/** * 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 "pmbus_utils.hpp" #include #include using namespace phosphor::power::regulators; TEST(PMBusUtilsTests, ParseVoutMode) { uint8_t voutModeValue; pmbus_utils::VoutDataFormat format; int8_t parameter; // Linear format: Exponent is negative: 0b1'1111 voutModeValue = 0b0001'1111u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::linear); EXPECT_EQ(parameter, -1); // Linear format: Exponent is negative: 0b1'0000 voutModeValue = 0b1001'0000u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::linear); EXPECT_EQ(parameter, -16); // Linear format: Exponent is positive: 0b0'1111 voutModeValue = 0b1000'1111u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::linear); EXPECT_EQ(parameter, 15); // Linear format: Exponent is positive: 0b0'0001 voutModeValue = 0b0000'0001u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::linear); EXPECT_EQ(parameter, 1); // Linear format: Exponent is zero: 0b0'0000 voutModeValue = 0b0000'0000u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::linear); EXPECT_EQ(parameter, 0); // VID format: VID code is 0b1'1111 voutModeValue = 0b0011'1111u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::vid); EXPECT_EQ(parameter, 31); // VID format: VID code is 0b1'0000 voutModeValue = 0b1011'0000u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::vid); EXPECT_EQ(parameter, 16); // VID format: VID code is 0b0'1111 voutModeValue = 0b1010'1111u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::vid); EXPECT_EQ(parameter, 15); // VID format: VID code is 0b0'0001 voutModeValue = 0b0010'0001u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::vid); EXPECT_EQ(parameter, 1); // VID format: VID code is 0b0'0000 voutModeValue = 0b1010'0000u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::vid); EXPECT_EQ(parameter, 0); // Direct format voutModeValue = 0b1100'0000u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::direct); EXPECT_EQ(parameter, 0); // IEEE format voutModeValue = 0b0110'0000u; pmbus_utils::parseVoutMode(voutModeValue, format, parameter); EXPECT_EQ(format, pmbus_utils::VoutDataFormat::ieee); EXPECT_EQ(parameter, 0); } TEST(PMBusUtilsTests, ToString) { // Sensor data format: SensorDataFormat::linear_11 { pmbus_utils::SensorDataFormat format = pmbus_utils::SensorDataFormat::linear_11; EXPECT_EQ(pmbus_utils::toString(format), "linear_11"); } // Sensor data format: SensorDataFormat::linear_16 { pmbus_utils::SensorDataFormat format = pmbus_utils::SensorDataFormat::linear_16; EXPECT_EQ(pmbus_utils::toString(format), "linear_16"); } // Sensor value type: SensorValueType::iout { pmbus_utils::SensorValueType type = pmbus_utils::SensorValueType::iout; EXPECT_EQ(pmbus_utils::toString(type), "iout"); } // Sensor value type: SensorValueType::iout_peak { pmbus_utils::SensorValueType type = pmbus_utils::SensorValueType::iout_peak; EXPECT_EQ(pmbus_utils::toString(type), "iout_peak"); } // Sensor value type: SensorValueType::iout_valley { pmbus_utils::SensorValueType type = pmbus_utils::SensorValueType::iout_valley; EXPECT_EQ(pmbus_utils::toString(type), "iout_valley"); } // Sensor value type: SensorValueType::pout { pmbus_utils::SensorValueType type = pmbus_utils::SensorValueType::pout; EXPECT_EQ(pmbus_utils::toString(type), "pout"); } // Sensor value type: SensorValueType::temperature { pmbus_utils::SensorValueType type = pmbus_utils::SensorValueType::temperature; EXPECT_EQ(pmbus_utils::toString(type), "temperature"); } // Sensor value type: SensorValueType::temperature_peak { pmbus_utils::SensorValueType type = pmbus_utils::SensorValueType::temperature_peak; EXPECT_EQ(pmbus_utils::toString(type), "temperature_peak"); } // Sensor value type: SensorValueType::vout { pmbus_utils::SensorValueType type = pmbus_utils::SensorValueType::vout; EXPECT_EQ(pmbus_utils::toString(type), "vout"); } // Sensor value type: SensorValueType::vout_peak { pmbus_utils::SensorValueType type = pmbus_utils::SensorValueType::vout_peak; EXPECT_EQ(pmbus_utils::toString(type), "vout_peak"); } // Sensor value type: SensorValueType::vout_valley { pmbus_utils::SensorValueType type = pmbus_utils::SensorValueType::vout_valley; EXPECT_EQ(pmbus_utils::toString(type), "vout_valley"); } // Vout data format: VoutDataFormat::linear { pmbus_utils::VoutDataFormat format = pmbus_utils::VoutDataFormat::linear; EXPECT_EQ(pmbus_utils::toString(format), "linear"); } // Vout data format: VoutDataFormat::vid { pmbus_utils::VoutDataFormat format = pmbus_utils::VoutDataFormat::vid; EXPECT_EQ(pmbus_utils::toString(format), "vid"); } // Vout data format: VoutDataFormat::direct { pmbus_utils::VoutDataFormat format = pmbus_utils::VoutDataFormat::direct; EXPECT_EQ(pmbus_utils::toString(format), "direct"); } // Vout data format: VoutDataFormat::ieee { pmbus_utils::VoutDataFormat format = pmbus_utils::VoutDataFormat::ieee; EXPECT_EQ(pmbus_utils::toString(format), "ieee"); } } TEST(PMBusUtilsTests, ConvertToVoutLinear) { double volts; int8_t exponent; // Exponent > 0: Value is not rounded up volts = 13.9; exponent = 2; // 13.9 / 2^2 == 3.475 = 3 EXPECT_EQ(pmbus_utils::convertToVoutLinear(volts, exponent), 3); // Exponent > 0: Value is rounded up volts = 14.0; exponent = 2; // 14.0 / 2^2 == 3.5 = 4 EXPECT_EQ(pmbus_utils::convertToVoutLinear(volts, exponent), 4); // Exponent = 0: Value is not rounded up volts = 2.49; exponent = 0; // 2.49 / 2^0 == 2.49 = 2 EXPECT_EQ(pmbus_utils::convertToVoutLinear(volts, exponent), 2); // Exponent = 0: Value is rounded up volts = 2.51; exponent = 0; // 2.51 / 2^0 == 2.51 = 3 EXPECT_EQ(pmbus_utils::convertToVoutLinear(volts, exponent), 3); // Exponent < 0: Value is not rounded up volts = 1.32613; exponent = -8; // 1.32613 / 2^-8 == 339.48928 == 339 EXPECT_EQ(pmbus_utils::convertToVoutLinear(volts, exponent), 339); // Exponent < 0: Value is rounded up volts = 1.32618; exponent = -8; // 1.32618 / 2^-8 == 339.50208 == 340 EXPECT_EQ(pmbus_utils::convertToVoutLinear(volts, exponent), 340); }