protos/dmi/hw_metrics_mgmt_service.proto - device-management-interface - Gitiles

 syntax = "proto3";

 option go_package = "github.com/opencord/device-management-interface/v3/go/dmi";
 package dmi;

 import "dmi/commons.proto";
 import "dmi/hw.proto";

 // The model used to represent the event data on the SensorData of a component as described
 // in RFC8348 (https://tools.ietf.org/html/rfc8348)

 // Management of Metrics and protos for encoding of Metrics

 enum MetricNames {
     METRIC_NAME_UNDEFINED = 0;

     // FAN related metrics
     METRIC_FAN_SPEED = 1;

     // CPU related metrics
     METRIC_CPU_TEMP = 100;
     METRIC_CPU_USAGE_PERCENTAGE = 101;

     // Transceiver related metrics
     METRIC_TRANSCEIVER_TEMP = 200;
     METRIC_TRANSCEIVER_VOLTAGE = 201;
     METRIC_TRANSCEIVER_BIAS = 202;
     METRIC_TRANSCEIVER_RX_POWER = 203;
     METRIC_TRANSCEIVER_TX_POWER = 204;
     METRIC_TRANSCEIVER_WAVELENGTH = 205;

     // Disk related metrics
     METRIC_DISK_TEMP = 300;
     METRIC_DISK_CAPACITY = 301;
     METRIC_DISK_USAGE = 302;
     METRIC_DISK_USAGE_PERCENTAGE = 303;
     METRIC_DISK_READ_WRITE_PERCENTAGE = 304;
     METRIC_DISK_FAULTY_CELLS_PERCENTAGE = 305;

     // RAM related metrics
     METRIC_RAM_TEMP = 400;
     METRIC_RAM_CAPACITY = 401;
     METRIC_RAM_USAGE = 402;
     METRIC_RAM_USAGE_PERCENTAGE = 403;

     // Power related metrics
     METRIC_POWER_MAX = 500;
     METRIC_POWER_USAGE = 501;
     METRIC_POWER_USAGE_PERCENTAGE = 502;

     // Chassis related metrics
     METRIC_INNER_SURROUNDING_TEMP = 600;
 }

 message MetricConfig {
     MetricNames metric_id = 1;
     // Whether the device manager is collecting and reporting this metric or not
     bool is_configured = 2;
     // Number of seconds between two consecutive polls of the particular metric
     // Each device manager implemenation could have it's per metric default poll frequency which
     // can be requested to be changed using this value
     uint32 poll_interval = 3;
 }

 message MetricsConfig {
     repeated MetricConfig metrics = 1;
 }

 message ListMetricsResponse {
     Status status = 1;
     Reason reason = 2;
     MetricsConfig metrics = 3;
 }

 message MetricsConfigurationRequest {
     Uuid device_uuid = 1;
     oneof operation {
         MetricsConfig changes = 2;
         bool reset_to_default = 3;
     }
 }

 message MetricsConfigurationResponse {
     Status status = 1;
     Reason reason = 2;
 }

 message MetricMetaData {
     Uuid device_uuid = 1;
     // uuid of the component
     Uuid component_uuid = 2;
     string component_name = 3;
 }

 // The Metrics are conveyed to external systems by submitting them on a kafka bus.
 // The topic to which are Metrics are submitted would be configured as startup
 // configuration of the components
 message Metric {
     MetricNames metric_id = 1;
     MetricMetaData metric_metadata = 2;
     ComponentSensorData value = 3;
 }

 message GetMetricRequest {
     MetricMetaData meta_data = 1;
     MetricNames metric_id = 2;
 }

 service NativeMetricsManagementService {

     // List the supported metrics for the passed device.
     // This would be the first call that you make to know about the metrics that a particular device supports and
     // then use the UpdateMetricsConfiguration API to monitor only the required metrics.
     rpc ListMetrics(HardwareID) returns(ListMetricsResponse);

     // Updates the configuration of the list of metrics in the request
     // Acts upon single metric configuration, collection of a single metric can be started/stopped
     // by changing its configuration.
     //
     // This configuration is persisted across restart of the device or the device manager
     rpc UpdateMetricsConfiguration(MetricsConfigurationRequest) returns(MetricsConfigurationResponse);

     // Get the instantenous value of a metric
     rpc GetMetric(GetMetricRequest) returns(Metric);
 }
	syntax = "proto3";

	option go_package = "github.com/opencord/device-management-interface/v3/go/dmi";
	package dmi;

	import "dmi/commons.proto";
	import "dmi/hw.proto";

	// The model used to represent the event data on the SensorData of a component as described
	// in RFC8348 (https://tools.ietf.org/html/rfc8348)

	// Management of Metrics and protos for encoding of Metrics

	enum MetricNames {
	METRIC_NAME_UNDEFINED = 0;

	// FAN related metrics
	METRIC_FAN_SPEED = 1;

	// CPU related metrics
	METRIC_CPU_TEMP = 100;
	METRIC_CPU_USAGE_PERCENTAGE = 101;

	// Transceiver related metrics
	METRIC_TRANSCEIVER_TEMP = 200;
	METRIC_TRANSCEIVER_VOLTAGE = 201;
	METRIC_TRANSCEIVER_BIAS = 202;
	METRIC_TRANSCEIVER_RX_POWER = 203;
	METRIC_TRANSCEIVER_TX_POWER = 204;
	METRIC_TRANSCEIVER_WAVELENGTH = 205;

	// Disk related metrics
	METRIC_DISK_TEMP = 300;
	METRIC_DISK_CAPACITY = 301;
	METRIC_DISK_USAGE = 302;
	METRIC_DISK_USAGE_PERCENTAGE = 303;
	METRIC_DISK_READ_WRITE_PERCENTAGE = 304;
	METRIC_DISK_FAULTY_CELLS_PERCENTAGE = 305;

	// RAM related metrics
	METRIC_RAM_TEMP = 400;
	METRIC_RAM_CAPACITY = 401;
	METRIC_RAM_USAGE = 402;
	METRIC_RAM_USAGE_PERCENTAGE = 403;

	// Power related metrics
	METRIC_POWER_MAX = 500;
	METRIC_POWER_USAGE = 501;
	METRIC_POWER_USAGE_PERCENTAGE = 502;

	// Chassis related metrics
	METRIC_INNER_SURROUNDING_TEMP = 600;
	}

	message MetricConfig {
	MetricNames metric_id = 1;
	// Whether the device manager is collecting and reporting this metric or not
	bool is_configured = 2;
	// Number of seconds between two consecutive polls of the particular metric
	// Each device manager implemenation could have it's per metric default poll frequency which
	// can be requested to be changed using this value
	uint32 poll_interval = 3;
	}

	message MetricsConfig {
	repeated MetricConfig metrics = 1;
	}

	message ListMetricsResponse {
	Status status = 1;
	Reason reason = 2;
	MetricsConfig metrics = 3;
	}

	message MetricsConfigurationRequest {
	Uuid device_uuid = 1;
	oneof operation {
	MetricsConfig changes = 2;
	bool reset_to_default = 3;
	}
	}

	message MetricsConfigurationResponse {
	Status status = 1;
	Reason reason = 2;
	}

	message MetricMetaData {
	Uuid device_uuid = 1;
	// uuid of the component
	Uuid component_uuid = 2;
	string component_name = 3;
	}

	// The Metrics are conveyed to external systems by submitting them on a kafka bus.
	// The topic to which are Metrics are submitted would be configured as startup
	// configuration of the components
	message Metric {
	MetricNames metric_id = 1;
	MetricMetaData metric_metadata = 2;
	ComponentSensorData value = 3;
	}

	message GetMetricRequest {
	MetricMetaData meta_data = 1;
	MetricNames metric_id = 2;
	}

	service NativeMetricsManagementService {

	// List the supported metrics for the passed device.
	// This would be the first call that you make to know about the metrics that a particular device supports and
	// then use the UpdateMetricsConfiguration API to monitor only the required metrics.
	rpc ListMetrics(HardwareID) returns(ListMetricsResponse);

	// Updates the configuration of the list of metrics in the request
	// Acts upon single metric configuration, collection of a single metric can be started/stopped
	// by changing its configuration.
	//
	// This configuration is persisted across restart of the device or the device manager
	rpc UpdateMetricsConfiguration(MetricsConfigurationRequest) returns(MetricsConfigurationResponse);

	// Get the instantenous value of a metric
	rpc GetMetric(GetMetricRequest) returns(Metric);
	}