// Copyright (c) 2012 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/observer_list.h" #include "base/observer_list_threadsafe.h" #include <vector> #include "base/compiler_specific.h" #include "base/memory/weak_ptr.h" #include "base/message_loop/message_loop.h" #include "base/run_loop.h" #include "base/threading/platform_thread.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { class Foo { public: virtual void Observe(int x) = 0; virtual ~Foo() {} }; class Adder : public Foo { public: explicit Adder(int scaler) : total(0), scaler_(scaler) {} virtual void Observe(int x) OVERRIDE { total += x * scaler_; } virtual ~Adder() {} int total; private: int scaler_; }; class Disrupter : public Foo { public: Disrupter(ObserverList<Foo>* list, Foo* doomed) : list_(list), doomed_(doomed) { } virtual ~Disrupter() {} virtual void Observe(int x) OVERRIDE { list_->RemoveObserver(doomed_); } private: ObserverList<Foo>* list_; Foo* doomed_; }; class ThreadSafeDisrupter : public Foo { public: ThreadSafeDisrupter(ObserverListThreadSafe<Foo>* list, Foo* doomed) : list_(list), doomed_(doomed) { } virtual ~ThreadSafeDisrupter() {} virtual void Observe(int x) OVERRIDE { list_->RemoveObserver(doomed_); } private: ObserverListThreadSafe<Foo>* list_; Foo* doomed_; }; template <typename ObserverListType> class AddInObserve : public Foo { public: explicit AddInObserve(ObserverListType* observer_list) : added(false), observer_list(observer_list), adder(1) { } virtual void Observe(int x) OVERRIDE { if (!added) { added = true; observer_list->AddObserver(&adder); } } bool added; ObserverListType* observer_list; Adder adder; }; static const int kThreadRunTime = 2000; // ms to run the multi-threaded test. // A thread for use in the ThreadSafeObserver test // which will add and remove itself from the notification // list repeatedly. class AddRemoveThread : public PlatformThread::Delegate, public Foo { public: AddRemoveThread(ObserverListThreadSafe<Foo>* list, bool notify) : list_(list), loop_(NULL), in_list_(false), start_(Time::Now()), count_observes_(0), count_addtask_(0), do_notifies_(notify), weak_factory_(this) { } virtual ~AddRemoveThread() { } virtual void ThreadMain() OVERRIDE { loop_ = new MessageLoop(); // Fire up a message loop. loop_->PostTask( FROM_HERE, base::Bind(&AddRemoveThread::AddTask, weak_factory_.GetWeakPtr())); loop_->Run(); //LOG(ERROR) << "Loop 0x" << std::hex << loop_ << " done. " << // count_observes_ << ", " << count_addtask_; delete loop_; loop_ = reinterpret_cast<MessageLoop*>(0xdeadbeef); delete this; } // This task just keeps posting to itself in an attempt // to race with the notifier. void AddTask() { count_addtask_++; if ((Time::Now() - start_).InMilliseconds() > kThreadRunTime) { VLOG(1) << "DONE!"; return; } if (!in_list_) { list_->AddObserver(this); in_list_ = true; } if (do_notifies_) { list_->Notify(&Foo::Observe, 10); } loop_->PostTask( FROM_HERE, base::Bind(&AddRemoveThread::AddTask, weak_factory_.GetWeakPtr())); } void Quit() { loop_->PostTask(FROM_HERE, MessageLoop::QuitWhenIdleClosure()); } virtual void Observe(int x) OVERRIDE { count_observes_++; // If we're getting called after we removed ourselves from // the list, that is very bad! DCHECK(in_list_); // This callback should fire on the appropriate thread EXPECT_EQ(loop_, MessageLoop::current()); list_->RemoveObserver(this); in_list_ = false; } private: ObserverListThreadSafe<Foo>* list_; MessageLoop* loop_; bool in_list_; // Are we currently registered for notifications. // in_list_ is only used on |this| thread. Time start_; // The time we started the test. int count_observes_; // Number of times we observed. int count_addtask_; // Number of times thread AddTask was called bool do_notifies_; // Whether these threads should do notifications. base::WeakPtrFactory<AddRemoveThread> weak_factory_; }; TEST(ObserverListTest, BasicTest) { ObserverList<Foo> observer_list; Adder a(1), b(-1), c(1), d(-1), e(-1); Disrupter evil(&observer_list, &c); observer_list.AddObserver(&a); observer_list.AddObserver(&b); FOR_EACH_OBSERVER(Foo, observer_list, Observe(10)); observer_list.AddObserver(&evil); observer_list.AddObserver(&c); observer_list.AddObserver(&d); // Removing an observer not in the list should do nothing. observer_list.RemoveObserver(&e); FOR_EACH_OBSERVER(Foo, observer_list, Observe(10)); EXPECT_EQ(20, a.total); EXPECT_EQ(-20, b.total); EXPECT_EQ(0, c.total); EXPECT_EQ(-10, d.total); EXPECT_EQ(0, e.total); } TEST(ObserverListThreadSafeTest, BasicTest) { MessageLoop loop; scoped_refptr<ObserverListThreadSafe<Foo> > observer_list( new ObserverListThreadSafe<Foo>); Adder a(1); Adder b(-1); Adder c(1); Adder d(-1); ThreadSafeDisrupter evil(observer_list.get(), &c); observer_list->AddObserver(&a); observer_list->AddObserver(&b); observer_list->Notify(&Foo::Observe, 10); RunLoop().RunUntilIdle(); observer_list->AddObserver(&evil); observer_list->AddObserver(&c); observer_list->AddObserver(&d); observer_list->Notify(&Foo::Observe, 10); RunLoop().RunUntilIdle(); EXPECT_EQ(20, a.total); EXPECT_EQ(-20, b.total); EXPECT_EQ(0, c.total); EXPECT_EQ(-10, d.total); } TEST(ObserverListThreadSafeTest, RemoveObserver) { MessageLoop loop; scoped_refptr<ObserverListThreadSafe<Foo> > observer_list( new ObserverListThreadSafe<Foo>); Adder a(1), b(1); // A workaround for the compiler bug. See http://crbug.com/121960. EXPECT_NE(&a, &b); // Should do nothing. observer_list->RemoveObserver(&a); observer_list->RemoveObserver(&b); observer_list->Notify(&Foo::Observe, 10); RunLoop().RunUntilIdle(); EXPECT_EQ(0, a.total); EXPECT_EQ(0, b.total); observer_list->AddObserver(&a); // Should also do nothing. observer_list->RemoveObserver(&b); observer_list->Notify(&Foo::Observe, 10); RunLoop().RunUntilIdle(); EXPECT_EQ(10, a.total); EXPECT_EQ(0, b.total); } TEST(ObserverListThreadSafeTest, WithoutMessageLoop) { scoped_refptr<ObserverListThreadSafe<Foo> > observer_list( new ObserverListThreadSafe<Foo>); Adder a(1), b(1), c(1); // No MessageLoop, so these should not be added. observer_list->AddObserver(&a); observer_list->AddObserver(&b); { // Add c when there's a loop. MessageLoop loop; observer_list->AddObserver(&c); observer_list->Notify(&Foo::Observe, 10); RunLoop().RunUntilIdle(); EXPECT_EQ(0, a.total); EXPECT_EQ(0, b.total); EXPECT_EQ(10, c.total); // Now add a when there's a loop. observer_list->AddObserver(&a); // Remove c when there's a loop. observer_list->RemoveObserver(&c); // Notify again. observer_list->Notify(&Foo::Observe, 20); RunLoop().RunUntilIdle(); EXPECT_EQ(20, a.total); EXPECT_EQ(0, b.total); EXPECT_EQ(10, c.total); } // Removing should always succeed with or without a loop. observer_list->RemoveObserver(&a); // Notifying should not fail but should also be a no-op. MessageLoop loop; observer_list->AddObserver(&b); observer_list->Notify(&Foo::Observe, 30); RunLoop().RunUntilIdle(); EXPECT_EQ(20, a.total); EXPECT_EQ(30, b.total); EXPECT_EQ(10, c.total); } class FooRemover : public Foo { public: explicit FooRemover(ObserverListThreadSafe<Foo>* list) : list_(list) {} virtual ~FooRemover() {} void AddFooToRemove(Foo* foo) { foos_.push_back(foo); } virtual void Observe(int x) OVERRIDE { std::vector<Foo*> tmp; tmp.swap(foos_); for (std::vector<Foo*>::iterator it = tmp.begin(); it != tmp.end(); ++it) { list_->RemoveObserver(*it); } } private: const scoped_refptr<ObserverListThreadSafe<Foo> > list_; std::vector<Foo*> foos_; }; TEST(ObserverListThreadSafeTest, RemoveMultipleObservers) { MessageLoop loop; scoped_refptr<ObserverListThreadSafe<Foo> > observer_list( new ObserverListThreadSafe<Foo>); FooRemover a(observer_list.get()); Adder b(1); observer_list->AddObserver(&a); observer_list->AddObserver(&b); a.AddFooToRemove(&a); a.AddFooToRemove(&b); observer_list->Notify(&Foo::Observe, 1); RunLoop().RunUntilIdle(); } // A test driver for a multi-threaded notification loop. Runs a number // of observer threads, each of which constantly adds/removes itself // from the observer list. Optionally, if cross_thread_notifies is set // to true, the observer threads will also trigger notifications to // all observers. static void ThreadSafeObserverHarness(int num_threads, bool cross_thread_notifies) { MessageLoop loop; const int kMaxThreads = 15; num_threads = num_threads > kMaxThreads ? kMaxThreads : num_threads; scoped_refptr<ObserverListThreadSafe<Foo> > observer_list( new ObserverListThreadSafe<Foo>); Adder a(1); Adder b(-1); Adder c(1); Adder d(-1); observer_list->AddObserver(&a); observer_list->AddObserver(&b); AddRemoveThread* threaded_observer[kMaxThreads]; base::PlatformThreadHandle threads[kMaxThreads]; for (int index = 0; index < num_threads; index++) { threaded_observer[index] = new AddRemoveThread(observer_list.get(), false); EXPECT_TRUE(PlatformThread::Create(0, threaded_observer[index], &threads[index])); } Time start = Time::Now(); while (true) { if ((Time::Now() - start).InMilliseconds() > kThreadRunTime) break; observer_list->Notify(&Foo::Observe, 10); RunLoop().RunUntilIdle(); } for (int index = 0; index < num_threads; index++) { threaded_observer[index]->Quit(); PlatformThread::Join(threads[index]); } } TEST(ObserverListThreadSafeTest, CrossThreadObserver) { // Use 7 observer threads. Notifications only come from // the main thread. ThreadSafeObserverHarness(7, false); } TEST(ObserverListThreadSafeTest, CrossThreadNotifications) { // Use 3 observer threads. Notifications will fire from // the main thread and all 3 observer threads. ThreadSafeObserverHarness(3, true); } TEST(ObserverListThreadSafeTest, OutlivesMessageLoop) { MessageLoop* loop = new MessageLoop; scoped_refptr<ObserverListThreadSafe<Foo> > observer_list( new ObserverListThreadSafe<Foo>); Adder a(1); observer_list->AddObserver(&a); delete loop; // Test passes if we don't crash here. observer_list->Notify(&Foo::Observe, 1); } TEST(ObserverListTest, Existing) { ObserverList<Foo> observer_list(ObserverList<Foo>::NOTIFY_EXISTING_ONLY); Adder a(1); AddInObserve<ObserverList<Foo> > b(&observer_list); observer_list.AddObserver(&a); observer_list.AddObserver(&b); FOR_EACH_OBSERVER(Foo, observer_list, Observe(1)); EXPECT_TRUE(b.added); // B's adder should not have been notified because it was added during // notification. EXPECT_EQ(0, b.adder.total); // Notify again to make sure b's adder is notified. FOR_EACH_OBSERVER(Foo, observer_list, Observe(1)); EXPECT_EQ(1, b.adder.total); } // Same as above, but for ObserverListThreadSafe TEST(ObserverListThreadSafeTest, Existing) { MessageLoop loop; scoped_refptr<ObserverListThreadSafe<Foo> > observer_list( new ObserverListThreadSafe<Foo>(ObserverList<Foo>::NOTIFY_EXISTING_ONLY)); Adder a(1); AddInObserve<ObserverListThreadSafe<Foo> > b(observer_list.get()); observer_list->AddObserver(&a); observer_list->AddObserver(&b); observer_list->Notify(&Foo::Observe, 1); RunLoop().RunUntilIdle(); EXPECT_TRUE(b.added); // B's adder should not have been notified because it was added during // notification. EXPECT_EQ(0, b.adder.total); // Notify again to make sure b's adder is notified. observer_list->Notify(&Foo::Observe, 1); RunLoop().RunUntilIdle(); EXPECT_EQ(1, b.adder.total); } class AddInClearObserve : public Foo { public: explicit AddInClearObserve(ObserverList<Foo>* list) : list_(list), added_(false), adder_(1) {} virtual void Observe(int /* x */) OVERRIDE { list_->Clear(); list_->AddObserver(&adder_); added_ = true; } bool added() const { return added_; } const Adder& adder() const { return adder_; } private: ObserverList<Foo>* const list_; bool added_; Adder adder_; }; TEST(ObserverListTest, ClearNotifyAll) { ObserverList<Foo> observer_list; AddInClearObserve a(&observer_list); observer_list.AddObserver(&a); FOR_EACH_OBSERVER(Foo, observer_list, Observe(1)); EXPECT_TRUE(a.added()); EXPECT_EQ(1, a.adder().total) << "Adder should observe once and have sum of 1."; } TEST(ObserverListTest, ClearNotifyExistingOnly) { ObserverList<Foo> observer_list(ObserverList<Foo>::NOTIFY_EXISTING_ONLY); AddInClearObserve a(&observer_list); observer_list.AddObserver(&a); FOR_EACH_OBSERVER(Foo, observer_list, Observe(1)); EXPECT_TRUE(a.added()); EXPECT_EQ(0, a.adder().total) << "Adder should not observe, so sum should still be 0."; } class ListDestructor : public Foo { public: explicit ListDestructor(ObserverList<Foo>* list) : list_(list) {} virtual ~ListDestructor() {} virtual void Observe(int x) OVERRIDE { delete list_; } private: ObserverList<Foo>* list_; }; TEST(ObserverListTest, IteratorOutlivesList) { ObserverList<Foo>* observer_list = new ObserverList<Foo>; ListDestructor a(observer_list); observer_list->AddObserver(&a); FOR_EACH_OBSERVER(Foo, *observer_list, Observe(0)); // If this test fails, there'll be Valgrind errors when this function goes out // of scope. } } // namespace } // namespace base