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// 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.
// This class defines tests that implementations of Invalidator should pass in
// order to be conformant. Here's how you use it to test your implementation.
//
// Say your class is called MyInvalidator. Then you need to define a class
// called MyInvalidatorTestDelegate in my_sync_notifier_unittest.cc like this:
//
// class MyInvalidatorTestDelegate {
// public:
// MyInvalidatorTestDelegate() ...
//
// ~MyInvalidatorTestDelegate() {
// // DestroyInvalidator() may not be explicitly called by tests.
// DestroyInvalidator();
// }
//
// // Create the Invalidator implementation with the given parameters.
// void CreateInvalidator(
// const std::string& initial_state,
// const base::WeakPtr<InvalidationStateTracker>&
// invalidation_state_tracker) {
// ...
// }
//
// // Should return the Invalidator implementation. Only called after
// // CreateInvalidator and before DestroyInvalidator.
// MyInvalidator* GetInvalidator() {
// ...
// }
//
// // Destroy the Invalidator implementation.
// void DestroyInvalidator() {
// ...
// }
//
// // Called after a call to SetUniqueId(), or UpdateCredentials() on the
// // Invalidator implementation. Should block until the effects of the
// // call are visible on the current thread.
// void WaitForInvalidator() {
// ...
// }
//
// // The Trigger* functions below should block until the effects of
// // the call are visible on the current thread.
//
// // Should cause OnInvalidatorStateChange() to be called on all
// // observers of the Invalidator implementation with the given
// // parameters.
// void TriggerOnInvalidatorStateChange(InvalidatorState state) {
// ...
// }
//
// // Should cause OnIncomingInvalidation() to be called on all
// // observers of the Invalidator implementation with the given
// // parameters.
// void TriggerOnIncomingInvalidation(
// const ObjectIdInvalidationMap& invalidation_map) {
// ...
// }
// };
//
// The InvalidatorTest test harness will have a member variable of
// this delegate type and will call its functions in the various
// tests.
//
// Then you simply #include this file as well as gtest.h and add the
// following statement to my_sync_notifier_unittest.cc:
//
// INSTANTIATE_TYPED_TEST_CASE_P(
// MyInvalidator, InvalidatorTest, MyInvalidatorTestDelegate);
//
// Easy!
#ifndef COMPONENTS_INVALIDATION_INVALIDATOR_TEST_TEMPLATE_H_
#define COMPONENTS_INVALIDATION_INVALIDATOR_TEST_TEMPLATE_H_
#include "base/basictypes.h"
#include "base/compiler_specific.h"
#include "components/invalidation/fake_invalidation_handler.h"
#include "components/invalidation/fake_invalidation_state_tracker.h"
#include "components/invalidation/invalidator.h"
#include "components/invalidation/object_id_invalidation_map_test_util.h"
#include "google/cacheinvalidation/include/types.h"
#include "google/cacheinvalidation/types.pb.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace syncer {
template <typename InvalidatorTestDelegate>
class InvalidatorTest : public testing::Test {
protected:
InvalidatorTest()
: id1(ipc::invalidation::ObjectSource::TEST, "a"),
id2(ipc::invalidation::ObjectSource::TEST, "b"),
id3(ipc::invalidation::ObjectSource::TEST, "c"),
id4(ipc::invalidation::ObjectSource::TEST, "d") {
}
Invalidator* CreateAndInitializeInvalidator() {
this->delegate_.CreateInvalidator("fake_invalidator_client_id",
"fake_initial_state",
this->fake_tracker_.AsWeakPtr());
Invalidator* const invalidator = this->delegate_.GetInvalidator();
this->delegate_.WaitForInvalidator();
invalidator->UpdateCredentials("foo@bar.com", "fake_token");
this->delegate_.WaitForInvalidator();
return invalidator;
}
FakeInvalidationStateTracker fake_tracker_;
InvalidatorTestDelegate delegate_;
const invalidation::ObjectId id1;
const invalidation::ObjectId id2;
const invalidation::ObjectId id3;
const invalidation::ObjectId id4;
};
TYPED_TEST_CASE_P(InvalidatorTest);
// Initialize the invalidator, register a handler, register some IDs for that
// handler, and then unregister the handler, dispatching invalidations in
// between. The handler should only see invalidations when its registered and
// its IDs are registered.
TYPED_TEST_P(InvalidatorTest, Basic) {
Invalidator* const invalidator = this->CreateAndInitializeInvalidator();
FakeInvalidationHandler handler;
invalidator->RegisterHandler(&handler);
ObjectIdInvalidationMap invalidation_map;
invalidation_map.Insert(Invalidation::Init(this->id1, 1, "1"));
invalidation_map.Insert(Invalidation::Init(this->id2, 2, "2"));
invalidation_map.Insert(Invalidation::Init(this->id3, 3, "3"));
// Should be ignored since no IDs are registered to |handler|.
this->delegate_.TriggerOnIncomingInvalidation(invalidation_map);
EXPECT_EQ(0, handler.GetInvalidationCount());
ObjectIdSet ids;
ids.insert(this->id1);
ids.insert(this->id2);
invalidator->UpdateRegisteredIds(&handler, ids);
this->delegate_.TriggerOnInvalidatorStateChange(INVALIDATIONS_ENABLED);
EXPECT_EQ(INVALIDATIONS_ENABLED, handler.GetInvalidatorState());
ObjectIdInvalidationMap expected_invalidations;
expected_invalidations.Insert(Invalidation::Init(this->id1, 1, "1"));
expected_invalidations.Insert(Invalidation::Init(this->id2, 2, "2"));
this->delegate_.TriggerOnIncomingInvalidation(invalidation_map);
EXPECT_EQ(1, handler.GetInvalidationCount());
EXPECT_THAT(expected_invalidations, Eq(handler.GetLastInvalidationMap()));
ids.erase(this->id1);
ids.insert(this->id3);
invalidator->UpdateRegisteredIds(&handler, ids);
expected_invalidations = ObjectIdInvalidationMap();
expected_invalidations.Insert(Invalidation::Init(this->id2, 2, "2"));
expected_invalidations.Insert(Invalidation::Init(this->id3, 3, "3"));
// Removed object IDs should not be notified, newly-added ones should.
this->delegate_.TriggerOnIncomingInvalidation(invalidation_map);
EXPECT_EQ(2, handler.GetInvalidationCount());
EXPECT_THAT(expected_invalidations, Eq(handler.GetLastInvalidationMap()));
this->delegate_.TriggerOnInvalidatorStateChange(TRANSIENT_INVALIDATION_ERROR);
EXPECT_EQ(TRANSIENT_INVALIDATION_ERROR,
handler.GetInvalidatorState());
this->delegate_.TriggerOnInvalidatorStateChange(
INVALIDATION_CREDENTIALS_REJECTED);
EXPECT_EQ(INVALIDATION_CREDENTIALS_REJECTED,
handler.GetInvalidatorState());
invalidator->UnregisterHandler(&handler);
// Should be ignored since |handler| isn't registered anymore.
this->delegate_.TriggerOnIncomingInvalidation(invalidation_map);
EXPECT_EQ(2, handler.GetInvalidationCount());
}
// Register handlers and some IDs for those handlers, register a handler with
// no IDs, and register a handler with some IDs but unregister it. Then,
// dispatch some invalidations and invalidations. Handlers that are registered
// should get invalidations, and the ones that have registered IDs should
// receive invalidations for those IDs.
TYPED_TEST_P(InvalidatorTest, MultipleHandlers) {
Invalidator* const invalidator = this->CreateAndInitializeInvalidator();
FakeInvalidationHandler handler1;
FakeInvalidationHandler handler2;
FakeInvalidationHandler handler3;
FakeInvalidationHandler handler4;
invalidator->RegisterHandler(&handler1);
invalidator->RegisterHandler(&handler2);
invalidator->RegisterHandler(&handler3);
invalidator->RegisterHandler(&handler4);
{
ObjectIdSet ids;
ids.insert(this->id1);
ids.insert(this->id2);
invalidator->UpdateRegisteredIds(&handler1, ids);
}
{
ObjectIdSet ids;
ids.insert(this->id3);
invalidator->UpdateRegisteredIds(&handler2, ids);
}
// Don't register any IDs for handler3.
{
ObjectIdSet ids;
ids.insert(this->id4);
invalidator->UpdateRegisteredIds(&handler4, ids);
}
invalidator->UnregisterHandler(&handler4);
this->delegate_.TriggerOnInvalidatorStateChange(INVALIDATIONS_ENABLED);
EXPECT_EQ(INVALIDATIONS_ENABLED, handler1.GetInvalidatorState());
EXPECT_EQ(INVALIDATIONS_ENABLED, handler2.GetInvalidatorState());
EXPECT_EQ(INVALIDATIONS_ENABLED, handler3.GetInvalidatorState());
EXPECT_EQ(TRANSIENT_INVALIDATION_ERROR, handler4.GetInvalidatorState());
{
ObjectIdInvalidationMap invalidation_map;
invalidation_map.Insert(Invalidation::Init(this->id1, 1, "1"));
invalidation_map.Insert(Invalidation::Init(this->id2, 2, "2"));
invalidation_map.Insert(Invalidation::Init(this->id3, 3, "3"));
invalidation_map.Insert(Invalidation::Init(this->id4, 4, "4"));
this->delegate_.TriggerOnIncomingInvalidation(invalidation_map);
ObjectIdInvalidationMap expected_invalidations;
expected_invalidations.Insert(Invalidation::Init(this->id1, 1, "1"));
expected_invalidations.Insert(Invalidation::Init(this->id2, 2, "2"));
EXPECT_EQ(1, handler1.GetInvalidationCount());
EXPECT_THAT(expected_invalidations, Eq(handler1.GetLastInvalidationMap()));
expected_invalidations = ObjectIdInvalidationMap();
expected_invalidations.Insert(Invalidation::Init(this->id3, 3, "3"));
EXPECT_EQ(1, handler2.GetInvalidationCount());
EXPECT_THAT(expected_invalidations, Eq(handler2.GetLastInvalidationMap()));
EXPECT_EQ(0, handler3.GetInvalidationCount());
EXPECT_EQ(0, handler4.GetInvalidationCount());
}
this->delegate_.TriggerOnInvalidatorStateChange(TRANSIENT_INVALIDATION_ERROR);
EXPECT_EQ(TRANSIENT_INVALIDATION_ERROR, handler1.GetInvalidatorState());
EXPECT_EQ(TRANSIENT_INVALIDATION_ERROR, handler2.GetInvalidatorState());
EXPECT_EQ(TRANSIENT_INVALIDATION_ERROR, handler3.GetInvalidatorState());
EXPECT_EQ(TRANSIENT_INVALIDATION_ERROR, handler4.GetInvalidatorState());
invalidator->UnregisterHandler(&handler3);
invalidator->UnregisterHandler(&handler2);
invalidator->UnregisterHandler(&handler1);
}
// Make sure that passing an empty set to UpdateRegisteredIds clears the
// corresponding entries for the handler.
TYPED_TEST_P(InvalidatorTest, EmptySetUnregisters) {
Invalidator* const invalidator = this->CreateAndInitializeInvalidator();
FakeInvalidationHandler handler1;
// Control observer.
FakeInvalidationHandler handler2;
invalidator->RegisterHandler(&handler1);
invalidator->RegisterHandler(&handler2);
{
ObjectIdSet ids;
ids.insert(this->id1);
ids.insert(this->id2);
invalidator->UpdateRegisteredIds(&handler1, ids);
}
{
ObjectIdSet ids;
ids.insert(this->id3);
invalidator->UpdateRegisteredIds(&handler2, ids);
}
// Unregister the IDs for the first observer. It should not receive any
// further invalidations.
invalidator->UpdateRegisteredIds(&handler1, ObjectIdSet());
this->delegate_.TriggerOnInvalidatorStateChange(INVALIDATIONS_ENABLED);
EXPECT_EQ(INVALIDATIONS_ENABLED, handler1.GetInvalidatorState());
EXPECT_EQ(INVALIDATIONS_ENABLED, handler2.GetInvalidatorState());
{
ObjectIdInvalidationMap invalidation_map;
invalidation_map.Insert(Invalidation::Init(this->id1, 1, "1"));
invalidation_map.Insert(Invalidation::Init(this->id2, 2, "2"));
invalidation_map.Insert(Invalidation::Init(this->id3, 3, "3"));
this->delegate_.TriggerOnIncomingInvalidation(invalidation_map);
EXPECT_EQ(0, handler1.GetInvalidationCount());
EXPECT_EQ(1, handler2.GetInvalidationCount());
}
this->delegate_.TriggerOnInvalidatorStateChange(TRANSIENT_INVALIDATION_ERROR);
EXPECT_EQ(TRANSIENT_INVALIDATION_ERROR, handler1.GetInvalidatorState());
EXPECT_EQ(TRANSIENT_INVALIDATION_ERROR, handler2.GetInvalidatorState());
invalidator->UnregisterHandler(&handler2);
invalidator->UnregisterHandler(&handler1);
}
namespace internal {
// A FakeInvalidationHandler that is "bound" to a specific
// Invalidator. This is for cross-referencing state information with
// the bound Invalidator.
class BoundFakeInvalidationHandler : public FakeInvalidationHandler {
public:
explicit BoundFakeInvalidationHandler(const Invalidator& invalidator);
virtual ~BoundFakeInvalidationHandler();
// Returns the last return value of GetInvalidatorState() on the
// bound invalidator from the last time the invalidator state
// changed.
InvalidatorState GetLastRetrievedState() const;
// InvalidationHandler implementation.
virtual void OnInvalidatorStateChange(InvalidatorState state) OVERRIDE;
private:
const Invalidator& invalidator_;
InvalidatorState last_retrieved_state_;
DISALLOW_COPY_AND_ASSIGN(BoundFakeInvalidationHandler);
};
} // namespace internal
TYPED_TEST_P(InvalidatorTest, GetInvalidatorStateAlwaysCurrent) {
Invalidator* const invalidator = this->CreateAndInitializeInvalidator();
internal::BoundFakeInvalidationHandler handler(*invalidator);
invalidator->RegisterHandler(&handler);
this->delegate_.TriggerOnInvalidatorStateChange(INVALIDATIONS_ENABLED);
EXPECT_EQ(INVALIDATIONS_ENABLED, handler.GetInvalidatorState());
EXPECT_EQ(INVALIDATIONS_ENABLED, handler.GetLastRetrievedState());
this->delegate_.TriggerOnInvalidatorStateChange(TRANSIENT_INVALIDATION_ERROR);
EXPECT_EQ(TRANSIENT_INVALIDATION_ERROR, handler.GetInvalidatorState());
EXPECT_EQ(TRANSIENT_INVALIDATION_ERROR, handler.GetLastRetrievedState());
invalidator->UnregisterHandler(&handler);
}
REGISTER_TYPED_TEST_CASE_P(InvalidatorTest,
Basic, MultipleHandlers, EmptySetUnregisters,
GetInvalidatorStateAlwaysCurrent);
} // namespace syncer
#endif // COMPONENTS_INVALIDATION_INVALIDATOR_TEST_TEMPLATE_H_
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