| // Copyright (c) 2012 The Chromium OS Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| |
| #ifndef SHILL_MANAGER_H_ |
| #define SHILL_MANAGER_H_ |
| |
| #include <map> |
| #include <string> |
| #include <vector> |
| |
| #include <base/cancelable_callback.h> |
| #include <base/files/file_path.h> |
| #include <base/macros.h> |
| #include <base/memory/ref_counted.h> |
| #include <base/memory/scoped_ptr.h> |
| #include <base/memory/weak_ptr.h> |
| #include <chromeos/dbus/service_constants.h> |
| #include <gtest/gtest_prod.h> // for FRIEND_TEST |
| |
| #include "shill/crypto_util_proxy.h" |
| #include "shill/device.h" |
| #include "shill/device_info.h" |
| #include "shill/event_dispatcher.h" |
| #include "shill/geolocation_info.h" |
| #include "shill/hook_table.h" |
| #include "shill/metrics.h" |
| #include "shill/modem_info.h" |
| #include "shill/power_manager.h" |
| #include "shill/profile.h" |
| #include "shill/property_store.h" |
| #include "shill/service.h" |
| #include "shill/wifi.h" |
| #include "shill/wimax_provider.h" |
| |
| namespace shill { |
| |
| class ControlInterface; |
| class DBusManager; |
| class DefaultProfile; |
| class Error; |
| class EthernetEapProvider; |
| class EventDispatcher; |
| class IPAddressStore; |
| class ManagerAdaptorInterface; |
| class Resolver; |
| class StoreInterface; |
| class VPNProvider; |
| class WiFiProvider; |
| |
| class Manager : public base::SupportsWeakPtr<Manager> { |
| public: |
| typedef base::Callback<void(const ServiceRefPtr &service)> ServiceCallback; |
| |
| struct Properties { |
| public: |
| Properties() |
| : offline_mode(false), |
| portal_check_interval_seconds(0), |
| arp_gateway(true), |
| connection_id_salt(0) {} |
| bool offline_mode; |
| std::string check_portal_list; |
| std::string country; |
| int32_t portal_check_interval_seconds; |
| std::string portal_url; |
| std::string host_name; |
| // Whether to ARP for the default gateway in the DHCP client after |
| // acquiring a lease. |
| bool arp_gateway; |
| // Comma-separated list of technologies for which link-monitoring is |
| // enabled. |
| std::string link_monitor_technologies; |
| // Comma-separated list of DNS search paths to be ignored. |
| std::string ignored_dns_search_paths; |
| // Salt value use for calculating network connection ID. |
| int connection_id_salt; |
| }; |
| |
| Manager(ControlInterface *control_interface, |
| EventDispatcher *dispatcher, |
| Metrics *metrics, |
| GLib *glib, |
| const std::string &run_directory, |
| const std::string &storage_directory, |
| const std::string &user_storage_directory); |
| virtual ~Manager(); |
| |
| void AddDeviceToBlackList(const std::string &device_name); |
| |
| virtual void Start(); |
| virtual void Stop(); |
| bool running() const { return running_; } |
| |
| const ProfileRefPtr &ActiveProfile() const; |
| bool IsActiveProfile(const ProfileRefPtr &profile) const; |
| bool MoveServiceToProfile(const ServiceRefPtr &to_move, |
| const ProfileRefPtr &destination); |
| ProfileRefPtr LookupProfileByRpcIdentifier(const std::string &profile_rpcid); |
| |
| // Called via RPC call on Service (|to_set|) to set the "Profile" property. |
| virtual void SetProfileForService(const ServiceRefPtr &to_set, |
| const std::string &profile, |
| Error *error); |
| |
| virtual void RegisterDevice(const DeviceRefPtr &to_manage); |
| virtual void DeregisterDevice(const DeviceRefPtr &to_forget); |
| |
| virtual bool HasService(const ServiceRefPtr &service); |
| // Register a Service with the Manager. Manager may choose to |
| // connect to it immediately. |
| virtual void RegisterService(const ServiceRefPtr &to_manage); |
| // Deregister a Service from the Manager. Caller is responsible |
| // for disconnecting the Service before-hand. |
| virtual void DeregisterService(const ServiceRefPtr &to_forget); |
| virtual void UpdateService(const ServiceRefPtr &to_update); |
| |
| // Persists |to_update| into an appropriate profile. |
| virtual void UpdateDevice(const DeviceRefPtr &to_update); |
| |
| virtual void UpdateWiFiProvider(); |
| |
| void FilterByTechnology(Technology::Identifier tech, |
| std::vector<DeviceRefPtr> *found) const; |
| |
| ServiceRefPtr FindService(const std::string& name); |
| RpcIdentifiers EnumerateAvailableServices(Error *error); |
| |
| // Return the complete list of services, including those that are not visible. |
| RpcIdentifiers EnumerateCompleteServices(Error *error); |
| |
| // called via RPC (e.g., from ManagerDBusAdaptor) |
| std::map<std::string, std::string> GetLoadableProfileEntriesForService( |
| const ServiceConstRefPtr &service); |
| ServiceRefPtr GetService(const KeyValueStore &args, Error *error); |
| ServiceRefPtr ConfigureService(const KeyValueStore &args, Error *error); |
| ServiceRefPtr ConfigureServiceForProfile( |
| const std::string &profile_rpcid, |
| const KeyValueStore &args, |
| Error *error); |
| ServiceRefPtr FindMatchingService(const KeyValueStore &args, Error *error); |
| |
| // Requests that NICs be programmed to wake up from |
| // suspend on the arrival of packets on any TCP connection |
| // with a source IP address matching the IP address |
| // specified in the string argument. |
| void AddWakeOnPacketConnection(const std::string &ip_endpoint, |
| Error *error); |
| // Removes a NIC programming request established by AddWakeOnPacketConnection. |
| void RemoveWakeOnPacketConnection(const std::string &ip_endpoint, |
| Error *error); |
| // Removes all NIC programming requests. |
| void RemoveAllWakeOnPacketConnections(Error *error); |
| |
| // Retrieve geolocation data from the Manager. |
| const std::map<std::string, GeolocationInfos> |
| &GetNetworksForGeolocation() const; |
| |
| // Called by Device when its geolocation data has been updated. |
| virtual void OnDeviceGeolocationInfoUpdated(const DeviceRefPtr &device); |
| |
| void ConnectToBestServices(Error *error); |
| |
| // Request portal detection checks on each registered device until a portal |
| // detection attempt starts on one of them. |
| void RecheckPortal(Error *error); |
| // Request portal detection be restarted on the device connected to |
| // |service|. |
| virtual void RecheckPortalOnService(const ServiceRefPtr &service); |
| |
| virtual void RequestScan(Device::ScanType scan_type, |
| const std::string &technology, Error *error); |
| std::string GetTechnologyOrder(); |
| void SetTechnologyOrder(const std::string &order, Error *error); |
| // Set up the profile list starting with a default profile along with |
| // an (optional) list of startup profiles. |
| void InitializeProfiles(); |
| // Create a profile. This does not affect the profile stack. Returns |
| // the RPC path of the created profile in |path|. |
| void CreateProfile(const std::string &name, std::string *path, Error *error); |
| // Pushes existing profile with name |name| onto stack of managed profiles. |
| // Returns the RPC path of the pushed profile in |path|. |
| void PushProfile(const std::string &name, std::string *path, Error *error); |
| // Insert an existing user profile with name |name| into the stack of |
| // managed profiles. Associate |user_hash| with this profile entry. |
| // Returns the RPC path of the pushed profile in |path|. |
| void InsertUserProfile(const std::string &name, |
| const std::string &user_hash, |
| std::string *path, |
| Error *error); |
| // Pops profile named |name| off the top of the stack of managed profiles. |
| void PopProfile(const std::string &name, Error *error); |
| // Remove the active profile. |
| void PopAnyProfile(Error *error); |
| // Remove all user profiles from the stack of managed profiles leaving only |
| // default profiles. |
| void PopAllUserProfiles(Error *error); |
| // Remove the underlying persistent storage for a profile. |
| void RemoveProfile(const std::string &name, Error *error); |
| // Called by a service to remove its associated configuration. If |service| |
| // is associated with a non-ephemeral profile, this configuration entry |
| // will be removed and the manager will search for another matching profile. |
| // If the service ends up with no matching profile, it is unloaded (which |
| // may also remove the service from the manager's list, e.g. WiFi services |
| // that are not visible).. |
| void RemoveService(const ServiceRefPtr &service); |
| // Handle the event where a profile is about to remove a profile entry. |
| // Any Services that are dependent on this storage identifier will need |
| // to find new profiles. Return true if any service has been moved to a new |
| // profile. Any such services will have had the profile group removed from |
| // the profile. |
| virtual bool HandleProfileEntryDeletion(const ProfileRefPtr &profile, |
| const std::string &entry_name); |
| // Find a registered service that contains a GUID property that |
| // matches |guid|. |
| virtual ServiceRefPtr GetServiceWithGUID(const std::string &guid, |
| Error *error); |
| // Find a service that is both the member of |profile| and has a |
| // storage identifier that matches |entry_name|. This function is |
| // called by the Profile in order to return a profile entry's properties. |
| virtual ServiceRefPtr GetServiceWithStorageIdentifier( |
| const ProfileRefPtr &profile, |
| const std::string &entry_name, |
| Error *error); |
| // Return a reference to the Service associated with the default connection. |
| // If there is no such connection, this function returns a reference to NULL. |
| virtual ServiceRefPtr GetDefaultService() const; |
| |
| // Set enabled state of all |technology_name| devices to |enabled_state|. |
| void SetEnabledStateForTechnology(const std::string &technology_name, |
| bool enabled_state, |
| Error *error, |
| const ResultCallback &callback); |
| // Return whether a technology is marked as enabled for portal detection. |
| virtual bool IsPortalDetectionEnabled(Technology::Identifier tech); |
| // Set the start-up value for the portal detection list. This list will |
| // be used until a value set explicitly over the control API. Until |
| // then, we ignore but do not overwrite whatever value is stored in the |
| // profile. |
| void SetStartupPortalList(const std::string &portal_list); |
| |
| // Returns true if profile |a| has been pushed on the Manager's |
| // |profiles_| stack before profile |b|. |
| bool IsProfileBefore(const ProfileRefPtr &a, |
| const ProfileRefPtr &b) const; |
| |
| // Return whether a service belongs to the ephemeral profile. |
| virtual bool IsServiceEphemeral(const ServiceConstRefPtr &service) const; |
| |
| // Return whether a Technology has any connected Services. |
| virtual bool IsTechnologyConnected(Technology::Identifier technology) const; |
| |
| // Return whether a technology is enabled for link monitoring. |
| virtual bool IsTechnologyLinkMonitorEnabled( |
| Technology::Identifier technology) const; |
| |
| // Return whether the Wake on LAN feature is enabled. |
| virtual bool IsWakeOnLanEnabled() const { return is_wake_on_lan_enabled_; } |
| |
| // Called by Profile when a |storage| completes initialization. |
| void OnProfileStorageInitialized(StoreInterface *storage); |
| |
| // Return a Device with technology |technology| in the enabled state. |
| DeviceRefPtr GetEnabledDeviceWithTechnology( |
| Technology::Identifier technology) const; |
| |
| // Returns true if at least one connection exists, and false if there's no |
| // connected service. |
| virtual bool IsConnected() const; |
| // Returns true if at least one connection exists that have Internet |
| // connectivity, and false if there's no such service. |
| virtual bool IsOnline() const; |
| std::string CalculateState(Error *error); |
| |
| // Recalculate the |connected_state_| string and emit a singal if it has |
| // changed. |
| void RefreshConnectionState(); |
| |
| virtual int GetPortalCheckInterval() const { |
| return props_.portal_check_interval_seconds; |
| } |
| virtual const std::string &GetPortalCheckURL() const { |
| return props_.portal_url; |
| } |
| |
| DBusManager *dbus_manager() const { return dbus_manager_.get(); } |
| virtual DeviceInfo *device_info() { return &device_info_; } |
| #if !defined(DISABLE_CELLULAR) |
| virtual ModemInfo *modem_info() { return &modem_info_; } |
| #endif // DISABLE_CELLULAR |
| PowerManager *power_manager() const { return power_manager_.get(); } |
| virtual EthernetEapProvider *ethernet_eap_provider() const { |
| return ethernet_eap_provider_.get(); |
| } |
| VPNProvider *vpn_provider() const { return vpn_provider_.get(); } |
| WiFiProvider *wifi_provider() const { return wifi_provider_.get(); } |
| #if !defined(DISABLE_WIMAX) |
| virtual WiMaxProvider *wimax_provider() { return wimax_provider_.get(); } |
| #endif // DISABLE_WIMAX |
| PropertyStore *mutable_store() { return &store_; } |
| virtual const PropertyStore &store() const { return store_; } |
| GLib *glib() const { return glib_; } |
| virtual const base::FilePath &run_path() const { return run_path_; } |
| const base::FilePath &storage_path() const { return storage_path_; } |
| IPAddressStore * health_checker_remote_ips() const { |
| return health_checker_remote_ips_.get(); |
| } |
| |
| bool GetArpGateway() const { return props_.arp_gateway; } |
| const std::string &GetHostName() const { return props_.host_name; } |
| |
| virtual void UpdateEnabledTechnologies(); |
| virtual void UpdateUninitializedTechnologies(); |
| |
| // Writes the service |to_update| to persistant storage. If the service's is |
| // ephemeral, it is moved to the current profile. |
| void SaveServiceToProfile(const ServiceRefPtr &to_update); |
| |
| // Adds a closure to be executed when ChromeOS suspends or shill terminates. |
| // |name| should be unique; otherwise, a previous closure by the same name |
| // will be replaced. |start| will be called when RunTerminationActions() is |
| // called. When an action completed, TerminationActionComplete() must be |
| // called. |
| void AddTerminationAction(const std::string &name, |
| const base::Closure &start); |
| |
| // Users call this function to report the completion of an action |name|. |
| // This function should be called once for each action. |
| void TerminationActionComplete(const std::string &name); |
| |
| // Removes the action associtated with |name|. |
| void RemoveTerminationAction(const std::string &name); |
| |
| // Runs the termination actions and notifies the metrics framework |
| // that the termination actions started running, only if any termination |
| // actions have been registered. |reason| specifies whether this method was |
| // called due to termination or suspend. If all actions complete within |
| // |kTerminationActionsTimeoutMilliseconds|, |done_callback| is called with a |
| // value of Error::kSuccess. Otherwise, it is called with |
| // Error::kOperationTimeout. |
| // |
| // Returns true, if termination actions were run. |
| bool RunTerminationActionsAndNotifyMetrics( |
| const ResultCallback &done_callback, |
| Metrics::TerminationActionReason reason); |
| |
| // Registers a |callback| that's invoked whenever the default service |
| // changes. Returns a unique tag that can be used to deregister the |
| // callback. A tag equal to 0 is invalid. |
| virtual int RegisterDefaultServiceCallback(const ServiceCallback &callback); |
| virtual void DeregisterDefaultServiceCallback(int tag); |
| |
| // Verifies that the destination described by certificate is valid, and that |
| // we're currently connected to that destination. A full description of the |
| // rules being enforced is in doc/manager-api.txt. Returns true iff all |
| // checks pass, false otherwise. On false, error is filled with a |
| // descriptive error code and message. |
| // |
| // |certificate| is a PEM encoded x509 certificate, |public_key| is a base64 |
| // encoded public half of an RSA key, |nonce| is a random string, and |
| // |signed_data| is a base64 encoded string as described in |
| // doc/manager-api.txt. |
| void VerifyDestination(const std::string &certificate, |
| const std::string &public_key, |
| const std::string &nonce, |
| const std::string &signed_data, |
| const std::string &destination_udn, |
| const std::string &hotspot_ssid, |
| const std::string &hotspot_bssid, |
| const ResultBoolCallback &cb, |
| Error *error); |
| |
| // After verifying the destination, encrypt the string data with |
| // |public_key|, the base64 encoded public half of an RSA key pair. Returns |
| // the base64 encoded result if successful, or an empty string on failure. |
| // On failure, |error| will be filled with an appropriately descriptive |
| // message and error code. |
| void VerifyAndEncryptData(const std::string &certificate, |
| const std::string &public_key, |
| const std::string &nonce, |
| const std::string &signed_data, |
| const std::string &destination_udn, |
| const std::string &hotspot_ssid, |
| const std::string &hotspot_bssid, |
| const std::string &data, |
| const ResultStringCallback &cb, |
| Error *error); |
| |
| // After verifying the destination, encrypt the password for |network_path| |
| // under |public_key|. Similar to EncryptData above except that the |
| // information being encrypted is implicitly the authentication credentials |
| // of the given network. |
| void VerifyAndEncryptCredentials(const std::string &certificate, |
| const std::string &public_key, |
| const std::string &nonce, |
| const std::string &signed_data, |
| const std::string &destination_udn, |
| const std::string &hotspot_ssid, |
| const std::string &hotspot_bssid, |
| const std::string &network_path, |
| const ResultStringCallback &cb, |
| Error *error); |
| |
| // Calculate connection identifier, which is hash of salt value, gateway IP |
| // address, and gateway MAC address. |
| int CalcConnectionId(std::string gateway_ip, std::string gateway_mac); |
| |
| // Report the number of services associated with given connection |
| // |connection_id|. |
| void ReportServicesOnSameNetwork(int connection_id); |
| |
| private: |
| friend class CellularTest; |
| friend class DeviceInfoTest; |
| friend class ManagerAdaptorInterface; |
| friend class ManagerTest; |
| friend class ModemInfoTest; |
| friend class ModemManagerTest; |
| friend class ServiceTest; |
| friend class VPNServiceTest; |
| friend class WiFiObjectTest; |
| friend class WiMaxProviderTest; |
| |
| FRIEND_TEST(CellularCapabilityUniversalMainTest, TerminationAction); |
| FRIEND_TEST(CellularCapabilityUniversalMainTest, |
| TerminationActionRemovedByStopModem); |
| FRIEND_TEST(CellularTest, LinkEventWontDestroyService); |
| FRIEND_TEST(ManagerTest, AvailableTechnologies); |
| FRIEND_TEST(ManagerTest, ConnectedTechnologies); |
| FRIEND_TEST(ManagerTest, ConnectionStatusCheck); |
| FRIEND_TEST(ManagerTest, ConnectToBestServices); |
| FRIEND_TEST(ManagerTest, DefaultTechnology); |
| FRIEND_TEST(ManagerTest, DeviceRegistrationAndStart); |
| FRIEND_TEST(ManagerTest, DisableTechnology); |
| FRIEND_TEST(ManagerTest, EnableTechnology); |
| FRIEND_TEST(ManagerTest, EnumerateProfiles); |
| FRIEND_TEST(ManagerTest, HandleProfileEntryDeletionWithUnload); |
| FRIEND_TEST(ManagerTest, InitializeProfilesInformsProviders); |
| FRIEND_TEST(ManagerTest, InitializeProfilesHandlesDefaults); |
| FRIEND_TEST(ManagerTest, IsDefaultProfile); |
| FRIEND_TEST(ManagerTest, IsWifiIdle); |
| FRIEND_TEST(ManagerTest, LinkMonitorEnabled); |
| FRIEND_TEST(ManagerTest, MoveService); |
| FRIEND_TEST(ManagerTest, NotifyDefaultServiceChanged); |
| FRIEND_TEST(ManagerTest, PopProfileWithUnload); |
| FRIEND_TEST(ManagerTest, RegisterKnownService); |
| FRIEND_TEST(ManagerTest, RegisterUnknownService); |
| FRIEND_TEST(ManagerTest, RunTerminationActions); |
| FRIEND_TEST(ManagerTest, ServiceRegistration); |
| FRIEND_TEST(ManagerTest, SortServices); |
| FRIEND_TEST(ManagerTest, SortServicesWithConnection); |
| FRIEND_TEST(ManagerTest, StartupPortalList); |
| |
| static const char kErrorNoDevice[]; |
| static const char kErrorTypeRequired[]; |
| static const char kErrorUnsupportedServiceType[]; |
| |
| // Time to wait for termination actions to complete. |
| static const int kConnectionStatusCheckIntervalMilliseconds; |
| static const int kTerminationActionsTimeoutMilliseconds; |
| |
| void AutoConnect(); |
| std::vector<std::string> AvailableTechnologies(Error *error); |
| std::vector<std::string> ConnectedTechnologies(Error *error); |
| std::string DefaultTechnology(Error *error); |
| std::vector<std::string> EnabledTechnologies(Error *error); |
| std::vector<std::string> UninitializedTechnologies(Error *error); |
| RpcIdentifiers EnumerateDevices(Error *error); |
| RpcIdentifiers EnumerateProfiles(Error *error); |
| // TODO(cmasone): This should be implemented by filtering |services_|. |
| RpcIdentifiers EnumerateWatchedServices(Error *error); |
| std::string GetActiveProfileRpcIdentifier(Error *error); |
| std::string GetCheckPortalList(Error *error); |
| RpcIdentifier GetDefaultServiceRpcIdentifier(Error *error); |
| std::string GetIgnoredDNSSearchPaths(Error *error); |
| ServiceRefPtr GetServiceInner(const KeyValueStore &args, Error *error); |
| bool SetCheckPortalList(const std::string &portal_list, Error *error); |
| bool SetIgnoredDNSSearchPaths(const std::string &ignored_paths, Error *error); |
| void EmitDefaultService(); |
| bool IsTechnologyInList(const std::string &technology_list, |
| Technology::Identifier tech) const; |
| bool IsDefaultProfile(StoreInterface *storage); |
| void EmitDeviceProperties(); |
| bool SetDisableWiFiVHT(const bool &disable_wifi_vht, Error *error); |
| bool GetDisableWiFiVHT(Error *error); |
| |
| // Unload a service while iterating through |services_|. Returns true if |
| // service was erased (which means the caller loop should not increment |
| // |service_iterator|), false otherwise (meaning the caller should |
| // increment |service_iterator|). |
| bool UnloadService(std::vector<ServiceRefPtr>::iterator *service_iterator); |
| |
| // Load Manager default properties from |profile|. |
| void LoadProperties(const scoped_refptr<DefaultProfile> &profile); |
| |
| // Configure the device with profile data from all current profiles. |
| void LoadDeviceFromProfiles(const DeviceRefPtr &device); |
| |
| void HelpRegisterConstDerivedRpcIdentifier( |
| const std::string &name, |
| RpcIdentifier(Manager::*get)(Error *)); |
| void HelpRegisterConstDerivedRpcIdentifiers( |
| const std::string &name, |
| RpcIdentifiers(Manager::*get)(Error *)); |
| void HelpRegisterDerivedString( |
| const std::string &name, |
| std::string(Manager::*get)(Error *error), |
| bool(Manager::*set)(const std::string&, Error *)); |
| void HelpRegisterConstDerivedStrings( |
| const std::string &name, |
| Strings(Manager::*get)(Error *)); |
| void HelpRegisterDerivedBool( |
| const std::string &name, |
| bool(Manager::*get)(Error *error), |
| bool(Manager::*set)(const bool &value, Error *error)); |
| |
| bool HasProfile(const Profile::Identifier &ident); |
| void PushProfileInternal(const Profile::Identifier &ident, |
| std::string *path, |
| Error *error); |
| void PopProfileInternal(); |
| void OnProfilesChanged(); |
| |
| void SortServices(); |
| void SortServicesTask(); |
| void ConnectionStatusCheckTask(); |
| bool MatchProfileWithService(const ServiceRefPtr &service); |
| |
| // Sets the profile of |service| to |profile|, without notifying its |
| // previous profile. Configures a |service| with |args|, then saves |
| // the resulting configuration to |profile|. This method is useful |
| // when copying a service configuration from one profile to another, |
| // or writing a newly created service config to a specific profile. |
| static void SetupServiceInProfile(ServiceRefPtr service, |
| ProfileRefPtr profile, |
| const KeyValueStore &args, |
| Error *error); |
| |
| // For each technology present, connect to the "best" service available, |
| // as determined by sorting all services independent of their current state. |
| void ConnectToBestServicesTask(); |
| |
| void NotifyDefaultServiceChanged(const ServiceRefPtr &service); |
| |
| // Runs the termination actions. If all actions complete within |
| // |kTerminationActionsTimeoutMilliseconds|, |done_callback| is called with a |
| // value of Error::kSuccess. Otherwise, it is called with |
| // Error::kOperationTimeout. |
| void RunTerminationActions(const ResultCallback &done_callback); |
| |
| // Called when the system is about to be suspended. Each call will be |
| // followed by a call to OnSuspendDone(). |
| void OnSuspendImminent(); |
| |
| // Called when the system has completed a suspend attempt (possibly without |
| // actually suspending, in the event of the user canceling the attempt). |
| void OnSuspendDone(); |
| |
| // Called when the system is entering a dark resume phase (and hence a dark |
| // suspend is imminent). |
| void OnDarkSuspendImminent(); |
| |
| void OnSuspendActionsComplete(const Error &error); |
| void VerifyToEncryptLink(std::string public_key, std::string data, |
| ResultStringCallback cb, const Error &error, |
| bool success); |
| |
| // Return true if wifi device is enabled with no existing connection (pending |
| // or connected). |
| bool IsWifiIdle(); |
| |
| // For unit testing. |
| void set_metrics(Metrics *metrics) { metrics_ = metrics; } |
| void UpdateProviderMapping(); |
| |
| // Used by tests to set a mock PowerManager. Takes ownership of |
| // power_manager. |
| void set_power_manager(PowerManager *power_manager) { |
| power_manager_.reset(power_manager); |
| } |
| |
| // Removes all wake on packet connections rules registered on the device |
| // that is connected to the old service and adds them to the device connected |
| // to the new service |
| void TransferWakeOnPacketConnections(const ServiceRefPtr &old_service, |
| const ServiceRefPtr &new_service); |
| |
| DeviceRefPtr GetDeviceConnectedToService(ServiceRefPtr service); |
| |
| EventDispatcher *dispatcher_; |
| const base::FilePath run_path_; |
| const base::FilePath storage_path_; |
| const std::string user_storage_path_; |
| base::FilePath user_profile_list_path_; // Changed in tests. |
| scoped_ptr<ManagerAdaptorInterface> adaptor_; |
| scoped_ptr<DBusManager> dbus_manager_; |
| DeviceInfo device_info_; |
| #if !defined(DISABLE_CELLULAR) |
| ModemInfo modem_info_; |
| #endif // DISABLE_CELLULAR |
| scoped_ptr<EthernetEapProvider> ethernet_eap_provider_; |
| scoped_ptr<VPNProvider> vpn_provider_; |
| scoped_ptr<WiFiProvider> wifi_provider_; |
| #if !defined(DISABLE_WIMAX) |
| scoped_ptr<WiMaxProvider> wimax_provider_; |
| #endif // DISABLE_WIMAX |
| // Hold pointer to singleton Resolver instance for testing purposes. |
| Resolver *resolver_; |
| bool running_; |
| // Used to facilitate unit tests which can't use RPC. |
| bool connect_profiles_to_rpc_; |
| std::vector<DeviceRefPtr> devices_; |
| // We store Services in a vector, because we want to keep them sorted. |
| // Services that are connected appear first in the vector. See |
| // Service::Compare() for details of the sorting criteria. |
| std::vector<ServiceRefPtr> services_; |
| // Map of technologies to Provider instances. These pointers are owned |
| // by the respective scoped_reptr objects that are held over the lifetime |
| // of the Manager object. |
| std::map<Technology::Identifier, ProviderInterface *> providers_; |
| // List of startup profile names to push on the profile stack on startup. |
| std::vector<ProfileRefPtr> profiles_; |
| ProfileRefPtr ephemeral_profile_; |
| ControlInterface *control_interface_; |
| Metrics *metrics_; |
| GLib *glib_; |
| scoped_ptr<PowerManager> power_manager_; |
| |
| // The priority order of technologies |
| std::vector<Technology::Identifier> technology_order_; |
| |
| // This is the last Service RPC Identifier for which we emitted a |
| // "DefaultService" signal for. |
| RpcIdentifier default_service_rpc_identifier_; |
| |
| // Manager can be optionally configured with a list of technologies to |
| // do portal detection on at startup. We need to keep track of that list |
| // as well as a flag that tells us whether we should continue using it |
| // instead of the configured portal list. |
| std::string startup_portal_list_; |
| bool use_startup_portal_list_; |
| |
| // Properties to be get/set via PropertyStore calls. |
| Properties props_; |
| PropertyStore store_; |
| |
| base::CancelableClosure sort_services_task_; |
| |
| // Task for periodically checking connection status. |
| base::CancelableClosure connection_status_check_task_; |
| |
| // TODO(petkov): Currently this handles both terminate and suspend |
| // actions. Rename all relevant identifiers to capture this. |
| HookTable termination_actions_; |
| |
| // Is a suspend delay currently registered with the power manager? |
| bool suspend_delay_registered_; |
| |
| // Whether Wake on LAN should be enabled for all Ethernet devices. |
| bool is_wake_on_lan_enabled_; |
| |
| // Maps tags to callbacks for monitoring default service changes. |
| std::map<int, ServiceCallback> default_service_callbacks_; |
| int default_service_callback_tag_; |
| |
| // Delegate to handle destination verification operations for the manager. |
| scoped_ptr<CryptoUtilProxy> crypto_util_proxy_; |
| |
| // Stores IP addresses of some remote hosts that accept port 80 TCP |
| // connections. ConnectionHealthChecker uses these IPs. |
| // The store resides in Manager so that it persists across Device reset. |
| scoped_ptr<IPAddressStore> health_checker_remote_ips_; |
| |
| // Stores the most recent copy of geolocation information for each |
| // technology type. |
| std::map<std::string, GeolocationInfos> networks_for_geolocation_; |
| |
| // Stores the state of the highest ranked connected service. |
| std::string connection_state_; |
| |
| DISALLOW_COPY_AND_ASSIGN(Manager); |
| }; |
| |
| } // namespace shill |
| |
| #endif // SHILL_MANAGER_H_ |