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chromium / chromiumos / platform / shill / cd7c4a1e76be0e242e554748d5abac5f3707e67b / . / cellular_unittest.cc
blob: eb41544d9d5098cb03220e65dfe7cd329e8101b0 [file] [log] [blame]
// Copyright (c) 2013 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.h"
#include <sys/socket.h>
#include <linux/if.h>
#include <linux/netlink.h> // Needs typedefs from sys/socket.h.
#include <base/bind.h>
#include <chromeos/dbus/service_constants.h>
#include "shill/cellular_bearer.h"
#include "shill/cellular_capability_cdma.h"
#include "shill/cellular_capability_classic.h"
#include "shill/cellular_capability_gsm.h"
#include "shill/cellular_capability_universal.h"
#include "shill/cellular_service.h"
#include "shill/error.h"
#include "shill/event_dispatcher.h"
#include "shill/mock_adaptors.h"
#include "shill/mock_cellular_service.h"
#include "shill/mock_dbus_properties_proxy.h"
#include "shill/mock_device_info.h"
#include "shill/mock_dhcp_config.h"
#include "shill/mock_dhcp_provider.h"
#include "shill/mock_external_task.h"
#include "shill/mock_mm1_modem_modem3gpp_proxy.h"
#include "shill/mock_mm1_modem_proxy.h"
#include "shill/mock_mm1_modem_simple_proxy.h"
#include "shill/mock_mobile_operator_info.h"
#include "shill/mock_modem_cdma_proxy.h"
#include "shill/mock_modem_gsm_card_proxy.h"
#include "shill/mock_modem_gsm_network_proxy.h"
#include "shill/mock_modem_info.h"
#include "shill/mock_modem_proxy.h"
#include "shill/mock_modem_simple_proxy.h"
#include "shill/mock_ppp_device.h"
#include "shill/mock_ppp_device_factory.h"
#include "shill/mock_rtnl_handler.h"
#include "shill/property_store_unittest.h"
#include "shill/proxy_factory.h"
#include "shill/rpc_task.h" // for RpcTaskDelegate
#include "shill/testing.h"
// mm/mm-modem.h must be included after cellular_capability_universal.h
// in order to allow MM_MODEM_CDMA_* to be defined properly.
#include <mm/mm-modem.h>
using base::Bind;
using base::Unretained;
using std::map;
using std::string;
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::SetArgumentPointee;
using testing::Unused;
namespace shill {
class CellularPropertyTest : public PropertyStoreTest {
public:
CellularPropertyTest()
: modem_info_(control_interface(),
dispatcher(),
metrics(),
manager(),
glib()),
device_(new Cellular(&modem_info_,
"usb0",
"00:01:02:03:04:05",
3,
Cellular::kTypeCDMA,
"",
"",
"",
ProxyFactory::GetInstance())) {}
virtual ~CellularPropertyTest() {}
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) {
{
::DBus::Error error;
::DBus::Variant allow_roaming;
allow_roaming.writer().append_bool(true);
EXPECT_TRUE(DBusAdaptor::SetProperty(
device_->mutable_store(),
kCellularAllowRoamingProperty,
allow_roaming,
&error));
}
// Ensure that attempting to write a R/O property returns InvalidArgs error.
{
::DBus::Error error;
EXPECT_FALSE(DBusAdaptor::SetProperty(device_->mutable_store(),
kAddressProperty,
PropertyStoreTest::kStringV,
&error));
ASSERT_TRUE(error.is_set()); // name() may be invalid otherwise
EXPECT_EQ(invalid_args(), error.name());
}
{
::DBus::Error error;
EXPECT_FALSE(DBusAdaptor::SetProperty(device_->mutable_store(),
kCarrierProperty,
PropertyStoreTest::kStringV,
&error));
ASSERT_TRUE(error.is_set()); // name() may be invalid otherwise
EXPECT_EQ(invalid_args(), error.name());
}
}
class CellularTest : public testing::Test {
public:
CellularTest()
: modem_info_(NULL, &dispatcher_, NULL, NULL, NULL),
device_info_(modem_info_.control_interface(), &dispatcher_,
modem_info_.metrics(), modem_info_.manager()),
dhcp_config_(new MockDHCPConfig(modem_info_.control_interface(),
kTestDeviceName)),
create_gsm_card_proxy_from_factory_(false),
proxy_factory_(this),
mock_home_provider_info_(NULL),
mock_serving_operator_info_(NULL),
device_(new Cellular(&modem_info_,
kTestDeviceName,
kTestDeviceAddress,
3,
Cellular::kTypeGSM,
kDBusOwner,
kDBusService,
kDBusPath,
&proxy_factory_)) {
PopulateProxies();
modem_info_.metrics()->RegisterDevice(device_->interface_index(),
Technology::kCellular);
}
virtual void SetUp() {
static_cast<Device *>(device_)->rtnl_handler_ = &rtnl_handler_;
device_->set_dhcp_provider(&dhcp_provider_);
EXPECT_CALL(*modem_info_.mock_manager(), device_info())
.WillRepeatedly(Return(&device_info_));
EXPECT_CALL(*modem_info_.mock_manager(), DeregisterService(_))
.Times(AnyNumber());
}
virtual void TearDown() {
device_->DestroyIPConfig();
device_->state_ = Cellular::kStateDisabled;
device_->capability_->ReleaseProxies();
device_->set_dhcp_provider(NULL);
// Break cycle between Cellular and CellularService.
device_->service_ = NULL;
device_->SelectService(NULL);
}
void PopulateProxies() {
dbus_properties_proxy_.reset(new MockDBusPropertiesProxy());
proxy_.reset(new MockModemProxy());
simple_proxy_.reset(new MockModemSimpleProxy());
cdma_proxy_.reset(new MockModemCDMAProxy());
gsm_card_proxy_.reset(new MockModemGSMCardProxy());
gsm_network_proxy_.reset(new MockModemGSMNetworkProxy());
mm1_modem_3gpp_proxy_.reset(new mm1::MockModemModem3gppProxy());
mm1_proxy_.reset(new mm1::MockModemProxy());
mm1_simple_proxy_.reset(new mm1::MockModemSimpleProxy());
}
void SetMockMobileOperatorInfoObjects() {
mock_home_provider_info_ =
new MockMobileOperatorInfo(&dispatcher_, "HomeProvider");
// Takes ownership.
device_->set_home_provider_info(mock_home_provider_info_);
mock_serving_operator_info_ =
new 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 InvokeGetSignalQuality(Error *error,
const SignalQualityCallback &callback,
int timeout) {
callback.Run(kStrength, Error());
}
void InvokeGetModemStatus(Error *error,
const DBusPropertyMapCallback &callback,
int timeout) {
DBusPropertiesMap props;
props["carrier"].writer().append_string(kTestCarrier);
props["unknown-property"].writer().append_string("irrelevant-value");
callback.Run(props, Error());
}
void InvokeGetModemInfo(Error *error, const ModemInfoCallback &callback,
int timeout) {
static const char kManufacturer[] = "Company";
static const char kModelID[] = "Gobi 2000";
static const char kHWRev[] = "A00B1234";
ModemHardwareInfo info;
info._1 = kManufacturer;
info._2 = kModelID;
info._3 = kHWRev;
callback.Run(info, Error());
}
void InvokeGetRegistrationState1X(Error *error,
const RegistrationStateCallback &callback,
int timeout) {
callback.Run(MM_MODEM_CDMA_REGISTRATION_STATE_HOME,
MM_MODEM_CDMA_REGISTRATION_STATE_UNKNOWN,
Error());
}
void InvokeGetIMEI(Error *error, const GSMIdentifierCallback &callback,
int timeout) {
callback.Run(kIMEI, Error());
}
void InvokeGetIMSI(Error *error, const GSMIdentifierCallback &callback,
int timeout) {
callback.Run(kIMSI, Error());
}
void InvokeGetMSISDN(Error *error, const GSMIdentifierCallback &callback,
int timeout) {
callback.Run(kMSISDN, Error());
}
void InvokeGetSPN(Error *error, const GSMIdentifierCallback &callback,
int timeout) {
callback.Run(kTestCarrierSPN, Error());
}
void InvokeGetRegistrationInfo(Error *error,
const RegistrationInfoCallback &callback,
int timeout) {
static const char kNetworkID[] = "22803";
callback.Run(MM_MODEM_GSM_NETWORK_REG_STATUS_ROAMING,
kNetworkID, kTestCarrier, Error());
}
void InvokeRegister(const string &network_id,
Error *error,
const ResultCallback &callback,
int timeout) {
callback.Run(Error());
}
void InvokeGetRegistrationState(Error *error,
const RegistrationStateCallback &callback,
int timeout) {
callback.Run(MM_MODEM_CDMA_REGISTRATION_STATE_REGISTERED,
MM_MODEM_CDMA_REGISTRATION_STATE_HOME,
Error());
}
void InvokeGetRegistrationStateUnregistered(
Error *error,
const RegistrationStateCallback &callback,
int timeout) {
callback.Run(MM_MODEM_CDMA_REGISTRATION_STATE_UNKNOWN,
MM_MODEM_CDMA_REGISTRATION_STATE_UNKNOWN,
Error());
}
void InvokeConnect(DBusPropertiesMap props, Error *error,
const ResultCallback &callback, int timeout) {
EXPECT_EQ(Service::kStateAssociating, device_->service_->state());
callback.Run(Error());
}
void InvokeConnectFail(DBusPropertiesMap props, Error *error,
const ResultCallback &callback, int timeout) {
EXPECT_EQ(Service::kStateAssociating, device_->service_->state());
callback.Run(Error(Error::kNotOnHomeNetwork));
}
void InvokeConnectFailNoService(DBusPropertiesMap props, Error *error,
const ResultCallback &callback, int timeout) {
device_->service_ = NULL;
callback.Run(Error(Error::kNotOnHomeNetwork));
}
void InvokeConnectSuccessNoService(DBusPropertiesMap props, Error *error,
const ResultCallback &callback,
int timeout) {
device_->service_ = NULL;
callback.Run(Error());
}
void InvokeDisconnect(Error *error, const ResultCallback &callback,
int timeout) {
if (!callback.is_null())
callback.Run(Error());
}
void InvokeDisconnectFail(Error *error, const ResultCallback &callback,
int timeout) {
error->Populate(Error::kOperationFailed);
if (!callback.is_null())
callback.Run(*error);
}
void InvokeDisconnectMM1(const ::DBus::Path &bearer, Error *error,
const ResultCallback &callback, int timeout) {
if (!callback.is_null())
callback.Run(Error());
}
void InvokeScanFailed(Error *error, Unused, Unused) {
error->Populate(Error::kOperationFailed);
}
void InvokeScanInitiated(Error *error, Unused, Unused) {
error->Populate(Error::kOperationInitiated);
}
void InvokeSetPowerState(const uint32_t &power_state,
Error *error,
const ResultCallback &callback,
int timeout) {
callback.Run(Error());
}
void ExpectCdmaStartModem(string network_technology) {
if (!device_->IsUnderlyingDeviceEnabled())
EXPECT_CALL(*proxy_,
Enable(true, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(Invoke(this, &CellularTest::InvokeEnable));
EXPECT_CALL(*simple_proxy_,
GetModemStatus(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularTest::InvokeGetModemStatus));
EXPECT_CALL(*proxy_,
GetModemInfo(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularTest::InvokeGetModemInfo));
if (network_technology == kNetworkTechnology1Xrtt)
EXPECT_CALL(*cdma_proxy_, GetRegistrationState(NULL, _, _))
.WillOnce(Invoke(this, &CellularTest::InvokeGetRegistrationState1X));
else
EXPECT_CALL(*cdma_proxy_, GetRegistrationState(NULL, _, _))
.WillOnce(Invoke(this, &CellularTest::InvokeGetRegistrationState));
EXPECT_CALL(*cdma_proxy_, GetSignalQuality(NULL, _, _))
.Times(2)
.WillRepeatedly(Invoke(this, &CellularTest::InvokeGetSignalQuality));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
EXPECT_CALL(*modem_info_.mock_manager(), RegisterService(_));
}
void ExpectDisconnectCapabilityUniversal() {
SetCellularType(Cellular::kTypeUniversal);
device_->state_ = Cellular::kStateConnected;
EXPECT_CALL(*mm1_simple_proxy_, Disconnect(_, _, _, _))
.WillOnce(Invoke(this, &CellularTest::InvokeDisconnectMM1));
GetCapabilityUniversal()->modem_simple_proxy_.reset(
mm1_simple_proxy_.release());
}
void VerifyDisconnect() {
EXPECT_EQ(Cellular::kStateRegistered, device_->state_);
}
void StartPPP(int pid) {
MockGLib &mock_glib(*dynamic_cast<MockGLib *>(modem_info_.glib()));
EXPECT_CALL(mock_glib, ChildWatchAdd(pid, _, _));
EXPECT_CALL(mock_glib, SpawnAsync(_, _, _, _, _, _, _, _))
.WillOnce(DoAll(SetArgumentPointee<6>(pid), Return(true)));
device_->StartPPP("fake_serial_device");
EXPECT_FALSE(device_->ipconfig()); // No DHCP client.
EXPECT_FALSE(device_->selected_service());
EXPECT_FALSE(device_->is_ppp_authenticating_);
EXPECT_TRUE(device_->ppp_task_);
Mock::VerifyAndClearExpectations(&mock_glib);
}
void FakeUpConnectedPPP() {
const char kInterfaceName[] = "fake-ppp-device";
const int kInterfaceIndex = -1;
auto mock_ppp_device = make_scoped_refptr(new MockPPPDevice(
modem_info_.control_interface(), NULL, NULL, NULL, kInterfaceName,
kInterfaceIndex));
device_->ppp_device_ = mock_ppp_device;
device_->state_ = Cellular::kStateConnected;
}
void ExpectPPPStopped() {
auto mock_ppp_device =
dynamic_cast<MockPPPDevice *>(device_->ppp_device_.get());
EXPECT_CALL(*mock_ppp_device, DropConnection());
}
void VerifyPPPStopped() {
EXPECT_FALSE(device_->ppp_task_);
EXPECT_FALSE(device_->ppp_device_);
}
void SetCommonOnAfterResumeExpectations() {
EXPECT_CALL(*dbus_properties_proxy_, GetAll(_))
.WillRepeatedly(Return(DBusPropertiesMap()));
EXPECT_CALL(*mm1_proxy_, set_state_changed_callback(_)).Times(AnyNumber());
EXPECT_CALL(*modem_info_.mock_metrics(), NotifyDeviceScanStarted(_))
.Times(AnyNumber());
EXPECT_CALL(*modem_info_.mock_manager(), UpdateEnabledTechnologies())
.Times(AnyNumber());
EXPECT_CALL(*dynamic_cast<DeviceMockAdaptor *>(device_->adaptor()),
EmitBoolChanged(_, _)).Times(AnyNumber());
}
mm1::MockModemProxy *SetupOnAfterResume() {
SetCellularType(Cellular::kTypeUniversal);
SetCommonOnAfterResumeExpectations();
return mm1_proxy_.get(); // Before the capability snags it.
}
MOCK_METHOD1(TestCallback, void(const Error &error));
protected:
static const char kTestDeviceName[];
static const char kTestDeviceAddress[];
static const char kDBusOwner[];
static const char kDBusService[];
static const char 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 kTestNetworksGSM;
static const Stringmaps kTestNetworksCellular;
static const int kStrength;
// Must be std::string so that we can safely ReturnRef.
static string kHomeProviderCode;
static string kHomeProviderCountry;
static string kHomeProviderName;
static string kServingOperatorCode;
static string kServingOperatorCountry;
static string kServingOperatorName;
class TestProxyFactory : public ProxyFactory {
public:
explicit TestProxyFactory(CellularTest *test) : test_(test) {}
virtual DBusPropertiesProxyInterface *CreateDBusPropertiesProxy(
const std::string &path,
const std::string &service) {
return test_->dbus_properties_proxy_.release();
}
virtual ModemProxyInterface *CreateModemProxy(
const string &/*path*/,
const string &/*service*/) {
return test_->proxy_.release();
}
virtual ModemSimpleProxyInterface *CreateModemSimpleProxy(
const string &/*path*/,
const string &/*service*/) {
return test_->simple_proxy_.release();
}
virtual ModemCDMAProxyInterface *CreateModemCDMAProxy(
const string &/*path*/,
const string &/*service*/) {
return test_->cdma_proxy_.release();
}
virtual ModemGSMCardProxyInterface *CreateModemGSMCardProxy(
const string &/*path*/,
const string &/*service*/) {
// TODO(benchan): This code conditionally returns a NULL pointer to avoid
// CellularCapabilityGSM::InitProperties (and thus
// CellularCapabilityGSM::GetIMSI) from being called during the
// construction. Remove this workaround after refactoring the tests.
return test_->create_gsm_card_proxy_from_factory_ ?
test_->gsm_card_proxy_.release() : NULL;
}
virtual ModemGSMNetworkProxyInterface *CreateModemGSMNetworkProxy(
const string &/*path*/,
const string &/*service*/) {
return test_->gsm_network_proxy_.release();
}
virtual mm1::ModemModem3gppProxyInterface *CreateMM1ModemModem3gppProxy(
const std::string &path,
const std::string &service) {
return test_->mm1_modem_3gpp_proxy_.release();
}
virtual mm1::ModemProxyInterface *CreateMM1ModemProxy(
const std::string &path,
const std::string &service) {
return test_->mm1_proxy_.release();
}
virtual mm1::ModemSimpleProxyInterface *CreateMM1ModemSimpleProxy(
const string &/*path*/,
const string &/*service*/) {
return test_->mm1_simple_proxy_.release();
}
private:
CellularTest *test_;
};
void StartRTNLHandler();
void StopRTNLHandler();
void AllowCreateGSMCardProxyFromFactory() {
create_gsm_card_proxy_from_factory_ = true;
}
void SetCellularType(Cellular::Type type) {
device_->InitCapability(type);
}
CellularCapabilityClassic *GetCapabilityClassic() {
return dynamic_cast<CellularCapabilityClassic *>(
device_->capability_.get());
}
CellularCapabilityCDMA *GetCapabilityCDMA() {
return dynamic_cast<CellularCapabilityCDMA *>(device_->capability_.get());
}
CellularCapabilityGSM *GetCapabilityGSM() {
return dynamic_cast<CellularCapabilityGSM *>(device_->capability_.get());
}
CellularCapabilityUniversal *GetCapabilityUniversal() {
return dynamic_cast<CellularCapabilityUniversal *>(
device_->capability_.get());
}
// Different tests simulate a cellular service being set using a real /mock
// service.
CellularService *SetService() {
device_->service_ = new CellularService(&modem_info_, device_);
return device_->service_;
}
MockCellularService *SetMockService() {
device_->service_ = new MockCellularService(&modem_info_, device_);
return static_cast<MockCellularService *>(device_->service_.get());
}
void set_enabled_persistent(bool new_value) {
device_->enabled_persistent_ = new_value;
}
void SetCapabilityUniversalActiveBearer(scoped_ptr<CellularBearer> bearer) {
SetCellularType(Cellular::kTypeUniversal);
CellularCapabilityUniversal *capability = GetCapabilityUniversal();
capability->active_bearer_ = bearer.Pass();
}
EventDispatcher dispatcher_;
MockModemInfo modem_info_;
MockDeviceInfo device_info_;
NiceMock<MockRTNLHandler> rtnl_handler_;
MockDHCPProvider dhcp_provider_;
scoped_refptr<MockDHCPConfig> dhcp_config_;
bool create_gsm_card_proxy_from_factory_;
scoped_ptr<MockDBusPropertiesProxy> dbus_properties_proxy_;
scoped_ptr<MockModemProxy> proxy_;
scoped_ptr<MockModemSimpleProxy> simple_proxy_;
scoped_ptr<MockModemCDMAProxy> cdma_proxy_;
scoped_ptr<MockModemGSMCardProxy> gsm_card_proxy_;
scoped_ptr<MockModemGSMNetworkProxy> gsm_network_proxy_;
scoped_ptr<mm1::MockModemModem3gppProxy> mm1_modem_3gpp_proxy_;
scoped_ptr<mm1::MockModemProxy> mm1_proxy_;
scoped_ptr<mm1::MockModemSimpleProxy> mm1_simple_proxy_;
TestProxyFactory proxy_factory_;
MockMobileOperatorInfo *mock_home_provider_info_;
MockMobileOperatorInfo *mock_serving_operator_info_;
CellularRefPtr device_;
};
const char CellularTest::kTestDeviceName[] = "usb0";
const char CellularTest::kTestDeviceAddress[] = "00:01:02:03:04:05";
const char CellularTest::kDBusOwner[] = ":1.19";
const char CellularTest::kDBusService[] = "org.chromium.ModemManager";
const char CellularTest::kDBusPath[] = "/org/chromium/ModemManager/Gobi/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::kTestNetworksGSM =
{{{CellularCapabilityGSM::kNetworkPropertyStatus, "1"},
{CellularCapabilityGSM::kNetworkPropertyID, "0000"},
{CellularCapabilityGSM::kNetworkPropertyLongName, "some_long_name"},
{CellularCapabilityGSM::kNetworkPropertyShortName, "short"}}};
const Stringmaps CellularTest::kTestNetworksCellular =
{{{kStatusProperty, "available"},
{kNetworkIdProperty, "0000"},
{kLongNameProperty, "some_long_name"},
{kShortNameProperty, "short"}}};
const int CellularTest::kStrength = 90;
string CellularTest::kHomeProviderCode = "10001"; // NOLINT(runtime/string)
string CellularTest::kHomeProviderCountry = "us"; // NOLINT
string CellularTest::kHomeProviderName = "HomeProviderName"; // NOLINT
string CellularTest::kServingOperatorCode = "10002"; // NOLINT
string CellularTest::kServingOperatorCountry = "ca"; // NOLINT
string CellularTest::kServingOperatorName = "ServingOperatorName"; // NOLINT
TEST_F(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_F(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));
}
TEST_F(CellularTest, StartCDMARegister) {
SetCellularType(Cellular::kTypeCDMA);
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_TRUE(device_->service_.get());
EXPECT_EQ(kNetworkTechnology1Xrtt, device_->service_->network_technology());
EXPECT_EQ(kStrength, device_->service_->strength());
EXPECT_EQ(kRoamingStateHome, device_->service_->roaming_state());
}
TEST_F(CellularTest, StartGSMRegister) {
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(NULL, _, _))
.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_TRUE(device_->service_.get());
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_F(CellularTest, StartConnected) {
EXPECT_CALL(device_info_, GetFlags(device_->interface_index(), _))
.WillOnce(Return(true));
SetCellularType(Cellular::kTypeCDMA);
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_F(CellularTest, StartLinked) {
EXPECT_CALL(device_info_, GetFlags(device_->interface_index(), _))
.WillOnce(DoAll(SetArgumentPointee<1>(IFF_UP), Return(true)));
SetCellularType(Cellular::kTypeCDMA);
device_->set_modem_state(Cellular::kModemStateConnected);
device_->set_meid(kMEID);
ExpectCdmaStartModem(kNetworkTechnologyEvdo);
EXPECT_CALL(dhcp_provider_, CreateConfig(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(NULL);
}
TEST_F(CellularTest, FriendlyServiceName) {
// 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_);
SetCellularType(Cellular::kTypeCDMA);
// We are not testing the behaviour of capabilities here.
device_->mobile_operator_info_observer_->set_capability(NULL);
// (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_);
mock_home_provider_info_->SetEmptyDefaultsForProperties();
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_home_provider_info_, operator_name())
.WillRepeatedly(ReturnRef(kHomeProviderName));
device_->mobile_operator_info_observer_->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_);
mock_serving_operator_info_->SetEmptyDefaultsForProperties();
EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_serving_operator_info_, operator_name())
.WillRepeatedly(ReturnRef(kServingOperatorName));
device_->mobile_operator_info_observer_->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_);
mock_home_provider_info_->SetEmptyDefaultsForProperties();
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_home_provider_info_, operator_name())
.WillRepeatedly(ReturnRef(kHomeProviderName));
device_->mobile_operator_info_observer_->OnOperatorChanged();
// Now emulate an event for updated serving operator information.
Mock::VerifyAndClearExpectations(mock_serving_operator_info_);
mock_serving_operator_info_->SetEmptyDefaultsForProperties();
EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_serving_operator_info_, operator_name())
.WillRepeatedly(ReturnRef(kServingOperatorName));
device_->mobile_operator_info_observer_->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_);
mock_serving_operator_info_->SetEmptyDefaultsForProperties();
EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_serving_operator_info_, operator_name())
.WillRepeatedly(ReturnRef(kServingOperatorName));
device_->mobile_operator_info_observer_->OnOperatorChanged();
// Now emulate an event for updated home provider information.
Mock::VerifyAndClearExpectations(mock_home_provider_info_);
mock_home_provider_info_->SetEmptyDefaultsForProperties();
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_home_provider_info_, operator_name())
.WillRepeatedly(ReturnRef(kHomeProviderName));
device_->mobile_operator_info_observer_->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.
mock_home_provider_info_->SetEmptyDefaultsForProperties();
mock_serving_operator_info_->SetEmptyDefaultsForProperties();
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());
}
TEST_F(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_);
// (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();
EXPECT_EQ("", device_->home_provider().GetCode());
EXPECT_EQ("", device_->home_provider().GetName());
EXPECT_EQ("", device_->home_provider().GetCountry());
EXPECT_EQ("", device_->service_->serving_operator().GetCode());
EXPECT_EQ("", device_->service_->serving_operator().GetName());
EXPECT_EQ("", device_->service_->serving_operator().GetCountry());
Mock::VerifyAndClearExpectations(mock_home_provider_info_);
Mock::VerifyAndClearExpectations(mock_serving_operator_info_);
device_->DestroyService();
// (2) serving operator known.
// When home provider is not known, serving operator proxies in.
EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(false));
mock_serving_operator_info_->SetEmptyDefaultsForProperties();
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();
EXPECT_EQ(kServingOperatorCode, device_->home_provider().GetCode());
EXPECT_EQ(kServingOperatorName, device_->home_provider().GetName());
EXPECT_EQ(kServingOperatorCountry, device_->home_provider().GetCountry());
EXPECT_EQ(kServingOperatorCode,
device_->service_->serving_operator().GetCode());
EXPECT_EQ(kServingOperatorName,
device_->service_->serving_operator().GetName());
EXPECT_EQ(kServingOperatorCountry,
device_->service_->serving_operator().GetCountry());
Mock::VerifyAndClearExpectations(mock_home_provider_info_);
Mock::VerifyAndClearExpectations(mock_serving_operator_info_);
device_->DestroyService();
// (3) home provider known.
// When serving operator is not known, home provider proxies in.
EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(false));
mock_home_provider_info_->SetEmptyDefaultsForProperties();
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();
EXPECT_EQ(kHomeProviderCode, device_->home_provider().GetCode());
EXPECT_EQ(kHomeProviderName, device_->home_provider().GetName());
EXPECT_EQ(kHomeProviderCountry, device_->home_provider().GetCountry());
EXPECT_EQ(kHomeProviderCode,
device_->service_->serving_operator().GetCode());
EXPECT_EQ(kHomeProviderName,
device_->service_->serving_operator().GetName());
EXPECT_EQ(kHomeProviderCountry,
device_->service_->serving_operator().GetCountry());
Mock::VerifyAndClearExpectations(mock_home_provider_info_);
Mock::VerifyAndClearExpectations(mock_serving_operator_info_);
device_->DestroyService();
// (4) Serving operator known, home provider known.
mock_home_provider_info_->SetEmptyDefaultsForProperties();
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));
mock_serving_operator_info_->SetEmptyDefaultsForProperties();
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();
EXPECT_EQ(kHomeProviderCode, device_->home_provider().GetCode());
EXPECT_EQ(kHomeProviderName, device_->home_provider().GetName());
EXPECT_EQ(kHomeProviderCountry, device_->home_provider().GetCountry());
EXPECT_EQ(kServingOperatorCode,
device_->service_->serving_operator().GetCode());
EXPECT_EQ(kServingOperatorName,
device_->service_->serving_operator().GetName());
EXPECT_EQ(kServingOperatorCountry,
device_->service_->serving_operator().GetCountry());
}
static bool IllegalChar(char a) {
return !(isalnum(a) || a == '_');
}
TEST_F(CellularTest, StorageIdentifier) {
// Test that the storage identifier name used by the service is sensible under
// different scenarios w.r.t. information about the mobile network operator.
SetMockMobileOperatorInfoObjects();
mock_home_provider_info_->SetEmptyDefaultsForProperties();
mock_serving_operator_info_->SetEmptyDefaultsForProperties();
CHECK(mock_home_provider_info_);
CHECK(mock_serving_operator_info_);
// See cellular_service.cc
string prefix = string(kTypeCellular) + "_" +
string(kTestDeviceAddress) + "_";
// Service replaces ':' with '_'
std::replace_if(prefix.begin(), prefix.end(), &IllegalChar, '_');
const string kUuidHomeProvider = "uuidHomeProvider";
const string kUuidServingOperator = "uuidServingOperator";
const string kSimIdentifier = "12345123451234512345";
SetCellularType(Cellular::kTypeCDMA);
// We are not testing the behaviour of capabilities here.
device_->mobile_operator_info_observer_->set_capability(NULL);
ON_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillByDefault(Return(false));
// (1) Service created, both home provider and serving operator known =>
// home provider used.
mock_home_provider_info_->SetEmptyDefaultsForProperties();
mock_serving_operator_info_->SetEmptyDefaultsForProperties();
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_home_provider_info_, uuid())
.WillRepeatedly(ReturnRef(kUuidHomeProvider));
EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_serving_operator_info_, uuid())
.WillRepeatedly(ReturnRef(kUuidServingOperator));
device_->CreateService();
EXPECT_EQ(prefix + kUuidHomeProvider,
device_->service()->GetStorageIdentifier());
Mock::VerifyAndClearExpectations(mock_home_provider_info_);
Mock::VerifyAndClearExpectations(mock_serving_operator_info_);
device_->DestroyService();
// Common expectation for following tests:
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(false));
// (2) Service created, no extra information => Default storage_id;
EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(false));
device_->CreateService();
EXPECT_EQ(prefix + device_->service()->friendly_name(),
device_->service()->GetStorageIdentifier());
Mock::VerifyAndClearExpectations(mock_serving_operator_info_);
device_->DestroyService();
// (3) Service created, serving operator known, uuid known.
mock_serving_operator_info_->SetEmptyDefaultsForProperties();
EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_serving_operator_info_, uuid())
.WillRepeatedly(ReturnRef(kUuidServingOperator));
device_->CreateService();
EXPECT_EQ(prefix + kUuidServingOperator,
device_->service()->GetStorageIdentifier());
Mock::VerifyAndClearExpectations(mock_serving_operator_info_);
device_->DestroyService();
// (4) Service created, serving operator known, uuid not known, iccid known.
mock_serving_operator_info_->SetEmptyDefaultsForProperties();
EXPECT_CALL(*mock_serving_operator_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
device_->set_sim_identifier(kSimIdentifier);
device_->CreateService();
EXPECT_EQ(prefix + kSimIdentifier,
device_->service()->GetStorageIdentifier());
Mock::VerifyAndClearExpectations(mock_serving_operator_info_);
device_->DestroyService();
}
namespace {
MATCHER(ContainsPhoneNumber, "") {
return ContainsKey(arg,
CellularCapabilityClassic::kConnectPropertyPhoneNumber);
}
} // namespace
TEST_F(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(*simple_proxy_,
Connect(ContainsPhoneNumber(), _, _,
CellularCapability::kTimeoutConnect))
.Times(2)
.WillRepeatedly(Invoke(this, &CellularTest::InvokeConnect));
GetCapabilityClassic()->simple_proxy_.reset(simple_proxy_.release());
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_F(CellularTest, Disconnect) {
Error error;
device_->state_ = Cellular::kStateRegistered;
device_->Disconnect(&error);
EXPECT_EQ(Error::kNotConnected, error.type());
error.Reset();
device_->state_ = Cellular::kStateConnected;
EXPECT_CALL(*proxy_,
Disconnect(_, _, CellularCapability::kTimeoutDisconnect))
.WillOnce(Invoke(this, &CellularTest::InvokeDisconnect));
GetCapabilityClassic()->proxy_.reset(proxy_.release());
device_->Disconnect(&error);
EXPECT_TRUE(error.IsSuccess());
EXPECT_EQ(Cellular::kStateRegistered, device_->state_);
}
TEST_F(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(*proxy_,
Disconnect(_, _, CellularCapability::kTimeoutDisconnect))
.Times(2)
.WillRepeatedly(Invoke(this, &CellularTest::InvokeDisconnectFail));
GetCapabilityClassic()->proxy_.reset(proxy_.release());
device_->modem_state_ = Cellular::kModemStateDisconnecting;
device_->Disconnect(&error);
EXPECT_TRUE(error.IsFailure());
EXPECT_EQ(Cellular::kStateConnected, device_->state_);
device_->modem_state_ = Cellular::kModemStateConnected;
device_->Disconnect(&error);
EXPECT_TRUE(error.IsFailure());
EXPECT_EQ(Cellular::kStateRegistered, device_->state_);
}
TEST_F(CellularTest, ConnectFailure) {
SetCellularType(Cellular::kTypeCDMA);
device_->state_ = Cellular::kStateRegistered;
SetService();
ASSERT_EQ(Service::kStateIdle, device_->service_->state());
EXPECT_CALL(*simple_proxy_,
Connect(_, _, _, CellularCapability::kTimeoutConnect))
.WillOnce(Invoke(this, &CellularTest::InvokeConnectFail));
GetCapabilityClassic()->simple_proxy_.reset(simple_proxy_.release());
Error error;
device_->Connect(&error);
EXPECT_EQ(Service::kStateFailure, device_->service_->state());
}
TEST_F(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.
SetCellularType(Cellular::kTypeCDMA);
device_->state_ = Cellular::kStateRegistered;
SetService();
EXPECT_CALL(
*simple_proxy_,
Connect(_, _, _, CellularCapability::kTimeoutConnect))
.WillOnce(Invoke(this, &CellularTest::InvokeConnectFailNoService));
EXPECT_CALL(*modem_info_.mock_manager(), UpdateService(_));
GetCapabilityClassic()->simple_proxy_.reset(simple_proxy_.release());
Error error;
device_->Connect(&error);
}
TEST_F(CellularTest, ConnectSuccessNoService) {
// Make sure we don't crash if the connect succeeds but the service was
// destroyed before the connect request completes.
SetCellularType(Cellular::kTypeCDMA);
device_->state_ = Cellular::kStateRegistered;
SetService();
EXPECT_CALL(
*simple_proxy_,
Connect(_, _, _, CellularCapability::kTimeoutConnect))
.WillOnce(Invoke(this, &CellularTest::InvokeConnectSuccessNoService));
EXPECT_CALL(*modem_info_.mock_manager(), UpdateService(_));
GetCapabilityClassic()->simple_proxy_.reset(simple_proxy_.release());
Error error;
device_->Connect(&error);
}
TEST_F(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_F(CellularTest, UseNoArpGateway) {
EXPECT_CALL(dhcp_provider_, CreateConfig(kTestDeviceName, _, _, false, false))
.WillOnce(Return(dhcp_config_));
device_->AcquireIPConfig();
}
TEST_F(CellularTest, HandleNewRegistrationStateForServiceRequiringActivation) {
const vector<MobileOperatorInfo::OnlinePortal> olp_list {
{"some@url", "some_method", "some_post_data"}
};
SetCellularType(Cellular::kTypeUniversal);
SetMockMobileOperatorInfoObjects();
// Service gets created in this test, so set defaults.
mock_home_provider_info_->SetEmptyDefaultsForProperties();
// Service activation is needed
device_->set_mdn("0000000000");
// |CellularCapabilityUniversal| expects the |olp_list| from
// |cellular->home_provider_info()|.
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_home_provider_info_, olp_list())
.WillRepeatedly(ReturnRef(olp_list));
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(_, _))
.WillRepeatedly(Return(PendingActivationStore::kStateUnknown));
device_->state_ = Cellular::kStateDisabled;
device_->HandleNewRegistrationState();
EXPECT_FALSE(device_->service_.get());
device_->state_ = Cellular::kStateEnabled;
device_->HandleNewRegistrationState();
EXPECT_TRUE(device_->service_.get());
EXPECT_TRUE(device_->service_->activate_over_non_cellular_network());
}
TEST_F(CellularTest, ModemStateChangeEnable) {
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(NULL, _, _))
.WillOnce(Invoke(this,
&CellularTest::InvokeGetRegistrationStateUnregistered));
EXPECT_CALL(*cdma_proxy_, GetSignalQuality(NULL, _, _))
.WillOnce(Invoke(this, &CellularTest::InvokeGetSignalQuality));
EXPECT_CALL(*modem_info_.mock_manager(), UpdateEnabledTechnologies());
device_->state_ = Cellular::kStateDisabled;
device_->set_modem_state(Cellular::kModemStateDisabled);
SetCellularType(Cellular::kTypeCDMA);
DBusPropertiesMap props;
props[CellularCapabilityClassic::kModemPropertyEnabled].writer().
append_bool(true);
device_->OnDBusPropertiesChanged(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_F(CellularTest, ModemStateChangeDisable) {
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);
SetCellularType(Cellular::kTypeCDMA);
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());
}
TEST_F(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);
EXPECT_EQ(Cellular::kStateDisabled, device_->state());
}
TEST_F(CellularTest, ModemStateChangeValidConnected) {
device_->state_ = Cellular::kStateEnabled;
device_->modem_state_ = Cellular::kModemStateConnecting;
SetService();
device_->OnModemStateChanged(Cellular::kModemStateConnected);
EXPECT_EQ(Cellular::kStateConnected, device_->state());
}
TEST_F(CellularTest, ModemStateChangeLostRegistration) {
SetCellularType(Cellular::kTypeUniversal);
CellularCapabilityUniversal *capability = GetCapabilityUniversal();
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_F(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_F(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_F(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_FALSE(device_->service_.get());
}
TEST_F(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_FALSE(device_->service_.get());
}
TEST_F(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_F(CellularTest, LinkEventUpWithPPP) {
// If PPP is running, don't run DHCP as well.
TestRPCTaskDelegate task_delegate;
base::Callback<void(pid_t, int)> death_callback;
scoped_ptr<NiceMock<MockExternalTask>> mock_task(
new NiceMock<MockExternalTask>(modem_info_.control_interface(),
modem_info_.glib(),
task_delegate.AsWeakPtr(),
death_callback));
EXPECT_CALL(*mock_task, OnDelete()).Times(AnyNumber());
device_->ppp_task_ = mock_task.Pass();
device_->state_ = Cellular::kStateConnected;
EXPECT_CALL(dhcp_provider_, CreateConfig(kTestDeviceName, _, _, _, _))
.Times(0);
EXPECT_CALL(*dhcp_config_, RequestIP()).Times(0);
device_->LinkEvent(IFF_UP, 0);
}
TEST_F(CellularTest, LinkEventUpWithoutPPP) {
// If PPP is not running, fire up DHCP.
device_->state_ = Cellular::kStateConnected;
EXPECT_CALL(dhcp_provider_, CreateConfig(kTestDeviceName, _, _, _, _))
.WillOnce(Return(dhcp_config_));
EXPECT_CALL(*dhcp_config_, RequestIP());
EXPECT_CALL(*dhcp_config_, ReleaseIP(_)).Times(AnyNumber());
device_->LinkEvent(IFF_UP, 0);
}
TEST_F(CellularTest, StartPPP) {
const int kPID = 234;
EXPECT_FALSE(device_->ppp_task_);
StartPPP(kPID);
}
TEST_F(CellularTest, StartPPPAlreadyStarted) {
const int kPID = 234;
StartPPP(kPID);
const int kPID2 = 235;
StartPPP(kPID2);
}
TEST_F(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_FALSE(device_->ppp_task_);
StartPPP(kPID);
EXPECT_EQ(Cellular::kStateLinked, device_->state());
}
TEST_F(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_F(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_.control_interface(),
NULL, NULL, NULL, 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));
EXPECT_CALL(*ppp_device, SetEnabled(true));
EXPECT_CALL(*ppp_device, SelectService(_));
EXPECT_CALL(*ppp_device, UpdateIPConfigFromPPP(ppp_config, false));
device_->Notify(kPPPReasonConnect, ppp_config);
Mock::VerifyAndClearExpectations(&device_info_);
Mock::VerifyAndClearExpectations(ppp_device);
// 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));
device_->Notify(kPPPReasonConnect, ppp_config);
Mock::VerifyAndClearExpectations(&device_info_);
Mock::VerifyAndClearExpectations(ppp_device);
// 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_.control_interface(),
NULL, NULL, NULL, 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));
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));
device_->Notify(kPPPReasonConnect, ppp_config2);
Mock::VerifyAndClearExpectations(&device_info_);
Mock::VerifyAndClearExpectations(ppp_device);
Mock::VerifyAndClearExpectations(ppp_device2);
// Disconnect should report unknown failure, since we had a
// Notify(kPPPReasonAuthenticated, ...).
EXPECT_CALL(*ppp_device2, SetServiceFailure(Service::kFailureUnknown));
device_->Notify(kPPPReasonDisconnect, kEmptyArgs);
EXPECT_FALSE(device_->ppp_task_);
}
TEST_F(CellularTest, PPPConnectionFailedBeforeAuth) {
// 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);
ExpectDisconnectCapabilityUniversal();
EXPECT_CALL(*service, SetFailure(Service::kFailureUnknown));
device_->Notify(kPPPReasonDisconnect, kEmptyArgs);
EXPECT_FALSE(device_->ppp_task_);
VerifyDisconnect();
}
TEST_F(CellularTest, PPPConnectionFailedDuringAuth) {
// 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);
ExpectDisconnectCapabilityUniversal();
EXPECT_CALL(*service, SetFailure(Service::kFailurePPPAuth));
device_->Notify(kPPPReasonAuthenticating, kEmptyArgs);
device_->Notify(kPPPReasonDisconnect, kEmptyArgs);
EXPECT_FALSE(device_->ppp_task_);
VerifyDisconnect();
}
TEST_F(CellularTest, PPPConnectionFailedAfterAuth) {
// 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));
ExpectDisconnectCapabilityUniversal();
device_->Notify(kPPPReasonAuthenticating, kEmptyArgs);
device_->Notify(kPPPReasonAuthenticated, kEmptyArgs);
device_->Notify(kPPPReasonDisconnect, kEmptyArgs);
EXPECT_FALSE(device_->ppp_task_);
VerifyDisconnect();
}
TEST_F(CellularTest, OnPPPDied) {
const int kPID = 1234;
const int kExitStatus = 5;
ExpectDisconnectCapabilityUniversal();
device_->OnPPPDied(kPID, kExitStatus);
VerifyDisconnect();
}
TEST_F(CellularTest, DropConnection) {
device_->set_ipconfig(dhcp_config_);
EXPECT_CALL(*dhcp_config_, ReleaseIP(_));
device_->DropConnection();
Mock::VerifyAndClearExpectations(dhcp_config_); // verify before dtor
EXPECT_FALSE(device_->ipconfig());
}
TEST_F(CellularTest, DropConnectionPPP) {
scoped_refptr<MockPPPDevice> ppp_device(
new MockPPPDevice(modem_info_.control_interface(),
NULL, NULL, NULL, "fake_ppp0", -1));
EXPECT_CALL(*ppp_device, DropConnection());
device_->ppp_device_ = ppp_device;
device_->DropConnection();
}
TEST_F(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_F(CellularTest, ChangeServiceStatePPP) {
MockCellularService *service(SetMockService());
scoped_refptr<MockPPPDevice> ppp_device(
new MockPPPDevice(modem_info_.control_interface(),
NULL, NULL, NULL, "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_F(CellularTest, StopPPPOnDisconnect) {
const int kPID = 123;
Error error;
StartPPP(kPID);
FakeUpConnectedPPP();
ExpectPPPStopped();
device_->Disconnect(&error);
VerifyPPPStopped();
}
TEST_F(CellularTest, StopPPPOnTermination) {
const int kPID = 123;
StartPPP(kPID);
FakeUpConnectedPPP();
ExpectPPPStopped();
device_->StartTermination();
VerifyPPPStopped();
}
TEST_F(CellularTest, OnAfterResumeDisabledWantDisabled) {
// 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_F(CellularTest, OnAfterResumeDisableInProgressWantDisabled) {
// 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_F(CellularTest, OnAfterResumeDisableQueuedWantEnabled) {
// 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 CellularCapabilityUniversal::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 CellularCapabilityUniversal::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.
DBusPropertiesMap modem_properties;
DBus::Variant modem_state;
modem_state.writer().append_int32(Cellular::kModemStateDisabled);
modem_properties = DBusPropertiesMap{{MM_MODEM_PROPERTY_STATE, modem_state}};
// 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_F(CellularTest, OnAfterResumePowerDownInProgressWantEnabled) {
// 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, _, _, _));
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 CellularCapabilityUniversal::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.
DBusPropertiesMap modem_properties;
DBus::Variant modem_state;
modem_state.writer().append_int32(Cellular::kModemStateEnabled);
modem_properties = DBusPropertiesMap{{MM_MODEM_PROPERTY_STATE, modem_state}};
// 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_F(CellularTest, OnAfterResumeDisabledWantEnabled) {
// 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_F(CellularTest, CustomSetterNoopChange) {
Error error;
EXPECT_FALSE(device_->allow_roaming_);
EXPECT_FALSE(device_->SetAllowRoaming(false, &error));
EXPECT_TRUE(error.IsSuccess());
}
TEST_F(CellularTest, ScanImmediateFailure) {
Error error;
device_->set_found_networks(kTestNetworksCellular);
EXPECT_CALL(*gsm_network_proxy_, Scan(&error, _, _))
.WillOnce(Invoke(this, &CellularTest::InvokeScanFailed));
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(Device::kFullScan, &error, "");
EXPECT_TRUE(error.IsFailure());
EXPECT_FALSE(device_->scanning_);
EXPECT_EQ(kTestNetworksCellular, device_->found_networks());
}
TEST_F(CellularTest, ScanAsynchronousFailure) {
Error error;
ScanResultsCallback results_callback;
device_->set_found_networks(kTestNetworksCellular);
EXPECT_CALL(*gsm_network_proxy_, Scan(&error, _, _))
.WillOnce(DoAll(Invoke(this, &CellularTest::InvokeScanInitiated),
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(Device::kFullScan, &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_F(CellularTest, ScanSuccess) {
Error error;
ScanResultsCallback results_callback;
device_->clear_found_networks();
EXPECT_CALL(*gsm_network_proxy_, Scan(&error, _, _))
.WillOnce(DoAll(Invoke(this, &CellularTest::InvokeScanInitiated),
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(Device::kFullScan, &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());
}
TEST_F(CellularTest, EstablishLinkDHCP) {
scoped_ptr<CellularBearer> bearer(
new CellularBearer(&proxy_factory_, "", ""));
bearer->set_ipv4_config_method(IPConfig::kMethodDHCP);
SetCapabilityUniversalActiveBearer(bearer.Pass());
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(SetArgumentPointee<1>(IFF_UP), Return(true)));
EXPECT_CALL(dhcp_provider_, CreateConfig(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_F(CellularTest, EstablishLinkPPP) {
scoped_ptr<CellularBearer> bearer(
new CellularBearer(&proxy_factory_, "", ""));
bearer->set_ipv4_config_method(IPConfig::kMethodPPP);
SetCapabilityUniversalActiveBearer(bearer.Pass());
device_->state_ = Cellular::kStateConnected;
const int kPID = 123;
MockGLib &mock_glib(*dynamic_cast<MockGLib *>(modem_info_.glib()));
EXPECT_CALL(mock_glib, ChildWatchAdd(kPID, _, _));
EXPECT_CALL(mock_glib, SpawnAsync(_, _, _, _, _, _, _, _))
.WillOnce(DoAll(SetArgumentPointee<6>(kPID), Return(true)));
device_->EstablishLink();
EXPECT_FALSE(device_->ipconfig()); // No DHCP client.
EXPECT_FALSE(device_->selected_service());
EXPECT_FALSE(device_->is_ppp_authenticating_);
EXPECT_TRUE(device_->ppp_task_);
}
TEST_F(CellularTest, EstablishLinkStatic) {
IPAddress::Family kAddressFamily = IPAddress::kFamilyIPv4;
const char kAddress[] = "10.0.0.1";
const char kGateway[] = "10.0.0.254";
const int32 kSubnetPrefix = 16;
const char *const kDNS[] = {"10.0.0.2", "8.8.4.4", "8.8.8.8"};
scoped_ptr<IPConfig::Properties> ipconfig_properties(
new 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]};
scoped_ptr<CellularBearer> bearer(
new CellularBearer(&proxy_factory_, "", ""));
bearer->set_ipv4_config_method(IPConfig::kMethodStatic);
bearer->set_ipv4_config_properties(ipconfig_properties.Pass());
SetCapabilityUniversalActiveBearer(bearer.Pass());
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(SetArgumentPointee<1>(IFF_UP), Return(true)));
EXPECT_CALL(*service, SetState(Service::kStateConfiguring));
device_->EstablishLink();
EXPECT_EQ(service, device_->selected_service());
ASSERT_TRUE(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
}
} // namespace shill