X-Git-Url: https://gerrit.o-ran-sc.org/r/gitweb?a=blobdiff_plain;f=ntsimulator%2Fyang%2Fx-ran%2Fietf-hardware.yang;fp=ntsimulator%2Fyang%2Fx-ran%2Fietf-hardware.yang;h=0000000000000000000000000000000000000000;hb=f1d5c9198acde7a7ce296490087cad37e008f688;hp=f444e26ee6bd6a79339ed9a2fab2f16f987d2083;hpb=f2d8f1002fa93848c80a88e5658db4816cba3020;p=sim%2Fo1-interface.git
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-module ietf-hardware {
-yang-version 1.1;
-namespace "urn:ietf:params:xml:ns:yang:ietf-hardware";
-prefix hw;
-
-import ietf-inet-types {
- prefix inet;
-}
-import ietf-yang-types {
- prefix yang;
-}
-import iana-hardware {
- prefix ianahw;
-}
-
-organization
- "IETF NETMOD (Network Modeling) Working Group";
-
-contact
- "WG Web:
- WG List:
- Editor: Andy Bierman
-
- Editor: Martin Bjorklund
-
- Editor: Jie Dong
-
- Editor: Dan Romascanu
- ";
-
-description
- "This module contains a collection of YANG definitions for
- managing hardware.
- This data model is designed for the Network Management Datastore
- Architecture (NMDA) defined in RFC 8342.
- Copyright (c) 2018 IETF Trust and the persons identified as
- authors of the code. All rights reserved.
- Redistribution and use in source and binary forms, with or
- without modification, is permitted pursuant to, and subject
- to the license terms contained in, the Simplified BSD License
- set forth in Section 4.c of the IETF Trust's Legal Provisions
- Relating to IETF Documents
- (https://trustee.ietf.org/license-info).
- This version of this YANG module is part of RFC 8348; see
- the RFC itself for full legal notices.";
-
-revision 2018-03-13 {
- description
- "Initial revision.";
- reference
- "RFC 8348: A YANG Data Model for Hardware Management";
-}
-
-/*
- * Features
- */
-
-feature entity-mib {
- description
- "This feature indicates that the device implements
- the ENTITY-MIB.";
- reference
- "RFC 6933: Entity MIB (Version 4)";
-}
-
-feature hardware-state {
- description
- "Indicates that ENTITY-STATE-MIB objects are supported";
- reference
- "RFC 4268: Entity State MIB";
-}
-
-feature hardware-sensor {
- description
- "Indicates that ENTITY-SENSOR-MIB objects are supported";
- reference
- "RFC 3433: Entity Sensor Management Information Base";
-}
-
-/*
- * Typedefs
- */
-
-typedef admin-state {
- type enumeration {
- enum unknown {
- value 1;
- description
- "The resource is unable to report administrative state.";
- }
- enum locked {
- value 2;
- description
- "The resource is administratively prohibited from use.";
- }
- enum shutting-down {
- value 3;
- description
- "The resource usage is administratively limited to current
- instances of use.";
- }
- enum unlocked {
- value 4;
- description
- "The resource is not administratively prohibited from
- use.";
- }
- }
- description
- "Represents the various possible administrative states.";
- reference
- "RFC 4268: Entity State MIB - EntityAdminState";
-}
-
-typedef oper-state {
- type enumeration {
- enum unknown {
- value 1;
- description
- "The resource is unable to report its operational state.";
- }
- enum disabled {
- value 2;
- description
- "The resource is totally inoperable.";
- }
- enum enabled {
- value 3;
-
- description
- "The resource is partially or fully operable.";
- }
- enum testing {
- value 4;
- description
- "The resource is currently being tested and cannot
- therefore report whether or not it is operational.";
- }
- }
- description
- "Represents the possible values of operational states.";
- reference
- "RFC 4268: Entity State MIB - EntityOperState";
-}
-
-typedef usage-state {
- type enumeration {
- enum unknown {
- value 1;
- description
- "The resource is unable to report usage state.";
- }
- enum idle {
- value 2;
- description
- "The resource is servicing no users.";
- }
- enum active {
- value 3;
- description
- "The resource is currently in use, and it has sufficient
- spare capacity to provide for additional users.";
- }
- enum busy {
- value 4;
- description
- "The resource is currently in use, but it currently has no
- spare capacity to provide for additional users.";
- }
- }
- description
- "Represents the possible values of usage states.";
- reference
- "RFC 4268: Entity State MIB - EntityUsageState";
-}
-
-typedef alarm-state {
- type bits {
- bit unknown {
- position 0;
- description
- "The resource is unable to report alarm state.";
- }
- bit under-repair {
- position 1;
- description
- "The resource is currently being repaired, which, depending
- on the implementation, may make the other values in this
- bit string not meaningful.";
- }
- bit critical {
- position 2;
- description
- "One or more critical alarms are active against the
- resource.";
- }
- bit major {
- position 3;
- description
- "One or more major alarms are active against the
- resource.";
- }
- bit minor {
- position 4;
- description
- "One or more minor alarms are active against the
- resource.";
- }
- bit warning {
- position 5;
- description
- "One or more warning alarms are active against the
- resource.";
- }
- bit indeterminate {
- position 6;
- description
- "One or more alarms of whose perceived severity cannot be
- determined are active against this resource.";
- }
- }
- description
- "Represents the possible values of alarm states. An alarm is a
- persistent indication of an error or warning condition.
- When no bits of this attribute are set, then no active alarms
- are known against this component and it is not under repair.";
- reference
- "RFC 4268: Entity State MIB - EntityAlarmStatus";
-}
-
-typedef standby-state {
- type enumeration {
- enum unknown {
- value 1;
- description
- "The resource is unable to report standby state.";
- }
- enum hot-standby {
- value 2;
- description
- "The resource is not providing service, but it will be
- immediately able to take over the role of the resource to
- be backed up, without the need for initialization
- activity, and will contain the same information as the
- resource to be backed up.";
- }
- enum cold-standby {
- value 3;
- description
- "The resource is to back up another resource, but it will
- not be immediately able to take over the role of a
- resource to be backed up and will require some
- initialization activity.";
- }
- enum providing-service {
- value 4;
- description
- "The resource is providing service.";
- }
- }
- description
- "Represents the possible values of standby states.";
- reference
- "RFC 4268: Entity State MIB - EntityStandbyStatus";
-}
-
-typedef sensor-value-type {
- type enumeration {
- enum other {
- value 1;
- description
- "A measure other than those listed below.";
- }
- enum unknown {
- value 2;
- description
- "An unknown measurement or arbitrary, relative numbers";
- }
- enum volts-AC {
- value 3;
- description
- "A measure of electric potential (alternating current).";
- }
- enum volts-DC {
- value 4;
- description
- "A measure of electric potential (direct current).";
- }
- enum amperes {
- value 5;
- description
- "A measure of electric current.";
- }
- enum watts {
- value 6;
- description
- "A measure of power.";
- }
- enum hertz {
- value 7;
- description
- "A measure of frequency.";
- }
- enum celsius {
- value 8;
- description
- "A measure of temperature.";
- }
- enum percent-RH {
- value 9;
- description
- "A measure of percent relative humidity.";
- }
- enum rpm {
- value 10;
- description
- "A measure of shaft revolutions per minute.";
- }
- enum cmm {
- value 11;
- description
- "A measure of cubic meters per minute (airflow).";
- }
- enum truth-value {
- value 12;
- description
- "Value is one of 1 (true) or 2 (false)";
- }
- }
- description
- "A node using this data type represents the sensor measurement
- data type associated with a physical sensor value. The actual
- data units are determined by examining a node of this type
- together with the associated sensor-value-scale node.
- A node of this type SHOULD be defined together with nodes of
- type sensor-value-scale and type sensor-value-precision.
- These three types are used to identify the semantics of a node
- of type sensor-value.";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- EntitySensorDataType";
-}
-
-typedef sensor-value-scale {
- type enumeration {
- enum yocto {
- value 1;
- description
- "Data scaling factor of 10^-24.";
- }
- enum zepto {
- value 2;
- description
- "Data scaling factor of 10^-21.";
- }
- enum atto {
- value 3;
- description
- "Data scaling factor of 10^-18.";
- }
- enum femto {
- value 4;
- description
- "Data scaling factor of 10^-15.";
- }
- enum pico {
- value 5;
- description
- "Data scaling factor of 10^-12.";
- }
- enum nano {
- value 6;
- description
- "Data scaling factor of 10^-9.";
- }
- enum micro {
- value 7;
- description
- "Data scaling factor of 10^-6.";
- }
- enum milli {
- value 8;
- description
- "Data scaling factor of 10^-3.";
- }
- enum units {
- value 9;
- description
- "Data scaling factor of 10^0.";
- }
- enum kilo {
- value 10;
- description
- "Data scaling factor of 10^3.";
- }
- enum mega {
- value 11;
- description
- "Data scaling factor of 10^6.";
- }
- enum giga {
- value 12;
- description
- "Data scaling factor of 10^9.";
- }
- enum tera {
- value 13;
- description
- "Data scaling factor of 10^12.";
- }
- enum peta {
- value 14;
- description
- "Data scaling factor of 10^15.";
- }
- enum exa {
- value 15;
- description
- "Data scaling factor of 10^18.";
- }
- enum zetta {
- value 16;
- description
- "Data scaling factor of 10^21.";
- }
- enum yotta {
- value 17;
- description
- "Data scaling factor of 10^24.";
- }
- }
- description
- "A node using this data type represents a data scaling factor,
- represented with an International System of Units (SI) prefix.
- The actual data units are determined by examining a node of
- this type together with the associated sensor-value-type.
- A node of this type SHOULD be defined together with nodes of
- type sensor-value-type and type sensor-value-precision.
- Together, associated nodes of these three types are used to
- identify the semantics of a node of type sensor-value.";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- EntitySensorDataScale";
-}
-
-typedef sensor-value-precision {
- type int8 {
- range "-8 .. 9";
- }
- description
- "A node using this data type represents a sensor value
- precision range.
- A node of this type SHOULD be defined together with nodes of
- type sensor-value-type and type sensor-value-scale. Together,
- associated nodes of these three types are used to identify the
- semantics of a node of type sensor-value.
- If a node of this type contains a value in the range 1 to 9,
- it represents the number of decimal places in the fractional
- part of an associated sensor-value fixed-point number.
- If a node of this type contains a value in the range -8 to -1,
- it represents the number of accurate digits in the associated
- sensor-value fixed-point number.
- The value zero indicates the associated sensor-value node is
- not a fixed-point number.
- Server implementers must choose a value for the associated
- sensor-value-precision node so that the precision and accuracy
- of the associated sensor-value node is correctly indicated.
- For example, a component representing a temperature sensor
- that can measure 0 to 100 degrees C in 0.1 degree
- increments, +/- 0.05 degrees, would have a
- sensor-value-precision value of '1', a sensor-value-scale
- value of 'units', and a sensor-value ranging from '0' to
- '1000'. The sensor-value would be interpreted as
- 'degrees C * 10'.";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- EntitySensorPrecision";
-}
-
-typedef sensor-value {
- type int32 {
- range "-1000000000 .. 1000000000";
- }
- description
- "A node using this data type represents a sensor value.
- A node of this type SHOULD be defined together with nodes of
- type sensor-value-type, type sensor-value-scale, and
- type sensor-value-precision. Together, associated nodes of
- those three types are used to identify the semantics of a node
- of this data type.
- The semantics of a node using this data type are determined by
- the value of the associated sensor-value-type node.
- If the associated sensor-value-type node is equal to 'voltsAC',
- 'voltsDC', 'amperes', 'watts', 'hertz', 'celsius', or 'cmm',
- then a node of this type MUST contain a fixed-point number
- ranging from -999,999,999 to +999,999,999. The value
- -1000000000 indicates an underflow error. The value
- +1000000000 indicates an overflow error. The
- sensor-value-precision indicates how many fractional digits
- are represented in the associated sensor-value node.
- If the associated sensor-value-type node is equal to
- 'percentRH', then a node of this type MUST contain a number
- ranging from 0 to 100.
- If the associated sensor-value-type node is equal to 'rpm',
- then a node of this type MUST contain a number ranging from
- -999,999,999 to +999,999,999.
- If the associated sensor-value-type node is equal to
- 'truth-value', then a node of this type MUST contain either the
- value 1 (true) or the value 2 (false).
- If the associated sensor-value-type node is equal to 'other' or
- 'unknown', then a node of this type MUST contain a number
- ranging from -1000000000 to 1000000000.";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- EntitySensorValue";
-}
-
-typedef sensor-status {
- type enumeration {
- enum ok {
- value 1;
- description
- "Indicates that the server can obtain the sensor value.";
- }
- enum unavailable {
- value 2;
- description
- "Indicates that the server presently cannot obtain the
- sensor value.";
- }
- enum nonoperational {
- value 3;
- description
- "Indicates that the server believes the sensor is broken.
- The sensor could have a hard failure (disconnected wire)
- or a soft failure such as out-of-range, jittery, or wildly
- fluctuating readings.";
- }
- }
- description
- "A node using this data type represents the operational status
- of a physical sensor.";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- EntitySensorStatus";
-}
-
-/*
- * Data nodes
- */
-
-container hardware {
- description
- "Data nodes representing components.
- If the server supports configuration of hardware components,
- then this data model is instantiated in the configuration
- datastores supported by the server. The leaf-list 'datastore'
- for the module 'ietf-hardware' in the YANG library provides
- this information.";
-
- leaf last-change {
- type yang:date-and-time;
- config false;
- description
- "The time the '/hardware/component' list changed in the
- operational state.";
- }
-
- list component {
- key name;
- description
- "List of components.
- When the server detects a new hardware component, it
- initializes a list entry in the operational state.
- If the server does not support configuration of hardware
- components, list entries in the operational state are
- initialized with values for all nodes as detected by the
- implementation.
- Otherwise, this procedure is followed:
- 1. If there is an entry in the '/hardware/component' list
- in the intended configuration with values for the nodes
- 'class', 'parent', and 'parent-rel-pos' that are equal
- to the detected values, then the list entry in the
- operational state is initialized with the configured
- values, including the 'name'.
- 2. Otherwise (i.e., there is no matching configuration
- entry), the list entry in the operational state is
- initialized with values for all nodes as detected by
- the implementation.
- If the '/hardware/component' list in the intended
- configuration is modified, then the system MUST behave as if
- it re-initializes itself and follow the procedure in (1).";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalEntry";
-
- leaf name {
- type string;
- description
- "The name assigned to this component.
- This name is not required to be the same as
- entPhysicalName.";
- }
-
- leaf class {
- type identityref {
- base ianahw:hardware-class;
- }
- mandatory true;
- description
- "An indication of the general hardware type of the
- component.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalClass";
- }
-
- leaf physical-index {
- if-feature entity-mib;
- type int32 {
- range "1..2147483647";
- }
- config false;
- description
- "The entPhysicalIndex for the entPhysicalEntry represented
- by this list entry.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalIndex";
- }
-
- leaf description {
- type string;
- config false;
- description
- "A textual description of the component. This node should
- contain a string that identifies the manufacturer's name
- for the component and should be set to a distinct value
- for each version or model of the component.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalDescr";
- }
-
- leaf parent {
- type leafref {
- path "../../component/name";
- require-instance false;
- }
- description
- "The name of the component that physically contains this
- component.
- If this leaf is not instantiated, it indicates that this
- component is not contained in any other component.
- In the event that a physical component is contained by
- more than one physical component (e.g., double-wide
- modules), this node contains the name of one of these
- components. An implementation MUST use the same name
- every time this node is instantiated.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalContainedIn";
- }
-
- leaf parent-rel-pos {
- type int32 {
- range "0 .. 2147483647";
- }
- description
- "An indication of the relative position of this child
- component among all its sibling components. Sibling
- components are defined as components that:
- o share the same value of the 'parent' node and
- o share a common base identity for the 'class' node.
- Note that the last rule gives implementations flexibility
- in how components are numbered. For example, some
- implementations might have a single number series for all
- components derived from 'ianahw:port', while some others
- might have different number series for different
- components with identities derived from 'ianahw:port' (for
- example, one for registered jack 45 (RJ45) and one for
- small form-factor pluggable (SFP)).";
-
- reference
- "RFC 6933: Entity MIB (Version 4) -
- entPhysicalParentRelPos";
- }
-
- leaf-list contains-child {
- type leafref {
- path "../../component/name";
- }
- config false;
- description
- "The name of the contained component.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalChildIndex";
- }
-
- leaf hardware-rev {
- type string;
- config false;
- description
- "The vendor-specific hardware revision string for the
- component. The preferred value is the hardware revision
- identifier actually printed on the component itself (if
- present).";
- reference
- "RFC 6933: Entity MIB (Version 4) -
- entPhysicalHardwareRev";
- }
-
- leaf firmware-rev {
- type string;
- config false;
- description
- "The vendor-specific firmware revision string for the
- component.";
- reference
- "RFC 6933: Entity MIB (Version 4) -
- entPhysicalFirmwareRev";
- }
-
- leaf software-rev {
- type string;
- config false;
-
- description
- "The vendor-specific software revision string for the
- component.";
- reference
- "RFC 6933: Entity MIB (Version 4) -
- entPhysicalSoftwareRev";
- }
-
- leaf serial-num {
- type string;
- config false;
- description
- "The vendor-specific serial number string for the
- component. The preferred value is the serial number
- string actually printed on the component itself (if
- present).";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalSerialNum";
- }
-
- leaf mfg-name {
- type string;
- config false;
- description
- "The name of the manufacturer of this physical component.
- The preferred value is the manufacturer name string
- actually printed on the component itself (if present).
- Note that comparisons between instances of the
- 'model-name', 'firmware-rev', 'software-rev', and
- 'serial-num' nodes are only meaningful amongst components
- with the same value of 'mfg-name'.
- If the manufacturer name string associated with the
- physical component is unknown to the server, then this
- node is not instantiated.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalMfgName";
- }
-
- leaf model-name {
- type string;
- config false;
- description
- "The vendor-specific model name identifier string
- associated with this physical component. The preferred
- value is the customer-visible part number, which may be
- printed on the component itself.
- If the model name string associated with the physical
- component is unknown to the server, then this node is not
- instantiated.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalModelName";
- }
-
- leaf alias {
- type string;
- description
- "An 'alias' name for the component, as specified by a
- network manager, that provides a non-volatile 'handle' for
- the component.
- If no configured value exists, the server MAY set the
- value of this node to a locally unique value in the
- operational state.
- A server implementation MAY map this leaf to the
- entPhysicalAlias MIB object. Such an implementation needs
- to use some mechanism to handle the differences in size
- and characters allowed between this leaf and
- entPhysicalAlias. The definition of such a mechanism is
- outside the scope of this document.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalAlias";
- }
-
- leaf asset-id {
- type string;
- description
- "This node is a user-assigned asset tracking identifier for
- the component.
- A server implementation MAY map this leaf to the
- entPhysicalAssetID MIB object. Such an implementation
- needs to use some mechanism to handle the differences in
- size and characters allowed between this leaf and
- entPhysicalAssetID. The definition of such a mechanism is
- outside the scope of this document.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalAssetID";
- }
-
- leaf is-fru {
- type boolean;
- config false;
-
- description
- "This node indicates whether or not this component is
- considered a 'field-replaceable unit' by the vendor. If
- this node contains the value 'true', then this component
- identifies a field-replaceable unit. For all components
- that are permanently contained within a field-replaceable
- unit, the value 'false' should be returned for this
- node.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalIsFRU";
- }
-
- leaf mfg-date {
- type yang:date-and-time;
- config false;
- description
- "The date of manufacturing of the managed component.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalMfgDate";
- }
-
- leaf-list uri {
- type inet:uri;
- description
- "This node contains identification information about the
- component.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalUris";
- }
-
- leaf uuid {
- type yang:uuid;
- config false;
- description
- "A Universally Unique Identifier of the component.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entPhysicalUUID";
- }
-
- container state {
- if-feature hardware-state;
- description
- "State-related nodes";
- reference
- "RFC 4268: Entity State MIB";
-
- leaf state-last-changed {
- type yang:date-and-time;
- config false;
- description
- "The date and time when the value of any of the
- admin-state, oper-state, usage-state, alarm-state, or
- standby-state changed for this component.
- If there has been no change since the last
- re-initialization of the local system, this node
- contains the date and time of local system
- initialization. If there has been no change since the
- component was added to the local system, this node
- contains the date and time of the insertion.";
- reference
- "RFC 4268: Entity State MIB - entStateLastChanged";
- }
-
- leaf admin-state {
- type admin-state;
- description
- "The administrative state for this component.
- This node refers to a component's administrative
- permission to service both other components within its
- containment hierarchy as well other users of its
- services defined by means outside the scope of this
- module.
- Some components exhibit only a subset of the remaining
- administrative state values. Some components cannot be
- locked; hence, this node exhibits only the 'unlocked'
- state. Other components cannot be shut down gracefully;
- hence, this node does not exhibit the 'shutting-down'
- state.";
- reference
- "RFC 4268: Entity State MIB - entStateAdmin";
- }
-
- leaf oper-state {
- type oper-state;
- config false;
- description
- "The operational state for this component.
- Note that this node does not follow the administrative
- state. An administrative state of 'down' does not
- predict an operational state of 'disabled'.
- Note that some implementations may not be able to
- accurately report oper-state while the admin-state node
- has a value other than 'unlocked'. In these cases, this
- node MUST have a value of 'unknown'.";
- reference
- "RFC 4268: Entity State MIB - entStateOper";
- }
-
- leaf usage-state {
- type usage-state;
- config false;
- description
- "The usage state for this component.
- This node refers to a component's ability to service
- more components in a containment hierarchy.
- Some components will exhibit only a subset of the usage
- state values. Components that are unable to ever
- service any components within a containment hierarchy
- will always have a usage state of 'busy'. In some
- cases, a component will be able to support only one
- other component within its containment hierarchy and
- will therefore only exhibit values of 'idle' and
- 'busy'.";
- reference
- "RFC 4268: Entity State MIB - entStateUsage";
- }
-
- leaf alarm-state {
- type alarm-state;
- config false;
- description
- "The alarm state for this component. It does not
- include the alarms raised on child components within its
- containment hierarchy.";
- reference
- "RFC 4268: Entity State MIB - entStateAlarm";
- }
-
- leaf standby-state {
- type standby-state;
- config false;
- description
- "The standby state for this component.
- Some components will exhibit only a subset of the
- remaining standby state values. If this component
- cannot operate in a standby role, the value of this node
- will always be 'providing-service'.";
- reference
- "RFC 4268: Entity State MIB - entStateStandby";
- }
- }
-
- container sensor-data {
- when 'derived-from-or-self(../class,
- "ianahw:sensor")' {
- description
- "Sensor data nodes present for any component of type
- 'sensor'";
- }
- if-feature hardware-sensor;
- config false;
-
- description
- "Sensor-related nodes.";
- reference
- "RFC 3433: Entity Sensor Management Information Base";
-
- leaf value {
- type sensor-value;
- description
- "The most recent measurement obtained by the server
- for this sensor.
- A client that periodically fetches this node should also
- fetch the nodes 'value-type', 'value-scale', and
- 'value-precision', since they may change when the value
- is changed.";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- entPhySensorValue";
- }
-
- leaf value-type {
- type sensor-value-type;
- description
- "The type of data units associated with the
- sensor value";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- entPhySensorType";
- }
- leaf value-scale {
- type sensor-value-scale;
- description
- "The (power of 10) scaling factor associated
- with the sensor value";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- entPhySensorScale";
- }
-
- leaf value-precision {
- type sensor-value-precision;
- description
- "The number of decimal places of precision
- associated with the sensor value";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- entPhySensorPrecision";
- }
-
- leaf oper-status {
- type sensor-status;
- description
- "The operational status of the sensor.";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- entPhySensorOperStatus";
- }
-
- leaf units-display {
- type string;
- description
- "A textual description of the data units that should be
- used in the display of the sensor value.";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- entPhySensorUnitsDisplay";
- }
-
- leaf value-timestamp {
- type yang:date-and-time;
- description
- "The time the status and/or value of this sensor was last
- obtained by the server.";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- entPhySensorValueTimeStamp";
- }
- leaf value-update-rate {
- type uint32;
- units "milliseconds";
- description
- "An indication of the frequency that the server updates
- the associated 'value' node, represented in
- milliseconds. The value zero indicates:
- - the sensor value is updated on demand (e.g.,
- when polled by the server for a get-request),
- - the sensor value is updated when the sensor
- value changes (event-driven), or
- - the server does not know the update rate.";
- reference
- "RFC 3433: Entity Sensor Management Information Base -
- entPhySensorValueUpdateRate";
- }
- }
- }
-}
-
-/*
- * Notifications
- */
-
-notification hardware-state-change {
- description
- "A hardware-state-change notification is generated when the
- value of /hardware/last-change changes in the operational
- state.";
- reference
- "RFC 6933: Entity MIB (Version 4) - entConfigChange";
-}
-
-notification hardware-state-oper-enabled {
- if-feature hardware-state;
- description
- "A hardware-state-oper-enabled notification signifies that a
- component has transitioned into the 'enabled' state.";
-
- leaf name {
- type leafref {
- path "/hardware/component/name";
- }
-
- description
- "The name of the component that has transitioned into the
- 'enabled' state.";
- }
- leaf admin-state {
- type leafref {
- path "/hardware/component/state/admin-state";
- }
- description
- "The administrative state for the component.";
- }
- leaf alarm-state {
- type leafref {
- path "/hardware/component/state/alarm-state";
- }
- description
- "The alarm state for the component.";
- }
- reference
- "RFC 4268: Entity State MIB - entStateOperEnabled";
-}
-
-notification hardware-state-oper-disabled {
- if-feature hardware-state;
- description
- "A hardware-state-oper-disabled notification signifies that a
- component has transitioned into the 'disabled' state.";
-
- leaf name {
- type leafref {
- path "/hardware/component/name";
- }
- description
- "The name of the component that has transitioned into the
- 'disabled' state.";
- }
- leaf admin-state {
- type leafref {
- path "/hardware/component/state/admin-state";
- }
- description
- "The administrative state for the component.";
- }
- leaf alarm-state {
- type leafref {
- path "/hardware/component/state/alarm-state";
- }
-
- description
- "The alarm state for the component.";
- }
- reference
- "RFC 4268: Entity State MIB - entStateOperDisabled";
-}
-
-}