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chromium / aosp / platform / system / connectivity / shill / 0f011ceb2e548a2413129a082faf53c8e3c1f083 / . / cellular / cellular_capability_universal_unittest.cc
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//
// Copyright (C) 2013 The Android Open Source Project
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
#include "shill/cellular/cellular_capability_universal.h"
#include <memory>
#include <string>
#include <tuple>
#include <utility>
#include <vector>
#include <base/bind.h>
#include <base/strings/string_util.h>
#include <base/strings/stringprintf.h>
#include <chromeos/dbus/service_constants.h>
#include <ModemManager/ModemManager.h>
#include "shill/cellular/cellular.h"
#include "shill/cellular/cellular_bearer.h"
#include "shill/cellular/cellular_service.h"
#include "shill/cellular/mock_cellular.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_mm1_sim_proxy.h"
#include "shill/cellular/mock_mobile_operator_info.h"
#include "shill/cellular/mock_modem_info.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_event_dispatcher.h"
#include "shill/mock_pending_activation_store.h"
#include "shill/mock_profile.h"
#include "shill/net/mock_rtnl_handler.h"
#include "shill/test_event_dispatcher.h"
#include "shill/testing.h"
using base::Bind;
using base::Unretained;
using std::string;
using std::unique_ptr;
using std::vector;
using testing::AnyNumber;
using testing::InSequence;
using testing::Invoke;
using testing::Mock;
using testing::Return;
using testing::ReturnRef;
using testing::SaveArg;
using testing::_;
namespace shill {
MATCHER_P(HasApn, expected_apn, "") {
return arg.ContainsString(CellularCapabilityUniversal::kConnectApn) &&
expected_apn ==
arg.GetString(CellularCapabilityUniversal::kConnectApn);
}
MATCHER(HasNoUser, "") {
return !arg.ContainsString(CellularCapabilityUniversal::kConnectUser);
}
MATCHER_P(HasUser, expected_user, "") {
return arg.ContainsString(CellularCapabilityUniversal::kConnectUser) &&
expected_user ==
arg.GetString(CellularCapabilityUniversal::kConnectUser);
}
MATCHER(HasNoPassword, "") {
return !arg.ContainsString(CellularCapabilityUniversal::kConnectPassword);
}
MATCHER_P(HasPassword, expected_password, "") {
return arg.ContainsString(CellularCapabilityUniversal::kConnectPassword) &&
expected_password ==
arg.GetString(CellularCapabilityUniversal::kConnectPassword);
}
MATCHER(HasNoAllowedAuth, "") {
return !arg.ContainsString(CellularCapabilityUniversal::kConnectAllowedAuth);
}
MATCHER_P(HasAllowedAuth, expected_authentication, "") {
return arg.ContainsUint(CellularCapabilityUniversal::kConnectAllowedAuth) &&
expected_authentication ==
arg.GetUint(CellularCapabilityUniversal::kConnectAllowedAuth);
}
class CellularCapabilityUniversalTest : public testing::TestWithParam<string> {
public:
explicit CellularCapabilityUniversalTest(EventDispatcher* dispatcher)
: dispatcher_(dispatcher),
control_interface_(this),
modem_info_(&control_interface_, dispatcher, nullptr, nullptr),
modem_3gpp_proxy_(new mm1::MockModemModem3gppProxy()),
modem_cdma_proxy_(new mm1::MockModemModemCdmaProxy()),
modem_location_proxy_(new mm1::MockModemLocationProxy()),
modem_proxy_(new mm1::MockModemProxy()),
modem_simple_proxy_(new mm1::MockModemSimpleProxy()),
sim_proxy_(new mm1::MockSimProxy()),
properties_proxy_(new MockDBusPropertiesProxy()),
capability_(nullptr),
device_adaptor_(nullptr),
cellular_(new Cellular(&modem_info_,
"",
"00:01:02:03:04:05",
0,
Cellular::kTypeUniversal,
"",
"")),
service_(new MockCellularService(&modem_info_, cellular_)),
mock_home_provider_info_(nullptr),
mock_serving_operator_info_(nullptr) {
modem_info_.metrics()->RegisterDevice(cellular_->interface_index(),
Technology::kCellular);
}
~CellularCapabilityUniversalTest() override {
cellular_->service_ = nullptr;
capability_ = nullptr;
device_adaptor_ = nullptr;
}
void SetUp() override {
capability_ = static_cast<CellularCapabilityUniversal*>(
cellular_->capability_.get());
device_adaptor_ =
static_cast<DeviceMockAdaptor*>(cellular_->adaptor());
cellular_->service_ = service_;
// kStateUnknown leads to minimal extra work in maintaining
// activation state.
ON_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID, _))
.WillByDefault(Return(PendingActivationStore::kStateUnknown));
SetMockMobileOperatorInfoObjects();
}
void CreateService() {
// The following constants are never directly accessed by the tests.
const char kFriendlyServiceName[] = "default_test_service_name";
const char kOperatorCode[] = "10010";
const char kOperatorName[] = "default_test_operator_name";
const char kOperatorCountry[] = "us";
// Simulate all the side-effects of Cellular::CreateService
auto service = new CellularService(&modem_info_, cellular_);
service->SetFriendlyName(kFriendlyServiceName);
Stringmap serving_operator;
serving_operator[kOperatorCodeKey] = kOperatorCode;
serving_operator[kOperatorNameKey] = kOperatorName;
serving_operator[kOperatorCountryKey] = kOperatorCountry;
service->set_serving_operator(serving_operator);
cellular_->set_home_provider(serving_operator);
cellular_->service_ = service;
}
void ExpectModemAndModem3gppProperties() {
// Set up mock modem properties.
KeyValueStore modem_properties;
string operator_name = "TestOperator";
string operator_code = "001400";
modem_properties.SetUint(MM_MODEM_PROPERTY_ACCESSTECHNOLOGIES,
kAccessTechnologies);
std::tuple<uint32_t, bool> signal_signal { 90, true };
modem_properties.Set(MM_MODEM_PROPERTY_SIGNALQUALITY,
brillo::Any(signal_signal));
// Set up mock modem 3gpp properties.
KeyValueStore modem3gpp_properties;
modem3gpp_properties.SetUint(
MM_MODEM_MODEM3GPP_PROPERTY_ENABLEDFACILITYLOCKS, 0);
modem3gpp_properties.SetString(MM_MODEM_MODEM3GPP_PROPERTY_IMEI, kImei);
EXPECT_CALL(*properties_proxy_,
GetAll(MM_DBUS_INTERFACE_MODEM))
.WillOnce(Return(modem_properties));
EXPECT_CALL(*properties_proxy_,
GetAll(MM_DBUS_INTERFACE_MODEM_MODEM3GPP))
.WillOnce(Return(modem3gpp_properties));
}
void InvokeEnable(bool enable, Error* error,
const ResultCallback& callback, int timeout) {
callback.Run(Error());
}
void InvokeEnableFail(bool enable, Error* error,
const ResultCallback& callback, int timeout) {
callback.Run(Error(Error::kOperationFailed));
}
void InvokeEnableInWrongState(bool enable, Error* error,
const ResultCallback& callback, int timeout) {
callback.Run(Error(Error::kWrongState));
}
void InvokeRegister(const string& operator_id, Error* error,
const ResultCallback& callback, int timeout) {
callback.Run(Error());
}
void InvokeSetPowerState(const uint32_t& power_state,
Error* error,
const ResultCallback& callback,
int timeout) {
callback.Run(Error());
}
void Set3gppProxy() {
capability_->modem_3gpp_proxy_ = std::move(modem_3gpp_proxy_);
}
void SetSimpleProxy() {
capability_->modem_simple_proxy_ = std::move(modem_simple_proxy_);
}
void SetMockMobileOperatorInfoObjects() {
CHECK(!mock_home_provider_info_);
CHECK(!mock_serving_operator_info_);
mock_home_provider_info_ =
new MockMobileOperatorInfo(dispatcher_, "HomeProvider");
mock_serving_operator_info_ =
new MockMobileOperatorInfo(dispatcher_, "ServingOperator");
mock_home_provider_info_->Init();
mock_serving_operator_info_->Init();
cellular_->set_home_provider_info(mock_home_provider_info_);
cellular_->set_serving_operator_info(mock_serving_operator_info_);
}
void ReleaseCapabilityProxies() {
capability_->ReleaseProxies();
EXPECT_EQ(nullptr, capability_->modem_3gpp_proxy_);
EXPECT_EQ(nullptr, capability_->modem_proxy_);
EXPECT_EQ(nullptr, capability_->modem_location_proxy_);
EXPECT_EQ(nullptr, capability_->modem_simple_proxy_);
}
void SetRegistrationDroppedUpdateTimeout(int64_t timeout_milliseconds) {
capability_->registration_dropped_update_timeout_milliseconds_ =
timeout_milliseconds;
}
MOCK_METHOD1(TestCallback, void(const Error& error));
MOCK_METHOD0(DummyCallback, void());
void SetMockRegistrationDroppedUpdateCallback() {
capability_->registration_dropped_update_callback_.Reset(
Bind(&CellularCapabilityUniversalTest::DummyCallback,
Unretained(this)));
}
protected:
static const char kActiveBearerPathPrefix[];
static const char kImei[];
static const char kInactiveBearerPathPrefix[];
static const char kSimPath[];
static const uint32_t kAccessTechnologies;
static const char kTestMobileProviderDBPath[];
class TestControl : public MockControl {
public:
explicit TestControl(CellularCapabilityUniversalTest* test)
: test_(test) {
active_bearer_properties_.SetBool(MM_BEARER_PROPERTY_CONNECTED, true);
active_bearer_properties_.SetString(MM_BEARER_PROPERTY_INTERFACE,
"/dev/fake");
KeyValueStore ip4config;
ip4config.SetUint("method", MM_BEARER_IP_METHOD_DHCP);
active_bearer_properties_.SetKeyValueStore(
MM_BEARER_PROPERTY_IP4CONFIG, ip4config);
inactive_bearer_properties_.SetBool(MM_BEARER_PROPERTY_CONNECTED, false);
}
KeyValueStore* mutable_active_bearer_properties() {
return &active_bearer_properties_;
}
KeyValueStore* mutable_inactive_bearer_properties() {
return &inactive_bearer_properties_;
}
std::unique_ptr<mm1::ModemLocationProxyInterface>
CreateMM1ModemLocationProxy(const std::string& /*path*/,
const std::string& /*service*/) override {
return std::move(test_->modem_location_proxy_);
}
std::unique_ptr<mm1::ModemModem3gppProxyInterface>
CreateMM1ModemModem3gppProxy(const std::string& /*path*/,
const std::string& /*service*/) override {
return std::move(test_->modem_3gpp_proxy_);
}
std::unique_ptr<mm1::ModemModemCdmaProxyInterface>
CreateMM1ModemModemCdmaProxy(const std::string& /*path*/,
const std::string& /*service*/) override {
return std::move(test_->modem_cdma_proxy_);
}
std::unique_ptr<mm1::ModemProxyInterface> CreateMM1ModemProxy(
const std::string& /*path*/, const std::string& /*service*/) override {
return std::move(test_->modem_proxy_);
}
std::unique_ptr<mm1::ModemSimpleProxyInterface> CreateMM1ModemSimpleProxy(
const std::string& /*path*/, const std::string& /*service*/) override {
return std::move(test_->modem_simple_proxy_);
}
std::unique_ptr<mm1::SimProxyInterface> CreateMM1SimProxy(
const std::string& /*path*/, const std::string& /*service*/) override {
std::unique_ptr<mm1::MockSimProxy> sim_proxy =
std::move(test_->sim_proxy_);
test_->sim_proxy_ = std::make_unique<mm1::MockSimProxy>();
return sim_proxy;
}
std::unique_ptr<DBusPropertiesProxyInterface> CreateDBusPropertiesProxy(
const std::string& path,
const std::string& /*service*/) override {
std::unique_ptr<MockDBusPropertiesProxy> properties_proxy =
std::move(test_->properties_proxy_);
if (path.find(kActiveBearerPathPrefix) != std::string::npos) {
EXPECT_CALL(*properties_proxy, GetAll(MM_DBUS_INTERFACE_BEARER))
.Times(AnyNumber())
.WillRepeatedly(Return(active_bearer_properties_));
} else {
EXPECT_CALL(*properties_proxy, GetAll(MM_DBUS_INTERFACE_BEARER))
.Times(AnyNumber())
.WillRepeatedly(Return(inactive_bearer_properties_));
}
test_->properties_proxy_ = std::make_unique<MockDBusPropertiesProxy>();
return properties_proxy;
}
private:
CellularCapabilityUniversalTest* test_;
KeyValueStore active_bearer_properties_;
KeyValueStore inactive_bearer_properties_;
};
EventDispatcher* dispatcher_;
TestControl control_interface_;
MockModemInfo modem_info_;
unique_ptr<mm1::MockModemModem3gppProxy> modem_3gpp_proxy_;
unique_ptr<mm1::MockModemModemCdmaProxy> modem_cdma_proxy_;
unique_ptr<mm1::MockModemLocationProxy> modem_location_proxy_;
unique_ptr<mm1::MockModemProxy> modem_proxy_;
unique_ptr<mm1::MockModemSimpleProxy> modem_simple_proxy_;
unique_ptr<mm1::MockSimProxy> sim_proxy_;
unique_ptr<MockDBusPropertiesProxy> properties_proxy_;
CellularCapabilityUniversal* capability_; // Owned by |cellular_|.
DeviceMockAdaptor* device_adaptor_; // Owned by |cellular_|.
CellularRefPtr cellular_;
MockCellularService* service_; // owned by cellular_
// saved for testing connect operations.
RpcIdentifierCallback connect_callback_;
// Set when required and passed to |cellular_|. Owned by |cellular_|.
MockMobileOperatorInfo* mock_home_provider_info_;
MockMobileOperatorInfo* mock_serving_operator_info_;
};
// Most of our tests involve using a real EventDispatcher object.
class CellularCapabilityUniversalMainTest
: public CellularCapabilityUniversalTest {
public:
CellularCapabilityUniversalMainTest() :
CellularCapabilityUniversalTest(&dispatcher_) {}
protected:
EventDispatcherForTest dispatcher_;
};
// Tests that involve timers will (or may) use a mock of the event dispatcher
// instead of a real one.
class CellularCapabilityUniversalTimerTest
: public CellularCapabilityUniversalTest {
public:
CellularCapabilityUniversalTimerTest()
: CellularCapabilityUniversalTest(&mock_dispatcher_) {}
protected:
::testing::StrictMock<MockEventDispatcher> mock_dispatcher_;
};
const char CellularCapabilityUniversalTest::kActiveBearerPathPrefix[] =
"/bearer/active";
const char CellularCapabilityUniversalTest::kImei[] = "999911110000";
const char CellularCapabilityUniversalTest::kInactiveBearerPathPrefix[] =
"/bearer/inactive";
const char CellularCapabilityUniversalTest::kSimPath[] = "/foo/sim";
const uint32_t CellularCapabilityUniversalTest::kAccessTechnologies =
MM_MODEM_ACCESS_TECHNOLOGY_LTE |
MM_MODEM_ACCESS_TECHNOLOGY_HSPA_PLUS;
const char CellularCapabilityUniversalTest::kTestMobileProviderDBPath[] =
"provider_db_unittest.bfd";
TEST_F(CellularCapabilityUniversalMainTest, StartModem) {
ExpectModemAndModem3gppProperties();
EXPECT_CALL(*modem_proxy_,
Enable(true, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(Invoke(
this, &CellularCapabilityUniversalTest::InvokeEnable));
Error error;
EXPECT_CALL(*this, TestCallback(IsSuccess()));
ResultCallback callback =
Bind(&CellularCapabilityUniversalTest::TestCallback, Unretained(this));
capability_->StartModem(&error, callback);
EXPECT_TRUE(error.IsOngoing());
EXPECT_EQ(kImei, cellular_->imei());
EXPECT_EQ(kAccessTechnologies, capability_->access_technologies_);
}
TEST_F(CellularCapabilityUniversalMainTest, StartModemFailure) {
EXPECT_CALL(*modem_proxy_,
Enable(true, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(Invoke(
this, &CellularCapabilityUniversalTest::InvokeEnableFail));
EXPECT_CALL(*properties_proxy_, GetAll(MM_DBUS_INTERFACE_MODEM)).Times(0);
EXPECT_CALL(*properties_proxy_, GetAll(MM_DBUS_INTERFACE_MODEM_MODEM3GPP))
.Times(0);
Error error;
EXPECT_CALL(*this, TestCallback(IsFailure()));
ResultCallback callback =
Bind(&CellularCapabilityUniversalTest::TestCallback, Unretained(this));
capability_->StartModem(&error, callback);
EXPECT_TRUE(error.IsOngoing());
}
TEST_F(CellularCapabilityUniversalMainTest, StartModemInWrongState) {
ExpectModemAndModem3gppProperties();
EXPECT_CALL(*modem_proxy_,
Enable(true, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(Invoke(
this, &CellularCapabilityUniversalTest::InvokeEnableInWrongState))
.WillOnce(Invoke(
this, &CellularCapabilityUniversalTest::InvokeEnable));
Error error;
EXPECT_CALL(*this, TestCallback(_)).Times(0);
ResultCallback callback =
Bind(&CellularCapabilityUniversalTest::TestCallback, Unretained(this));
capability_->StartModem(&error, callback);
EXPECT_TRUE(error.IsOngoing());
// Verify that the modem has not been enabled.
EXPECT_TRUE(cellular_->imei().empty());
EXPECT_EQ(0, capability_->access_technologies_);
Mock::VerifyAndClearExpectations(this);
// Change the state to kModemStateEnabling and verify that it still has not
// been enabled.
capability_->OnModemStateChanged(Cellular::kModemStateEnabling);
EXPECT_TRUE(cellular_->imei().empty());
EXPECT_EQ(0, capability_->access_technologies_);
Mock::VerifyAndClearExpectations(this);
// Change the state to kModemStateDisabling and verify that it still has not
// been enabled.
EXPECT_CALL(*this, TestCallback(_)).Times(0);
capability_->OnModemStateChanged(Cellular::kModemStateDisabling);
EXPECT_TRUE(cellular_->imei().empty());
EXPECT_EQ(0, capability_->access_technologies_);
Mock::VerifyAndClearExpectations(this);
// Change the state of the modem to disabled and verify that it gets enabled.
EXPECT_CALL(*this, TestCallback(IsSuccess()));
capability_->OnModemStateChanged(Cellular::kModemStateDisabled);
EXPECT_EQ(kImei, cellular_->imei());
EXPECT_EQ(kAccessTechnologies, capability_->access_technologies_);
}
TEST_F(CellularCapabilityUniversalMainTest,
StartModemWithDeferredEnableFailure) {
EXPECT_CALL(*modem_proxy_,
Enable(true, _, _, CellularCapability::kTimeoutEnable))
.Times(2)
.WillRepeatedly(Invoke(
this, &CellularCapabilityUniversalTest::InvokeEnableInWrongState));
EXPECT_CALL(*properties_proxy_, GetAll(MM_DBUS_INTERFACE_MODEM)).Times(0);
EXPECT_CALL(*properties_proxy_, GetAll(MM_DBUS_INTERFACE_MODEM_MODEM3GPP))
.Times(0);
Error error;
EXPECT_CALL(*this, TestCallback(_)).Times(0);
ResultCallback callback =
Bind(&CellularCapabilityUniversalTest::TestCallback, Unretained(this));
capability_->StartModem(&error, callback);
EXPECT_TRUE(error.IsOngoing());
Mock::VerifyAndClearExpectations(this);
// Change the state of the modem to disabled but fail the deferred enable
// operation with the WrongState error in order to verify that the deferred
// enable operation does not trigger another deferred enable operation.
EXPECT_CALL(*this, TestCallback(IsFailure()));
capability_->OnModemStateChanged(Cellular::kModemStateDisabled);
}
TEST_F(CellularCapabilityUniversalMainTest, StopModem) {
// Save pointers to proxies before they are lost by the call to InitProxies
mm1::MockModemProxy* modem_proxy = modem_proxy_.get();
EXPECT_CALL(*modem_proxy, set_state_changed_callback(_));
capability_->InitProxies();
Error error;
ResultCallback callback =
Bind(&CellularCapabilityUniversalTest::TestCallback, Unretained(this));
capability_->StopModem(&error, callback);
EXPECT_TRUE(error.IsSuccess());
ResultCallback disable_callback;
EXPECT_CALL(*modem_proxy,
Enable(false, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(SaveArg<2>(&disable_callback));
dispatcher_.DispatchPendingEvents();
ResultCallback set_power_state_callback;
EXPECT_CALL(
*modem_proxy,
SetPowerState(
MM_MODEM_POWER_STATE_LOW, _, _,
CellularCapabilityUniversal::kSetPowerStateTimeoutMilliseconds))
.WillOnce(SaveArg<2>(&set_power_state_callback));
disable_callback.Run(Error(Error::kSuccess));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
set_power_state_callback.Run(Error(Error::kSuccess));
Mock::VerifyAndClearExpectations(this);
// TestCallback should get called with success even if the power state
// callback gets called with an error
EXPECT_CALL(*this, TestCallback(IsSuccess()));
set_power_state_callback.Run(Error(Error::kOperationFailed));
}
TEST_F(CellularCapabilityUniversalMainTest, StopModemAltair) {
// Save pointers to proxies before they are lost by the call to InitProxies
mm1::MockModemProxy* modem_proxy = modem_proxy_.get();
EXPECT_CALL(*modem_proxy, set_state_changed_callback(_));
capability_->InitProxies();
const char kBearerDBusPath[] = "/bearer/dbus/path";
capability_->set_active_bearer_for_test(std::make_unique<CellularBearer>(
&control_interface_, kBearerDBusPath, cellular_->dbus_service()));
cellular_->set_mm_plugin(CellularCapabilityUniversal::kAltairLTEMMPlugin);
Error error;
ResultCallback callback =
Bind(&CellularCapabilityUniversalTest::TestCallback, Unretained(this));
capability_->StopModem(&error, callback);
EXPECT_TRUE(error.IsSuccess());
ResultCallback delete_bearer_callback;
EXPECT_CALL(*modem_proxy,
DeleteBearer(kBearerDBusPath, _, _,
CellularCapability::kTimeoutDefault))
.WillOnce(SaveArg<2>(&delete_bearer_callback));
dispatcher_.DispatchPendingEvents();
ResultCallback disable_callback;
EXPECT_CALL(*modem_proxy,
Enable(false, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(SaveArg<2>(&disable_callback));
delete_bearer_callback.Run(Error(Error::kSuccess));
ResultCallback set_power_state_callback;
EXPECT_CALL(
*modem_proxy,
SetPowerState(
MM_MODEM_POWER_STATE_LOW, _, _,
CellularCapabilityUniversal::kSetPowerStateTimeoutMilliseconds))
.WillOnce(SaveArg<2>(&set_power_state_callback));
disable_callback.Run(Error(Error::kSuccess));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
set_power_state_callback.Run(Error(Error::kSuccess));
}
TEST_F(CellularCapabilityUniversalMainTest,
StopModemAltairDeleteBearerFailure) {
// Save pointers to proxies before they are lost by the call to InitProxies
mm1::MockModemProxy* modem_proxy = modem_proxy_.get();
EXPECT_CALL(*modem_proxy, set_state_changed_callback(_));
capability_->InitProxies();
const char kBearerDBusPath[] = "/bearer/dbus/path";
capability_->set_active_bearer_for_test(std::make_unique<CellularBearer>(
&control_interface_, kBearerDBusPath, cellular_->dbus_service()));
cellular_->set_mm_plugin(CellularCapabilityUniversal::kAltairLTEMMPlugin);
Error error;
ResultCallback callback =
Bind(&CellularCapabilityUniversalTest::TestCallback, Unretained(this));
capability_->StopModem(&error, callback);
EXPECT_TRUE(error.IsSuccess());
ResultCallback delete_bearer_callback;
EXPECT_CALL(*modem_proxy,
DeleteBearer(kBearerDBusPath, _, _,
CellularCapability::kTimeoutDefault))
.WillOnce(SaveArg<2>(&delete_bearer_callback));
dispatcher_.DispatchPendingEvents();
ResultCallback disable_callback;
EXPECT_CALL(*modem_proxy,
Enable(false, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(SaveArg<2>(&disable_callback));
delete_bearer_callback.Run(Error(Error::kOperationFailed));
ResultCallback set_power_state_callback;
EXPECT_CALL(
*modem_proxy,
SetPowerState(
MM_MODEM_POWER_STATE_LOW, _, _,
CellularCapabilityUniversal::kSetPowerStateTimeoutMilliseconds))
.WillOnce(SaveArg<2>(&set_power_state_callback));
disable_callback.Run(Error(Error::kSuccess));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
set_power_state_callback.Run(Error(Error::kSuccess));
}
TEST_F(CellularCapabilityUniversalMainTest, StopModemAltairNotConnected) {
// Save pointers to proxies before they are lost by the call to InitProxies
mm1::MockModemProxy* modem_proxy = modem_proxy_.get();
EXPECT_CALL(*modem_proxy, set_state_changed_callback(_));
capability_->InitProxies();
capability_->set_active_bearer_for_test(nullptr);
cellular_->set_mm_plugin(CellularCapabilityUniversal::kAltairLTEMMPlugin);
Error error;
ResultCallback callback =
Bind(&CellularCapabilityUniversalTest::TestCallback, Unretained(this));
capability_->StopModem(&error, callback);
EXPECT_TRUE(error.IsSuccess());
ResultCallback disable_callback;
EXPECT_CALL(*modem_proxy,
Enable(false, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(SaveArg<2>(&disable_callback));
dispatcher_.DispatchPendingEvents();
ResultCallback set_power_state_callback;
EXPECT_CALL(
*modem_proxy,
SetPowerState(
MM_MODEM_POWER_STATE_LOW, _, _,
CellularCapabilityUniversal::kSetPowerStateTimeoutMilliseconds))
.WillOnce(SaveArg<2>(&set_power_state_callback));
disable_callback.Run(Error(Error::kSuccess));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
set_power_state_callback.Run(Error(Error::kSuccess));
Mock::VerifyAndClearExpectations(this);
// TestCallback should get called with success even if the power state
// callback gets called with an error
EXPECT_CALL(*this, TestCallback(IsSuccess()));
set_power_state_callback.Run(Error(Error::kOperationFailed));
}
TEST_F(CellularCapabilityUniversalMainTest, TerminationAction) {
ExpectModemAndModem3gppProperties();
{
InSequence seq;
EXPECT_CALL(*modem_proxy_,
Enable(true, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(Invoke(this, &CellularCapabilityUniversalTest::InvokeEnable));
EXPECT_CALL(*modem_proxy_,
Enable(false, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(Invoke(this, &CellularCapabilityUniversalTest::InvokeEnable));
EXPECT_CALL(
*modem_proxy_,
SetPowerState(
MM_MODEM_POWER_STATE_LOW, _, _,
CellularCapabilityUniversal::kSetPowerStateTimeoutMilliseconds))
.WillOnce(Invoke(
this, &CellularCapabilityUniversalTest::InvokeSetPowerState));
}
EXPECT_CALL(*this, TestCallback(IsSuccess())).Times(2);
EXPECT_EQ(Cellular::kStateDisabled, cellular_->state());
EXPECT_EQ(Cellular::kModemStateUnknown, cellular_->modem_state());
EXPECT_TRUE(modem_info_.manager()->termination_actions_.IsEmpty());
// Here we mimic the modem state change from ModemManager. When the modem is
// enabled, a termination action should be added.
cellular_->OnModemStateChanged(Cellular::kModemStateEnabled);
dispatcher_.DispatchPendingEvents();
EXPECT_EQ(Cellular::kStateEnabled, cellular_->state());
EXPECT_EQ(Cellular::kModemStateEnabled, cellular_->modem_state());
EXPECT_FALSE(modem_info_.manager()->termination_actions_.IsEmpty());
// Running the termination action should disable the modem.
modem_info_.manager()->RunTerminationActions(Bind(
&CellularCapabilityUniversalMainTest::TestCallback, Unretained(this)));
dispatcher_.DispatchPendingEvents();
// Here we mimic the modem state change from ModemManager. When the modem is
// disabled, the termination action should be removed.
cellular_->OnModemStateChanged(Cellular::kModemStateDisabled);
dispatcher_.DispatchPendingEvents();
EXPECT_EQ(Cellular::kStateDisabled, cellular_->state());
EXPECT_EQ(Cellular::kModemStateDisabled, cellular_->modem_state());
EXPECT_TRUE(modem_info_.manager()->termination_actions_.IsEmpty());
// No termination action should be called here.
modem_info_.manager()->RunTerminationActions(Bind(
&CellularCapabilityUniversalMainTest::TestCallback, Unretained(this)));
dispatcher_.DispatchPendingEvents();
}
TEST_F(CellularCapabilityUniversalMainTest,
TerminationActionRemovedByStopModem) {
ExpectModemAndModem3gppProperties();
{
InSequence seq;
EXPECT_CALL(*modem_proxy_,
Enable(true, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(Invoke(this, &CellularCapabilityUniversalTest::InvokeEnable));
EXPECT_CALL(*modem_proxy_,
Enable(false, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(Invoke(this, &CellularCapabilityUniversalTest::InvokeEnable));
EXPECT_CALL(
*modem_proxy_,
SetPowerState(
MM_MODEM_POWER_STATE_LOW, _, _,
CellularCapabilityUniversal::kSetPowerStateTimeoutMilliseconds))
.WillOnce(Invoke(
this, &CellularCapabilityUniversalTest::InvokeSetPowerState));
}
EXPECT_CALL(*this, TestCallback(IsSuccess())).Times(1);
EXPECT_EQ(Cellular::kStateDisabled, cellular_->state());
EXPECT_EQ(Cellular::kModemStateUnknown, cellular_->modem_state());
EXPECT_TRUE(modem_info_.manager()->termination_actions_.IsEmpty());
// Here we mimic the modem state change from ModemManager. When the modem is
// enabled, a termination action should be added.
cellular_->OnModemStateChanged(Cellular::kModemStateEnabled);
dispatcher_.DispatchPendingEvents();
EXPECT_EQ(Cellular::kStateEnabled, cellular_->state());
EXPECT_EQ(Cellular::kModemStateEnabled, cellular_->modem_state());
EXPECT_FALSE(modem_info_.manager()->termination_actions_.IsEmpty());
// Verify that the termination action is removed when the modem is disabled
// not due to a suspend request.
cellular_->SetEnabled(false);
dispatcher_.DispatchPendingEvents();
EXPECT_EQ(Cellular::kStateDisabled, cellular_->state());
EXPECT_TRUE(modem_info_.manager()->termination_actions_.IsEmpty());
// No termination action should be called here.
modem_info_.manager()->RunTerminationActions(Bind(
&CellularCapabilityUniversalMainTest::TestCallback, Unretained(this)));
dispatcher_.DispatchPendingEvents();
}
TEST_F(CellularCapabilityUniversalMainTest, DisconnectModemNoBearer) {
Error error;
ResultCallback disconnect_callback;
EXPECT_CALL(*modem_simple_proxy_,
Disconnect(_, _, _, CellularCapability::kTimeoutDisconnect))
.Times(0);
capability_->Disconnect(&error, disconnect_callback);
}
TEST_F(CellularCapabilityUniversalMainTest, DisconnectNoProxy) {
Error error;
ResultCallback disconnect_callback;
EXPECT_CALL(*modem_simple_proxy_,
Disconnect(_, _, _, CellularCapability::kTimeoutDisconnect))
.Times(0);
ReleaseCapabilityProxies();
capability_->Disconnect(&error, disconnect_callback);
}
TEST_F(CellularCapabilityUniversalMainTest, SimLockStatusChanged) {
// Set up mock SIM properties
const char kImsi[] = "310100000001";
const char kSimIdentifier[] = "9999888";
const char kOperatorIdentifier[] = "310240";
const char kOperatorName[] = "Custom SPN";
KeyValueStore sim_properties;
sim_properties.SetString(MM_SIM_PROPERTY_IMSI, kImsi);
sim_properties.SetString(MM_SIM_PROPERTY_SIMIDENTIFIER, kSimIdentifier);
sim_properties.SetString(MM_SIM_PROPERTY_OPERATORIDENTIFIER,
kOperatorIdentifier);
sim_properties.SetString(MM_SIM_PROPERTY_OPERATORNAME, kOperatorName);
EXPECT_CALL(*properties_proxy_, GetAll(MM_DBUS_INTERFACE_SIM))
.WillOnce(Return(sim_properties));
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID, _))
.Times(3);
EXPECT_FALSE(cellular_->sim_present());
EXPECT_EQ(nullptr, capability_->sim_proxy_);;
capability_->OnSimPathChanged(kSimPath);
EXPECT_TRUE(cellular_->sim_present());
EXPECT_NE(nullptr, capability_->sim_proxy_);;
EXPECT_EQ(kSimPath, capability_->sim_path_);
cellular_->set_imsi("");
cellular_->set_sim_identifier("");
capability_->spn_ = "";
// SIM is locked.
capability_->sim_lock_status_.lock_type = MM_MODEM_LOCK_SIM_PIN;
capability_->OnSimLockStatusChanged();
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
EXPECT_EQ("", cellular_->imsi());
EXPECT_EQ("", cellular_->sim_identifier());
EXPECT_EQ("", capability_->spn_);
// SIM is unlocked.
properties_proxy_.reset(new MockDBusPropertiesProxy());
EXPECT_CALL(*properties_proxy_, GetAll(MM_DBUS_INTERFACE_SIM))
.WillOnce(Return(sim_properties));
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID, _))
.Times(3);
capability_->sim_lock_status_.lock_type = MM_MODEM_LOCK_NONE;
capability_->OnSimLockStatusChanged();
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
EXPECT_EQ(kImsi, cellular_->imsi());
EXPECT_EQ(kSimIdentifier, cellular_->sim_identifier());
EXPECT_EQ(kOperatorName, capability_->spn_);
// SIM is missing and SIM path is "/".
capability_->OnSimPathChanged(CellularCapabilityUniversal::kRootPath);
EXPECT_FALSE(cellular_->sim_present());
EXPECT_EQ(nullptr, capability_->sim_proxy_);;
EXPECT_EQ(CellularCapabilityUniversal::kRootPath, capability_->sim_path_);
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(_, _)).Times(0);
capability_->OnSimLockStatusChanged();
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
EXPECT_EQ("", cellular_->imsi());
EXPECT_EQ("", cellular_->sim_identifier());
EXPECT_EQ("", capability_->spn_);
// SIM is missing and SIM path is empty.
capability_->OnSimPathChanged("");
EXPECT_FALSE(cellular_->sim_present());
EXPECT_EQ(nullptr, capability_->sim_proxy_);;
EXPECT_EQ("", capability_->sim_path_);
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(_, _)).Times(0);
capability_->OnSimLockStatusChanged();
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
EXPECT_EQ("", cellular_->imsi());
EXPECT_EQ("", cellular_->sim_identifier());
EXPECT_EQ("", capability_->spn_);
}
TEST_F(CellularCapabilityUniversalMainTest, PropertiesChanged) {
// Set up mock modem properties
KeyValueStore modem_properties;
modem_properties.SetUint(MM_MODEM_PROPERTY_ACCESSTECHNOLOGIES,
kAccessTechnologies);
modem_properties.SetRpcIdentifier(MM_MODEM_PROPERTY_SIM, kSimPath);
// Set up mock modem 3gpp properties
KeyValueStore modem3gpp_properties;
modem3gpp_properties.SetUint(MM_MODEM_MODEM3GPP_PROPERTY_ENABLEDFACILITYLOCKS,
0);
modem3gpp_properties.SetString(MM_MODEM_MODEM3GPP_PROPERTY_IMEI, kImei);
// Set up mock modem sim properties
KeyValueStore sim_properties;
EXPECT_CALL(*properties_proxy_,
GetAll(MM_DBUS_INTERFACE_SIM))
.WillOnce(Return(sim_properties));
EXPECT_EQ("", cellular_->imei());
EXPECT_EQ(MM_MODEM_ACCESS_TECHNOLOGY_UNKNOWN,
capability_->access_technologies_);
EXPECT_FALSE(capability_->sim_proxy_.get());
EXPECT_CALL(*device_adaptor_, EmitStringChanged(
kTechnologyFamilyProperty, kTechnologyFamilyGsm));
EXPECT_CALL(*device_adaptor_, EmitStringChanged(kImeiProperty, kImei));
capability_->OnPropertiesChanged(MM_DBUS_INTERFACE_MODEM,
modem_properties, vector<string>());
EXPECT_EQ(kAccessTechnologies, capability_->access_technologies_);
EXPECT_EQ(kSimPath, capability_->sim_path_);
EXPECT_TRUE(capability_->sim_proxy_.get());
// Changing properties on wrong interface will not have an effect
capability_->OnPropertiesChanged(MM_DBUS_INTERFACE_MODEM,
modem3gpp_properties,
vector<string>());
EXPECT_EQ("", cellular_->imei());
// Changing properties on the right interface gets reflected in the
// capabilities object
capability_->OnPropertiesChanged(MM_DBUS_INTERFACE_MODEM_MODEM3GPP,
modem3gpp_properties,
vector<string>());
EXPECT_EQ(kImei, cellular_->imei());
Mock::VerifyAndClearExpectations(device_adaptor_);
// Expect to see changes when the family changes
modem_properties.Clear();
modem_properties.SetUint(MM_MODEM_PROPERTY_ACCESSTECHNOLOGIES,
MM_MODEM_ACCESS_TECHNOLOGY_1XRTT);
EXPECT_CALL(*device_adaptor_, EmitStringChanged(
kTechnologyFamilyProperty, kTechnologyFamilyCdma)).
Times(1);
capability_->OnPropertiesChanged(MM_DBUS_INTERFACE_MODEM,
modem_properties,
vector<string>());
Mock::VerifyAndClearExpectations(device_adaptor_);
// Back to LTE
modem_properties.Clear();
modem_properties.SetUint(MM_MODEM_PROPERTY_ACCESSTECHNOLOGIES,
MM_MODEM_ACCESS_TECHNOLOGY_LTE);
EXPECT_CALL(*device_adaptor_, EmitStringChanged(
kTechnologyFamilyProperty, kTechnologyFamilyGsm)).
Times(1);
capability_->OnPropertiesChanged(MM_DBUS_INTERFACE_MODEM,
modem_properties,
vector<string>());
Mock::VerifyAndClearExpectations(device_adaptor_);
// LTE & CDMA - the device adaptor should not be called!
modem_properties.Clear();
modem_properties.SetUint(MM_MODEM_PROPERTY_ACCESSTECHNOLOGIES,
MM_MODEM_ACCESS_TECHNOLOGY_LTE |
MM_MODEM_ACCESS_TECHNOLOGY_1XRTT);
EXPECT_CALL(*device_adaptor_, EmitStringChanged(_, _)).Times(0);
capability_->OnPropertiesChanged(MM_DBUS_INTERFACE_MODEM,
modem_properties,
vector<string>());
}
TEST_F(CellularCapabilityUniversalMainTest, UpdateRegistrationState) {
capability_->InitProxies();
CreateService();
cellular_->set_imsi("310240123456789");
cellular_->set_modem_state(Cellular::kModemStateConnected);
SetRegistrationDroppedUpdateTimeout(0);
const Stringmap& home_provider_map = cellular_->home_provider();
ASSERT_NE(home_provider_map.end(), home_provider_map.find(kOperatorNameKey));
string home_provider = home_provider_map.find(kOperatorNameKey)->second;
string ota_name = cellular_->service_->friendly_name();
// Home --> Roaming should be effective immediately.
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
capability_->registration_state_);
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_ROAMING,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_ROAMING,
capability_->registration_state_);
// Idle --> Roaming should be effective immediately.
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_IDLE,
home_provider,
ota_name);
dispatcher_.DispatchPendingEvents();
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_IDLE,
capability_->registration_state_);
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_ROAMING,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_ROAMING,
capability_->registration_state_);
// Idle --> Searching should be effective immediately.
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_IDLE,
home_provider,
ota_name);
dispatcher_.DispatchPendingEvents();
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_IDLE,
capability_->registration_state_);
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING,
capability_->registration_state_);
// Home --> Searching --> Home should never see Searching.
EXPECT_CALL(*(modem_info_.mock_metrics()),
Notify3GPPRegistrationDelayedDropPosted());
EXPECT_CALL(*(modem_info_.mock_metrics()),
Notify3GPPRegistrationDelayedDropCanceled());
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
capability_->registration_state_);
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
capability_->registration_state_);
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
capability_->registration_state_);
dispatcher_.DispatchPendingEvents();
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
capability_->registration_state_);
Mock::VerifyAndClearExpectations(modem_info_.mock_metrics());
// Home --> Searching --> wait till dispatch should see Searching
EXPECT_CALL(*(modem_info_.mock_metrics()),
Notify3GPPRegistrationDelayedDropPosted());
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
capability_->registration_state_);
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
capability_->registration_state_);
dispatcher_.DispatchPendingEvents();
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING,
capability_->registration_state_);
Mock::VerifyAndClearExpectations(modem_info_.mock_metrics());
// Home --> Searching --> Searching --> wait till dispatch should see
// Searching *and* the first callback should be cancelled.
EXPECT_CALL(*this, DummyCallback()).Times(0);
EXPECT_CALL(*(modem_info_.mock_metrics()),
Notify3GPPRegistrationDelayedDropPosted());
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
capability_->registration_state_);
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING,
home_provider,
ota_name);
SetMockRegistrationDroppedUpdateCallback();
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
capability_->registration_state_);
dispatcher_.DispatchPendingEvents();
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING,
capability_->registration_state_);
}
TEST_F(CellularCapabilityUniversalMainTest, IsRegistered) {
capability_->registration_state_ = MM_MODEM_3GPP_REGISTRATION_STATE_IDLE;
EXPECT_FALSE(capability_->IsRegistered());
capability_->registration_state_ = MM_MODEM_3GPP_REGISTRATION_STATE_HOME;
EXPECT_TRUE(capability_->IsRegistered());
capability_->registration_state_ = MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING;
EXPECT_FALSE(capability_->IsRegistered());
capability_->registration_state_ = MM_MODEM_3GPP_REGISTRATION_STATE_DENIED;
EXPECT_FALSE(capability_->IsRegistered());
capability_->registration_state_ = MM_MODEM_3GPP_REGISTRATION_STATE_UNKNOWN;
EXPECT_FALSE(capability_->IsRegistered());
capability_->registration_state_ = MM_MODEM_3GPP_REGISTRATION_STATE_ROAMING;
EXPECT_TRUE(capability_->IsRegistered());
}
TEST_F(CellularCapabilityUniversalMainTest,
UpdateRegistrationStateModemNotConnected) {
capability_->InitProxies();
CreateService();
cellular_->set_imsi("310240123456789");
cellular_->set_modem_state(Cellular::kModemStateRegistered);
SetRegistrationDroppedUpdateTimeout(0);
const Stringmap& home_provider_map = cellular_->home_provider();
ASSERT_NE(home_provider_map.end(), home_provider_map.find(kOperatorNameKey));
string home_provider = home_provider_map.find(kOperatorNameKey)->second;
string ota_name = cellular_->service_->friendly_name();
// Home --> Searching should be effective immediately.
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_HOME,
capability_->registration_state_);
capability_->On3gppRegistrationChanged(
MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING,
home_provider,
ota_name);
EXPECT_EQ(MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING,
capability_->registration_state_);
}
TEST_F(CellularCapabilityUniversalMainTest, IsValidSimPath) {
// Invalid paths
EXPECT_FALSE(capability_->IsValidSimPath(""));
EXPECT_FALSE(capability_->IsValidSimPath("/"));
// A valid path
EXPECT_TRUE(capability_->IsValidSimPath(
"/org/freedesktop/ModemManager1/SIM/0"));
// Note that any string that is not one of the above invalid paths is
// currently regarded as valid, since the ModemManager spec doesn't impose
// a strict format on the path. The validity of this is subject to change.
EXPECT_TRUE(capability_->IsValidSimPath("path"));
}
TEST_F(CellularCapabilityUniversalMainTest, NormalizeMdn) {
EXPECT_EQ("", capability_->NormalizeMdn(""));
EXPECT_EQ("12345678901", capability_->NormalizeMdn("12345678901"));
EXPECT_EQ("12345678901", capability_->NormalizeMdn("+1 234 567 8901"));
EXPECT_EQ("12345678901", capability_->NormalizeMdn("+1-234-567-8901"));
EXPECT_EQ("12345678901", capability_->NormalizeMdn("+1 (234) 567-8901"));
EXPECT_EQ("12345678901", capability_->NormalizeMdn("1 234 567 8901 "));
EXPECT_EQ("2345678901", capability_->NormalizeMdn("(234) 567-8901"));
}
TEST_F(CellularCapabilityUniversalMainTest, SimPathChanged) {
// Set up mock modem SIM properties
const char kImsi[] = "310100000001";
const char kSimIdentifier[] = "9999888";
const char kOperatorIdentifier[] = "310240";
const char kOperatorName[] = "Custom SPN";
KeyValueStore sim_properties;
sim_properties.SetString(MM_SIM_PROPERTY_IMSI, kImsi);
sim_properties.SetString(MM_SIM_PROPERTY_SIMIDENTIFIER, kSimIdentifier);
sim_properties.SetString(MM_SIM_PROPERTY_OPERATORIDENTIFIER,
kOperatorIdentifier);
sim_properties.SetString(MM_SIM_PROPERTY_OPERATORNAME, kOperatorName);
EXPECT_CALL(*properties_proxy_, GetAll(MM_DBUS_INTERFACE_SIM))
.Times(1).WillOnce(Return(sim_properties));
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID, _))
.Times(4);
EXPECT_FALSE(cellular_->sim_present());
EXPECT_EQ(nullptr, capability_->sim_proxy_);;
EXPECT_EQ("", capability_->sim_path_);
EXPECT_EQ("", cellular_->imsi());
EXPECT_EQ("", cellular_->sim_identifier());
EXPECT_EQ("", capability_->spn_);
capability_->OnSimPathChanged(kSimPath);
EXPECT_TRUE(cellular_->sim_present());
EXPECT_NE(nullptr, capability_->sim_proxy_);;
EXPECT_EQ(kSimPath, capability_->sim_path_);
EXPECT_EQ(kImsi, cellular_->imsi());
EXPECT_EQ(kSimIdentifier, cellular_->sim_identifier());
EXPECT_EQ(kOperatorName, capability_->spn_);
// Changing to the same SIM path should be a no-op.
capability_->OnSimPathChanged(kSimPath);
EXPECT_TRUE(cellular_->sim_present());
EXPECT_NE(nullptr, capability_->sim_proxy_);;
EXPECT_EQ(kSimPath, capability_->sim_path_);
EXPECT_EQ(kImsi, cellular_->imsi());
EXPECT_EQ(kSimIdentifier, cellular_->sim_identifier());
EXPECT_EQ(kOperatorName, capability_->spn_);
capability_->OnSimPathChanged("");
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
Mock::VerifyAndClearExpectations(properties_proxy_.get());
EXPECT_FALSE(cellular_->sim_present());
EXPECT_EQ(nullptr, capability_->sim_proxy_);;
EXPECT_EQ("", capability_->sim_path_);
EXPECT_EQ("", cellular_->imsi());
EXPECT_EQ("", cellular_->sim_identifier());
EXPECT_EQ("", capability_->spn_);
EXPECT_CALL(*properties_proxy_, GetAll(MM_DBUS_INTERFACE_SIM))
.Times(1).WillOnce(Return(sim_properties));
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID, _))
.Times(4);
capability_->OnSimPathChanged(kSimPath);
EXPECT_TRUE(cellular_->sim_present());
EXPECT_NE(nullptr, capability_->sim_proxy_);;
EXPECT_EQ(kSimPath, capability_->sim_path_);
EXPECT_EQ(kImsi, cellular_->imsi());
EXPECT_EQ(kSimIdentifier, cellular_->sim_identifier());
EXPECT_EQ(kOperatorName, capability_->spn_);
capability_->OnSimPathChanged("/");
EXPECT_FALSE(cellular_->sim_present());
EXPECT_EQ(nullptr, capability_->sim_proxy_);;
EXPECT_EQ("/", capability_->sim_path_);
EXPECT_EQ("", cellular_->imsi());
EXPECT_EQ("", cellular_->sim_identifier());
EXPECT_EQ("", capability_->spn_);
}
TEST_F(CellularCapabilityUniversalMainTest, SimPropertiesChanged) {
// Set up mock modem properties
KeyValueStore modem_properties;
modem_properties.SetRpcIdentifier(MM_MODEM_PROPERTY_SIM, kSimPath);
// Set up mock modem sim properties
const char kImsi[] = "310100000001";
KeyValueStore sim_properties;
sim_properties.SetString(MM_SIM_PROPERTY_IMSI, kImsi);
EXPECT_CALL(*properties_proxy_, GetAll(MM_DBUS_INTERFACE_SIM))
.WillOnce(Return(sim_properties));
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID, _))
.Times(0);
EXPECT_FALSE(capability_->sim_proxy_.get());
capability_->OnPropertiesChanged(MM_DBUS_INTERFACE_MODEM,
modem_properties, vector<string>());
EXPECT_EQ(kSimPath, capability_->sim_path_);
EXPECT_TRUE(capability_->sim_proxy_.get());
EXPECT_EQ(kImsi, cellular_->imsi());
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
// Updating the SIM
KeyValueStore new_properties;
const char kNewImsi[] = "310240123456789";
const char kSimIdentifier[] = "9999888";
const char kOperatorIdentifier[] = "310240";
const char kOperatorName[] = "Custom SPN";
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID, _))
.Times(6);
EXPECT_CALL(*mock_home_provider_info_, UpdateIMSI(kNewImsi)).Times(2);
new_properties.SetString(MM_SIM_PROPERTY_IMSI, kNewImsi);
new_properties.SetString(MM_SIM_PROPERTY_SIMIDENTIFIER, kSimIdentifier);
new_properties.SetString(MM_SIM_PROPERTY_OPERATORIDENTIFIER,
kOperatorIdentifier);
capability_->OnPropertiesChanged(MM_DBUS_INTERFACE_SIM,
new_properties,
vector<string>());
EXPECT_EQ(kNewImsi, cellular_->imsi());
EXPECT_EQ(kSimIdentifier, cellular_->sim_identifier());
EXPECT_EQ("", capability_->spn_);
new_properties.SetString(MM_SIM_PROPERTY_OPERATORNAME, kOperatorName);
capability_->OnPropertiesChanged(MM_DBUS_INTERFACE_SIM,
new_properties,
vector<string>());
EXPECT_EQ(kOperatorName, capability_->spn_);
}
TEST_F(CellularCapabilityUniversalMainTest, Reset) {
// Save pointers to proxies before they are lost by the call to InitProxies
mm1::MockModemProxy* modem_proxy = modem_proxy_.get();
EXPECT_CALL(*modem_proxy, set_state_changed_callback(_));
capability_->InitProxies();
Error error;
ResultCallback reset_callback;
EXPECT_CALL(*modem_proxy, Reset(_, _, CellularCapability::kTimeoutReset))
.WillOnce(SaveArg<1>(&reset_callback));
capability_->Reset(&error, ResultCallback());
EXPECT_TRUE(capability_->resetting_);
reset_callback.Run(error);
EXPECT_FALSE(capability_->resetting_);
}
TEST_F(CellularCapabilityUniversalMainTest, UpdateActiveBearer) {
// Common resources.
const size_t kPathCount = 3;
string active_paths[kPathCount], inactive_paths[kPathCount];
for (size_t i = 0; i < kPathCount; ++i) {
active_paths[i] = base::StringPrintf("%s/%zu", kActiveBearerPathPrefix, i);
inactive_paths[i] =
base::StringPrintf("%s/%zu", kInactiveBearerPathPrefix, i);
}
EXPECT_EQ(nullptr, capability_->GetActiveBearer());;
// Check that |active_bearer_| is set correctly when an active bearer is
// returned.
capability_->OnBearersChanged({inactive_paths[0],
inactive_paths[1],
active_paths[2],
inactive_paths[1],
inactive_paths[2]});
capability_->UpdateActiveBearer();
ASSERT_NE(nullptr, capability_->GetActiveBearer());;
EXPECT_EQ(active_paths[2], capability_->GetActiveBearer()->dbus_path());
// Check that |active_bearer_| is nullptr if no active bearers are returned.
capability_->OnBearersChanged({inactive_paths[0],
inactive_paths[1],
inactive_paths[2],
inactive_paths[1]});
capability_->UpdateActiveBearer();
EXPECT_EQ(nullptr, capability_->GetActiveBearer());;
// Check that returning multiple bearers causes death.
capability_->OnBearersChanged({active_paths[0],
inactive_paths[1],
inactive_paths[2],
active_paths[1],
inactive_paths[1]});
EXPECT_DEATH(capability_->UpdateActiveBearer(),
"Found more than one active bearer.");
capability_->OnBearersChanged({});
capability_->UpdateActiveBearer();
EXPECT_EQ(nullptr, capability_->GetActiveBearer());;
}
// Validates FillConnectPropertyMap
TEST_F(CellularCapabilityUniversalMainTest, FillConnectPropertyMap) {
constexpr char kTestApn[] = "test_apn";
constexpr char kTestUser[] = "test_user";
constexpr char kTestPassword[] = "test_password";
KeyValueStore properties;
Stringmap apn;
apn[kApnProperty] = kTestApn;
capability_->apn_try_list_ = {apn};
capability_->FillConnectPropertyMap(&properties);
EXPECT_THAT(properties, HasApn(kTestApn));
EXPECT_THAT(properties, HasNoUser());
EXPECT_THAT(properties, HasNoPassword());
EXPECT_THAT(properties, HasNoAllowedAuth());
apn[kApnUsernameProperty] = kTestUser;
capability_->apn_try_list_ = {apn};
capability_->FillConnectPropertyMap(&properties);
EXPECT_THAT(properties, HasApn(kTestApn));
EXPECT_THAT(properties, HasUser(kTestUser));
EXPECT_THAT(properties, HasNoPassword());
EXPECT_THAT(properties, HasNoAllowedAuth());
apn[kApnPasswordProperty] = kTestPassword;
capability_->apn_try_list_ = {apn};
capability_->FillConnectPropertyMap(&properties);
EXPECT_THAT(properties, HasApn(kTestApn));
EXPECT_THAT(properties, HasUser(kTestUser));
EXPECT_THAT(properties, HasPassword(kTestPassword));
EXPECT_THAT(properties, HasNoAllowedAuth());
apn[kApnAuthenticationProperty] = kApnAuthenticationPap;
capability_->apn_try_list_ = {apn};
capability_->FillConnectPropertyMap(&properties);
EXPECT_THAT(properties, HasApn(kTestApn));
EXPECT_THAT(properties, HasUser(kTestUser));
EXPECT_THAT(properties, HasPassword(kTestPassword));
EXPECT_THAT(properties, HasAllowedAuth(MM_BEARER_ALLOWED_AUTH_PAP));
apn[kApnAuthenticationProperty] = kApnAuthenticationChap;
capability_->apn_try_list_ = {apn};
capability_->FillConnectPropertyMap(&properties);
EXPECT_THAT(properties, HasApn(kTestApn));
EXPECT_THAT(properties, HasUser(kTestUser));
EXPECT_THAT(properties, HasPassword(kTestPassword));
EXPECT_THAT(properties, HasAllowedAuth(MM_BEARER_ALLOWED_AUTH_CHAP));
apn[kApnAuthenticationProperty] = "something";
capability_->apn_try_list_ = {apn};
capability_->FillConnectPropertyMap(&properties);
EXPECT_THAT(properties, HasApn(kTestApn));
EXPECT_THAT(properties, HasUser(kTestUser));
EXPECT_THAT(properties, HasPassword(kTestPassword));
EXPECT_THAT(properties, HasNoAllowedAuth());
apn[kApnAuthenticationProperty] = "";
capability_->apn_try_list_ = {apn};
capability_->FillConnectPropertyMap(&properties);
EXPECT_THAT(properties, HasApn(kTestApn));
EXPECT_THAT(properties, HasUser(kTestUser));
EXPECT_THAT(properties, HasPassword(kTestPassword));
EXPECT_THAT(properties, HasNoAllowedAuth());
}
// Validates expected behavior of Connect function
TEST_F(CellularCapabilityUniversalMainTest, Connect) {
mm1::MockModemSimpleProxy* modem_simple_proxy = modem_simple_proxy_.get();
SetSimpleProxy();
Error error;
KeyValueStore properties;
capability_->apn_try_list_.clear();
ResultCallback callback =
Bind(&CellularCapabilityUniversalTest::TestCallback, Unretained(this));
string bearer("/foo");
// Test connect failures
EXPECT_CALL(*modem_simple_proxy, Connect(_, _, _, _))
.WillRepeatedly(SaveArg<2>(&connect_callback_));
capability_->Connect(properties, &error, callback);
EXPECT_TRUE(error.IsSuccess());
EXPECT_CALL(*this, TestCallback(IsFailure()));
EXPECT_CALL(*service_, ClearLastGoodApn());
connect_callback_.Run(bearer, Error(Error::kOperationFailed));
Mock::VerifyAndClearExpectations(this);
// Test connect success
capability_->Connect(properties, &error, callback);
EXPECT_TRUE(error.IsSuccess());
EXPECT_CALL(*this, TestCallback(IsSuccess()));
connect_callback_.Run(bearer, Error(Error::kSuccess));
Mock::VerifyAndClearExpectations(this);
// Test connect failures without a service. Make sure that shill
// does not crash if the connect failed and there is no
// CellularService object. This can happen if the modem is enabled
// and then quickly disabled.
cellular_->service_ = nullptr;
EXPECT_FALSE(capability_->cellular()->service());
capability_->Connect(properties, &error, callback);
EXPECT_TRUE(error.IsSuccess());
EXPECT_CALL(*this, TestCallback(IsFailure()));
connect_callback_.Run(bearer, Error(Error::kOperationFailed));
}
// Validates Connect iterates over APNs
TEST_F(CellularCapabilityUniversalMainTest, ConnectApns) {
mm1::MockModemSimpleProxy* modem_simple_proxy = modem_simple_proxy_.get();
SetSimpleProxy();
Error error;
KeyValueStore properties;
capability_->apn_try_list_.clear();
ResultCallback callback =
Bind(&CellularCapabilityUniversalTest::TestCallback, Unretained(this));
string bearer("/bearer0");
const char apn_name_foo[] = "foo";
const char apn_name_bar[] = "bar";
EXPECT_CALL(*modem_simple_proxy, Connect(HasApn(apn_name_foo), _, _, _))
.WillOnce(SaveArg<2>(&connect_callback_));
Stringmap apn1;
apn1[kApnProperty] = apn_name_foo;
capability_->apn_try_list_.push_back(apn1);
Stringmap apn2;
apn2[kApnProperty] = apn_name_bar;
capability_->apn_try_list_.push_back(apn2);
capability_->FillConnectPropertyMap(&properties);
capability_->Connect(properties, &error, callback);
EXPECT_TRUE(error.IsSuccess());
Mock::VerifyAndClearExpectations(modem_simple_proxy);
EXPECT_CALL(*modem_simple_proxy, Connect(HasApn(apn_name_bar), _, _, _))
.WillOnce(SaveArg<2>(&connect_callback_));
EXPECT_CALL(*service_, ClearLastGoodApn());
connect_callback_.Run(bearer, Error(Error::kInvalidApn));
EXPECT_CALL(*service_, SetLastGoodApn(apn2));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
connect_callback_.Run(bearer, Error(Error::kSuccess));
}
// Validates GetTypeString and AccessTechnologyToTechnologyFamily
TEST_F(CellularCapabilityUniversalMainTest, GetTypeString) {
static const uint32_t kGsmTechnologies[] = {
MM_MODEM_ACCESS_TECHNOLOGY_LTE,
MM_MODEM_ACCESS_TECHNOLOGY_HSPA_PLUS,
MM_MODEM_ACCESS_TECHNOLOGY_HSPA,
MM_MODEM_ACCESS_TECHNOLOGY_HSUPA,
MM_MODEM_ACCESS_TECHNOLOGY_HSDPA,
MM_MODEM_ACCESS_TECHNOLOGY_UMTS,
MM_MODEM_ACCESS_TECHNOLOGY_EDGE,
MM_MODEM_ACCESS_TECHNOLOGY_GPRS,
MM_MODEM_ACCESS_TECHNOLOGY_GSM_COMPACT,
MM_MODEM_ACCESS_TECHNOLOGY_GSM,
MM_MODEM_ACCESS_TECHNOLOGY_LTE | MM_MODEM_ACCESS_TECHNOLOGY_EVDO0,
MM_MODEM_ACCESS_TECHNOLOGY_GSM | MM_MODEM_ACCESS_TECHNOLOGY_EVDO0,
MM_MODEM_ACCESS_TECHNOLOGY_LTE | MM_MODEM_ACCESS_TECHNOLOGY_EVDOA,
MM_MODEM_ACCESS_TECHNOLOGY_GSM | MM_MODEM_ACCESS_TECHNOLOGY_EVDOA,
MM_MODEM_ACCESS_TECHNOLOGY_LTE | MM_MODEM_ACCESS_TECHNOLOGY_EVDOB,
MM_MODEM_ACCESS_TECHNOLOGY_GSM | MM_MODEM_ACCESS_TECHNOLOGY_EVDOB,
MM_MODEM_ACCESS_TECHNOLOGY_GSM | MM_MODEM_ACCESS_TECHNOLOGY_1XRTT,
};
for (auto gsm_technology : kGsmTechnologies) {
capability_->access_technologies_ = gsm_technology;
ASSERT_EQ(capability_->GetTypeString(), kTechnologyFamilyGsm);
}
static const uint32_t kCdmaTechnologies[] = {
MM_MODEM_ACCESS_TECHNOLOGY_EVDO0,
MM_MODEM_ACCESS_TECHNOLOGY_EVDOA,
MM_MODEM_ACCESS_TECHNOLOGY_EVDOA | MM_MODEM_ACCESS_TECHNOLOGY_EVDO0,
MM_MODEM_ACCESS_TECHNOLOGY_EVDOB,
MM_MODEM_ACCESS_TECHNOLOGY_EVDOB | MM_MODEM_ACCESS_TECHNOLOGY_EVDO0,
MM_MODEM_ACCESS_TECHNOLOGY_1XRTT,
};
for (auto cdma_technology : kCdmaTechnologies) {
capability_->access_technologies_ = cdma_technology;
ASSERT_EQ(capability_->GetTypeString(), kTechnologyFamilyCdma);
}
capability_->access_technologies_ = MM_MODEM_ACCESS_TECHNOLOGY_UNKNOWN;
ASSERT_EQ(capability_->GetTypeString(), "");
}
TEST_F(CellularCapabilityUniversalMainTest, GetMdnForOLP) {
const string kVzwUUID = "c83d6597-dc91-4d48-a3a7-d86b80123751";
const string kFooUUID = "foo";
MockMobileOperatorInfo mock_operator_info(&dispatcher_,
"MobileOperatorInfo");
EXPECT_CALL(mock_operator_info, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(mock_operator_info, uuid()).WillRepeatedly(ReturnRef(kVzwUUID));
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateUnknown;
cellular_->set_mdn("");
EXPECT_EQ("0000000000", capability_->GetMdnForOLP(&mock_operator_info));
cellular_->set_mdn("0123456789");
EXPECT_EQ("0123456789", capability_->GetMdnForOLP(&mock_operator_info));
cellular_->set_mdn("10123456789");
EXPECT_EQ("0123456789", capability_->GetMdnForOLP(&mock_operator_info));
cellular_->set_mdn("1021232333");
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateUnprovisioned;
EXPECT_EQ("0000000000", capability_->GetMdnForOLP(&mock_operator_info));
Mock::VerifyAndClearExpectations(&mock_operator_info);
EXPECT_CALL(mock_operator_info, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(mock_operator_info, uuid()).WillRepeatedly(ReturnRef(kFooUUID));
cellular_->set_mdn("");
EXPECT_EQ("", capability_->GetMdnForOLP(&mock_operator_info));
cellular_->set_mdn("0123456789");
EXPECT_EQ("0123456789", capability_->GetMdnForOLP(&mock_operator_info));
cellular_->set_mdn("10123456789");
EXPECT_EQ("10123456789", capability_->GetMdnForOLP(&mock_operator_info));
}
TEST_F(CellularCapabilityUniversalMainTest, UpdateServiceOLP) {
const MobileOperatorInfo::OnlinePortal kOlp {
"http://testurl",
"POST",
"imei=${imei}&imsi=${imsi}&mdn=${mdn}&min=${min}&iccid=${iccid}"};
const vector<MobileOperatorInfo::OnlinePortal> kOlpList {kOlp};
const string kUuidVzw = "c83d6597-dc91-4d48-a3a7-d86b80123751";
const string kUuidFoo = "foo";
cellular_->set_imei("1");
cellular_->set_imsi("2");
cellular_->set_mdn("10123456789");
cellular_->set_min("5");
cellular_->set_sim_identifier("6");
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_home_provider_info_, olp_list())
.WillRepeatedly(ReturnRef(kOlpList));
EXPECT_CALL(*mock_home_provider_info_, uuid())
.WillRepeatedly(ReturnRef(kUuidVzw));
CreateService();
capability_->UpdateServiceOLP();
// Copy to simplify assertions below.
Stringmap vzw_olp = cellular_->service()->olp();
EXPECT_EQ("http://testurl", vzw_olp[kPaymentPortalURL]);
EXPECT_EQ("POST", vzw_olp[kPaymentPortalMethod]);
EXPECT_EQ("imei=1&imsi=2&mdn=0123456789&min=5&iccid=6",
vzw_olp[kPaymentPortalPostData]);
Mock::VerifyAndClearExpectations(mock_home_provider_info_);
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_home_provider_info_, olp_list())
.WillRepeatedly(ReturnRef(kOlpList));
EXPECT_CALL(*mock_home_provider_info_, uuid())
.WillRepeatedly(ReturnRef(kUuidFoo));
capability_->UpdateServiceOLP();
// Copy to simplify assertions below.
Stringmap olp = cellular_->service()->olp();
EXPECT_EQ("http://testurl", olp[kPaymentPortalURL]);
EXPECT_EQ("POST", olp[kPaymentPortalMethod]);
EXPECT_EQ("imei=1&imsi=2&mdn=10123456789&min=5&iccid=6",
olp[kPaymentPortalPostData]);
}
TEST_F(CellularCapabilityUniversalMainTest, IsMdnValid) {
cellular_->set_mdn("");
EXPECT_FALSE(capability_->IsMdnValid());
cellular_->set_mdn("0000000");
EXPECT_FALSE(capability_->IsMdnValid());
cellular_->set_mdn("0000001");
EXPECT_TRUE(capability_->IsMdnValid());
cellular_->set_mdn("1231223");
EXPECT_TRUE(capability_->IsMdnValid());
}
TEST_F(CellularCapabilityUniversalTimerTest, CompleteActivation) {
const char kIccid[] = "1234567";
cellular_->set_sim_identifier(kIccid);
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
SetActivationState(PendingActivationStore::kIdentifierICCID,
kIccid,
PendingActivationStore::kStatePending))
.Times(1);
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID,
kIccid))
.WillOnce(Return(PendingActivationStore::kStatePending));
EXPECT_CALL(*service_, SetActivationState(kActivationStateActivating))
.Times(1);
EXPECT_CALL(*modem_proxy_.get(), Reset(_, _, _)).Times(1);
Error error;
capability_->InitProxies();
capability_->CompleteActivation(&error);
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
Mock::VerifyAndClearExpectations(service_);
Mock::VerifyAndClearExpectations(&mock_dispatcher_);
}
TEST_F(CellularCapabilityUniversalMainTest, UpdateServiceActivationState) {
const char kIccid[] = "1234567";
const vector<MobileOperatorInfo::OnlinePortal> olp_list {
{"some@url", "some_method", "some_post_data"}
};
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateUnprovisioned;
cellular_->set_sim_identifier("");
cellular_->set_mdn("0000000000");
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_home_provider_info_, olp_list())
.WillRepeatedly(ReturnRef(olp_list));
service_->SetAutoConnect(false);
EXPECT_CALL(*service_, SetActivationState(kActivationStateNotActivated))
.Times(1);
capability_->UpdateServiceActivationState();
Mock::VerifyAndClearExpectations(service_);
EXPECT_FALSE(service_->auto_connect());
cellular_->set_mdn("1231231122");
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateUnknown;
EXPECT_CALL(*service_, SetActivationState(kActivationStateActivated))
.Times(1);
capability_->UpdateServiceActivationState();
Mock::VerifyAndClearExpectations(service_);
EXPECT_TRUE(service_->auto_connect());
// Make sure we don't overwrite auto-connect if a service is already
// activated before calling UpdateServiceActivationState().
service_->SetAutoConnect(false);
EXPECT_FALSE(service_->auto_connect());
const string activation_state = kActivationStateActivated;
EXPECT_CALL(*service_, activation_state())
.WillOnce(ReturnRef(activation_state));
EXPECT_CALL(*service_, SetActivationState(kActivationStateActivated))
.Times(1);
capability_->UpdateServiceActivationState();
Mock::VerifyAndClearExpectations(service_);
EXPECT_FALSE(service_->auto_connect());
service_->SetAutoConnect(false);
cellular_->set_mdn("0000000000");
cellular_->set_sim_identifier(kIccid);
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID,
kIccid))
.Times(1)
.WillRepeatedly(Return(PendingActivationStore::kStatePending));
EXPECT_CALL(*service_, SetActivationState(kActivationStateActivating))
.Times(1);
capability_->UpdateServiceActivationState();
Mock::VerifyAndClearExpectations(service_);
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
EXPECT_FALSE(service_->auto_connect());
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID,
kIccid))
.Times(2)
.WillRepeatedly(Return(PendingActivationStore::kStateActivated));
EXPECT_CALL(*service_, SetActivationState(kActivationStateActivated))
.Times(1);
capability_->UpdateServiceActivationState();
Mock::VerifyAndClearExpectations(service_);
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
EXPECT_TRUE(service_->auto_connect());
// SubscriptionStateUnprovisioned overrides valid MDN.
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateUnprovisioned;
cellular_->set_mdn("1231231122");
cellular_->set_sim_identifier("");
service_->SetAutoConnect(false);
EXPECT_CALL(*service_, SetActivationState(kActivationStateNotActivated))
.Times(1);
capability_->UpdateServiceActivationState();
Mock::VerifyAndClearExpectations(service_);
EXPECT_FALSE(service_->auto_connect());
// SubscriptionStateProvisioned overrides invalid MDN.
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateProvisioned;
cellular_->set_mdn("0000000000");
cellular_->set_sim_identifier("");
service_->SetAutoConnect(false);
EXPECT_CALL(*service_, SetActivationState(kActivationStateActivated))
.Times(1);
capability_->UpdateServiceActivationState();
Mock::VerifyAndClearExpectations(service_);
EXPECT_TRUE(service_->auto_connect());
}
TEST_F(CellularCapabilityUniversalMainTest, UpdatePendingActivationState) {
const char kIccid[] = "1234567";
capability_->InitProxies();
capability_->registration_state_ =
MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING;
// No MDN, no ICCID.
cellular_->set_mdn("0000000");
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateUnknown;
cellular_->set_sim_identifier("");
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID, _))
.Times(0);
capability_->UpdatePendingActivationState();
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
// Valid MDN, but subsciption_state_ Unprovisioned
cellular_->set_mdn("1234567");
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateUnprovisioned;
cellular_->set_sim_identifier("");
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID, _))
.Times(0);
capability_->UpdatePendingActivationState();
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
// ICCID known.
cellular_->set_sim_identifier(kIccid);
// After the modem has reset.
capability_->reset_done_ = true;
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID,
kIccid))
.Times(1).WillOnce(Return(PendingActivationStore::kStatePending));
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
SetActivationState(PendingActivationStore::kIdentifierICCID,
kIccid,
PendingActivationStore::kStateActivated))
.Times(1);
capability_->UpdatePendingActivationState();
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
// Not registered.
capability_->registration_state_ =
MM_MODEM_3GPP_REGISTRATION_STATE_SEARCHING;
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID,
kIccid))
.Times(2).WillRepeatedly(Return(PendingActivationStore::kStateActivated));
EXPECT_CALL(*service_, AutoConnect()).Times(0);
capability_->UpdatePendingActivationState();
Mock::VerifyAndClearExpectations(service_);
// Service, registered.
capability_->registration_state_ =
MM_MODEM_3GPP_REGISTRATION_STATE_HOME;
EXPECT_CALL(*service_, AutoConnect()).Times(1);
capability_->UpdatePendingActivationState();
cellular_->service_->activation_state_ = kActivationStateNotActivated;
Mock::VerifyAndClearExpectations(service_);
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
// Device is connected.
cellular_->state_ = Cellular::kStateConnected;
capability_->UpdatePendingActivationState();
// Device is linked.
cellular_->state_ = Cellular::kStateLinked;
capability_->UpdatePendingActivationState();
// Got valid MDN, subscription_state_ is kSubscriptionStateUnknown
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
RemoveEntry(PendingActivationStore::kIdentifierICCID, kIccid));
cellular_->state_ = Cellular::kStateRegistered;
cellular_->set_mdn("1020304");
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateUnknown;
capability_->UpdatePendingActivationState();
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
// Got invalid MDN, subscription_state_ is kSubscriptionStateProvisioned
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
RemoveEntry(PendingActivationStore::kIdentifierICCID, kIccid));
cellular_->state_ = Cellular::kStateRegistered;
cellular_->set_mdn("0000000");
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateProvisioned;
capability_->UpdatePendingActivationState();
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
}
TEST_F(CellularCapabilityUniversalMainTest, IsServiceActivationRequired) {
const vector<MobileOperatorInfo::OnlinePortal> empty_list;
const vector<MobileOperatorInfo::OnlinePortal> olp_list {
{"some@url", "some_method", "some_post_data"}
};
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateProvisioned;
EXPECT_FALSE(capability_->IsServiceActivationRequired());
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateUnprovisioned;
EXPECT_TRUE(capability_->IsServiceActivationRequired());
capability_->subscription_state_ =
CellularCapabilityUniversal::kSubscriptionStateUnknown;
cellular_->set_mdn("0000000000");
EXPECT_FALSE(capability_->IsServiceActivationRequired());
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(false));
EXPECT_FALSE(capability_->IsServiceActivationRequired());
Mock::VerifyAndClearExpectations(mock_home_provider_info_);
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_home_provider_info_, olp_list())
.WillRepeatedly(ReturnRef(empty_list));
EXPECT_FALSE(capability_->IsServiceActivationRequired());
Mock::VerifyAndClearExpectations(mock_home_provider_info_);
// Set expectations for all subsequent cases.
EXPECT_CALL(*mock_home_provider_info_, IsMobileNetworkOperatorKnown())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_home_provider_info_, olp_list())
.WillRepeatedly(ReturnRef(olp_list));
cellular_->set_mdn("");
EXPECT_TRUE(capability_->IsServiceActivationRequired());
cellular_->set_mdn("1234567890");
EXPECT_FALSE(capability_->IsServiceActivationRequired());
cellular_->set_mdn("0000000000");
EXPECT_TRUE(capability_->IsServiceActivationRequired());
const char kIccid[] = "1234567890";
cellular_->set_sim_identifier(kIccid);
EXPECT_CALL(*modem_info_.mock_pending_activation_store(),
GetActivationState(PendingActivationStore::kIdentifierICCID,
kIccid))
.WillOnce(Return(PendingActivationStore::kStateActivated))
.WillOnce(Return(PendingActivationStore::kStatePending))
.WillOnce(Return(PendingActivationStore::kStateUnknown));
EXPECT_FALSE(capability_->IsServiceActivationRequired());
EXPECT_FALSE(capability_->IsServiceActivationRequired());
EXPECT_TRUE(capability_->IsServiceActivationRequired());
Mock::VerifyAndClearExpectations(modem_info_.mock_pending_activation_store());
}
TEST_F(CellularCapabilityUniversalMainTest, OnModemCurrentCapabilitiesChanged) {
EXPECT_FALSE(cellular_->scanning_supported());
capability_->OnModemCurrentCapabilitiesChanged(MM_MODEM_CAPABILITY_LTE);
EXPECT_FALSE(cellular_->scanning_supported());
capability_->OnModemCurrentCapabilitiesChanged(MM_MODEM_CAPABILITY_CDMA_EVDO);
EXPECT_FALSE(cellular_->scanning_supported());
capability_->OnModemCurrentCapabilitiesChanged(MM_MODEM_CAPABILITY_GSM_UMTS);
EXPECT_TRUE(cellular_->scanning_supported());
capability_->OnModemCurrentCapabilitiesChanged(
MM_MODEM_CAPABILITY_GSM_UMTS | MM_MODEM_CAPABILITY_CDMA_EVDO);
EXPECT_TRUE(cellular_->scanning_supported());
}
TEST_F(CellularCapabilityUniversalMainTest, GetNetworkTechnologyStringOnE362) {
cellular_->set_model_id("");;
capability_->access_technologies_ = 0;
EXPECT_TRUE(capability_->GetNetworkTechnologyString().empty());
cellular_->set_mm_plugin(CellularCapabilityUniversal::kNovatelLTEMMPlugin);
EXPECT_EQ(kNetworkTechnologyLte, capability_->GetNetworkTechnologyString());
capability_->access_technologies_ = MM_MODEM_ACCESS_TECHNOLOGY_GPRS;
EXPECT_EQ(kNetworkTechnologyLte, capability_->GetNetworkTechnologyString());
cellular_->set_mm_plugin("");
EXPECT_EQ(kNetworkTechnologyGprs, capability_->GetNetworkTechnologyString());
}
TEST_F(CellularCapabilityUniversalMainTest, GetOutOfCreditsDetectionType) {
cellular_->set_model_id("");;
EXPECT_EQ(OutOfCreditsDetector::OOCTypeNone,
capability_->GetOutOfCreditsDetectionType());
cellular_->set_mm_plugin(CellularCapabilityUniversal::kAltairLTEMMPlugin);
EXPECT_EQ(OutOfCreditsDetector::OOCTypeSubscriptionState,
capability_->GetOutOfCreditsDetectionType());
}
TEST_F(CellularCapabilityUniversalMainTest, SimLockStatusToProperty) {
Error error;
KeyValueStore store = capability_->SimLockStatusToProperty(&error);
EXPECT_FALSE(store.GetBool(kSIMLockEnabledProperty));
EXPECT_TRUE(store.GetString(kSIMLockTypeProperty).empty());
EXPECT_EQ(0, store.GetInt(kSIMLockRetriesLeftProperty));
capability_->sim_lock_status_.enabled = true;
capability_->sim_lock_status_.retries_left = 3;
capability_->sim_lock_status_.lock_type = MM_MODEM_LOCK_SIM_PIN;
store = capability_->SimLockStatusToProperty(&error);
EXPECT_TRUE(store.GetBool(kSIMLockEnabledProperty));
EXPECT_EQ("sim-pin", store.GetString(kSIMLockTypeProperty));
EXPECT_EQ(3, store.GetInt(kSIMLockRetriesLeftProperty));
capability_->sim_lock_status_.lock_type = MM_MODEM_LOCK_SIM_PUK;
store = capability_->SimLockStatusToProperty(&error);
EXPECT_EQ("sim-puk", store.GetString(kSIMLockTypeProperty));
capability_->sim_lock_status_.lock_type = MM_MODEM_LOCK_SIM_PIN2;
store = capability_->SimLockStatusToProperty(&error);
EXPECT_TRUE(store.GetString(kSIMLockTypeProperty).empty());
capability_->sim_lock_status_.lock_type = MM_MODEM_LOCK_SIM_PUK2;
store = capability_->SimLockStatusToProperty(&error);
EXPECT_TRUE(store.GetString(kSIMLockTypeProperty).empty());
}
TEST_F(CellularCapabilityUniversalMainTest, OnLockRetriesChanged) {
CellularCapabilityUniversal::LockRetryData data;
const uint32_t kDefaultRetries = 999;
capability_->OnLockRetriesChanged(data);
EXPECT_EQ(kDefaultRetries, capability_->sim_lock_status_.retries_left);
data[MM_MODEM_LOCK_SIM_PIN] = 3;
data[MM_MODEM_LOCK_SIM_PUK] = 10;
capability_->OnLockRetriesChanged(data);
EXPECT_EQ(3, capability_->sim_lock_status_.retries_left);
capability_->sim_lock_status_.lock_type = MM_MODEM_LOCK_SIM_PUK;
capability_->OnLockRetriesChanged(data);
EXPECT_EQ(10, capability_->sim_lock_status_.retries_left);
capability_->sim_lock_status_.lock_type = MM_MODEM_LOCK_SIM_PIN;
capability_->OnLockRetriesChanged(data);
EXPECT_EQ(3, capability_->sim_lock_status_.retries_left);
data.clear();
capability_->OnLockRetriesChanged(data);
EXPECT_EQ(kDefaultRetries, capability_->sim_lock_status_.retries_left);
}
TEST_F(CellularCapabilityUniversalMainTest, OnLockTypeChanged) {
EXPECT_EQ(MM_MODEM_LOCK_UNKNOWN, capability_->sim_lock_status_.lock_type);
capability_->OnLockTypeChanged(MM_MODEM_LOCK_NONE);
EXPECT_EQ(MM_MODEM_LOCK_NONE, capability_->sim_lock_status_.lock_type);
EXPECT_FALSE(capability_->sim_lock_status_.enabled);
capability_->OnLockTypeChanged(MM_MODEM_LOCK_SIM_PIN);
EXPECT_EQ(MM_MODEM_LOCK_SIM_PIN, capability_->sim_lock_status_.lock_type);
EXPECT_TRUE(capability_->sim_lock_status_.enabled);
capability_->sim_lock_status_.enabled = false;
capability_->OnLockTypeChanged(MM_MODEM_LOCK_SIM_PUK);
EXPECT_EQ(MM_MODEM_LOCK_SIM_PUK, capability_->sim_lock_status_.lock_type);
EXPECT_TRUE(capability_->sim_lock_status_.enabled);
}
TEST_F(CellularCapabilityUniversalMainTest, OnSimLockPropertiesChanged) {
EXPECT_EQ(MM_MODEM_LOCK_UNKNOWN, capability_->sim_lock_status_.lock_type);
EXPECT_EQ(0, capability_->sim_lock_status_.retries_left);
KeyValueStore changed;
vector<string> invalidated;
capability_->OnModemPropertiesChanged(changed, invalidated);
EXPECT_EQ(MM_MODEM_LOCK_UNKNOWN, capability_->sim_lock_status_.lock_type);
EXPECT_EQ(0, capability_->sim_lock_status_.retries_left);
// Unlock retries changed, but the SIM wasn't locked.
CellularCapabilityUniversal::LockRetryData retry_data;
retry_data[MM_MODEM_LOCK_SIM_PIN] = 3;
changed.Set(MM_MODEM_PROPERTY_UNLOCKRETRIES, brillo::Any(retry_data));
capability_->OnModemPropertiesChanged(changed, invalidated);
EXPECT_EQ(MM_MODEM_LOCK_UNKNOWN, capability_->sim_lock_status_.lock_type);
EXPECT_EQ(3, capability_->sim_lock_status_.retries_left);
// Unlock retries changed and the SIM got locked.
changed.SetUint(MM_MODEM_PROPERTY_UNLOCKREQUIRED,
static_cast<uint32_t>(MM_MODEM_LOCK_SIM_PIN));
capability_->OnModemPropertiesChanged(changed, invalidated);
EXPECT_EQ(MM_MODEM_LOCK_SIM_PIN, capability_->sim_lock_status_.lock_type);
EXPECT_EQ(3, capability_->sim_lock_status_.retries_left);
// Only unlock retries changed.
changed.Remove(MM_MODEM_PROPERTY_UNLOCKREQUIRED);
retry_data[MM_MODEM_LOCK_SIM_PIN] = 2;
changed.Set(MM_MODEM_PROPERTY_UNLOCKRETRIES, brillo::Any(retry_data));
capability_->OnModemPropertiesChanged(changed, invalidated);
EXPECT_EQ(MM_MODEM_LOCK_SIM_PIN, capability_->sim_lock_status_.lock_type);
EXPECT_EQ(2, capability_->sim_lock_status_.retries_left);
// Unlock retries changed with a value that doesn't match the current
// lock type. Default to whatever count is available.
retry_data.clear();
retry_data[MM_MODEM_LOCK_SIM_PIN2] = 2;
changed.Set(MM_MODEM_PROPERTY_UNLOCKRETRIES, brillo::Any(retry_data));
capability_->OnModemPropertiesChanged(changed, invalidated);
EXPECT_EQ(MM_MODEM_LOCK_SIM_PIN, capability_->sim_lock_status_.lock_type);
EXPECT_EQ(2, capability_->sim_lock_status_.retries_left);
}
} // namespace shill