1 // 2 // Copyright (C) 2012 The Android Open Source Project 3 // 4 // Licensed under the Apache License, Version 2.0 (the "License"); 5 // you may not use this file except in compliance with the License. 6 // You may obtain a copy of the License at 7 // 8 // http://www.apache.org/licenses/LICENSE-2.0 9 // 10 // Unless required by applicable law or agreed to in writing, software 11 // distributed under the License is distributed on an "AS IS" BASIS, 12 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 // See the License for the specific language governing permissions and 14 // limitations under the License. 15 // 16 17 #ifndef SHILL_MANAGER_H_ 18 #define SHILL_MANAGER_H_ 19 20 #include <map> 21 #include <memory> 22 #include <string> 23 #include <vector> 24 25 #include <base/cancelable_callback.h> 26 #include <base/files/file_path.h> 27 #include <base/macros.h> 28 #include <base/memory/ref_counted.h> 29 #include <base/memory/weak_ptr.h> 30 #if defined(__ANDROID__) 31 #include <dbus/service_constants.h> 32 #else 33 #include <chromeos/dbus/service_constants.h> 34 #endif // __ANDROID__ 35 #include <gtest/gtest_prod.h> // for FRIEND_TEST 36 37 #include "shill/cellular/modem_info.h" 38 #include "shill/crypto_util_proxy.h" 39 #include "shill/dhcp_properties.h" 40 #include "shill/device.h" 41 #include "shill/device_info.h" 42 #include "shill/event_dispatcher.h" 43 #include "shill/geolocation_info.h" 44 #include "shill/hook_table.h" 45 #include "shill/metrics.h" 46 #include "shill/net/ip_address.h" 47 #include "shill/power_manager.h" 48 #include "shill/profile.h" 49 #include "shill/property_store.h" 50 #include "shill/service.h" 51 #include "shill/upstart/upstart.h" 52 #include "shill/wimax/wimax_provider.h" 53 54 namespace shill { 55 56 class ControlInterface; 57 class DeviceClaimer; 58 class DefaultProfile; 59 class Error; 60 class EventDispatcher; 61 class IPAddressStore; 62 class ManagerAdaptorInterface; 63 class Resolver; 64 class StoreInterface; 65 class VPNProvider; 66 67 #if !defined(DISABLE_WIFI) 68 class WiFiProvider; 69 #if defined(__BRILLO__) 70 class RPCServiceWatcherInterface; 71 class WiFiDriverHal; 72 #endif // __BRILLO__ 73 #endif // DISABLE_WIFI 74 75 #if !defined(DISABLE_WIRED_8021X) 76 class EthernetEapProvider; 77 #endif // DISABLE_WIRED_8021X 78 79 class Manager : public base::SupportsWeakPtr<Manager> { 80 public: 81 typedef base::Callback<void(const ServiceRefPtr& service)> ServiceCallback; 82 83 struct Properties { 84 public: PropertiesProperties85 Properties() 86 : offline_mode(false), 87 portal_check_interval_seconds(0), 88 arp_gateway(true), 89 connection_id_salt(0), 90 minimum_mtu(IPConfig::kUndefinedMTU) {} 91 bool offline_mode; 92 std::string check_portal_list; 93 std::string country; 94 int32_t portal_check_interval_seconds; 95 std::string portal_url; 96 std::string host_name; 97 // Whether to ARP for the default gateway in the DHCP client after 98 // acquiring a lease. 99 bool arp_gateway; 100 // Comma-separated list of technologies for which link-monitoring is 101 // enabled. 102 std::string link_monitor_technologies; 103 // Comma-separated list of technologies for which auto-connect is disabled. 104 std::string no_auto_connect_technologies; 105 // Comma-separated list of technologies that should never be enabled. 106 std::string prohibited_technologies; 107 // Comma-separated list of DNS search paths to be ignored. 108 std::string ignored_dns_search_paths; 109 // Comma-separated list of DNS servers to prepend to resolver list. 110 std::string prepend_dns_servers; 111 // Salt value use for calculating network connection ID. 112 int connection_id_salt; 113 // The minimum MTU value that will be respected in DHCP responses. 114 int minimum_mtu; 115 }; 116 117 Manager(ControlInterface* control_interface, 118 EventDispatcher* dispatcher, 119 Metrics* metrics, 120 const std::string& run_directory, 121 const std::string& storage_directory, 122 const std::string& user_storage_directory); 123 virtual ~Manager(); 124 125 void RegisterAsync(const base::Callback<void(bool)>& completion_callback); 126 127 virtual void SetBlacklistedDevices( 128 const std::vector<std::string>& blacklisted_devices); 129 virtual void SetWhitelistedDevices( 130 const std::vector<std::string>& whitelisted_devices); 131 132 // Returns true if |device_name| is either not in the blacklist, or in the 133 // whitelist, depending on which list was supplied in startup settings. 134 virtual bool DeviceManagementAllowed(const std::string& device_name); 135 136 virtual void Start(); 137 virtual void Stop(); running()138 bool running() const { return running_; } 139 140 const ProfileRefPtr& ActiveProfile() const; 141 bool IsActiveProfile(const ProfileRefPtr& profile) const; 142 bool MoveServiceToProfile(const ServiceRefPtr& to_move, 143 const ProfileRefPtr& destination); 144 ProfileRefPtr LookupProfileByRpcIdentifier(const std::string& profile_rpcid); 145 146 // Called via RPC call on Service (|to_set|) to set the "Profile" property. 147 virtual void SetProfileForService(const ServiceRefPtr& to_set, 148 const std::string& profile, 149 Error* error); 150 151 virtual void RegisterDevice(const DeviceRefPtr& to_manage); 152 virtual void DeregisterDevice(const DeviceRefPtr& to_forget); 153 154 virtual bool HasService(const ServiceRefPtr& service); 155 // Register a Service with the Manager. Manager may choose to 156 // connect to it immediately. 157 virtual void RegisterService(const ServiceRefPtr& to_manage); 158 // Deregister a Service from the Manager. Caller is responsible 159 // for disconnecting the Service before-hand. 160 virtual void DeregisterService(const ServiceRefPtr& to_forget); 161 virtual void UpdateService(const ServiceRefPtr& to_update); 162 163 // Persists |to_update| into an appropriate profile. 164 virtual void UpdateDevice(const DeviceRefPtr& to_update); 165 166 #if !defined(DISABLE_WIFI) 167 virtual void UpdateWiFiProvider(); 168 #endif // DISABLE_WIFI 169 170 std::vector<DeviceRefPtr> 171 FilterByTechnology(Technology::Identifier tech) const; 172 173 ServiceRefPtr FindService(const std::string& name); 174 RpcIdentifiers EnumerateAvailableServices(Error* error); 175 176 // Return the complete list of services, including those that are not visible. 177 RpcIdentifiers EnumerateCompleteServices(Error* error); 178 179 // called via RPC (e.g., from ManagerDBusAdaptor) 180 std::map<std::string, std::string> GetLoadableProfileEntriesForService( 181 const ServiceConstRefPtr& service); 182 ServiceRefPtr GetService(const KeyValueStore& args, Error* error); 183 ServiceRefPtr ConfigureService(const KeyValueStore& args, Error* error); 184 ServiceRefPtr ConfigureServiceForProfile( 185 const std::string& profile_rpcid, 186 const KeyValueStore& args, 187 Error* error); 188 ServiceRefPtr FindMatchingService(const KeyValueStore& args, Error* error); 189 190 // Retrieve geolocation data from the Manager. 191 const std::map<std::string, GeolocationInfos> 192 &GetNetworksForGeolocation() const; 193 194 // Called by Device when its geolocation data has been updated. 195 virtual void OnDeviceGeolocationInfoUpdated(const DeviceRefPtr& device); 196 197 void ConnectToBestServices(Error* error); 198 199 // Method to create connectivity report for connected services. 200 void CreateConnectivityReport(Error* error); 201 202 // Request portal detection checks on each registered device until a portal 203 // detection attempt starts on one of them. 204 void RecheckPortal(Error* error); 205 // Request portal detection be restarted on the device connected to 206 // |service|. 207 virtual void RecheckPortalOnService(const ServiceRefPtr& service); 208 209 virtual void RequestScan(Device::ScanType scan_type, 210 const std::string& technology, Error* error); 211 // Configure scheduled scan for wifi devices. 212 virtual void SetSchedScan(bool enable, Error* error); 213 std::string GetTechnologyOrder(); 214 virtual void SetTechnologyOrder(const std::string& order, Error* error); 215 // Set up the profile list starting with a default profile along with 216 // an (optional) list of startup profiles. 217 void InitializeProfiles(); 218 // Create a profile. This does not affect the profile stack. Returns 219 // the RPC path of the created profile in |path|. 220 void CreateProfile(const std::string& name, std::string* path, Error* error); 221 // Pushes existing profile with name |name| onto stack of managed profiles. 222 // Returns the RPC path of the pushed profile in |path|. 223 void PushProfile(const std::string& name, std::string* path, Error* error); 224 // Insert an existing user profile with name |name| into the stack of 225 // managed profiles. Associate |user_hash| with this profile entry. 226 // Returns the RPC path of the pushed profile in |path|. 227 void InsertUserProfile(const std::string& name, 228 const std::string& user_hash, 229 std::string* path, 230 Error* error); 231 // Pops profile named |name| off the top of the stack of managed profiles. 232 void PopProfile(const std::string& name, Error* error); 233 // Remove the active profile. 234 void PopAnyProfile(Error* error); 235 // Remove all user profiles from the stack of managed profiles leaving only 236 // default profiles. 237 void PopAllUserProfiles(Error* error); 238 // Remove the underlying persistent storage for a profile. 239 void RemoveProfile(const std::string& name, Error* error); 240 // Give the ownership of the device with name |device_name| to claimer with 241 // name |claimer_name|. This will cause shill to stop managing this device. 242 virtual void ClaimDevice(const std::string& claimer_name, 243 const std::string& interface_name, 244 Error* error); 245 // Claimer |claimer_name| release the ownership of the device with 246 // |interface_name| back to shill. This method will set |claimer_removed| 247 // to true iff Claimer |claimer_name| is not the default claimer and no 248 // longer claims any devices. 249 virtual void ReleaseDevice(const std::string& claimer_name, 250 const std::string& interface_name, 251 bool* claimer_removed, 252 Error* error); 253 #if !defined(DISABLE_WIFI) && defined(__BRILLO__) 254 // Setup an AP mode interface using WiFi driver HAL. The driver 255 // may or may not teardown the station mode interface as a result 256 // of this call. This behavior will be driver specific. 257 // Returns true and sets |interface_name| on success, false otherwise. 258 virtual bool SetupApModeInterface(std::string* out_interface_name, 259 Error* error); 260 261 // Setup a station mode interface using WiFi driver HAL. The driver 262 // may or may not teardown the AP mode interface as a result of this 263 // call. This behavior will be driver specific. 264 // Returns true and sets |interface_name| on success, false otherwise. 265 virtual bool SetupStationModeInterface(std::string* out_interface_name, 266 Error* error); 267 268 virtual void OnApModeSetterVanished(); 269 #endif // !DISABLE_WIFI && __BRILLO__ 270 271 // Called by a service to remove its associated configuration. If |service| 272 // is associated with a non-ephemeral profile, this configuration entry 273 // will be removed and the manager will search for another matching profile. 274 // If the service ends up with no matching profile, it is unloaded (which 275 // may also remove the service from the manager's list, e.g. WiFi services 276 // that are not visible).. 277 void RemoveService(const ServiceRefPtr& service); 278 // Handle the event where a profile is about to remove a profile entry. 279 // Any Services that are dependent on this storage identifier will need 280 // to find new profiles. Return true if any service has been moved to a new 281 // profile. Any such services will have had the profile group removed from 282 // the profile. 283 virtual bool HandleProfileEntryDeletion(const ProfileRefPtr& profile, 284 const std::string& entry_name); 285 // Find a registered service that contains a GUID property that 286 // matches |guid|. 287 virtual ServiceRefPtr GetServiceWithGUID(const std::string& guid, 288 Error* error); 289 // Find a service that is both the member of |profile| and has a 290 // storage identifier that matches |entry_name|. This function is 291 // called by the Profile in order to return a profile entry's properties. 292 virtual ServiceRefPtr GetServiceWithStorageIdentifier( 293 const ProfileRefPtr& profile, 294 const std::string& entry_name, 295 Error* error); 296 // Create a temporary service for an entry |entry_name| within |profile|. 297 // Callers must not register this service with the Manager or connect it 298 // since it was never added to the provider's service list. 299 virtual ServiceRefPtr CreateTemporaryServiceFromProfile( 300 const ProfileRefPtr& profile, 301 const std::string& entry_name, 302 Error* error); 303 // Return a reference to the Service associated with the default connection. 304 // If there is no such connection, this function returns a reference to NULL. 305 virtual ServiceRefPtr GetDefaultService() const; 306 307 // Set enabled state of all |technology_name| devices to |enabled_state|. 308 // Persist the state to storage is |persist| is true. 309 void SetEnabledStateForTechnology(const std::string& technology_name, 310 bool enabled_state, 311 bool persist, 312 Error* error, 313 const ResultCallback& callback); 314 // Return whether a technology is marked as enabled for portal detection. 315 virtual bool IsPortalDetectionEnabled(Technology::Identifier tech); 316 // Set the start-up value for the portal detection list. This list will 317 // be used until a value set explicitly over the control API. Until 318 // then, we ignore but do not overwrite whatever value is stored in the 319 // profile. 320 virtual void SetStartupPortalList(const std::string& portal_list); 321 322 // Returns true if profile |a| has been pushed on the Manager's 323 // |profiles_| stack before profile |b|. 324 virtual bool IsProfileBefore(const ProfileRefPtr& a, 325 const ProfileRefPtr& b) const; 326 327 // Return whether a service belongs to the ephemeral profile. 328 virtual bool IsServiceEphemeral(const ServiceConstRefPtr& service) const; 329 330 // Return whether a Technology has any connected Services. 331 virtual bool IsTechnologyConnected(Technology::Identifier technology) const; 332 333 // Return whether a technology is enabled for link monitoring. 334 virtual bool IsTechnologyLinkMonitorEnabled( 335 Technology::Identifier technology) const; 336 337 // Return whether the Wake on LAN feature is enabled. IsWakeOnLanEnabled()338 virtual bool IsWakeOnLanEnabled() const { return is_wake_on_lan_enabled_; } 339 340 // Return whether a technology is disabled for auto-connect. 341 virtual bool IsTechnologyAutoConnectDisabled( 342 Technology::Identifier technology) const; 343 344 // Report whether |technology| is prohibited from being enabled. 345 virtual bool IsTechnologyProhibited(Technology::Identifier technology) const; 346 347 // Called by Profile when a |storage| completes initialization. 348 void OnProfileStorageInitialized(Profile* storage); 349 350 // Return a Device with technology |technology| in the enabled state. 351 virtual DeviceRefPtr GetEnabledDeviceWithTechnology( 352 Technology::Identifier technology) const; 353 354 // Return a Device with link_name |link_name| in the enabled state. 355 virtual DeviceRefPtr GetEnabledDeviceByLinkName( 356 const std::string& link_name) const; 357 358 // Returns true if at least one connection exists, and false if there's no 359 // connected service. 360 virtual bool IsConnected() const; 361 // Returns true if at least one connection exists that have Internet 362 // connectivity, and false if there's no such service. 363 virtual bool IsOnline() const; 364 std::string CalculateState(Error* error); 365 366 // Recalculate the |connected_state_| string and emit a singal if it has 367 // changed. 368 void RefreshConnectionState(); 369 GetPortalCheckInterval()370 virtual int GetPortalCheckInterval() const { 371 return props_.portal_check_interval_seconds; 372 } GetPortalCheckURL()373 virtual const std::string& GetPortalCheckURL() const { 374 return props_.portal_url; 375 } 376 device_info()377 virtual DeviceInfo* device_info() { return &device_info_; } 378 #if !defined(DISABLE_CELLULAR) modem_info()379 virtual ModemInfo* modem_info() { return &modem_info_; } 380 #endif // DISABLE_CELLULAR power_manager()381 PowerManager* power_manager() const { return power_manager_.get(); } 382 #if !defined(DISABLE_WIRED_8021X) ethernet_eap_provider()383 virtual EthernetEapProvider* ethernet_eap_provider() const { 384 return ethernet_eap_provider_.get(); 385 } 386 #endif // DISABLE_WIRED_8021X vpn_provider()387 VPNProvider* vpn_provider() const { return vpn_provider_.get(); } 388 #if !defined(DISABLE_WIFI) wifi_provider()389 WiFiProvider* wifi_provider() const { return wifi_provider_.get(); } 390 #endif // DISABLE_WIFI 391 #if !defined(DISABLE_WIMAX) wimax_provider()392 virtual WiMaxProvider* wimax_provider() { return wimax_provider_.get(); } 393 #endif // DISABLE_WIMAX mutable_store()394 PropertyStore* mutable_store() { return &store_; } store()395 virtual const PropertyStore& store() const { return store_; } run_path()396 virtual const base::FilePath& run_path() const { return run_path_; } storage_path()397 const base::FilePath& storage_path() const { return storage_path_; } health_checker_remote_ips()398 IPAddressStore* health_checker_remote_ips() const { 399 return health_checker_remote_ips_.get(); 400 } 401 GetArpGateway()402 bool GetArpGateway() const { return props_.arp_gateway; } 403 GetMinimumMTU()404 virtual int GetMinimumMTU() const { return props_.minimum_mtu; } SetMinimumMTU(const int mtu)405 virtual void SetMinimumMTU(const int mtu) { props_.minimum_mtu = mtu; } 406 407 virtual void UpdateEnabledTechnologies(); 408 virtual void UpdateUninitializedTechnologies(); 409 dhcp_properties()410 const DhcpProperties& dhcp_properties() const { 411 return *dhcp_properties_; 412 } 413 414 // Writes the service |to_update| to persistant storage. If the service's is 415 // ephemeral, it is moved to the current profile. 416 void SaveServiceToProfile(const ServiceRefPtr& to_update); 417 418 // Adds a closure to be executed when ChromeOS suspends or shill terminates. 419 // |name| should be unique; otherwise, a previous closure by the same name 420 // will be replaced. |start| will be called when RunTerminationActions() is 421 // called. When an action completed, TerminationActionComplete() must be 422 // called. 423 void AddTerminationAction(const std::string& name, 424 const base::Closure& start); 425 426 // Users call this function to report the completion of an action |name|. 427 // This function should be called once for each action. 428 void TerminationActionComplete(const std::string& name); 429 430 // Removes the action associtated with |name|. 431 void RemoveTerminationAction(const std::string& name); 432 433 // Runs the termination actions and notifies the metrics framework 434 // that the termination actions started running, only if any termination 435 // actions have been registered. If all actions complete within 436 // |kTerminationActionsTimeoutMilliseconds|, |done_callback| is called with a 437 // value of Error::kSuccess. Otherwise, it is called with 438 // Error::kOperationTimeout. 439 // 440 // Returns true, if termination actions were run. 441 bool RunTerminationActionsAndNotifyMetrics( 442 const ResultCallback& done_callback); 443 444 // Registers a |callback| that's invoked whenever the default service 445 // changes. Returns a unique tag that can be used to deregister the 446 // callback. A tag equal to 0 is invalid. 447 virtual int RegisterDefaultServiceCallback(const ServiceCallback& callback); 448 virtual void DeregisterDefaultServiceCallback(int tag); 449 450 #if !defined(DISABLE_WIFI) 451 // Verifies that the destination described by certificate is valid, and that 452 // we're currently connected to that destination. A full description of the 453 // rules being enforced is in doc/manager-api.txt. Returns true iff all 454 // checks pass, false otherwise. On false, error is filled with a 455 // descriptive error code and message. 456 // 457 // |certificate| is a PEM encoded x509 certificate, |public_key| is a base64 458 // encoded public half of an RSA key, |nonce| is a random string, and 459 // |signed_data| is a base64 encoded string as described in 460 // doc/manager-api.txt. 461 void VerifyDestination(const std::string& certificate, 462 const std::string& public_key, 463 const std::string& nonce, 464 const std::string& signed_data, 465 const std::string& destination_udn, 466 const std::string& hotspot_ssid, 467 const std::string& hotspot_bssid, 468 const ResultBoolCallback& cb, 469 Error* error); 470 471 // After verifying the destination, encrypt the string data with 472 // |public_key|, the base64 encoded public half of an RSA key pair. Returns 473 // the base64 encoded result if successful, or an empty string on failure. 474 // On failure, |error| will be filled with an appropriately descriptive 475 // message and error code. 476 void VerifyAndEncryptData(const std::string& certificate, 477 const std::string& public_key, 478 const std::string& nonce, 479 const std::string& signed_data, 480 const std::string& destination_udn, 481 const std::string& hotspot_ssid, 482 const std::string& hotspot_bssid, 483 const std::string& data, 484 const ResultStringCallback& cb, 485 Error* error); 486 487 // After verifying the destination, encrypt the password for |network_path| 488 // under |public_key|. Similar to EncryptData above except that the 489 // information being encrypted is implicitly the authentication credentials 490 // of the given network. 491 void VerifyAndEncryptCredentials(const std::string& certificate, 492 const std::string& public_key, 493 const std::string& nonce, 494 const std::string& signed_data, 495 const std::string& destination_udn, 496 const std::string& hotspot_ssid, 497 const std::string& hotspot_bssid, 498 const std::string& network_path, 499 const ResultStringCallback& cb, 500 Error* error); 501 #endif // DISABLE_WIFI 502 503 // Calculate connection identifier, which is hash of salt value, gateway IP 504 // address, and gateway MAC address. 505 int CalcConnectionId(std::string gateway_ip, std::string gateway_mac); 506 507 // Report the number of services associated with given connection 508 // |connection_id|. 509 void ReportServicesOnSameNetwork(int connection_id); 510 511 // Running in passive mode, manager will not manage any devices (all devices 512 // are blacklisted) by default. Remote application can specify devices for 513 // shill to manage through ReleaseInterface/ClaimInterface DBus API using 514 // default claimer (with "" as claimer_name). 515 virtual void SetPassiveMode(); 516 517 // Decides whether Ethernet-like devices are treated as unknown devices 518 // if they do not indicate a driver name. 519 virtual void SetIgnoreUnknownEthernet(bool ignore); ignore_unknown_ethernet()520 virtual bool ignore_unknown_ethernet() const { 521 return ignore_unknown_ethernet_; 522 } 523 524 // Set the list of prepended DNS servers to |prepend_dns_servers|. 525 virtual void SetPrependDNSServers(const std::string& prepend_dns_servers); 526 527 // Accept hostname from DHCP server for devices matching |hostname_from|. 528 virtual void SetAcceptHostnameFrom(const std::string& hostname_from); 529 virtual bool ShouldAcceptHostnameFrom(const std::string& device_name) const; 530 531 // Set DHCPv6 enabled device list. 532 virtual void SetDHCPv6EnabledDevices( 533 const std::vector<std::string>& device_list); 534 535 // Return true if DHCPv6 is enabled for the given device with |device_name|. 536 virtual bool IsDHCPv6EnabledForDevice(const std::string& device_name) const; 537 538 // Filter the list of prepended DNS servers, copying only those that match 539 // |family| into |dns_servers|. |dns_servers| is cleared, regardless of 540 // whether or not there are any addresses that match |family|. 541 virtual std::vector<std::string> FilterPrependDNSServersByFamily( 542 IPAddress::Family family) const; 543 544 // Returns true iff |power_manager_| exists and is suspending (i.e. 545 // power_manager->suspending() is true), false otherwise. 546 virtual bool IsSuspending(); 547 548 void RecordDarkResumeWakeReason(const std::string& wake_reason); 549 550 // Called when service's inner device changed. 551 virtual void OnInnerDevicesChanged(); 552 set_suppress_autoconnect(bool val)553 void set_suppress_autoconnect(bool val) { suppress_autoconnect_ = val; } suppress_autoconnect()554 bool suppress_autoconnect() { return suppress_autoconnect_; } 555 556 // Called when remote device claimer vanishes. 557 virtual void OnDeviceClaimerVanished(); 558 559 private: 560 friend class CellularTest; 561 friend class DeviceInfoTest; 562 friend class ManagerAdaptorInterface; 563 friend class ManagerTest; 564 friend class ModemInfoTest; 565 friend class ModemManagerTest; 566 friend class ServiceTest; 567 friend class VPNServiceTest; 568 friend class WiFiObjectTest; 569 friend class WiMaxProviderTest; 570 571 FRIEND_TEST(CellularCapabilityUniversalMainTest, TerminationAction); 572 FRIEND_TEST(CellularCapabilityUniversalMainTest, 573 TerminationActionRemovedByStopModem); 574 FRIEND_TEST(CellularTest, LinkEventWontDestroyService); 575 FRIEND_TEST(DefaultProfileTest, LoadManagerDefaultProperties); 576 FRIEND_TEST(DefaultProfileTest, LoadManagerProperties); 577 FRIEND_TEST(DefaultProfileTest, Save); 578 FRIEND_TEST(DeviceTest, AcquireIPConfigWithoutSelectedService); 579 FRIEND_TEST(DeviceTest, AcquireIPConfigWithSelectedService); 580 FRIEND_TEST(DeviceTest, StartProhibited); 581 FRIEND_TEST(ManagerTest, AvailableTechnologies); 582 FRIEND_TEST(ManagerTest, ClaimBlacklistedDevice); 583 FRIEND_TEST(ManagerTest, ClaimDeviceWhenClaimerNotVerified); 584 FRIEND_TEST(ManagerTest, ClaimDeviceWithoutClaimer); 585 FRIEND_TEST(ManagerTest, ConnectedTechnologies); 586 FRIEND_TEST(ManagerTest, ConnectionStatusCheck); 587 FRIEND_TEST(ManagerTest, ConnectToBestServices); 588 FRIEND_TEST(ManagerTest, CreateConnectivityReport); 589 FRIEND_TEST(ManagerTest, DefaultTechnology); 590 FRIEND_TEST(ManagerTest, DetectMultiHomedDevices); 591 FRIEND_TEST(ManagerTest, DeviceClaimerVanishedTask); 592 FRIEND_TEST(ManagerTest, DevicePresenceStatusCheck); 593 FRIEND_TEST(ManagerTest, DeviceRegistrationAndStart); 594 FRIEND_TEST(ManagerTest, DisableTechnology); 595 FRIEND_TEST(ManagerTest, EnableTechnology); 596 FRIEND_TEST(ManagerTest, EnumerateProfiles); 597 FRIEND_TEST(ManagerTest, EnumerateServiceInnerDevices); 598 FRIEND_TEST(ManagerTest, HandleProfileEntryDeletionWithUnload); 599 FRIEND_TEST(ManagerTest, InitializeProfilesInformsProviders); 600 FRIEND_TEST(ManagerTest, InitializeProfilesHandlesDefaults); 601 FRIEND_TEST(ManagerTest, IsDefaultProfile); 602 FRIEND_TEST(ManagerTest, IsTechnologyAutoConnectDisabled); 603 FRIEND_TEST(ManagerTest, IsTechnologyProhibited); 604 FRIEND_TEST(ManagerTest, IsWifiIdle); 605 FRIEND_TEST(ManagerTest, LinkMonitorEnabled); 606 FRIEND_TEST(ManagerTest, MoveService); 607 FRIEND_TEST(ManagerTest, NotifyDefaultServiceChanged); 608 FRIEND_TEST(ManagerTest, OnApModeSetterVanished); 609 FRIEND_TEST(ManagerTest, OnDeviceClaimerAppeared); 610 FRIEND_TEST(ManagerTest, PopProfileWithUnload); 611 FRIEND_TEST(ManagerTest, RegisterKnownService); 612 FRIEND_TEST(ManagerTest, RegisterUnknownService); 613 FRIEND_TEST(ManagerTest, ReleaseBlacklistedDevice); 614 FRIEND_TEST(ManagerTest, ReleaseDevice); 615 FRIEND_TEST(ManagerTest, RunTerminationActions); 616 FRIEND_TEST(ManagerTest, ServiceRegistration); 617 FRIEND_TEST(ManagerTest, SetupApModeInterface); 618 FRIEND_TEST(ManagerTest, SetupStationModeInterface); 619 FRIEND_TEST(ManagerTest, SortServicesWithConnection); 620 FRIEND_TEST(ManagerTest, StartupPortalList); 621 FRIEND_TEST(ServiceTest, IsAutoConnectable); 622 623 struct DeviceClaim { DeviceClaimDeviceClaim624 DeviceClaim() {} DeviceClaimDeviceClaim625 DeviceClaim(const std::string& in_device_name, 626 const ResultCallback& in_result_callback) 627 : device_name(in_device_name), 628 result_callback(in_result_callback) {} 629 std::string device_name; 630 ResultCallback result_callback; 631 }; 632 633 static const char kErrorNoDevice[]; 634 static const char kErrorTypeRequired[]; 635 static const char kErrorUnsupportedServiceType[]; 636 637 // Technologies to probe for. 638 static const char* kProbeTechnologies[]; 639 640 // Name of the default claimer. 641 static const char kDefaultClaimerName[]; 642 643 // Timeout interval for probing various device status, and report them to 644 // UMA stats. 645 static const int kDeviceStatusCheckIntervalMilliseconds; 646 // Time to wait for termination actions to complete. 647 static const int kTerminationActionsTimeoutMilliseconds; 648 649 void AutoConnect(); 650 std::vector<std::string> AvailableTechnologies(Error* error); 651 std::vector<std::string> ConnectedTechnologies(Error* error); 652 std::string DefaultTechnology(Error* error); 653 std::vector<std::string> EnabledTechnologies(Error* error); 654 std::vector<std::string> UninitializedTechnologies(Error* error); 655 RpcIdentifiers EnumerateDevices(Error* error); 656 RpcIdentifiers EnumerateProfiles(Error* error); 657 RpcIdentifiers EnumerateWatchedServices(Error* error); 658 std::string GetActiveProfileRpcIdentifier(Error* error); 659 std::string GetCheckPortalList(Error* error); 660 RpcIdentifier GetDefaultServiceRpcIdentifier(Error* error); 661 std::string GetIgnoredDNSSearchPaths(Error* error); 662 ServiceRefPtr GetServiceInner(const KeyValueStore& args, Error* error); 663 bool SetCheckPortalList(const std::string& portal_list, Error* error); 664 bool SetIgnoredDNSSearchPaths(const std::string& ignored_paths, Error* error); 665 void EmitDefaultService(); 666 bool IsTechnologyInList(const std::string& technology_list, 667 Technology::Identifier tech) const; 668 void EmitDeviceProperties(); 669 #if !defined(DISABLE_WIFI) 670 bool SetDisableWiFiVHT(const bool& disable_wifi_vht, Error* error); 671 bool GetDisableWiFiVHT(Error* error); 672 #endif // DISABLE_WIFI 673 bool SetProhibitedTechnologies(const std::string& prohibited_technologies, 674 Error* error); 675 std::string GetProhibitedTechnologies(Error* error); 676 void OnTechnologyProhibited(Technology::Identifier technology, 677 const Error& error); 678 679 // For every device instance that is sharing the same connectivity with 680 // another device, enable the multi-home flag. 681 void DetectMultiHomedDevices(); 682 683 // Unload a service while iterating through |services_|. Returns true if 684 // service was erased (which means the caller loop should not increment 685 // |service_iterator|), false otherwise (meaning the caller should 686 // increment |service_iterator|). 687 bool UnloadService(std::vector<ServiceRefPtr>::iterator* service_iterator); 688 689 // Load Manager default properties from |profile|. 690 void LoadProperties(const scoped_refptr<DefaultProfile>& profile); 691 692 // Configure the device with profile data from all current profiles. 693 void LoadDeviceFromProfiles(const DeviceRefPtr& device); 694 695 void HelpRegisterConstDerivedRpcIdentifier( 696 const std::string& name, 697 RpcIdentifier(Manager::*get)(Error*)); 698 void HelpRegisterConstDerivedRpcIdentifiers( 699 const std::string& name, 700 RpcIdentifiers(Manager::*get)(Error*)); 701 void HelpRegisterDerivedString( 702 const std::string& name, 703 std::string(Manager::*get)(Error* error), 704 bool(Manager::*set)(const std::string&, Error*)); 705 void HelpRegisterConstDerivedStrings( 706 const std::string& name, 707 Strings(Manager::*get)(Error*)); 708 void HelpRegisterDerivedBool( 709 const std::string& name, 710 bool(Manager::*get)(Error* error), 711 bool(Manager::*set)(const bool& value, Error* error)); 712 713 bool HasProfile(const Profile::Identifier& ident); 714 void PushProfileInternal(const Profile::Identifier& ident, 715 std::string* path, 716 Error* error); 717 void PopProfileInternal(); 718 void OnProfilesChanged(); 719 720 void SortServices(); 721 void SortServicesTask(); 722 void DeviceStatusCheckTask(); 723 void ConnectionStatusCheck(); 724 void DevicePresenceStatusCheck(); 725 726 bool MatchProfileWithService(const ServiceRefPtr& service); 727 728 // Sets the profile of |service| to |profile|, without notifying its 729 // previous profile. Configures a |service| with |args|, then saves 730 // the resulting configuration to |profile|. This method is useful 731 // when copying a service configuration from one profile to another, 732 // or writing a newly created service config to a specific profile. 733 static void SetupServiceInProfile(ServiceRefPtr service, 734 ProfileRefPtr profile, 735 const KeyValueStore& args, 736 Error* error); 737 738 // For each technology present, connect to the "best" service available, 739 // as determined by sorting all services independent of their current state. 740 void ConnectToBestServicesTask(); 741 742 void NotifyDefaultServiceChanged(const ServiceRefPtr& service); 743 744 // Runs the termination actions. If all actions complete within 745 // |kTerminationActionsTimeoutMilliseconds|, |done_callback| is called with a 746 // value of Error::kSuccess. Otherwise, it is called with 747 // Error::kOperationTimeout. 748 void RunTerminationActions(const ResultCallback& done_callback); 749 750 // Called when the system is about to be suspended. Each call will be 751 // followed by a call to OnSuspendDone(). 752 void OnSuspendImminent(); 753 754 // Called when the system has completed a suspend attempt (possibly without 755 // actually suspending, in the event of the user canceling the attempt). 756 void OnSuspendDone(); 757 758 // Called when the system is entering a dark resume phase (and hence a dark 759 // suspend is imminent). 760 void OnDarkSuspendImminent(); 761 762 void OnSuspendActionsComplete(const Error& error); 763 void OnDarkResumeActionsComplete(const Error& error); 764 765 #if !defined(DISABLE_WIFI) 766 void VerifyToEncryptLink(std::string public_key, std::string data, 767 ResultStringCallback cb, const Error& error, 768 bool success); 769 #endif // DISABLE_WIFI 770 771 // Return true if wifi device is enabled with no existing connection (pending 772 // or connected). 773 bool IsWifiIdle(); 774 775 // For unit testing. set_metrics(Metrics * metrics)776 void set_metrics(Metrics* metrics) { metrics_ = metrics; } 777 void UpdateProviderMapping(); 778 779 // Used by tests to set a mock PowerManager. Takes ownership of 780 // power_manager. set_power_manager(PowerManager * power_manager)781 void set_power_manager(PowerManager* power_manager) { 782 power_manager_.reset(power_manager); 783 } 784 785 DeviceRefPtr GetDeviceConnectedToService(ServiceRefPtr service); 786 787 void DeregisterDeviceByLinkName(const std::string& link_name); 788 789 // Returns the names of all of the devices that have been claimed by the 790 // current DeviceClaimer. Returns an empty vector if no DeviceClaimer is set. 791 std::vector<std::string> ClaimedDevices(Error* error); 792 793 EventDispatcher* dispatcher_; 794 const base::FilePath run_path_; 795 const base::FilePath storage_path_; 796 const base::FilePath user_storage_path_; 797 base::FilePath user_profile_list_path_; // Changed in tests. 798 std::unique_ptr<ManagerAdaptorInterface> adaptor_; 799 DeviceInfo device_info_; 800 #if !defined(DISABLE_CELLULAR) 801 ModemInfo modem_info_; 802 #endif // DISABLE_CELLULAR 803 #if !defined(DISABLE_WIRED_8021X) 804 std::unique_ptr<EthernetEapProvider> ethernet_eap_provider_; 805 #endif // DISABLE_WIRED_8021X 806 std::unique_ptr<VPNProvider> vpn_provider_; 807 #if !defined(DISABLE_WIFI) 808 std::unique_ptr<WiFiProvider> wifi_provider_; 809 #if defined(__BRILLO__) 810 WiFiDriverHal* wifi_driver_hal_; 811 #endif // __BRILLO__ 812 #endif // DISABLE_WIFI 813 #if !defined(DISABLE_WIMAX) 814 std::unique_ptr<WiMaxProvider> wimax_provider_; 815 #endif // DISABLE_WIMAX 816 // Hold pointer to singleton Resolver instance for testing purposes. 817 Resolver* resolver_; 818 bool running_; 819 // Used to facilitate unit tests which can't use RPC. 820 bool connect_profiles_to_rpc_; 821 std::vector<DeviceRefPtr> devices_; 822 // We store Services in a vector, because we want to keep them sorted. 823 // Services that are connected appear first in the vector. See 824 // Service::Compare() for details of the sorting criteria. 825 std::vector<ServiceRefPtr> services_; 826 // Map of technologies to Provider instances. These pointers are owned 827 // by the respective scoped_reptr objects that are held over the lifetime 828 // of the Manager object. 829 std::map<Technology::Identifier, ProviderInterface*> providers_; 830 // List of startup profile names to push on the profile stack on startup. 831 std::vector<ProfileRefPtr> profiles_; 832 ProfileRefPtr ephemeral_profile_; 833 ControlInterface* control_interface_; 834 Metrics* metrics_; 835 std::unique_ptr<PowerManager> power_manager_; 836 std::unique_ptr<Upstart> upstart_; 837 838 // The priority order of technologies 839 std::vector<Technology::Identifier> technology_order_; 840 841 // This is the last Service RPC Identifier for which we emitted a 842 // "DefaultService" signal for. 843 RpcIdentifier default_service_rpc_identifier_; 844 845 // Manager can be optionally configured with a list of technologies to 846 // do portal detection on at startup. We need to keep track of that list 847 // as well as a flag that tells us whether we should continue using it 848 // instead of the configured portal list. 849 std::string startup_portal_list_; 850 bool use_startup_portal_list_; 851 852 // Properties to be get/set via PropertyStore calls. 853 Properties props_; 854 PropertyStore store_; 855 856 // Accept hostname supplied by the DHCP server from the specified devices. 857 // eg. eth0 or eth* 858 std::string accept_hostname_from_; 859 860 base::CancelableClosure sort_services_task_; 861 862 // Task for periodically checking various device status. 863 base::CancelableClosure device_status_check_task_; 864 865 // TODO(petkov): Currently this handles both terminate and suspend 866 // actions. Rename all relevant identifiers to capture this. 867 HookTable termination_actions_; 868 869 // Is a suspend delay currently registered with the power manager? 870 bool suspend_delay_registered_; 871 872 // Whether Wake on LAN should be enabled for all Ethernet devices. 873 bool is_wake_on_lan_enabled_; 874 875 // Whether to ignore Ethernet-like devices that don't have an assigned driver. 876 bool ignore_unknown_ethernet_; 877 878 // Maps tags to callbacks for monitoring default service changes. 879 std::map<int, ServiceCallback> default_service_callbacks_; 880 int default_service_callback_tag_; 881 882 // Delegate to handle destination verification operations for the manager. 883 std::unique_ptr<CryptoUtilProxy> crypto_util_proxy_; 884 885 // Stores IP addresses of some remote hosts that accept port 80 TCP 886 // connections. ConnectionHealthChecker uses these IPs. 887 // The store resides in Manager so that it persists across Device reset. 888 std::unique_ptr<IPAddressStore> health_checker_remote_ips_; 889 890 // Stores the most recent copy of geolocation information for each 891 // technology type. 892 std::map<std::string, GeolocationInfos> networks_for_geolocation_; 893 894 // Stores the state of the highest ranked connected service. 895 std::string connection_state_; 896 897 // Stores the most recent state of all watched services. 898 std::map<std::string, Service::ConnectState> watched_service_states_; 899 900 // Device claimer is a remote application/service that claim/release devices 901 // from/to shill. To reduce complexity, only allow one device claimer at a 902 // time. 903 std::unique_ptr<DeviceClaimer> device_claimer_; 904 905 // When true, suppresses autoconnects in Manager::AutoConnect. 906 bool suppress_autoconnect_; 907 908 // Whether any of the services is in connected state or not. 909 bool is_connected_state_; 910 911 // List of blacklisted devices specified from command line. 912 std::vector<std::string> blacklisted_devices_; 913 914 // List of whitelisted devices specified from command line. 915 std::vector<std::string> whitelisted_devices_; 916 917 // List of DHCPv6 enabled devices. 918 std::vector<std::string> dhcpv6_enabled_devices_; 919 920 // DhcpProperties stored for the default profile. 921 std::unique_ptr<DhcpProperties> dhcp_properties_; 922 923 DISALLOW_COPY_AND_ASSIGN(Manager); 924 }; 925 926 } // namespace shill 927 928 #endif // SHILL_MANAGER_H_ 929