/** * (C) 2016 - 2021 KISTLER INSTRUMENTE AG, Winterthur, Switzerland * (C) 2016 - 2026 Stanislav Angelovic * * @file AdaptorAndProxy_test.cpp * * Created on: Jan 2, 2017 * Project: sdbus-c++ * Description: High-level D-Bus IPC C++ library based on sd-bus * * This file is part of sdbus-c++. * * sdbus-c++ is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation, either version 2.1 of the License, or * (at your option) any later version. * * sdbus-c++ is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with sdbus-c++. If not, see . */ #include "TestFixture.h" #include "TestAdaptor.h" #include "TestProxy.h" #include "Defs.h" #include #include #include #include #include #include using ::testing::Eq; using ::testing::DoubleEq; using ::testing::NotNull; using namespace std::chrono_literals; using namespace sdbus::test; /*-------------------------------------*/ /* -- TEST CASES -- */ /*-------------------------------------*/ TYPED_TEST(SdbusTestObject, EmitsSimpleSignalSuccessfully) { this->m_adaptor->emitSimpleSignal(); ASSERT_TRUE(waitUntil(this->m_proxy->m_gotSimpleSignal)); } TYPED_TEST(SdbusTestObject, EmitsSimpleSignalToMultipleProxiesSuccessfully) { auto proxy1 = std::make_unique(*this->s_adaptorConnection, SERVICE_NAME, OBJECT_PATH); auto proxy2 = std::make_unique(*this->s_adaptorConnection, SERVICE_NAME, OBJECT_PATH); this->m_adaptor->emitSimpleSignal(); ASSERT_TRUE(waitUntil(this->m_proxy->m_gotSimpleSignal)); ASSERT_TRUE(waitUntil(proxy1->m_gotSimpleSignal)); ASSERT_TRUE(waitUntil(proxy2->m_gotSimpleSignal)); } TYPED_TEST(SdbusTestObject, ProxyDoesNotReceiveSignalFromOtherBusName) { sdbus::ServiceName const otherBusName{SERVICE_NAME + "2"}; auto connection2 = sdbus::createBusConnection(otherBusName); auto adaptor2 = std::make_unique(*connection2, OBJECT_PATH); adaptor2->emitSimpleSignal(); ASSERT_FALSE(waitUntil(this->m_proxy->m_gotSimpleSignal, 1s)); } TYPED_TEST(SdbusTestObject, EmitsSignalWithMapSuccessfully) { this->m_adaptor->emitSignalWithMap({{0, "zero"}, {1, "one"}}); ASSERT_TRUE(waitUntil(this->m_proxy->m_gotSignalWithMap)); ASSERT_THAT(this->m_proxy->m_mapFromSignal[0], Eq("zero")); ASSERT_THAT(this->m_proxy->m_mapFromSignal[1], Eq("one")); } TYPED_TEST(SdbusTestObject, EmitsSignalWithLargeMapSuccessfully) { std::map largeMap; for (int32_t i = 0; i < 20'000; ++i) largeMap.emplace(i, "This is string nr. " + std::to_string(i+1)); this->m_adaptor->emitSignalWithMap(largeMap); ASSERT_TRUE(waitUntil(this->m_proxy->m_gotSignalWithMap)); ASSERT_THAT(this->m_proxy->m_mapFromSignal[0], Eq("This is string nr. 1")); ASSERT_THAT(this->m_proxy->m_mapFromSignal[1], Eq("This is string nr. 2")); } TYPED_TEST(SdbusTestObject, EmitsSignalWithVariantSuccessfully) { double const val = 3.14; this->m_adaptor->emitSignalWithVariant(sdbus::Variant{val}); ASSERT_TRUE(waitUntil(this->m_proxy->m_gotSignalWithVariant)); ASSERT_THAT(this->m_proxy->m_variantFromSignal, DoubleEq(val)); } TYPED_TEST(SdbusTestObject, EmitsSignalWithoutRegistrationSuccessfully) { this->m_adaptor->emitSignalWithoutRegistration({"platform", sdbus::Signature{"av"}}); ASSERT_TRUE(waitUntil(this->m_proxy->m_gotSignalWithSignature)); ASSERT_THAT(this->m_proxy->m_signatureFromSignal["platform"], Eq(sdbus::Signature{"av"})); } TYPED_TEST(SdbusTestObject, CanAccessAssociatedSignalMessageInSignalHandler) { this->m_adaptor->emitSimpleSignal(); waitUntil(this->m_proxy->m_gotSimpleSignal); ASSERT_THAT(this->m_proxy->m_signalMsg, NotNull()); ASSERT_THAT(this->m_proxy->m_signalName, Eq(std::string("simpleSignal"))); } TYPED_TEST(SdbusTestObject, UnregistersSignalHandler) { ASSERT_NO_THROW(this->m_proxy->unregisterSimpleSignalHandler()); this->m_adaptor->emitSimpleSignal(); ASSERT_FALSE(waitUntil(this->m_proxy->m_gotSimpleSignal, 1s)); } TYPED_TEST(SdbusTestObject, UnregistersSignalHandlerForSomeProxies) { auto proxy1 = std::make_unique(*this->s_adaptorConnection, SERVICE_NAME, OBJECT_PATH); auto proxy2 = std::make_unique(*this->s_adaptorConnection, SERVICE_NAME, OBJECT_PATH); ASSERT_NO_THROW(this->m_proxy->unregisterSimpleSignalHandler()); this->m_adaptor->emitSimpleSignal(); ASSERT_TRUE(waitUntil(proxy1->m_gotSimpleSignal)); ASSERT_TRUE(waitUntil(proxy2->m_gotSimpleSignal)); ASSERT_FALSE(waitUntil(this->m_proxy->m_gotSimpleSignal, 1s)); } TYPED_TEST(SdbusTestObject, ReRegistersSignalHandler) { // unregister simple-signal handler ASSERT_NO_THROW(this->m_proxy->unregisterSimpleSignalHandler()); this->m_adaptor->emitSimpleSignal(); ASSERT_FALSE(waitUntil(this->m_proxy->m_gotSimpleSignal, 1s)); // re-register simple-signal handler ASSERT_NO_THROW(this->m_proxy->reRegisterSimpleSignalHandler()); this->m_adaptor->emitSimpleSignal(); ASSERT_TRUE(waitUntil(this->m_proxy->m_gotSimpleSignal)); }