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chromium / chromiumos / platform / shill / refs/heads/firmware-leon-4389.26.B / . / cellular_capability_gsm_unittest.cc
blob: 3dd81e7c928318c79cba87d36ee24207822c5843 [file] [log] [blame]
// Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "shill/cellular_capability_gsm.h"
#include <string>
#include <vector>
#include <base/bind.h>
#include <base/stringprintf.h>
#include <chromeos/dbus/service_constants.h>
#include <gtest/gtest.h>
#include <mm/mm-modem.h>
#include <mobile_provider.h>
#include "shill/cellular.h"
#include "shill/cellular_service.h"
#include "shill/error.h"
#include "shill/event_dispatcher.h"
#include "shill/mock_adaptors.h"
#include "shill/mock_log.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_profile.h"
#include "shill/proxy_factory.h"
using base::Bind;
using base::StringPrintf;
using base::Unretained;
using std::string;
using std::vector;
using testing::_;
using testing::Invoke;
using testing::NiceMock;
using testing::Return;
using testing::SaveArg;
using testing::StrEq;
namespace shill {
MATCHER(IsSuccess, "") {
return arg.IsSuccess();
}
MATCHER(IsFailure, "") {
return arg.IsFailure();
}
class CellularCapabilityGSMTest : public testing::Test {
public:
CellularCapabilityGSMTest()
: modem_info_(NULL, &dispatcher_, NULL, NULL, NULL),
create_card_proxy_from_factory_(false),
proxy_(new MockModemProxy()),
simple_proxy_(new MockModemSimpleProxy()),
card_proxy_(new MockModemGSMCardProxy()),
network_proxy_(new MockModemGSMNetworkProxy()),
proxy_factory_(this),
capability_(NULL),
device_adaptor_(NULL),
cellular_(new Cellular(&modem_info_,
"",
kAddress,
0,
Cellular::kTypeGSM,
"",
"",
"",
&proxy_factory_)) {
modem_info_.metrics()->RegisterDevice(cellular_->interface_index(),
Technology::kCellular);
}
virtual ~CellularCapabilityGSMTest() {
cellular_->service_ = NULL;
capability_ = NULL;
device_adaptor_ = NULL;
}
virtual void SetUp() {
capability_ =
dynamic_cast<CellularCapabilityGSM *>(cellular_->capability_.get());
device_adaptor_ =
dynamic_cast<DeviceMockAdaptor *>(cellular_->adaptor());
}
void InitProviderDB() {
modem_info_.SetProviderDB(kTestMobileProviderDBPath);
}
void InvokeEnable(bool enable, Error *error,
const ResultCallback &callback, int timeout) {
callback.Run(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 InvokeGetIMSI2(Error *error, const GSMIdentifierCallback &callback,
int timeout) {
callback.Run("310240123456789", Error());
}
void InvokeGetIMSIFails(Error *error, const GSMIdentifierCallback &callback,
int timeout) {
callback.Run("", Error(Error::kOperationFailed));
}
void InvokeGetMSISDN(Error *error, const GSMIdentifierCallback &callback,
int timeout) {
callback.Run(kMSISDN, Error());
}
void InvokeGetMSISDNFail(Error *error, const GSMIdentifierCallback &callback,
int timeout) {
callback.Run("", Error(Error::kOperationFailed));
}
void InvokeGetSPN(Error *error, const GSMIdentifierCallback &callback,
int timeout) {
callback.Run(kTestCarrier, Error());
}
void InvokeGetSPNFail(Error *error, const GSMIdentifierCallback &callback,
int timeout) {
callback.Run("", Error(Error::kOperationFailed));
}
void InvokeGetSignalQuality(Error *error,
const SignalQualityCallback &callback,
int timeout) {
callback.Run(kStrength, Error());
}
void InvokeGetRegistrationInfo(Error *error,
const RegistrationInfoCallback &callback,
int timeout) {
callback.Run(MM_MODEM_GSM_NETWORK_REG_STATUS_HOME,
kTestNetwork, kTestCarrier, Error());
}
void InvokeRegister(const string &network_id,
Error *error,
const ResultCallback &callback,
int timeout) {
callback.Run(Error());
}
void InvokeEnablePIN(const string &pin, bool enable,
Error *error, const ResultCallback &callback,
int timeout) {
callback.Run(Error());
}
void InvokeSendPIN(const string &pin, Error *error,
const ResultCallback &callback, int timeout) {
callback.Run(Error());
}
void InvokeSendPUK(const string &puk, const string &pin, Error *error,
const ResultCallback &callback, int timeout) {
callback.Run(Error());
}
void InvokeChangePIN(const string &old_pin, const string &pin, Error *error,
const ResultCallback &callback, int timeout) {
callback.Run(Error());
}
void InvokeScanReply() {
GSMScanResults results;
results.push_back(GSMScanResult());
results[0][CellularCapabilityGSM::kNetworkPropertyID] = kScanID0;
results.push_back(GSMScanResult());
results[1][CellularCapabilityGSM::kNetworkPropertyID] = kScanID1;
scan_callback_.Run(results, Error());
}
void InvokeGetModemStatus(Error *error,
const DBusPropertyMapCallback &callback,
int timeout) {
DBusPropertiesMap props;
callback.Run(props, Error());
}
void InvokeGetModemInfo(Error *error, const ModemInfoCallback &callback,
int timeout) {
ModemHardwareInfo info;
callback.Run(info, Error());
}
void InvokeConnectFail(DBusPropertiesMap props, Error *error,
const ResultCallback &callback, int timeout) {
callback.Run(Error(Error::kOperationFailed));
}
MOCK_METHOD1(TestCallback, void(const Error &error));
protected:
static const char kAddress[];
static const char kTestMobileProviderDBPath[];
static const char kTestNetwork[];
static const char kTestCarrier[];
static const char kPIN[];
static const char kPUK[];
static const char kIMEI[];
static const char kIMSI[];
static const char kMSISDN[];
static const char kScanID0[];
static const char kScanID1[];
static const int kStrength;
class TestProxyFactory : public ProxyFactory {
public:
explicit TestProxyFactory(CellularCapabilityGSMTest *test) : test_(test) {}
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 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_card_proxy_from_factory_ ?
test_->card_proxy_.release() : NULL;
}
virtual ModemGSMNetworkProxyInterface *CreateModemGSMNetworkProxy(
const string &/*path*/,
const string &/*service*/) {
return test_->network_proxy_.release();
}
private:
CellularCapabilityGSMTest *test_;
};
void SetProxy() {
capability_->proxy_.reset(proxy_.release());
}
void SetCardProxy() {
capability_->card_proxy_.reset(card_proxy_.release());
}
void SetNetworkProxy() {
capability_->network_proxy_.reset(network_proxy_.release());
}
void SetAccessTechnology(uint32 technology) {
capability_->access_technology_ = technology;
}
void SetRegistrationState(uint32 state) {
capability_->registration_state_ = state;
}
void SetService() {
cellular_->service_ = new CellularService(&modem_info_, cellular_);
}
void SetupCommonProxiesExpectations() {
EXPECT_CALL(*proxy_, set_state_changed_callback(_));
EXPECT_CALL(*network_proxy_, set_signal_quality_callback(_));
EXPECT_CALL(*network_proxy_, set_network_mode_callback(_));
EXPECT_CALL(*network_proxy_, set_registration_info_callback(_));
}
void SetupCommonStartModemExpectations() {
SetupCommonProxiesExpectations();
EXPECT_CALL(*proxy_, Enable(_, _, _, CellularCapability::kTimeoutEnable))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeEnable));
EXPECT_CALL(*card_proxy_,
GetIMEI(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeGetIMEI));
EXPECT_CALL(*card_proxy_,
GetIMSI(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeGetIMSI));
EXPECT_CALL(*network_proxy_, AccessTechnology());
EXPECT_CALL(*card_proxy_, EnabledFacilityLocks());
EXPECT_CALL(*proxy_,
GetModemInfo(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeGetModemInfo));
EXPECT_CALL(*network_proxy_,
GetRegistrationInfo(_, _, CellularCapability::kTimeoutDefault));
EXPECT_CALL(*network_proxy_,
GetSignalQuality(_, _, CellularCapability::kTimeoutDefault));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
}
void InitProxies() {
AllowCreateCardProxyFromFactory();
capability_->InitProxies();
}
void AllowCreateCardProxyFromFactory() {
create_card_proxy_from_factory_ = true;
}
EventDispatcher dispatcher_;
MockModemInfo modem_info_;
bool create_card_proxy_from_factory_;
scoped_ptr<MockModemProxy> proxy_;
scoped_ptr<MockModemSimpleProxy> simple_proxy_;
scoped_ptr<MockModemGSMCardProxy> card_proxy_;
scoped_ptr<MockModemGSMNetworkProxy> network_proxy_;
TestProxyFactory proxy_factory_;
CellularCapabilityGSM *capability_; // Owned by |cellular_|.
DeviceMockAdaptor *device_adaptor_; // Owned by |cellular_|.
CellularRefPtr cellular_;
ScanResultsCallback scan_callback_; // saved for testing scan operations
};
const char CellularCapabilityGSMTest::kAddress[] = "1122334455";
const char CellularCapabilityGSMTest::kTestMobileProviderDBPath[] =
"provider_db_unittest.bfd";
const char CellularCapabilityGSMTest::kTestCarrier[] = "The Cellular Carrier";
const char CellularCapabilityGSMTest::kTestNetwork[] = "310555";
const char CellularCapabilityGSMTest::kPIN[] = "9876";
const char CellularCapabilityGSMTest::kPUK[] = "8765";
const char CellularCapabilityGSMTest::kIMEI[] = "987654321098765";
const char CellularCapabilityGSMTest::kIMSI[] = "310150123456789";
const char CellularCapabilityGSMTest::kMSISDN[] = "12345678901";
const char CellularCapabilityGSMTest::kScanID0[] = "123";
const char CellularCapabilityGSMTest::kScanID1[] = "456";
const int CellularCapabilityGSMTest::kStrength = 80;
TEST_F(CellularCapabilityGSMTest, PropertyStore) {
EXPECT_TRUE(cellular_->store().Contains(flimflam::kSIMLockStatusProperty));
}
TEST_F(CellularCapabilityGSMTest, GetIMEI) {
EXPECT_CALL(*card_proxy_, GetIMEI(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this,
&CellularCapabilityGSMTest::InvokeGetIMEI));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
SetCardProxy();
ASSERT_TRUE(capability_->imei_.empty());
capability_->GetIMEI(Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this)));
EXPECT_EQ(kIMEI, capability_->imei_);
}
TEST_F(CellularCapabilityGSMTest, GetIMSI) {
EXPECT_CALL(*card_proxy_, GetIMSI(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this,
&CellularCapabilityGSMTest::InvokeGetIMSI))
.WillOnce(Invoke(this,
&CellularCapabilityGSMTest::InvokeGetIMSI2));
EXPECT_CALL(*this, TestCallback(IsSuccess())).Times(2);
SetCardProxy();
ResultCallback callback = Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this));
EXPECT_TRUE(capability_->imsi_.empty());
EXPECT_FALSE(capability_->sim_present_);
capability_->GetIMSI(callback);
EXPECT_EQ(kIMSI, capability_->imsi_);
EXPECT_TRUE(capability_->sim_present_);
capability_->imsi_.clear();
InitProviderDB();
capability_->GetIMSI(callback);
EXPECT_EQ("T-Mobile", cellular_->home_provider().GetName());
}
// In this test, the call to the proxy's GetIMSI() will always indicate failure,
// which will cause the retry logic to call the proxy again a number of times.
// Eventually, the retries expire.
TEST_F(CellularCapabilityGSMTest, GetIMSIFails) {
ScopedMockLog log;
EXPECT_CALL(log, Log(logging::LOG_INFO, StrEq("cellular_capability_gsm.cc"),
::testing::StartsWith("GetIMSI failed - ")));
EXPECT_CALL(*card_proxy_, GetIMSI(_, _, CellularCapability::kTimeoutDefault))
.Times(CellularCapabilityGSM::kGetIMSIRetryLimit + 1)
.WillRepeatedly(Invoke(this,
&CellularCapabilityGSMTest::InvokeGetIMSIFails));
EXPECT_CALL(*this, TestCallback(IsFailure()));
SetCardProxy();
ResultCallback callback = Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this));
EXPECT_TRUE(capability_->imsi_.empty());
EXPECT_FALSE(capability_->sim_present_);
capability_->get_imsi_retries_ = 0;
EXPECT_EQ(CellularCapabilityGSM::kGetIMSIRetryDelayMilliseconds,
capability_->get_imsi_retry_delay_milliseconds_);
// Set the delay to zero to speed up the test.
capability_->get_imsi_retry_delay_milliseconds_ = 0;
capability_->GetIMSI(callback);
for (int i = 0; i < CellularCapabilityGSM::kGetIMSIRetryLimit; ++i) {
dispatcher_.DispatchPendingEvents();
}
EXPECT_EQ(CellularCapabilityGSM::kGetIMSIRetryLimit + 1,
capability_->get_imsi_retries_);
EXPECT_TRUE(capability_->imsi_.empty());
EXPECT_FALSE(capability_->sim_present_);
}
TEST_F(CellularCapabilityGSMTest, GetMSISDN) {
EXPECT_CALL(*card_proxy_, GetMSISDN(_, _,
CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this,
&CellularCapabilityGSMTest::InvokeGetMSISDN));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
SetCardProxy();
ASSERT_TRUE(capability_->mdn_.empty());
capability_->GetMSISDN(Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this)));
EXPECT_EQ(kMSISDN, capability_->mdn_);
}
TEST_F(CellularCapabilityGSMTest, GetSPN) {
EXPECT_CALL(*card_proxy_, GetSPN(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this,
&CellularCapabilityGSMTest::InvokeGetSPN));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
SetCardProxy();
ASSERT_TRUE(capability_->spn_.empty());
capability_->GetSPN(Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this)));
EXPECT_EQ(kTestCarrier, capability_->spn_);
}
TEST_F(CellularCapabilityGSMTest, GetSignalQuality) {
EXPECT_CALL(*network_proxy_,
GetSignalQuality(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this,
&CellularCapabilityGSMTest::InvokeGetSignalQuality));
SetNetworkProxy();
SetService();
EXPECT_EQ(0, cellular_->service()->strength());
capability_->GetSignalQuality();
EXPECT_EQ(kStrength, cellular_->service()->strength());
}
TEST_F(CellularCapabilityGSMTest, RegisterOnNetwork) {
EXPECT_CALL(*network_proxy_, Register(kTestNetwork, _, _,
CellularCapability::kTimeoutRegister))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeRegister));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
SetNetworkProxy();
Error error;
capability_->RegisterOnNetwork(kTestNetwork, &error,
Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this)));
EXPECT_EQ(kTestNetwork, capability_->selected_network_);
}
TEST_F(CellularCapabilityGSMTest, IsRegistered) {
EXPECT_FALSE(capability_->IsRegistered());
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_IDLE);
EXPECT_FALSE(capability_->IsRegistered());
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_HOME);
EXPECT_TRUE(capability_->IsRegistered());
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_SEARCHING);
EXPECT_FALSE(capability_->IsRegistered());
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_DENIED);
EXPECT_FALSE(capability_->IsRegistered());
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_UNKNOWN);
EXPECT_FALSE(capability_->IsRegistered());
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_ROAMING);
EXPECT_TRUE(capability_->IsRegistered());
}
TEST_F(CellularCapabilityGSMTest, GetRegistrationState) {
ASSERT_FALSE(capability_->IsRegistered());
EXPECT_CALL(*network_proxy_,
GetRegistrationInfo(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this,
&CellularCapabilityGSMTest::InvokeGetRegistrationInfo));
SetNetworkProxy();
capability_->GetRegistrationState();
EXPECT_TRUE(capability_->IsRegistered());
EXPECT_EQ(MM_MODEM_GSM_NETWORK_REG_STATUS_HOME,
capability_->registration_state_);
}
TEST_F(CellularCapabilityGSMTest, RequirePIN) {
EXPECT_CALL(*card_proxy_, EnablePIN(kPIN, true, _, _,
CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeEnablePIN));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
SetCardProxy();
Error error;
capability_->RequirePIN(kPIN, true, &error,
Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this)));
EXPECT_TRUE(error.IsSuccess());
}
TEST_F(CellularCapabilityGSMTest, EnterPIN) {
EXPECT_CALL(*card_proxy_, SendPIN(kPIN, _, _,
CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeSendPIN));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
SetCardProxy();
Error error;
capability_->EnterPIN(kPIN, &error,
Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this)));
EXPECT_TRUE(error.IsSuccess());
}
TEST_F(CellularCapabilityGSMTest, UnblockPIN) {
EXPECT_CALL(*card_proxy_, SendPUK(kPUK, kPIN, _, _,
CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeSendPUK));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
SetCardProxy();
Error error;
capability_->UnblockPIN(kPUK, kPIN, &error,
Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this)));
EXPECT_TRUE(error.IsSuccess());
}
TEST_F(CellularCapabilityGSMTest, ChangePIN) {
static const char kOldPIN[] = "1111";
EXPECT_CALL(*card_proxy_, ChangePIN(kOldPIN, kPIN, _, _,
CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeChangePIN));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
SetCardProxy();
Error error;
capability_->ChangePIN(kOldPIN, kPIN, &error,
Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this)));
EXPECT_TRUE(error.IsSuccess());
}
namespace {
MATCHER(SizeIs2, "") {
return arg.size() == 2;
}
} // namespace
TEST_F(CellularCapabilityGSMTest, Scan) {
Error error;
EXPECT_CALL(*network_proxy_, Scan(_, _, CellularCapability::kTimeoutScan))
.WillOnce(SaveArg<1>(&scan_callback_));
EXPECT_CALL(*this, TestCallback(IsSuccess()));
capability_->found_networks_.resize(3, Stringmap());
EXPECT_CALL(*device_adaptor_,
EmitStringmapsChanged(flimflam::kFoundNetworksProperty,
SizeIs2()));
EXPECT_CALL(*device_adaptor_,
EmitBoolChanged(flimflam::kScanningProperty, true));
EXPECT_FALSE(capability_->scanning_);
SetNetworkProxy();
capability_->Scan(&error, Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this)));
EXPECT_TRUE(error.IsSuccess());
EXPECT_TRUE(capability_->scanning_);
// Simulate the completion of the scan...
EXPECT_CALL(*device_adaptor_,
EmitBoolChanged(flimflam::kScanningProperty, false));
InvokeScanReply();
EXPECT_FALSE(capability_->scanning_);
EXPECT_EQ(2, capability_->found_networks_.size());
EXPECT_EQ(kScanID0,
capability_->found_networks_[0][flimflam::kNetworkIdProperty]);
EXPECT_EQ(kScanID1,
capability_->found_networks_[1][flimflam::kNetworkIdProperty]);
}
TEST_F(CellularCapabilityGSMTest, ParseScanResult) {
static const char kID[] = "123";
static const char kLongName[] = "long name";
static const char kShortName[] = "short name";
GSMScanResult result;
result[CellularCapabilityGSM::kNetworkPropertyStatus] = "1";
result[CellularCapabilityGSM::kNetworkPropertyID] = kID;
result[CellularCapabilityGSM::kNetworkPropertyLongName] = kLongName;
result[CellularCapabilityGSM::kNetworkPropertyShortName] = kShortName;
result[CellularCapabilityGSM::kNetworkPropertyAccessTechnology] = "3";
result["unknown property"] = "random value";
Stringmap parsed = capability_->ParseScanResult(result);
EXPECT_EQ(5, parsed.size());
EXPECT_EQ("available", parsed[flimflam::kStatusProperty]);
EXPECT_EQ(kID, parsed[flimflam::kNetworkIdProperty]);
EXPECT_EQ(kLongName, parsed[flimflam::kLongNameProperty]);
EXPECT_EQ(kShortName, parsed[flimflam::kShortNameProperty]);
EXPECT_EQ(flimflam::kNetworkTechnologyEdge,
parsed[flimflam::kTechnologyProperty]);
}
TEST_F(CellularCapabilityGSMTest, ParseScanResultProviderLookup) {
InitProviderDB();
static const char kID[] = "310210";
GSMScanResult result;
result[CellularCapabilityGSM::kNetworkPropertyID] = kID;
Stringmap parsed = capability_->ParseScanResult(result);
EXPECT_EQ(2, parsed.size());
EXPECT_EQ(kID, parsed[flimflam::kNetworkIdProperty]);
EXPECT_EQ("T-Mobile", parsed[flimflam::kLongNameProperty]);
}
TEST_F(CellularCapabilityGSMTest, SetAccessTechnology) {
capability_->SetAccessTechnology(MM_MODEM_GSM_ACCESS_TECH_GSM);
EXPECT_EQ(MM_MODEM_GSM_ACCESS_TECH_GSM, capability_->access_technology_);
SetService();
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_HOME);
capability_->SetAccessTechnology(MM_MODEM_GSM_ACCESS_TECH_GPRS);
EXPECT_EQ(MM_MODEM_GSM_ACCESS_TECH_GPRS, capability_->access_technology_);
EXPECT_EQ(flimflam::kNetworkTechnologyGprs,
cellular_->service()->network_technology());
}
TEST_F(CellularCapabilityGSMTest, UpdateOperatorInfo) {
static const char kOperatorName[] = "Swisscom";
InitProviderDB();
capability_->serving_operator_.SetCode("22801");
SetService();
capability_->UpdateOperatorInfo();
EXPECT_EQ(kOperatorName, capability_->serving_operator_.GetName());
EXPECT_EQ("ch", capability_->serving_operator_.GetCountry());
EXPECT_EQ(kOperatorName, cellular_->service()->serving_operator().GetName());
static const char kTestOperator[] = "Testcom";
capability_->serving_operator_.SetName(kTestOperator);
capability_->serving_operator_.SetCountry("");
capability_->UpdateOperatorInfo();
EXPECT_EQ(kTestOperator, capability_->serving_operator_.GetName());
EXPECT_EQ("ch", capability_->serving_operator_.GetCountry());
EXPECT_EQ(kTestOperator, cellular_->service()->serving_operator().GetName());
}
TEST_F(CellularCapabilityGSMTest, UpdateStatus) {
InitProviderDB();
DBusPropertiesMap props;
capability_->imsi_ = "310240123456789";
props[CellularCapability::kModemPropertyIMSI].writer().append_string("");
capability_->UpdateStatus(props);
EXPECT_EQ("T-Mobile", cellular_->home_provider().GetName());
}
TEST_F(CellularCapabilityGSMTest, AllowRoaming) {
EXPECT_FALSE(cellular_->allow_roaming_);
EXPECT_FALSE(capability_->provider_requires_roaming_);
EXPECT_FALSE(capability_->AllowRoaming());
capability_->provider_requires_roaming_ = true;
EXPECT_TRUE(capability_->AllowRoaming());
capability_->provider_requires_roaming_ = false;
cellular_->allow_roaming_ = true;
EXPECT_TRUE(capability_->AllowRoaming());
}
TEST_F(CellularCapabilityGSMTest, SetHomeProvider) {
static const char kCountry[] = "us";
static const char kCode[] = "310160";
capability_->imsi_ = "310240123456789";
EXPECT_FALSE(capability_->home_provider_);
EXPECT_FALSE(capability_->provider_requires_roaming_);
capability_->SetHomeProvider(); // No mobile provider DB available.
EXPECT_TRUE(cellular_->home_provider().GetName().empty());
EXPECT_TRUE(cellular_->home_provider().GetCountry().empty());
EXPECT_TRUE(cellular_->home_provider().GetCode().empty());
EXPECT_FALSE(capability_->provider_requires_roaming_);
InitProviderDB();
capability_->SetHomeProvider();
EXPECT_EQ("T-Mobile", cellular_->home_provider().GetName());
EXPECT_EQ(kCountry, cellular_->home_provider().GetCountry());
EXPECT_EQ(kCode, cellular_->home_provider().GetCode());
EXPECT_EQ(4, capability_->apn_list_.size());
ASSERT_TRUE(capability_->home_provider_);
EXPECT_FALSE(capability_->provider_requires_roaming_);
Cellular::Operator oper;
cellular_->set_home_provider(oper);
capability_->spn_ = kTestCarrier;
capability_->SetHomeProvider();
EXPECT_EQ(kTestCarrier, cellular_->home_provider().GetName());
EXPECT_EQ(kCountry, cellular_->home_provider().GetCountry());
EXPECT_EQ(kCode, cellular_->home_provider().GetCode());
EXPECT_FALSE(capability_->provider_requires_roaming_);
static const char kCubic[] = "Cubic";
capability_->spn_ = kCubic;
capability_->SetHomeProvider();
EXPECT_EQ(kCubic, cellular_->home_provider().GetName());
EXPECT_EQ("", cellular_->home_provider().GetCode());
ASSERT_TRUE(capability_->home_provider_);
EXPECT_TRUE(capability_->provider_requires_roaming_);
static const char kCUBIC[] = "CUBIC";
capability_->spn_ = kCUBIC;
capability_->home_provider_ = NULL;
capability_->SetHomeProvider();
EXPECT_EQ(kCUBIC, cellular_->home_provider().GetName());
EXPECT_EQ("", cellular_->home_provider().GetCode());
ASSERT_TRUE(capability_->home_provider_);
EXPECT_TRUE(capability_->provider_requires_roaming_);
}
namespace {
MATCHER(SizeIs4, "") {
return arg.size() == 4;
}
} // namespace
TEST_F(CellularCapabilityGSMTest, InitAPNList) {
InitProviderDB();
capability_->home_provider_ =
mobile_provider_lookup_by_name(modem_info_.provider_db(), "T-Mobile");
ASSERT_TRUE(capability_->home_provider_);
EXPECT_EQ(0, capability_->apn_list_.size());
EXPECT_CALL(*device_adaptor_,
EmitStringmapsChanged(flimflam::kCellularApnListProperty,
SizeIs4()));
capability_->InitAPNList();
EXPECT_EQ(4, capability_->apn_list_.size());
EXPECT_EQ("wap.voicestream.com",
capability_->apn_list_[1][flimflam::kApnProperty]);
EXPECT_EQ("Web2Go/t-zones",
capability_->apn_list_[1][flimflam::kApnNameProperty]);
}
TEST_F(CellularCapabilityGSMTest, GetNetworkTechnologyString) {
EXPECT_EQ("", capability_->GetNetworkTechnologyString());
SetAccessTechnology(MM_MODEM_GSM_ACCESS_TECH_GSM);
EXPECT_EQ(flimflam::kNetworkTechnologyGsm,
capability_->GetNetworkTechnologyString());
SetAccessTechnology(MM_MODEM_GSM_ACCESS_TECH_GSM_COMPACT);
EXPECT_EQ(flimflam::kNetworkTechnologyGsm,
capability_->GetNetworkTechnologyString());
SetAccessTechnology(MM_MODEM_GSM_ACCESS_TECH_GPRS);
EXPECT_EQ(flimflam::kNetworkTechnologyGprs,
capability_->GetNetworkTechnologyString());
SetAccessTechnology(MM_MODEM_GSM_ACCESS_TECH_EDGE);
EXPECT_EQ(flimflam::kNetworkTechnologyEdge,
capability_->GetNetworkTechnologyString());
SetAccessTechnology(MM_MODEM_GSM_ACCESS_TECH_UMTS);
EXPECT_EQ(flimflam::kNetworkTechnologyUmts,
capability_->GetNetworkTechnologyString());
SetAccessTechnology(MM_MODEM_GSM_ACCESS_TECH_HSDPA);
EXPECT_EQ(flimflam::kNetworkTechnologyHspa,
capability_->GetNetworkTechnologyString());
SetAccessTechnology(MM_MODEM_GSM_ACCESS_TECH_HSUPA);
EXPECT_EQ(flimflam::kNetworkTechnologyHspa,
capability_->GetNetworkTechnologyString());
SetAccessTechnology(MM_MODEM_GSM_ACCESS_TECH_HSPA);
EXPECT_EQ(flimflam::kNetworkTechnologyHspa,
capability_->GetNetworkTechnologyString());
SetAccessTechnology(MM_MODEM_GSM_ACCESS_TECH_HSPA_PLUS);
EXPECT_EQ(flimflam::kNetworkTechnologyHspaPlus,
capability_->GetNetworkTechnologyString());
}
TEST_F(CellularCapabilityGSMTest, GetRoamingStateString) {
EXPECT_EQ(flimflam::kRoamingStateUnknown,
capability_->GetRoamingStateString());
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_HOME);
EXPECT_EQ(flimflam::kRoamingStateHome,
capability_->GetRoamingStateString());
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_ROAMING);
EXPECT_EQ(flimflam::kRoamingStateRoaming,
capability_->GetRoamingStateString());
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_SEARCHING);
EXPECT_EQ(flimflam::kRoamingStateUnknown,
capability_->GetRoamingStateString());
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_DENIED);
EXPECT_EQ(flimflam::kRoamingStateUnknown,
capability_->GetRoamingStateString());
SetRegistrationState(MM_MODEM_GSM_NETWORK_REG_STATUS_IDLE);
EXPECT_EQ(flimflam::kRoamingStateUnknown,
capability_->GetRoamingStateString());
}
TEST_F(CellularCapabilityGSMTest, CreateFriendlyServiceName) {
CellularCapabilityGSM::friendly_service_name_id_ = 0;
EXPECT_EQ("GSMNetwork0", capability_->CreateFriendlyServiceName());
EXPECT_EQ("GSMNetwork1", capability_->CreateFriendlyServiceName());
capability_->serving_operator_.SetCode("1234");
EXPECT_EQ("cellular_1234", capability_->CreateFriendlyServiceName());
static const char kTestCarrier[] = "A GSM Carrier";
capability_->carrier_ = kTestCarrier;
EXPECT_EQ(kTestCarrier, capability_->CreateFriendlyServiceName());
static const char kHomeProvider[] = "The GSM Home Provider";
cellular_->home_provider_.SetName(kHomeProvider);
EXPECT_EQ(kTestCarrier, capability_->CreateFriendlyServiceName());
capability_->registration_state_ = MM_MODEM_GSM_NETWORK_REG_STATUS_HOME;
EXPECT_EQ(kHomeProvider, capability_->CreateFriendlyServiceName());
static const char kTestOperator[] = "A GSM Operator";
capability_->serving_operator_.SetName(kTestOperator);
EXPECT_EQ(kTestOperator, capability_->CreateFriendlyServiceName());
capability_->registration_state_ = MM_MODEM_GSM_NETWORK_REG_STATUS_ROAMING;
EXPECT_EQ(StringPrintf("%s | %s", kHomeProvider, kTestOperator),
capability_->CreateFriendlyServiceName());
}
TEST_F(CellularCapabilityGSMTest, SetStorageIdentifier) {
SetService();
capability_->OnServiceCreated();
EXPECT_EQ(string(flimflam::kTypeCellular) + "_" + kAddress + "_" +
cellular_->service()->friendly_name(),
cellular_->service()->GetStorageIdentifier());
capability_->imsi_ = kIMSI;
capability_->OnServiceCreated();
EXPECT_EQ(string(flimflam::kTypeCellular) + "_" + kAddress + "_" + kIMSI,
cellular_->service()->GetStorageIdentifier());
}
MATCHER_P(KeyValueStoreEq, value, "") {
bool match = value.bool_properties() == arg.bool_properties() &&
value.int_properties() == arg.int_properties() &&
value.string_properties() == arg.string_properties() &&
value.uint_properties() == arg.uint_properties();
if (!match) {
*result_listener << "\nExpected KeyValueStore:\n"
<< "\tbool_properties: "
<< testing::PrintToString(value.bool_properties())
<< "\n\tint_properties: "
<< testing::PrintToString(value.int_properties())
<< "\n\tstring_properties: "
<< testing::PrintToString(value.string_properties())
<< "\n\tint_properties: "
<< testing::PrintToString(value.uint_properties())
<< "\nGot KeyValueStore:\n"
<< "\tbool_properties: "
<< testing::PrintToString(arg.bool_properties())
<< "\n\tint_properties: "
<< testing::PrintToString(arg.int_properties())
<< "\n\tstring_properties: "
<< testing::PrintToString(arg.string_properties())
<< "\n\tuint_properties: "
<< testing::PrintToString(arg.uint_properties());
}
return match;
}
TEST_F(CellularCapabilityGSMTest, OnDBusPropertiesChanged) {
EXPECT_EQ(MM_MODEM_GSM_ACCESS_TECH_UNKNOWN, capability_->access_technology_);
EXPECT_FALSE(capability_->sim_lock_status_.enabled);
EXPECT_EQ("", capability_->sim_lock_status_.lock_type);
EXPECT_EQ(0, capability_->sim_lock_status_.retries_left);
DBusPropertiesMap props;
static const char kLockType[] = "sim-pin";
const int kRetries = 3;
props[CellularCapabilityGSM::kPropertyAccessTechnology].writer().
append_uint32(MM_MODEM_GSM_ACCESS_TECH_EDGE);
props[CellularCapabilityGSM::kPropertyEnabledFacilityLocks].writer().
append_uint32(MM_MODEM_GSM_FACILITY_SIM);
props[CellularCapabilityGSM::kPropertyUnlockRequired].writer().append_string(
kLockType);
props[CellularCapabilityGSM::kPropertyUnlockRetries].writer().append_uint32(
kRetries);
// Call with the 'wrong' interface and nothing should change.
capability_->OnDBusPropertiesChanged(MM_MODEM_GSM_INTERFACE, props,
vector<string>());
EXPECT_EQ(MM_MODEM_GSM_ACCESS_TECH_UNKNOWN, capability_->access_technology_);
EXPECT_FALSE(capability_->sim_lock_status_.enabled);
EXPECT_EQ("", capability_->sim_lock_status_.lock_type);
EXPECT_EQ(0, capability_->sim_lock_status_.retries_left);
// Call with the MM_MODEM_GSM_NETWORK_INTERFACE interface and expect a change
// to the enabled state of the SIM lock.
KeyValueStore lock_status;
lock_status.SetBool(flimflam::kSIMLockEnabledProperty, true);
lock_status.SetString(flimflam::kSIMLockTypeProperty, "");
lock_status.SetUint(flimflam::kSIMLockRetriesLeftProperty, 0);
EXPECT_CALL(*device_adaptor_, EmitKeyValueStoreChanged(
flimflam::kSIMLockStatusProperty,
KeyValueStoreEq(lock_status)));
capability_->OnDBusPropertiesChanged(MM_MODEM_GSM_NETWORK_INTERFACE, props,
vector<string>());
EXPECT_EQ(MM_MODEM_GSM_ACCESS_TECH_EDGE, capability_->access_technology_);
capability_->OnDBusPropertiesChanged(MM_MODEM_GSM_CARD_INTERFACE, props,
vector<string>());
EXPECT_TRUE(capability_->sim_lock_status_.enabled);
EXPECT_TRUE(capability_->sim_lock_status_.lock_type.empty());
EXPECT_EQ(0, capability_->sim_lock_status_.retries_left);
// Some properties are sent on the MM_MODEM_INTERFACE.
capability_->sim_lock_status_.enabled = false;
capability_->sim_lock_status_.lock_type = "";
capability_->sim_lock_status_.retries_left = 0;
KeyValueStore lock_status2;
lock_status2.SetBool(flimflam::kSIMLockEnabledProperty, false);
lock_status2.SetString(flimflam::kSIMLockTypeProperty, kLockType);
lock_status2.SetUint(flimflam::kSIMLockRetriesLeftProperty, kRetries);
EXPECT_CALL(*device_adaptor_,
EmitKeyValueStoreChanged(flimflam::kSIMLockStatusProperty,
KeyValueStoreEq(lock_status2)));
capability_->OnDBusPropertiesChanged(MM_MODEM_INTERFACE, props,
vector<string>());
EXPECT_FALSE(capability_->sim_lock_status_.enabled);
EXPECT_EQ(kLockType, capability_->sim_lock_status_.lock_type);
EXPECT_EQ(kRetries, capability_->sim_lock_status_.retries_left);
}
TEST_F(CellularCapabilityGSMTest, SetupApnTryList) {
static const string kTmobileApn("epc.tmobile.com");
static const string kLastGoodApn("remembered.apn");
static const string kLastGoodUsername("remembered.user");
static const string kSuppliedApn("my.apn");
SetService();
capability_->imsi_ = "310240123456789";
InitProviderDB();
capability_->SetHomeProvider();
DBusPropertiesMap props;
capability_->SetupConnectProperties(&props);
EXPECT_FALSE(props.find(flimflam::kApnProperty) == props.end());
EXPECT_EQ(kTmobileApn, props[flimflam::kApnProperty].reader().get_string());
ProfileRefPtr profile(new NiceMock<MockProfile>(
modem_info_.control_interface(), modem_info_.metrics(),
modem_info_.manager()));
cellular_->service()->set_profile(profile);
Stringmap apn_info;
apn_info[flimflam::kApnProperty] = kLastGoodApn;
apn_info[flimflam::kApnUsernameProperty] = kLastGoodUsername;
cellular_->service()->SetLastGoodApn(apn_info);
props.clear();
EXPECT_TRUE(props.find(flimflam::kApnProperty) == props.end());
capability_->SetupConnectProperties(&props);
// We expect the list to contain the last good APN, plus
// the 4 APNs from the mobile provider info database.
EXPECT_EQ(5, capability_->apn_try_list_.size());
EXPECT_FALSE(props.find(flimflam::kApnProperty) == props.end());
EXPECT_EQ(kLastGoodApn, props[flimflam::kApnProperty].reader().get_string());
EXPECT_FALSE(props.find(flimflam::kApnUsernameProperty) == props.end());
EXPECT_EQ(kLastGoodUsername,
props[flimflam::kApnUsernameProperty].reader().get_string());
Error error;
apn_info.clear();
props.clear();
apn_info[flimflam::kApnProperty] = kSuppliedApn;
// Setting the APN has the side effect of clearing the LastGoodApn,
// so the try list will have 5 elements, with the first one being
// the supplied APN.
cellular_->service()->SetApn(apn_info, &error);
EXPECT_TRUE(props.find(flimflam::kApnProperty) == props.end());
capability_->SetupConnectProperties(&props);
EXPECT_EQ(5, capability_->apn_try_list_.size());
EXPECT_FALSE(props.find(flimflam::kApnProperty) == props.end());
EXPECT_EQ(kSuppliedApn, props[flimflam::kApnProperty].reader().get_string());
apn_info.clear();
props.clear();
apn_info[flimflam::kApnProperty] = kLastGoodApn;
apn_info[flimflam::kApnUsernameProperty] = kLastGoodUsername;
// Now when LastGoodAPN is set, it will be the one selected.
cellular_->service()->SetLastGoodApn(apn_info);
EXPECT_TRUE(props.find(flimflam::kApnProperty) == props.end());
capability_->SetupConnectProperties(&props);
// We expect the list to contain the last good APN, plus
// the user-supplied APN, plus the 4 APNs from the mobile
// provider info database.
EXPECT_EQ(6, capability_->apn_try_list_.size());
EXPECT_FALSE(props.find(flimflam::kApnProperty) == props.end());
EXPECT_EQ(kLastGoodApn, props[flimflam::kApnProperty].reader().get_string());
EXPECT_FALSE(props.find(flimflam::kApnUsernameProperty) == props.end());
EXPECT_EQ(kLastGoodUsername,
props[flimflam::kApnUsernameProperty].reader().get_string());
}
TEST_F(CellularCapabilityGSMTest, StartModemSuccess) {
SetupCommonStartModemExpectations();
EXPECT_CALL(*card_proxy_,
GetSPN(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeGetSPN));
EXPECT_CALL(*card_proxy_,
GetMSISDN(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeGetMSISDN));
AllowCreateCardProxyFromFactory();
Error error;
capability_->StartModem(
&error, Bind(&CellularCapabilityGSMTest::TestCallback, Unretained(this)));
dispatcher_.DispatchPendingEvents();
}
TEST_F(CellularCapabilityGSMTest, StartModemGetSPNFail) {
SetupCommonStartModemExpectations();
EXPECT_CALL(*card_proxy_,
GetSPN(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeGetSPNFail));
EXPECT_CALL(*card_proxy_,
GetMSISDN(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeGetMSISDN));
AllowCreateCardProxyFromFactory();
Error error;
capability_->StartModem(
&error, Bind(&CellularCapabilityGSMTest::TestCallback, Unretained(this)));
dispatcher_.DispatchPendingEvents();
}
TEST_F(CellularCapabilityGSMTest, StartModemGetMSISDNFail) {
SetupCommonStartModemExpectations();
EXPECT_CALL(*card_proxy_,
GetSPN(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeGetSPN));
EXPECT_CALL(*card_proxy_,
GetMSISDN(_, _, CellularCapability::kTimeoutDefault))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeGetMSISDNFail));
AllowCreateCardProxyFromFactory();
Error error;
capability_->StartModem(
&error, Bind(&CellularCapabilityGSMTest::TestCallback, Unretained(this)));
dispatcher_.DispatchPendingEvents();
}
TEST_F(CellularCapabilityGSMTest, 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 quickly disabled.
SetupCommonProxiesExpectations();
EXPECT_CALL(*simple_proxy_,
Connect(_, _, _, CellularCapabilityGSM::kTimeoutConnect))
.WillOnce(Invoke(this, &CellularCapabilityGSMTest::InvokeConnectFail));
EXPECT_CALL(*this, TestCallback(IsFailure()));
InitProxies();
EXPECT_FALSE(capability_->cellular()->service());
Error error;
DBusPropertiesMap props;
capability_->Connect(props, &error,
Bind(&CellularCapabilityGSMTest::TestCallback,
Unretained(this)));
}
} // namespace shill