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gerrit.openbmc.org / openbmc / telemetry / c7935fa17008a5822567c7b702289bb10fe223a3 / . / src / metric.cpp
blob: 2504dbf49f67ce38fa9b116103e0b3fffaf14e55 [file] [log] [blame]
#include "metric.hpp"
#include "metrics/collection_data.hpp"
#include "types/report_types.hpp"
#include "types/sensor_types.hpp"
#include "utils/labeled_tuple.hpp"
#include "utils/transform.hpp"
#include <sdbusplus/exception.hpp>
#include <algorithm>
Metric::Metric(Sensors sensorsIn, OperationType operationTypeIn,
CollectionTimeScope timeScopeIn,
CollectionDuration collectionDurationIn,
std::unique_ptr<interfaces::Clock> clockIn) :
sensors(std::move(sensorsIn)),
operationType(operationTypeIn), collectionTimeScope(timeScopeIn),
collectionDuration(collectionDurationIn),
collectionAlgorithms(
metrics::makeCollectionData(sensors.size(), operationType,
collectionTimeScope, collectionDuration)),
clock(std::move(clockIn))
{}
void Metric::registerForUpdates(interfaces::MetricListener& listener)
{
listeners.emplace_back(listener);
}
void Metric::unregisterFromUpdates(interfaces::MetricListener& listener)
{
listeners.erase(
std::remove_if(listeners.begin(), listeners.end(),
[&listener](const interfaces::MetricListener& item) {
return &item == &listener;
}),
listeners.end());
}
void Metric::initialize()
{
for (const auto& sensor : sensors)
{
sensor->registerForUpdates(weak_from_this());
}
}
void Metric::deinitialize()
{
for (const auto& sensor : sensors)
{
sensor->unregisterFromUpdates(weak_from_this());
}
}
const std::vector<MetricValue>& Metric::getUpdatedReadings()
{
const auto steadyTimestamp = clock->steadyTimestamp();
const auto systemTimestamp =
std::chrono::duration_cast<Milliseconds>(clock->systemTimestamp())
.count();
for (size_t i = 0; i < collectionAlgorithms.size(); ++i)
{
if (const auto value = collectionAlgorithms[i]->update(steadyTimestamp))
{
if (i < readings.size())
{
readings[i].timestamp = systemTimestamp;
readings[i].value = *value;
}
else
{
if (i > readings.size())
{
const auto idx = readings.size();
std::swap(collectionAlgorithms[i],
collectionAlgorithms[idx]);
std::swap(sensors[i], sensors[idx]);
i = idx;
}
readings.emplace_back(sensors[i]->metadata(), *value,
systemTimestamp);
}
}
}
return readings;
}
void Metric::sensorUpdated(interfaces::Sensor& notifier, Milliseconds timestamp,
double value)
{
auto& data = findAssociatedData(notifier);
double newValue = data.update(timestamp, value);
if (data.updateLastValue(newValue))
{
for (interfaces::MetricListener& listener : listeners)
{
listener.metricUpdated();
}
}
}
metrics::CollectionData&
Metric::findAssociatedData(const interfaces::Sensor& notifier)
{
auto it = std::find_if(
sensors.begin(), sensors.end(),
[&notifier](const auto& sensor) { return sensor.get() == &notifier; });
auto index = std::distance(sensors.begin(), it);
return *collectionAlgorithms.at(index);
}
LabeledMetricParameters Metric::dumpConfiguration() const
{
auto sensorPath = utils::transform(sensors, [this](const auto& sensor) {
return LabeledSensorInfo(sensor->id().service, sensor->id().path,
sensor->metadata());
});
return LabeledMetricParameters(std::move(sensorPath), operationType,
collectionTimeScope, collectionDuration);
}
uint64_t Metric::metricCount() const
{
return sensors.size();
}
void Metric::updateReadings(Milliseconds timestamp)
{
for (auto& data : collectionAlgorithms)
{
if (std::optional<double> newValue = data->update(timestamp))
{
if (data->updateLastValue(*newValue))
{
for (interfaces::MetricListener& listener : listeners)
{
listener.metricUpdated();
}
return;
}
}
}
}
bool Metric::isTimerRequired() const
{
if (collectionTimeScope == CollectionTimeScope::point)
{
return false;
}
if (collectionTimeScope == CollectionTimeScope::startup &&
(operationType == OperationType::min ||
operationType == OperationType::max))
{
return false;
}
return true;
}