// // Copyright (C) 2012 The Android Open Source Project // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // #ifndef SHILL_WIFI_WIFI_SERVICE_H_ #define SHILL_WIFI_WIFI_SERVICE_H_ #include #include #include #include #include "shill/event_dispatcher.h" #include "shill/key_value_store.h" #include "shill/refptr_types.h" #include "shill/service.h" namespace shill { class CertificateFile; class ControlInterface; class EventDispatcher; class Error; class Manager; class Metrics; class WiFiProvider; class WiFiService : public Service { public: // TODO(pstew): Storage constants shouldn't need to be public // crbug.com/208736 static const char kStorageHiddenSSID[]; static const char kStorageMode[]; static const char kStoragePassphrase[]; static const char kStorageSecurity[]; static const char kStorageSecurityClass[]; static const char kStorageSSID[]; static const char kStoragePreferredDevice[]; static const char kStorageRoamThreshold[]; static const char kStorageRoamThresholdSet[]; WiFiService(ControlInterface* control_interface, EventDispatcher* dispatcher, Metrics* metrics, Manager* manager, WiFiProvider* provider, const std::vector& ssid, const std::string& mode, const std::string& security, bool hidden_ssid); ~WiFiService(); // Inherited from Service. void Connect(Error* error, const char* reason) override; void Disconnect(Error* error, const char* reason) override; bool Is8021x() const override; virtual void AddEndpoint(const WiFiEndpointConstRefPtr& endpoint); virtual void RemoveEndpoint(const WiFiEndpointConstRefPtr& endpoint); virtual int GetEndpointCount() const { return endpoints_.size(); } // Called to update the identity of the currently connected endpoint. // To indicate that there is no currently connect endpoint, call with // |endpoint| set to nullptr. virtual void NotifyCurrentEndpoint(const WiFiEndpointConstRefPtr& endpoint); // Called to inform of changes in the properties of an endpoint. // (Not necessarily the currently connected endpoint.) virtual void NotifyEndpointUpdated(const WiFiEndpointConstRefPtr& endpoint); // wifi____ std::string GetStorageIdentifier() const override; static bool ParseStorageIdentifier(const std::string& storage_name, std::string* address, std::string* mode, std::string* security); // Iterate over |storage| looking for WiFi servces with "old-style" // properties that don't include explicit type/mode/security, and add // these properties. Returns true if any entries were fixed. static bool FixupServiceEntries(StoreInterface* storage); // Validate |mode| against all valid and supported service modes. static bool IsValidMode(const std::string& mode); // Validate |method| against all valid and supported security methods. static bool IsValidSecurityMethod(const std::string& method); // Validate |security_class| against all valid and supported // security classes. static bool IsValidSecurityClass(const std::string& security_class); const std::string& mode() const { return mode_; } const std::string& key_management() const { return GetEAPKeyManagement(); } const std::vector& ssid() const { return ssid_; } const std::string& bssid() const { return bssid_; } const std::vector& frequency_list() const { return frequency_list_; } uint16_t physical_mode() const { return physical_mode_; } uint16_t frequency() const { return frequency_; } // WiFi services can load from profile entries other than their current // storage identifier. Override the methods from the parent Service // class which pertain to whether this service may be loaded from |storage|. std::string GetLoadableStorageIdentifier( const StoreInterface& storage) const override; bool IsLoadableFrom(const StoreInterface& storage) const override; // Override Load and Save from parent Service class. We will call // the parent method. bool Load(StoreInterface* storage) override; bool Save(StoreInterface* storage) override; bool Unload() override; // Override SetState from parent Service class. We will call the // parent method. void SetState(ConnectState state) override; virtual bool HasEndpoints() const { return !endpoints_.empty(); } bool IsVisible() const override; bool IsSecurityMatch(const std::string& security) const; // Used by WiFi objects to indicate that the credentials for this network // have been called into question. This method returns true if given this // suspicion, if it is probable that indeed these credentials are likely // to be incorrect. Credentials that have never been used before are // considered suspect by default, while those which have been used // successfully in the past must have this method called a number of times // since the last time ResetSuspectedCredentialsFailures() was called. virtual bool AddSuspectedCredentialFailure(); virtual void ResetSuspectedCredentialFailures(); bool hidden_ssid() const { return hidden_ssid_; } bool ieee80211w_required() const { return ieee80211w_required_; } void InitializeCustomMetrics() const; void SendPostReadyStateMetrics( int64_t time_resume_to_ready_milliseconds) const override; // Clear any cached credentials stored in wpa_supplicant related to |this|. // This will disconnect this service if it is currently connected. void ClearCachedCredentials(); // Override from parent Service class to correctly update connectability // when the EAP credentials change for 802.1x networks. void OnEapCredentialsChanged( Service::UpdateCredentialsReason reason) override; // Called by WiFiService to reset state associated with prior success // of a connection with particular EAP credentials or a passphrase. void OnCredentialChange(Service::UpdateCredentialsReason reason); // Override from parent Service class to register hidden services once they // have been configured. void OnProfileConfigured() override; // Called by WiFiProvider to reset the WiFi device reference on shutdown. virtual void ResetWiFi(); // Called by WiFi to retrieve configuration parameters for wpa_supplicant. virtual KeyValueStore GetSupplicantConfigurationParameters() const; // "wpa", "rsn" and "psk" are equivalent from a configuration perspective. // This function maps them all into "psk". static std::string ComputeSecurityClass(const std::string& security); bool IsAutoConnectable(const char** reason) const override; // Signal level in dBm. If no current endpoint, returns // std::numeric_limits::min(). int16_t SignalLevel() const; void set_expecting_disconnect(bool val) { expecting_disconnect_ = val; } bool expecting_disconnect() const { return expecting_disconnect_; } uint16_t roam_threshold_db() { return roam_threshold_db_; } bool roam_threshold_db_set() { return roam_threshold_db_set_; } protected: void SetEAPKeyManagement(const std::string& key_management) override; std::string GetTethering(Error* error) const override; private: friend class WiFiServiceSecurityTest; friend class WiFiServiceTest; // SetPassphrase friend class WiFiServiceUpdateFromEndpointsTest; // SignalToStrength FRIEND_TEST(MetricsTest, WiFiServicePostReady); FRIEND_TEST(MetricsTest, WiFiServicePostReadyAdHoc); FRIEND_TEST(MetricsTest, WiFiServicePostReadyEAP); FRIEND_TEST(WiFiMainTest, CurrentBSSChangedUpdateServiceEndpoint); FRIEND_TEST(WiFiMainTest, RoamThresholdProperty); FRIEND_TEST(WiFiProviderTest, OnEndpointAddedWithSecurity); // security_ FRIEND_TEST(WiFiServiceTest, AutoConnect); FRIEND_TEST(WiFiServiceTest, ClearWriteOnlyDerivedProperty); // passphrase_ FRIEND_TEST(WiFiServiceTest, ComputeCipher8021x); FRIEND_TEST(WiFiServiceTest, ConnectTask8021x); FRIEND_TEST(WiFiServiceTest, ConnectTaskDynamicWEP); FRIEND_TEST(WiFiServiceTest, ConnectTaskPSK); FRIEND_TEST(WiFiServiceTest, ConnectTaskRSN); FRIEND_TEST(WiFiServiceTest, ConnectTaskWEP); FRIEND_TEST(WiFiServiceTest, ConnectTaskWPA); FRIEND_TEST(WiFiServiceTest, ConnectTaskWPA80211w); FRIEND_TEST(WiFiServiceTest, GetTethering); FRIEND_TEST(WiFiServiceTest, IsAutoConnectable); FRIEND_TEST(WiFiServiceTest, LoadHidden); FRIEND_TEST(WiFiServiceTest, SetPassphraseForNonPassphraseService); FRIEND_TEST(WiFiServiceTest, LoadAndUnloadPassphrase); FRIEND_TEST(WiFiServiceTest, LoadPassphraseClearCredentials); FRIEND_TEST(WiFiServiceTest, SecurityFromCurrentEndpoint); // GetSecurity FRIEND_TEST(WiFiServiceTest, SetPassphraseResetHasEverConnected); FRIEND_TEST(WiFiServiceTest, SetPassphraseRemovesCachedCredentials); FRIEND_TEST(WiFiServiceTest, SignalToStrength); // SignalToStrength FRIEND_TEST(WiFiServiceTest, SuspectedCredentialFailure); FRIEND_TEST(WiFiServiceTest, UpdateSecurity); // SetEAPKeyManagement FRIEND_TEST(WiFiServiceTest, ConnectWithPreferredDevice); FRIEND_TEST(WiFiServiceTest, ConfigurePreferredDevice); FRIEND_TEST(WiFiServiceTest, LoadAndUnloadPreferredDevice); FRIEND_TEST(WiFiServiceTest, ChooseDevice); FRIEND_TEST(WiFiServiceUpdateFromEndpointsTest, AddEndpointWithPreferredDevice); FRIEND_TEST(WiFiServiceTest, SaveLoadRoamThreshold); static const char kAutoConnNoEndpoint[]; static const char kAnyDeviceAddress[]; static const int kSuspectedCredentialFailureThreshold; // Override the base clase implementation, because we need to allow // arguments that aren't base class methods. void HelpRegisterConstDerivedString( const std::string& name, std::string(WiFiService::*get)(Error* error)); void HelpRegisterDerivedString( const std::string& name, std::string(WiFiService::*get)(Error* error), bool(WiFiService::*set)(const std::string& value, Error* error)); void HelpRegisterWriteOnlyDerivedString( const std::string& name, bool(WiFiService::*set)(const std::string& value, Error* error), void(WiFiService::*clear)(Error* error), const std::string* default_value); void HelpRegisterDerivedUint16( const std::string& name, uint16_t(WiFiService::*get)(Error* error), bool(WiFiService::*set)(const uint16_t& value, Error* error), void(WiFiService::*clear)(Error* error)); std::string GetDeviceRpcId(Error* error) const override; void ClearPassphrase(Error* error); void UpdateConnectable(); void UpdateFromEndpoints(); void UpdateSecurity(); static CryptoAlgorithm ComputeCipher8021x( const std::set& endpoints); static void ValidateWEPPassphrase(const std::string& passphrase, Error* error); static void ValidateWPAPassphrase(const std::string& passphrase, Error* error); static void ParseWEPPassphrase(const std::string& passphrase, int* key_index, std::vector* password_bytes, Error* error); static bool CheckWEPIsHex(const std::string& passphrase, Error* error); static bool CheckWEPKeyIndex(const std::string& passphrase, Error* error); static bool CheckWEPPrefix(const std::string& passphrase, Error* error); // Maps a signal value, in dBm, to a "strength" value, from // |Service::kStrengthMin| to |Service:kStrengthMax|. static uint8_t SignalToStrength(int16_t signal_dbm); // Create a default group name for this WiFi service. std::string GetDefaultStorageIdentifier() const; // Return the security of this service. If connected, the security // reported from the currently connected endpoint is returned. Otherwise // the configured security for the service is returned. std::string GetSecurity(Error* error); // Return the security class of this service. If connected, the // security class of the currently connected endpoint is returned. // Otherwise the configured security class for the service is // returned. // // See also: ComputeSecurityClass. std::string GetSecurityClass(Error* error); // Profile data for a WPA/RSN service can be stored under a number of // different security types. These functions create different storage // property lists based on whether they are saved with their generic // "psk" name or if they use the (legacy) specific "wpa" or "rsn" names. KeyValueStore GetStorageProperties() const; // Called from DBus and during Load to validate and apply a passphrase for // this service. If the passphrase is successfully changed, UpdateConnectable // and OnCredentialChange are both called and the method returns true. This // method will return false if the passphrase cannot be set. If the // passphrase is already set to the value of |passphrase|, this method will // return false. If it is due to an error, |error| will be populated with the // appropriate information. bool SetPassphrase(const std::string& passphrase, Error* error); // Called by SetPassphrase and LoadPassphrase to perform the check on a // passphrase change. |passphrase| is the new passphrase to be used for the // service. If the new passphrase is not different from the existing // passphrase, SetPassphraseInternal will return false. |reason| signals how // the SetPassphraseInternal method was triggered. If the method was called // from Load, the has_ever_connected flag will not be reset. If the method // was called from SetPassphrase, has_ever_connected will be set to false. bool SetPassphraseInternal(const std::string& passphrase, Service::UpdateCredentialsReason reason); // Select a WiFi device (e.g, for connecting a hidden service with no // endpoints). WiFiRefPtr ChooseDevice(); std::string GetPreferredDevice(Error* error); // Called from DBus and during load to apply the preferred device for this // service. bool SetPreferredDevice(const std::string& device_name, Error* error); void SetWiFi(const WiFiRefPtr& new_wifi); // This method can't be 'const' because it is passed to // HelpRegisterDerivedUint16, which doesn't take const methods. uint16_t GetRoamThreshold(Error* error) /*const*/; bool SetRoamThreshold(const uint16_t& threshold, Error* error); void ClearRoamThreshold(Error* error); // Properties std::string passphrase_; bool need_passphrase_; const std::string security_; // TODO(cmasone): see if the below can be pulled from the endpoint associated // with this service instead. const std::string mode_; std::string auth_mode_; bool hidden_ssid_; uint16_t frequency_; std::vector frequency_list_; uint16_t physical_mode_; // Preferred device to use for connecting to this service. std::string preferred_device_; // The raw dBm signal strength from the associated endpoint. int16_t raw_signal_strength_; std::string hex_ssid_; std::string storage_identifier_; std::string bssid_; Stringmap vendor_information_; // The country code reported by the current endpoint. std::string country_code_; // If |security_| == kSecurity8021x, the crypto algorithm being used. // (Otherwise, crypto algorithm is implied by |security_|.) CryptoAlgorithm cipher_8021x_; // Track the number of consecutive times our current credentials have // been called into question. int suspected_credential_failures_; // Track whether or not we've warned about large signal values. // Used to avoid spamming the log. static bool logged_signal_warning; WiFiRefPtr wifi_; std::set endpoints_; WiFiEndpointConstRefPtr current_endpoint_; const std::vector ssid_; // Track whether IEEE 802.11w (Protected Management Frame) support is // mandated by one or more endpoints we have seen that provide this service. bool ieee80211w_required_; // Flag indicating if service disconnect is initiated by user for // connecting to other service. bool expecting_disconnect_; std::unique_ptr certificate_file_; uint16_t roam_threshold_db_; bool roam_threshold_db_set_; // Bare pointer is safe because WiFi service instances are owned by // the WiFiProvider and are guaranteed to be deallocated by the time // the WiFiProvider is. WiFiProvider* provider_; DISALLOW_COPY_AND_ASSIGN(WiFiService); }; } // namespace shill #endif // SHILL_WIFI_WIFI_SERVICE_H_