/** * Copyright © 2021 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 "dbus_sensors.hpp" #include namespace phosphor::power::regulators { void DBusSensors::enable() { // Currently nothing to do here. The next monitoring cycle will set the // values of all sensors, and that will set them to the enabled state. } void DBusSensors::endCycle() { // Delete any sensors that were not updated during this monitoring cycle. // This can happen if the hardware device producing the sensors was removed // or replaced with a different version. auto it = sensors.begin(); while (it != sensors.end()) { // Increment iterator before potentially deleting the sensor. // map::erase() invalidates iterators/references to the erased element. auto& [sensorName, sensor] = *it; ++it; // Check if last update time for sensor is before cycle start time if (sensor->getLastUpdateTime() < cycleStartTime) { sensors.erase(sensorName); } } } void DBusSensors::endRail(bool errorOccurred) { // If an error occurred, set all sensors for current rail to the error state if (errorOccurred) { for (auto& [sensorName, sensor] : sensors) { if (sensor->getRail() == rail) { sensor->setToErrorState(); } } } // Clear current rail information rail.clear(); deviceInventoryPath.clear(); chassisInventoryPath.clear(); } void DBusSensors::disable() { // Disable all sensors for (auto& [sensorName, sensor] : sensors) { sensor->disable(); } } void DBusSensors::setValue(SensorType type, double value) { // Build unique sensor name based on rail and sensor type std::string sensorName{rail + '_' + sensors::toString(type)}; // Check to see if the sensor already exists auto it = sensors.find(sensorName); if (it != sensors.end()) { // Sensor exists; update value it->second->setValue(value); } else { // Sensor doesn't exist; create it and add it to the map auto sensor = std::make_unique( bus, sensorName, type, value, rail, deviceInventoryPath, chassisInventoryPath); sensors.emplace(sensorName, std::move(sensor)); } } void DBusSensors::startCycle() { // Store the time when this monitoring cycle started. This is used to // detect sensors that were not updated during this cycle. cycleStartTime = std::chrono::system_clock::now(); } void DBusSensors::startRail(const std::string& rail, const std::string& deviceInventoryPath, const std::string& chassisInventoryPath) { // Store current rail information; used later by setValue() and endRail() this->rail = rail; this->deviceInventoryPath = deviceInventoryPath; this->chassisInventoryPath = chassisInventoryPath; } } // namespace phosphor::power::regulators