// Copyright 2013 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/sequence_checker.h" #include #include #include #include "base/bind.h" #include "base/bind_helpers.h" #include "base/callback_forward.h" #include "base/macros.h" #include "base/sequence_token.h" #include "base/single_thread_task_runner.h" #include "base/test/gtest_util.h" #include "base/threading/simple_thread.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { // Runs a callback on another thread. class RunCallbackThread : public SimpleThread { public: explicit RunCallbackThread(const Closure& callback) : SimpleThread("RunCallbackThread"), callback_(callback) { Start(); Join(); } private: // SimpleThread: void Run() override { callback_.Run(); } const Closure callback_; DISALLOW_COPY_AND_ASSIGN(RunCallbackThread); }; void ExpectCalledOnValidSequence(SequenceCheckerImpl* sequence_checker) { ASSERT_TRUE(sequence_checker); // This should bind |sequence_checker| to the current sequence if it wasn't // already bound to a sequence. EXPECT_TRUE(sequence_checker->CalledOnValidSequence()); // Since |sequence_checker| is now bound to the current sequence, another call // to CalledOnValidSequence() should return true. EXPECT_TRUE(sequence_checker->CalledOnValidSequence()); } void ExpectCalledOnValidSequenceWithSequenceToken( SequenceCheckerImpl* sequence_checker, SequenceToken sequence_token) { ScopedSetSequenceTokenForCurrentThread scoped_set_sequence_token_for_current_thread(sequence_token); ExpectCalledOnValidSequence(sequence_checker); } void ExpectNotCalledOnValidSequence(SequenceCheckerImpl* sequence_checker) { ASSERT_TRUE(sequence_checker); EXPECT_FALSE(sequence_checker->CalledOnValidSequence()); } } // namespace TEST(SequenceCheckerTest, CallsAllowedOnSameThreadNoSequenceToken) { SequenceCheckerImpl sequence_checker; EXPECT_TRUE(sequence_checker.CalledOnValidSequence()); } TEST(SequenceCheckerTest, CallsAllowedOnSameThreadSameSequenceToken) { ScopedSetSequenceTokenForCurrentThread scoped_set_sequence_token_for_current_thread(SequenceToken::Create()); SequenceCheckerImpl sequence_checker; EXPECT_TRUE(sequence_checker.CalledOnValidSequence()); } TEST(SequenceCheckerTest, CallsDisallowedOnDifferentThreadsNoSequenceToken) { SequenceCheckerImpl sequence_checker; RunCallbackThread thread( Bind(&ExpectNotCalledOnValidSequence, Unretained(&sequence_checker))); } TEST(SequenceCheckerTest, CallsAllowedOnDifferentThreadsSameSequenceToken) { const SequenceToken sequence_token(SequenceToken::Create()); ScopedSetSequenceTokenForCurrentThread scoped_set_sequence_token_for_current_thread(sequence_token); SequenceCheckerImpl sequence_checker; EXPECT_TRUE(sequence_checker.CalledOnValidSequence()); RunCallbackThread thread(Bind(&ExpectCalledOnValidSequenceWithSequenceToken, Unretained(&sequence_checker), sequence_token)); } TEST(SequenceCheckerTest, CallsDisallowedOnSameThreadDifferentSequenceToken) { std::unique_ptr sequence_checker; { ScopedSetSequenceTokenForCurrentThread scoped_set_sequence_token_for_current_thread(SequenceToken::Create()); sequence_checker.reset(new SequenceCheckerImpl); } { // Different SequenceToken. ScopedSetSequenceTokenForCurrentThread scoped_set_sequence_token_for_current_thread(SequenceToken::Create()); EXPECT_FALSE(sequence_checker->CalledOnValidSequence()); } // No SequenceToken. EXPECT_FALSE(sequence_checker->CalledOnValidSequence()); } TEST(SequenceCheckerTest, DetachFromSequence) { std::unique_ptr sequence_checker; { ScopedSetSequenceTokenForCurrentThread scoped_set_sequence_token_for_current_thread(SequenceToken::Create()); sequence_checker.reset(new SequenceCheckerImpl); } sequence_checker->DetachFromSequence(); { // Verify that CalledOnValidSequence() returns true when called with // a different sequence token after a call to DetachFromSequence(). ScopedSetSequenceTokenForCurrentThread scoped_set_sequence_token_for_current_thread(SequenceToken::Create()); EXPECT_TRUE(sequence_checker->CalledOnValidSequence()); } } TEST(SequenceCheckerTest, DetachFromSequenceNoSequenceToken) { SequenceCheckerImpl sequence_checker; sequence_checker.DetachFromSequence(); // Verify that CalledOnValidSequence() returns true when called on a // different thread after a call to DetachFromSequence(). RunCallbackThread thread( Bind(&ExpectCalledOnValidSequence, Unretained(&sequence_checker))); EXPECT_FALSE(sequence_checker.CalledOnValidSequence()); } TEST(SequenceCheckerMacroTest, Macros) { auto scope = std::make_unique( SequenceToken::Create()); SEQUENCE_CHECKER(my_sequence_checker); // Don't expect a DCHECK death when a SequenceChecker is used on the right // sequence. DCHECK_CALLED_ON_VALID_SEQUENCE(my_sequence_checker) << "Error message."; scope.reset(); #if DCHECK_IS_ON() // Expect DCHECK death when used on a different sequence. EXPECT_DCHECK_DEATH({ DCHECK_CALLED_ON_VALID_SEQUENCE(my_sequence_checker) << "Error message."; }); #else // Happily no-ops on non-dcheck builds. DCHECK_CALLED_ON_VALID_SEQUENCE(my_sequence_checker) << "Error message."; #endif DETACH_FROM_SEQUENCE(my_sequence_checker); // Don't expect a DCHECK death when a SequenceChecker is used for the first // time after having been detached. DCHECK_CALLED_ON_VALID_SEQUENCE(my_sequence_checker) << "Error message."; } } // namespace base