#ifndef MONITORBASE_H_ #define MONITORBASE_H_ #include "../datapoolglob/GlobalDataSet.h" #include "../datapoolglob/PIDReader.h" #include "../monitoring/LimitViolationReporter.h" #include "../monitoring/MonitoringIF.h" #include "../monitoring/MonitoringMessageContent.h" #include "../monitoring/MonitorReporter.h" /** * Base class for monitoring of parameters. * Can be used anywhere, specializations need to implement checkSample and should override sendTransitionEvent. * Manages state handling, enabling and disabling of events/reports and forwarding of transition * reports via MonitorReporter. In addition, it provides default implementations for fetching the parameter sample from * the data pool and a simple confirmation counter. */ template class MonitorBase: public MonitorReporter { public: MonitorBase(object_id_t reporterId, uint8_t monitorId, uint32_t parameterId, uint16_t confirmationLimit) : MonitorReporter(reporterId, monitorId, parameterId, confirmationLimit) { } virtual ~MonitorBase() { } virtual ReturnValue_t check() { //1. Fetch sample of type T, return validity. T sample = 0; ReturnValue_t validity = fetchSample(&sample); //2. If returning from fetch != OK, parameter is invalid. Report (if oldState is != invalidity). if (validity != HasReturnvaluesIF::RETURN_OK) { this->monitorStateIs(validity, sample, 0); //3. Otherwise, check sample. } else { this->oldState = doCheck(sample); } return this->oldState; } virtual ReturnValue_t doCheck(T sample) { T crossedLimit = 0.0; ReturnValue_t currentState = checkSample(sample, &crossedLimit); return this->monitorStateIs(currentState,sample, crossedLimit); } //Abstract or default. virtual ReturnValue_t checkSample(T sample, T* crossedLimit) = 0; protected: virtual ReturnValue_t fetchSample(T* sample) { GlobDataSet mySet; PIDReader parameter(this->parameterId, &mySet); mySet.read(); if (!parameter.isValid()) { return MonitoringIF::INVALID; } *sample = parameter.value; return HasReturnvaluesIF::RETURN_OK; } }; #endif /* MONITORBASE_H_ */