| // Copyright 2018 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. |
| |
| #include "shill/cellular/cellular.h" |
| |
| #include <sys/socket.h> |
| #include <linux/if.h> // NOLINT - Needs typedefs from sys/socket.h. |
| #include <linux/netlink.h> |
| |
| #include <memory> |
| #include <set> |
| #include <utility> |
| |
| #include <base/bind.h> |
| #include <base/memory/scoped_refptr.h> |
| #include <base/stl_util.h> |
| #include <chromeos/dbus/service_constants.h> |
| |
| extern "C" { |
| // A struct member in pppd.h has the name 'class'. |
| #define class class_num |
| // pppd.h defines a bool type. |
| #define bool pppd_bool_t |
| #include <pppd/pppd.h> |
| #undef bool |
| #undef class |
| } |
| |
| #include "shill/cellular/cellular_bearer.h" |
| #include "shill/cellular/cellular_capability_3gpp.h" |
| #include "shill/cellular/cellular_service.h" |
| #include "shill/cellular/cellular_service_provider.h" |
| #include "shill/cellular/mock_cellular_service.h" |
| #include "shill/cellular/mock_mm1_modem_location_proxy.h" |
| #include "shill/cellular/mock_mm1_modem_modem3gpp_proxy.h" |
| #include "shill/cellular/mock_mm1_modem_modemcdma_proxy.h" |
| #include "shill/cellular/mock_mm1_modem_proxy.h" |
| #include "shill/cellular/mock_mm1_modem_simple_proxy.h" |
| #include "shill/cellular/mock_mobile_operator_info.h" |
| #include "shill/cellular/mock_modem_info.h" |
| #include "shill/dhcp/mock_dhcp_config.h" |
| #include "shill/dhcp/mock_dhcp_provider.h" |
| #include "shill/error.h" |
| #include "shill/mock_adaptors.h" |
| #include "shill/mock_control.h" |
| #include "shill/mock_dbus_properties_proxy.h" |
| #include "shill/mock_device_info.h" |
| #include "shill/mock_external_task.h" |
| #include "shill/mock_ppp_device.h" |
| #include "shill/mock_ppp_device_factory.h" |
| #include "shill/mock_process_manager.h" |
| #include "shill/mock_profile.h" |
| #include "shill/mock_store.h" |
| #include "shill/net/mock_rtnl_handler.h" |
| #include "shill/property_store_test.h" |
| #include "shill/rpc_task.h" // for RpcTaskDelegate |
| #include "shill/test_event_dispatcher.h" |
| #include "shill/testing.h" |
| |
| using base::Bind; |
| using base::Unretained; |
| using std::map; |
| using std::string; |
| using std::unique_ptr; |
| using std::vector; |
| using testing::_; |
| using testing::AnyNumber; |
| using testing::DoAll; |
| using testing::Invoke; |
| using testing::Mock; |
| using testing::NiceMock; |
| using testing::Return; |
| using testing::ReturnRef; |
| using testing::SaveArg; |
| using testing::SetArgPointee; |
| |
| namespace shill { |
| |
| namespace { |
| |
| RpcIdentifier kTestBearerPath("/org/freedesktop/ModemManager1/Bearer/0"); |
| |
| } // namespace |
| |
| class CellularPropertyTest : public PropertyStoreTest { |
| public: |
| CellularPropertyTest() |
| : modem_info_(control_interface(), dispatcher(), metrics(), manager()), |
| device_(new Cellular(&modem_info_, |
| "usb0", |
| "00:01:02:03:04:05", |
| 3, |
| Cellular::kType3gpp, |
| "", |
| RpcIdentifier(""))) {} |
| |
| protected: |
| MockModemInfo modem_info_; |
| DeviceRefPtr device_; |
| }; |
| |
| TEST_F(CellularPropertyTest, Contains) { |
| EXPECT_TRUE(device_->store().Contains(kNameProperty)); |
| EXPECT_FALSE(device_->store().Contains("")); |
| } |
| |
| TEST_F(CellularPropertyTest, SetProperty) { |
| { |
| Error error; |
| const bool allow_roaming = true; |
| EXPECT_TRUE(device_->mutable_store()->SetAnyProperty( |
| kCellularAllowRoamingProperty, allow_roaming, &error)); |
| } |
| // Ensure that attempting to write a R/O property returns InvalidArgs error. |
| { |
| Error error; |
| EXPECT_FALSE(device_->mutable_store()->SetAnyProperty( |
| kAddressProperty, PropertyStoreTest::kStringV, &error)); |
| ASSERT_TRUE(error.IsFailure()); // name() may be invalid otherwise |
| EXPECT_EQ(Error::kInvalidArguments, error.type()); |
| } |
| { |
| Error error; |
| EXPECT_FALSE(device_->mutable_store()->SetAnyProperty( |
| kCarrierProperty, PropertyStoreTest::kStringV, &error)); |
| ASSERT_TRUE(error.IsFailure()); // name() may be invalid otherwise |
| EXPECT_EQ(Error::kInvalidArguments, error.type()); |
| } |
| } |
| |
| class CellularTest : public testing::TestWithParam<Cellular::Type> { |
| public: |
| CellularTest() |
| : kHomeProviderCode("10001"), |
| kHomeProviderCountry("us"), |
| kHomeProviderName("HomeProviderName"), |
| kServingOperatorCode("10002"), |
| kServingOperatorCountry("ca"), |
| kServingOperatorName("ServingOperatorName"), |
| control_interface_(this), |
| modem_info_(&control_interface_, &dispatcher_, &metrics_, nullptr), |
| device_info_(modem_info_.manager()), |
| dhcp_config_(new MockDHCPConfig(modem_info_.control_interface(), |
| kTestDeviceName)), |
| mock_home_provider_info_(nullptr), |
| mock_serving_operator_info_(nullptr), |
| device_(new Cellular(&modem_info_, |
| kTestDeviceName, |
| kTestDeviceAddress, |
| 3, |
| GetParam(), |
| kDBusService, |
| kDBusPath)), |
| profile_(new NiceMock<MockProfile>(modem_info_.manager())) { |
| cellular_service_provider_.set_profile_for_testing(profile_); |
| PopulateProxies(); |
| metrics_.RegisterDevice(device_->interface_index(), Technology::kCellular); |
| } |
| |
| void SetUp() override { |
| static_cast<Device*>(device_.get())->rtnl_handler_ = &rtnl_handler_; |
| device_->set_dhcp_provider(&dhcp_provider_); |
| device_->process_manager_ = &process_manager_; |
| EXPECT_CALL(*modem_info_.mock_manager(), device_info()) |
| .WillRepeatedly(Return(&device_info_)); |
| EXPECT_CALL(*modem_info_.mock_manager(), DeregisterService(_)) |
| .Times(AnyNumber()); |
| EXPECT_CALL(*modem_info_.mock_pending_activation_store(), |
| GetActivationState(_, _)) |
| .WillRepeatedly(Return(PendingActivationStore::kStateActivated)); |
| EXPECT_CALL(*modem_info_.mock_manager(), cellular_service_provider()) |
| .WillRepeatedly(Return(&cellular_service_provider_)); |
| EXPECT_CALL(*profile_, GetConstStorage()) |
| .WillRepeatedly(Return(&profile_storage_)); |
| EXPECT_CALL(*profile_, GetStorage()) |
| .WillRepeatedly(Return(&profile_storage_)); |
| } |
| |
| void TearDown() override { |
| device_->DestroyIPConfig(); |
| device_->state_ = Cellular::kStateDisabled; |
| device_->capability_->ReleaseProxies(); |
| device_->set_dhcp_provider(nullptr); |
| // Break cycle between Cellular and CellularService. |
| device_->service_ = nullptr; |
| device_->SelectService(nullptr); |
| } |
| |
| // TODO(benchan): Instead of conditionally enabling many tests for specific |
| // capability types via IsCellularTypeUnderTestOneOf, migrate more tests to |
| // work under all capability types and probably migrate those tests for |
| // specific capability types into their own test fixture subclasses. |
| bool IsCellularTypeUnderTestOneOf( |
| const std::set<Cellular::Type>& valid_types) const { |
| return base::Contains(valid_types, GetParam()); |
| } |
| |
| void PopulateProxies() { |
| dbus_properties_proxy_.reset(new NiceMock<MockDBusPropertiesProxy>()); |
| mm1_modem_location_proxy_.reset(new mm1::MockModemLocationProxy()); |
| mm1_modem_3gpp_proxy_.reset(new mm1::MockModemModem3gppProxy()); |
| mm1_modem_cdma_proxy_.reset(new mm1::MockModemModemCdmaProxy()); |
| mm1_proxy_.reset(new mm1::MockModemProxy()); |
| mm1_simple_proxy_.reset(new mm1::MockModemSimpleProxy()); |
| } |
| |
| void SetMockMobileOperatorInfoObjects() { |
| mock_home_provider_info_ = |
| new NiceMock<MockMobileOperatorInfo>(&dispatcher_, "HomeProvider"); |
| // Takes ownership. |
| device_->set_home_provider_info(mock_home_provider_info_); |
| |
| mock_serving_operator_info_ = |
| new NiceMock<MockMobileOperatorInfo>(&dispatcher_, "ServingOperator"); |
| // Takes ownership. |
| device_->set_serving_operator_info(mock_serving_operator_info_); |
| } |
| |
| void InvokeEnable(bool enable, |
| Error* error, |
| const ResultCallback& callback, |
| int timeout) { |
| callback.Run(Error()); |
| } |
| void InvokeEnableReturningWrongState(bool enable, |
| Error* error, |
| const ResultCallback& callback, |
| int timeout) { |
| callback.Run(Error(Error::kWrongState)); |
| } |
| void InvokeGetModemStatus(Error* error, |
| const KeyValueStoreCallback& callback, |
| int timeout) { |
| KeyValueStore props; |
| props.Set<string>("carrier", kTestCarrier); |
| props.Set<string>("unknown-property", "irrelevant-value"); |
| callback.Run(props, Error()); |
| } |
| void InvokeConnect(const KeyValueStore& props, |
| Error* error, |
| const RpcIdentifierCallback& callback, |
| int timeout) { |
| EXPECT_EQ(Service::kStateAssociating, device_->service_->state()); |
| callback.Run(kTestBearerPath, Error()); |
| } |
| void InvokeConnectFail(const KeyValueStore& props, |
| Error* error, |
| const RpcIdentifierCallback& callback, |
| int timeout) { |
| EXPECT_EQ(Service::kStateAssociating, device_->service_->state()); |
| callback.Run(RpcIdentifier(), Error(Error::kNotOnHomeNetwork)); |
| } |
| void InvokeConnectFailNoService(const KeyValueStore& props, |
| Error* error, |
| const RpcIdentifierCallback& callback, |
| int timeout) { |
| device_->service_ = nullptr; |
| callback.Run(RpcIdentifier(), Error(Error::kNotOnHomeNetwork)); |
| } |
| void InvokeConnectSuccessNoService(const KeyValueStore& props, |
| Error* error, |
| const RpcIdentifierCallback& callback, |
| int timeout) { |
| device_->service_ = nullptr; |
| callback.Run(kTestBearerPath, Error()); |
| } |
| void InvokeDisconnect(const RpcIdentifier& bearer, |
| Error* error, |
| const ResultCallback& callback, |
| int timeout) { |
| if (!callback.is_null()) |
| callback.Run(Error()); |
| } |
| void InvokeDisconnectFail(const RpcIdentifier& bearer, |
| Error* error, |
| const ResultCallback& callback, |
| int timeout) { |
| error->Populate(Error::kOperationFailed); |
| if (!callback.is_null()) |
| callback.Run(*error); |
| } |
| void InvokeDisconnectMM1(const RpcIdentifier& bearer, |
| Error* error, |
| const ResultCallback& callback, |
| int timeout) { |
| if (!callback.is_null()) |
| callback.Run(Error()); |
| } |
| void InvokeSetPowerState(const uint32_t& power_state, |
| Error* error, |
| const ResultCallback& callback, |
| int timeout) { |
| callback.Run(Error()); |
| } |
| |
| void ExpectDisconnectCapability3gpp() { |
| device_->state_ = Cellular::kStateConnected; |
| EXPECT_CALL(*mm1_simple_proxy_, Disconnect(_, _, _, _)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeDisconnectMM1)); |
| GetCapability3gpp()->modem_simple_proxy_.reset(mm1_simple_proxy_.release()); |
| } |
| |
| void VerifyDisconnect() { |
| EXPECT_EQ(Cellular::kStateRegistered, device_->state_); |
| } |
| |
| void StartPPP(int pid) { |
| EXPECT_CALL(process_manager_, StartProcess(_, _, _, _, _, _)) |
| .WillOnce(Return(pid)); |
| device_->StartPPP("fake_serial_device"); |
| EXPECT_FALSE(device_->ipconfig()); // No DHCP client. |
| EXPECT_FALSE(device_->selected_service()); |
| EXPECT_FALSE(device_->is_ppp_authenticating_); |
| EXPECT_NE(nullptr, device_->ppp_task_); |
| Mock::VerifyAndClearExpectations(&process_manager_); |
| } |
| |
| void FakeUpConnectedPPP() { |
| const char kInterfaceName[] = "fake-ppp-device"; |
| const int kInterfaceIndex = -1; |
| auto mock_ppp_device = base::MakeRefCounted<MockPPPDevice>( |
| modem_info_.manager(), kInterfaceName, kInterfaceIndex); |
| device_->ppp_device_ = mock_ppp_device; |
| device_->state_ = Cellular::kStateConnected; |
| } |
| |
| void ExpectPPPStopped() { |
| auto mock_ppp_device = |
| static_cast<MockPPPDevice*>(device_->ppp_device_.get()); |
| EXPECT_CALL(*mock_ppp_device, DropConnection()); |
| } |
| |
| void VerifyPPPStopped() { |
| EXPECT_EQ(nullptr, device_->ppp_task_); |
| EXPECT_FALSE(device_->ppp_device_); |
| } |
| |
| void SetCommonOnAfterResumeExpectations() { |
| EXPECT_CALL(*dbus_properties_proxy_, GetAll(_)) |
| .WillRepeatedly(Return(KeyValueStore())); |
| EXPECT_CALL(*mm1_proxy_, set_state_changed_callback(_)).Times(AnyNumber()); |
| EXPECT_CALL(*modem_info_.mock_manager(), UpdateEnabledTechnologies()) |
| .Times(AnyNumber()); |
| EXPECT_CALL(*static_cast<DeviceMockAdaptor*>(device_->adaptor()), |
| EmitBoolChanged(_, _)) |
| .Times(AnyNumber()); |
| } |
| |
| mm1::MockModemProxy* SetupOnAfterResume() { |
| SetCommonOnAfterResumeExpectations(); |
| return mm1_proxy_.get(); // Before the capability snags it. |
| } |
| |
| void VerifyOperatorMap(const Stringmap& operator_map, |
| const string& code, |
| const string& name, |
| const string& country) { |
| Stringmap::const_iterator it; |
| Stringmap::const_iterator endit = operator_map.end(); |
| |
| it = operator_map.find(kOperatorCodeKey); |
| if (code == "") { |
| EXPECT_EQ(endit, it); |
| } else { |
| ASSERT_NE(endit, it); |
| EXPECT_EQ(code, it->second); |
| } |
| it = operator_map.find(kOperatorNameKey); |
| if (name == "") { |
| EXPECT_EQ(endit, it); |
| } else { |
| ASSERT_NE(endit, it); |
| EXPECT_EQ(name, it->second); |
| } |
| it = operator_map.find(kOperatorCountryKey); |
| if (country == "") { |
| EXPECT_EQ(endit, it); |
| } else { |
| ASSERT_NE(endit, it); |
| EXPECT_EQ(country, it->second); |
| } |
| } |
| |
| MOCK_METHOD(void, TestCallback, (const Error&)); |
| |
| protected: |
| static const char kTestDeviceName[]; |
| static const char kTestDeviceAddress[]; |
| static const char kDBusService[]; |
| static const RpcIdentifier kDBusPath; |
| static const char kTestCarrier[]; |
| static const char kTestCarrierSPN[]; |
| static const char kMEID[]; |
| static const char kIMEI[]; |
| static const char kIMSI[]; |
| static const char kMSISDN[]; |
| static const char kTestMobileProviderDBPath[]; |
| static const Stringmaps kTestNetworksCellular; |
| static const int kStrength; |
| |
| // Must be std::string so that we can safely ReturnRef. |
| const string kHomeProviderCode; |
| const string kHomeProviderCountry; |
| const string kHomeProviderName; |
| const string kServingOperatorCode; |
| const string kServingOperatorCountry; |
| const string kServingOperatorName; |
| |
| class TestControl : public MockControl { |
| public: |
| explicit TestControl(CellularTest* test) : test_(test) {} |
| |
| std::unique_ptr<DBusPropertiesProxyInterface> CreateDBusPropertiesProxy( |
| const RpcIdentifier& path, const std::string& service) override { |
| CHECK(test_->dbus_properties_proxy_); |
| return std::move(test_->dbus_properties_proxy_); |
| } |
| |
| std::unique_ptr<mm1::ModemLocationProxyInterface> |
| CreateMM1ModemLocationProxy(const RpcIdentifier& path, |
| const std::string& service) override { |
| CHECK(test_->mm1_modem_location_proxy_); |
| return std::move(test_->mm1_modem_location_proxy_); |
| } |
| |
| std::unique_ptr<mm1::ModemModem3gppProxyInterface> |
| CreateMM1ModemModem3gppProxy(const RpcIdentifier& path, |
| const std::string& service) override { |
| CHECK(test_->mm1_modem_3gpp_proxy_); |
| return std::move(test_->mm1_modem_3gpp_proxy_); |
| } |
| |
| std::unique_ptr<mm1::ModemModemCdmaProxyInterface> |
| CreateMM1ModemModemCdmaProxy(const RpcIdentifier& path, |
| const std::string& service) override { |
| CHECK(test_->mm1_modem_cdma_proxy_); |
| return std::move(test_->mm1_modem_cdma_proxy_); |
| } |
| |
| std::unique_ptr<mm1::ModemProxyInterface> CreateMM1ModemProxy( |
| const RpcIdentifier& path, const std::string& service) override { |
| CHECK(test_->mm1_proxy_); |
| return std::move(test_->mm1_proxy_); |
| } |
| |
| std::unique_ptr<mm1::ModemSimpleProxyInterface> CreateMM1ModemSimpleProxy( |
| const RpcIdentifier& /*path*/, const string& /*service*/) override { |
| CHECK(test_->mm1_simple_proxy_); |
| return std::move(test_->mm1_simple_proxy_); |
| } |
| |
| private: |
| CellularTest* test_; |
| }; |
| |
| void AllowCreateGsmCardProxyFromFactory() { |
| create_gsm_card_proxy_from_factory_ = true; |
| } |
| |
| CellularCapability3gpp* GetCapability3gpp() { |
| return static_cast<CellularCapability3gpp*>(device_->capability_.get()); |
| } |
| |
| // Different tests simulate a cellular service being set using a real /mock |
| // service. |
| CellularService* SetService() { |
| device_->service_ = |
| new CellularService(modem_info_.manager(), device_->imsi(), |
| device_->iccid(), device_->GetSimCardId()); |
| device_->service_->SetDevice(device_.get()); |
| return device_->service_.get(); |
| } |
| MockCellularService* SetMockService() { |
| device_->service_ = |
| new NiceMock<MockCellularService>(modem_info_.manager(), device_); |
| return static_cast<MockCellularService*>(device_->service_.get()); |
| } |
| |
| void set_enabled_persistent(bool new_value) { |
| device_->enabled_persistent_ = new_value; |
| } |
| |
| void SetCapability3gppActiveBearer(unique_ptr<CellularBearer> bearer) { |
| CellularCapability3gpp* capability = GetCapability3gpp(); |
| capability->active_bearer_ = std::move(bearer); |
| } |
| |
| EventDispatcherForTest dispatcher_; |
| TestControl control_interface_; |
| NiceMock<MockMetrics> metrics_; |
| MockModemInfo modem_info_; |
| NiceMock<MockDeviceInfo> device_info_; |
| NiceMock<MockProcessManager> process_manager_; |
| NiceMock<MockRTNLHandler> rtnl_handler_; |
| |
| MockDHCPProvider dhcp_provider_; |
| scoped_refptr<MockDHCPConfig> dhcp_config_; |
| |
| bool create_gsm_card_proxy_from_factory_; |
| unique_ptr<NiceMock<MockDBusPropertiesProxy>> dbus_properties_proxy_; |
| unique_ptr<mm1::MockModemModem3gppProxy> mm1_modem_3gpp_proxy_; |
| unique_ptr<mm1::MockModemModemCdmaProxy> mm1_modem_cdma_proxy_; |
| unique_ptr<mm1::MockModemLocationProxy> mm1_modem_location_proxy_; |
| unique_ptr<mm1::MockModemProxy> mm1_proxy_; |
| unique_ptr<mm1::MockModemSimpleProxy> mm1_simple_proxy_; |
| MockMobileOperatorInfo* mock_home_provider_info_; |
| MockMobileOperatorInfo* mock_serving_operator_info_; |
| CellularRefPtr device_; |
| CellularServiceProvider cellular_service_provider_{modem_info_.manager()}; |
| NiceMock<MockStore> profile_storage_; |
| scoped_refptr<NiceMock<MockProfile>> profile_; |
| }; |
| |
| const char CellularTest::kTestDeviceName[] = "usb0"; |
| const char CellularTest::kTestDeviceAddress[] = "000102030405"; |
| const char CellularTest::kDBusService[] = "org.freedesktop.ModemManager1"; |
| const RpcIdentifier CellularTest::kDBusPath( |
| "/org/freedesktop/ModemManager1/Modem/0"); |
| const char CellularTest::kTestCarrier[] = "The Cellular Carrier"; |
| const char CellularTest::kTestCarrierSPN[] = "Home Provider"; |
| const char CellularTest::kMEID[] = "01234567EF8901"; |
| const char CellularTest::kIMEI[] = "987654321098765"; |
| const char CellularTest::kIMSI[] = "123456789012345"; |
| const char CellularTest::kMSISDN[] = "12345678901"; |
| const char CellularTest::kTestMobileProviderDBPath[] = |
| "provider_db_unittest.bfd"; |
| const Stringmaps CellularTest::kTestNetworksCellular = { |
| {{kStatusProperty, "available"}, |
| {kNetworkIdProperty, "0000"}, |
| {kLongNameProperty, "some_long_name"}, |
| {kShortNameProperty, "short"}}}; |
| const int CellularTest::kStrength = 90; |
| |
| TEST_P(CellularTest, GetStorageIdentifier) { |
| // IMEI should be used if IMEI, MEID, and equipment ID are available. |
| device_->set_imei(kIMEI); |
| device_->set_meid(kMEID); |
| device_->set_equipment_id("1234ABCD"); |
| EXPECT_EQ("device_987654321098765", device_->GetStorageIdentifier()); |
| |
| // MEID should be used if IMEI is not available. |
| device_->set_imei(""); |
| EXPECT_EQ("device_01234567EF8901", device_->GetStorageIdentifier()); |
| |
| // Equipment ID should be used if neither IMEI nor MEID is available. |
| device_->set_meid(""); |
| EXPECT_EQ("device_1234ABCD", device_->GetStorageIdentifier()); |
| |
| // MAC address should be used as if none of IMEI, MEID, and equipment ID is |
| // available. |
| device_->set_equipment_id(""); |
| EXPECT_EQ("device_000102030405", device_->GetStorageIdentifier()); |
| } |
| |
| TEST_P(CellularTest, GetStateString) { |
| EXPECT_EQ("CellularStateDisabled", |
| Cellular::GetStateString(Cellular::kStateDisabled)); |
| EXPECT_EQ("CellularStateEnabled", |
| Cellular::GetStateString(Cellular::kStateEnabled)); |
| EXPECT_EQ("CellularStateRegistered", |
| Cellular::GetStateString(Cellular::kStateRegistered)); |
| EXPECT_EQ("CellularStateConnected", |
| Cellular::GetStateString(Cellular::kStateConnected)); |
| EXPECT_EQ("CellularStateLinked", |
| Cellular::GetStateString(Cellular::kStateLinked)); |
| } |
| |
| TEST_P(CellularTest, GetModemStateString) { |
| EXPECT_EQ("CellularModemStateFailed", |
| Cellular::GetModemStateString(Cellular::kModemStateFailed)); |
| EXPECT_EQ("CellularModemStateUnknown", |
| Cellular::GetModemStateString(Cellular::kModemStateUnknown)); |
| EXPECT_EQ("CellularModemStateInitializing", |
| Cellular::GetModemStateString(Cellular::kModemStateInitializing)); |
| EXPECT_EQ("CellularModemStateLocked", |
| Cellular::GetModemStateString(Cellular::kModemStateLocked)); |
| EXPECT_EQ("CellularModemStateDisabled", |
| Cellular::GetModemStateString(Cellular::kModemStateDisabled)); |
| EXPECT_EQ("CellularModemStateDisabling", |
| Cellular::GetModemStateString(Cellular::kModemStateDisabling)); |
| EXPECT_EQ("CellularModemStateEnabling", |
| Cellular::GetModemStateString(Cellular::kModemStateEnabling)); |
| EXPECT_EQ("CellularModemStateEnabled", |
| Cellular::GetModemStateString(Cellular::kModemStateEnabled)); |
| EXPECT_EQ("CellularModemStateSearching", |
| Cellular::GetModemStateString(Cellular::kModemStateSearching)); |
| EXPECT_EQ("CellularModemStateRegistered", |
| Cellular::GetModemStateString(Cellular::kModemStateRegistered)); |
| EXPECT_EQ("CellularModemStateDisconnecting", |
| Cellular::GetModemStateString(Cellular::kModemStateDisconnecting)); |
| EXPECT_EQ("CellularModemStateConnecting", |
| Cellular::GetModemStateString(Cellular::kModemStateConnecting)); |
| EXPECT_EQ("CellularModemStateConnected", |
| Cellular::GetModemStateString(Cellular::kModemStateConnected)); |
| } |
| |
| #if !defined(DISABLE_CELLULAR_CAPABILITY_CLASSIC_TESTS) |
| TEST_P(CellularTest, StartCdmaRegister) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kTypeCdma})) { |
| return; |
| } |
| |
| ExpectCdmaStartModem(kNetworkTechnology1Xrtt); |
| EXPECT_CALL(*cdma_proxy_, MEID()).WillOnce(Return(kMEID)); |
| Error error; |
| device_->Start(&error, Bind(&CellularTest::TestCallback, Unretained(this))); |
| dispatcher_.DispatchPendingEvents(); |
| EXPECT_EQ(kMEID, device_->meid()); |
| EXPECT_EQ(kTestCarrier, device_->carrier()); |
| EXPECT_EQ(Cellular::kStateRegistered, device_->state_); |
| ASSERT_NE(nullptr, device_->service_); |
| EXPECT_EQ(kNetworkTechnology1Xrtt, device_->service_->network_technology()); |
| EXPECT_EQ(kStrength, device_->service_->strength()); |
| EXPECT_EQ(kRoamingStateHome, device_->service_->roaming_state()); |
| } |
| |
| TEST_P(CellularTest, StartGsmRegister) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kTypeGsm})) { |
| return; |
| } |
| |
| SetMockMobileOperatorInfoObjects(); |
| EXPECT_CALL(*proxy_, Enable(true, _, _, CellularCapability::kTimeoutEnable)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeEnable)); |
| EXPECT_CALL(*gsm_card_proxy_, |
| GetIMEI(_, _, CellularCapability::kTimeoutDefault)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeGetIMEI)); |
| EXPECT_CALL(*gsm_card_proxy_, |
| GetIMSI(_, _, CellularCapability::kTimeoutDefault)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeGetIMSI)); |
| EXPECT_CALL(*gsm_card_proxy_, |
| GetSPN(_, _, CellularCapability::kTimeoutDefault)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeGetSPN)); |
| EXPECT_CALL(*gsm_card_proxy_, |
| GetMSISDN(_, _, CellularCapability::kTimeoutDefault)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeGetMSISDN)); |
| EXPECT_CALL(*gsm_network_proxy_, AccessTechnology()) |
| .WillOnce(Return(MM_MODEM_GSM_ACCESS_TECH_EDGE)); |
| EXPECT_CALL(*gsm_card_proxy_, EnabledFacilityLocks()) |
| .WillOnce(Return(MM_MODEM_GSM_FACILITY_SIM)); |
| EXPECT_CALL(*proxy_, GetModemInfo(_, _, CellularCapability::kTimeoutDefault)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeGetModemInfo)); |
| EXPECT_CALL(*gsm_network_proxy_, |
| GetRegistrationInfo(_, _, CellularCapability::kTimeoutDefault)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeGetRegistrationInfo)); |
| EXPECT_CALL(*gsm_network_proxy_, GetSignalQuality(nullptr, _, _)) |
| .Times(2) |
| .WillRepeatedly(Invoke(this, &CellularTest::InvokeGetSignalQuality)); |
| EXPECT_CALL(*mock_serving_operator_info_, UpdateMCCMNC(_)); |
| EXPECT_CALL(*mock_serving_operator_info_, UpdateOperatorName(_)); |
| EXPECT_CALL(*this, TestCallback(IsSuccess())); |
| EXPECT_CALL(*modem_info_.mock_manager(), RegisterService(_)); |
| AllowCreateGsmCardProxyFromFactory(); |
| |
| Error error; |
| device_->Start(&error, Bind(&CellularTest::TestCallback, Unretained(this))); |
| EXPECT_TRUE(error.IsSuccess()); |
| dispatcher_.DispatchPendingEvents(); |
| EXPECT_EQ(kIMEI, device_->imei()); |
| EXPECT_EQ(kIMSI, device_->imsi()); |
| EXPECT_EQ(kTestCarrierSPN, GetCapabilityGsm()->spn_); |
| EXPECT_EQ(kMSISDN, device_->mdn()); |
| EXPECT_EQ(Cellular::kStateRegistered, device_->state_); |
| ASSERT_NE(nullptr, device_->service_); |
| EXPECT_EQ(kNetworkTechnologyEdge, device_->service_->network_technology()); |
| EXPECT_TRUE(GetCapabilityGsm()->sim_lock_status_.enabled); |
| EXPECT_EQ(kStrength, device_->service_->strength()); |
| EXPECT_EQ(kRoamingStateRoaming, device_->service_->roaming_state()); |
| } |
| |
| TEST_P(CellularTest, StartConnected) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kTypeCdma})) { |
| return; |
| } |
| |
| EXPECT_CALL(device_info_, GetFlags(device_->interface_index(), _)) |
| .WillOnce(Return(true)); |
| |
| device_->set_modem_state(Cellular::kModemStateConnected); |
| device_->set_meid(kMEID); |
| ExpectCdmaStartModem(kNetworkTechnologyEvdo); |
| Error error; |
| device_->Start(&error, Bind(&CellularTest::TestCallback, Unretained(this))); |
| EXPECT_TRUE(error.IsSuccess()); |
| dispatcher_.DispatchPendingEvents(); |
| EXPECT_EQ(Cellular::kStateConnected, device_->state_); |
| } |
| |
| TEST_P(CellularTest, StartLinked) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kTypeCdma})) { |
| return; |
| } |
| |
| EXPECT_CALL(device_info_, GetFlags(device_->interface_index(), _)) |
| .WillOnce(DoAll(SetArgPointee<1>(IFF_UP), Return(true))); |
| device_->set_modem_state(Cellular::kModemStateConnected); |
| device_->set_meid(kMEID); |
| ExpectCdmaStartModem(kNetworkTechnologyEvdo); |
| EXPECT_CALL(dhcp_provider_, CreateIPv4Config(kTestDeviceName, _, _, _)) |
| .WillOnce(Return(dhcp_config_)); |
| EXPECT_CALL(*dhcp_config_, RequestIP()).WillOnce(Return(true)); |
| EXPECT_CALL(*modem_info_.mock_manager(), UpdateService(_)).Times(3); |
| Error error; |
| device_->Start(&error, Bind(&CellularTest::TestCallback, Unretained(this))); |
| EXPECT_TRUE(error.IsSuccess()); |
| dispatcher_.DispatchPendingEvents(); |
| EXPECT_EQ(Cellular::kStateLinked, device_->state_); |
| EXPECT_EQ(Service::kStateConfiguring, device_->service_->state()); |
| device_->SelectService(nullptr); |
| } |
| |
| TEST_P(CellularTest, FriendlyServiceName) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kTypeCdma})) { |
| return; |
| } |
| |
| // Test that the name created for the service is sensible under different |
| // scenarios w.r.t. information about the mobile network operator. |
| SetMockMobileOperatorInfoObjects(); |
| CHECK(mock_home_provider_info_); |
| CHECK(mock_serving_operator_info_); |
| |
| // (1) Service created, MNO not known => Default name. |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| device_->CreateService(); |
| // Compare substrings explicitly using EXPECT_EQ for better error message. |
| size_t prefix_len = strlen(Cellular::kGenericServiceNamePrefix); |
| EXPECT_EQ(Cellular::kGenericServiceNamePrefix, |
| device_->service_->friendly_name().substr(0, prefix_len)); |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| device_->DestroyService(); |
| |
| // (2) Service created, then home provider determined => Name provided by |
| // home provider. |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| device_->CreateService(); |
| // Now emulate an event for updated home provider information. |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_home_provider_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kHomeProviderName)); |
| device_->OnOperatorChanged(); |
| EXPECT_EQ(kHomeProviderName, device_->service_->friendly_name()); |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| device_->DestroyService(); |
| |
| // (3) Service created, then serving operator determined => Name provided by |
| // serving operator. |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| device_->CreateService(); |
| // Now emulate an event for updated serving operator information. |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_serving_operator_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kServingOperatorName)); |
| device_->OnOperatorChanged(); |
| EXPECT_EQ(kServingOperatorName, device_->service_->friendly_name()); |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| device_->DestroyService(); |
| |
| // (4) Service created, then home provider determined, then serving operator |
| // determined => final name is serving operator. |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| device_->CreateService(); |
| // Now emulate an event for updated home provider information. |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_home_provider_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kHomeProviderName)); |
| device_->OnOperatorChanged(); |
| // Now emulate an event for updated serving operator information. |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_serving_operator_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kServingOperatorName)); |
| device_->OnOperatorChanged(); |
| EXPECT_EQ(kServingOperatorName, device_->service_->friendly_name()); |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| device_->DestroyService(); |
| |
| // (5) Service created, then serving operator determined, then home provider |
| // determined => final name is serving operator. |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| device_->CreateService(); |
| // Now emulate an event for updated serving operator information. |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_serving_operator_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kServingOperatorName)); |
| device_->OnOperatorChanged(); |
| // Now emulate an event for updated home provider information. |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_home_provider_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kHomeProviderName)); |
| device_->OnOperatorChanged(); |
| EXPECT_EQ(kServingOperatorName, device_->service_->friendly_name()); |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| device_->DestroyService(); |
| |
| // (6) Serving operator known, home provider known, and then service created |
| // => Name is serving operator. |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_home_provider_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kHomeProviderName)); |
| EXPECT_CALL(*mock_serving_operator_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kServingOperatorName)); |
| device_->CreateService(); |
| EXPECT_EQ(kServingOperatorName, device_->service_->friendly_name()); |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| device_->DestroyService(); |
| |
| // (7) Serving operator known, home provider known, and roaming state is set |
| // => Name is the form of "home provider | serving operator". |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_home_provider_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kHomeProviderName)); |
| EXPECT_CALL(*mock_serving_operator_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kServingOperatorName)); |
| device_->CreateService(); |
| device_->service_->roaming_state_ = kRoamingStateRoaming; |
| device_->OnOperatorChanged(); |
| EXPECT_EQ(kHomeProviderName + " | " + kServingOperatorName, |
| device_->service_->friendly_name()); |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| device_->DestroyService(); |
| |
| // (8) Like (7) but home provider and serving operator have the same name |
| // => Only one name is shown. |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_home_provider_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kHomeProviderName)); |
| EXPECT_CALL(*mock_serving_operator_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kHomeProviderName)); |
| device_->CreateService(); |
| device_->service_->roaming_state_ = kRoamingStateRoaming; |
| device_->OnOperatorChanged(); |
| EXPECT_EQ(kHomeProviderName, device_->service_->friendly_name()); |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| device_->DestroyService(); |
| } |
| #endif // !defined(DISABLE_CELLULAR_CAPABILITY_CLASSIC_TESTS) |
| |
| TEST_P(CellularTest, HomeProviderServingOperator) { |
| // Test that the the home provider information is correctly updated under |
| // different scenarios w.r.t. information about the mobile network operators. |
| SetMockMobileOperatorInfoObjects(); |
| CHECK(mock_home_provider_info_); |
| CHECK(mock_serving_operator_info_); |
| Stringmap home_provider; |
| Stringmap serving_operator; |
| |
| // (1) Neither home provider nor serving operator known. |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| |
| device_->CreateService(); |
| |
| home_provider = device_->home_provider(); |
| VerifyOperatorMap(home_provider, "", "", ""); |
| serving_operator = device_->service_->serving_operator(); |
| VerifyOperatorMap(serving_operator, "", "", ""); |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| device_->DestroyService(); |
| |
| PopulateProxies(); |
| |
| // (2) serving operator known. |
| // When home provider is not known, serving operator proxies in. |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_serving_operator_info_, mccmnc()) |
| .WillRepeatedly(ReturnRef(kServingOperatorCode)); |
| EXPECT_CALL(*mock_serving_operator_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kServingOperatorName)); |
| EXPECT_CALL(*mock_serving_operator_info_, country()) |
| .WillRepeatedly(ReturnRef(kServingOperatorCountry)); |
| |
| device_->CreateService(); |
| |
| home_provider = device_->home_provider(); |
| VerifyOperatorMap(home_provider, kServingOperatorCode, kServingOperatorName, |
| kServingOperatorCountry); |
| serving_operator = device_->service_->serving_operator(); |
| VerifyOperatorMap(serving_operator, kServingOperatorCode, |
| kServingOperatorName, kServingOperatorCountry); |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| device_->DestroyService(); |
| |
| PopulateProxies(); |
| |
| // (3) home provider known. |
| // When serving operator is not known, home provider proxies in. |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_home_provider_info_, mccmnc()) |
| .WillRepeatedly(ReturnRef(kHomeProviderCode)); |
| EXPECT_CALL(*mock_home_provider_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kHomeProviderName)); |
| EXPECT_CALL(*mock_home_provider_info_, country()) |
| .WillRepeatedly(ReturnRef(kHomeProviderCountry)); |
| |
| device_->CreateService(); |
| |
| home_provider = device_->home_provider(); |
| VerifyOperatorMap(home_provider, kHomeProviderCode, kHomeProviderName, |
| kHomeProviderCountry); |
| serving_operator = device_->service_->serving_operator(); |
| VerifyOperatorMap(serving_operator, kHomeProviderCode, kHomeProviderName, |
| kHomeProviderCountry); |
| Mock::VerifyAndClearExpectations(mock_home_provider_info_); |
| Mock::VerifyAndClearExpectations(mock_serving_operator_info_); |
| device_->DestroyService(); |
| |
| PopulateProxies(); |
| |
| // (4) Serving operator known, home provider known. |
| EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_home_provider_info_, mccmnc()) |
| .WillRepeatedly(ReturnRef(kHomeProviderCode)); |
| EXPECT_CALL(*mock_home_provider_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kHomeProviderName)); |
| EXPECT_CALL(*mock_home_provider_info_, country()) |
| .WillRepeatedly(ReturnRef(kHomeProviderCountry)); |
| EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown()) |
| .WillRepeatedly(Return(true)); |
| EXPECT_CALL(*mock_serving_operator_info_, mccmnc()) |
| .WillRepeatedly(ReturnRef(kServingOperatorCode)); |
| EXPECT_CALL(*mock_serving_operator_info_, operator_name()) |
| .WillRepeatedly(ReturnRef(kServingOperatorName)); |
| EXPECT_CALL(*mock_serving_operator_info_, country()) |
| .WillRepeatedly(ReturnRef(kServingOperatorCountry)); |
| |
| device_->CreateService(); |
| |
| home_provider = device_->home_provider(); |
| VerifyOperatorMap(home_provider, kHomeProviderCode, kHomeProviderName, |
| kHomeProviderCountry); |
| serving_operator = device_->service_->serving_operator(); |
| VerifyOperatorMap(serving_operator, kServingOperatorCode, |
| kServingOperatorName, kServingOperatorCountry); |
| } |
| |
| TEST_P(CellularTest, StorageIdentifier) { |
| // The default storage identifier should always be cellular_{imsi} |
| device_->set_imsi("test_imsi"); |
| device_->CreateService(); |
| EXPECT_EQ("cellular_test_imsi", device_->service()->GetStorageIdentifier()); |
| device_->DestroyService(); |
| } |
| |
| TEST_P(CellularTest, Connect) { |
| Error error; |
| EXPECT_CALL(device_info_, GetFlags(device_->interface_index(), _)) |
| .Times(2) |
| .WillRepeatedly(Return(true)); |
| device_->state_ = Cellular::kStateConnected; |
| device_->Connect(&error); |
| EXPECT_EQ(Error::kAlreadyConnected, error.type()); |
| error.Populate(Error::kSuccess); |
| |
| device_->state_ = Cellular::kStateLinked; |
| device_->Connect(&error); |
| EXPECT_EQ(Error::kAlreadyConnected, error.type()); |
| |
| device_->state_ = Cellular::kStateEnabled; |
| device_->Connect(&error); |
| EXPECT_EQ(Error::kNotRegistered, error.type()); |
| |
| error.Reset(); |
| device_->state_ = Cellular::kStateDisabled; |
| device_->Connect(&error); |
| EXPECT_EQ(Error::kNotRegistered, error.type()); |
| |
| device_->state_ = Cellular::kStateRegistered; |
| SetService(); |
| |
| device_->allow_roaming_ = false; |
| device_->service_->roaming_state_ = kRoamingStateRoaming; |
| device_->Connect(&error); |
| EXPECT_EQ(Error::kNotOnHomeNetwork, error.type()); |
| |
| error.Populate(Error::kSuccess); |
| EXPECT_CALL(*mm1_simple_proxy_, |
| Connect(_, _, _, CellularCapability::kTimeoutConnect)) |
| .Times(2) |
| .WillRepeatedly(Invoke(this, &CellularTest::InvokeConnect)); |
| GetCapability3gpp()->modem_simple_proxy_ = std::move(mm1_simple_proxy_); |
| device_->service_->roaming_state_ = kRoamingStateHome; |
| device_->state_ = Cellular::kStateRegistered; |
| device_->Connect(&error); |
| EXPECT_TRUE(error.IsSuccess()); |
| dispatcher_.DispatchPendingEvents(); |
| EXPECT_EQ(Cellular::kStateConnected, device_->state_); |
| |
| device_->allow_roaming_ = true; |
| device_->service_->roaming_state_ = kRoamingStateRoaming; |
| device_->state_ = Cellular::kStateRegistered; |
| device_->Connect(&error); |
| EXPECT_TRUE(error.IsSuccess()); |
| dispatcher_.DispatchPendingEvents(); |
| EXPECT_EQ(Cellular::kStateConnected, device_->state_); |
| } |
| |
| TEST_P(CellularTest, Disconnect) { |
| Error error; |
| device_->state_ = Cellular::kStateRegistered; |
| device_->Disconnect(&error, "in test"); |
| EXPECT_EQ(Error::kNotConnected, error.type()); |
| error.Reset(); |
| |
| device_->state_ = Cellular::kStateConnected; |
| EXPECT_CALL(*mm1_simple_proxy_, |
| Disconnect(_, _, _, CellularCapability::kTimeoutDisconnect)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeDisconnect)); |
| GetCapability3gpp()->modem_simple_proxy_ = std::move(mm1_simple_proxy_); |
| device_->Disconnect(&error, "in test"); |
| EXPECT_TRUE(error.IsSuccess()); |
| EXPECT_EQ(Cellular::kStateRegistered, device_->state_); |
| } |
| |
| TEST_P(CellularTest, DisconnectFailure) { |
| // Test the case where the underlying modem state is set |
| // to disconnecting, but shill thinks it's still connected |
| Error error; |
| device_->state_ = Cellular::kStateConnected; |
| EXPECT_CALL(*mm1_simple_proxy_, |
| Disconnect(_, _, _, CellularCapability::kTimeoutDisconnect)) |
| .Times(2) |
| .WillRepeatedly(Invoke(this, &CellularTest::InvokeDisconnectFail)); |
| GetCapability3gpp()->modem_simple_proxy_ = std::move(mm1_simple_proxy_); |
| device_->modem_state_ = Cellular::kModemStateDisconnecting; |
| device_->Disconnect(&error, "in test"); |
| EXPECT_TRUE(error.IsFailure()); |
| EXPECT_EQ(Cellular::kStateConnected, device_->state_); |
| |
| device_->modem_state_ = Cellular::kModemStateConnected; |
| device_->Disconnect(&error, "in test"); |
| EXPECT_TRUE(error.IsFailure()); |
| EXPECT_EQ(Cellular::kStateRegistered, device_->state_); |
| } |
| |
| TEST_P(CellularTest, ConnectFailure) { |
| device_->state_ = Cellular::kStateRegistered; |
| SetService(); |
| ASSERT_EQ(Service::kStateIdle, device_->service_->state()); |
| EXPECT_CALL(*mm1_simple_proxy_, |
| Connect(_, _, _, CellularCapability::kTimeoutConnect)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeConnectFail)); |
| GetCapability3gpp()->modem_simple_proxy_ = std::move(mm1_simple_proxy_); |
| Error error; |
| device_->Connect(&error); |
| EXPECT_EQ(Service::kStateFailure, device_->service_->state()); |
| } |
| |
| TEST_P(CellularTest, ConnectFailureNoService) { |
| // Make sure we don't crash if the connect failed and there is no |
| // CellularService object. This can happen if the modem is enabled and |
| // then quick disabled. |
| device_->state_ = Cellular::kStateRegistered; |
| SetService(); |
| EXPECT_CALL(*mm1_simple_proxy_, |
| Connect(_, _, _, CellularCapability::kTimeoutConnect)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeConnectFailNoService)); |
| EXPECT_CALL(*modem_info_.mock_manager(), UpdateService(_)); |
| GetCapability3gpp()->modem_simple_proxy_ = std::move(mm1_simple_proxy_); |
| Error error; |
| device_->Connect(&error); |
| } |
| |
| TEST_P(CellularTest, ConnectSuccessNoService) { |
| // Make sure we don't crash if the connect succeeds but the service was |
| // destroyed before the connect request completes. |
| device_->state_ = Cellular::kStateRegistered; |
| SetService(); |
| EXPECT_CALL(*mm1_simple_proxy_, |
| Connect(_, _, _, CellularCapability::kTimeoutConnect)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeConnectSuccessNoService)); |
| EXPECT_CALL(*modem_info_.mock_manager(), UpdateService(_)); |
| GetCapability3gpp()->modem_simple_proxy_ = std::move(mm1_simple_proxy_); |
| Error error; |
| device_->Connect(&error); |
| } |
| |
| TEST_P(CellularTest, LinkEventWontDestroyService) { |
| // If the network interface goes down, Cellular::LinkEvent should |
| // drop the connection but the service object should persist. |
| device_->state_ = Cellular::kStateLinked; |
| CellularService* service = SetService(); |
| device_->LinkEvent(0, 0); // flags doesn't contain IFF_UP |
| EXPECT_EQ(device_->state_, Cellular::kStateConnected); |
| EXPECT_EQ(device_->service_, service); |
| } |
| |
| TEST_P(CellularTest, UseNoArpGateway) { |
| EXPECT_CALL(dhcp_provider_, CreateIPv4Config(kTestDeviceName, _, false, _)) |
| .WillOnce(Return(dhcp_config_)); |
| device_->AcquireIPConfig(); |
| } |
| |
| #if !defined(DISABLE_CELLULAR_CAPABILITY_CLASSIC_TESTS) |
| TEST_P(CellularTest, ModemStateChangeEnable) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kTypeCdma})) { |
| return; |
| } |
| |
| EXPECT_CALL(*simple_proxy_, |
| GetModemStatus(_, _, CellularCapability::kTimeoutDefault)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeGetModemStatus)); |
| EXPECT_CALL(*cdma_proxy_, MEID()).WillOnce(Return(kMEID)); |
| EXPECT_CALL(*proxy_, GetModemInfo(_, _, CellularCapability::kTimeoutDefault)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeGetModemInfo)); |
| EXPECT_CALL(*cdma_proxy_, GetRegistrationState(nullptr, _, _)) |
| .WillOnce( |
| Invoke(this, &CellularTest::InvokeGetRegistrationStateUnregistered)); |
| EXPECT_CALL(*cdma_proxy_, GetSignalQuality(nullptr, _, _)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeGetSignalQuality)); |
| EXPECT_CALL(*modem_info_.mock_manager(), UpdateEnabledTechnologies()); |
| device_->state_ = Cellular::kStateDisabled; |
| device_->set_modem_state(Cellular::kModemStateDisabled); |
| |
| KeyValueStore props; |
| props.Set<bool>(CellularCapabilityClassic::kModemPropertyEnabled, true); |
| device_->OnPropertiesChanged(MM_MODEM_INTERFACE, props, vector<string>()); |
| dispatcher_.DispatchPendingEvents(); |
| |
| EXPECT_EQ(Cellular::kModemStateEnabled, device_->modem_state()); |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state()); |
| EXPECT_TRUE(device_->enabled()); |
| } |
| |
| TEST_P(CellularTest, ModemStateChangeDisable) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kTypeCdma})) { |
| return; |
| } |
| |
| EXPECT_CALL(*proxy_, Disconnect(_, _, CellularCapability::kTimeoutDisconnect)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeDisconnect)); |
| EXPECT_CALL(*proxy_, Enable(false, _, _, CellularCapability::kTimeoutEnable)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeEnable)); |
| EXPECT_CALL(*modem_info_.mock_manager(), UpdateEnabledTechnologies()); |
| device_->enabled_ = true; |
| device_->enabled_pending_ = true; |
| device_->state_ = Cellular::kStateEnabled; |
| device_->set_modem_state(Cellular::kModemStateEnabled); |
| GetCapabilityClassic()->InitProxies(); |
| |
| GetCapabilityClassic()->OnModemStateChangedSignal( |
| kModemClassicStateEnabled, kModemClassicStateDisabled, 0); |
| dispatcher_.DispatchPendingEvents(); |
| |
| EXPECT_EQ(Cellular::kModemStateDisabled, device_->modem_state()); |
| EXPECT_EQ(Cellular::kStateDisabled, device_->state()); |
| EXPECT_FALSE(device_->enabled()); |
| } |
| #endif // !defined(DISABLE_CELLULAR_CAPABILITY_CLASSIC_TESTS) |
| |
| TEST_P(CellularTest, ModemStateChangeStaleConnected) { |
| // Test to make sure that we ignore stale modem Connected state transitions. |
| // When a modem is asked to connect and before the connect completes, the |
| // modem is disabled, it may send a stale Connected state transition after |
| // it has been disabled. |
| device_->state_ = Cellular::kStateDisabled; |
| device_->modem_state_ = Cellular::kModemStateEnabling; |
| device_->OnModemStateChanged(Cellular::kModemStateConnected); |
| dispatcher_.DispatchPendingEvents(); |
| EXPECT_EQ(Cellular::kStateDisabled, device_->state()); |
| } |
| |
| TEST_P(CellularTest, ModemStateChangeValidConnected) { |
| device_->state_ = Cellular::kStateEnabled; |
| device_->modem_state_ = Cellular::kModemStateConnecting; |
| SetService(); |
| device_->OnModemStateChanged(Cellular::kModemStateConnected); |
| EXPECT_EQ(Cellular::kStateConnected, device_->state()); |
| } |
| |
| TEST_P(CellularTest, ModemStateChangeLostRegistration) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| CellularCapability3gpp* capability = GetCapability3gpp(); |
| capability->registration_state_ = MM_MODEM_3GPP_REGISTRATION_STATE_HOME; |
| EXPECT_TRUE(capability->IsRegistered()); |
| device_->set_modem_state(Cellular::kModemStateRegistered); |
| device_->OnModemStateChanged(Cellular::kModemStateEnabled); |
| EXPECT_FALSE(capability->IsRegistered()); |
| } |
| |
| TEST_P(CellularTest, StartModemCallback) { |
| EXPECT_CALL(*this, TestCallback(IsSuccess())); |
| EXPECT_EQ(device_->state_, Cellular::kStateDisabled); |
| device_->StartModemCallback( |
| Bind(&CellularTest::TestCallback, Unretained(this)), |
| Error(Error::kSuccess)); |
| EXPECT_EQ(device_->state_, Cellular::kStateEnabled); |
| } |
| |
| TEST_P(CellularTest, StartModemCallbackFail) { |
| EXPECT_CALL(*this, TestCallback(IsFailure())); |
| EXPECT_EQ(device_->state_, Cellular::kStateDisabled); |
| device_->StartModemCallback( |
| Bind(&CellularTest::TestCallback, Unretained(this)), |
| Error(Error::kOperationFailed)); |
| EXPECT_EQ(device_->state_, Cellular::kStateDisabled); |
| } |
| |
| TEST_P(CellularTest, StopModemCallback) { |
| EXPECT_CALL(*this, TestCallback(IsSuccess())); |
| SetMockService(); |
| device_->StopModemCallback( |
| Bind(&CellularTest::TestCallback, Unretained(this)), |
| Error(Error::kSuccess)); |
| EXPECT_EQ(device_->state_, Cellular::kStateDisabled); |
| EXPECT_EQ(nullptr, device_->service_); |
| } |
| |
| TEST_P(CellularTest, StopModemCallbackFail) { |
| EXPECT_CALL(*this, TestCallback(IsFailure())); |
| SetMockService(); |
| device_->StopModemCallback( |
| Bind(&CellularTest::TestCallback, Unretained(this)), |
| Error(Error::kOperationFailed)); |
| EXPECT_EQ(device_->state_, Cellular::kStateDisabled); |
| EXPECT_EQ(nullptr, device_->service_); |
| } |
| |
| TEST_P(CellularTest, IsRoamingAllowedOrRequired) { |
| EXPECT_FALSE(device_->allow_roaming_); |
| EXPECT_FALSE(device_->provider_requires_roaming()); |
| EXPECT_FALSE(device_->IsRoamingAllowedOrRequired()); |
| |
| device_->set_provider_requires_roaming(true); |
| EXPECT_TRUE(device_->IsRoamingAllowedOrRequired()); |
| |
| device_->set_provider_requires_roaming(false); |
| device_->allow_roaming_ = true; |
| EXPECT_TRUE(device_->IsRoamingAllowedOrRequired()); |
| } |
| |
| TEST_P(CellularTest, SetAllowRoaming) { |
| EXPECT_FALSE(device_->allow_roaming_); |
| EXPECT_CALL(*modem_info_.mock_manager(), UpdateDevice(_)); |
| Error error; |
| device_->SetAllowRoaming(true, &error); |
| EXPECT_TRUE(error.IsSuccess()); |
| EXPECT_TRUE(device_->allow_roaming_); |
| } |
| |
| class TestRpcTaskDelegate : public RpcTaskDelegate, |
| public base::SupportsWeakPtr<TestRpcTaskDelegate> { |
| public: |
| virtual void GetLogin(std::string* user, std::string* password) {} |
| virtual void Notify(const std::string& reason, |
| const std::map<std::string, std::string>& dict) {} |
| }; |
| |
| TEST_P(CellularTest, LinkEventUpWithPPP) { |
| // If PPP is running, don't run DHCP as well. |
| TestRpcTaskDelegate task_delegate; |
| base::Callback<void(pid_t, int)> death_callback; |
| auto mock_task = std::make_unique<NiceMock<MockExternalTask>>( |
| modem_info_.control_interface(), &process_manager_, |
| task_delegate.AsWeakPtr(), death_callback); |
| EXPECT_CALL(*mock_task, OnDelete()).Times(AnyNumber()); |
| device_->ppp_task_ = std::move(mock_task); |
| device_->state_ = Cellular::kStateConnected; |
| EXPECT_CALL(dhcp_provider_, CreateIPv4Config(kTestDeviceName, _, _, _)) |
| .Times(0); |
| EXPECT_CALL(*dhcp_config_, RequestIP()).Times(0); |
| device_->LinkEvent(IFF_UP, 0); |
| } |
| |
| TEST_P(CellularTest, LinkEventUpWithoutPPP) { |
| // If PPP is not running, fire up DHCP. |
| device_->state_ = Cellular::kStateConnected; |
| EXPECT_CALL(dhcp_provider_, CreateIPv4Config(kTestDeviceName, _, _, _)) |
| .WillOnce(Return(dhcp_config_)); |
| EXPECT_CALL(*dhcp_config_, RequestIP()); |
| EXPECT_CALL(*dhcp_config_, ReleaseIP(_)).Times(AnyNumber()); |
| device_->LinkEvent(IFF_UP, 0); |
| } |
| |
| TEST_P(CellularTest, StartPPP) { |
| const int kPID = 234; |
| EXPECT_EQ(nullptr, device_->ppp_task_); |
| StartPPP(kPID); |
| } |
| |
| TEST_P(CellularTest, StartPPPAlreadyStarted) { |
| const int kPID = 234; |
| StartPPP(kPID); |
| |
| const int kPID2 = 235; |
| StartPPP(kPID2); |
| } |
| |
| TEST_P(CellularTest, StartPPPAfterEthernetUp) { |
| CellularService* service(SetService()); |
| device_->state_ = Cellular::kStateLinked; |
| device_->set_ipconfig(dhcp_config_); |
| device_->SelectService(service); |
| EXPECT_CALL(*dhcp_config_, ReleaseIP(_)) |
| .Times(AnyNumber()) |
| .WillRepeatedly(Return(true)); |
| const int kPID = 234; |
| EXPECT_EQ(nullptr, device_->ppp_task_); |
| StartPPP(kPID); |
| EXPECT_EQ(Cellular::kStateLinked, device_->state()); |
| } |
| |
| TEST_P(CellularTest, GetLogin) { |
| // Doesn't crash when there is no service. |
| string username_to_pppd; |
| string password_to_pppd; |
| EXPECT_FALSE(device_->service()); |
| device_->GetLogin(&username_to_pppd, &password_to_pppd); |
| |
| // Provides expected username and password in normal case. |
| const char kFakeUsername[] = "fake-user"; |
| const char kFakePassword[] = "fake-password"; |
| CellularService& service(*SetService()); |
| service.ppp_username_ = kFakeUsername; |
| service.ppp_password_ = kFakePassword; |
| device_->GetLogin(&username_to_pppd, &password_to_pppd); |
| } |
| |
| TEST_P(CellularTest, Notify) { |
| // Common setup. |
| MockPPPDeviceFactory* ppp_device_factory = |
| MockPPPDeviceFactory::GetInstance(); |
| const int kPID = 91; |
| device_->ppp_device_factory_ = ppp_device_factory; |
| SetMockService(); |
| StartPPP(kPID); |
| |
| const map<string, string> kEmptyArgs; |
| device_->Notify(kPPPReasonAuthenticating, kEmptyArgs); |
| EXPECT_TRUE(device_->is_ppp_authenticating_); |
| device_->Notify(kPPPReasonAuthenticated, kEmptyArgs); |
| EXPECT_FALSE(device_->is_ppp_authenticating_); |
| |
| // Normal connect. |
| const string kInterfaceName("fake-device"); |
| const int kInterfaceIndex = 1; |
| scoped_refptr<MockPPPDevice> ppp_device; |
| map<string, string> ppp_config; |
| ppp_device = |
| new MockPPPDevice(modem_info_.manager(), kInterfaceName, kInterfaceIndex); |
| ppp_config[kPPPInterfaceName] = kInterfaceName; |
| EXPECT_CALL(device_info_, GetIndex(kInterfaceName)) |
| .WillOnce(Return(kInterfaceIndex)); |
| EXPECT_CALL(device_info_, RegisterDevice(_)); |
| EXPECT_CALL(*ppp_device_factory, |
| CreatePPPDevice(_, kInterfaceName, kInterfaceIndex)) |
| .WillOnce(Return(ppp_device.get())); |
| EXPECT_CALL(*ppp_device, SetEnabled(true)); |
| EXPECT_CALL(*ppp_device, SelectService(_)); |
| EXPECT_CALL(*ppp_device, |
| UpdateIPConfigFromPPP(ppp_config, false /* blackhole_ipv6 */)); |
| device_->Notify(kPPPReasonConnect, ppp_config); |
| Mock::VerifyAndClearExpectations(&device_info_); |
| Mock::VerifyAndClearExpectations(ppp_device.get()); |
| |
| // Re-connect on same network device: if pppd sends us multiple connect |
| // events, we behave sanely. |
| EXPECT_CALL(device_info_, GetIndex(kInterfaceName)) |
| .WillOnce(Return(kInterfaceIndex)); |
| EXPECT_CALL(*ppp_device, SetEnabled(true)); |
| EXPECT_CALL(*ppp_device, SelectService(_)); |
| EXPECT_CALL(*ppp_device, |
| UpdateIPConfigFromPPP(ppp_config, false /* blackhole_ipv6 */)); |
| device_->Notify(kPPPReasonConnect, ppp_config); |
| Mock::VerifyAndClearExpectations(&device_info_); |
| Mock::VerifyAndClearExpectations(ppp_device.get()); |
| |
| // Re-connect on new network device: if we still have the PPPDevice |
| // from a prior connect, this new connect should DTRT. This is |
| // probably an unlikely case. |
| const string kInterfaceName2("fake-device2"); |
| const int kInterfaceIndex2 = 2; |
| scoped_refptr<MockPPPDevice> ppp_device2; |
| map<string, string> ppp_config2; |
| ppp_device2 = new MockPPPDevice(modem_info_.manager(), kInterfaceName2, |
| kInterfaceIndex2); |
| ppp_config2[kPPPInterfaceName] = kInterfaceName2; |
| EXPECT_CALL(device_info_, GetIndex(kInterfaceName2)) |
| .WillOnce(Return(kInterfaceIndex2)); |
| EXPECT_CALL(device_info_, |
| RegisterDevice(static_cast<DeviceRefPtr>(ppp_device2))); |
| EXPECT_CALL(*ppp_device_factory, |
| CreatePPPDevice(_, kInterfaceName2, kInterfaceIndex2)) |
| .WillOnce(Return(ppp_device2.get())); |
| EXPECT_CALL(*ppp_device, SelectService(ServiceRefPtr(nullptr))); |
| EXPECT_CALL(*ppp_device2, SetEnabled(true)); |
| EXPECT_CALL(*ppp_device2, SelectService(_)); |
| EXPECT_CALL(*ppp_device2, |
| UpdateIPConfigFromPPP(ppp_config2, false /* blackhole_ipv6 */)); |
| device_->Notify(kPPPReasonConnect, ppp_config2); |
| Mock::VerifyAndClearExpectations(&device_info_); |
| Mock::VerifyAndClearExpectations(ppp_device.get()); |
| Mock::VerifyAndClearExpectations(ppp_device2.get()); |
| |
| // Disconnect should report no failure, since we had a |
| // Notify(kPPPReasonAuthenticated, ...) and got no error from pppd. |
| EXPECT_CALL(*ppp_device2, SetServiceFailure(Service::kFailureNone)); |
| device_->OnPPPDied(kPID, EXIT_OK); |
| EXPECT_EQ(nullptr, device_->ppp_task_); |
| |
| // |Cellular::ppp_task_| is destroyed on the task loop. Must dispatch once to |
| // cleanup. |
| dispatcher_.DispatchPendingEvents(); |
| } |
| |
| TEST_P(CellularTest, PPPConnectionFailedBeforeAuth) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| // Test that we properly set Service state in the case where pppd |
| // disconnects before authenticating (as opposed to the Notify test, |
| // where pppd disconnects after connecting). |
| const int kPID = 52; |
| const map<string, string> kEmptyArgs; |
| MockCellularService* service = SetMockService(); |
| StartPPP(kPID); |
| |
| ExpectDisconnectCapability3gpp(); |
| EXPECT_CALL(*service, SetFailure(Service::kFailureUnknown)); |
| device_->OnPPPDied(kPID, EXIT_FATAL_ERROR); |
| EXPECT_EQ(nullptr, device_->ppp_task_); |
| VerifyDisconnect(); |
| |
| // |Cellular::ppp_task_| is destroyed on the task loop. Must dispatch once to |
| // cleanup. |
| dispatcher_.DispatchPendingEvents(); |
| } |
| |
| TEST_P(CellularTest, PPPConnectionFailedDuringAuth) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| // Test that we properly set Service state in the case where pppd |
| // disconnects during authentication (as opposed to the Notify test, |
| // where pppd disconnects after connecting). |
| const int kPID = 52; |
| const map<string, string> kEmptyArgs; |
| MockCellularService* service = SetMockService(); |
| StartPPP(kPID); |
| |
| ExpectDisconnectCapability3gpp(); |
| // Even if pppd gives a generic error, if we know that the failure occurred |
| // during authentication, we will consider it an auth error. |
| EXPECT_CALL(*service, SetFailure(Service::kFailurePPPAuth)); |
| device_->Notify(kPPPReasonAuthenticating, kEmptyArgs); |
| device_->OnPPPDied(kPID, EXIT_FATAL_ERROR); |
| EXPECT_EQ(nullptr, device_->ppp_task_); |
| VerifyDisconnect(); |
| |
| // |Cellular::ppp_task_| is destroyed on the task loop. Must dispatch once to |
| // cleanup. |
| dispatcher_.DispatchPendingEvents(); |
| } |
| |
| TEST_P(CellularTest, PPPConnectionFailedAfterAuth) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| // Test that we properly set Service state in the case where pppd |
| // disconnects after authenticating, but before connecting (as |
| // opposed to the Notify test, where pppd disconnects after |
| // connecting). |
| const int kPID = 52; |
| const map<string, string> kEmptyArgs; |
| MockCellularService* service = SetMockService(); |
| StartPPP(kPID); |
| |
| EXPECT_CALL(*service, SetFailure(Service::kFailureUnknown)); |
| ExpectDisconnectCapability3gpp(); |
| device_->Notify(kPPPReasonAuthenticating, kEmptyArgs); |
| device_->Notify(kPPPReasonAuthenticated, kEmptyArgs); |
| device_->OnPPPDied(kPID, EXIT_FATAL_ERROR); |
| EXPECT_EQ(nullptr, device_->ppp_task_); |
| VerifyDisconnect(); |
| |
| // |Cellular::ppp_task_| is destroyed on the task loop. Must dispatch once to |
| // cleanup. |
| dispatcher_.DispatchPendingEvents(); |
| } |
| |
| TEST_P(CellularTest, PPPConnectionFailedAfterConnect) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| // Test that we properly set Service state in the case where pppd fails after |
| // connecting (as opposed to the Notify test, where pppd disconnects normally |
| // after connecting). |
| const int kPID = 52; |
| const map<string, string> kEmptyArgs; |
| MockCellularService* service = SetMockService(); |
| StartPPP(kPID); |
| |
| EXPECT_CALL(*service, SetFailure(Service::kFailureUnknown)); |
| ExpectDisconnectCapability3gpp(); |
| device_->Notify(kPPPReasonAuthenticating, kEmptyArgs); |
| device_->Notify(kPPPReasonAuthenticated, kEmptyArgs); |
| device_->Notify(kPPPReasonConnect, kEmptyArgs); |
| device_->OnPPPDied(kPID, EXIT_FATAL_ERROR); |
| EXPECT_EQ(nullptr, device_->ppp_task_); |
| VerifyDisconnect(); |
| |
| // |Cellular::ppp_task_| is destroyed on the task loop. Must dispatch once to |
| // cleanup. |
| dispatcher_.DispatchPendingEvents(); |
| } |
| |
| TEST_P(CellularTest, OnPPPDied) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| const int kPID = 1234; |
| const int kExitStatus = 5; |
| ExpectDisconnectCapability3gpp(); |
| device_->OnPPPDied(kPID, kExitStatus); |
| VerifyDisconnect(); |
| } |
| |
| TEST_P(CellularTest, OnPPPDiedCleanupDevice) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| // Test that OnPPPDied causes the ppp_device_ reference to be dropped. |
| const int kPID = 123; |
| const int kExitStatus = 5; |
| StartPPP(kPID); |
| FakeUpConnectedPPP(); |
| ExpectDisconnectCapability3gpp(); |
| device_->OnPPPDied(kPID, kExitStatus); |
| VerifyPPPStopped(); |
| |
| // |Cellular::ppp_task_| is destroyed on the task loop. Must dispatch once to |
| // cleanup. |
| dispatcher_.DispatchPendingEvents(); |
| } |
| |
| TEST_P(CellularTest, DropConnection) { |
| device_->set_ipconfig(dhcp_config_); |
| EXPECT_CALL(*dhcp_config_, ReleaseIP(_)); |
| device_->DropConnection(); |
| Mock::VerifyAndClearExpectations(dhcp_config_.get()); // verify before dtor |
| EXPECT_FALSE(device_->ipconfig()); |
| } |
| |
| TEST_P(CellularTest, DropConnectionPPP) { |
| scoped_refptr<MockPPPDevice> ppp_device( |
| new MockPPPDevice(modem_info_.manager(), "fake_ppp0", -1)); |
| EXPECT_CALL(*ppp_device, DropConnection()); |
| device_->ppp_device_ = ppp_device; |
| device_->DropConnection(); |
| } |
| |
| TEST_P(CellularTest, ChangeServiceState) { |
| MockCellularService* service(SetMockService()); |
| EXPECT_CALL(*service, SetState(_)); |
| EXPECT_CALL(*service, SetFailure(_)); |
| EXPECT_CALL(*service, SetFailureSilent(_)); |
| ON_CALL(*service, state()).WillByDefault(Return(Service::kStateUnknown)); |
| |
| // Without PPP, these should be handled by our selected_service(). |
| device_->SelectService(service); |
| device_->SetServiceState(Service::kStateConfiguring); |
| device_->SetServiceFailure(Service::kFailurePPPAuth); |
| device_->SetServiceFailureSilent(Service::kFailureUnknown); |
| Mock::VerifyAndClearExpectations(service); // before Cellular dtor |
| } |
| |
| TEST_P(CellularTest, ChangeServiceStatePPP) { |
| MockCellularService* service(SetMockService()); |
| scoped_refptr<MockPPPDevice> ppp_device( |
| new MockPPPDevice(modem_info_.manager(), "fake_ppp0", -1)); |
| EXPECT_CALL(*ppp_device, SetServiceState(_)); |
| EXPECT_CALL(*ppp_device, SetServiceFailure(_)); |
| EXPECT_CALL(*ppp_device, SetServiceFailureSilent(_)); |
| EXPECT_CALL(*service, SetState(_)).Times(0); |
| EXPECT_CALL(*service, SetFailure(_)).Times(0); |
| EXPECT_CALL(*service, SetFailureSilent(_)).Times(0); |
| device_->ppp_device_ = ppp_device; |
| |
| // With PPP, these should all be punted over to the |ppp_device|. |
| // Note in particular that Cellular does not manipulate |service| in |
| // this case. |
| device_->SetServiceState(Service::kStateConfiguring); |
| device_->SetServiceFailure(Service::kFailurePPPAuth); |
| device_->SetServiceFailureSilent(Service::kFailureUnknown); |
| } |
| |
| TEST_P(CellularTest, StopPPPOnDisconnect) { |
| const int kPID = 123; |
| Error error; |
| StartPPP(kPID); |
| FakeUpConnectedPPP(); |
| ExpectPPPStopped(); |
| device_->Disconnect(&error, "in test"); |
| VerifyPPPStopped(); |
| } |
| |
| TEST_P(CellularTest, StopPPPOnSuspend) { |
| const int kPID = 123; |
| StartPPP(kPID); |
| FakeUpConnectedPPP(); |
| ExpectPPPStopped(); |
| device_->OnBeforeSuspend(ResultCallback()); |
| VerifyPPPStopped(); |
| } |
| |
| TEST_P(CellularTest, OnAfterResumeDisabledWantDisabled) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| // The Device was disabled prior to resume, and the profile settings |
| // indicate that the device should be disabled. We should leave |
| // things alone. |
| |
| // Initial state. |
| mm1::MockModemProxy* mm1_proxy = SetupOnAfterResume(); |
| set_enabled_persistent(false); |
| EXPECT_FALSE(device_->running()); |
| EXPECT_FALSE(device_->enabled_persistent()); |
| EXPECT_EQ(Cellular::kStateDisabled, device_->state_); |
| |
| // Resume, while device is disabled. |
| EXPECT_CALL(*mm1_proxy, Enable(_, _, _, _)).Times(0); |
| device_->OnAfterResume(); |
| EXPECT_FALSE(device_->running()); |
| EXPECT_FALSE(device_->enabled_persistent()); |
| EXPECT_EQ(Cellular::kStateDisabled, device_->state_); |
| } |
| |
| TEST_P(CellularTest, OnAfterResumeDisableInProgressWantDisabled) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| // The Device was not disabled prior to resume, but the profile |
| // settings indicate that the device _should be_ disabled. Most |
| // likely, we started disabling the device, but that did not |
| // complete before we suspended. We should leave things alone. |
| |
| // Initial state. |
| mm1::MockModemProxy* mm1_proxy = SetupOnAfterResume(); |
| Error error; |
| EXPECT_CALL(*mm1_proxy, Enable(true, _, _, _)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeEnable)); |
| device_->SetEnabled(true); |
| EXPECT_TRUE(device_->running()); |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state_); |
| |
| // Start disable. |
| EXPECT_CALL(*modem_info_.mock_manager(), UpdateDevice(_)); |
| device_->SetEnabledPersistent(false, &error, ResultCallback()); |
| EXPECT_FALSE(device_->running()); // changes immediately |
| EXPECT_FALSE(device_->enabled_persistent()); // changes immediately |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state_); // changes on completion |
| |
| // Resume, with disable still in progress. |
| device_->OnAfterResume(); |
| EXPECT_FALSE(device_->running()); |
| EXPECT_FALSE(device_->enabled_persistent()); |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state_); |
| |
| // Finish the disable operation. |
| EXPECT_CALL(*mm1_proxy, Enable(false, _, _, _)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeEnable)); |
| EXPECT_CALL(*mm1_proxy, SetPowerState(_, _, _, _)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeSetPowerState)); |
| dispatcher_.DispatchPendingEvents(); |
| EXPECT_FALSE(device_->running()); |
| EXPECT_FALSE(device_->enabled_persistent()); |
| EXPECT_EQ(Cellular::kStateDisabled, device_->state_); |
| } |
| |
| TEST_P(CellularTest, OnAfterResumeDisableQueuedWantEnabled) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| // The Device was not disabled prior to resume, and the profile |
| // settings indicate that the device should be enabled. In |
| // particular, we went into suspend before we actually processed the |
| // task queued by CellularCapability3gpp::StopModem. |
| // |
| // This is unlikely, and a case where we fail to do the right thing. |
| // The tests exists to document this corner case, which we get wrong. |
| |
| // Initial state. |
| mm1::MockModemProxy* mm1_proxy = SetupOnAfterResume(); |
| EXPECT_CALL(*mm1_proxy, Enable(true, _, _, _)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeEnable)); |
| device_->SetEnabled(true); |
| EXPECT_TRUE(device_->running()); |
| EXPECT_TRUE(device_->enabled_persistent()); |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state_); |
| |
| // Start disable. |
| device_->SetEnabled(false); |
| EXPECT_FALSE(device_->running()); // changes immediately |
| EXPECT_TRUE(device_->enabled_persistent()); // no change |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state_); // changes on completion |
| |
| // Refresh proxies, since CellularCapability3gpp::StartModem wants |
| // new proxies. Also, stash away references for later. |
| PopulateProxies(); |
| SetCommonOnAfterResumeExpectations(); |
| mm1_proxy = mm1_proxy_.get(); |
| auto dbus_properties_proxy = dbus_properties_proxy_.get(); |
| |
| // Resume, with disable still in progress. |
| EXPECT_CALL(*mm1_proxy, Enable(true, _, _, _)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeEnableReturningWrongState)); |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state_); // disable still pending |
| device_->OnAfterResume(); |
| EXPECT_TRUE(device_->running()); // changes immediately |
| EXPECT_TRUE(device_->enabled_persistent()); // no change |
| EXPECT_EQ(Cellular::kStateDisabled, device_->state_); // by OnAfterResume |
| |
| // Set up state that we need. |
| KeyValueStore modem_properties; |
| modem_properties.Set<int32_t>(MM_MODEM_PROPERTY_STATE, |
| Cellular::kModemStateDisabled); |
| |
| // Let the disable complete. |
| EXPECT_CALL(*mm1_proxy, Enable(false, _, _, _)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeEnable)); |
| EXPECT_CALL(*mm1_proxy, SetPowerState(_, _, _, _)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeSetPowerState)); |
| EXPECT_CALL(*dbus_properties_proxy, GetAll(_)) |
| .WillRepeatedly(Return(modem_properties)); |
| dispatcher_.DispatchPendingEvents(); |
| EXPECT_TRUE(device_->running()); // last changed by OnAfterResume |
| EXPECT_TRUE(device_->enabled_persistent()); // last changed by OnAfterResume |
| EXPECT_EQ(Cellular::kStateDisabled, device_->state_); |
| |
| // There's nothing queued up to restart the modem. Even though we |
| // want to be running, we're stuck in the disabled state. |
| dispatcher_.DispatchPendingEvents(); |
| EXPECT_TRUE(device_->running()); |
| EXPECT_TRUE(device_->enabled_persistent()); |
| EXPECT_EQ(Cellular::kStateDisabled, device_->state_); |
| } |
| |
| TEST_P(CellularTest, OnAfterResumePowerDownInProgressWantEnabled) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| // The Device was not fully disabled prior to resume, and the |
| // profile settings indicate that the device should be enabled. In |
| // this case, we have disabled the device, but are waiting for the |
| // power-down (switch to low power) to complete. |
| // |
| // This test emulates the behavior of the Huawei E303 dongle, when |
| // Manager::kTerminationActionsTimeoutMilliseconds is 9500 |
| // msec. (The dongle takes 10-11 seconds to go through the whole |
| // disable, power-down sequence). |
| // |
| // Eventually, the power-down would complete, and the device would |
| // be stuck in the disabled state. To counter-act that, |
| // OnAfterResume tries to enable the device now, even though the |
| // device is currently enabled. |
| |
| // Initial state. |
| mm1::MockModemProxy* mm1_proxy = SetupOnAfterResume(); |
| EXPECT_CALL(*mm1_proxy, Enable(true, _, _, _)) |
| .WillOnce(Invoke(this, &CellularTest::InvokeEnable)); |
| device_->SetEnabled(true); |
| EXPECT_TRUE(device_->running()); |
| EXPECT_TRUE(device_->enabled_persistent()); |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state_); |
| |
| // Start disable. |
| ResultCallback modem_proxy_enable_callback; |
| EXPECT_CALL(*mm1_proxy, Enable(false, _, _, _)) |
| .WillOnce(SaveArg<2>(&modem_proxy_enable_callback)); |
| device_->SetEnabled(false); |
| dispatcher_.DispatchPendingEvents(); // SetEnabled yields a deferred task |
| EXPECT_FALSE(device_->running()); // changes immediately |
| EXPECT_TRUE(device_->enabled_persistent()); // no change |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state_); // changes on completion |
| |
| // Let the disable complete. That will trigger power-down. |
| // |
| // Note that, unlike for mm1_proxy->Enable, we don't save the |
| // callback for mm1_proxy->SetPowerState. We expect the callback not |
| // to be executed, as explained in the comment about having a fresh |
| // proxy OnAfterResume, below. |
| Error error; |
| ASSERT_TRUE(error.IsSuccess()); |
| EXPECT_CALL(*mm1_proxy, SetPowerState(MM_MODEM_POWER_STATE_LOW, _, _, _)) |
| .WillOnce(SetErrorTypeInArgument<1>(Error::kOperationInitiated)); |
| modem_proxy_enable_callback.Run(error); |
| |
| // No response to power-down yet. It probably completed while the host |
| // was asleep, and so the reply from the modem was lost. |
| |
| // Refresh proxies, since CellularCapability3gpp::StartModem wants |
| // new proxies. Also, stash away references for later. |
| PopulateProxies(); |
| SetCommonOnAfterResumeExpectations(); |
| auto new_mm1_proxy = mm1_proxy_.get(); |
| auto dbus_properties_proxy = dbus_properties_proxy_.get(); |
| |
| // Resume. |
| ResultCallback new_callback; |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state_); // disable still pending |
| EXPECT_CALL(*new_mm1_proxy, Enable(true, _, _, _)) |
| .WillOnce(SaveArg<2>(&modem_proxy_enable_callback)); |
| device_->OnAfterResume(); |
| EXPECT_TRUE(device_->running()); // changes immediately |
| EXPECT_TRUE(device_->enabled_persistent()); // no change |
| EXPECT_EQ(Cellular::kStateDisabled, device_->state_); // by OnAfterResume |
| |
| // We should have a fresh proxy OnAfterResume. Otherwise, we may get |
| // confused when the SetPowerState call completes (either naturally, |
| // or via a time-out from dbus-c++). |
| // |
| // The pointers must differ, because the new proxy is constructed |
| // before the old one is destructed. |
| EXPECT_FALSE(new_mm1_proxy == mm1_proxy); |
| |
| // Set up state that we need. |
| KeyValueStore modem_properties; |
| modem_properties.Set<int32_t>(MM_MODEM_PROPERTY_STATE, |
| Cellular::kModemStateEnabled); |
| |
| // Let the enable complete. |
| ASSERT_TRUE(error.IsSuccess()); |
| EXPECT_CALL(*dbus_properties_proxy, GetAll(_)) |
| .WillRepeatedly(Return(modem_properties)); |
| ASSERT_TRUE(!modem_proxy_enable_callback.is_null()); |
| modem_proxy_enable_callback.Run(error); |
| EXPECT_TRUE(device_->running()); |
| EXPECT_TRUE(device_->enabled_persistent()); |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state_); |
| } |
| |
| TEST_P(CellularTest, OnAfterResumeDisabledWantEnabled) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| // This is the ideal case. The disable process completed before |
| // going into suspend. |
| mm1::MockModemProxy* mm1_proxy = SetupOnAfterResume(); |
| EXPECT_FALSE(device_->running()); |
| EXPECT_TRUE(device_->enabled_persistent()); |
| EXPECT_EQ(Cellular::kStateDisabled, device_->state_); |
| |
| // Resume. |
| ResultCallback modem_proxy_enable_callback; |
| EXPECT_CALL(*mm1_proxy, Enable(true, _, _, _)) |
| .WillOnce(SaveArg<2>(&modem_proxy_enable_callback)); |
| device_->OnAfterResume(); |
| |
| // Complete enable. |
| Error error; |
| ASSERT_TRUE(error.IsSuccess()); |
| modem_proxy_enable_callback.Run(error); |
| EXPECT_TRUE(device_->running()); |
| EXPECT_TRUE(device_->enabled_persistent()); |
| EXPECT_EQ(Cellular::kStateEnabled, device_->state_); |
| } |
| |
| // Custom property setters should return false, and make no changes, if |
| // the new value is the same as the old value. |
| TEST_P(CellularTest, CustomSetterNoopChange) { |
| Error error; |
| EXPECT_FALSE(device_->allow_roaming_); |
| EXPECT_FALSE(device_->SetAllowRoaming(false, &error)); |
| EXPECT_TRUE(error.IsSuccess()); |
| } |
| |
| #if !defined(DISABLE_CELLULAR_CAPABILITY_CLASSIC_TESTS) |
| TEST_P(CellularTest, ScanImmediateFailure) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kTypeGsm})) { |
| return; |
| } |
| |
| Error error; |
| device_->set_found_networks(kTestNetworksCellular); |
| EXPECT_FALSE(device_->scanning_); |
| // |InitProxies| must be called before calling any functions on the |
| // Capability*, to set up the modem proxies. |
| // Warning: The test loses all references to the proxies when |InitProxies| is |
| // called. |
| GetCapabilityGsm()->InitProxies(); |
| device_->Scan(&error, ""); |
| EXPECT_TRUE(error.IsFailure()); |
| EXPECT_FALSE(device_->scanning_); |
| EXPECT_EQ(kTestNetworksCellular, device_->found_networks()); |
| } |
| |
| TEST_P(CellularTest, ScanAsynchronousFailure) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kTypeGsm})) { |
| return; |
| } |
| |
| Error error; |
| ScanResultsCallback results_callback; |
| |
| device_->set_found_networks(kTestNetworksCellular); |
| EXPECT_CALL(*gsm_network_proxy_, Scan(&error, _, _)) |
| .WillOnce(DoAll(SetErrorTypeInArgument<0>(Error::kOperationInitiated), |
| SaveArg<1>(&results_callback))); |
| EXPECT_FALSE(device_->scanning_); |
| // |InitProxies| must be called before calling any functions on the |
| // Capability*, to set up the modem proxies. |
| // Warning: The test loses all references to the proxies when |InitProxies| is |
| // called. |
| GetCapabilityGsm()->InitProxies(); |
| device_->Scan(&error, ""); |
| EXPECT_TRUE(error.IsOngoing()); |
| EXPECT_TRUE(device_->scanning_); |
| |
| // Asynchronously fail the scan. |
| error.Populate(Error::kOperationFailed); |
| results_callback.Run(kTestNetworksGsm, error); |
| EXPECT_FALSE(device_->scanning_); |
| EXPECT_TRUE(device_->found_networks().empty()); |
| } |
| |
| TEST_P(CellularTest, ScanSuccess) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kTypeGsm})) { |
| return; |
| } |
| |
| Error error; |
| ScanResultsCallback results_callback; |
| |
| device_->clear_found_networks(); |
| EXPECT_CALL(*gsm_network_proxy_, Scan(&error, _, _)) |
| .WillOnce(DoAll(SetErrorTypeInArgument<0>(Error::kOperationInitiated), |
| SaveArg<1>(&results_callback))); |
| EXPECT_FALSE(device_->scanning_); |
| // |InitProxies| must be called before calling any functions on the |
| // Capability*, to set up the modem proxies. |
| // Warning: The test loses all references to the proxies when |InitProxies| is |
| // called. |
| GetCapabilityGsm()->InitProxies(); |
| device_->Scan(&error, ""); |
| EXPECT_TRUE(error.IsOngoing()); |
| EXPECT_TRUE(device_->scanning_); |
| |
| // Successfully complete the scan. |
| const GsmScanResults gsm_results{}; |
| error.Populate(Error::kSuccess); |
| results_callback.Run(kTestNetworksGsm, error); |
| EXPECT_FALSE(device_->scanning_); |
| EXPECT_EQ(kTestNetworksCellular, device_->found_networks()); |
| } |
| #endif // !defined(DISABLE_CELLULAR_CAPABILITY_CLASSIC_TESTS) |
| |
| TEST_P(CellularTest, EstablishLinkDHCP) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| auto bearer = std::make_unique<CellularBearer>(&control_interface_, |
| RpcIdentifier(""), ""); |
| bearer->set_ipv4_config_method(IPConfig::kMethodDHCP); |
| SetCapability3gppActiveBearer(std::move(bearer)); |
| device_->state_ = Cellular::kStateConnected; |
| |
| MockCellularService* service = SetMockService(); |
| ON_CALL(*service, state()).WillByDefault(Return(Service::kStateUnknown)); |
| |
| EXPECT_CALL(device_info_, GetFlags(device_->interface_index(), _)) |
| .WillOnce(DoAll(SetArgPointee<1>(IFF_UP), Return(true))); |
| EXPECT_CALL(dhcp_provider_, CreateIPv4Config(kTestDeviceName, _, _, _)) |
| .WillOnce(Return(dhcp_config_)); |
| EXPECT_CALL(*dhcp_config_, RequestIP()).WillOnce(Return(true)); |
| EXPECT_CALL(*service, SetState(Service::kStateConfiguring)); |
| device_->EstablishLink(); |
| EXPECT_EQ(service, device_->selected_service()); |
| Mock::VerifyAndClearExpectations(service); // before Cellular dtor |
| } |
| |
| TEST_P(CellularTest, EstablishLinkPPP) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| auto bearer = std::make_unique<CellularBearer>(&control_interface_, |
| RpcIdentifier(""), ""); |
| bearer->set_ipv4_config_method(IPConfig::kMethodPPP); |
| SetCapability3gppActiveBearer(std::move(bearer)); |
| device_->state_ = Cellular::kStateConnected; |
| |
| const int kPID = 123; |
| EXPECT_CALL(process_manager_, StartProcess(_, _, _, _, _, _)) |
| .WillOnce(Return(kPID)); |
| device_->EstablishLink(); |
| EXPECT_FALSE(device_->ipconfig()); // No DHCP client. |
| EXPECT_FALSE(device_->selected_service()); |
| EXPECT_FALSE(device_->is_ppp_authenticating_); |
| EXPECT_NE(nullptr, device_->ppp_task_); |
| } |
| |
| TEST_P(CellularTest, EstablishLinkStatic) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| IPAddress::Family kAddressFamily = IPAddress::kFamilyIPv4; |
| const char kAddress[] = "10.0.0.1"; |
| const char kGateway[] = "10.0.0.254"; |
| const int32_t kSubnetPrefix = 16; |
| const char* const kDNS[] = {"10.0.0.2", "8.8.4.4", "8.8.8.8"}; |
| |
| auto ipconfig_properties = std::make_unique<IPConfig::Properties>(); |
| ipconfig_properties->address_family = kAddressFamily; |
| ipconfig_properties->address = kAddress; |
| ipconfig_properties->gateway = kGateway; |
| ipconfig_properties->subnet_prefix = kSubnetPrefix; |
| ipconfig_properties->dns_servers = vector<string>{kDNS[0], kDNS[1], kDNS[2]}; |
| |
| auto bearer = std::make_unique<CellularBearer>(&control_interface_, |
| RpcIdentifier(""), ""); |
| bearer->set_ipv4_config_method(IPConfig::kMethodStatic); |
| bearer->set_ipv4_config_properties(std::move(ipconfig_properties)); |
| SetCapability3gppActiveBearer(std::move(bearer)); |
| device_->state_ = Cellular::kStateConnected; |
| |
| MockCellularService* service = SetMockService(); |
| ON_CALL(*service, state()).WillByDefault(Return(Service::kStateUnknown)); |
| |
| EXPECT_CALL(device_info_, GetFlags(device_->interface_index(), _)) |
| .WillOnce(DoAll(SetArgPointee<1>(IFF_UP), Return(true))); |
| EXPECT_CALL(*service, SetState(Service::kStateConfiguring)); |
| device_->EstablishLink(); |
| EXPECT_EQ(service, device_->selected_service()); |
| ASSERT_NE(nullptr, device_->ipconfig()); |
| EXPECT_EQ(kAddressFamily, device_->ipconfig()->properties().address_family); |
| EXPECT_EQ(kAddress, device_->ipconfig()->properties().address); |
| EXPECT_EQ(kGateway, device_->ipconfig()->properties().gateway); |
| EXPECT_EQ(kSubnetPrefix, device_->ipconfig()->properties().subnet_prefix); |
| ASSERT_EQ(3, device_->ipconfig()->properties().dns_servers.size()); |
| EXPECT_EQ(kDNS[0], device_->ipconfig()->properties().dns_servers[0]); |
| EXPECT_EQ(kDNS[1], device_->ipconfig()->properties().dns_servers[1]); |
| EXPECT_EQ(kDNS[2], device_->ipconfig()->properties().dns_servers[2]); |
| Mock::VerifyAndClearExpectations(service); // before Cellular dtor |
| } |
| |
| TEST_P(CellularTest, GetGeolocationObjects) { |
| static const Cellular::LocationInfo kGoodLocations[] = { |
| {"310", "410", "DE7E", "4985F6"}, |
| {"001", "010", "O100", "googol"}, |
| {"foo", "bar", "bazz", "quuux"}}; |
| static const Cellular::LocationInfo kBadLocations[] = {{"wat", "", "", ""}, |
| {"", "", "", ""}}; |
| |
| vector<GeolocationInfo> objects; |
| |
| for (const auto& location : kGoodLocations) { |
| string raw_location = location.mcc + "," + location.mnc + "," + |
| location.lac + "," + location.ci; |
| Error error; |
| |
| GeolocationInfo expected_info; |
| expected_info[kGeoMobileCountryCodeProperty] = location.mcc; |
| expected_info[kGeoMobileNetworkCodeProperty] = location.mnc; |
| expected_info[kGeoLocationAreaCodeProperty] = location.lac; |
| expected_info[kGeoCellIdProperty] = location.ci; |
| |
| device_->GetLocationCallback(raw_location, error); |
| objects = device_->GetGeolocationObjects(); |
| |
| ASSERT_EQ(objects.size(), 1); |
| EXPECT_EQ(expected_info, objects[0]); |
| } |
| |
| for (const auto& location : kBadLocations) { |
| string raw_location = location.mcc + "," + location.mnc + "," + |
| location.lac + "," + location.ci; |
| Error error; |
| GeolocationInfo empty_info; |
| |
| device_->GetLocationCallback(raw_location, error); |
| objects = device_->GetGeolocationObjects(); |
| |
| ASSERT_EQ(objects.size(), 1); |
| EXPECT_EQ(empty_info, objects[0]); |
| } |
| } |
| |
| // Helper class because gmock doesn't play nicely with unique_ptr |
| class FakeMobileOperatorInfo : public NiceMock<MockMobileOperatorInfo> { |
| public: |
| FakeMobileOperatorInfo( |
| EventDispatcher* dispatcher, |
| std::vector<std::unique_ptr<MobileOperatorInfo::MobileAPN>> apn_list) |
| : NiceMock<MockMobileOperatorInfo>(dispatcher, "Fake"), |
| apn_list_(std::move(apn_list)) {} |
| |
| const std::vector<std::unique_ptr<MobileOperatorInfo::MobileAPN>>& apn_list() |
| const override { |
| return apn_list_; |
| } |
| |
| private: |
| std::vector<std::unique_ptr<MobileOperatorInfo::MobileAPN>> apn_list_; |
| }; |
| |
| TEST_P(CellularTest, SimpleApnList) { |
| constexpr char kApn[] = "apn"; |
| constexpr char kUsername[] = "foo"; |
| constexpr char kPassword[] = "bar"; |
| |
| std::vector<std::unique_ptr<MobileOperatorInfo::MobileAPN>> apn_list; |
| auto mobile_apn = std::make_unique<MobileOperatorInfo::MobileAPN>(); |
| mobile_apn->apn = kApn; |
| mobile_apn->username = kUsername; |
| mobile_apn->password = kPassword; |
| apn_list.emplace_back(std::move(mobile_apn)); |
| FakeMobileOperatorInfo info(&dispatcher_, std::move(apn_list)); |
| |
| device_->UpdateHomeProvider(&info); |
| auto apn_list_prop = device_->apn_list(); |
| CHECK_EQ(1U, apn_list_prop.size()); |
| CHECK_EQ(kApn, apn_list_prop[0][kApnProperty]); |
| CHECK_EQ(kUsername, apn_list_prop[0][kApnUsernameProperty]); |
| CHECK_EQ(kPassword, apn_list_prop[0][kApnPasswordProperty]); |
| } |
| |
| TEST_P(CellularTest, ProfilesApnList) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| constexpr char kApn1[] = "ota.apn"; |
| brillo::VariantDictionary profile; |
| profile["apn"] = std::string(kApn1); |
| GetCapability3gpp()->OnProfilesChanged({profile}); |
| |
| constexpr char kApn2[] = "normal.apn"; |
| std::vector<std::unique_ptr<MobileOperatorInfo::MobileAPN>> apn_list; |
| auto mobile_apn = std::make_unique<MobileOperatorInfo::MobileAPN>(); |
| mobile_apn->apn = kApn2; |
| apn_list.emplace_back(std::move(mobile_apn)); |
| FakeMobileOperatorInfo info(&dispatcher_, std::move(apn_list)); |
| |
| device_->UpdateHomeProvider(&info); |
| auto apn_list_prop = device_->apn_list(); |
| CHECK_EQ(2U, apn_list_prop.size()); |
| // Profile APNs are likely deployed by the network. They should be tried |
| // first, so they should be higher in the list. |
| CHECK_EQ(kApn1, apn_list_prop[0][kApnProperty]); |
| CHECK_EQ(kApn2, apn_list_prop[1][kApnProperty]); |
| } |
| |
| TEST_P(CellularTest, MergeProfileAndOperatorApn) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| constexpr char kApn[] = "normal.apn"; |
| constexpr char kApnName[] = "Normal APN"; |
| brillo::VariantDictionary profile; |
| profile["apn"] = std::string(kApn); |
| GetCapability3gpp()->OnProfilesChanged({profile}); |
| |
| std::vector<std::unique_ptr<MobileOperatorInfo::MobileAPN>> apn_list; |
| auto mobile_apn = std::make_unique<MobileOperatorInfo::MobileAPN>(); |
| mobile_apn->apn = kApn; |
| mobile_apn->operator_name_list.push_back({kApnName, ""}); |
| apn_list.emplace_back(std::move(mobile_apn)); |
| FakeMobileOperatorInfo info(&dispatcher_, std::move(apn_list)); |
| |
| device_->UpdateHomeProvider(&info); |
| auto apn_list_prop = device_->apn_list(); |
| CHECK_EQ(1U, apn_list_prop.size()); |
| CHECK_EQ(kApn, apn_list_prop[0][kApnProperty]); |
| CHECK_EQ(kApnName, apn_list_prop[0][kApnNameProperty]); |
| } |
| |
| TEST_P(CellularTest, DontMergeProfileAndOperatorApn) { |
| if (!IsCellularTypeUnderTestOneOf({Cellular::kType3gpp})) { |
| return; |
| } |
| |
| constexpr char kApn[] = "normal.apn"; |
| constexpr char kUsernameFromProfile[] = "user1"; |
| brillo::VariantDictionary profile; |
| profile["apn"] = std::string(kApn); |
| profile["username"] = std::string(kUsernameFromProfile); |
| GetCapability3gpp()->OnProfilesChanged({profile}); |
| |
| constexpr char kUsernameFromOperator[] = "user2"; |
| std::vector<std::unique_ptr<MobileOperatorInfo::MobileAPN>> apn_list; |
| auto mobile_apn = std::make_unique<MobileOperatorInfo::MobileAPN>(); |
| mobile_apn->apn = kApn; |
| mobile_apn->username = kUsernameFromOperator; |
| apn_list.emplace_back(std::move(mobile_apn)); |
| FakeMobileOperatorInfo info(&dispatcher_, std::move(apn_list)); |
| |
| device_->UpdateHomeProvider(&info); |
| auto apn_list_prop = device_->apn_list(); |
| CHECK_EQ(2U, apn_list_prop.size()); |
| // As before, profile APNs come first. |
| CHECK_EQ(kApn, apn_list_prop[0][kApnProperty]); |
| CHECK_EQ(kUsernameFromProfile, apn_list_prop[0][kApnUsernameProperty]); |
| CHECK_EQ(kApn, apn_list_prop[1][kApnProperty]); |
| CHECK_EQ(kUsernameFromOperator, apn_list_prop[1][kApnUsernameProperty]); |
| } |
| |
| INSTANTIATE_TEST_SUITE_P(CellularTest, |
| CellularTest, |
| testing::Values(Cellular::kType3gpp, |
| Cellular::kTypeCdma)); |
| |
| } // namespace shill |