// // Copyright (C) 2014 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/mobile_operator_info.h" #include #include #include #include #include #include #include #include #include #include "shill/cellular/mobile_operator_info_impl.h" #include "shill/logging.h" #include "shill/test_event_dispatcher.h" // These files contain binary protobuf definitions used by the following tests // inside the namespace ::mobile_operator_db #define IN_MOBILE_OPERATOR_INFO_UNITTEST_CC #include "shill/mobile_operator_db/test_protos/data_test.h" #include "shill/mobile_operator_db/test_protos/init_test_empty_db_init.h" #include "shill/mobile_operator_db/test_protos/init_test_multiple_db_init_1.h" #include "shill/mobile_operator_db/test_protos/init_test_multiple_db_init_2.h" #include "shill/mobile_operator_db/test_protos/init_test_successful_init.h" #include "shill/mobile_operator_db/test_protos/main_test.h" #undef IN_MOBILE_OPERATOR_INFO_UNITTEST_CC using base::FilePath; using shill::mobile_operator_db::MobileOperatorDB; using std::map; using std::ofstream; using std::set; using std::string; using std::vector; using testing::Mock; using testing::Test; using testing::Values; using testing::WithParamInterface; // The tests run from the fixture |MobileOperatorInfoMainTest| and // |MobileOperatorDataTest| can be run in two modes: // - strict event checking: We check that an event is raised for each update // to the state of the object. // - non-strict event checking: We check that a single event is raised as a // result of many updates to the object. // The first case corresponds to a very aggressive event loop, that dispatches // events as soon as they are posted; the second one corresponds to an // over-crowded event loop that only dispatches events just before we verify // that events were raised. // // We use ::testing::WithParamInterface to templatize the test fixtures to do // string/non-strict event checking. When writing test cases using these // fixtures, use the |Update*|, |ExpectEventCount|, |VerifyEventCount| functions // provided by the fixture, and write the test as if event checking is strict. // // For |MobileOperatorObserverTest|, only the strict event checking case makes // sense, so we only instantiate that. namespace shill { namespace { enum EventCheckingPolicy { kEventCheckingPolicyStrict, kEventCheckingPolicyNonStrict }; } // namespace class MockMobileOperatorInfoObserver : public MobileOperatorInfo::Observer { public: MockMobileOperatorInfoObserver() {} virtual ~MockMobileOperatorInfoObserver() {} MOCK_METHOD0(OnOperatorChanged, void()); }; class MobileOperatorInfoInitTest : public Test { public: MobileOperatorInfoInitTest() : operator_info_(new MobileOperatorInfo(&dispatcher_, "Operator")), operator_info_impl_(operator_info_->impl()) {} void TearDown() override { for (const auto& tmp_db_path : tmp_db_paths_) { base::DeleteFile(tmp_db_path, false); } } protected: void AddDatabase(const unsigned char database_data[], size_t num_elems) { FilePath tmp_db_path; CHECK(base::CreateTemporaryFile(&tmp_db_path)); tmp_db_paths_.push_back(tmp_db_path); ofstream tmp_db(tmp_db_path.value(), ofstream::binary); for (size_t i = 0; i < num_elems; ++i) { tmp_db << database_data[i]; } tmp_db.close(); operator_info_->AddDatabasePath(tmp_db_path); } void AssertDatabaseEmpty() { EXPECT_EQ(0, operator_info_impl_->database()->mno_size()); EXPECT_EQ(0, operator_info_impl_->database()->imvno_size()); } const MobileOperatorDB* GetDatabase() { return operator_info_impl_->database(); } EventDispatcherForTest dispatcher_; vector tmp_db_paths_; std::unique_ptr operator_info_; // Owned by |operator_info_| and tied to its life cycle. MobileOperatorInfoImpl* operator_info_impl_; private: DISALLOW_COPY_AND_ASSIGN(MobileOperatorInfoInitTest); }; TEST_F(MobileOperatorInfoInitTest, FailedInitNoPath) { // - Initialize object with no database paths set // - Verify that initialization fails. operator_info_->ClearDatabasePaths(); EXPECT_FALSE(operator_info_->Init()); AssertDatabaseEmpty(); } TEST_F(MobileOperatorInfoInitTest, FailedInitBadPath) { // - Initialize object with non-existent path. // - Verify that initialization fails. const FilePath database_path("nonexistent.pbf"); operator_info_->ClearDatabasePaths(); operator_info_->AddDatabasePath(database_path); EXPECT_FALSE(operator_info_->Init()); AssertDatabaseEmpty(); } TEST_F(MobileOperatorInfoInitTest, FailedInitBadDatabase) { // - Initialize object with malformed database. // - Verify that initialization fails. // TODO(pprabhu): It's hard to get a malformed database in binary format. } TEST_F(MobileOperatorInfoInitTest, EmptyDBInit) { // - Initialize the object with a database file that is empty. // - Verify that initialization succeeds, and that the database is empty. operator_info_->ClearDatabasePaths(); // Can't use arraysize on empty array. AddDatabase(mobile_operator_db::init_test_empty_db_init, 0); EXPECT_TRUE(operator_info_->Init()); AssertDatabaseEmpty(); } TEST_F(MobileOperatorInfoInitTest, SuccessfulInit) { operator_info_->ClearDatabasePaths(); AddDatabase(mobile_operator_db::init_test_successful_init, arraysize(mobile_operator_db::init_test_successful_init)); EXPECT_TRUE(operator_info_->Init()); EXPECT_GT(GetDatabase()->mno_size(), 0); EXPECT_GT(GetDatabase()->imvno_size(), 0); } TEST_F(MobileOperatorInfoInitTest, MultipleDBInit) { // - Initialize the object with two database files. // - Verify that intialization succeeds, and both databases are loaded. operator_info_->ClearDatabasePaths(); AddDatabase(mobile_operator_db::init_test_multiple_db_init_1, arraysize(mobile_operator_db::init_test_multiple_db_init_1)); AddDatabase(mobile_operator_db::init_test_multiple_db_init_2, arraysize(mobile_operator_db::init_test_multiple_db_init_2)); operator_info_->Init(); EXPECT_GT(GetDatabase()->mno_size(), 0); EXPECT_GT(GetDatabase()->imvno_size(), 0); } TEST_F(MobileOperatorInfoInitTest, InitWithObserver) { // - Add an Observer. // - Initialize the object with empty database file. // - Verify innitialization succeeds. MockMobileOperatorInfoObserver dumb_observer; operator_info_->ClearDatabasePaths(); // Can't use arraysize with empty array. AddDatabase(mobile_operator_db::init_test_empty_db_init, 0); operator_info_->AddObserver(&dumb_observer); EXPECT_TRUE(operator_info_->Init()); } class MobileOperatorInfoMainTest : public MobileOperatorInfoInitTest, public WithParamInterface { public: MobileOperatorInfoMainTest() : MobileOperatorInfoInitTest(), event_checking_policy_(GetParam()) {} virtual void SetUp() { operator_info_->ClearDatabasePaths(); AddDatabase(mobile_operator_db::main_test, arraysize(mobile_operator_db::main_test)); operator_info_->Init(); operator_info_->AddObserver(&observer_); } protected: // /////////////////////////////////////////////////////////////////////////// // Helper functions. void VerifyMNOWithUUID(const string& uuid) { EXPECT_TRUE(operator_info_->IsMobileNetworkOperatorKnown()); EXPECT_FALSE(operator_info_->IsMobileVirtualNetworkOperatorKnown()); EXPECT_EQ(uuid, operator_info_->uuid()); } void VerifyMVNOWithUUID(const string& uuid) { EXPECT_TRUE(operator_info_->IsMobileNetworkOperatorKnown()); EXPECT_TRUE(operator_info_->IsMobileVirtualNetworkOperatorKnown()); EXPECT_EQ(uuid, operator_info_->uuid()); } void VerifyNoMatch() { EXPECT_FALSE(operator_info_->IsMobileNetworkOperatorKnown()); EXPECT_FALSE(operator_info_->IsMobileVirtualNetworkOperatorKnown()); EXPECT_EQ("", operator_info_->uuid()); } void ExpectEventCount(int count) { // In case we're running in the non-strict event checking mode, we only // expect one overall event to be raised for all the updates. if (event_checking_policy_ == kEventCheckingPolicyNonStrict) { count = (count > 0) ? 1 : 0; } EXPECT_CALL(observer_, OnOperatorChanged()).Times(count); } void VerifyEventCount() { dispatcher_.DispatchPendingEvents(); Mock::VerifyAndClearExpectations(&observer_); } void ResetOperatorInfo() { operator_info_->Reset(); // Eat up any events caused by |Reset|. dispatcher_.DispatchPendingEvents(); VerifyNoMatch(); } // Use these wrappers to send updates to |operator_info_|. These wrappers // optionally run the dispatcher if we want strict checking of the number of // events raised. void UpdateMCCMNC(const std::string& mccmnc) { operator_info_->UpdateMCCMNC(mccmnc); DispatchPendingEventsIfStrict(); } void UpdateSID(const std::string& sid) { operator_info_->UpdateSID(sid); DispatchPendingEventsIfStrict(); } void UpdateIMSI(const std::string& imsi) { operator_info_->UpdateIMSI(imsi); DispatchPendingEventsIfStrict(); } void UpdateICCID(const std::string& iccid) { operator_info_->UpdateICCID(iccid); DispatchPendingEventsIfStrict(); } void UpdateNID(const std::string& nid) { operator_info_->UpdateNID(nid); DispatchPendingEventsIfStrict(); } void UpdateOperatorName(const std::string& operator_name) { operator_info_->UpdateOperatorName(operator_name); DispatchPendingEventsIfStrict(); } void UpdateOnlinePortal(const std::string& url, const std::string& method, const std::string& post_data) { operator_info_->UpdateOnlinePortal(url, method, post_data); DispatchPendingEventsIfStrict(); } void DispatchPendingEventsIfStrict() { if (event_checking_policy_ == kEventCheckingPolicyStrict) { dispatcher_.DispatchPendingEvents(); } } // /////////////////////////////////////////////////////////////////////////// // Data. MockMobileOperatorInfoObserver observer_; const EventCheckingPolicy event_checking_policy_; private: DISALLOW_COPY_AND_ASSIGN(MobileOperatorInfoMainTest); }; TEST_P(MobileOperatorInfoMainTest, InitialConditions) { // - Initialize a new object. // - Verify that all initial values of properties are reasonable. EXPECT_FALSE(operator_info_->IsMobileNetworkOperatorKnown()); EXPECT_FALSE(operator_info_->IsMobileVirtualNetworkOperatorKnown()); EXPECT_TRUE(operator_info_->uuid().empty()); EXPECT_TRUE(operator_info_->operator_name().empty()); EXPECT_TRUE(operator_info_->country().empty()); EXPECT_TRUE(operator_info_->mccmnc().empty()); EXPECT_TRUE(operator_info_->sid().empty()); EXPECT_TRUE(operator_info_->nid().empty()); EXPECT_TRUE(operator_info_->mccmnc_list().empty()); EXPECT_TRUE(operator_info_->sid_list().empty()); EXPECT_TRUE(operator_info_->operator_name_list().empty()); EXPECT_TRUE(operator_info_->apn_list().empty()); EXPECT_TRUE(operator_info_->olp_list().empty()); EXPECT_TRUE(operator_info_->activation_code().empty()); EXPECT_FALSE(operator_info_->requires_roaming()); } TEST_P(MobileOperatorInfoMainTest, MNOByMCCMNC) { // message: Has an MNO with no MVNO. // match by: MCCMNC. // verify: Observer event, uuid. ExpectEventCount(0); UpdateMCCMNC("101999"); // No match. VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(1); UpdateMCCMNC("101001"); VerifyEventCount(); VerifyMNOWithUUID("uuid101"); ExpectEventCount(1); UpdateMCCMNC("101999"); VerifyEventCount(); VerifyNoMatch(); } TEST_P(MobileOperatorInfoMainTest, MNOByMCCMNCMultipleMCCMNCOptions) { // message: Has an MNO with no MCCMNC. // match by: One of the MCCMNCs of the multiple ones in the MNO. // verify: Observer event, uuid. ExpectEventCount(1); UpdateMCCMNC("102002"); VerifyEventCount(); VerifyMNOWithUUID("uuid102"); } TEST_P(MobileOperatorInfoMainTest, MNOByMCCMNCMultipleMNOOptions) { // message: Two messages with the same MCCMNC. // match by: Both MNOs matched, one is earmarked. // verify: The earmarked MNO is picked. ExpectEventCount(1); UpdateMCCMNC("124001"); VerifyEventCount(); VerifyMNOWithUUID("uuid124002"); } TEST_P(MobileOperatorInfoMainTest, MNOByOperatorName) { // message: Has an MNO with no MVNO. // match by: OperatorName. // verify: Observer event, uuid. ExpectEventCount(0); UpdateOperatorName("name103999"); // No match. VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(1); UpdateOperatorName("name103"); VerifyEventCount(); VerifyMNOWithUUID("uuid103"); ExpectEventCount(1); UpdateOperatorName("name103999"); // No match. VerifyEventCount(); VerifyNoMatch(); } TEST_P(MobileOperatorInfoMainTest, MNOByOperatorNameMultipleMNOOptions) { // message: Two messages with the same operator name. // match by: Both MNOs matched, one is earmarked. // verify: The earmarked MNO is picked. ExpectEventCount(1); UpdateOperatorName("name125001"); VerifyEventCount(); VerifyMNOWithUUID("uuid125002"); } TEST_P(MobileOperatorInfoMainTest, MNOByOperatorNameAggressiveMatch) { // These network operators match by name but only after normalizing the names. // Both the name from the database and the name provided to // |UpdateOperatoName| must be normalized for this test to pass. ExpectEventCount(1); UpdateOperatorName("name126001 casedoesnotmatch"); VerifyEventCount(); VerifyMNOWithUUID("uuid126001"); ResetOperatorInfo(); ExpectEventCount(1); UpdateOperatorName("name126002 CaseStillDoesNotMatch"); VerifyEventCount(); VerifyMNOWithUUID("uuid126002"); ResetOperatorInfo(); ExpectEventCount(1); UpdateOperatorName("name126003GiveMeMoreSpace"); VerifyEventCount(); VerifyMNOWithUUID("uuid126003"); ResetOperatorInfo(); ExpectEventCount(1); UpdateOperatorName("name126004 Too Much Air Here"); VerifyEventCount(); VerifyMNOWithUUID("uuid126004"); ResetOperatorInfo(); ExpectEventCount(1); UpdateOperatorName("näméwithNon-Äσ¢ii"); VerifyEventCount(); VerifyMNOWithUUID("uuid126005"); } TEST_P(MobileOperatorInfoMainTest, MNOByOperatorNameWithLang) { // message: Has an MNO with no MVNO. // match by: OperatorName. // verify: Observer event, fields. ExpectEventCount(1); UpdateOperatorName("name105"); VerifyEventCount(); VerifyMNOWithUUID("uuid105"); } TEST_P(MobileOperatorInfoMainTest, MNOByOperatorNameMultipleNameOptions) { // message: Has an MNO with no MVNO. // match by: OperatorName, one of the multiple present in the MNO. // verify: Observer event, fields. ExpectEventCount(1); UpdateOperatorName("name104002"); VerifyEventCount(); VerifyMNOWithUUID("uuid104"); } TEST_P(MobileOperatorInfoMainTest, MNOByMCCMNCAndOperatorName) { // message: Has MNOs with no MVNO. // match by: MCCMNC finds two candidates (first one is chosen), Name narrows // down to one. // verify: Observer event, fields. // This is merely a MCCMNC update. ExpectEventCount(1); UpdateMCCMNC("106001"); VerifyEventCount(); VerifyMNOWithUUID("uuid106001"); ExpectEventCount(1); UpdateOperatorName("name106002"); VerifyEventCount(); VerifyMNOWithUUID("uuid106002"); ResetOperatorInfo(); // Try updates in reverse order. ExpectEventCount(1); UpdateOperatorName("name106001"); VerifyEventCount(); VerifyMNOWithUUID("uuid106001"); } TEST_P(MobileOperatorInfoMainTest, MNOByOperatorNameAndMCCMNC) { // message: Has MNOs with no MVNO. // match by: OperatorName finds two (first one is chosen), MCCMNC narrows down // to one. // verify: Observer event, fields. // This is merely an OperatorName update. ExpectEventCount(1); UpdateOperatorName("name107"); VerifyEventCount(); VerifyMNOWithUUID("uuid107001"); ExpectEventCount(1); UpdateMCCMNC("107002"); VerifyEventCount(); VerifyMNOWithUUID("uuid107002"); ResetOperatorInfo(); // Try updates in reverse order. ExpectEventCount(1); UpdateMCCMNC("107001"); VerifyEventCount(); VerifyMNOWithUUID("uuid107001"); } TEST_P(MobileOperatorInfoMainTest, MNOByMCCMNCOverridesOperatorName) { // message: Has MNOs with no MVNO. // match by: First MCCMNC finds one. Then, OperatorName matches another. // verify: MCCMNC match prevails. No change on OperatorName update. ExpectEventCount(1); UpdateMCCMNC("108001"); VerifyEventCount(); VerifyMNOWithUUID("uuid108001"); // An event is sent for the updated OperatorName. ExpectEventCount(1); UpdateOperatorName("name108002"); // Does not match. VerifyEventCount(); VerifyMNOWithUUID("uuid108001"); // OperatorName from the database is given preference over the user supplied // one. EXPECT_EQ("name108001", operator_info_->operator_name()); ResetOperatorInfo(); // message: Same as above. // match by: First OperatorName finds one, then MCCMNC overrides it. // verify: Two events, MCCMNC one overriding the OperatorName one. ExpectEventCount(1); UpdateOperatorName("name108001"); VerifyEventCount(); VerifyMNOWithUUID("uuid108001"); ExpectEventCount(1); UpdateMCCMNC("108002"); VerifyEventCount(); VerifyMNOWithUUID("uuid108002"); EXPECT_EQ("name108002", operator_info_->operator_name()); // message: Same as above. // match by: First a *wrong* MCCMNC update, followed by the correct Name // update. // verify: No MNO, since MCCMNC is given precedence. ResetOperatorInfo(); ExpectEventCount(0); UpdateMCCMNC("108999"); // Does not match. UpdateOperatorName("name108001"); VerifyEventCount(); VerifyNoMatch(); } TEST_P(MobileOperatorInfoMainTest, MNOByIMSI) { // message: Has MNO with no MVNO. // match by: MCCMNC part of IMSI of length 5 / 6. ExpectEventCount(0); UpdateIMSI("109"); // Too short. VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(0); UpdateIMSI("109995432154321"); // No match. VerifyEventCount(); VerifyNoMatch(); ResetOperatorInfo(); // Short MCCMNC match. ExpectEventCount(1); UpdateIMSI("109015432154321"); // First 5 digits match. VerifyEventCount(); VerifyMNOWithUUID("uuid10901"); ResetOperatorInfo(); // Long MCCMNC match. ExpectEventCount(1); UpdateIMSI("10900215432154321"); // First 6 digits match. VerifyEventCount(); VerifyMNOWithUUID("uuid109002"); } TEST_P(MobileOperatorInfoMainTest, MNOByMCCMNCOverridesIMSI) { // message: Has MNOs with no MVNO. // match by: One matches MCCMNC, then one matches a different MCCMNC substring // of IMSI // verify: Observer event for the first match, all fields. Second Update // ignored. ExpectEventCount(1); UpdateMCCMNC("110001"); VerifyEventCount(); VerifyMNOWithUUID("uuid110001"); // MNO remains unchanged on a mismatched IMSI update. ExpectEventCount(0); UpdateIMSI("1100025432154321"); // First 6 digits match. VerifyEventCount(); VerifyMNOWithUUID("uuid110001"); // MNO remains uncnaged on an invalid IMSI update. ExpectEventCount(0); UpdateIMSI("1100035432154321"); // Prefix does not match. VerifyEventCount(); VerifyMNOWithUUID("uuid110001"); ExpectEventCount(0); UpdateIMSI("110"); // Too small. VerifyEventCount(); VerifyMNOWithUUID("uuid110001"); ResetOperatorInfo(); // Same as above, but this time, match with IMSI, followed by a contradictory // MCCMNC update. The second update should override the first one. ExpectEventCount(1); UpdateIMSI("1100025432154321"); // First 6 digits match. VerifyEventCount(); VerifyMNOWithUUID("uuid110002"); ExpectEventCount(1); UpdateMCCMNC("110001"); VerifyEventCount(); VerifyMNOWithUUID("uuid110001"); } TEST_P(MobileOperatorInfoMainTest, MNOUchangedBySecondaryUpdates) { // This test verifies that only some updates affect the MNO. // message: Has MNOs with no MVNO. // match by: First matches the MCCMNC. Later, MNOs with a different MCCMNC // matchs the given SID, NID, ICCID. // verify: Only one Observer event, on the first MCCMNC match. ExpectEventCount(1); UpdateMCCMNC("111001"); VerifyEventCount(); VerifyMNOWithUUID("uuid111001"); ExpectEventCount(1); // NID change event. UpdateNID("111202"); VerifyEventCount(); VerifyMNOWithUUID("uuid111001"); } TEST_P(MobileOperatorInfoMainTest, MVNODefaultMatch) { // message: MNO with one MVNO (no filter). // match by: MNO matches by MCCMNC. // verify: Observer event for MVNO match. Uuid match the MVNO. // second update: ICCID. // verify: No observer event, match remains unchanged. ExpectEventCount(1); UpdateMCCMNC("112001"); VerifyEventCount(); VerifyMVNOWithUUID("uuid112002"); ExpectEventCount(0); UpdateICCID("112002"); VerifyEventCount(); VerifyMVNOWithUUID("uuid112002"); } TEST_P(MobileOperatorInfoMainTest, MVNONameMatch) { // message: MNO with one MVNO (name filter). // match by: MNO matches by MCCMNC, // MVNO fails to match by fist name update, // then MVNO matches by name. // verify: Two Observer events: MNO followed by MVNO. ExpectEventCount(1); UpdateMCCMNC("113001"); VerifyEventCount(); VerifyMNOWithUUID("uuid113001"); ExpectEventCount(1); UpdateOperatorName("name113999"); // No match. VerifyEventCount(); VerifyMNOWithUUID("uuid113001"); // Name from the database is given preference. EXPECT_EQ("name113001", operator_info_->operator_name()); ExpectEventCount(1); UpdateOperatorName("name113002"); VerifyEventCount(); VerifyMVNOWithUUID("uuid113002"); EXPECT_EQ("name113002", operator_info_->operator_name()); } TEST_P(MobileOperatorInfoMainTest, MVNONameMalformedRegexMatch) { // message: MNO with one MVNO (name filter with a malformed regex). // match by: MNO matches by MCCMNC. // MVNO does not match ExpectEventCount(2); UpdateMCCMNC("114001"); UpdateOperatorName("name["); VerifyEventCount(); VerifyMNOWithUUID("uuid114001"); } TEST_P(MobileOperatorInfoMainTest, MVNONameSubexpressionRegexMatch) { // message: MNO with one MVNO (name filter with simple regex). // match by: MNO matches by MCCMNC. // MVNO does not match with a name whose subexpression matches the // regex. ExpectEventCount(2); // One event for just the name update. UpdateMCCMNC("115001"); UpdateOperatorName("name115_ExtraCrud"); VerifyEventCount(); VerifyMNOWithUUID("uuid115001"); ResetOperatorInfo(); ExpectEventCount(2); // One event for just the name update. UpdateMCCMNC("115001"); UpdateOperatorName("ExtraCrud_name115"); VerifyEventCount(); VerifyMNOWithUUID("uuid115001"); ResetOperatorInfo(); ExpectEventCount(2); // One event for just the name update. UpdateMCCMNC("115001"); UpdateOperatorName("ExtraCrud_name115_ExtraCrud"); VerifyEventCount(); VerifyMNOWithUUID("uuid115001"); ResetOperatorInfo(); ExpectEventCount(2); // One event for just the name update. UpdateMCCMNC("115001"); UpdateOperatorName("name_ExtraCrud_115"); VerifyEventCount(); VerifyMNOWithUUID("uuid115001"); ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("115001"); UpdateOperatorName("name115"); VerifyEventCount(); VerifyMVNOWithUUID("uuid115002"); } TEST_P(MobileOperatorInfoMainTest, MVNONameRegexMatch) { // message: MNO with one MVNO (name filter with non-trivial regex). // match by: MNO matches by MCCMNC. // MVNO fails to match several times with different strings. // MVNO matches several times with different values. // Make sure we're not taking the regex literally! ExpectEventCount(2); UpdateMCCMNC("116001"); UpdateOperatorName("name[a-zA-Z_]*116[0-9]{0,3}"); VerifyEventCount(); VerifyMNOWithUUID("uuid116001"); ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("116001"); UpdateOperatorName("name[a-zA-Z_]116[0-9]"); VerifyEventCount(); VerifyMNOWithUUID("uuid116001"); ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("116001"); UpdateOperatorName("nameb*1167"); VerifyEventCount(); VerifyMNOWithUUID("uuid116001"); // Success! ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("116001"); UpdateOperatorName("name116"); VerifyEventCount(); VerifyMVNOWithUUID("uuid116002"); ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("116001"); UpdateOperatorName("nameSomeWord116"); VerifyEventCount(); VerifyMVNOWithUUID("uuid116002"); ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("116001"); UpdateOperatorName("name116567"); VerifyEventCount(); VerifyMVNOWithUUID("uuid116002"); } TEST_P(MobileOperatorInfoMainTest, MVNONameMatchMultipleFilters) { // message: MNO with one MVNO with two name filters. // match by: MNO matches by MCCMNC. // MVNO first fails on the second filter alone. // MVNO fails on the first filter alone. // MVNO matches on both filters. ExpectEventCount(2); UpdateMCCMNC("117001"); UpdateOperatorName("nameA_crud"); VerifyEventCount(); VerifyMNOWithUUID("uuid117001"); ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("117001"); UpdateOperatorName("crud_nameB"); VerifyEventCount(); VerifyMNOWithUUID("uuid117001"); ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("117001"); UpdateOperatorName("crud_crud"); VerifyEventCount(); VerifyMNOWithUUID("uuid117001"); ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("117001"); UpdateOperatorName("nameA_nameB"); VerifyEventCount(); VerifyMVNOWithUUID("uuid117002"); } TEST_P(MobileOperatorInfoMainTest, MVNOIMSIMatch) { // message: MNO with one MVNO (imsi filter). // match by: MNO matches by MCCMNC, // MVNO fails to match by fist imsi update, // then MVNO matches by imsi. // verify: Two Observer events: MNO followed by MVNO. ExpectEventCount(1); UpdateMCCMNC("118001"); VerifyEventCount(); VerifyMNOWithUUID("uuid118001"); ExpectEventCount(0); UpdateIMSI("1180011234512345"); // No match. VerifyEventCount(); VerifyMNOWithUUID("uuid118001"); ExpectEventCount(1); UpdateIMSI("1180015432154321"); VerifyEventCount(); VerifyMVNOWithUUID("uuid118002"); } TEST_P(MobileOperatorInfoMainTest, MVNOICCIDMatch) { // message: MNO with one MVNO (iccid filter). // match by: MNO matches by MCCMNC, // MVNO fails to match by fist iccid update, // then MVNO matches by iccid. // verify: Two Observer events: MNO followed by MVNO. ExpectEventCount(1); UpdateMCCMNC("119001"); VerifyEventCount(); VerifyMNOWithUUID("uuid119001"); ExpectEventCount(0); UpdateICCID("119987654321"); // No match. VerifyEventCount(); VerifyMNOWithUUID("uuid119001"); ExpectEventCount(1); UpdateICCID("119123456789"); VerifyEventCount(); VerifyMVNOWithUUID("uuid119002"); } TEST_P(MobileOperatorInfoMainTest, MVNOSIDMatch) { // message: MNO with one MVNO (sid filter). // match by: MNO matches by SID, // MVNO fails to match by fist sid update, // then MVNO matches by sid. // verify: Two Observer events: MNO followed by MVNO. ExpectEventCount(0); UpdateSID("120999"); // No match. VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(1); UpdateSID("120001"); // Only MNO matches. VerifyEventCount(); VerifyMNOWithUUID("uuid120001"); EXPECT_EQ("120001", operator_info_->sid()); ExpectEventCount(1); UpdateSID("120002"); // MVNO matches as well. VerifyEventCount(); VerifyMVNOWithUUID("uuid120002"); EXPECT_EQ("120002", operator_info_->sid()); } TEST_P(MobileOperatorInfoMainTest, MVNOAllMatch) { // message: MNO with following MVNOS: // - one with no filter. // - one with name filter. // - one with imsi filter. // - one with iccid filter. // - one with name and iccid filter. // verify: // - initial MCCMNC matches the default MVNO directly (not MNO) // - match each of the MVNOs in turn. // - give super set information that does not match any MVNO correctly, // verify that the MNO matches. ExpectEventCount(1); UpdateMCCMNC("121001"); VerifyEventCount(); VerifyMNOWithUUID("uuid121001"); ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("121001"); UpdateOperatorName("name121003"); VerifyEventCount(); VerifyMVNOWithUUID("uuid121003"); ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("121001"); UpdateIMSI("1210045432154321"); VerifyEventCount(); VerifyMVNOWithUUID("uuid121004"); ResetOperatorInfo(); ExpectEventCount(2); UpdateMCCMNC("121001"); UpdateICCID("121005123456789"); VerifyEventCount(); VerifyMVNOWithUUID("uuid121005"); ResetOperatorInfo(); ExpectEventCount(3); UpdateMCCMNC("121001"); UpdateOperatorName("name121006"); VerifyMNOWithUUID("uuid121001"); UpdateICCID("121006123456789"); VerifyEventCount(); VerifyMVNOWithUUID("uuid121006"); } TEST_P(MobileOperatorInfoMainTest, MVNOMatchAndMismatch) { // message: MNO with one MVNO with name filter. // match by: MNO matches by MCCMNC // MVNO matches by name. // Second name update causes the MVNO to not match again. ExpectEventCount(1); UpdateMCCMNC("113001"); VerifyEventCount(); VerifyMNOWithUUID("uuid113001"); ExpectEventCount(1); UpdateOperatorName("name113002"); VerifyEventCount(); VerifyMVNOWithUUID("uuid113002"); EXPECT_EQ("name113002", operator_info_->operator_name()); ExpectEventCount(1); UpdateOperatorName("name113999"); // No match. VerifyEventCount(); VerifyMNOWithUUID("uuid113001"); // Name from database is given preference. EXPECT_EQ("name113001", operator_info_->operator_name()); } TEST_P(MobileOperatorInfoMainTest, MVNOMatchAndReset) { // message: MVNO with name filter. // verify; // - match MVNO by name. // - Reset object, verify Observer event, and not match. // - match MVNO by name again. ExpectEventCount(1); UpdateMCCMNC("113001"); VerifyEventCount(); ExpectEventCount(1); VerifyMNOWithUUID("uuid113001"); UpdateOperatorName("name113002"); VerifyEventCount(); VerifyMVNOWithUUID("uuid113002"); EXPECT_EQ("name113002", operator_info_->operator_name()); ExpectEventCount(1); operator_info_->Reset(); VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(1); UpdateMCCMNC("113001"); VerifyEventCount(); VerifyMNOWithUUID("uuid113001"); ExpectEventCount(1); UpdateOperatorName("name113002"); VerifyEventCount(); VerifyMVNOWithUUID("uuid113002"); EXPECT_EQ("name113002", operator_info_->operator_name()); } // Here, we rely on our knowledge about the implementation: The SID and MCCMNC // updates follow the same code paths, and so we can get away with not testing // all the scenarios we test above for MCCMNC. Instead, we only do basic testing // to make sure that SID upates operator as MCCMNC updates do. TEST_P(MobileOperatorInfoMainTest, MNOBySID) { // message: Has an MNO with no MVNO. // match by: SID. // verify: Observer event, uuid. ExpectEventCount(0); UpdateSID("1229"); // No match. VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(1); UpdateSID("1221"); VerifyEventCount(); VerifyMNOWithUUID("uuid1221"); ExpectEventCount(1); UpdateSID("1229"); // No Match. VerifyEventCount(); VerifyNoMatch(); } TEST_P(MobileOperatorInfoMainTest, MNOByMCCMNCAndSID) { // message: Has an MNO with no MVNO. // match by: SID / MCCMNC alternately. // verify: Observer event, uuid. ExpectEventCount(0); UpdateMCCMNC("123999"); // NO match. UpdateSID("1239"); // No match. VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(1); UpdateMCCMNC("123001"); VerifyEventCount(); VerifyMNOWithUUID("uuid123001"); ExpectEventCount(1); operator_info_->Reset(); VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(1); UpdateSID("1232"); VerifyEventCount(); VerifyMNOWithUUID("uuid1232"); ExpectEventCount(1); operator_info_->Reset(); VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(1); UpdateMCCMNC("123001"); VerifyEventCount(); VerifyMNOWithUUID("uuid123001"); } class MobileOperatorInfoDataTest : public MobileOperatorInfoMainTest { public: MobileOperatorInfoDataTest() : MobileOperatorInfoMainTest() {} // Same as MobileOperatorInfoMainTest, except that the database used is // different. virtual void SetUp() { operator_info_->ClearDatabasePaths(); AddDatabase(mobile_operator_db::data_test, arraysize(mobile_operator_db::data_test)); operator_info_->Init(); operator_info_->AddObserver(&observer_); } protected: // This is a function that does a best effort verification of the information // that is obtained from the database by the MobileOperatorInfo object against // expectations stored in the form of data members in this class. // This is not a full proof check. In particular: // - It is unspecified in some case which of the values from a list is // exposed as a property. For example, at best, we can check that |sid| is // non-empty. // - It is not robust to "" as property values at times. void VerifyDatabaseData() { EXPECT_EQ(country_, operator_info_->country()); EXPECT_EQ(requires_roaming_, operator_info_->requires_roaming()); EXPECT_EQ(activation_code_, operator_info_->activation_code()); EXPECT_EQ(mccmnc_list_.size(), operator_info_->mccmnc_list().size()); set mccmnc_set(operator_info_->mccmnc_list().begin(), operator_info_->mccmnc_list().end()); for (const auto& mccmnc : mccmnc_list_) { EXPECT_TRUE(mccmnc_set.find(mccmnc) != mccmnc_set.end()); } if (mccmnc_list_.size() > 0) { // It is not specified which entry will be chosen, but mccmnc() must be // non empty. EXPECT_FALSE(operator_info_->mccmnc().empty()); } VerifyNameListsMatch(operator_name_list_, operator_info_->operator_name_list()); // This comparison breaks if two apns have the same |apn| field. EXPECT_EQ(apn_list_.size(), operator_info_->apn_list().size()); map mobile_apns; for (const auto& apn_node : operator_info_->apn_list()) { mobile_apns[apn_node->apn] = apn_node; } for (const auto& apn_lhs : apn_list_) { ASSERT_TRUE(mobile_apns.find(apn_lhs->apn) != mobile_apns.end()); const auto& apn_rhs = mobile_apns[apn_lhs->apn]; // Only comparing apn, name, username, password. EXPECT_EQ(apn_lhs->apn, apn_rhs->apn); EXPECT_EQ(apn_lhs->username, apn_rhs->username); EXPECT_EQ(apn_lhs->password, apn_rhs->password); VerifyNameListsMatch(apn_lhs->operator_name_list, apn_rhs->operator_name_list); } EXPECT_EQ(olp_list_.size(), operator_info_->olp_list().size()); // This comparison breaks if two OLPs have the same |url|. map olps; for (const auto& olp : operator_info_->olp_list()) { olps[olp.url] = olp; } for (const auto& olp : olp_list_) { ASSERT_TRUE(olps.find(olp.url) != olps.end()); const auto& olp_rhs = olps[olp.url]; EXPECT_EQ(olp.method, olp_rhs.method); EXPECT_EQ(olp.post_data, olp_rhs.post_data); } EXPECT_EQ(sid_list_.size(), operator_info_->sid_list().size()); set sid_set(operator_info_->sid_list().begin(), operator_info_->sid_list().end()); for (const auto& sid : sid_list_) { EXPECT_TRUE(sid_set.find(sid) != sid_set.end()); } if (sid_list_.size() > 0) { // It is not specified which entry will be chosen, but |sid()| must be // non-empty. EXPECT_FALSE(operator_info_->sid().empty()); } } // This function does some extra checks for the user data that can not be done // when data is obtained from the database. void VerifyUserData() { EXPECT_EQ(sid_, operator_info_->sid()); } void VerifyNameListsMatch( const vector& operator_name_list_lhs, const vector& operator_name_list_rhs) { // This comparison breaks if two localized names have the same |name|. map localized_names; for (const auto& localized_name : operator_name_list_rhs) { localized_names[localized_name.name] = localized_name; } for (const auto& localized_name : operator_name_list_lhs) { EXPECT_TRUE(localized_names.find(localized_name.name) != localized_names.end()); EXPECT_EQ(localized_name.language, localized_names[localized_name.name].language); } } // Use this function to pre-popluate all the data members of this object with // values matching the MNO for the database in |data_test.prototxt|. void PopulateMNOData() { country_ = "us"; requires_roaming_ = true; activation_code_ = "open sesame"; mccmnc_list_.clear(); mccmnc_list_.push_back("200001"); mccmnc_list_.push_back("200002"); mccmnc_list_.push_back("200003"); operator_name_list_.clear(); operator_name_list_.push_back({"name200001", "en"}); operator_name_list_.push_back({"name200002", ""}); apn_list_.clear(); MobileOperatorInfo::MobileAPN* apn; apn = new MobileOperatorInfo::MobileAPN(); apn->apn = "test@test.com"; apn->username = "testuser"; apn->password = "is_public_boohoohoo"; apn->operator_name_list.push_back({"name200003", "hi"}); apn_list_.push_back(apn); // Takes ownership. olp_list_.clear(); olp_list_.push_back({"some@random.com", "POST", "random_data"}); sid_list_.clear(); sid_list_.push_back("200123"); sid_list_.push_back("200234"); sid_list_.push_back("200345"); } // Use this function to pre-populate all the data members of this object with // values matching the MVNO for the database in |data_test.prototext|. void PopulateMVNOData() { country_ = "ca"; requires_roaming_ = false; activation_code_ = "khul ja sim sim"; mccmnc_list_.clear(); mccmnc_list_.push_back("200001"); mccmnc_list_.push_back("200102"); operator_name_list_.clear(); operator_name_list_.push_back({"name200101", "en"}); operator_name_list_.push_back({"name200102", ""}); apn_list_.clear(); MobileOperatorInfo::MobileAPN* apn; apn = new MobileOperatorInfo::MobileAPN(); apn->apn = "test2@test.com"; apn->username = "testuser2"; apn->password = "is_public_boohoohoo_too"; apn_list_.push_back(apn); // Takes ownership. olp_list_.clear(); olp_list_.push_back({"someother@random.com", "GET", ""}); sid_list_.clear(); sid_list_.push_back("200345"); } // Data to be verified against the database. string country_; bool requires_roaming_; string activation_code_; vector mccmnc_list_; vector operator_name_list_; ScopedVector apn_list_; vector olp_list_; vector sid_list_; // Extra data to be verified only against user updates. string sid_; private: DISALLOW_COPY_AND_ASSIGN(MobileOperatorInfoDataTest); }; TEST_P(MobileOperatorInfoDataTest, MNODetailedInformation) { // message: MNO with all the information filled in. // match by: MNO matches by MCCMNC // verify: All information is correctly loaded. ExpectEventCount(1); UpdateMCCMNC("200001"); VerifyEventCount(); VerifyMNOWithUUID("uuid200001"); PopulateMNOData(); VerifyDatabaseData(); } TEST_P(MobileOperatorInfoDataTest, MVNOInheritsInformation) { // message: MVNO with name filter. // verify: All the missing fields are carried over to the MVNO from MNO. ExpectEventCount(2); UpdateMCCMNC("200001"); UpdateOperatorName("name200201"); VerifyEventCount(); VerifyMVNOWithUUID("uuid200201"); PopulateMNOData(); VerifyDatabaseData(); } TEST_P(MobileOperatorInfoDataTest, MVNOOverridesInformation) { // match by: MNO matches by MCCMNC, MVNO by name. // verify: All information is correctly loaded. // The MVNO in this case overrides the information provided by MNO. ExpectEventCount(2); UpdateMCCMNC("200001"); UpdateOperatorName("name200101"); VerifyEventCount(); VerifyMVNOWithUUID("uuid200101"); PopulateMVNOData(); VerifyDatabaseData(); } TEST_P(MobileOperatorInfoDataTest, NoUpdatesBeforeMNOMatch) { // message: MVNO. // - do not match MNO with mccmnc/name // - on different updates, verify no events. ExpectEventCount(0); UpdateMCCMNC("200999"); // No match. UpdateOperatorName("name200001"); // matches MNO UpdateOperatorName("name200101"); // matches MVNO filter. UpdateSID("200999"); // No match. VerifyEventCount(); VerifyNoMatch(); } TEST_P(MobileOperatorInfoDataTest, UserUpdatesOverrideMVNO) { // - match MVNO. // - send updates to properties and verify events are raised and values of // updated properties override the ones provided by the database. string imsi {"2009991234512345"}; string iccid {"200999123456789"}; string olp_url {"url@url.com"}; string olp_method {"POST"}; string olp_post_data {"data"}; // Determine MVNO. ExpectEventCount(2); UpdateMCCMNC("200001"); UpdateOperatorName("name200101"); VerifyEventCount(); VerifyMVNOWithUUID("uuid200101"); // Send updates. ExpectEventCount(1); UpdateOnlinePortal(olp_url, olp_method, olp_post_data); UpdateIMSI(imsi); // No event raised because imsi is not exposed. UpdateICCID(iccid); // No event raised because ICCID is not exposed. VerifyEventCount(); // Update our expectations. PopulateMVNOData(); olp_list_.push_back({olp_url, olp_method, olp_post_data}); VerifyDatabaseData(); } TEST_P(MobileOperatorInfoDataTest, CachedUserUpdatesOverrideMVNO) { // message: MVNO. // - First send updates that don't identify an MNO. // - Then identify an MNO and MVNO. // - verify that all the earlier updates are cached, and override the MVNO // information. string imsi {"2009991234512345"}; string iccid {"200999123456789"}; string sid {"200999"}; string olp_url {"url@url.com"}; string olp_method {"POST"}; string olp_post_data {"data"}; // Send updates. ExpectEventCount(0); UpdateSID(sid); UpdateOnlinePortal(olp_url, olp_method, olp_post_data); UpdateIMSI(imsi); UpdateICCID(iccid); VerifyEventCount(); // Determine MVNO. ExpectEventCount(2); UpdateMCCMNC("200001"); UpdateOperatorName("name200101"); VerifyEventCount(); VerifyMVNOWithUUID("uuid200101"); // Update our expectations. PopulateMVNOData(); sid_ = sid; sid_list_.push_back(sid); olp_list_.push_back({olp_url, olp_method, olp_post_data}); VerifyDatabaseData(); VerifyUserData(); } TEST_P(MobileOperatorInfoDataTest, RedundantUserUpdatesMVNO) { // - match MVNO. // - send redundant updates to properties. // - Verify no events, no updates to properties. // Identify MVNO. ExpectEventCount(2); UpdateMCCMNC("200001"); UpdateOperatorName("name200101"); VerifyEventCount(); VerifyMVNOWithUUID("uuid200101"); // Send redundant updates. // TODO(pprabhu) // |UpdateOnlinePortal| leads to an event because this is the first time this // value are set *by the user*. Although the values from the database were the // same, we did not use those values for filters. It would be ideal to not // raise these redundant events (since no public information about the object // changed), but I haven't invested in doing so yet. ExpectEventCount(1); UpdateOperatorName(operator_info_->operator_name()); UpdateOnlinePortal("someother@random.com", "GET", ""); VerifyEventCount(); PopulateMVNOData(); VerifyDatabaseData(); } TEST_P(MobileOperatorInfoDataTest, RedundantCachedUpdatesMVNO) { // message: MVNO. // - First send updates that don't identify MVNO, but match the data. // - Then idenityf an MNO and MVNO. // - verify that redundant information occurs only once. // Send redundant updates. ExpectEventCount(2); UpdateSID(operator_info_->sid()); UpdateOperatorName(operator_info_->operator_name()); UpdateOnlinePortal("someother@random.com", "GET", ""); // Identify MVNO. UpdateMCCMNC("200001"); UpdateOperatorName("name200101"); VerifyEventCount(); VerifyMVNOWithUUID("uuid200101"); PopulateMVNOData(); VerifyDatabaseData(); } TEST_P(MobileOperatorInfoDataTest, ResetClearsInformation) { // Repeatedly reset the object and check M[V]NO identification and data. ExpectEventCount(2); UpdateMCCMNC("200001"); UpdateOperatorName("name200201"); VerifyEventCount(); VerifyMVNOWithUUID("uuid200201"); PopulateMNOData(); VerifyDatabaseData(); ExpectEventCount(1); operator_info_->Reset(); VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(2); UpdateMCCMNC("200001"); UpdateOperatorName("name200101"); VerifyEventCount(); VerifyMVNOWithUUID("uuid200101"); PopulateMVNOData(); VerifyDatabaseData(); ExpectEventCount(1); operator_info_->Reset(); VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(1); UpdateMCCMNC("200001"); VerifyEventCount(); VerifyMNOWithUUID("uuid200001"); PopulateMNOData(); VerifyDatabaseData(); } TEST_P(MobileOperatorInfoDataTest, FilteredOLP) { // We only check basic filter matching, using the fact that the regex matching // code is shared with the MVNO filtering, and is already well tested. // (1) None of the filters match. ExpectEventCount(1); UpdateMCCMNC("200001"); VerifyEventCount(); VerifyMNOWithUUID("uuid200001"); ASSERT_EQ(1, operator_info_->olp_list().size()); // Just check that the filtered OLPs are not in the list. EXPECT_NE("olp@mccmnc", operator_info_->olp_list()[0].url); EXPECT_NE("olp@sid", operator_info_->olp_list()[0].url); // (2) MCCMNC filter matches. ExpectEventCount(1); operator_info_->Reset(); VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(1); UpdateMCCMNC("200003"); VerifyEventCount(); VerifyMNOWithUUID("uuid200001"); ASSERT_EQ(2, operator_info_->olp_list().size()); EXPECT_NE("olp@sid", operator_info_->olp_list()[0].url); bool found_olp_by_mccmnc = false; for (const auto& olp : operator_info_->olp_list()) { found_olp_by_mccmnc |= ("olp@mccmnc" == olp.url); } EXPECT_TRUE(found_olp_by_mccmnc); // (3) SID filter matches. ExpectEventCount(1); operator_info_->Reset(); VerifyEventCount(); VerifyNoMatch(); ExpectEventCount(1); UpdateSID("200345"); VerifyEventCount(); VerifyMNOWithUUID("uuid200001"); ASSERT_EQ(2, operator_info_->olp_list().size()); EXPECT_NE("olp@mccmnc", operator_info_->olp_list()[0].url); bool found_olp_by_sid = false; for (const auto& olp : operator_info_->olp_list()) { found_olp_by_sid |= ("olp@sid" == olp.url); } EXPECT_TRUE(found_olp_by_sid); } class MobileOperatorInfoObserverTest : public MobileOperatorInfoMainTest { public: MobileOperatorInfoObserverTest() : MobileOperatorInfoMainTest() {} // Same as |MobileOperatorInfoMainTest::SetUp|, except that we don't add a // default observer. virtual void SetUp() { operator_info_->ClearDatabasePaths(); AddDatabase(mobile_operator_db::data_test, arraysize(mobile_operator_db::data_test)); operator_info_->Init(); } protected: // /////////////////////////////////////////////////////////////////////////// // Data. MockMobileOperatorInfoObserver second_observer_; private: DISALLOW_COPY_AND_ASSIGN(MobileOperatorInfoObserverTest); }; TEST_P(MobileOperatorInfoObserverTest, NoObserver) { // - Don't add any observers, and then cause an MVNO update to occur. // - Verify no crash. UpdateMCCMNC("200001"); UpdateOperatorName("name200101"); } TEST_P(MobileOperatorInfoObserverTest, MultipleObservers) { // - Add two observers, and then cause an MVNO update to occur. // - Verify both observers are notified. operator_info_->AddObserver(&observer_); operator_info_->AddObserver(&second_observer_); EXPECT_CALL(observer_, OnOperatorChanged()).Times(2); EXPECT_CALL(second_observer_, OnOperatorChanged()).Times(2); UpdateMCCMNC("200001"); UpdateOperatorName("name200101"); VerifyMVNOWithUUID("uuid200101"); dispatcher_.DispatchPendingEvents(); } TEST_P(MobileOperatorInfoObserverTest, LateObserver) { // - Add one observer, and verify it gets an MVNO update. operator_info_->AddObserver(&observer_); EXPECT_CALL(observer_, OnOperatorChanged()).Times(2); EXPECT_CALL(second_observer_, OnOperatorChanged()).Times(0); UpdateMCCMNC("200001"); UpdateOperatorName("name200101"); VerifyMVNOWithUUID("uuid200101"); dispatcher_.DispatchPendingEvents(); Mock::VerifyAndClearExpectations(&observer_); Mock::VerifyAndClearExpectations(&second_observer_); EXPECT_CALL(observer_, OnOperatorChanged()).Times(1); EXPECT_CALL(second_observer_, OnOperatorChanged()).Times(0); operator_info_->Reset(); VerifyNoMatch(); dispatcher_.DispatchPendingEvents(); Mock::VerifyAndClearExpectations(&observer_); Mock::VerifyAndClearExpectations(&second_observer_); // - Add another observer, verify both get an MVNO update. operator_info_->AddObserver(&second_observer_); EXPECT_CALL(observer_, OnOperatorChanged()).Times(2); EXPECT_CALL(second_observer_, OnOperatorChanged()).Times(2); UpdateMCCMNC("200001"); UpdateOperatorName("name200101"); VerifyMVNOWithUUID("uuid200101"); dispatcher_.DispatchPendingEvents(); Mock::VerifyAndClearExpectations(&observer_); Mock::VerifyAndClearExpectations(&second_observer_); EXPECT_CALL(observer_, OnOperatorChanged()).Times(1); EXPECT_CALL(second_observer_, OnOperatorChanged()).Times(1); operator_info_->Reset(); VerifyNoMatch(); dispatcher_.DispatchPendingEvents(); Mock::VerifyAndClearExpectations(&observer_); Mock::VerifyAndClearExpectations(&second_observer_); // - Remove an observer, verify it no longer gets updates. operator_info_->RemoveObserver(&observer_); EXPECT_CALL(observer_, OnOperatorChanged()).Times(0); EXPECT_CALL(second_observer_, OnOperatorChanged()).Times(2); UpdateMCCMNC("200001"); UpdateOperatorName("name200101"); VerifyMVNOWithUUID("uuid200101"); dispatcher_.DispatchPendingEvents(); Mock::VerifyAndClearExpectations(&observer_); Mock::VerifyAndClearExpectations(&second_observer_); EXPECT_CALL(observer_, OnOperatorChanged()).Times(0); EXPECT_CALL(second_observer_, OnOperatorChanged()).Times(1); operator_info_->Reset(); VerifyNoMatch(); dispatcher_.DispatchPendingEvents(); Mock::VerifyAndClearExpectations(&observer_); Mock::VerifyAndClearExpectations(&second_observer_); } INSTANTIATE_TEST_CASE_P(MobileOperatorInfoMainTestInstance, MobileOperatorInfoMainTest, Values(kEventCheckingPolicyStrict, kEventCheckingPolicyNonStrict)); INSTANTIATE_TEST_CASE_P(MobileOperatorInfoDataTestInstance, MobileOperatorInfoDataTest, Values(kEventCheckingPolicyStrict, kEventCheckingPolicyNonStrict)); // It only makes sense to do strict checking here. INSTANTIATE_TEST_CASE_P(MobileOperatorInfoObserverTestInstance, MobileOperatorInfoObserverTest, Values(kEventCheckingPolicyStrict)); } // namespace shill