/** * Copyright © 2020 IBM Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "chassis.hpp" #include "device.hpp" #include "id_map.hpp" #include "mock_journal.hpp" #include "mock_services.hpp" #include "mocked_i2c_interface.hpp" #include "pmbus_read_sensor_action.hpp" #include "rail.hpp" #include "rule.hpp" #include "services.hpp" #include "system.hpp" #include "test_utils.hpp" #include #include #include #include #include #include #include using namespace phosphor::power::regulators; using namespace phosphor::power::regulators::test_utils; using ::testing::A; using ::testing::Return; using ::testing::TypedEq; TEST(SystemTests, Constructor) { // Create Rules std::vector> rules{}; rules.emplace_back(createRule("set_voltage_rule")); // Create Chassis std::vector> chassis{}; std::vector> devices{}; devices.emplace_back(createDevice("reg1", {"rail1"})); chassis.emplace_back(std::make_unique(1, std::move(devices))); // Create System System system{std::move(rules), std::move(chassis)}; EXPECT_EQ(system.getChassis().size(), 1); EXPECT_EQ(system.getChassis()[0]->getNumber(), 1); EXPECT_NO_THROW(system.getIDMap().getRule("set_voltage_rule")); EXPECT_NO_THROW(system.getIDMap().getDevice("reg1")); EXPECT_NO_THROW(system.getIDMap().getRail("rail1")); EXPECT_THROW(system.getIDMap().getRail("rail2"), std::invalid_argument); EXPECT_EQ(system.getRules().size(), 1); EXPECT_EQ(system.getRules()[0]->getID(), "set_voltage_rule"); } TEST(SystemTests, CloseDevices) { // Specify an empty rules vector std::vector> rules{}; // Create Chassis std::vector> chassis{}; chassis.emplace_back(std::make_unique(1)); chassis.emplace_back(std::make_unique(3)); // Create System System system{std::move(rules), std::move(chassis)}; // Call closeDevices() journal::clear(); system.closeDevices(); EXPECT_EQ(journal::getErrMessages().size(), 0); EXPECT_EQ(journal::getInfoMessages().size(), 0); std::vector expectedDebugMessages{ "Closing devices in chassis 1", "Closing devices in chassis 3"}; EXPECT_EQ(journal::getDebugMessages(), expectedDebugMessages); } TEST(SystemTests, Configure) { // Create mock services. Expect logInfo() to be called. MockServices services{}; MockJournal& journal = services.getMockJournal(); EXPECT_CALL(journal, logInfo("Configuring chassis 1")).Times(1); EXPECT_CALL(journal, logInfo("Configuring chassis 3")).Times(1); EXPECT_CALL(journal, logDebug(A())).Times(0); EXPECT_CALL(journal, logError(A())).Times(0); // Specify an empty rules vector std::vector> rules{}; // Create Chassis std::vector> chassis{}; chassis.emplace_back(std::make_unique(1)); chassis.emplace_back(std::make_unique(3)); // Create System System system{std::move(rules), std::move(chassis)}; // Call configure() system.configure(services); } TEST(SystemTests, GetChassis) { // Specify an empty rules vector std::vector> rules{}; // Create Chassis std::vector> chassis{}; chassis.emplace_back(std::make_unique(1)); chassis.emplace_back(std::make_unique(3)); // Create System System system{std::move(rules), std::move(chassis)}; EXPECT_EQ(system.getChassis().size(), 2); EXPECT_EQ(system.getChassis()[0]->getNumber(), 1); EXPECT_EQ(system.getChassis()[1]->getNumber(), 3); } TEST(SystemTests, GetIDMap) { // Create Rules std::vector> rules{}; rules.emplace_back(createRule("set_voltage_rule")); rules.emplace_back(createRule("read_sensors_rule")); // Create Chassis std::vector> chassis{}; { // Chassis 1 std::vector> devices{}; devices.emplace_back(createDevice("reg1", {"rail1"})); devices.emplace_back(createDevice("reg2", {"rail2a", "rail2b"})); chassis.emplace_back(std::make_unique(1, std::move(devices))); } { // Chassis 2 std::vector> devices{}; devices.emplace_back(createDevice("reg3", {"rail3a", "rail3b"})); devices.emplace_back(createDevice("reg4")); chassis.emplace_back(std::make_unique(2, std::move(devices))); } // Create System System system{std::move(rules), std::move(chassis)}; const IDMap& idMap = system.getIDMap(); // Verify all Rules are in the IDMap EXPECT_NO_THROW(idMap.getRule("set_voltage_rule")); EXPECT_NO_THROW(idMap.getRule("read_sensors_rule")); EXPECT_THROW(idMap.getRule("set_voltage_rule2"), std::invalid_argument); // Verify all Devices are in the IDMap EXPECT_NO_THROW(idMap.getDevice("reg1")); EXPECT_NO_THROW(idMap.getDevice("reg2")); EXPECT_NO_THROW(idMap.getDevice("reg3")); EXPECT_NO_THROW(idMap.getDevice("reg4")); EXPECT_THROW(idMap.getDevice("reg5"), std::invalid_argument); // Verify all Rails are in the IDMap EXPECT_NO_THROW(idMap.getRail("rail1")); EXPECT_NO_THROW(idMap.getRail("rail2a")); EXPECT_NO_THROW(idMap.getRail("rail2b")); EXPECT_NO_THROW(idMap.getRail("rail3a")); EXPECT_NO_THROW(idMap.getRail("rail3b")); EXPECT_THROW(idMap.getRail("rail4"), std::invalid_argument); } TEST(SystemTests, GetRules) { // Create Rules std::vector> rules{}; rules.emplace_back(createRule("set_voltage_rule")); rules.emplace_back(createRule("read_sensors_rule")); // Create Chassis std::vector> chassis{}; chassis.emplace_back(std::make_unique(1)); // Create System System system{std::move(rules), std::move(chassis)}; EXPECT_EQ(system.getRules().size(), 2); EXPECT_EQ(system.getRules()[0]->getID(), "set_voltage_rule"); EXPECT_EQ(system.getRules()[1]->getID(), "read_sensors_rule"); } TEST(SystemTests, MonitorSensors) { // Create mock services. No logging should occur. MockServices services{}; MockJournal& journal = services.getMockJournal(); EXPECT_CALL(journal, logDebug(A())).Times(0); EXPECT_CALL(journal, logError(A())).Times(0); // Create PMBusReadSensorAction pmbus_utils::SensorValueType type{pmbus_utils::SensorValueType::iout}; uint8_t command = 0x8C; pmbus_utils::SensorDataFormat format{ pmbus_utils::SensorDataFormat::linear_11}; std::optional exponent{}; std::unique_ptr action = std::make_unique(type, command, format, exponent); // Create mock I2CInterface. A two-byte read should occur. std::unique_ptr i2cInterface = std::make_unique(); EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true)); EXPECT_CALL(*i2cInterface, read(TypedEq(0x8C), A())) .Times(1); // Create SensorMonitoring std::vector> actions{}; actions.emplace_back(std::move(action)); std::unique_ptr sensorMonitoring = std::make_unique(std::move(actions)); // Create Rail std::vector> rails{}; std::unique_ptr configuration{}; std::unique_ptr rail = std::make_unique( "vdd0", std::move(configuration), std::move(sensorMonitoring)); rails.emplace_back(std::move(rail)); // Create Device std::unique_ptr presenceDetection{}; std::unique_ptr deviceConfiguration{}; std::unique_ptr device = std::make_unique( "reg1", true, "/system/chassis/motherboard/reg1", std::move(i2cInterface), std::move(presenceDetection), std::move(deviceConfiguration), std::move(rails)); // Create Chassis std::vector> devices{}; devices.emplace_back(std::move(device)); std::unique_ptr chassis = std::make_unique(1, std::move(devices)); // Create System that contains Chassis std::vector> rules{}; std::vector> chassisVec{}; chassisVec.emplace_back(std::move(chassis)); System system{std::move(rules), std::move(chassisVec)}; // Call monitorSensors() system.monitorSensors(services); }