// Copyright 2014 The Chromium 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 "base/basictypes.h" #include "base/compiler_specific.h" #include "base/memory/scoped_ptr.h" #include "components/invalidation/fake_invalidation_handler.h" #include "components/invalidation/invalidator_registrar.h" #include "components/invalidation/invalidator_test_template.h" #include "google/cacheinvalidation/types.pb.h" #include "testing/gtest/include/gtest/gtest.h" namespace syncer { namespace { // We test InvalidatorRegistrar by wrapping it in an Invalidator and // running the usual Invalidator tests. // Thin Invalidator wrapper around InvalidatorRegistrar. class RegistrarInvalidator : public Invalidator { public: RegistrarInvalidator() {} ~RegistrarInvalidator() override {} InvalidatorRegistrar* GetRegistrar() { return ®istrar_; } // Invalidator implementation. void RegisterHandler(InvalidationHandler* handler) override { registrar_.RegisterHandler(handler); } void UpdateRegisteredIds(InvalidationHandler* handler, const ObjectIdSet& ids) override { registrar_.UpdateRegisteredIds(handler, ids); } void UnregisterHandler(InvalidationHandler* handler) override { registrar_.UnregisterHandler(handler); } InvalidatorState GetInvalidatorState() const override { return registrar_.GetInvalidatorState(); } void UpdateCredentials(const std::string& email, const std::string& token) override { // Do nothing. } void RequestDetailedStatus( base::Callback call) const override { // Do nothing. } private: InvalidatorRegistrar registrar_; DISALLOW_COPY_AND_ASSIGN(RegistrarInvalidator); }; class RegistrarInvalidatorTestDelegate { public: RegistrarInvalidatorTestDelegate() {} ~RegistrarInvalidatorTestDelegate() { DestroyInvalidator(); } void CreateInvalidator( const std::string& invalidator_client_id, const std::string& initial_state, const base::WeakPtr& invalidation_state_tracker) { DCHECK(!invalidator_.get()); invalidator_.reset(new RegistrarInvalidator()); } RegistrarInvalidator* GetInvalidator() { return invalidator_.get(); } void DestroyInvalidator() { invalidator_.reset(); } void WaitForInvalidator() { // Do nothing. } void TriggerOnInvalidatorStateChange(InvalidatorState state) { invalidator_->GetRegistrar()->UpdateInvalidatorState(state); } void TriggerOnIncomingInvalidation( const ObjectIdInvalidationMap& invalidation_map) { invalidator_->GetRegistrar()->DispatchInvalidationsToHandlers( invalidation_map); } private: scoped_ptr invalidator_; }; INSTANTIATE_TYPED_TEST_CASE_P( RegistrarInvalidatorTest, InvalidatorTest, RegistrarInvalidatorTestDelegate); class InvalidatorRegistrarTest : public testing::Test {}; // Technically the test below can be part of InvalidatorTest, but we // want to keep the number of death tests down. // When we expect a death via CHECK(), we can't match against the // CHECK() message since they are removed in official builds. #if GTEST_HAS_DEATH_TEST // Multiple registrations by different handlers on the same object ID should // cause a CHECK. TEST_F(InvalidatorRegistrarTest, MultipleRegistration) { const invalidation::ObjectId id1(ipc::invalidation::ObjectSource::TEST, "a"); const invalidation::ObjectId id2(ipc::invalidation::ObjectSource::TEST, "a"); InvalidatorRegistrar registrar; FakeInvalidationHandler handler1; registrar.RegisterHandler(&handler1); FakeInvalidationHandler handler2; registrar.RegisterHandler(&handler2); ObjectIdSet ids; ids.insert(id1); ids.insert(id2); registrar.UpdateRegisteredIds(&handler1, ids); registrar.DetachFromThreadForTest(); EXPECT_DEATH({ registrar.UpdateRegisteredIds(&handler2, ids); }, ""); registrar.UnregisterHandler(&handler2); registrar.UnregisterHandler(&handler1); } #endif // GTEST_HAS_DEATH_TEST } // namespace } // namespace syncer