787                                        WLAN_NOTIFICATION_SOURCE_NONE,
788                                        FALSE,
789                                        OnWlanNotificationCallback,
790                                        this,
791                                        NULL,
792                                        NULL);
793   }
794   networks_changed_observer_ = networks_changed_observer;
795   network_list_changed_observer_ = network_list_changed_observer;
796   if (!networks_changed_observer_.is_null() ||
797       !network_list_changed_observer_.is_null()) {
798     // Start listening to WLAN notifications.
799     WlanRegisterNotification_function_(client_,
800                                        WLAN_NOTIFICATION_SOURCE_ALL,
801                                        FALSE,
802                                        OnWlanNotificationCallback,
803                                        this,
804                                        NULL,
805                                        NULL);
806   }
807 }
808 
OnWlanNotificationCallback(PWLAN_NOTIFICATION_DATA wlan_notification_data,PVOID context)809 void WiFiServiceImpl::OnWlanNotificationCallback(
810     PWLAN_NOTIFICATION_DATA wlan_notification_data,
811     PVOID context) {
812   WiFiServiceImpl* service = reinterpret_cast<WiFiServiceImpl*>(context);
813   service->OnWlanNotification(wlan_notification_data);
814 }
815 
OnWlanNotification(PWLAN_NOTIFICATION_DATA wlan_notification_data)816 void WiFiServiceImpl::OnWlanNotification(
817     PWLAN_NOTIFICATION_DATA wlan_notification_data) {
818   if (message_loop_proxy_ == NULL)
819     return;
820   switch (wlan_notification_data->NotificationCode) {
821     case wlan_notification_acm_disconnected:
822     case wlan_notification_acm_connection_complete:
823     case wlan_notification_acm_connection_attempt_fail: {
824       PWLAN_CONNECTION_NOTIFICATION_DATA wlan_connection_data =
825           reinterpret_cast<PWLAN_CONNECTION_NOTIFICATION_DATA>(
826               wlan_notification_data->pData);
827       message_loop_proxy_->PostTask(
828           FROM_HERE,
829           base::Bind(&WiFiServiceImpl::NotifyNetworkChanged,
830                      base::Unretained(this),
831                      GUIDFromSSID(wlan_connection_data->dot11Ssid)));
832       break;
833     }
834     case wlan_notification_acm_scan_complete:
835     case wlan_notification_acm_interface_removal:
836       message_loop_proxy_->PostTask(
837           FROM_HERE,
838           base::Bind(&WiFiServiceImpl::OnNetworkScanCompleteOnMainThread,
839                      base::Unretained(this)));
840       break;
841   }
842 }
843 
OnNetworkScanCompleteOnMainThread()844 void WiFiServiceImpl::OnNetworkScanCompleteOnMainThread() {
845   NetworkList networks;
846   // Get current list of visible networks and notify that network list has
847   // changed.
848   DWORD error = GetVisibleNetworkList(&networks);
849   if (error != ERROR_SUCCESS)
850     networks.clear();
851   NotifyNetworkListChanged(networks);
852 }
853 
WaitForNetworkConnect(const std::string & network_guid,int attempt)854 void WiFiServiceImpl::WaitForNetworkConnect(const std::string& network_guid,
855                                             int attempt) {
856   // If network didn't get connected in |kMaxAttempts|, then try to connect
857   // using different profile if it was created recently.
858   if (attempt > kMaxAttempts) {
859     LOG(ERROR) << kMaxAttempts << " attempts exceeded waiting for connect to "
860                << network_guid;
861 
862     base::DictionaryValue* created_profile = NULL;
863     // Check, whether this connection is using newly created profile.
864     if (created_profiles_.GetDictionaryWithoutPathExpansion(
865         network_guid, &created_profile)) {
866       std::string tkip_profile_xml;
867       bool shared = false;
868       // Check, if this connection there is alternative TKIP profile xml that
869       // should be tried. If there is, then set it up and try to connect again.
870       if (created_profile->GetString(kProfileXmlKey, &tkip_profile_xml) &&
871           created_profile->GetBoolean(kProfileSharedKey, &shared)) {
872         // Remove TKIP profile xml, so it will not be tried again.
873         created_profile->Remove(kProfileXmlKey, NULL);
874         created_profile->Remove(kProfileSharedKey, NULL);
875         DWORD error_code = SetProfile(shared, tkip_profile_xml, true);
876         if (error_code == ERROR_SUCCESS) {
877           // Try to connect with new profile.
878           error_code = Connect(network_guid,
879                                GetFrequencyToConnect(network_guid));
880           if (error_code == ERROR_SUCCESS) {
881             // Start waiting again.
882             WaitForNetworkConnect(network_guid, 0);
883             return;
884           } else {
885             LOG(ERROR) << "Failed to set created profile for " << network_guid
886                        << " error=" << error_code;
887           }
888         }
889       } else {
890         // Connection has failed, so delete bad created profile.
891         DWORD error_code = DeleteCreatedProfile(network_guid);
892         if (error_code != ERROR_SUCCESS) {
893           LOG(ERROR) << "Failed to delete created profile for " << network_guid
894                      << " error=" << error_code;
895         }
896       }
897     }
898     // Restore automatic network change notifications and stop waiting.
899     enable_notify_network_changed_ = true;
900     RestoreNwCategoryWizard();
901     return;
902   }
903   NetworkProperties current_properties;
904   DWORD error = GetCurrentProperties(&current_properties);
905   if (network_guid == current_properties.guid &&
906       current_properties.connection_state ==
907           onc::connection_state::kConnected) {
908     DVLOG(1) << "WiFi Connected, Reset DHCP: " << network_guid;
909     // Even though wireless network is now connected, it may still be unusable,
910     // e.g. after Chromecast device reset. Reset DHCP on wireless network to
911     // work around this issue.
912     error = ResetDHCP();
913     if (error != ERROR_SUCCESS)
914       LOG(ERROR) << error;
915     // There is no need to keep created profile as network is connected.
916     created_profiles_.RemoveWithoutPathExpansion(network_guid, NULL);
917     // Restore previously suppressed notifications.
918     enable_notify_network_changed_ = true;
919     RestoreNwCategoryWizard();
920     NotifyNetworkChanged(network_guid);
921   } else {
922     // Continue waiting for network connection state change.
923     task_runner_->PostDelayedTask(
924         FROM_HERE,
925         base::Bind(&WiFiServiceImpl::WaitForNetworkConnect,
926                    base::Unretained(this),
927                    network_guid,
928                    ++attempt),
929         base::TimeDelta::FromMilliseconds(kAttemptDelayMs));
930   }
931 }
932 
CheckError(DWORD error_code,const std::string & error_name,std::string * error) const933 bool WiFiServiceImpl::CheckError(DWORD error_code,
934                                  const std::string& error_name,
935                                  std::string* error) const {
936   if (error_code != ERROR_SUCCESS) {
937     DLOG(ERROR) << "WiFiService Error " << error_code << ": " << error_name;
938     *error = error_name;
939     return true;
940   }
941   return false;
942 }
943 
FindNetwork(NetworkList & networks,const std::string & network_guid)944 NetworkList::iterator WiFiServiceImpl::FindNetwork(
945     NetworkList& networks,
946     const std::string& network_guid) {
947   for (NetworkList::iterator it = networks.begin(); it != networks.end();
948        ++it) {
949     if (it->guid == network_guid)
950       return it;
951   }
952   return networks.end();
953 }
954 
SaveCurrentConnectedNetwork(const NetworkProperties & current_properties)955 DWORD WiFiServiceImpl::SaveCurrentConnectedNetwork(
956     const NetworkProperties& current_properties) {
957   DWORD error = ERROR_SUCCESS;
958   // Save currently connected network.
959   if (!current_properties.guid.empty() &&
960       current_properties.connection_state ==
961           onc::connection_state::kConnected) {
962     error = SaveTempProfile(current_properties.guid);
963   }
964   return error;
965 }
966 
SortNetworks(NetworkList * networks)967 void WiFiServiceImpl::SortNetworks(NetworkList* networks) {
968   networks->sort(NetworkProperties::OrderByType);
969 }
970 
LoadWlanLibrary()971 DWORD WiFiServiceImpl::LoadWlanLibrary() {
972   // Use an absolute path to load the DLL to avoid DLL preloading attacks.
973   base::FilePath path;
974   if (!PathService::Get(base::DIR_SYSTEM, &path)) {
975     LOG(ERROR) << "Unable to get system path.";
976     return ERROR_NOT_FOUND;
977   }
978   wlan_api_library_ = ::LoadLibraryEx(path.Append(kWlanApiDll).value().c_str(),
979                                       NULL,
980                                       LOAD_WITH_ALTERED_SEARCH_PATH);
981   if (!wlan_api_library_) {
982     LOG(ERROR) << "Unable to load WlanApi.dll.";
983     return ERROR_NOT_FOUND;
984   }
985 
986   // Initialize WlanApi function pointers
987   WlanConnect_function_ =
988       reinterpret_cast<WlanConnectFunction>(
989           ::GetProcAddress(wlan_api_library_, kWlanConnect));
990   WlanCloseHandle_function_ =
991       reinterpret_cast<WlanCloseHandleFunction>(
992           ::GetProcAddress(wlan_api_library_, kWlanCloseHandle));
993   WlanDeleteProfile_function_ =
994       reinterpret_cast<WlanDeleteProfileFunction>(
995           ::GetProcAddress(wlan_api_library_, kWlanDeleteProfile));
996   WlanDisconnect_function_ =
997       reinterpret_cast<WlanDisconnectFunction>(
998           ::GetProcAddress(wlan_api_library_, kWlanDisconnect));
999   WlanEnumInterfaces_function_ =
1000       reinterpret_cast<WlanEnumInterfacesFunction>(
1001           ::GetProcAddress(wlan_api_library_, kWlanEnumInterfaces));
1002   WlanFreeMemory_function_ =
1003       reinterpret_cast<WlanFreeMemoryFunction>(
1004           ::GetProcAddress(wlan_api_library_, kWlanFreeMemory));
1005   WlanGetAvailableNetworkList_function_ =
1006       reinterpret_cast<WlanGetAvailableNetworkListFunction>(
1007           ::GetProcAddress(wlan_api_library_, kWlanGetAvailableNetworkList));
1008   WlanGetNetworkBssList_function_ =
1009       reinterpret_cast<WlanGetNetworkBssListFunction>(
1010           ::GetProcAddress(wlan_api_library_, kWlanGetNetworkBssList));
1011   WlanGetProfile_function_ =
1012       reinterpret_cast<WlanGetProfileFunction>(
1013           ::GetProcAddress(wlan_api_library_, kWlanGetProfile));
1014   WlanOpenHandle_function_ =
1015       reinterpret_cast<WlanOpenHandleFunction>(
1016           ::GetProcAddress(wlan_api_library_, kWlanOpenHandle));
1017   WlanQueryInterface_function_ =
1018       reinterpret_cast<WlanQueryInterfaceFunction>(
1019           ::GetProcAddress(wlan_api_library_, kWlanQueryInterface));
1020   WlanRegisterNotification_function_ =
1021       reinterpret_cast<WlanRegisterNotificationFunction>(
1022           ::GetProcAddress(wlan_api_library_, kWlanRegisterNotification));
1023   WlanSaveTemporaryProfile_function_ =
1024       reinterpret_cast<WlanSaveTemporaryProfileFunction>(
1025           ::GetProcAddress(wlan_api_library_, kWlanSaveTemporaryProfile));
1026   WlanScan_function_ =
1027       reinterpret_cast<WlanScanFunction>(
1028           ::GetProcAddress(wlan_api_library_, kWlanScan));
1029   WlanSetProfile_function_ =
1030       reinterpret_cast<WlanSetProfileFunction>(
1031           ::GetProcAddress(wlan_api_library_, kWlanSetProfile));
1032 
1033   if (!WlanConnect_function_ ||
1034       !WlanCloseHandle_function_ ||
1035       !WlanDeleteProfile_function_ ||
1036       !WlanDisconnect_function_ ||
1037       !WlanEnumInterfaces_function_ ||
1038       !WlanFreeMemory_function_ ||
1039       !WlanGetAvailableNetworkList_function_ ||
1040       !WlanGetProfile_function_ ||
1041       !WlanOpenHandle_function_ ||
1042       !WlanQueryInterface_function_ ||
1043       !WlanRegisterNotification_function_ ||
1044       !WlanScan_function_ ||
1045       !WlanSetProfile_function_) {
1046     LOG(ERROR) << "Unable to find required WlanApi function.";
1047     FreeLibrary(wlan_api_library_);
1048     wlan_api_library_ = NULL;
1049     return ERROR_NOT_FOUND;
1050   }
1051 
1052   // Some WlanApi functions may not be available on XP.
1053   if (!WlanGetNetworkBssList_function_ ||
1054       !WlanSaveTemporaryProfile_function_) {
1055     DVLOG(1) << "WlanApi function is not be available on XP.";
1056   }
1057 
1058   return ERROR_SUCCESS;
1059 }
1060 
OpenClientHandle()1061 DWORD WiFiServiceImpl::OpenClientHandle() {
1062   DWORD error = LoadWlanLibrary();
1063   DWORD service_version = 0;
1064 
1065   if (error != ERROR_SUCCESS)
1066     return error;
1067 
1068   // Open a handle to the service.
1069   error = WlanOpenHandle_function_(1, NULL, &service_version, &client_);
1070 
1071   PWLAN_INTERFACE_INFO_LIST interface_list = NULL;
1072   if (error == ERROR_SUCCESS) {
1073     // Enumerate wireless interfaces.
1074     error = WlanEnumInterfaces_function_(client_, NULL, &interface_list);
1075     if (error == ERROR_SUCCESS) {
1076       if (interface_list != NULL && interface_list->dwNumberOfItems != 0) {
1077         // Remember first interface just in case if none are connected.
1078         interface_guid_ = interface_list->InterfaceInfo[0].InterfaceGuid;
1079         // Try to find a connected interface.
1080         for (DWORD itf = 0; itf < interface_list->dwNumberOfItems; ++itf) {
1081           if (interface_list->InterfaceInfo[itf].isState ==
1082               wlan_interface_state_connected) {
1083             // Found connected interface, remember it!
1084             interface_guid_ = interface_list->InterfaceInfo[itf].InterfaceGuid;
1085             break;
1086           }
1087         }
1088       } else {
1089         error = ERROR_NOINTERFACE;
1090       }
1091     }
1092     // Clean up..
1093     if (interface_list != NULL)
1094       WlanFreeMemory_function_(interface_list);
1095   }
1096   return error;
1097 }
1098 
ResetDHCP()1099 DWORD WiFiServiceImpl::ResetDHCP() {
1100   IP_ADAPTER_INDEX_MAP adapter_index_map = {0};
1101   DWORD error = FindAdapterIndexMapByGUID(interface_guid_, &adapter_index_map);
1102   if (error != ERROR_SUCCESS) {
1103     LOG(ERROR) << error;
1104     return error;
1105   }
1106   error = ::IpReleaseAddress(&adapter_index_map);
1107   if (error != ERROR_SUCCESS) {
1108     if (error != ERROR_ADDRESS_NOT_ASSOCIATED) {
1109       LOG(ERROR) << error;
1110       return error;
1111     }
1112     DVLOG(1) << "Ignoring IpReleaseAddress Error: " << error;
1113   }
1114   error = ::IpRenewAddress(&adapter_index_map);
1115   if (error != ERROR_SUCCESS)
1116     LOG(ERROR) << error;
1117   return error;
1118 }
1119 
FindAdapterIndexMapByGUID(const GUID & interface_guid,IP_ADAPTER_INDEX_MAP * adapter_index_map)1120 DWORD WiFiServiceImpl::FindAdapterIndexMapByGUID(
1121     const GUID& interface_guid,
1122     IP_ADAPTER_INDEX_MAP* adapter_index_map) {
1123   base::string16 guid_string;
1124   const int kGUIDSize = 39;
1125   ::StringFromGUID2(
1126       interface_guid, WriteInto(&guid_string, kGUIDSize), kGUIDSize);
1127 
1128   ULONG buffer_length = 0;
1129   DWORD error = ::GetInterfaceInfo(NULL, &buffer_length);
1130   if (error == ERROR_INSUFFICIENT_BUFFER) {
1131     scoped_ptr<unsigned char[]> buffer(new unsigned char[buffer_length]);
1132     IP_INTERFACE_INFO* interface_info =
1133         reinterpret_cast<IP_INTERFACE_INFO*>(buffer.get());
1134     error = GetInterfaceInfo(interface_info, &buffer_length);
1135     if (error == ERROR_SUCCESS) {
1136       for (int adapter = 0; adapter < interface_info->NumAdapters; ++adapter) {
1137         if (EndsWith(
1138                 interface_info->Adapter[adapter].Name, guid_string, false)) {
1139           *adapter_index_map = interface_info->Adapter[adapter];
1140           break;
1141         }
1142       }
1143     }
1144   }
1145   return error;
1146 }
1147 
DisableNwCategoryWizard()1148 DWORD WiFiServiceImpl::DisableNwCategoryWizard() {
1149   base::win::RegKey nw_category_wizard;
1150   DWORD error = nw_category_wizard.Open(HKEY_CURRENT_USER,
1151                                         kNwCategoryWizardRegKey,
1152                                         KEY_READ | KEY_SET_VALUE);
1153   if (error == ERROR_SUCCESS) {
1154     // Save current value if present.
1155     if (nw_category_wizard.HasValue(kNwCategoryWizardRegValue)) {
1156       DWORD saved = 0u;
1157       error = nw_category_wizard.ReadValueDW(kNwCategoryWizardRegValue,
1158                                              &saved);
1159       if (error == ERROR_SUCCESS) {
1160         error = nw_category_wizard.WriteValue(kNwCategoryWizardSavedRegValue,
1161                                               saved);
1162       }
1163     } else {
1164       // Mark that temporary value has to be deleted.
1165       error = nw_category_wizard.WriteValue(kNwCategoryWizardDeleteRegValue,
1166                                             1u);
1167     }
1168 
1169     // Disable network location wizard.
1170     error = nw_category_wizard.WriteValue(kNwCategoryWizardRegValue,
1171                                           static_cast<DWORD>(0));
1172   }
1173 
1174   return error;
1175 }
1176 
RestoreNwCategoryWizard()1177 DWORD WiFiServiceImpl::RestoreNwCategoryWizard() {
1178   base::win::RegKey nw_category_wizard;
1179   DWORD error = nw_category_wizard.Open(HKEY_CURRENT_USER,
1180                                         kNwCategoryWizardRegKey,
1181                                         KEY_SET_VALUE);
1182   if (error == ERROR_SUCCESS) {
1183     // Restore saved value if present.
1184     if (nw_category_wizard.HasValue(kNwCategoryWizardSavedRegValue)) {
1185       DWORD saved = 0u;
1186       error = nw_category_wizard.ReadValueDW(kNwCategoryWizardSavedRegValue,
1187                                              &saved);
1188       if (error == ERROR_SUCCESS) {
1189         error = nw_category_wizard.WriteValue(kNwCategoryWizardRegValue,
1190                                               saved);
1191         error = nw_category_wizard.DeleteValue(kNwCategoryWizardSavedRegValue);
1192       }
1193     } else if (nw_category_wizard.HasValue(kNwCategoryWizardDeleteRegValue)) {
1194       error = nw_category_wizard.DeleteValue(kNwCategoryWizardRegValue);
1195       error = nw_category_wizard.DeleteValue(kNwCategoryWizardDeleteRegValue);
1196     }
1197   }
1198 
1199   return error;
1200 }
1201 
EnsureInitialized()1202 DWORD WiFiServiceImpl::EnsureInitialized() {
1203   if (client_ != NULL)
1204     return ERROR_SUCCESS;
1205   return ERROR_NOINTERFACE;
1206 }
1207 
CloseClientHandle()1208 DWORD WiFiServiceImpl::CloseClientHandle() {
1209   DWORD error = ERROR_SUCCESS;
1210   if (client_ != NULL) {
1211     error = WlanCloseHandle_function_(client_, NULL);
1212     client_ = NULL;
1213   }
1214   if (wlan_api_library_ != NULL) {
1215     WlanConnect_function_ = NULL;
1216     WlanCloseHandle_function_ = NULL;
1217     WlanDeleteProfile_function_ = NULL;
1218     WlanDisconnect_function_ = NULL;
1219     WlanEnumInterfaces_function_ = NULL;
1220     WlanFreeMemory_function_ = NULL;
1221     WlanGetAvailableNetworkList_function_ = NULL;
1222     WlanGetNetworkBssList_function_ = NULL;
1223     WlanGetProfile_function_ = NULL;
1224     WlanOpenHandle_function_ = NULL;
1225     WlanRegisterNotification_function_ = NULL;
1226     WlanSaveTemporaryProfile_function_ = NULL;
1227     WlanScan_function_ = NULL;
1228     WlanSetProfile_function_ = NULL;
1229     ::FreeLibrary(wlan_api_library_);
1230     wlan_api_library_ = NULL;
1231   }
1232   return error;
1233 }
1234 
SSIDFromGUID(const std::string & network_guid) const1235 DOT11_SSID WiFiServiceImpl::SSIDFromGUID(
1236     const std::string& network_guid) const {
1237   DOT11_SSID ssid = {0};
1238   if (network_guid.length() <= DOT11_SSID_MAX_LENGTH) {
1239     ssid.uSSIDLength = static_cast<ULONG>(network_guid.length());
1240     strncpy(reinterpret_cast<char*>(ssid.ucSSID),
1241             network_guid.c_str(),
1242             ssid.uSSIDLength);
1243   } else {
1244     NOTREACHED();
1245   }
1246   return ssid;
1247 }
1248 
SecurityFromDot11AuthAlg(DOT11_AUTH_ALGORITHM alg) const1249 std::string WiFiServiceImpl::SecurityFromDot11AuthAlg(
1250     DOT11_AUTH_ALGORITHM alg) const {
1251   switch (alg) {
1252     case DOT11_AUTH_ALGO_RSNA:
1253       return onc::wifi::kWPA_EAP;
1254     case DOT11_AUTH_ALGO_RSNA_PSK:
1255       return onc::wifi::kWPA_PSK;
1256     case DOT11_AUTH_ALGO_80211_SHARED_KEY:
1257       return onc::wifi::kWEP_PSK;
1258     case DOT11_AUTH_ALGO_80211_OPEN:
1259       return onc::wifi::kNone;
1260     default:
1261       return onc::wifi::kWPA_EAP;
1262   }
1263 }
1264 
ConnectionStateFromInterfaceState(WLAN_INTERFACE_STATE wlan_state) const1265 std::string WiFiServiceImpl::ConnectionStateFromInterfaceState(
1266     WLAN_INTERFACE_STATE wlan_state) const {
1267   switch (wlan_state) {
1268     case wlan_interface_state_connected:
1269       // TODO(mef): Even if |wlan_state| is connected, the network may still
1270       // not be reachable, and should be resported as |kConnecting|.
1271       return onc::connection_state::kConnected;
1272     case wlan_interface_state_associating:
1273     case wlan_interface_state_discovering:
1274     case wlan_interface_state_authenticating:
1275       return onc::connection_state::kConnecting;
1276     default:
1277       return onc::connection_state::kNotConnected;
1278   }
1279 }
1280 
NetworkPropertiesFromAvailableNetwork(const WLAN_AVAILABLE_NETWORK & wlan,NetworkProperties * properties)1281 void WiFiServiceImpl::NetworkPropertiesFromAvailableNetwork(
1282     const WLAN_AVAILABLE_NETWORK& wlan,
1283     NetworkProperties* properties) {
1284   // TODO(mef): It would be nice for the connection states in
1285   // getVisibleNetworks and getProperties results to be consistent.
1286   if (wlan.dwFlags & WLAN_AVAILABLE_NETWORK_CONNECTED) {
1287     properties->connection_state = onc::connection_state::kConnected;
1288   } else {
1289     properties->connection_state = onc::connection_state::kNotConnected;
1290   }
1291 
1292   properties->ssid = SSIDFromWLAN(wlan);
1293   properties->name = properties->ssid;
1294   properties->guid = GUIDFromWLAN(wlan);
1295   properties->type = onc::network_type::kWiFi;
1296   properties->security =
1297       SecurityFromDot11AuthAlg(wlan.dot11DefaultAuthAlgorithm);
1298   properties->signal_strength = wlan.wlanSignalQuality;
1299 }
1300 
UpdateNetworkPropertiesFromBssList(const std::string & network_guid,const WLAN_BSS_LIST & wlan_bss_list,NetworkProperties * properties)1301 void WiFiServiceImpl::UpdateNetworkPropertiesFromBssList(
1302     const std::string& network_guid,
1303     const WLAN_BSS_LIST& wlan_bss_list,
1304     NetworkProperties* properties) {
1305   if (network_guid.empty())
1306     return;
1307 
1308   DOT11_SSID ssid = SSIDFromGUID(network_guid);
1309   for (size_t bss = 0; bss < wlan_bss_list.dwNumberOfItems; ++bss) {
1310     const WLAN_BSS_ENTRY& bss_entry(wlan_bss_list.wlanBssEntries[bss]);
1311     if (bss_entry.dot11Ssid.uSSIDLength == ssid.uSSIDLength &&
1312         0 == memcmp(bss_entry.dot11Ssid.ucSSID,
1313                     ssid.ucSSID,
1314                     bss_entry.dot11Ssid.uSSIDLength)) {
1315       std::string bssid = NetworkProperties::MacAddressAsString(
1316           bss_entry.dot11Bssid);
1317       Frequency frequency = GetNormalizedFrequency(
1318           bss_entry.ulChCenterFrequency / 1000);
1319       properties->frequency_set.insert(frequency);
1320       if (properties->bssid.empty() || properties->bssid == bssid) {
1321         properties->frequency = frequency;
1322         properties->bssid = bssid;
1323       }
1324     }
1325   }
1326 }
1327 
1328 // Get the list of visible wireless networks
GetVisibleNetworkList(NetworkList * network_list)1329 DWORD WiFiServiceImpl::GetVisibleNetworkList(NetworkList* network_list) {
1330   if (client_ == NULL) {
1331     NOTREACHED();
1332     return ERROR_NOINTERFACE;
1333   }
1334 
1335   DWORD error = ERROR_SUCCESS;
1336   PWLAN_AVAILABLE_NETWORK_LIST available_network_list = NULL;
1337   PWLAN_BSS_LIST bss_list = NULL;
1338 
1339   error = WlanGetAvailableNetworkList_function_(
1340       client_,
1341       &interface_guid_,
1342       WLAN_AVAILABLE_NETWORK_INCLUDE_ALL_MANUAL_HIDDEN_PROFILES,
1343       NULL,
1344       &available_network_list);
1345 
1346   std::set<std::string> network_guids;
1347 
1348   if (error == ERROR_SUCCESS &&
1349       available_network_list &&
1350       WlanGetNetworkBssList_function_) {
1351     // TODO(mef): WlanGetNetworkBssList is not available on XP. If XP support is
1352     // needed, then different method of getting BSS (e.g. OID query) will have
1353     // to be used.
1354     error = WlanGetNetworkBssList_function_(client_,
1355                                             &interface_guid_,
1356                                             NULL,
1357                                             dot11_BSS_type_any,
1358                                             FALSE,
1359                                             NULL,
1360                                             &bss_list);
1361     if (error == ERROR_SUCCESS && NULL != bss_list) {
1362       for (DWORD i = 0; i < available_network_list->dwNumberOfItems; ++i) {
1363         NetworkProperties network_properties;
1364         NetworkPropertiesFromAvailableNetwork(
1365             available_network_list->Network[i],
1366             &network_properties);
1367         UpdateNetworkPropertiesFromBssList(network_properties.guid,
1368                                            *bss_list,
1369                                            &network_properties);
1370         // Check for duplicate network guids.
1371         if (network_guids.count(network_properties.guid)) {
1372           // There should be no difference between properties except for
1373           // |connection_state|, so mark it as |kConnected| if either one is.
1374           if (network_properties.connection_state ==
1375               onc::connection_state::kConnected) {
1376             NetworkList::iterator previous_network_properties =
1377                 FindNetwork(*network_list, network_properties.guid);
1378             DCHECK(previous_network_properties != network_list->end());
1379             previous_network_properties->connection_state =
1380                 network_properties.connection_state;
1381           }
1382         } else {
1383           network_list->push_back(network_properties);
1384         }
1385         network_guids.insert(network_properties.guid);
1386       }
1387     }
1388   }
1389 
1390   // Clean up.
1391   if (available_network_list != NULL) {
1392     WlanFreeMemory_function_(available_network_list);
1393   }
1394   if (bss_list != NULL) {
1395     WlanFreeMemory_function_(bss_list);
1396   }
1397   return error;
1398 }
1399 
GetCurrentProperties(NetworkProperties * properties)1400 DWORD WiFiServiceImpl::GetCurrentProperties(NetworkProperties* properties) {
1401   if (client_ == NULL) {
1402     NOTREACHED();
1403     return ERROR_NOINTERFACE;
1404   }
1405 
1406   // TODO(mef): WlanGetNetworkBssList is not available on XP. If XP support is
1407   // needed, then different method of getting BSS (e.g. OID query) will have
1408   // to be used.
1409   if (WlanGetNetworkBssList_function_ == NULL)
1410     return ERROR_NOINTERFACE;
1411 
1412   DWORD error = ERROR_SUCCESS;
1413   DWORD data_size = 0;
1414   PWLAN_CONNECTION_ATTRIBUTES wlan_connection_attributes = NULL;
1415   PWLAN_BSS_LIST bss_list = NULL;
1416   error = WlanQueryInterface_function_(
1417       client_,
1418       &interface_guid_,
1419       wlan_intf_opcode_current_connection,
1420       NULL,
1421       &data_size,
1422       reinterpret_cast<PVOID*>(&wlan_connection_attributes),
1423       NULL);
1424   if (error == ERROR_SUCCESS &&
1425       wlan_connection_attributes != NULL) {
1426     WLAN_ASSOCIATION_ATTRIBUTES& connected_wlan =
1427         wlan_connection_attributes->wlanAssociationAttributes;
1428 
1429     properties->connection_state = ConnectionStateFromInterfaceState(
1430         wlan_connection_attributes->isState);
1431     properties->ssid = GUIDFromSSID(connected_wlan.dot11Ssid);
1432     properties->name = properties->ssid;
1433     properties->guid = GUIDFromSSID(connected_wlan.dot11Ssid);
1434     properties->type = onc::network_type::kWiFi;
1435     properties->bssid = NetworkProperties::MacAddressAsString(
1436         connected_wlan.dot11Bssid);
1437     properties->security = SecurityFromDot11AuthAlg(
1438         wlan_connection_attributes->wlanSecurityAttributes.dot11AuthAlgorithm);
1439     properties->signal_strength = connected_wlan.wlanSignalQuality;
1440 
1441     error = WlanGetNetworkBssList_function_(client_,
1442                                             &interface_guid_,
1443                                             &connected_wlan.dot11Ssid,
1444                                             connected_wlan.dot11BssType,
1445                                             FALSE,
1446                                             NULL,
1447                                             &bss_list);
1448     if (error == ERROR_SUCCESS && NULL != bss_list) {
1449       UpdateNetworkPropertiesFromBssList(properties->guid,
1450                                          *bss_list,
1451                                          properties);
1452     }
1453   }
1454 
1455   // Clean up.
1456   if (wlan_connection_attributes != NULL)
1457     WlanFreeMemory_function_(wlan_connection_attributes);
1458 
1459   if (bss_list != NULL)
1460     WlanFreeMemory_function_(bss_list);
1461 
1462   return error;
1463 }
1464 
GetFrequencyToConnect(const std::string & network_guid) const1465 Frequency WiFiServiceImpl::GetFrequencyToConnect(
1466     const std::string& network_guid) const {
1467   // Check whether desired frequency is set in |connect_properties_|.
1468   const base::DictionaryValue* properties;
1469   const base::DictionaryValue* wifi;
1470   int frequency;
1471   if (connect_properties_.GetDictionaryWithoutPathExpansion(
1472           network_guid, &properties) &&
1473       properties->GetDictionary(onc::network_type::kWiFi, &wifi) &&
1474       wifi->GetInteger(onc::wifi::kFrequency, &frequency)) {
1475     return GetNormalizedFrequency(frequency);
1476   }
1477   return kFrequencyAny;
1478 }
1479 
GetDesiredBssList(DOT11_SSID & ssid,Frequency frequency,scoped_ptr<DOT11_BSSID_LIST> * desired_list)1480 DWORD WiFiServiceImpl::GetDesiredBssList(
1481     DOT11_SSID& ssid,
1482     Frequency frequency,
1483     scoped_ptr<DOT11_BSSID_LIST>* desired_list) {
1484   if (client_ == NULL) {
1485     NOTREACHED();
1486     return ERROR_NOINTERFACE;
1487   }
1488 
1489   desired_list->reset();
1490 
1491   if (frequency == kFrequencyAny)
1492     return ERROR_SUCCESS;
1493 
1494   // TODO(mef): WlanGetNetworkBssList is not available on XP. If XP support is
1495   // needed, then different method of getting BSS (e.g. OID query) will have
1496   // to be used.
1497   if (!WlanGetNetworkBssList_function_)
1498     return ERROR_NOT_SUPPORTED;
1499 
1500   DWORD error = ERROR_SUCCESS;
1501   PWLAN_BSS_LIST bss_list = NULL;
1502 
1503   error = WlanGetNetworkBssList_function_(client_,
1504                                           &interface_guid_,
1505                                           &ssid,
1506                                           dot11_BSS_type_infrastructure,
1507                                           FALSE,
1508                                           NULL,
1509                                           &bss_list);
1510   if (error == ERROR_SUCCESS && NULL != bss_list) {
1511     unsigned int best_quality = 0u;
1512     size_t best_index = 0;
1513     Frequency bss_frequency;
1514 
1515     // Go through bss_list and find best quality BSSID with matching frequency.
1516     for (size_t bss = 0; bss < bss_list->dwNumberOfItems; ++bss) {
1517       const WLAN_BSS_ENTRY& bss_entry(bss_list->wlanBssEntries[bss]);
1518       if (bss_entry.dot11Ssid.uSSIDLength != ssid.uSSIDLength ||
1519           0 != memcmp(bss_entry.dot11Ssid.ucSSID,
1520                       ssid.ucSSID,
1521                       bss_entry.dot11Ssid.uSSIDLength))
1522         continue;
1523 
1524       bss_frequency = GetNormalizedFrequency(
1525           bss_entry.ulChCenterFrequency / 1000);
1526       if (bss_frequency == frequency &&
1527           bss_entry.uLinkQuality > best_quality) {
1528         best_quality = bss_entry.uLinkQuality;
1529         best_index = bss;
1530       }
1531     }
1532 
1533     // If any matching BSS were found, prepare the header.
1534     if (best_quality > 0) {
1535       const WLAN_BSS_ENTRY& bss_entry(bss_list->wlanBssEntries[best_index]);
1536       scoped_ptr<DOT11_BSSID_LIST> selected_list(new DOT11_BSSID_LIST);
1537 
1538       selected_list->Header.Revision = DOT11_BSSID_LIST_REVISION_1;
1539       selected_list->Header.Size = sizeof(DOT11_BSSID_LIST);
1540       selected_list->Header.Type = NDIS_OBJECT_TYPE_DEFAULT;
1541       selected_list->uNumOfEntries = 1;
1542       selected_list->uTotalNumOfEntries = 1;
1543       std::copy(bss_entry.dot11Bssid,
1544                 bss_entry.dot11Bssid+sizeof(bss_entry.dot11Bssid),
1545                 selected_list->BSSIDs[0]);
1546       desired_list->swap(selected_list);
1547       DVLOG(1) << "Quality: " << best_quality << " BSS: "
1548           << NetworkProperties::MacAddressAsString(bss_entry.dot11Bssid);
1549     } else {
1550       error = ERROR_NOT_FOUND;
1551     }
1552   }
1553 
1554   // Clean up.
1555   if (bss_list != NULL) {
1556     WlanFreeMemory_function_(bss_list);
1557   }
1558   return error;
1559 }
1560 
GetNormalizedFrequency(int frequency_in_mhz) const1561 Frequency WiFiServiceImpl::GetNormalizedFrequency(int frequency_in_mhz) const {
1562   if (frequency_in_mhz == 0)
1563     return kFrequencyAny;
1564   if (frequency_in_mhz < 3000)
1565     return kFrequency2400;
1566   return kFrequency5000;
1567 }
1568 
Connect(const std::string & network_guid,Frequency frequency)1569 DWORD WiFiServiceImpl::Connect(const std::string& network_guid,
1570                                Frequency frequency) {
1571   if (client_ == NULL) {
1572     NOTREACHED();
1573     return ERROR_NOINTERFACE;
1574   }
1575 
1576   DWORD error = ERROR_SUCCESS;
1577   DOT11_SSID ssid = SSIDFromGUID(network_guid);
1578   scoped_ptr<DOT11_BSSID_LIST> desired_bss_list;
1579   error = GetDesiredBssList(ssid, frequency, &desired_bss_list);
1580   if (error == ERROR_SUCCESS) {
1581     if (HaveProfile(network_guid)) {
1582       base::string16 profile_name = ProfileNameFromGUID(network_guid);
1583       WLAN_CONNECTION_PARAMETERS wlan_params = {
1584           wlan_connection_mode_profile,
1585           profile_name.c_str(),
1586           NULL,
1587           desired_bss_list.get(),
1588           dot11_BSS_type_any,
1589           0};
1590       error = WlanConnect_function_(
1591           client_, &interface_guid_, &wlan_params, NULL);
1592     } else {
1593       // If network is available, but is not open security, then it cannot be
1594       // connected without profile, so return 'access denied' error.
1595       scoped_ptr<base::DictionaryValue> properties (new base::DictionaryValue);
1596       const base::DictionaryValue* wifi;
1597       std::string wifi_security;
1598       std::string error_string;
1599       GetProperties(network_guid, properties.get(), &error_string);
1600       if (error_string.empty() &&
1601           properties->GetDictionary(onc::network_type::kWiFi, &wifi) &&
1602           wifi->GetString(onc::wifi::kSecurity, &wifi_security) &&
1603           wifi_security != onc::wifi::kNone) {
1604         error = ERROR_ACCESS_DENIED;
1605         LOG(ERROR) << error;
1606         return error;
1607       }
1608       WLAN_CONNECTION_PARAMETERS wlan_params = {
1609           wlan_connection_mode_discovery_unsecure,
1610           NULL,
1611           &ssid,
1612           desired_bss_list.get(),
1613           dot11_BSS_type_infrastructure,
1614           0};
1615       error = WlanConnect_function_(
1616           client_, &interface_guid_, &wlan_params, NULL);
1617     }
1618   }
1619 
1620   return error;
1621 }
1622 
Disconnect()1623 DWORD WiFiServiceImpl::Disconnect() {
1624   if (client_ == NULL) {
1625     NOTREACHED();
1626     return ERROR_NOINTERFACE;
1627   }
1628 
1629   DWORD error = ERROR_SUCCESS;
1630   error = WlanDisconnect_function_(client_, &interface_guid_, NULL);
1631   return error;
1632 }
1633 
SaveTempProfile(const std::string & network_guid)1634 DWORD WiFiServiceImpl::SaveTempProfile(const std::string& network_guid) {
1635   if (client_ == NULL) {
1636     NOTREACHED();
1637     return ERROR_NOINTERFACE;
1638   }
1639 
1640   DWORD error = ERROR_SUCCESS;
1641   base::string16 profile_name = ProfileNameFromGUID(network_guid);
1642   // TODO(mef): WlanSaveTemporaryProfile is not available on XP. If XP support
1643   // is needed, then different method of saving network profile will have to be
1644   // used.
1645   if (WlanSaveTemporaryProfile_function_) {
1646     error = WlanSaveTemporaryProfile_function_(client_,
1647                                                &interface_guid_,
1648                                                profile_name.c_str(),
1649                                                NULL,
1650                                                WLAN_PROFILE_USER,
1651                                                true,
1652                                                NULL);
1653   } else {
1654     error = ERROR_NOT_SUPPORTED;
1655   }
1656   return error;
1657 }
1658 
GetProfile(const std::string & network_guid,bool get_plaintext_key,std::string * profile_xml)1659 DWORD WiFiServiceImpl::GetProfile(const std::string& network_guid,
1660                                   bool get_plaintext_key,
1661                                   std::string* profile_xml) {
1662   if (client_ == NULL) {
1663     NOTREACHED();
1664     return ERROR_NOINTERFACE;
1665   }
1666 
1667   DWORD error = ERROR_SUCCESS;
1668   base::string16 profile_name = ProfileNameFromGUID(network_guid);
1669   DWORD flags = get_plaintext_key ? WLAN_PROFILE_GET_PLAINTEXT_KEY : 0;
1670   LPWSTR str_profile_xml = NULL;
1671   error = WlanGetProfile_function_(client_,
1672                                    &interface_guid_,
1673                                    profile_name.c_str(),
1674                                    NULL,
1675                                    &str_profile_xml,
1676                                    &flags,
1677                                    NULL);
1678 
1679   if (error == ERROR_SUCCESS && str_profile_xml != NULL) {
1680     *profile_xml = base::UTF16ToUTF8(str_profile_xml);
1681   }
1682   // Clean up.
1683   if (str_profile_xml != NULL) {
1684     WlanFreeMemory_function_(str_profile_xml);
1685   }
1686 
1687   return error;
1688 }
1689 
SetProfile(bool shared,const std::string & profile_xml,bool overwrite)1690 DWORD WiFiServiceImpl::SetProfile(bool shared,
1691                                   const std::string& profile_xml,
1692                                   bool overwrite) {
1693   DWORD error_code = ERROR_SUCCESS;
1694 
1695   base::string16 profile_xml16(base::UTF8ToUTF16(profile_xml));
1696   DWORD reason_code = 0u;
1697 
1698   error_code = WlanSetProfile_function_(client_,
1699                                         &interface_guid_,
1700                                         shared ? 0 : WLAN_PROFILE_USER,
1701                                         profile_xml16.c_str(),
1702                                         NULL,
1703                                         overwrite,
1704                                         NULL,
1705                                         &reason_code);
1706   return error_code;
1707 }
1708 
HaveProfile(const std::string & network_guid)1709 bool WiFiServiceImpl::HaveProfile(const std::string& network_guid) {
1710   DWORD error = ERROR_SUCCESS;
1711   std::string profile_xml;
1712   return GetProfile(network_guid, false, &profile_xml) == ERROR_SUCCESS;
1713 }
1714 
1715 
DeleteCreatedProfile(const std::string & network_guid)1716 DWORD WiFiServiceImpl::DeleteCreatedProfile(const std::string& network_guid) {
1717   base::DictionaryValue* created_profile = NULL;
1718   DWORD error_code = ERROR_SUCCESS;
1719   // Check, whether this connection is using new created profile, and remove it.
1720   if (created_profiles_.GetDictionaryWithoutPathExpansion(
1721       network_guid, &created_profile)) {
1722     // Connection has failed, so delete it.
1723     base::string16 profile_name = ProfileNameFromGUID(network_guid);
1724     error_code = WlanDeleteProfile_function_(client_,
1725                                               &interface_guid_,
1726                                               profile_name.c_str(),
1727                                               NULL);
1728     created_profiles_.RemoveWithoutPathExpansion(network_guid, NULL);
1729   }
1730   return error_code;
1731 }
1732 
WpaEncryptionFromEncryptionType(EncryptionType encryption_type) const1733 std::string WiFiServiceImpl::WpaEncryptionFromEncryptionType(
1734     EncryptionType encryption_type) const {
1735   if (encryption_type == kEncryptionTypeTKIP)
1736     return kEncryptionTKIP;
1737   return kEncryptionAES;
1738 }
1739 
AuthEncryptionFromSecurity(const std::string & security,EncryptionType encryption_type,std::string * authentication,std::string * encryption,std::string * key_type) const1740 bool WiFiServiceImpl::AuthEncryptionFromSecurity(
1741     const std::string& security,
1742     EncryptionType encryption_type,
1743     std::string* authentication,
1744     std::string* encryption,
1745     std::string* key_type) const {
1746   if (security == onc::wifi::kNone) {
1747     *authentication = kAuthenticationOpen;
1748     *encryption = kEncryptionNone;
1749   } else if (security == onc::wifi::kWEP_PSK) {
1750     *authentication = kAuthenticationOpen;
1751     *encryption = kEncryptionWEP;
1752     *key_type = kKeyTypeNetwork;
1753   } else if (security == onc::wifi::kWPA_PSK) {
1754     *authentication = kAuthenticationWpaPsk;
1755     *encryption = WpaEncryptionFromEncryptionType(encryption_type);
1756     *key_type = kKeyTypePassphrase;
1757   } else if (security == onc::wifi::kWPA2_PSK) {
1758     *authentication = kAuthenticationWpa2Psk;
1759     *encryption = WpaEncryptionFromEncryptionType(encryption_type);
1760     *key_type = kKeyTypePassphrase;
1761   } else {
1762     return false;
1763   }
1764   return true;
1765 }
1766 
CreateProfile(const NetworkProperties & network_properties,EncryptionType encryption_type,std::string * profile_xml)1767 bool WiFiServiceImpl::CreateProfile(
1768     const NetworkProperties& network_properties,
1769     EncryptionType encryption_type,
1770     std::string* profile_xml) {
1771   // Get authentication and encryption values from security.
1772   std::string authentication;
1773   std::string encryption;
1774   std::string key_type;
1775   bool valid = AuthEncryptionFromSecurity(network_properties.security,
1776                                           encryption_type,
1777                                           &authentication,
1778                                           &encryption,
1779                                           &key_type);
1780   if (!valid)
1781     return valid;
1782 
1783   // Generate profile XML.
1784   XmlWriter xml_writer;
1785   xml_writer.StartWriting();
1786   xml_writer.StartElement("WLANProfile");
1787   xml_writer.AddAttribute(
1788       "xmlns",
1789       "http://www.microsoft.com/networking/WLAN/profile/v1");
1790   xml_writer.WriteElement("name", network_properties.guid);
1791   xml_writer.StartElement("SSIDConfig");
1792   xml_writer.StartElement("SSID");
1793   xml_writer.WriteElement("name", network_properties.ssid);
1794   xml_writer.EndElement();  // Ends "SSID" element.
1795   xml_writer.EndElement();  // Ends "SSIDConfig" element.
1796   xml_writer.WriteElement("connectionType", "ESS");
1797   xml_writer.WriteElement("connectionMode", "manual");
1798   xml_writer.StartElement("MSM");
1799   xml_writer.StartElement("security");
1800   xml_writer.StartElement("authEncryption");
1801   xml_writer.WriteElement("authentication", authentication);
1802   xml_writer.WriteElement("encryption", encryption);
1803   xml_writer.WriteElement("useOneX", "false");
1804   xml_writer.EndElement();  // Ends "authEncryption" element.
1805   if (!key_type.empty()) {
1806     xml_writer.StartElement("sharedKey");
1807     xml_writer.WriteElement("keyType", key_type);
1808     xml_writer.WriteElement("protected", "false");
1809     xml_writer.WriteElement("keyMaterial", network_properties.password);
1810     xml_writer.EndElement();  // Ends "sharedKey" element.
1811   }
1812   xml_writer.EndElement();  // Ends "security" element.
1813   xml_writer.EndElement();  // Ends "MSM" element.
1814   xml_writer.EndElement();  // Ends "WLANProfile" element.
1815   xml_writer.StopWriting();
1816   *profile_xml = xml_writer.GetWrittenString();
1817 
1818   return true;
1819 }
1820 
NotifyNetworkListChanged(const NetworkList & networks)1821 void WiFiServiceImpl::NotifyNetworkListChanged(const NetworkList& networks) {
1822   if (network_list_changed_observer_.is_null())
1823     return;
1824 
1825   NetworkGuidList current_networks;
1826   for (NetworkList::const_iterator it = networks.begin();
1827        it != networks.end();
1828        ++it) {
1829     current_networks.push_back(it->guid);
1830   }
1831 
1832   message_loop_proxy_->PostTask(
1833       FROM_HERE,
1834       base::Bind(network_list_changed_observer_, current_networks));
1835 }
1836 
NotifyNetworkChanged(const std::string & network_guid)1837 void WiFiServiceImpl::NotifyNetworkChanged(const std::string& network_guid) {
1838   if (enable_notify_network_changed_ && !networks_changed_observer_.is_null()) {
1839     DVLOG(1) << "NotifyNetworkChanged: " << network_guid;
1840     NetworkGuidList changed_networks(1, network_guid);
1841     message_loop_proxy_->PostTask(
1842         FROM_HERE,
1843         base::Bind(networks_changed_observer_, changed_networks));
1844   }
1845 }
1846 
Create()1847 WiFiService* WiFiService::Create() { return new WiFiServiceImpl(); }
1848 
1849 }  // namespace wifi
1850