protos/dmi/hw_events_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";
 import "google/protobuf/timestamp.proto";
 import "google/protobuf/empty.proto";

 // Management of Events and protos for encoding of Events

 enum EventIds {
     EVENT_NAME_UNDEFINED = 0;

     // Events from the Transceivers
     EVENT_TRANSCEIVER_PLUG_OUT = 100;
     EVENT_TRANSCEIVER_PLUG_IN = 101;
     EVENT_TRANSCEIVER_VOLTAGE_ABOVE_THRESHOLD = 102;
     EVENT_TRANSCEIVER_VOLTAGE_BELOW_THRESHOLD = 103;
     EVENT_TRANSCEIVER_TEMPERATURE_ABOVE_THRESHOLD = 104;
     EVENT_TRANSCEIVER_TEMPERATURE_BELOW_THRESHOLD = 105;
     EVENT_TRANSCEIVER_CURRENT_ABOVE_THRESHOLD = 106;
     EVENT_TRANSCEIVER_CURRENT_BELOW_THRESHOLD = 107;
     EVENT_TRANSCEIVER_RX_POWER_ABOVE_THRESHOLD = 108;
     EVENT_TRANSCEIVER_RX_POWER_BELOW_THRESHOLD = 109;
     EVENT_TRANSCEIVER_TX_POWER_ABOVE_THRESHOLD = 110;
     EVENT_TRANSCEIVER_TX_POWER_BELOW_THRESHOLD = 111;
     EVENT_TRANSCEIVER_FAILURE = 112;
     EVENT_TRANSCEIVER_VOLTAGE_ABOVE_THRESHOLD_RECOVERED = 113;
     EVENT_TRANSCEIVER_VOLTAGE_BELOW_THRESHOLD_RECOVERED = 114;
     EVENT_TRANSCEIVER_TEMPERATURE_ABOVE_THRESHOLD_RECOVERED = 115;
     EVENT_TRANSCEIVER_TEMPERATURE_BELOW_THRESHOLD_RECOVERED = 116;
     EVENT_TRANSCEIVER_CURRENT_ABOVE_THRESHOLD_RECOVERED = 117;
     EVENT_TRANSCEIVER_CURRENT_BELOW_THRESHOLD_RECOVERED = 118;
     EVENT_TRANSCEIVER_RX_POWER_ABOVE_THRESHOLD_RECOVERED = 119;
     EVENT_TRANSCEIVER_RX_POWER_BELOW_THRESHOLD_RECOVERED = 120;
     EVENT_TRANSCEIVER_TX_POWER_ABOVE_THRESHOLD_RECOVERED = 121;
     EVENT_TRANSCEIVER_TX_POWER_BELOW_THRESHOLD_RECOVERED = 122;
     EVENT_TRANSCEIVER_FAILURE_RECOVERED = 123;

     // Events from the PSU
     EVENT_PSU_PLUG_OUT = 200;
     EVENT_PSU_PLUG_IN = 201;
     EVENT_PSU_FAILURE = 202;
     EVENT_PSU_FAILURE_RECOVERED = 203;

     // Events for the Fans
     EVENT_FAN_FAILURE = 300;
     EVENT_FAN_PLUG_OUT = 301;
     EVENT_FAN_PLUG_IN = 302;
     EVENT_FAN_FAILURE_RECOVERED = 303;

     // Events for the CPUs
     EVENT_CPU_TEMPERATURE_ABOVE_CRITICAL = 400;
     EVENT_CPU_TEMPERATURE_ABOVE_FATAL = 401;
     EVENT_CPU_TEMPERATURE_ABOVE_CRITICAL_RECOVERED = 402;
     EVENT_CPU_TEMPERATURE_ABOVE_FATAL_RECOVERED = 403;

     // Events for the complete HW Device
     EVENT_HW_DEVICE_RESET = 500;
     EVENT_HW_DEVICE_TEMPERATURE_ABOVE_CRITICAL = 501;
     EVENT_HW_DEVICE_TEMPERATURE_ABOVE_FATAL = 502;
     EVENT_HW_DEVICE_TEMPERATURE_ABOVE_CRITICAL_RECOVERED = 503;
     EVENT_HW_DEVICE_TEMPERATURE_ABOVE_FATAL_RECOVERED = 504;
     EVENT_HW_DEVICE_REBOOT = 505;
     EVENT_HW_TEMPERATURE_SENSOR_FAILED = 506;
     EVENT_HW_ALL_TEMPERATURE_SENSORS_FAILED = 507;

     // Events for the line cards on the HW Device
     EVENT_LINE_CARD_PLUG_OUT = 600;
     EVENT_LINE_CARD_PLUG_IN = 601;

     // More to be added
 }

 message ValueType {
     oneof val{
         int64 int_val = 1;
         uint64 uint_val = 2;
         float float_val = 3;
     }
 }

 message WaterMarks {
     ValueType high = 1;
     ValueType low = 2;
 }

 message Thresholds {
     oneof threshold {
         WaterMarks upper = 1;
         WaterMarks lower = 2;
     }
 }

 message ThresholdInformation {
     ValueType observed_value = 1;
     Thresholds thresholds = 2;
 }

 message EventCfg {
     EventIds event_id = 1;
     bool is_configured = 2;
     // Optional threshold values, applicable only for some specific events
     Thresholds thresholds = 3;
 }

 message EventsCfg {
     repeated EventCfg items = 1;
 }

 message ListEventsResponse {
     enum Reason {
         UNDEFINED_REASON = 0;
         UNKNOWN_DEVICE = 1;
         INTERNAL_ERROR = 2;
         DEVICE_UNREACHABLE = 3;
     }
     Status status = 1;
     Reason reason = 2;
     EventsCfg events = 3;
     string reason_detail = 4;
 }

 message EventsConfigurationRequest {
     Uuid device_uuid = 1;
     oneof operation {
         EventsCfg changes = 2;
         bool reset_to_default = 3;
     }
     // For events which can be configured on a particular component this id can be used to identify the component
     // For e.g. for events of the transceivers
     Uuid component_uuid = 4;
 }

 message EventsConfigurationResponse {
     enum Reason {
         UNDEFINED_REASON = 0;
         UNKNOWN_DEVICE = 1;
         INTERNAL_ERROR = 2;
         INVALID_CONFIG = 3;
         DEVICE_UNREACHABLE = 4;
     }
     Status status = 1;
     Reason reason = 2;
     string reason_detail = 3;
 }

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

 // The Events are conveyed to external systems either by submitting them on a message bus or using gRPC server streaming.
 // The message bus topic to which are Events are submitted would be configured as startup
 // configuration of the components

 message Event {
     EventMetaData event_metadata = 1;
     EventIds event_id = 2;
     google.protobuf.Timestamp raised_ts = 3;
     // Optional threshold information for an event
     ThresholdInformation threshold_info = 4;
     // Any additional info regarding the event
     string add_info = 5;
 }

 service NativeEventsManagementService {

     // List the supported events for the passed device
     rpc ListEvents(HardwareID) returns(ListEventsResponse);

     // Updates the configuration of the list of events in the request
     // The default behavior of the device is to report all the supported events
     // This configuration is persisted across reboots of the device or the device manager
     rpc UpdateEventsConfiguration(EventsConfigurationRequest) returns(EventsConfigurationResponse);

     // Initiate the server streaming of the events
     rpc StreamEvents(google.protobuf.Empty) returns(stream Event);
 }
	syntax = "proto3";

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

	import "dmi/commons.proto";
	import "dmi/hw.proto";
	import "google/protobuf/timestamp.proto";
	import "google/protobuf/empty.proto";

	// Management of Events and protos for encoding of Events

	enum EventIds {
	EVENT_NAME_UNDEFINED = 0;

	// Events from the Transceivers
	EVENT_TRANSCEIVER_PLUG_OUT = 100;
	EVENT_TRANSCEIVER_PLUG_IN = 101;
	EVENT_TRANSCEIVER_VOLTAGE_ABOVE_THRESHOLD = 102;
	EVENT_TRANSCEIVER_VOLTAGE_BELOW_THRESHOLD = 103;
	EVENT_TRANSCEIVER_TEMPERATURE_ABOVE_THRESHOLD = 104;
	EVENT_TRANSCEIVER_TEMPERATURE_BELOW_THRESHOLD = 105;
	EVENT_TRANSCEIVER_CURRENT_ABOVE_THRESHOLD = 106;
	EVENT_TRANSCEIVER_CURRENT_BELOW_THRESHOLD = 107;
	EVENT_TRANSCEIVER_RX_POWER_ABOVE_THRESHOLD = 108;
	EVENT_TRANSCEIVER_RX_POWER_BELOW_THRESHOLD = 109;
	EVENT_TRANSCEIVER_TX_POWER_ABOVE_THRESHOLD = 110;
	EVENT_TRANSCEIVER_TX_POWER_BELOW_THRESHOLD = 111;
	EVENT_TRANSCEIVER_FAILURE = 112;
	EVENT_TRANSCEIVER_VOLTAGE_ABOVE_THRESHOLD_RECOVERED = 113;
	EVENT_TRANSCEIVER_VOLTAGE_BELOW_THRESHOLD_RECOVERED = 114;
	EVENT_TRANSCEIVER_TEMPERATURE_ABOVE_THRESHOLD_RECOVERED = 115;
	EVENT_TRANSCEIVER_TEMPERATURE_BELOW_THRESHOLD_RECOVERED = 116;
	EVENT_TRANSCEIVER_CURRENT_ABOVE_THRESHOLD_RECOVERED = 117;
	EVENT_TRANSCEIVER_CURRENT_BELOW_THRESHOLD_RECOVERED = 118;
	EVENT_TRANSCEIVER_RX_POWER_ABOVE_THRESHOLD_RECOVERED = 119;
	EVENT_TRANSCEIVER_RX_POWER_BELOW_THRESHOLD_RECOVERED = 120;
	EVENT_TRANSCEIVER_TX_POWER_ABOVE_THRESHOLD_RECOVERED = 121;
	EVENT_TRANSCEIVER_TX_POWER_BELOW_THRESHOLD_RECOVERED = 122;
	EVENT_TRANSCEIVER_FAILURE_RECOVERED = 123;

	// Events from the PSU
	EVENT_PSU_PLUG_OUT = 200;
	EVENT_PSU_PLUG_IN = 201;
	EVENT_PSU_FAILURE = 202;
	EVENT_PSU_FAILURE_RECOVERED = 203;

	// Events for the Fans
	EVENT_FAN_FAILURE = 300;
	EVENT_FAN_PLUG_OUT = 301;
	EVENT_FAN_PLUG_IN = 302;
	EVENT_FAN_FAILURE_RECOVERED = 303;

	// Events for the CPUs
	EVENT_CPU_TEMPERATURE_ABOVE_CRITICAL = 400;
	EVENT_CPU_TEMPERATURE_ABOVE_FATAL = 401;
	EVENT_CPU_TEMPERATURE_ABOVE_CRITICAL_RECOVERED = 402;
	EVENT_CPU_TEMPERATURE_ABOVE_FATAL_RECOVERED = 403;

	// Events for the complete HW Device
	EVENT_HW_DEVICE_RESET = 500;
	EVENT_HW_DEVICE_TEMPERATURE_ABOVE_CRITICAL = 501;
	EVENT_HW_DEVICE_TEMPERATURE_ABOVE_FATAL = 502;
	EVENT_HW_DEVICE_TEMPERATURE_ABOVE_CRITICAL_RECOVERED = 503;
	EVENT_HW_DEVICE_TEMPERATURE_ABOVE_FATAL_RECOVERED = 504;
	EVENT_HW_DEVICE_REBOOT = 505;
	EVENT_HW_TEMPERATURE_SENSOR_FAILED = 506;
	EVENT_HW_ALL_TEMPERATURE_SENSORS_FAILED = 507;

	// Events for the line cards on the HW Device
	EVENT_LINE_CARD_PLUG_OUT = 600;
	EVENT_LINE_CARD_PLUG_IN = 601;

	// More to be added
	}

	message ValueType {
	oneof val{
	int64 int_val = 1;
	uint64 uint_val = 2;
	float float_val = 3;
	}
	}

	message WaterMarks {
	ValueType high = 1;
	ValueType low = 2;
	}

	message Thresholds {
	oneof threshold {
	WaterMarks upper = 1;
	WaterMarks lower = 2;
	}
	}

	message ThresholdInformation {
	ValueType observed_value = 1;
	Thresholds thresholds = 2;
	}

	message EventCfg {
	EventIds event_id = 1;
	bool is_configured = 2;
	// Optional threshold values, applicable only for some specific events
	Thresholds thresholds = 3;
	}

	message EventsCfg {
	repeated EventCfg items = 1;
	}

	message ListEventsResponse {
	enum Reason {
	UNDEFINED_REASON = 0;
	UNKNOWN_DEVICE = 1;
	INTERNAL_ERROR = 2;
	DEVICE_UNREACHABLE = 3;
	}
	Status status = 1;
	Reason reason = 2;
	EventsCfg events = 3;
	string reason_detail = 4;
	}

	message EventsConfigurationRequest {
	Uuid device_uuid = 1;
	oneof operation {
	EventsCfg changes = 2;
	bool reset_to_default = 3;
	}
	// For events which can be configured on a particular component this id can be used to identify the component
	// For e.g. for events of the transceivers
	Uuid component_uuid = 4;
	}

	message EventsConfigurationResponse {
	enum Reason {
	UNDEFINED_REASON = 0;
	UNKNOWN_DEVICE = 1;
	INTERNAL_ERROR = 2;
	INVALID_CONFIG = 3;
	DEVICE_UNREACHABLE = 4;
	}
	Status status = 1;
	Reason reason = 2;
	string reason_detail = 3;
	}

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

	// The Events are conveyed to external systems either by submitting them on a message bus or using gRPC server streaming.
	// The message bus topic to which are Events are submitted would be configured as startup
	// configuration of the components

	message Event {
	EventMetaData event_metadata = 1;
	EventIds event_id = 2;
	google.protobuf.Timestamp raised_ts = 3;
	// Optional threshold information for an event
	ThresholdInformation threshold_info = 4;
	// Any additional info regarding the event
	string add_info = 5;
	}

	service NativeEventsManagementService {

	// List the supported events for the passed device
	rpc ListEvents(HardwareID) returns(ListEventsResponse);

	// Updates the configuration of the list of events in the request
	// The default behavior of the device is to report all the supported events
	// This configuration is persisted across reboots of the device or the device manager
	rpc UpdateEventsConfiguration(EventsConfigurationRequest) returns(EventsConfigurationResponse);

	// Initiate the server streaming of the events
	rpc StreamEvents(google.protobuf.Empty) returns(stream Event);
	}