#include #include #include #include #include #include #include #include #include #include #include #include #include namespace sdeventplus { namespace source { namespace { using testing::DoAll; using testing::Return; using testing::ReturnPointee; using testing::SaveArg; using testing::SetArgPointee; using UniqueEvent = std::unique_ptr>; class SignalTest : public testing::Test { protected: testing::StrictMock mock; sd_event_source* const expected_source = reinterpret_cast(1234); sd_event* const expected_event = reinterpret_cast(2345); UniqueEvent event = make_event(expected_event); UniqueEvent make_event(sd_event* event) { auto deleter = [this, event](Event* e) { EXPECT_CALL(this->mock, sd_event_unref(event)) .WillOnce(Return(nullptr)); delete e; }; return UniqueEvent(new Event(event, std::false_type(), &mock), deleter); } void expect_destruct() { EXPECT_CALL(mock, sd_event_source_unref(expected_source)) .WillOnce(Return(nullptr)); EXPECT_CALL(mock, sd_event_unref(expected_event)) .WillOnce(Return(nullptr)); } }; TEST_F(SignalTest, ConstructSuccess) { const int sig = SIGALRM; EXPECT_CALL(mock, sd_event_ref(expected_event)) .WillOnce(Return(expected_event)); sd_event_signal_handler_t handler; EXPECT_CALL(mock, sd_event_add_signal(expected_event, testing::_, sig, testing::_, nullptr)) .WillOnce(DoAll(SetArgPointee<1>(expected_source), SaveArg<3>(&handler), Return(0))); sd_event_destroy_t destroy; void* userdata; { testing::InSequence seq; EXPECT_CALL(mock, sd_event_source_set_destroy_callback(expected_source, testing::_)) .WillOnce(DoAll(SaveArg<1>(&destroy), Return(0))); EXPECT_CALL(mock, sd_event_source_set_userdata(expected_source, testing::_)) .WillOnce(DoAll(SaveArg<1>(&userdata), Return(nullptr))); EXPECT_CALL(mock, sd_event_source_get_userdata(expected_source)) .WillRepeatedly(ReturnPointee(&userdata)); } int completions = 0; const struct signalfd_siginfo* return_si; Signal::Callback callback = [&](Signal&, const struct signalfd_siginfo* si) { return_si = si; completions++; }; Signal signal(*event, sig, std::move(callback)); EXPECT_FALSE(callback); EXPECT_NE(&signal, userdata); EXPECT_EQ(0, completions); const struct signalfd_siginfo* expected_si = reinterpret_cast(865); EXPECT_EQ(0, handler(nullptr, expected_si, userdata)); EXPECT_EQ(1, completions); EXPECT_EQ(expected_si, return_si); signal.set_callback(std::bind([]() {})); EXPECT_EQ(0, handler(nullptr, expected_si, userdata)); EXPECT_EQ(1, completions); expect_destruct(); destroy(userdata); } TEST_F(SignalTest, ConstructError) { const int sig = SIGALRM; EXPECT_CALL(mock, sd_event_add_signal(expected_event, testing::_, sig, testing::_, nullptr)) .WillOnce(Return(-EINVAL)); int completions = 0; Signal::Callback callback = [&completions](Signal&, const struct signalfd_siginfo*) { completions++; }; EXPECT_THROW(Signal(*event, sig, std::move(callback)), SdEventError); EXPECT_TRUE(callback); EXPECT_EQ(0, completions); } class SignalMethodTest : public SignalTest { protected: std::unique_ptr signal; sd_event_destroy_t destroy; void* userdata; void SetUp() { const int sig = SIGINT; EXPECT_CALL(mock, sd_event_ref(expected_event)) .WillOnce(Return(expected_event)); EXPECT_CALL(mock, sd_event_add_signal(expected_event, testing::_, sig, testing::_, nullptr)) .WillOnce(DoAll(SetArgPointee<1>(expected_source), Return(0))); { testing::InSequence seq; EXPECT_CALL(mock, sd_event_source_set_destroy_callback( expected_source, testing::_)) .WillOnce(DoAll(SaveArg<1>(&destroy), Return(0))); EXPECT_CALL( mock, sd_event_source_set_userdata(expected_source, testing::_)) .WillOnce(DoAll(SaveArg<1>(&userdata), Return(nullptr))); EXPECT_CALL(mock, sd_event_source_get_userdata(expected_source)) .WillRepeatedly(ReturnPointee(&userdata)); } signal = std::make_unique( *event, sig, [](Signal&, const struct signalfd_siginfo*) {}); } void TearDown() { expect_destruct(); signal.reset(); destroy(userdata); } }; TEST_F(SignalMethodTest, Copy) { EXPECT_CALL(mock, sd_event_ref(expected_event)) .WillOnce(Return(expected_event)); EXPECT_CALL(mock, sd_event_source_ref(expected_source)) .WillOnce(Return(expected_source)); auto signal2 = std::make_unique(*signal); { EXPECT_CALL(mock, sd_event_ref(expected_event)) .WillOnce(Return(expected_event)); EXPECT_CALL(mock, sd_event_source_ref(expected_source)) .WillOnce(Return(expected_source)); Signal signal3(*signal); expect_destruct(); EXPECT_CALL(mock, sd_event_ref(expected_event)) .WillOnce(Return(expected_event)); EXPECT_CALL(mock, sd_event_source_ref(expected_source)) .WillOnce(Return(expected_source)); *signal2 = signal3; expect_destruct(); } // Delete the original signal signal2.swap(signal); expect_destruct(); signal2.reset(); // Make sure our new copy can still access data signal->set_callback(nullptr); } TEST_F(SignalMethodTest, GetSignalSuccess) { const int sig = SIGTERM; EXPECT_CALL(mock, sd_event_source_get_signal(expected_source)) .WillOnce(Return(sig)); EXPECT_EQ(sig, signal->get_signal()); } TEST_F(SignalMethodTest, GetSignalError) { EXPECT_CALL(mock, sd_event_source_get_signal(expected_source)) .WillOnce(Return(-EINVAL)); EXPECT_THROW(signal->get_signal(), SdEventError); } } // namespace } // namespace source } // namespace sdeventplus