module ietf-alarms {
yang-version 1.1;
namespace "urn:ietf:params:xml:ns:yang:ietf-alarms";
prefix al;
import ietf-yang-types {
prefix yang;
}
organization
"IETF NETMOD (NETCONF Data Modeling Language) Working Group";
contact
"WG Web:
WG List:
Editor: Stefan Vallin
Editor: Martin Bjorklund
";
description
"This module defines an interface for managing alarms. Main
inputs to the module design are the 3GPP Alarm IRP, ITU-T X.733
and ANSI/ISA-18.2 alarm standards.
Main features of this module include:
* Alarm list:
A list of all alarms. Cleared alarms stay in
the list until explicitly removed.
* Operator actions on alarms:
Acknowledging and closing alarms.
* Administrative actions on alarms:
Purging alarms from the list according to specific
criteria.
* Alarm inventory:
A management application can read all
alarm types implemented by the system.
* Alarm shelving:
Shelving (blocking) alarms according
to specific criteria.
This module uses a stateful view on alarms. An alarm is a state
for a specific resource (note that an alarm is not a
notification). An alarm type is a possible alarm state for a
resource. For example, the tuple:
('link-alarm', 'GigabitEthernet0/25')
is an alarm of type 'link-alarm' on the resource
'GigabitEthernet0/25'.
Alarm types are identified using YANG identities and an optional
string-based qualifier. The string-based qualifier allows for
dynamic extension of the statically defined alarm types. Alarm
types identify a possible alarm state and not the individual
notifications. For example, the traditional 'link-down' and
'link-up' notifications are two notifications referring to the
same alarm type 'link-alarm'.
With this design there is no ambiguity about how alarm and alarm
clear correlation should be performed: notifications that report
the same resource and alarm type are considered updates of the
same alarm, such as clearing an active alarm or changing the
severity of an alarm.
The instrumentation can update 'severity' and 'alarm-text' on an
existing alarm. The above alarm example can therefore look
like:
(('link-alarm', 'GigabitEthernet0/25'),
warning,
'interface down while interface admin state is up')
There is a clear separation between updates on the alarm from
the underlying resource, like clear, and updates from an
operator like acknowledge or closing an alarm:
(('link-alarm', 'GigabitEthernet0/25'),
warning,
'interface down while interface admin state is up',
cleared,
closed)
Administrative actions like removing closed alarms older than a
given time is supported.";
revision 2017-05-08 {
description
"Initial revision.";
reference
"RFC XXXX: YANG Alarm Module";
}
/*
* Features
*/
feature operator-actions {
description
"This feature means that the systems supports operator states
on alarms.";
}
feature alarm-shelving {
description
"This feature means that the system supports shelving
(blocking) alarms.";
}
feature alarm-history {
description
"This feature means that the alarm list also maintains a
history of state changes for each alarm. For example, if an
alarm toggles between cleared and active 10 times, a list for
that alarm will show those state changes with time-stamps.";
}
/*
* Identities
*/
identity alarm-identity {
description
"Base identity for alarm types. A unique identification of the
alarm, not including the resource. Different resources can
share alarm types. If the resource reports the same alarm
type, it is to be considered to be the same alarm. The alarm
type is a simplification of the different X.733 and 3GPP alarm
IRP alarm correlation mechanisms and it allows for
hierarchical extensions.
A string-based qualifier can be used in addition to the
identity in order to have different alarm types based on
information not known at design-time, such as values in
textual SNMP Notification var-binds.
Standards and vendors can define sub-identities to clearly
identify specific alarm types.
This identity is abstract and shall not be used for alarms.";
}
/*
* Common types
*/
typedef resource {
type union {
type instance-identifier {
require-instance false;
}
type yang:object-identifier;
type string;
}
description
"This is an identification of the alarming resource, such as an
interface. It should be as fine-grained as possible both to
guide the operator and to guarantee uniqueness of the
alarms. If a resource has both a config and a state tree
normally this should identify the state tree,
(e.g., /interfaces-state/interface/name).
But if the instrumentation can detect a broken config, this
should be identified as the resource.
If the alarming resource is modelled in YANG, this
type will be an instance-identifier. If the resource is an
SNMP object, the type will be an object-identifier. If the
resource is anything else, for example a distinguished name or
a CIM path, this type will be a string.";
}
typedef alarm-text {
type string;
description
"The string used to inform operators about the alarm. This
MUST contain enough information for an operator to be able
to understand the problem and how to resolve it. If this
string contains structure, this format should be clearly
documented for programs to be able to parse that
information.";
}
typedef severity {
type enumeration {
enum indeterminate {
value 2;
description
"Indicates that the severity level could not be
determined. This level SHOULD be avoided.";
}
enum minor {
value 3;
description
"The 'minor' severity level indicates the existence of a
non-service affecting fault condition and that corrective
action should be taken in order to prevent a more serious
(for example, service affecting) fault. Such a severity
can be reported, for example, when the detected alarm
condition is not currently degrading the capacity of the
resource.";
}
enum warning {
value 4;
description
"The 'warning' severity level indicates the detection of
a potential or impending service affecting fault, before
any significant effects have been felt. Action should be
taken to further diagnose (if necessary) and correct the
problem in order to prevent it from becoming a more
serious service affecting fault.";
}
enum major {
value 5;
description
"The 'major' severity level indicates that a service
affecting condition has developed and an urgent
corrective action is required. Such a severity can be
reported, for example, when there is a severe
degradation in the capability of the resource
and its full capability must be restored.";
}
enum critical {
value 6;
description
"The 'critical' severity level indicates that a service
affecting condition has occurred and an immediate
corrective action is required. Such a severity can be
reported, for example, when a resource becomes totally
out of service and its capability must be restored.";
}
}
description
"The severity level of the alarm. Note well that value 'clear'
is not included. If an alarm is cleared or not is a separate
boolean flag.";
reference
"ITU Recommendation X.733: Information Technology
- Open Systems Interconnection
- System Management: Alarm Reporting Function";
}
typedef severity-with-clear {
type union {
type enumeration {
enum cleared {
value 1;
description
"The alarm is cleared by the instrumentation.";
}
}
type severity;
}
description
"The severity level of the alarm including clear.
This is used *only* in notifications reporting state changes
for an alarm.";
}
typedef operator-state {
type enumeration {
enum none {
value 1;
description
"The alarm is not being taken care of.";
}
enum ack {
value 2;
description
"The alarm is being taken care of. Corrective action not
taken yet, or failed";
}
enum closed {
value 3;
description
"Corrective action taken successfully.";
}
enum shelved {
value 4;
description
"Alarm shelved. Alarms in alarms/shelved-alarms/
MUST be assigned this operator state by the server as
the last entry in the operator-state-change list.";
}
enum un-shelved {
value 5;
description
"Alarm moved back to alarm-list from shelf.
Alarms 'moved' from /alarms/shelved-alarms/
to /alarms/alarm-list MUST be assigned this
state by the server as the last entry in the
operator-state-change list.";
}
}
description
"Operator states on an alarm. The 'closed' state indicates
that an operator considers the alarm being resolved. This
is separate from the resource alarm clear flag.";
}
/* Alarm type */
typedef alarm-type-id {
type identityref {
base alarm-identity;
}
description
"Identifies an alarm type. The description of the alarm type
id MUST indicate if the alarm type is abstract or not. An
abstract alarm type is used as a base for other alarm type ids
and will not be used as a value for an alarm or be present in
the alarm inventory.";
}
typedef alarm-type-qualifier {
type string;
description
"If an alarm type can not be fully specified at design time by
alarm-type-id, this string qualifier is used in addition to
fully define a unique alarm type.
The definition of alarm qualifiers is considered being part
of the instrumentation and out of scope for this module.
An empty string is used when this is part of a key.";
}
/*
* Groupings
*/
grouping common-alarm-parameters {
description
"Common parameters for an alarm.
This grouping is used both in the alarm list and in the
notification representing an alarm state change.";
leaf resource {
type resource;
mandatory true;
description
"The alarming resource. See also 'alt-resource'.
This could for example be a reference to the alarming
interface";
}
leaf alarm-type-id {
type alarm-type-id;
mandatory true;
description
"This leaf and the leaf 'alarm-type-qualifier' together
provides a unique identification of the alarm type.";
}
leaf alarm-type-qualifier {
type alarm-type-qualifier;
description
"This leaf is used when the 'alarm-type-id' leaf cannot
uniquely identify the alarm type. Normally, this is not
the case, and this leaf is the empty string.";
}
leaf-list alt-resource {
type resource;
description
"Used if the alarming resource is available over other
interfaces. This field can contain SNMP OID's, CIM paths or
3GPP Distinguished names for example.";
}
list related-alarm {
key "resource alarm-type-id alarm-type-qualifier";
description
"References to related alarms. Note that the related alarm
might have been removed from the alarm list.";
leaf resource {
type leafref {
path "/alarms/alarm-list/alarm/resource";
require-instance false;
}
description
"The alarming resource for the related alarm.";
}
leaf alarm-type-id {
type leafref {
path "/alarms/alarm-list/alarm"
+ "[resource=current()/../resource]"
+ "/alarm-type-id";
require-instance false;
}
description
"The alarm type identifier for the related alarm.";
}
leaf alarm-type-qualifier {
type leafref {
path "/alarms/alarm-list/alarm"
+ "[resource=current()/../resource]"
+ "[alarm-type-id=current()/../alarm-type-id]"
+ "/alarm-type-qualifier";
require-instance false;
}
description
"The alarm qualifier for the related alarm.";
}
}
leaf-list impacted-resource {
type resource;
description
"Resources that might be affected by this alarm. If the
system creates an alarm on a resource and also has a mapping
to other resources that might be impacted, these resources
can be listed in this leaf-list. In this way the system can
create one alarm instead of several. For example, if an
interface has an alarm, the 'impacted-resource' can
reference the aggregated port channels.";
}
leaf-list root-cause-resource {
type resource;
description
"Resources that are candidates for causing the alarm. If the
system has a mechanism to understand the candidate root
causes of an alarm, this leaf-list can be used to list the
root cause candidate resources. In this way the system can
create one alarm instead of several. An example might be a
logging system (alarm resource) that fails, the alarm can
reference the file-system in the 'root-cause-resource'
leaf-list. Note that the intended use is not to also send an
an alarm with the root-cause-resource as alarming resource.
The root-cause-resource leaf list is a hint and should not
also generate an alarm for the same problem.";
}
}
grouping alarm-state-change-parameters {
description
"Parameters for an alarm state change.
This grouping is used both in the alarm list's
status-change list and in the notification representing an
alarm state change.";
leaf time {
type yang:date-and-time;
mandatory true;
description
"The time the status of the alarm changed. The value
represents the time the real alarm state change appeared
in the resource and not when it was added to the
alarm list. The /alarm-list/alarm/last-changed MUST be
set to the same value.";
}
leaf perceived-severity {
type severity-with-clear;
mandatory true;
description
"The severity of the alarm as defined by X.733. Note
that this may not be the original severity since the alarm
may have changed severity.";
reference
"ITU Recommendation X.733: Information Technology
- Open Systems Interconnection
- System Management: Alarm Reporting Function";
}
leaf alarm-text {
type alarm-text;
mandatory true;
description
"A user friendly text describing the alarm state change.";
reference
"ITU Recommendation X.733: Information Technology
- Open Systems Interconnection
- System Management: Alarm Reporting Function";
}
}
grouping operator-parameters {
description
"This grouping defines parameters that can
be changed by an operator";
leaf time {
type yang:date-and-time;
mandatory true;
description
"Timestamp for operator action on alarm.";
}
leaf operator {
type string;
mandatory true;
description
"The name of the operator that has acted on this
alarm.";
}
leaf state {
type operator-state;
mandatory true;
description
"The operator's view of the alarm state.";
}
leaf text {
type string;
description
"Additional optional textual information provided by
the operator.";
}
}
grouping resource-alarm-parameters {
description
"Alarm parameters that originates from the resource view.";
leaf is-cleared {
type boolean;
mandatory true;
description
"Indicates the current clearance state of the alarm. An
alarm might toggle from active alarm to cleared alarm and
back to active again.";
}
leaf last-changed {
type yang:date-and-time;
mandatory true;
description
"A timestamp when the alarm status was last changed. Status
changes are changes to 'is-cleared', 'perceived-severity',
and 'alarm-text'.";
}
leaf perceived-severity {
type severity;
mandatory true;
description
"The last severity of the alarm.
If an alarm was raised with severity 'warning', but later
changed to 'major', this leaf will show 'major'.";
}
leaf alarm-text {
type alarm-text;
mandatory true;
description
"The last reported alarm text. This text should contain
information for an operator to be able to understand
the problem and how to resolve it.";
}
list status-change {
if-feature alarm-history;
key time;
min-elements 1;
description
"A list of status change events for this alarm.
The entry with latest time-stamp in this list MUST
correspond to the leafs 'is-cleared', 'perceived-severity'
and 'alarm-text' for the alarm. The time-stamp for that
entry MUST be equal to the 'last-changed' leaf.
This list is ordered according to the timestamps of
alarm state changes. The last item corresponds to the
latest state change.
The following state changes creates an entry in this
list:
- changed severity (warning, minor, major, critical)
- clearance status, this also updates the 'is-cleared'
leaf
- alarm text update";
uses alarm-state-change-parameters;
}
}
/*
* The /alarms data tree
*/
container alarms {
description
"The top container for this module";
container control {
description
"Configuration to control the alarm behaviour.";
leaf max-alarm-status-changes {
type union {
type uint16;
type enumeration {
enum infinite {
description
"The status change entries are accumulated
infinitely.";
}
}
}
default 32;
description
"The status-change entries are kept in a circular list
per alarm. When this number is exceeded, the oldest
status change entry is automatically removed. If the
value is 'infinite', the status change entries are
accumulated infinitely.";
}
leaf notify-status-changes {
type boolean;
default false;
description
"This leaf controls whether notifications are sent on all
alarm status updates, e.g., updated perceived-severity or
alarm-text. By default the notifications are only sent
when a new alarm is raised, re-raised after being cleared
and when an alarm is cleared.";
}
container alarm-shelving {
if-feature alarm-shelving;
description
"This list is used to shelve alarms. The server will move
any alarms corresponding to the shelving criteria from the
alarms/alarm-list/alarm list to the
alarms/shelved-alarms/shelved-alarm list. It will also
stop sending notifications for the shelved alarms. The
conditions in the shelf criteria are logically ANDed.
When the shelving criteria is deleted or changed, the
non-matching alarms MUST appear in the
alarms/alarm-list/alarm list according to the real state.
This means that the instrumentation MUST maintain states
for the shelved alarms. Alarms that match the criteria
shall have an operator-state 'shelved'.";
list shelf {
key shelf-name;
leaf shelf-name {
type string;
description
"An arbitrary name for the alarm shelf.";
}
description
"Each entry defines the criteria for shelving alarms.
Criterias are ANDed.";
leaf resource {
type resource;
description
"Shelve alarms for this resource.";
}
leaf alarm-type-id {
type alarm-type-id;
description
"Shelve alarms for this alarm type identifier.";
}
leaf alarm-type-qualifier {
type alarm-type-qualifier;
description
"Shelve alarms for this alarm type qualifier.";
}
leaf description {
type string;
description
"An optional textual description of the shelf. This
description should include the reason for shelving
these alarms.";
}
}
}
}
container alarm-inventory {
config false;
description
"This list contains all possible alarm types for the system.
If the system knows for wich resources a a specific alarm
type can appear, this is also identified in the inventory.
The list also tells if each alarm type has a corresponding
clear state. The inventory shall only contain concrete
alarm types.
The alarm inventory MUST be updated by the system when new
alarms can appear. This can be the case when installing new
software modules or inserting new card types. A
notification 'alarm-inventory-changed' is sent when the
inventory is changed.";
list alarm-type {
key "alarm-type-id alarm-type-qualifier";
description
"An entry in this list defines a possible alarm.";
leaf alarm-type-id {
type alarm-type-id;
mandatory true;
description
"The statically defined alarm type identifier for this
possible alarm.";
}
leaf alarm-type-qualifier {
type alarm-type-qualifier;
description
"The optionally dynamically defined alarm type identifier
for this possible alarm.";
}
leaf-list resource {
type string;
description
"Optionally, specifies for which resources the alarm type
is valid. This string is for human consumption but
SHOULD refer to paths in the model.";
}
leaf has-clear {
type boolean;
mandatory true;
description
"This leaf tells the operator if the alarm will be
cleared when the correct corrective action has been
taken. Implementations SHOULD strive for detecting the
cleared state for all alarm types. If this leaf is
true, the operator can monitor the alarm until it
becomes cleared after the corrective action has been
taken. If this leaf is false the operator needs to
validate that the alarm is not longer active using other
mechanisms. Alarms can lack a corresponding clear due
to missing instrumentation or that there is no logical
corresponding clear state.";
}
leaf description {
type string;
mandatory true;
description
"A description of the possible alarm. It SHOULD include
information on possible underlying root causes and
corrective actions.";
}
}
}
container summary {
config false;
description
"This container gives a summary of number of alarms
and shelved alarms";
list alarm-summary {
key severity;
description
"A global summary of all alarms in the system.";
leaf severity {
type severity;
description
"Alarm summary for this severity level.";
}
leaf total {
type yang:gauge32;
description
"Total number of alarms of this severity level.";
}
leaf cleared {
type yang:gauge32;
description
"For this severity level, the number of alarms that are
cleared.";
}
leaf cleared-not-closed {
if-feature operator-actions;
type yang:gauge32;
description
"For this severity level, the number of alarms that are
cleared but not closed.";
}
leaf cleared-closed {
if-feature operator-actions;
type yang:gauge32;
description
"For this severity level, the number of alarms that are
cleared and closed.";
}
leaf not-cleared-closed {
if-feature operator-actions;
type yang:gauge32;
description
"For this severity level, the number of alarms that are
not cleared but closed.";
}
leaf not-cleared-not-closed {
if-feature operator-actions;
type yang:gauge32;
description
"For this severity level, the number of alarms that are
not cleared and not closed.";
}
}
leaf shelves-active {
if-feature alarm-shelving;
type empty;
description
"This is a hint to the operator that there are active
alarm shelves. This leaf MUST exist if the
alarms/shelved-alarms/number-of-shelved-alarms is > 0.";
}
}
container alarm-list {
config false;
description
"The alarms in the system.";
leaf number-of-alarms {
type yang:gauge32;
description
"This object shows the total number of
alarms in the system, i.e., the total number
of entries in the alarm list.";
}
leaf last-changed {
type yang:date-and-time;
description
"A timestamp when the alarm list was last
changed. The value can be used by a manager to
initiate an alarm resynchronization procedure.";
}
list alarm {
key "resource alarm-type-id alarm-type-qualifier";
description
"The list of alarms. Each entry in the list holds one
alarm for a given alarm type and resource.
An alarm can be updated from the underlying resource or
by the user. The following leafs are maintained by the
resource: is-cleared, last-change, perceived-severity,
and alarm-text. An operator can change: operator-state
and operator-text.
Entries appear in the alarm list the first time an
alarm becomes active for a given alarm-type and resource.
Entries do not get deleted when the alarm is cleared, this
is a boolean state in the alarm.
Alarm entries are removed, purged, from the list by an
explicit purge action. For example, delete all alarms
that are cleared and in closed operator-state that are
older than 24 hours. Systems may also remove alarms based
on locally configured policies which is out of scope for
this module.";
leaf time-created {
type yang:date-and-time;
mandatory true;
description
"The time-stamp when this alarm entry was created. This
represents the first time the alarm appeared, it can
also represent that the alarm re-appeared after a purge.
Further state-changes of the same alarm does not change
this leaf, these changes will update the 'last-changed'
leaf.";
}
uses common-alarm-parameters;
uses resource-alarm-parameters;
list operator-state-change {
if-feature operator-actions;
key time;
description
"This list is used by operators to indicate
the state of human intervention on an alarm.
For example, if an operator has seen an alarm,
the operator can add a new item to this list indicating
that the alarm is acknowledged.";
uses operator-parameters;
}
action set-operator-state {
if-feature operator-actions;
description
"This is a means for the operator to indicate
the level of human intervention on an alarm.";
input {
leaf state {
type operator-state;
mandatory true;
description
"Set this operator state.";
}
leaf text {
type string;
description
"Additional optional textual information.";
}
}
}
}
}
container shelved-alarms {
if-feature alarm-shelving;
config false;
description
"The shelved alarms. Alarms appear here if they match the
criterias in /alarms/control/alarm-shelving. This list does
not generate any notifications. The list represents alarms
that are considered not relevant by the operator. Alarms in
this list have an operator-state of 'shelved'. This can not
be changed.";
leaf number-of-shelved-alarms {
type yang:gauge32;
description
"This object shows the total number of currently
alarms, i.e., the total number of entries
in the alarm list.";
}
leaf alarm-shelf-last-changed {
type yang:date-and-time;
description
"A timestamp when the shelved alarm list was last
changed. The value can be used by a manager to
initiate an alarm resynchronization procedure.";
}
list shelved-alarm {
key "resource alarm-type-id alarm-type-qualifier";
description
"The list of shelved alarms. Each entry in the list holds
one alarm for a given alarm type and resource. An alarm
can be updated from the underlying resource or by the
user. These changes are reflected in different lists
below the corresponding alarm.";
uses common-alarm-parameters;
uses resource-alarm-parameters;
list operator-state-change {
if-feature operator-actions;
key time;
description
"This list is used by operators to indicate
the state of human intervention on an alarm.
For example, if an operator has seen an alarm,
the operator can add a new item to this list indicating
that the alarm is acknowledged.";
uses operator-parameters;
}
}
}
}
/*
* Operations
*/
rpc compress-alarms {
if-feature alarm-history;
description
"This operation requests the server to compress entries in the
alarm list by removing all but the latest state change for all
alarms. Conditions in the input are logically ANDed. If no
input condition is given, all alarms are compressed.";
input {
leaf resource {
type leafref {
path "/alarms/alarm-list/alarm/resource";
require-instance false;
}
description
"Compress the alarms with this resource.";
}
leaf alarm-type-id {
type leafref {
path "/alarms/alarm-list/alarm/alarm-type-id";
}
description
"Compress alarms with this alarm-type-id.";
}
leaf alarm-type-qualifier {
type leafref {
path "/alarms/alarm-list/alarm/alarm-type-qualifier";
}
description
"Compress the alarms with this alarm-type-qualifier.";
}
}
output {
leaf compressed-alarms {
type uint32;
description
"Number of compressed alarm entries.";
}
}
}
grouping filter-input {
description
"Grouping to specify a filter construct on alarm information.";
leaf alarm-status {
type enumeration {
enum any {
description
"Ignore alarm clearance status.";
}
enum cleared {
description
"Filter cleared alarms.";
}
enum not-cleared {
description
"Filter not cleared alarms.";
}
}
mandatory true;
description
"The clearance status of the alarm.";
}
container older-than {
presence "Age specification";
description
"Matches the 'last-status-change' leaf in the alarm.";
choice age-spec {
description
"Filter using date and time age.";
case seconds {
leaf seconds {
type uint16;
description
"Seconds part";
}
}
case minutes {
leaf minutes {
type uint16;
description
"Minute part";
}
}
case hours {
leaf hours {
type uint16;
description
"Hours part.";
}
}
case days {
leaf days {
type uint16;
description
"Day part";
}
}
case weeks {
leaf weeks {
type uint16;
description
"Week part";
}
}
}
}
container severity {
presence "Severity filter";
choice sev-spec {
description
"Filter based on severity level.";
leaf below {
type severity;
description
"Severity less than this leaf.";
}
leaf is {
type severity;
description
"Severity level equal this leaf.";
}
leaf above {
type severity;
description
"Severity level higher than this leaf.";
}
}
description
"Filter based on severity.";
}
container operator-state-filter {
if-feature operator-actions;
presence "Operator state filter";
leaf state {
type operator-state;
description
"Filter on operator state.";
}
leaf user {
type string;
description
"Filter based on which operator.";
}
description
"Filter based on operator state.";
}
}
rpc purge-alarms {
description
"This operation requests the server to delete entries from the
alarm list according to the supplied criteria. Typically it
can be used to delete alarms that are in closed operator state
and older than a specified time. The number of purged alarms
is returned as an output parameter";
input {
uses filter-input;
}
output {
leaf purged-alarms {
type uint32;
description
"Number of purged alarms.";
}
}
}
/*
* Notifications
*/
notification alarm-notification {
description
"This notification is used to report a state change for an
alarm. The same notification is used for reporting a newly
raised alarm, a cleared alarm or changing the text and/or
severity of an existing alarm.";
uses common-alarm-parameters;
uses alarm-state-change-parameters;
}
notification alarm-inventory-changed {
description
"This notification is used to report that the list of possible
alarms has changed. This can happen when for example if a new
software module is installed, or a new physical card is
inserted";
}
notification operator-action {
if-feature operator-actions;
description
"This notification is used to report that an operator
acted upon an alarm.";
leaf resource {
type leafref {
path "/alarms/alarm-list/alarm/resource";
require-instance false;
}
description
"The alarming resource.";
}
leaf alarm-type-id {
type leafref {
path "/alarms/alarm-list/alarm"
+ "[resource=current()/../resource]"
+ "/alarm-type-id";
require-instance false;
}
description
"The alarm type identifier for the alarm.";
}
leaf alarm-type-qualifier {
type leafref {
path "/alarms/alarm-list/alarm"
+ "[resource=current()/../resource]"
+ "[alarm-type-id=current()/../alarm-type-id]"
+ "/alarm-type-qualifier";
require-instance false;
}
description
"The alarm qualifier for the alarm.";
}
uses operator-parameters;
}
}