IS-IS Working Group S. Litkowski
Internet-Draft Orange
Intended status: Standards Track D. Yeung
Expires: March 8, 2020 Arrcus, Inc
A. Lindem
Cisco Systems
J. Zhang
Juniper Networks
L. Lhotka
CZ.NIC
September 5, 2019
YANG Data Model for IS-IS Protocol
draft-ietf-isis-yang-isis-cfg-36
Abstract
This document defines a YANG data model that can be used to configure
and manage IS-IS protocol on network elements.
Requirements Language
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in BCP
14 [RFC2119] [RFC8174] when, and only when, they appear in all
capitals, as shown here.
Status of This Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF). Note that other groups may also distribute
working documents as Internet-Drafts. The list of current Internet-
Drafts is at https://datatracker.ietf.org/drafts/current/.
Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
time. It is inappropriate to use Internet-Drafts as reference
material or to cite them other than as "work in progress."
This Internet-Draft will expire on March 8, 2020.
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Copyright Notice
Copyright (c) 2019 IETF Trust and the persons identified as the
document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal
Provisions Relating to IETF Documents
(https://trustee.ietf.org/license-info) in effect on the date of
publication of this document. Please review these documents
carefully, as they describe your rights and restrictions with respect
to this document. Code Components extracted from this document must
include Simplified BSD License text as described in Section 4.e of
the Trust Legal Provisions and are provided without warranty as
described in the Simplified BSD License.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2
2. Design of the Data Model . . . . . . . . . . . . . . . . . . 3
2.1. IS-IS Configuration . . . . . . . . . . . . . . . . . . . 9
2.2. Multitopology Parameters . . . . . . . . . . . . . . . . 9
2.3. Per-Level Parameters . . . . . . . . . . . . . . . . . . 10
2.4. Per-Interface Parameters . . . . . . . . . . . . . . . . 11
2.5. Authentication Parameters . . . . . . . . . . . . . . . . 18
2.6. IGP/LDP synchronization . . . . . . . . . . . . . . . . . 19
2.7. ISO parameters . . . . . . . . . . . . . . . . . . . . . 19
2.8. IP FRR . . . . . . . . . . . . . . . . . . . . . . . . . 19
2.9. Operational States . . . . . . . . . . . . . . . . . . . 19
3. RPC Operations . . . . . . . . . . . . . . . . . . . . . . . 20
4. Notifications . . . . . . . . . . . . . . . . . . . . . . . . 20
5. Interaction with Other YANG Modules . . . . . . . . . . . . . 22
6. IS-IS YANG Module . . . . . . . . . . . . . . . . . . . . . . 22
7. Security Considerations . . . . . . . . . . . . . . . . . . . 105
8. Contributors . . . . . . . . . . . . . . . . . . . . . . . . 107
9. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 107
10. References . . . . . . . . . . . . . . . . . . . . . . . . . 107
10.1. Normative References . . . . . . . . . . . . . . . . . . 107
10.2. Informative References . . . . . . . . . . . . . . . . . 112
Appendix A. Example of IS-IS configuration in XML . . . . . . . 112
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 114
1. Introduction
This document defines a YANG [RFC7950] data model for IS-IS routing
protocol.
The data model covers configuration of an IS-IS routing protocol
instance as well as operational states.
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A simplified tree representation of the data model is presented in
Section 2. Tree diagrams used in this document follow the notation
defined in [RFC8340].
The module is designed as per NMDA (Network Management Datastore
Architecture) [RFC8342].
2. Design of the Data Model
The IS-IS YANG module augments the "control-plane-protocol" list in
ietf-routing module [RFC8349] with specific IS-IS parameters.
The figure below describes the overall structure of the isis YANG
module:
module: ietf-isis
augment /rt:routing/rt:ribs/rt:rib/rt:routes/rt:route:
+--ro metric? uint32
+--ro tag* uint64
+--ro route-type? enumeration
augment /if:interfaces/if:interface:
+--rw clns-mtu? uint16 {osi-interface}?
augment
| /rt:routing/rt:control-plane-protocols/rt:control-plane-protocol:
+--rw isis
+--rw enable? boolean {admin-control}?
+--rw level-type? level
+--rw system-id? system-id
+--rw maximum-area-addresses? uint8 {maximum-area-addresses}?
+--rw area-address* area-address
+--rw lsp-mtu? uint16
+--rw lsp-lifetime? uint16
+--rw lsp-refresh?
| rt-types:timer-value-seconds16 {lsp-refresh}?
+--rw poi-tlv? boolean {poi-tlv}?
+--rw graceful-restart {graceful-restart}?
| +--rw enable? boolean
| +--rw restart-interval? rt-types:timer-value-seconds16
| +--rw helper-enable? boolean
+--rw nsr {nsr}?
| +--rw enable? boolean
+--rw node-tags {node-tag}?
| +--rw node-tag* [tag]
| ...
+--rw metric-type
| +--rw value? enumeration
| +--rw level-1
| | ...
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| +--rw level-2
| ...
+--rw default-metric
| +--rw value? wide-metric
| +--rw level-1
| | ...
| +--rw level-2
| ...
+--rw auto-cost {auto-cost}?
| +--rw enable? boolean
| +--rw reference-bandwidth? uint32
+--rw authentication
| +--rw (authentication-type)?
| | ...
| +--rw level-1
| | ...
| +--rw level-2
| ...
+--rw address-families {nlpid-control}?
| +--rw address-family-list* [address-family]
| ...
+--rw mpls
| +--rw te-rid {te-rid}?
| | ...
| +--rw ldp
| ...
+--rw spf-control
| +--rw paths? uint16 {max-ecmp}?
| +--rw ietf-spf-delay {ietf-spf-delay}?
| ...
+--rw fast-reroute {fast-reroute}?
| +--rw lfa {lfa}?
+--rw preference
| +--rw (granularity)?
| ...
+--rw overload
| +--rw status? boolean
+--rw overload-max-metric {overload-max-metric}?
| +--rw timeout? rt-types:timer-value-seconds16
+--ro spf-log
| +--ro event* [id]
| ...
+--ro lsp-log
| +--ro event* [id]
| ...
+--ro hostnames
| +--ro hostname* [system-id]
| ...
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+--ro database
| +--ro levels* [level]
| ...
+--ro local-rib
| +--ro route* [prefix]
| ...
+--ro system-counters
| +--ro level* [level]
| ...
+--ro protected-routes
| +--ro address-family-stats* [address-family prefix alternate]
| ...
+--ro unprotected-routes
| +--ro address-family-stats* [address-family prefix]
| ...
+--ro protection-statistics* [frr-protection-method]
| +--ro frr-protection-method identityref
| +--ro address-family-stats* [address-family]
| ...
+--rw discontinuity-time? yang:date-and-time
+--rw topologies {multi-topology}?
| +--rw topology* [name]
| ...
+--rw interfaces
+--rw interface* [name]
...
rpcs:
+---x clear-adjacency
| +---w input
| +---w routing-protocol-instance-name
| ->/rt:routing/control-plane-protocols/control-plane-protocol/name
| +---w level? level
| +---w interface? if:interface-ref
+---x clear-database
+---w input
+---w routing-protocol-instance-name
-> /rt:routing/control-plane-protocols/control-plane-protocol/name
+---w level? level
notifications:
+---n database-overload
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro overload? enumeration
+---n lsp-too-large
| +--ro routing-protocol-name?
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| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro pdu-size? uint32
| +--ro lsp-id? lsp-id
+---n if-state-change
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro state? if-state-type
+---n corrupted-lsp-detected
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro lsp-id? lsp-id
+---n attempt-to-exceed-max-sequence
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro lsp-id? lsp-id
+---n id-len-mismatch
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro pdu-field-len? uint8
| +--ro raw-pdu? binary
+---n max-area-addresses-mismatch
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro max-area-addresses? uint8
| +--ro raw-pdu? binary
+---n own-lsp-purge
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
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| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro lsp-id? lsp-id
+---n sequence-number-skipped
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro lsp-id? lsp-id
+---n authentication-type-failure
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro raw-pdu? binary
+---n authentication-failure
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro raw-pdu? binary
+---n version-skew
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro protocol-version? uint8
| +--ro raw-pdu? binary
+---n area-mismatch
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro raw-pdu? binary
+---n rejected-adjacency
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
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| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro raw-pdu? binary
| +--ro reason? string
+---n protocols-supported-mismatch
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro raw-pdu? binary
| +--ro protocols* uint8
+---n lsp-error-detected
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro lsp-id? lsp-id
| +--ro raw-pdu? binary
| +--ro error-offset? uint32
| +--ro tlv-type? uint8
+---n adjacency-state-change
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro neighbor? string
| +--ro neighbor-system-id? system-id
| +--ro state? adj-state-type
| +--ro reason? string
+---n lsp-received
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro lsp-id? lsp-id
| +--ro sequence? uint32
| +--ro received-timestamp? yang:timestamp
| +--ro neighbor-system-id? system-id
+---n lsp-generation
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+--ro routing-protocol-name?
-> /rt:routing/control-plane-protocols/control-plane-protocol/name
+--ro isis-level? level
+--ro lsp-id? lsp-id
+--ro sequence? uint32
+--ro send-timestamp? yang:timestamp
2.1. IS-IS Configuration
The IS-IS configuration is divided in:
o Global parameters.
o Per interface configuration (see Section 2.4).
Additional modules may be created to support any additional
parameters. These additional modules MUST augment the ietf-isis
module.
The model implements features, thus some of the configuration
statement becomes optional. As an example, the ability to control
the administrative state of a particular IS-IS instance is optional.
By advertising the feature "admin-control", a device communicates to
the client that it supports the ability to shutdown a particular IS-
IS instance.
The global configuration contains usual IS-IS parameters such as lsp-
mtu, lsp-lifetime, lsp-refresh, default-metric...
2.2. Multitopology Parameters
The model supports multitopology (MT) IS-IS as defined in [RFC5120].
The "topologies" container is used to enable support of MT
extensions.
The "name" used in the topology list should refer to an existing RIB
of the device.
Some specific parameters can be defined on a per topology basis both
at global level and at interface level: for example, an interface
metric can be defined per topology.
Multiple address families (like IPv4 or IPv6) can also be activated
within the default topology. This can be achieved using the address-
families container (requiring "nlpid-control" feature to be
advertised).
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2.3. Per-Level Parameters
Some parameters allow a per level configuration. In this case, the
parameter is modeled as a container with three configuration
locations:
o a top-level container: corresponds to level-1-2, so the
configuration applies to both levels.
o a level-1 container: corresponds to level-1 specific parameters.
o a level-2 container: corresponds to level-2 specific parameters.
+--rw priority
| +--rw value? uint8
| +--rw level-1
| | +--rw value? uint8
| +--rw level-2
| +--rw value? uint8
Example:
250
100
200
An implementation MUST prefer a level specific parameter over a
level-all parameter. As example, if the priority is 100 for the
level-1, 200 for the level-2 and 250 for the top-level configuration,
the implementation should use 100 for the level-1 and 200 for the
level-2.
Some parameters like "overload bit" and "route preference" are not
modeled to support a per level configuration. If an implementation
supports per level configuration for such parameter, this
implementation MUST augment the current model by adding both level-1
and level-2 containers and MUST reuse existing configuration
groupings.
Example of augmentation:
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augment "/rt:routing/" +
"rt:control-plane-protocols/rt:control-plane-protocol"+
"/isis:isis/isis:overload" {
when "rt:type = 'isis:isis'" {
description
"This augment IS-IS routing protocol when used";
}
description
"This augments IS-IS overload configuration
with per level configuration.";
container level-1 {
uses isis:overload-global-cfg;
description
"Level 1 configuration.";
}
container level-2 {
uses isis:overload-global-cfg;
description
"Level 2 configuration.";
}
}
If an implementation does not support per level configuration for a
parameter modeled with per level configuration, the implementation
should advertise a deviation to announce the non-support of the
level-1 and level-2 containers.
Finally, if an implementation supports per level configuration but
does not support the level-1-2 configuration, it SHOULD also
advertise a deviation.
2.4. Per-Interface Parameters
The per-interface section of the IS-IS instance describes the
interface specific parameters.
The interface is modeled as a reference to an existing interface
defined in the "ietf-interfaces" YANG model ([RFC8343].
Each interface has some interface-specific parameters that may have a
different per level value as described in previous section. An
interface-specific parameter MUST be preferred over an IS-IS global
parameter.
Some parameters like hello-padding are defined as containers to allow
easy extension by vendor specific modules.
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+--rw interfaces
+--rw interface* [name]
+--rw name if:interface-ref
+--rw enable? boolean {admin-control}?
+--rw level-type? level
+--rw lsp-pacing-interval?
| rt-types:timer-value-milliseconds
+--rw lsp-retransmit-interval?
| rt-types:timer-value-seconds16
+--rw passive? boolean
+--rw csnp-interval?
| rt-types:timer-value-seconds16
+--rw hello-padding
| +--rw enable? boolean
+--rw mesh-group-enable? mesh-group-state
+--rw mesh-group? uint8
+--rw interface-type? interface-type
+--rw tag* uint32 {prefix-tag}?
+--rw tag64* uint64 {prefix-tag64}?
+--rw node-flag? boolean {node-flag}?
+--rw hello-authentication
| +--rw (authentication-type)?
| | +--:(key-chain) {key-chain}?
| | | +--rw key-chain? key-chain:key-chain-ref
| | +--:(password)
| | +--rw key? string
| | +--rw crypto-algorithm? identityref
| +--rw level-1
| | +--rw (authentication-type)?
| | +--:(key-chain) {key-chain}?
| | | +--rw key-chain? key-chain:key-chain-ref
| | +--:(password)
| | +--rw key? string
| | +--rw crypto-algorithm? identityref
| +--rw level-2
| +--rw (authentication-type)?
| +--:(key-chain) {key-chain}?
| | +--rw key-chain? key-chain:key-chain-ref
| +--:(password)
| +--rw key? string
| +--rw crypto-algorithm? identityref
+--rw hello-interval
| +--rw value? rt-types:timer-value-seconds16
| +--rw level-1
| | +--rw value? rt-types:timer-value-seconds16
| +--rw level-2
| +--rw value? rt-types:timer-value-seconds16
+--rw hello-multiplier
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| +--rw value? uint16
| +--rw level-1
| | +--rw value? uint16
| +--rw level-2
| +--rw value? uint16
+--rw priority
| +--rw value? uint8
| +--rw level-1
| | +--rw value? uint8
| +--rw level-2
| +--rw value? uint8
+--rw metric
| +--rw value? wide-metric
| +--rw level-1
| | +--rw value? wide-metric
| +--rw level-2
| +--rw value? wide-metric
+--rw bfd {bfd}?
| +--rw enable? boolean
| +--rw local-multiplier? multiplier
| +--rw (interval-config-type)?
| +--:(tx-rx-intervals)
| | +--rw desired-min-tx-interval? uint32
| | +--rw required-min-rx-interval? uint32
| +--:(single-interval) {single-minimum-interval}?
| +--rw min-interval? uint32
+--rw address-families {nlpid-control}?
| +--rw address-family-list* [address-family]
| +--rw address-family iana-rt-types:address-family
+--rw mpls
| +--rw ldp
| +--rw igp-sync? boolean {ldp-igp-sync}?
+--rw fast-reroute {fast-reroute}?
| +--rw lfa {lfa}?
| +--rw candidate-enable? boolean
| +--rw enable? boolean
| +--rw remote-lfa {remote-lfa}?
| | +--rw enable? boolean
| +--rw level-1
| | +--rw candidate-enable? boolean
| | +--rw enable? boolean
| | +--rw remote-lfa {remote-lfa}?
| | +--rw enable? boolean
| +--rw level-2
| +--rw candidate-enable? boolean
| +--rw enable? boolean
| +--rw remote-lfa {remote-lfa}?
| +--rw enable? boolean
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+--ro adjacencies
| +--ro adjacency* []
| +--ro neighbor-sys-type? level
| +--ro neighbor-sysid? system-id
| +--ro neighbor-extended-circuit-id?
| | extended-circuit-id
| +--ro neighbor-snpa? snpa
| +--ro usage? level
| +--ro hold-timer?
| rt-types:timer-value-seconds16
| +--ro neighbor-priority? uint8
| +--ro lastuptime? yang:timestamp
| +--ro state? adj-state-type
+--ro event-counters
| +--ro adjacency-changes? uint32
| +--ro adjacency-number? uint32
| +--ro init-fails? uint32
| +--ro adjacency-rejects? uint32
| +--ro id-len-mismatch? uint32
| +--ro max-area-addresses-mismatch? uint32
| +--ro authentication-type-fails? uint32
| +--ro authentication-fails? uint32
| +--ro lan-dis-changes? uint32
+--ro packet-counters
| +--ro level* [level]
| +--ro level level-number
| +--ro iih
| | +--ro in? uint32
| | +--ro out? uint32
| +--ro ish
| | +--ro in? uint32
| | +--ro out? uint32
| +--ro esh
| | +--ro in? uint32
| | +--ro out? uint32
| +--ro lsp
| | +--ro in? uint32
| | +--ro out? uint32
| +--ro psnp
| | +--ro in? uint32
| | +--ro out? uint32
| +--ro csnp
| | +--ro in? uint32
| | +--ro out? uint32
| +--ro unknown
| +--ro in? uint32
+--rw discontinuity-time? yang:date-and-time
+--rw topologies {multi-topology}?
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+--rw topology* [name]
+--rw name
| -> ../../../../../../../../rt:ribs/rib/name
+--rw metric
+--rw value? wide-metric
+--rw level-1
| +--rw value? wide-metric
+--rw level-2
+--rw value? wide-metric
rpcs:
+---x clear-adjacency
| +---w input
| +---w routing-protocol-instance-name
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +---w level? level
| +---w interface? if:interface-ref
+---x clear-database
+---w input
+---w routing-protocol-instance-name
-> /rt:routing/control-plane-protocols/control-plane-protocol/name
+---w level? level
notifications:
+---n database-overload
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro overload? enumeration
+---n lsp-too-large
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro pdu-size? uint32
| +--ro lsp-id? lsp-id
+---n if-state-change
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro state? if-state-type
+---n corrupted-lsp-detected
| +--ro routing-protocol-name?
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| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro lsp-id? lsp-id
+---n attempt-to-exceed-max-sequence
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro lsp-id? lsp-id
+---n id-len-mismatch
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro pdu-field-len? uint8
| +--ro raw-pdu? binary
+---n max-area-addresses-mismatch
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro max-area-addresses? uint8
| +--ro raw-pdu? binary
+---n own-lsp-purge
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro lsp-id? lsp-id
+---n sequence-number-skipped
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro lsp-id? lsp-id
+---n authentication-type-failure
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
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| +--ro extended-circuit-id? extended-circuit-id
| +--ro raw-pdu? binary
+---n authentication-failure
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro raw-pdu? binary
+---n version-skew
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro protocol-version? uint8
| +--ro raw-pdu? binary
+---n area-mismatch
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro raw-pdu? binary
+---n rejected-adjacency
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro raw-pdu? binary
| +--ro reason? string
+---n protocols-supported-mismatch
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro raw-pdu? binary
| +--ro protocols* uint8
+---n lsp-error-detected
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
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| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro lsp-id? lsp-id
| +--ro raw-pdu? binary
| +--ro error-offset? uint32
| +--ro tlv-type? uint8
+---n adjacency-state-change
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro neighbor? string
| +--ro neighbor-system-id? system-id
| +--ro state? adj-state-type
| +--ro reason? string
+---n lsp-received
| +--ro routing-protocol-name?
| -> /rt:routing/control-plane-protocols/control-plane-protocol/name
| +--ro isis-level? level
| +--ro interface-name? if:interface-ref
| +--ro interface-level? level
| +--ro extended-circuit-id? extended-circuit-id
| +--ro lsp-id? lsp-id
| +--ro sequence? uint32
| +--ro received-timestamp? yang:timestamp
| +--ro neighbor-system-id? system-id
+---n lsp-generation
+--ro routing-protocol-name?
-> /rt:routing/control-plane-protocols/control-plane-protocol/name
+--ro isis-level? level
+--ro lsp-id? lsp-id
+--ro sequence? uint32
+--ro send-timestamp? yang:timestamp
2.5. Authentication Parameters
The module enables authentication configuration through the IETF key-
chain module [RFC8177]. The IS-IS module imports the "ietf-key-
chain" module and reuses some groupings to allow global and per
interface configuration of authentication. If a global
authentication is configured, an implementation SHOULD authenticate
PSNPs (Partial Sequence Number Packets), CSNPs (Complete Sequence
Number Packets) and LSPs (Link State Packets) with the authentication
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parameters supplied. The authentication of HELLO PDUs (Protocol Data
Units) can be activated on a per interface basis.
2.6. IGP/LDP synchronization
[RFC5443] defines a mechanism where IGP (Interior Gateway Protocol)
needs to be synchronized with LDP (Label Distribution Protocol). An
"ldp-igp-sync" feature has been defined in the model to support this
mechanism. The "mpls/ldp/igp-sync" leaf under "interface" allows
activation of the mechanism on a per interface basis. The "mpls/ldp/
igp-sync" container in the global configuration is empty on purpose
and is not required for the activation. The goal of this empty
container is to allow easy augmentation with additional parameters
like timers for example.
2.7. ISO parameters
As IS-IS protocol is based on ISO protocol suite, some ISO parameters
may be required.
This module augments interface configuration model to support ISO
configuration parameters.
The clns-mtu can be defined under the interface.
2.8. IP FRR
This YANG module supports LFA (Loop Free Alternates) [RFC5286] and
remote LFA [RFC7490] as IP FRR techniques. The "fast-reroute"
container may be augmented by other models to support other IPFRR
flavors (MRT, TILFA ...).
The current version of the model supports activation of LFA and
remote LFA at interface only. The global "lfa" container is present
but kept empty to allow augmentation with vendor specific properties
like policies.
Remote LFA is considered as a child of LFA. Remote LFA cannot be
enabled if LFA is not enabled.
The "candidate-enable" allows to mark an interface to be used as a
backup.
2.9. Operational States
Operational states are provided in the module in various places:
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o system-counters: provides statistical informations about the
global system.
o interface : provides configuration state informations for each
interface.
o adjacencies: provides state informations about current IS-IS
adjacencies.
o spf-log: provides informations about SPF events on the node. This
SHOULD be implemented as a wrapping buffer.
o lsp-log: provides informations about LSP events on the node
(reception of an LSP or modification of local LSP). This SHOULD
be implemented as a wrapping buffer and an implementation MAY
decide to log refresh LSPs or not.
o local-rib: provides the IS-IS internal routing table view.
o database: provides details on the current LSDB.
o hostnames: provides informations about system-id to hostname
mappings [RFC5301].
o fast-reroute: provides informations about IP FRR.
3. RPC Operations
The "ietf-isis" module defines two RPC operations:
o clear-database: reset the content of a particular IS-IS database
and restart database synchronization with the neighbors.
o clear-adjacency: restart a particular set of IS-IS adjacencies.
4. Notifications
The "ietf-isis" module introduces some notifications :
database-overload: raised when overload condition is changed.
lsp-too-large: raised when the system tries to propagate a PDU
that is too large.
if-state-change: raised when the state of an interface changes.
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corrupted-lsp-detected: raised when the system finds that an LSP
that was stored in memory has become corrupted.
attempt-to-exceed-max-sequence: This notification is sent when the
system wraps the 32-bit sequence counter of an LSP.
id-len-mismatch: This notification is sent when we receive a PDU
with a different value for the System ID length.
max-area-addresses-mismatch: This notification is sent when we
receive a PDU with a different value for the Maximum Area
Addresses.
own-lsp-purge: This notification is sent when the system receives
a PDU with its own system ID and zero age.
sequence-number-skipped: This notification is sent when the system
receives a PDU with its own system ID and different contents. The
system has to reissue the LSP with a higher sequence number.
authentication-type-failure: This notification is sent when the
system receives a PDU with the wrong authentication type field.
authentication-failure: This notification is sent when the system
receives a PDU with the wrong authentication information.
version-skew: This notification is sent when the system receives a
PDU with a different protocol version number.
area-mismatch: This notification is sent when the system receives
a Hello PDU from an IS that does not share any area address.
rejected-adjacency: This notification is sent when the system
receives a Hello PDU from an IS but does not establish an
adjacency for some reason.
protocols-supported-mismatch: This notification is sent when the
system receives a non-pseudonode LSP that has no matching protocol
supported.
lsp-error-detected: This notification is sent when the system
receives an LSP with a parse error.
adjacency-state-change: This notification is sent when an IS-IS
adjacency moves to Up state or to Down state.
lsp-received: This notification is sent when an LSP is received.
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lsp-generation: This notification is sent when an LSP is
regenerated.
5. Interaction with Other YANG Modules
The "isis" container augments the "/rt:routing/rt:control-plane-
protocols/control-plane-protocol" container of the ietf-routing
[RFC8349] module by defining IS-IS specific parameters.
The "isis" module augments "/if:interfaces/if:interface" defined by
[RFC8343] with ISO specific parameters.
The "isis" operational state container augments the "/rt:routing-
state/rt:control-plane-protocols/control-plane-protocol" container of
the ietf-routing module by defining IS-IS specific operational
states.
Some IS-IS specific routes attributes are added to route objects of
the ietf-routing module by augmenting "/rt:routing-
state/rt:ribs/rt:rib/rt:routes/rt:route".
The modules defined in this document use some groupings from ietf-
keychain [RFC8177].
The module reuses types from [RFC6991] and [RFC8294].
To support BFD for fast detection, the module relies on
[I-D.ietf-bfd-yang].
6. IS-IS YANG Module
The following RFCs, drafts and external standards are not referenced
in the document text but are referenced in the ietf-isis.yang module:
[ISO-10589], [RFC1195], [RFC2966], [RFC4090],[RFC5029], [RFC5130],
[RFC5305], [RFC5306], [RFC5307], [RFC5308], [RFC5880], [RFC5881],
[RFC6119], [RFC6232], [RFC7794], [RFC7981], [RFC8570], [RFC7917],
[RFC8405].
file "ietf-isis@2019-09-05.yang"
module ietf-isis {
yang-version 1.1;
namespace "urn:ietf:params:xml:ns:yang:ietf-isis";
prefix isis;
import ietf-routing {
prefix "rt";
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reference "RFC 8349 - A YANG Data Model for Routing
Management (NMDA Version)";
}
import ietf-inet-types {
prefix inet;
reference "RFC 6991 - Common YANG Data Types";
}
import ietf-yang-types {
prefix yang;
reference "RFC 6991 - Common YANG Data Types";
}
import ietf-interfaces {
prefix "if";
reference "RFC 8343 - A YANG Data Model for Interface
Management (NDMA Version)";
}
import ietf-key-chain {
prefix "key-chain";
reference "RFC 8177 - YANG Data Model for Key Chains";
}
import ietf-routing-types {
prefix "rt-types";
reference "RFC 8294 - Common YANG Data Types for the
Routing Area";
}
import iana-routing-types {
prefix "iana-rt-types";
reference "RFC 8294 - Common YANG Data Types for the
Routing Area";
}
import ietf-bfd-types {
prefix "bfd-types";
reference "RFC YYYY - YANG Data Model for Bidirectional
Forwarding Detection (BFD).
-- Note to RFC Editor Please replace YYYY with published RFC
number for draft-ietf-bfd-yang.";
}
organization
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"IETF LSR Working Group";
contact
"WG List:
Editor: Stephane Litkowski
Derek Yeung
Acee Lindem
Jeffrey Zhang
Ladislav Lhotka
";
description
"This YANG module defines the generic configuration and
operational state for the IS-IS protocol common to all
vendor implementations. It is intended that the module
will be extended by vendors to define vendor-specific
IS-IS configuration parameters and policies,
for example, route maps or route policies.
This YANG model conforms to the Network Management
Datastore Architecture (NMDA) as described in RFC 8242.
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 XXXX
(https://www.rfc-editor.org/info/rfcXXXX); see the RFC itself
for full legal notices.
The key words 'MUST', 'MUST NOT', 'REQUIRED', 'SHALL', 'SHALL
NOT', 'SHOULD', 'SHOULD NOT', 'RECOMMENDED', 'NOT RECOMMENDED',
'MAY', and 'OPTIONAL' in this document are to be interpreted as
described in BCP 14 (RFC 2119) (RFC 8174) when, and only when,
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they appear in all capitals, as shown here.
This version of this YANG module is part of RFC XXXX;
see the RFC itself for full legal notices.";
revision 2019-09-05 {
description
"Initial revision.";
reference "RFC XXXX";
}
/* Identities */
identity isis {
base rt:routing-protocol;
description "Identity for the IS-IS routing protocol.";
}
identity lsp-log-reason {
description "Base identity for an LSP change log reason.";
}
identity refresh {
base lsp-log-reason;
description
"Identity used when the LSP log reason is
a refresh LSP received.";
}
identity content-change {
base lsp-log-reason;
description
"Identity used when the LSP log reason is
a change in the content of the LSP.";
}
identity frr-protection-method {
description
"Base identity for a Fast Reroute protection method.";
}
identity frr-protection-method-lfa {
base frr-protection-method;
description "Loop Free Alternate as defined in RFC5286.";
}
identity frr-protection-method-rlfa {
base frr-protection-method;
description "Remote Loop Free Alternate as defined in RFC7490.";
}
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identity frr-protection-method-rsvpte {
base frr-protection-method;
description "RSVP-TE as defined in RFC4090.";
}
identity frr-protection-available-type {
description "Base identity for Fast Reroute protection types
provided by an alternate path.";
}
identity frr-protection-available-node-type {
base frr-protection-available-type;
description "Node protection is provided by the alternate.";
}
identity frr-protection-available-link-type {
base frr-protection-available-type;
description "Link protection is provided by the alternate.";
}
identity frr-protection-available-srlg-type {
base frr-protection-available-type;
description "SRLG protection is provided by the alternate.";
}
identity frr-protection-available-downstream-type {
base frr-protection-available-type;
description "The alternate is downstream on the path.";
}
identity frr-protection-available-other-type {
base frr-protection-available-type;
description "The level of protection is unknown.";
}
identity unidirectional-link-delay-subtlv-flag {
description "Base identity for unidirectional-link-delay
subTLV flags. Flags are defined in RFC8570.";
}
identity unidirectional-link-delay-subtlv-a-flag {
base unidirectional-link-delay-subtlv-flag;
description
"The A bit represents the Anomalous (A) bit.
The A bit is set when the measured value of
this parameter exceeds its configured
maximum threshold.
The A bit is cleared when the measured value
falls below its configured reuse threshold.
If the A bit is clear,
the value represents steady-state link performance.";
}
identity min-max-unidirectional-link-delay-subtlv-flag {
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description
"Base identity for min-max-unidirectional-link-delay
subTLV flags. Flags are defined in RFC8570.";
}
identity min-max-unidirectional-link-delay-subtlv-a-flag {
base min-max-unidirectional-link-delay-subtlv-flag;
description
"The A bit represents the Anomalous (A) bit.
The A bit is set when the measured value of
this parameter exceeds its configured
maximum threshold.
The A bit is cleared when the measured value
falls below its configured reuse threshold.
If the A bit is clear,
the value represents steady-state link performance.";
}
identity unidirectional-link-loss-subtlv-flag {
description "Base identity for unidirectional-link-loss
subTLV flags. Flags are defined in RFC8570.";
}
identity unidirectional-link-loss-subtlv-a-flag {
base unidirectional-link-loss-subtlv-flag;
description
"The A bit represents the Anomalous (A) bit.
The A bit is set when the measured value of
this parameter exceeds its configured
maximum threshold.
The A bit is cleared when the measured value
falls below its configured reuse threshold.
If the A bit is clear,
the value represents steady-state link performance.";
}
identity tlv229-flag {
description "Base identity for TLV229 flags. Flags are defined
in RFC5120.";
}
identity tlv229-overload-flag {
base tlv229-flag;
description
"If set, the originator is overloaded,
and must be avoided in path calculation.";
}
identity tlv229-attached-flag {
base tlv229-flag;
description
"If set, the originator is attached to
another area using the referred metric.";
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}
identity router-capability-flag {
description "Base identity for router capability flags.
Flags are defined in RFC7981.";
}
identity router-capability-flooding-flag {
base router-capability-flag;
description
"Quote from RFC7981: 'If the S bit is set,
the IS-IS Router CAPABILITY
TLV MUST be flooded across the entire routing
domain. If the S bit is clear, the TLV MUST NOT
be leaked between levels. This bit MUST NOT
be altered during the TLV leaking'.";
}
identity router-capability-down-flag {
base router-capability-flag;
description
"Quote from RFC7981: 'When the IS-IS Router CAPABILITY TLV
is leaked from level-2 to level-1, the D bit MUST be set.
Otherwise, this bit MUST be clear. IS-IS Router
capability TLVs with the D bit set MUST NOT be
leaked from level-1 to level-2 in to prevent
TLV looping'.";
}
identity lsp-flag {
description "Base identity for LSP attributes.
Attributes are defined in ISO 10589";
}
identity lsp-partitioned-flag {
base lsp-flag;
description "Originator partition repair supported";
}
identity lsp-attached-error-metric-flag {
base lsp-flag;
description "Set when originator is attached to
another area using the referred metric.";
}
identity lsp-attached-delay-metric-flag {
base lsp-flag;
description "Set when originator is attached to
another area using the referred metric.";
}
identity lsp-attached-expense-metric-flag {
base lsp-flag;
description "Set when originator is attached to
another area using the referred metric.";
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}
identity lsp-attached-default-metric-flag {
base lsp-flag;
description "Set when originator is attached to
another area using the referred metric.";
}
identity lsp-overload-flag {
base lsp-flag;
description
"If set, the originator is overloaded,
and must be avoided in path calculation.";
}
identity lsp-l1system-flag {
base lsp-flag;
description
"Set when the Intermediate System has an L1 type.";
}
identity lsp-l2system-flag {
base lsp-flag;
description
"Set when the Intermediate System has an L2 type.";
}
/* Feature definitions */
feature osi-interface {
description "Support of OSI specific parameters on an
interface.";
}
feature poi-tlv {
description "Support of Purge Originator Identification.";
reference "RFC 6232 - Purge Originator Identification TLV
for IS-IS";
}
feature ietf-spf-delay {
description
"Support for IETF SPF delay algorithm.";
reference "RFC 8405 - SPF Back-off algorithm for link
state IGPs";
}
feature bfd {
description
"Support for BFD detection of IS-IS neighbor reachability.";
reference "RFC 5880 - Bidirectional Forwarding Detection (BFD)
RFC 5881 - Bidirectional Forwarding Detection
(BFD) for IPv4 and IPv6 (Single Hop)";
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}
feature key-chain {
description
"Support of keychain for authentication.";
reference "RFC8177 - YANG Data Model for Key Chains";
}
feature node-flag {
description
"Support for node-flag for IS-IS prefixes.";
reference "RFC7794 - IS-IS Prefix Attributes for
Extended IP and IPv6 Reachability";
}
feature node-tag {
description
"Support for node admin tag for IS-IS routing instances.";
reference "RFC7917 - Advertising Node Administrative Tags
in IS-IS";
}
feature ldp-igp-sync {
description
"LDP IGP synchronization.";
reference "RFC5443 - LDP IGP Synchronization.";
}
feature fast-reroute {
description
"Support for IP Fast Reroute (IP-FRR).";
}
feature nsr {
description
"Non-Stop-Routing (NSR) support. The IS-IS NSR feature
allows a router with redundant control-plane capability
(e.g., dual Route-Processor (RP) cards) to maintain its
state and adjacencies during planned and unplanned
IS-IS instance restarts. It differs from graceful-restart
or Non-Stop Forwarding (NSF) in that no protocol signaling
or assistance from adjacent IS-IS neighbors is required to
recover control-plane state.";
}
feature lfa {
description
"Support for Loop-Free Alternates (LFAs).";
reference "RFC5286 - Basic Specification of IP Fast-Reroute:
Loop-free Alternates";
}
feature remote-lfa {
description
"Support for Remote Loop-Free Alternates (R-LFAs).";
reference "RFC7490 - Remote Loop-Free Alternate Fast Reroute";
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}
feature overload-max-metric {
description
"Support of overload by setting all links to max metric.
In IS-IS, the overload bit is usually used to signal that
a node cannot be used as a transit. The overload-max-metric
feature brings a similar behavior leveraging on setting all
the link metrics to MAX_METRIC.";
}
feature prefix-tag {
description
"Support for 32-bit prefix tags";
reference "RFC5130 - A Policy Control Mechanism in
IS-IS Using Administrative Tags";
}
feature prefix-tag64 {
description
"Support for 64-bit prefix tags";
reference "RFC5130 - A Policy Control Mechanism in
IS-IS Using Administrative Tags";
}
feature auto-cost {
description
"Calculate IS-IS interface metric according to
reference bandwidth.";
}
feature te-rid {
description
"Traffic-Engineering Router-ID.";
reference "RFC5305 - IS-IS Extensions for Traffic Engineering
RFC6119 - IPv6 Traffic Engineering in IS-IS";
}
feature max-ecmp {
description
"Setting maximum number of ECMP paths.";
}
feature multi-topology {
description
"Support for Multiple-Topology Routing (MTR).";
reference "RFC5120 - M-IS-IS: Multi Topology Routing in IS-IS";
}
feature nlpid-control {
description
"This feature controls the advertisement
of support NLPID within IS-IS configuration.";
}
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feature graceful-restart {
description
"IS-IS Graceful restart support.";
reference "RFC5306 - Restart Signaling in IS-IS";
}
feature lsp-refresh {
description
"Configuration of LSP refresh interval.";
}
feature maximum-area-addresses {
description
"Support of maximum-area-addresses config.";
}
feature admin-control {
description
"Administrative control of the protocol state.";
}
/* Type definitions */
typedef circuit-id {
type uint8;
description
"This type defines the circuit ID
associated with an interface.";
}
typedef extended-circuit-id {
type uint32;
description
"This type defines the extended circuit ID
associated with an interface.";
}
typedef interface-type {
type enumeration {
enum broadcast {
description
"Broadcast interface type.";
}
enum point-to-point {
description
"Point-to-point interface type.";
}
}
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description
"This type defines the type of adjacency
to be established on the interface.
The interface-type determines the type
of hello message that is used.";
}
typedef level {
type enumeration {
enum "level-1" {
description
"This enum indicates L1-only capability.";
}
enum "level-2" {
description
"This enum indicates L2-only capability.";
}
enum "level-all" {
description
"This enum indicates capability for both levels.";
}
}
default "level-all";
description
"This type defines IS-IS level of an object.";
}
typedef adj-state-type {
type enumeration {
enum "up" {
description
"State indicates the adjacency is established.";
}
enum "down" {
description
"State indicates the adjacency is NOT established.";
}
enum "init" {
description
"State indicates the adjacency is establishing.";
}
enum "failed" {
description
"State indicates the adjacency is failed.";
}
}
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description
"This type defines states of an adjacency";
}
typedef if-state-type {
type enumeration {
enum "up" {
description "Up state.";
}
enum "down" {
description "Down state";
}
}
description
"This type defines the state of an interface";
}
typedef level-number {
type uint8 {
range "1 .. 2";
}
description
"This type defines the current IS-IS level.";
}
typedef lsp-id {
type string {
pattern
'[0-9A-Fa-f]{4}\.[0-9A-Fa-f]{4}\.[0-9A-Fa-f]'
+'{4}\.[0-9][0-9]-[0-9][0-9]';
}
description
"This type defines the IS-IS LSP ID format using a
pattern. An example LSP ID is 0143.0438.AEF0.02-01";
}
typedef area-address {
type string {
pattern '[0-9A-Fa-f]{2}(\.[0-9A-Fa-f]{4}){0,6}';
}
description
"This type defines the area address format.";
}
typedef snpa {
type string {
length "0 .. 20";
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}
description
"This type defines the Subnetwork Point
of Attachment (SNPA) format.
The SNPA should be encoded according to the rules
specified for the particular type of subnetwork
being used. As an example, for an ethernet subnetwork,
the SNPA is encoded as a MAC address like
'00aa.bbcc.ddee'.";
}
typedef system-id {
type string {
pattern
'[0-9A-Fa-f]{4}\.[0-9A-Fa-f]{4}\.[0-9A-Fa-f]{4}';
}
description
"This type defines IS-IS system-id using pattern,
An example system-id is 0143.0438.AEF0";
}
typedef extended-system-id {
type string {
pattern
'[0-9A-Fa-f]{4}\.[0-9A-Fa-f]{4}\.[0-9A-Fa-f]{4}\.'
+'[0-9][0-9]';
}
description
"This type defines IS-IS system-id using pattern. The extended
system-id contains the pseudonode number in addition to the
system-id.
An example system-id is 0143.0438.AEF0.00";
}
typedef wide-metric {
type uint32 {
range "0 .. 16777215";
}
description
"This type defines wide style format of IS-IS metric.";
}
typedef std-metric {
type uint8 {
range "0 .. 63";
}
description
"This type defines old style format of IS-IS metric.";
}
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typedef mesh-group-state {
type enumeration {
enum "mesh-inactive" {
description
"Interface is not part of a mesh group.";
}
enum "mesh-set" {
description
"Interface is part of a mesh group.";
}
enum "mesh-blocked" {
description
"LSPs must not be flooded over this interface.";
}
}
description
"This type describes mesh group state of an interface";
}
/* Grouping for notifications */
grouping notification-instance-hdr {
description
"Instance specific IS-IS notification data grouping";
leaf routing-protocol-name {
type leafref {
path "/rt:routing/rt:control-plane-protocols/"
+ "rt:control-plane-protocol/rt:name";
}
description "Name of the IS-IS instance.";
}
leaf isis-level {
type level;
description "IS-IS level of the instance.";
}
}
grouping notification-interface-hdr {
description
"Interface specific IS-IS notification data grouping";
leaf interface-name {
type if:interface-ref;
description "IS-IS interface name";
}
leaf interface-level {
type level;
description "IS-IS level of the interface.";
}
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leaf extended-circuit-id {
type extended-circuit-id;
description "Extended circuit-id of the interface.";
}
}
/* Groupings for IP Fast Reroute */
grouping instance-fast-reroute-config {
description
"This group defines global configuration of IP
Fast ReRoute (FRR).";
container fast-reroute {
if-feature fast-reroute;
description
"This container may be augmented with global
parameters for IP-FRR.";
container lfa {
if-feature lfa;
description
"This container may be augmented with
global parameters for Loop-Free Alternatives (LFA).
Container creation has no effect on LFA activation.";
}
}
}
grouping interface-lfa-config {
leaf candidate-enable {
type boolean;
default "true";
description
"Enable the interface to be used as backup.";
}
leaf enable {
type boolean;
default false;
description
"Activates LFA - Per-prefix LFA computation
is assumed.";
}
container remote-lfa {
if-feature remote-lfa;
leaf enable {
type boolean;
default false;
description
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"Activates Remote LFA (R-LFA).";
}
description
"Remote LFA configuration.";
}
description "Grouping for LFA interface configuration";
}
grouping interface-fast-reroute-config {
description
"This group defines interface configuration of IP-FRR.";
container fast-reroute {
if-feature fast-reroute;
container lfa {
if-feature lfa;
uses interface-lfa-config;
container level-1 {
uses interface-lfa-config;
description
"LFA level 1 config";
}
container level-2 {
uses interface-lfa-config;
description
"LFA level 2 config";
}
description
"LFA configuration.";
}
description
"Interface IP Fast-reroute configuration.";
}
}
grouping instance-fast-reroute-state {
description "IPFRR state data grouping";
container protected-routes {
config false;
list address-family-stats {
key "address-family prefix alternate";
leaf address-family {
type iana-rt-types:address-family;
description
"Address-family";
}
leaf prefix {
type inet:ip-prefix;
description
"Protected prefix.";
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}
leaf alternate {
type inet:ip-address;
description
"Alternate next hop for the prefix.";
}
leaf alternate-type {
type enumeration {
enum equal-cost {
description
"ECMP alternate.";
}
enum lfa {
description
"LFA alternate.";
}
enum remote-lfa {
description
"Remote LFA alternate.";
}
enum tunnel {
description
"Tunnel based alternate
(like RSVP-TE or GRE).";
}
enum ti-lfa {
description
"TI-LFA alternate.";
}
enum mrt {
description
"MRT alternate.";
}
enum other {
description
"Unknown alternate type.";
}
}
description
"Type of alternate.";
}
leaf best {
type boolean;
description
"Is set when the alternate is the preferred one,
is unset otherwise.";
}
leaf non-best-reason {
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type string {
length "1..255";
}
description
"Information field to describe why the alternate
is not best. The length should be limited to 255
unicode characters. The expected format is a single
line text.";
}
container protection-available {
leaf-list protection-types {
type identityref {
base frr-protection-available-type;
}
description "This list contains a set of protection
types defined as identities.
An identity must be added for each type of
protection provided by the alternate.
As an example, if an alternate provides
SRLG, node and link protection, three
identities must be added in this list:
one for SRLG protection, one for node
protection, one for link protection.";
}
description "Protection types provided by the alternate.";
}
leaf alternate-metric1 {
type uint32;
description
"Metric from Point of Local Repair (PLR) to
destination through the alternate path.";
}
leaf alternate-metric2 {
type uint32;
description
"Metric from PLR to the alternate node";
}
leaf alternate-metric3 {
type uint32;
description
"Metric from alternate node to the destination";
}
description
"Per-AF protected prefix statistics.";
}
description
"List of prefixes that are protected.";
}
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container unprotected-routes {
config false;
list address-family-stats {
key "address-family prefix";
leaf address-family {
type iana-rt-types:address-family;
description "Address-family";
}
leaf prefix {
type inet:ip-prefix;
description "Unprotected prefix.";
}
description
"Per AF unprotected prefix statistics.";
}
description
"List of prefixes that are not protected.";
}
list protection-statistics {
key frr-protection-method;
config false;
leaf frr-protection-method {
type identityref {
base frr-protection-method;
}
description "Protection method used.";
}
list address-family-stats {
key address-family;
leaf address-family {
type iana-rt-types:address-family;
description "Address-family";
}
leaf total-routes {
type uint32;
description "Total prefixes.";
}
leaf unprotected-routes {
type uint32;
description
"Total prefixes that are not protected.";
}
leaf protected-routes {
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type uint32;
description
"Total prefixes that are protected.";
}
leaf linkprotected-routes {
type uint32;
description
"Total prefixes that are link protected.";
}
leaf nodeprotected-routes {
type uint32;
description
"Total prefixes that are node protected.";
}
description
"Per AF protected prefix statistics.";
}
description "Global protection statistics.";
}
}
/* Route table and local RIB groupings */
grouping local-rib {
description "Local-rib - RIB for Routes computed by the local
IS-IS routing instance.";
container local-rib {
config false;
description "Local-rib.";
list route {
key "prefix";
description "Routes";
leaf prefix {
type inet:ip-prefix;
description "Destination prefix.";
}
container next-hops {
description "Next hops for the route.";
list next-hop {
key "next-hop";
description "List of next hops for the route";
leaf outgoing-interface {
type if:interface-ref;
description
"Name of the outgoing interface.";
}
leaf next-hop {
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type inet:ip-address;
description "Next hop address.";
}
}
}
leaf metric {
type uint32;
description "Metric for this route.";
}
leaf level {
type level-number;
description "Level number for this route.";
}
leaf route-tag {
type uint32;
description "Route tag for this route.";
}
}
}
}
grouping route-content {
description
"IS-IS protocol-specific route properties grouping.";
leaf metric {
type uint32;
description "IS-IS metric of a route.";
}
leaf-list tag {
type uint64;
description
"List of tags associated with the route. The leaf
describes both 32-bit and 64-bit tags.";
}
leaf route-type {
type enumeration {
enum l2-intra-area {
description "Level 2 internal route. As per RFC2966,
the prefix is directly connected to the
advertising router. It cannot be
distinguished from an L1->L2 inter-area
route.";
}
enum l1-intra-area {
description "Level 1 internal route. As per RFC2966,
the prefix is directly connected to the
advertising router.";
}
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enum l2-external {
description "Level 2 external route. As per RFC2966,
such a route is learned from other IGPs.
It cannot be distinguished from an L1->L2
inter-area external route.";
}
enum l1-external {
description "Level 1 external route. As per RFC2966,
such a route is learned from other IGPs.";
}
enum l1-inter-area {
description "These prefixes are learned via L2 routing.";
}
enum l1-inter-area-external {
description "These prefixes are learned via L2 routing
towards an l2-external route.";
}
}
description "IS-IS route type.";
}
}
/* Grouping definitions for configuration and ops state */
grouping adjacency-state {
container adjacencies {
config false;
list adjacency {
leaf neighbor-sys-type {
type level;
description
"Level capability of neighboring system";
}
leaf neighbor-sysid {
type system-id;
description
"The system-id of the neighbor";
}
leaf neighbor-extended-circuit-id {
type extended-circuit-id;
description
"Circuit ID of the neighbor";
}
leaf neighbor-snpa {
type snpa;
description
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"SNPA of the neighbor";
}
leaf usage {
type level;
description
"Define the level(s) activated on the adjacency.
On a p2p link this might be level 1 and 2,
but on a LAN, the usage will be level 1
between neighbors at level 1 or level 2 between
neighbors at level 2.";
}
leaf hold-timer {
type rt-types:timer-value-seconds16;
units seconds;
description
"The holding time in seconds for this
adjacency. This value is based on
received hello PDUs and the elapsed
time since receipt.";
}
leaf neighbor-priority {
type uint8 {
range "0 .. 127";
}
description
"Priority of the neighboring IS for becoming
the DIS.";
}
leaf lastuptime {
type yang:timestamp;
description
"When the adjacency most recently entered
state 'up', measured in hundredths of a
second since the last reinitialization of
the network management subsystem.
The value is 0 if the adjacency has never
been in state 'up'.";
}
leaf state {
type adj-state-type;
description
"This leaf describes the state of the interface.";
}
description
"List of operational adjacencies.";
}
description
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"This container lists the adjacencies of
the local node.";
}
description
"Adjacency state";
}
grouping admin-control {
leaf enable {
if-feature admin-control;
type boolean;
default "true";
description
"Enable/Disable the protocol.";
}
description
"Grouping for admin control.";
}
grouping ietf-spf-delay {
leaf initial-delay {
type rt-types:timer-value-milliseconds;
units msec;
description
"Delay used while in QUIET state (milliseconds).";
}
leaf short-delay {
type rt-types:timer-value-milliseconds;
units msec;
description
"Delay used while in SHORT_WAIT state (milliseconds).";
}
leaf long-delay {
type rt-types:timer-value-milliseconds;
units msec;
description
"Delay used while in LONG_WAIT state (milliseconds).";
}
leaf hold-down {
type rt-types:timer-value-milliseconds;
units msec;
description
"Timer used to consider an IGP stability period
(milliseconds).";
}
leaf time-to-learn {
type rt-types:timer-value-milliseconds;
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units msec;
description
"Duration used to learn all the IGP events
related to a single component failure (milliseconds).";
}
leaf current-state {
type enumeration {
enum "quiet" {
description "QUIET state";
}
enum "short-wait" {
description "SHORT_WAIT state";
}
enum "long-wait" {
description "LONG_WAIT state";
}
}
config false;
description
"Current SPF back-off algorithm state.";
}
leaf remaining-time-to-learn {
type rt-types:timer-value-milliseconds;
units "msec";
config false;
description
"Remaining time until time-to-learn timer fires.";
}
leaf remaining-hold-down {
type rt-types:timer-value-milliseconds;
units "msec";
config false;
description
"Remaining time until hold-down timer fires.";
}
leaf last-event-received {
type yang:timestamp;
config false;
description
"Time of last IGP event received";
}
leaf next-spf-time {
type yang:timestamp;
config false;
description
"Time when next SPF has been scheduled.";
}
leaf last-spf-time {
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type yang:timestamp;
config false;
description
"Time of last SPF computation.";
}
description
"Grouping for IETF SPF delay configuration and state.";
}
grouping node-tag-config {
description
"IS-IS node tag config state.";
container node-tags {
if-feature node-tag;
list node-tag {
key tag;
leaf tag {
type uint32;
description
"Node tag value.";
}
description
"List of tags.";
}
description
"Container for node admin tags.";
}
}
grouping authentication-global-cfg {
choice authentication-type {
case key-chain {
if-feature key-chain;
leaf key-chain {
type key-chain:key-chain-ref;
description
"Reference to a key-chain.";
}
}
case password {
leaf key {
type string;
description
"This leaf specifies the authentication key. The
length of the key may be dependent on the
cryptographic algorithm.";
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}
leaf crypto-algorithm {
type identityref {
base key-chain:crypto-algorithm;
}
description
"Cryptographic algorithm associated with key.";
}
}
description "Choice of authentication.";
}
description "Grouping for global authentication config.";
}
grouping metric-type-global-cfg {
leaf value {
type enumeration {
enum wide-only {
description
"Advertise new metric style only (RFC5305)";
}
enum old-only {
description
"Advertise old metric style only (RFC1195)";
}
enum both {
description "Advertise both metric styles";
}
}
default wide-only;
description
"Type of metric to be generated:
- wide-only means only new metric style
is generated,
- old-only means that only old-style metric
is generated,
- both means that both are advertised.
This leaf is only affecting IPv4 metrics.";
}
description
"Grouping for global metric style config.";
}
grouping default-metric-global-cfg {
leaf value {
type wide-metric;
default "10";
description "Value of the metric";
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}
description
"Global default metric config grouping.";
}
grouping overload-global-cfg {
leaf status {
type boolean;
default false;
description
"This leaf specifies the overload status.";
}
description "Grouping for overload bit config.";
}
grouping overload-max-metric-global-cfg {
leaf timeout {
type rt-types:timer-value-seconds16;
units "seconds";
description
"Timeout (in seconds) of the overload condition.";
}
description
"Overload maximum metric configuration grouping";
}
grouping route-preference-global-cfg {
choice granularity {
case detail {
leaf internal {
type uint8;
description
"Protocol preference for internal routes.";
}
leaf external {
type uint8;
description
"Protocol preference for external routes.";
}
}
case coarse {
leaf default {
type uint8;
description
"Protocol preference for all IS-IS routes.";
}
}
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description
"Choice for implementation of route preference.";
}
description
"Global route preference grouping";
}
grouping hello-authentication-cfg {
choice authentication-type {
case key-chain {
if-feature key-chain;
leaf key-chain {
type key-chain:key-chain-ref;
description "Reference to a key-chain.";
}
}
case password {
leaf key {
type string;
description "Authentication key specification - The
length of the key may be dependent on the
cryptographic algorithm.";
}
leaf crypto-algorithm {
type identityref {
base key-chain:crypto-algorithm;
}
description
"Cryptographic algorithm associated with key.";
}
}
description "Choice of authentication.";
}
description "Grouping for hello authentication.";
}
grouping hello-interval-cfg {
leaf value {
type rt-types:timer-value-seconds16;
units "seconds";
default 10;
description
"Interval (in seconds) between successive hello
messages.";
}
description "Interval between hello messages.";
}
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grouping hello-multiplier-cfg {
leaf value {
type uint16;
default 3;
description
"Number of missed hello messages prior to
declaring the adjacency down.";
}
description
"Number of missed hello messages prior to
adjacency down grouping.";
}
grouping priority-cfg {
leaf value {
type uint8 {
range "0 .. 127";
}
default 64;
description
"Priority of interface for DIS election.";
}
description "Interface DIS election priority grouping";
}
grouping metric-cfg {
leaf value {
type wide-metric;
default "10";
description "Metric value.";
}
description "Interface metric grouping";
}
grouping metric-parameters {
container metric-type {
uses metric-type-global-cfg;
container level-1 {
uses metric-type-global-cfg;
description "level-1 specific configuration";
}
container level-2 {
uses metric-type-global-cfg;
description "level-2 specific configuration";
}
description "Metric style global configuration";
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}
container default-metric {
uses default-metric-global-cfg;
container level-1 {
uses default-metric-global-cfg;
description "level-1 specific configuration";
}
container level-2 {
uses default-metric-global-cfg;
description "level-2 specific configuration";
}
description "Default metric global configuration";
}
container auto-cost {
if-feature auto-cost;
description
"Interface Auto-cost configuration state.";
leaf enable {
type boolean;
description
"Enable/Disable interface auto-cost.";
}
leaf reference-bandwidth {
when "../enable = 'true'" {
description "Only when auto cost is enabled";
}
type uint32 {
range "1..4294967";
}
units Mbits;
description
"Configure reference bandwidth used to automatically
determine interface cost (Mbits). The cost is the
reference bandwidth divided by the interface speed
with 1 being the minimum cost.";
}
}
description "Grouping for global metric parameters.";
}
grouping high-availability-parameters {
container graceful-restart {
if-feature graceful-restart;
leaf enable {
type boolean;
default false;
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description "Enable graceful restart.";
}
leaf restart-interval {
type rt-types:timer-value-seconds16;
units "seconds";
description
"Interval (in seconds) to attempt graceful restart prior
to failure.";
}
leaf helper-enable {
type boolean;
default "true";
description
"Enable local IS-IS router as graceful restart helper.";
}
description "Graceful-Restart Configuration.";
}
container nsr {
if-feature nsr;
description "Non-Stop Routing (NSR) configuration.";
leaf enable {
type boolean;
default false;
description "Enable/Disable Non-Stop Routing (NSR).";
}
}
description "Grouping for High Availability parameters.";
}
grouping authentication-parameters {
container authentication {
uses authentication-global-cfg;
container level-1 {
uses authentication-global-cfg;
description "level-1 specific configuration";
}
container level-2 {
uses authentication-global-cfg;
description "level-2 specific configuration";
}
description "Authentication global configuration for
both LSPs and SNPs.";
}
description "Grouping for authentication parameters";
}
grouping address-family-parameters {
container address-families {
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if-feature nlpid-control;
list address-family-list {
key address-family;
leaf address-family {
type iana-rt-types:address-family;
description "Address-family";
}
leaf enable {
type boolean;
description "Activate the address family.";
}
description
"List of address families and whether or not they
are activated.";
}
description "Address Family configuration";
}
description "Grouping for address family parameters.";
}
grouping mpls-parameters {
container mpls {
container te-rid {
if-feature te-rid;
description
"Stable ISIS Router IP Address used for Traffic
Engineering";
leaf ipv4-router-id {
type inet:ipv4-address;
description
"Router ID value that would be used in TLV 134.";
}
leaf ipv6-router-id {
type inet:ipv6-address;
description
"Router ID value that would be used in TLV 140.";
}
}
container ldp {
container igp-sync {
if-feature ldp-igp-sync;
description
"This container may be augmented with global
parameters for igp-ldp-sync.";
}
description "LDP configuration.";
}
description "MPLS configuration";
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}
description "Grouping for MPLS global parameters.";
}
grouping lsp-parameters {
leaf lsp-mtu {
type uint16;
units "bytes";
default 1492;
description
"Maximum size of an LSP PDU in bytes.";
}
leaf lsp-lifetime {
type uint16 {
range "1..65535";
}
units "seconds";
description
"Lifetime of the router's LSPs in seconds.";
}
leaf lsp-refresh {
if-feature lsp-refresh;
type rt-types:timer-value-seconds16;
units "seconds";
description
"Refresh interval of the router's LSPs in seconds.";
}
leaf poi-tlv {
if-feature poi-tlv;
type boolean;
default false;
description
"Enable advertisement of IS-IS purge TLV.";
}
description "Grouping for LSP global parameters.";
}
grouping spf-parameters {
container spf-control {
leaf paths {
if-feature max-ecmp;
type uint16 {
range "1..32";
}
description
"Maximum number of Equal-Cost Multi-Path (ECMP) paths.";
}
container ietf-spf-delay {
if-feature ietf-spf-delay;
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uses ietf-spf-delay;
description "IETF SPF delay algorithm configuration.";
}
description
"SPF calculation control.";
}
description "Grouping for SPF global parameters.";
}
grouping instance-config {
description "IS-IS global configuration grouping";
uses admin-control;
leaf level-type {
type level;
default "level-all";
description
"Level of an IS-IS node - can be level-1,
level-2 or level-all.";
}
leaf system-id {
type system-id;
description "system-id of the node.";
}
leaf maximum-area-addresses {
if-feature maximum-area-addresses;
type uint8;
default 3;
description "Maximum areas supported.";
}
leaf-list area-address {
type area-address;
description
"List of areas supported by the protocol instance.";
}
uses lsp-parameters;
uses high-availability-parameters;
uses node-tag-config;
uses metric-parameters;
uses authentication-parameters;
uses address-family-parameters;
uses mpls-parameters;
uses spf-parameters;
uses instance-fast-reroute-config;
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container preference {
uses route-preference-global-cfg;
description "Router preference configuration for IS-IS
protocol instance route installation";
}
container overload {
uses overload-global-cfg;
description "Router protocol instance overload state
configuration";
}
container overload-max-metric {
if-feature overload-max-metric;
uses overload-max-metric-global-cfg;
description
"Router protocol instance overload maximum
metric advertisement configuration.";
}
}
grouping instance-state {
description
"IS-IS instance operational state.";
uses spf-log;
uses lsp-log;
uses hostname-db;
uses lsdb;
uses local-rib;
uses system-counters;
uses instance-fast-reroute-state;
leaf discontinuity-time {
type yang:date-and-time;
description
"The time on the most recent occasion at which any one
or more of this IS-IS instance's counters suffered a
discontinuity. If no such discontinuities have occurred
since the IS-IS instance was last re-initialized, then
this node contains the time the IS-IS instance was
re-initialized which normally occurs when it was
created.";
}
}
grouping multi-topology-config {
description "Per-topology configuration";
container default-metric {
uses default-metric-global-cfg;
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container level-1 {
uses default-metric-global-cfg;
description "level-1 specific configuration";
}
container level-2 {
uses default-metric-global-cfg;
description "level-2 specific configuration";
}
description "Default metric per-topology configuration";
}
uses node-tag-config;
}
grouping interface-config {
description "Interface configuration grouping";
uses admin-control;
leaf level-type {
type level;
default "level-all";
description "IS-IS level of the interface.";
}
leaf lsp-pacing-interval {
type rt-types:timer-value-milliseconds;
units "milliseconds";
default 33;
description
"Interval (in milli-seconds) between LSP
transmissions.";
}
leaf lsp-retransmit-interval {
type rt-types:timer-value-seconds16;
units "seconds";
description
"Interval (in seconds) between LSP
retransmissions.";
}
leaf passive {
type boolean;
default "false";
description
"Indicates whether the interface is in passive mode (IS-IS
not running but network is advertised).";
}
leaf csnp-interval {
type rt-types:timer-value-seconds16;
units "seconds";
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default 10;
description
"Interval (in seconds) between CSNP messages.";
}
container hello-padding {
leaf enable {
type boolean;
default "true";
description
"IS-IS Hello-padding activation - enabled by default.";
}
description "IS-IS hello padding configuration.";
}
leaf mesh-group-enable {
type mesh-group-state;
description "IS-IS interface mesh-group state";
}
leaf mesh-group {
when "../mesh-group-enable = 'mesh-set'" {
description
"Only valid when mesh-group-enable equals mesh-set";
}
type uint8;
description "IS-IS interface mesh-group ID.";
}
leaf interface-type {
type interface-type;
default "broadcast";
description
"Type of adjacency to be established on the interface. This
dictates the type of hello messages that are used.";
}
leaf-list tag {
if-feature prefix-tag;
type uint32;
description
"List of tags associated with the interface.";
}
leaf-list tag64 {
if-feature prefix-tag64;
type uint64;
description
"List of 64-bit tags associated with the interface.";
}
leaf node-flag {
if-feature node-flag;
type boolean;
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default false;
description
"Set prefix as a node representative prefix.";
}
container hello-authentication {
uses hello-authentication-cfg;
container level-1 {
uses hello-authentication-cfg;
description "level-1 specific configuration";
}
container level-2 {
uses hello-authentication-cfg;
description "level-2 specific configuration";
}
description
"Authentication type to be used in hello messages.";
}
container hello-interval {
uses hello-interval-cfg;
container level-1 {
uses hello-interval-cfg;
description "level-1 specific configuration";
}
container level-2 {
uses hello-interval-cfg;
description "level-2 specific configuration";
}
description "Interval between hello messages.";
}
container hello-multiplier {
uses hello-multiplier-cfg;
container level-1 {
uses hello-multiplier-cfg;
description "level-1 specific configuration";
}
container level-2 {
uses hello-multiplier-cfg;
description "level-2 specific configuration";
}
description "Hello multiplier configuration.";
}
container priority {
must '../interface-type = "broadcast"' {
error-message
"Priority only applies to broadcast interfaces.";
description "Check for broadcast interface.";
}
uses priority-cfg;
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container level-1 {
uses priority-cfg;
description "level-1 specific configuration";
}
container level-2 {
uses priority-cfg;
description "level-2 specific configuration";
}
description "Priority for DIS election.";
}
container metric {
uses metric-cfg;
container level-1 {
uses metric-cfg;
description "level-1 specific configuration";
}
container level-2 {
uses metric-cfg;
description "level-2 specific configuration";
}
description "Metric configuration.";
}
container bfd {
if-feature bfd;
description "BFD Client Configuration.";
uses bfd-types:client-cfg-parms;
reference "RFC YYYY - YANG Data Model for Bidirectional
Forwarding Detection (BFD).
-- Note to RFC Editor Please replace YYYY with published FC
number for draft-ietf-bfd-yang.";
}
container address-families {
if-feature nlpid-control;
list address-family-list {
key address-family;
leaf address-family {
type iana-rt-types:address-family;
description "Address-family";
}
description "List of AFs.";
}
description "Interface address-families";
}
container mpls {
container ldp {
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leaf igp-sync {
if-feature ldp-igp-sync;
type boolean;
default false;
description "Enables IGP/LDP synchronization";
}
description "LDP protocol related configuration.";
}
description "MPLS configuration for IS-IS interfaces";
}
uses interface-fast-reroute-config;
}
grouping multi-topology-interface-config {
description "IS-IS interface topology configuration.";
container metric {
uses metric-cfg;
container level-1 {
uses metric-cfg;
description "level-1 specific configuration";
}
container level-2 {
uses metric-cfg;
description "level-2 specific configuration";
}
description "Metric IS-IS interface configuration.";
}
}
grouping interface-state {
description
"IS-IS interface operational state.";
uses adjacency-state;
uses event-counters;
uses packet-counters;
leaf discontinuity-time {
type yang:date-and-time;
description
"The time on the most recent occasion at which any one
or more of this IS-IS interfaces's counters suffered a
discontinuity. If no such discontinuities have occurred
since the IS-IS interface was last re-initialized, then
this node contains the time the IS-IS interface was
re-initialized which normally occurs when it was
created.";
}
}
/* Grouping for the hostname database */
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grouping hostname-db {
container hostnames {
config false;
list hostname {
key system-id;
leaf system-id {
type system-id;
description
"system-id associated with the hostname.";
}
leaf hostname {
type string {
length "1..255";
}
description
"Hostname associated with the system-id
as defined in RFC5301.";
}
description
"List of system-id/hostname associations.";
}
description
"Hostname to system-id mapping database.";
}
description
"Grouping for hostname to system-id mapping database.";
}
/* Groupings for counters */
grouping system-counters {
container system-counters {
config false;
list level {
key level;
leaf level {
type level-number;
description "IS-IS level.";
}
leaf corrupted-lsps {
type uint32;
description
"Number of corrupted in-memory LSPs detected.
LSPs received from the wire with a bad
checksum are silently dropped and not counted.
LSPs received from the wire with parse errors
are counted by lsp-errors.";
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}
leaf authentication-type-fails {
type uint32;
description
"Number of authentication type mismatches.";
}
leaf authentication-fails {
type uint32;
description
"Number of authentication key failures.";
}
leaf database-overload {
type uint32;
description
"Number of times the database has become
overloaded.";
}
leaf own-lsp-purge {
type uint32;
description
"Number of times a zero-aged copy of the system's
own LSP is received from some other IS-IS node.";
}
leaf manual-address-drop-from-area {
type uint32;
description
"Number of times a manual address
has been dropped from the area.";
}
leaf max-sequence {
type uint32;
description
"Number of times the system has attempted
to exceed the maximum sequence number.";
}
leaf sequence-number-skipped {
type uint32;
description
"Number of times a sequence number skip has
occurred.";
}
leaf id-len-mismatch {
type uint32;
description
"Number of times a PDU is received with a
different value for the ID field length
than that of the receiving system.";
}
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leaf partition-changes {
type uint32;
description
"Number of partition changes detected.";
}
leaf lsp-errors {
type uint32;
description
"Number of LSPs with errors we have received.";
}
leaf spf-runs {
type uint32;
description
"Number of times we ran SPF at this level.";
}
description
"List of supported levels.";
}
description
"List counters for the IS-IS protocol instance";
}
description
"Grouping for IS-IS system counters";
}
grouping event-counters {
container event-counters {
config false;
leaf adjacency-changes {
type uint32;
description
"The number of times an adjacency state change has
occurred on this interface.";
}
leaf adjacency-number {
type uint32;
description
"The number of adjacencies on this interface.";
}
leaf init-fails {
type uint32;
description
"The number of times initialization of this
interface has failed. This counts events such
as PPP NCP failures. Failures to form an
adjacency are counted by adjacency-rejects.";
}
leaf adjacency-rejects {
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type uint32;
description
"The number of times an adjacency has been
rejected on this interface.";
}
leaf id-len-mismatch {
type uint32;
description
"The number of times an IS-IS PDU with an ID
field length different from that for this
system has been received on this interface.";
}
leaf max-area-addresses-mismatch {
type uint32;
description
"The number of times an IS-IS PDU has been
received on this interface with the
max area address field differing from that of
this system.";
}
leaf authentication-type-fails {
type uint32;
description
"Number of authentication type mismatches.";
}
leaf authentication-fails {
type uint32;
description
"Number of authentication key failures.";
}
leaf lan-dis-changes {
type uint32;
description
"The number of times the DIS has changed on this
interface at this level. If the interface type is
point-to-point, the count is zero.";
}
description "IS-IS interface event counters.";
}
description
"Grouping for IS-IS interface event counters";
}
grouping packet-counters {
container packet-counters {
config false;
list level {
key level;
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leaf level {
type level-number;
description "IS-IS level.";
}
container iih {
leaf in {
type uint32;
description "Received IIH PDUs.";
}
leaf out {
type uint32;
description "Sent IIH PDUs.";
}
description "Number of IIH PDUs received/sent.";
}
container ish {
leaf in {
type uint32;
description "Received ISH PDUs.";
}
leaf out {
type uint32;
description "Sent ISH PDUs.";
}
description
"ISH PDUs received/sent.";
}
container esh {
leaf in {
type uint32;
description "Received ESH PDUs.";
}
leaf out {
type uint32;
description "Sent ESH PDUs.";
}
description "Number of ESH PDUs received/sent.";
}
container lsp {
leaf in {
type uint32;
description "Received LSP PDUs.";
}
leaf out {
type uint32;
description "Sent LSP PDUs.";
}
description "Number of LSP PDUs received/sent.";
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}
container psnp {
leaf in {
type uint32;
description "Received PSNP PDUs.";
}
leaf out {
type uint32;
description "Sent PSNP PDUs.";
}
description "Number of PSNP PDUs received/sent.";
}
container csnp {
leaf in {
type uint32;
description "Received CSNP PDUs.";
}
leaf out {
type uint32;
description "Sent CSNP PDUs.";
}
description "Number of CSNP PDUs received/sent.";
}
container unknown {
leaf in {
type uint32;
description "Received unknown PDUs.";
}
description "Number of unknown PDUs received/sent.";
}
description
"List of packet counter for supported levels.";
}
description "Packet counters per IS-IS level.";
}
description
"Grouping for per IS-IS Level packet counters.";
}
/* Groupings for various log buffers */
grouping spf-log {
container spf-log {
config false;
list event {
key id;
leaf id {
type uint32;
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description
"Event identifier - purely internal value.";
}
leaf spf-type {
type enumeration {
enum full {
description "Full SPF computation.";
}
enum route-only {
description
"Route reachability only SPF computation";
}
}
description "Type of SPF computation performed.";
}
leaf level {
type level-number;
description
"IS-IS level number for SPF computation";
}
leaf schedule-timestamp {
type yang:timestamp;
description
"Timestamp of when the SPF computation was
scheduled.";
}
leaf start-timestamp {
type yang:timestamp;
description
"Timestamp of when the SPF computation started.";
}
leaf end-timestamp {
type yang:timestamp;
description
"Timestamp of when the SPF computation ended.";
}
list trigger-lsp {
key "lsp";
leaf lsp {
type lsp-id;
description
"LSP ID of the LSP triggering SPF computation.";
}
leaf sequence {
type uint32;
description
"Sequence number of the LSP triggering SPF
computation";
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}
description
"This list includes the LSPs that triggered the
SPF computation.";
}
description
"List of computation events - implemented as a
wrapping buffer.";
}
description
"This container lists the SPF computation events.";
}
description "Grouping for spf-log events.";
}
grouping lsp-log {
container lsp-log {
config false;
list event {
key id;
leaf id {
type uint32;
description
"Event identifier - purely internal value.";
}
leaf level {
type level-number;
description
"IS-IS level number for LSP";
}
container lsp {
leaf lsp {
type lsp-id;
description
"LSP ID of the LSP.";
}
leaf sequence {
type uint32;
description
"Sequence number of the LSP.";
}
description
"LSP identification container - either the received
LSP or the locally generated LSP.";
}
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leaf received-timestamp {
type yang:timestamp;
description
"This is the timestamp when the LSA was received.
In case of local LSA update, the timestamp refers
to the LSA origination time.";
}
leaf reason {
type identityref {
base lsp-log-reason;
}
description "Type of LSP change.";
}
description
"List of LSP events - implemented as a
wrapping buffer.";
}
description
"This container lists the LSP log.
Local LSP modifications are also included
in the list.";
} description "Grouping for LSP log.";
}
/* Groupings for the LSDB description */
/* Unknown TLV and sub-TLV description */
grouping tlv {
description
"Type-Length-Value (TLV)";
leaf type {
type uint16;
description "TLV type.";
}
leaf length {
type uint16;
description "TLV length (octets).";
}
leaf value {
type yang:hex-string;
description "TLV value.";
}
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}
grouping unknown-tlvs {
description
"Unknown TLVs grouping - Used for unknown TLVs or
unknown sub-TLVs.";
container unknown-tlvs {
description "All unknown TLVs.";
list unknown-tlv {
description "Unknown TLV.";
uses tlv;
}
}
}
/* TLVs and sub-TLVs for prefixes */
grouping prefix-reachability-attributes {
description
"Grouping for extended reachability attributes of an
IPv4 or IPv6 prefix.";
leaf external-prefix-flag {
type boolean;
description "External prefix flag.";
}
leaf readvertisement-flag {
type boolean;
description "Re-advertisement flag.";
}
leaf node-flag {
type boolean;
description "Node flag.";
}
}
grouping prefix-ipv4-source-router-id {
description
"Grouping for the IPv4 source router ID of a prefix
advertisement.";
leaf ipv4-source-router-id {
type inet:ipv4-address;
description "IPv4 Source router ID address.";
}
}
grouping prefix-ipv6-source-router-id {
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description
"Grouping for the IPv6 source router ID of a prefix
advertisement.";
leaf ipv6-source-router-id {
type inet:ipv6-address;
description "IPv6 Source router ID address.";
}
}
grouping prefix-attributes-extension {
description "Prefix extended attributes
as defined in RFC7794.";
uses prefix-reachability-attributes;
uses prefix-ipv4-source-router-id;
uses prefix-ipv6-source-router-id;
}
grouping prefix-ipv4-std {
description
"Grouping for attributes of an IPv4 standard prefix
as defined in RFC1195.";
leaf ip-prefix {
type inet:ipv4-address;
description "IPv4 prefix address";
}
leaf prefix-len {
type uint8;
description "IPv4 prefix length (in bits)";
}
leaf i-e {
type boolean;
description "Internal or External (I/E) Metric bit value.";
}
container default-metric {
leaf metric {
type std-metric;
description "Default IS-IS metric for IPv4 prefix";
}
description "IS-IS default metric container.";
}
container delay-metric {
leaf metric {
type std-metric;
description "IS-IS delay metric for IPv4 prefix";
}
leaf supported {
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type boolean;
default "false";
description
"Indicates whether IS-IS delay metric is supported.";
}
description "IS-IS delay metric container.";
}
container expense-metric {
leaf metric {
type std-metric;
description "IS-IS expense metric for IPv4 prefix";
}
leaf supported {
type boolean;
default "false";
description
"Indicates whether IS-IS delay metric is supported.";
}
description "IS-IS expense metric container.";
}
container error-metric {
leaf metric {
type std-metric;
description
"This leaf describes the IS-IS error metric value";
}
leaf supported {
type boolean;
default "false";
description "IS-IS error metric for IPv4 prefix";
}
description "IS-IS error metric container.";
}
}
grouping prefix-ipv4-extended {
description
"Grouping for attributes of an IPv4 extended prefix
as defined in RFC5305.";
leaf up-down {
type boolean;
description "Value of up/down bit.";
}
leaf ip-prefix {
type inet:ipv4-address;
description "IPv4 prefix address";
}
leaf prefix-len {
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type uint8;
description "IPv4 prefix length (in bits)";
}
leaf metric {
type wide-metric;
description "IS-IS wide metric value";
}
leaf-list tag {
type uint32;
description
"List of 32-bit tags associated with the IPv4 prefix.";
}
leaf-list tag64 {
type uint64;
description
"List of 32-bit tags associated with the IPv4 prefix.";
}
uses prefix-attributes-extension;
}
grouping prefix-ipv6-extended {
description "Grouping for attributes of an IPv6 prefix
as defined in RFC5308.";
leaf up-down {
type boolean;
description "Value of up/down bit.";
}
leaf ip-prefix {
type inet:ipv6-address;
description "IPv6 prefix address";
}
leaf prefix-len {
type uint8;
description "IPv4 prefix length (in bits)";
}
leaf metric {
type wide-metric;
description "IS-IS wide metric value";
}
leaf-list tag {
type uint32;
description
"List of 32-bit tags associated with the IPv4 prefix.";
}
leaf-list tag64 {
type uint64;
description
"List of 32-bit tags associated with the IPv4 prefix.";
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}
uses prefix-attributes-extension;
}
/* TLVs and sub-TLVs for neighbors */
grouping neighbor-link-attributes {
description
"Grouping for link attributes as defined
in RFC5029";
leaf link-attributes-flags {
type uint16;
description
"Flags for the link attributes";
}
}
grouping neighbor-gmpls-extensions {
description
"Grouping for GMPLS attributes of a neighbor as defined
in RFC5307";
leaf link-local-id {
type uint32;
description
"Local identifier of the link.";
}
leaf remote-local-id {
type uint32;
description
"Remote identifier of the link.";
}
leaf protection-capability {
type uint8;
description
"Describes the protection capabilities
of the link. This is the value of the
first octet of the sub-TLV type 20 value.";
}
container interface-switching-capability {
description
"Interface switching capabilities of the link.";
leaf switching-capability {
type uint8;
description
"Switching capability of the link.";
}
leaf encoding {
type uint8;
description
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"Type of encoding of the LSP being used.";
}
container max-lsp-bandwidths {
description "Per priority max LSP bandwidths.";
list max-lsp-bandwidth {
leaf priority {
type uint8 {
range "0 .. 7";
}
description "Priority from 0 to 7.";
}
leaf bandwidth {
type rt-types:bandwidth-ieee-float32;
description "max LSP bandwidth.";
}
description
"List of max LSP bandwidths for different
priorities.";
}
}
container tdm-specific {
when "../switching-capability = 100";
description
"Switching Capability-specific information applicable
when switching type is TDM.";
leaf minimum-lsp-bandwidth {
type rt-types:bandwidth-ieee-float32;
description "minimum LSP bandwidth.";
}
leaf indication {
type uint8;
description
"The indication whether the interface supports Standard
or Arbitrary SONET/SDH.";
}
}
container psc-specific {
when "../switching-capability >= 1 and
../switching-capability <= 4";
description
"Switching Capability-specific information applicable
when switching type is PSC1,PSC2,PSC3 or PSC4.";
leaf minimum-lsp-bandwidth {
type rt-types:bandwidth-ieee-float32;
description "minimum LSP bandwidth.";
}
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leaf mtu {
type uint16;
units bytes;
description
"Interface MTU";
}
}
}
}
grouping neighbor-extended-te-extensions {
description
"Grouping for TE attributes of a neighbor as defined
in RFC8570";
container unidirectional-link-delay {
description
"Container for the average delay
from the local neighbor to the remote one.";
container flags {
leaf-list unidirectional-link-delay-subtlv-flags {
type identityref {
base unidirectional-link-delay-subtlv-flag;
}
description
"This list contains identities for the bits
which are set.";
}
description
"unidirectional-link-delay subTLV flags.";
}
leaf value {
type uint32;
units usec;
description
"Delay value expressed in microseconds.";
}
}
container min-max-unidirectional-link-delay {
description
"Container for the min and max delay
from the local neighbor to the remote one.";
container flags {
leaf-list min-max-unidirectional-link-delay-subtlv-flags {
type identityref {
base min-max-unidirectional-link-delay-subtlv-flag;
}
description
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"This list contains identities for the bits which are
set.";
}
description
"min-max-unidirectional-link-delay subTLV flags.";
}
leaf min-value {
type uint32;
units usec;
description
"Minimum delay value expressed in microseconds.";
}
leaf max-value {
type uint32;
units usec;
description
"Maximum delay value expressed in microseconds.";
}
}
container unidirectional-link-delay-variation {
description
"Container for the average delay variation
from the local neighbor to the remote one.";
leaf value {
type uint32;
units usec;
description
"Delay variation value expressed in microseconds.";
}
}
container unidirectional-link-loss {
description
"Container for the packet loss
from the local neighbor to the remote one.";
container flags {
leaf-list unidirectional-link-loss-subtlv-flags {
type identityref {
base unidirectional-link-loss-subtlv-flag;
}
description
"This list contains identities for the bits which are
set.";
}
description
"unidirectional-link-loss subTLV flags.";
}
leaf value {
type uint32;
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units percent;
description
"Link packet loss expressed as a percentage
of the total traffic sent over a configurable interval.";
}
}
container unidirectional-link-residual-bandwidth {
description
"Container for the residual bandwidth
from the local neighbor to the remote one.";
leaf value {
type rt-types:bandwidth-ieee-float32;
units Bps;
description
"Residual bandwidth.";
}
}
container unidirectional-link-available-bandwidth {
description
"Container for the available bandwidth
from the local neighbor to the remote one.";
leaf value {
type rt-types:bandwidth-ieee-float32;
units Bps;
description
"Available bandwidth.";
}
}
container unidirectional-link-utilized-bandwidth {
description
"Container for the utilized bandwidth
from the local neighbor to the remote one.";
leaf value {
type rt-types:bandwidth-ieee-float32;
units Bps;
description
"Utilized bandwidth.";
}
}
}
grouping neighbor-te-extensions {
description
"Grouping for TE attributes of a neighbor as defined
in RFC5305";
leaf admin-group {
type uint32;
description
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"Administrative group/Resource Class/Color.";
}
container local-if-ipv4-addrs {
description "All local interface IPv4 addresses.";
leaf-list local-if-ipv4-addr {
type inet:ipv4-address;
description
"List of local interface IPv4 addresses.";
}
}
container remote-if-ipv4-addrs {
description "All remote interface IPv4 addresses.";
leaf-list remote-if-ipv4-addr {
type inet:ipv4-address;
description
"List of remote interface IPv4 addresses.";
}
}
leaf te-metric {
type uint32;
description "TE metric.";
}
leaf max-bandwidth {
type rt-types:bandwidth-ieee-float32;
description "Maximum bandwidth.";
}
leaf max-reservable-bandwidth {
type rt-types:bandwidth-ieee-float32;
description "Maximum reservable bandwidth.";
}
container unreserved-bandwidths {
description "All unreserved bandwidths.";
list unreserved-bandwidth {
leaf priority {
type uint8 {
range "0 .. 7";
}
description "Priority from 0 to 7.";
}
leaf unreserved-bandwidth {
type rt-types:bandwidth-ieee-float32;
description "Unreserved bandwidth.";
}
description
"List of unreserved bandwidths for different
priorities.";
}
}
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}
grouping neighbor-extended {
description
"Grouping for attributes of an IS-IS extended neighbor.";
leaf neighbor-id {
type extended-system-id;
description "system-id of the extended neighbor.";
}
container instances {
description "List of all adjacencies between the local
system and the neighbor system-id.";
list instance {
key id;
leaf id {
type uint32;
description "Unique identifier of an instance of a
particular neighbor.";
}
leaf metric {
type wide-metric;
description "IS-IS wide metric for extended neighbor";
}
uses neighbor-gmpls-extensions;
uses neighbor-te-extensions;
uses neighbor-extended-te-extensions;
uses neighbor-link-attributes;
uses unknown-tlvs;
description "Instance of a particular adjacency.";
}
}
}
grouping neighbor {
description "IS-IS standard neighbor grouping.";
leaf neighbor-id {
type extended-system-id;
description "IS-IS neighbor system-id";
}
container instances {
description "List of all adjacencies between the local
system and the neighbor system-id.";
list instance {
key id;
leaf id {
type uint32;
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description "Unique identifier of an instance of a
particular neighbor.";
}
leaf i-e {
type boolean;
description
"Internal or External (I/E) Metric bit value";
}
container default-metric {
leaf metric {
type std-metric;
description "IS-IS default metric value";
}
description "IS-IS default metric container";
}
container delay-metric {
leaf metric {
type std-metric;
description "IS-IS delay metric value";
}
leaf supported {
type boolean;
default "false";
description "IS-IS delay metric supported";
}
description "IS-IS delay metric container";
}
container expense-metric {
leaf metric {
type std-metric;
description "IS-IS delay expense metric value";
}
leaf supported {
type boolean;
default "false";
description "IS-IS delay expense metric supported";
}
description "IS-IS delay expense metric container";
}
container error-metric {
leaf metric {
type std-metric;
description "IS-IS error metric value";
}
leaf supported {
type boolean;
default "false";
description "IS-IS error metric supported";
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}
description "IS-IS error metric container";
}
description "Instance of a particular adjacency
as defined in ISO10589.";
}
}
}
/* Top-level TLVs */
grouping tlv132-ipv4-addresses {
leaf-list ipv4-addresses {
type inet:ipv4-address;
description
"List of IPv4 addresses of the IS-IS node - IS-IS
reference is TLV 132.";
}
description "Grouping for TLV132.";
}
grouping tlv232-ipv6-addresses {
leaf-list ipv6-addresses {
type inet:ipv6-address;
description
"List of IPv6 addresses of the IS-IS node - IS-IS
reference is TLV 232.";
}
description "Grouping for TLV232.";
}
grouping tlv134-ipv4-te-rid {
leaf ipv4-te-routerid {
type inet:ipv4-address;
description
"IPv4 Traffic Engineering router ID of the IS-IS node -
IS-IS reference is TLV 134.";
}
description "Grouping for TLV134.";
}
grouping tlv140-ipv6-te-rid {
leaf ipv6-te-routerid {
type inet:ipv6-address;
description
"IPv6 Traffic Engineering router ID of the IS-IS node -
IS-IS reference is TLV 140.";
}
description "Grouping for TLV140.";
}
grouping tlv129-protocols {
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leaf-list protocol-supported {
type uint8;
description
"List of supported protocols of the IS-IS node -
IS-IS reference is TLV 129.";
}
description "Grouping for TLV129.";
}
grouping tlv137-hostname {
leaf dynamic-hostname {
type string;
description
"Host Name of the IS-IS node - IS-IS reference
is TLV 137.";
}
description "Grouping for TLV137.";
}
grouping tlv10-authentication {
container authentication {
leaf authentication-type {
type identityref {
base key-chain:crypto-algorithm;
}
description
"Authentication type to be used with IS-IS node.";
}
leaf authentication-key {
type string;
description
"Authentication key to be used. For security reasons,
the authentication key MUST NOT be presented in
a clear text format in response to any request
(e.g., via get, get-config).";
}
description
"IS-IS node authentication information container -
IS-IS reference is TLV 10.";
}
description "Grouping for TLV10.";
}
grouping tlv229-mt {
container mt-entries {
list topology {
description
"List of topologies supported";
leaf mt-id {
type uint16 {
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range "0 .. 4095";
}
description
"Multi-Topology identifier of topology.";
}
container attributes {
leaf-list flags {
type identityref {
base tlv229-flag;
}
description
"This list contains identities for the bits which are
set.";
}
description
"TLV 229 flags.";
}
}
description
"IS-IS node topology information container -
IS-IS reference is TLV 229.";
}
description "Grouping for TLV229.";
}
grouping tlv242-router-capabilities {
container router-capabilities {
list router-capability {
container flags {
leaf-list router-capability-flags {
type identityref {
base router-capability-flag;
}
description
"This list contains identities for the bits which are
set.";
}
description
"Router capability flags.";
}
container node-tags {
if-feature node-tag;
list node-tag {
leaf tag {
type uint32;
description "Node tag value.";
}
description "List of tags.";
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}
description "Container for node admin tags";
}
uses unknown-tlvs;
description
"IS-IS node capabilities. This list element may
be extended with detailed information - IS-IS
reference is TLV 242.";
}
description "List of router capability TLVs.";
}
description "Grouping for TLV242.";
}
grouping tlv138-srlg {
description
"Grouping for TLV138.";
container links-srlgs {
list links {
leaf neighbor-id {
type extended-system-id;
description "system-id of the extended neighbor.";
}
leaf flags {
type uint8;
description
"Flags associated with the link.";
}
leaf link-local-id {
type union {
type inet:ip-address;
type uint32;
}
description
"Local identifier of the link.
It could be an IPv4 address or a local identifier.";
}
leaf link-remote-id {
type union {
type inet:ip-address;
type uint32;
}
description
"Remote identifier of the link.
It could be an IPv4 address or a remotely learned
identifier.";
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}
container srlgs {
description "List of SRLGs.";
leaf-list srlg {
type uint32;
description
"SRLG value of the link.";
}
}
description
"SRLG attribute of a link.";
}
description
"List of links with SRLGs";
}
}
/* Grouping for LSDB description */
grouping lsp-entry {
description "IS-IS LSP database entry grouping";
leaf decoded-completed {
type boolean;
description "IS-IS LSP body fully decoded.";
}
leaf raw-data {
type yang:hex-string;
description
"The hexadecimal representation of the complete LSP in
network-byte order (NBO) as received or originated.";
}
leaf lsp-id {
type lsp-id;
description "LSP ID of the LSP";
}
leaf checksum {
type uint16;
description "LSP checksum";
}
leaf remaining-lifetime {
type uint16;
units "seconds";
description
"Remaining lifetime (in seconds) until LSP expiration.";
}
leaf sequence {
type uint32;
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description
"This leaf describes the sequence number of the LSP.";
}
container attributes {
leaf-list lsp-flags {
type identityref {
base lsp-flag;
}
description
"This list contains identities for the bits which are
set.";
}
description "LSP attributes.";
}
uses tlv132-ipv4-addresses;
uses tlv232-ipv6-addresses;
uses tlv134-ipv4-te-rid;
uses tlv140-ipv6-te-rid;
uses tlv129-protocols;
uses tlv137-hostname;
uses tlv10-authentication;
uses tlv229-mt;
uses tlv242-router-capabilities;
uses tlv138-srlg;
uses unknown-tlvs;
container is-neighbor {
list neighbor {
key neighbor-id;
uses neighbor;
description "List of neighbors.";
}
description
"Standard IS neighbors container - IS-IS reference is
TLV 2.";
}
container extended-is-neighbor {
list neighbor {
key neighbor-id;
uses neighbor-extended;
description
"List of extended IS neighbors";
}
description
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"Standard IS extended neighbors container - IS-IS
reference is TLV 22";
}
container ipv4-internal-reachability {
list prefixes {
uses prefix-ipv4-std;
description "List of prefixes.";
}
description
"IPv4 internal reachability information container - IS-IS
reference is TLV 128.";
}
container ipv4-external-reachability {
list prefixes {
uses prefix-ipv4-std;
description "List of prefixes.";
}
description
"IPv4 external reachability information container -
IS-IS reference is TLV 130.";
}
container extended-ipv4-reachability {
list prefixes {
uses prefix-ipv4-extended;
uses unknown-tlvs;
description "List of prefixes.";
}
description
"IPv4 extended reachability information container -
IS-IS reference is TLV 135.";
}
container mt-is-neighbor {
list neighbor {
leaf mt-id {
type uint16 {
range "0 .. 4095";
}
description "Multi-topology (MT) identifier";
}
uses neighbor-extended;
description "List of neighbors.";
}
description
"IS-IS multi-topology neighbor container - IS-IS
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reference is TLV 223.";
}
container mt-extended-ipv4-reachability {
list prefixes {
leaf mt-id {
type uint16 {
range "0 .. 4095";
}
description "Multi-topology (MT) identifier";
}
uses prefix-ipv4-extended;
uses unknown-tlvs;
description "List of extended prefixes.";
}
description
"IPv4 multi-topology (MT) extended reachability
information container - IS-IS reference is TLV 235.";
}
container mt-ipv6-reachability {
list prefixes {
leaf MT-ID {
type uint16 {
range "0 .. 4095";
}
description "Multi-topology (MT) identifier";
}
uses prefix-ipv6-extended;
uses unknown-tlvs;
description "List of IPv6 extended prefixes.";
}
description
"IPv6 multi-topology (MT) extended reachability
information container - IS-IS reference is TLV 237.";
}
container ipv6-reachability {
list prefixes {
uses prefix-ipv6-extended;
uses unknown-tlvs;
description "List of IPv6 prefixes.";
}
description
"IPv6 reachability information container - IS-IS
reference is TLV 236.";
}
}
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grouping lsdb {
description "Link State Database (LSDB) grouping";
container database {
config false;
list levels {
key level;
leaf level {
type level-number;
description "LSDB level number (1 or 2)";
}
list lsp {
key lsp-id;
uses lsp-entry;
description "List of LSPs in LSDB";
}
description "List of LSPs for the LSDB level container";
}
description "IS-IS Link State database container";
}
}
/* Augmentations */
augment "/rt:routing/"
+"rt:ribs/rt:rib/rt:routes/rt:route" {
when "rt:source-protocol = 'isis:isis'" {
description "IS-IS-specific route attributes.";
}
uses route-content;
description
"This augments route object in RIB with IS-IS-specific
attributes.";
}
augment "/if:interfaces/if:interface" {
leaf clns-mtu {
if-feature osi-interface;
type uint16;
description "CLNS MTU of the interface";
}
description "ISO specific interface parameters.";
}
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augment "/rt:routing/rt:control-plane-protocols/"
+"rt:control-plane-protocol" {
when "rt:type = 'isis:isis'" {
description
"This augment is only valid when routing protocol
instance type is 'isis'";
}
description
"This augments a routing protocol instance with IS-IS
specific parameters.";
container isis {
must "count(area-address) > 0" {
error-message
"At least one area-address must be configured.";
description
"Enforce configuration of at least one area.";
}
uses instance-config;
uses instance-state;
container topologies {
if-feature multi-topology;
list topology {
key "name";
leaf enable {
type boolean;
description "Topology enable configuration";
}
leaf name {
type leafref {
path "../../../../../../rt:ribs/rt:rib/rt:name";
}
description
"Routing Information Base (RIB) corresponding
to topology.";
}
uses multi-topology-config;
description "List of topologies";
}
description "Multi-topology container";
}
container interfaces {
list interface {
key "name";
leaf name {
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type if:interface-ref;
description
"Reference to the interface within
the routing-instance.";
}
uses interface-config;
uses interface-state;
container topologies {
if-feature multi-topology;
list topology {
key name;
leaf name {
type leafref {
path "../../../../../../../../"+
"rt:ribs/rt:rib/rt:name";
}
description
"Routing Information Base (RIB) corresponding
to topology.";
}
uses multi-topology-interface-config;
description "List of interface topologies";
}
description "Multi-topology container";
}
description "List of IS-IS interfaces.";
}
description
"IS-IS interface specific configuration container";
}
description
"IS-IS configuration/state top-level container";
}
}
/* RPC methods */
rpc clear-adjacency {
description
"This RPC request clears a particular set of IS-IS
adjacencies. If the operation fails due to an internal
reason, then the error-tag and error-app-tag should be
set indicating the reason for the failure.";
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input {
leaf routing-protocol-instance-name {
type leafref {
path "/rt:routing/rt:control-plane-protocols/"
+ "rt:control-plane-protocol/rt:name";
}
mandatory "true";
description
"Name of the IS-IS protocol instance whose IS-IS
adjacency is being cleared.
If the corresponding IS-IS instance doesn't exist,
then the operation will fail with an error-tag of
'data-missing' and an error-app-tag of
'routing-protocol-instance-not-found'.";
}
leaf level {
type level;
description
"IS-IS level of the adjacency to be cleared. If the
IS-IS level is level-1-2, both level 1 and level 2
adjacencies would be cleared.
If the value provided is different from the one
authorized in the enum type, then the operation
SHALL fail with an error-tag of 'data-missing' and
an error-app-tag of 'bad-isis-level'.";
}
leaf interface {
type if:interface-ref;
description
"IS-IS interface name.
If the corresponding IS-IS interface doesn't exist,
then the operation SHALL fail with an error-tag of
'data-missing' and an error-app-tag of
'isis-interface-not-found'.";
}
}
}
rpc clear-database {
description
"This RPC request clears a particular IS-IS database. If
the operation fails for an IS-IS internal reason, then
the error-tag and error-app-tag should be set
indicating the reason for the failure.";
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input {
leaf routing-protocol-instance-name {
type leafref {
path "/rt:routing/rt:control-plane-protocols/"
+ "rt:control-plane-protocol/rt:name";
}
mandatory "true";
description
"Name of the IS-IS protocol instance whose IS-IS
database(s) is/are being cleared.
If the corresponding IS-IS instance doesn't exist,
then the operation will fail with an error-tag of
'data-missing' and an error-app-tag of
'routing-protocol-instance-not-found'.";
}
leaf level {
type level;
description
"IS-IS level of the adjacency to be cleared. If the
IS-IS level is level-1-2, both level 1 and level 2
databases would be cleared.
If the value provided is different from the one
authorized in the enum type, then the operation
SHALL fail with an error-tag of 'data-missing' and
an error-app-tag of 'bad-isis-level'.";
}
}
}
/* Notifications */
notification database-overload {
uses notification-instance-hdr;
leaf overload {
type enumeration {
enum off {
description
"Indicates IS-IS instance has left overload state";
}
enum on {
description
"Indicates IS-IS instance has entered overload state";
}
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}
description "New overload state of the IS-IS instance";
}
description
"This notification is sent when an IS-IS instance
overload state changes.";
}
notification lsp-too-large {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf pdu-size {
type uint32;
description "Size of the LSP PDU";
}
leaf lsp-id {
type lsp-id;
description "LSP ID";
}
description
"This notification is sent when we attempt to propagate
an LSP that is larger than the dataLinkBlockSize (ISO10589)
for the circuit. The notification generation must be
throttled with at least 5 seconds between successive
notifications.";
}
notification if-state-change {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf state {
type if-state-type;
description "Interface state.";
}
description
"This notification is sent when an interface
state change is detected.";
}
notification corrupted-lsp-detected {
uses notification-instance-hdr;
leaf lsp-id {
type lsp-id;
description "LSP ID";
}
description
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"This notification is sent when we find that
an LSP that was stored in memory has become
corrupted.";
}
notification attempt-to-exceed-max-sequence {
uses notification-instance-hdr;
leaf lsp-id {
type lsp-id;
description "LSP ID";
}
description
"This notification is sent when the system
wraps the 32-bit sequence counter of an LSP.";
}
notification id-len-mismatch {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf pdu-field-len {
type uint8;
description "Size of the ID length in the received PDU";
}
leaf raw-pdu {
type binary;
description "Received raw PDU.";
}
description
"This notification is sent when we receive a PDU
with a different value for the system-id length.
The notification generation must be throttled
with at least 5 seconds between successive
notifications.";
}
notification max-area-addresses-mismatch {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf max-area-addresses {
type uint8;
description "Received number of supported areas";
}
leaf raw-pdu {
type binary;
description "Received raw PDU.";
}
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description
"This notification is sent when we receive a PDU
with a different value for the Maximum Area Addresses.
The notification generation must be throttled
with at least 5 seconds between successive
notifications.";
}
notification own-lsp-purge {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf lsp-id {
type lsp-id;
description "LSP ID";
}
description
"This notification is sent when the system receives
a PDU with its own system-id and zero age.";
}
notification sequence-number-skipped {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf lsp-id {
type lsp-id;
description "LSP ID";
}
description
"This notification is sent when the system receives a
PDU with its own system-id and different contents. The
system has to originate the LSP with a higher sequence
number.";
}
notification authentication-type-failure {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf raw-pdu {
type binary;
description "Received raw PDU.";
}
description
"This notification is sent when the system receives a
PDU with the wrong authentication type field.
The notification generation must be throttled
with at least 5 seconds between successive
notifications.";
}
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notification authentication-failure {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf raw-pdu {
type binary;
description "Received raw PDU.";
}
description
"This notification is sent when the system receives
a PDU with the wrong authentication information.
The notification generation must be throttled
with at least 5 seconds between successive
notifications.";
}
notification version-skew {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf protocol-version {
type uint8;
description "Protocol version received in the PDU.";
}
leaf raw-pdu {
type binary;
description "Received raw PDU.";
}
description
"This notification is sent when the system receives a
PDU with a different protocol version number.
The notification generation must be throttled
with at least 5 seconds between successive
notifications.";
}
notification area-mismatch {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf raw-pdu {
type binary;
description "Received raw PDU.";
}
description
"This notification is sent when the system receives a
Hello PDU from an IS that does not share any area
address. The notification generation must be throttled
with at least 5 seconds between successive
notifications.";
}
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notification rejected-adjacency {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf raw-pdu {
type binary;
description
"Received raw PDU.";
}
leaf reason {
type string {
length "1..255";
}
description
"The system may provide a reason to reject the
adjacency. If the reason is not available,
an empty string will be returned.
The expected format is a single line text.";
}
description
"This notification is sent when the system receives a
Hello PDU from an IS but does not establish an adjacency
for some reason. The notification generation must be
throttled with at least 5 seconds between successive
notifications.";
}
notification protocols-supported-mismatch {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf raw-pdu {
type binary;
description "Received raw PDU.";
}
leaf-list protocols {
type uint8;
description
"List of protocols supported by the remote system.";
}
description
"This notification is sent when the system receives a
non-pseudonode LSP that has no matching protocols
supported. The notification generation must be throttled
with at least 5 seconds between successive
notifications.";
}
notification lsp-error-detected {
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uses notification-instance-hdr;
uses notification-interface-hdr;
leaf lsp-id {
type lsp-id;
description "LSP ID.";
}
leaf raw-pdu {
type binary;
description "Received raw PDU.";
}
leaf error-offset {
type uint32;
description
"If the problem is a malformed TLV, the error-offset
points to the start of the TLV. If the problem is with
the LSP header, the error-offset points to the errant
byte";
}
leaf tlv-type {
type uint8;
description
"If the problem is a malformed TLV, the tlv-type is set
to the type value of the suspicious TLV. Otherwise,
this leaf is not present.";
}
description
"This notification is sent when the system receives an
LSP with a parse error. The notification generation must
be throttled with at least 5 seconds between successive
notifications.";
}
notification adjacency-state-change {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf neighbor {
type string {
length "1..255";
}
description
"Name of the neighbor.
It corresponds to the hostname associated
with the system-id of the neighbor in the
mapping database (RFC5301).
If the name of the neighbor is
not available, it is not returned.";
}
leaf neighbor-system-id {
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type system-id;
description "Neighbor system-id";
}
leaf state {
type adj-state-type;
description "New state of the IS-IS adjacency.";
}
leaf reason {
type string {
length "1..255";
}
description
"If the adjacency is going to DOWN, this leaf provides
a reason for the adjacency going down. The reason is
provided as a text. If the adjacency is going to UP, no
reason is provided. The expected format is a single line
text.";
}
description
"This notification is sent when an IS-IS adjacency
moves to Up state or to Down state.";
}
notification lsp-received {
uses notification-instance-hdr;
uses notification-interface-hdr;
leaf lsp-id {
type lsp-id;
description "LSP ID";
}
leaf sequence {
type uint32;
description "Sequence number of the received LSP.";
}
leaf received-timestamp {
type yang:timestamp;
description "Timestamp when the LSP was received.";
}
leaf neighbor-system-id {
type system-id;
description "Neighbor system-id of LSP sender";
}
description
"This notification is sent when an LSP is received.
The notification generation must be throttled with at
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least 5 seconds between successive notifications.";
}
notification lsp-generation {
uses notification-instance-hdr;
leaf lsp-id {
type lsp-id;
description "LSP ID";
}
leaf sequence {
type uint32;
description "Sequence number of the received LSP.";
}
leaf send-timestamp {
type yang:timestamp;
description "Timestamp when our LSP was regenerated.";
}
description
"This notification is sent when an LSP is regenerated.
The notification generation must be throttled with at
least 5 seconds between successive notifications.";
}
}
7. Security Considerations
The YANG modules specified in this document define a schema for data
that is designed to be accessed via network management protocols such
as NETCONF [RFC6241] or RESTCONF [RFC8040]. The lowest NETCONF layer
is the secure transport layer, and the mandatory-to-implement secure
transport is Secure Shell (SSH) [RFC6242]. The lowest RESTCONF layer
is HTTPS, and the mandatory-to-implement secure transport is TLS
[RFC8446].
The NETCONF Access Control Model (NACM) [RFC8341] provides the means
to restrict access for particular NETCONF or RESTCONF users to a pre-
configured subset of all available NETCONF or RESTCONF protocol
operations and content.
There are a number of data nodes defined in ietf-isis.yang module
that are writable/creatable/deletable (i.e., config true, which is
the default). These data nodes may be considered sensitive or
vulnerable in some network environments. Write operations (e.g.,
edit-config) to these data nodes without proper protection can have a
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negative effect on network operations. Writable data node represent
configuration of each instance and interface. These correspond to
the following schema nodes:
/isis
/isis/interfaces/interface[name]
For IS-IS, the ability to modify IS-IS configuration will allow the
entire IS-IS domain to be compromised including forming adjacencies
with unauthorized routers to misroute traffic or mount a massive
Denial-of-Service (DoS) attack. For example, adding IS-IS on any
unprotected interface could allow an IS-IS adjacency to be formed
with an unauthorized and malicious neighbor. Once an adjacency is
formed, traffic could be hijacked. As a simpler example, a Denial-
of-Service attack could be mounted by changing the cost of an IS-IS
interface to be asymmetric such that a hard routing loop ensues. In
general, unauthorized modification of most IS-IS features will pose
there own set of security risks and the "Security Considerations" in
the respective reference RFCs should be consulted.
Some of the readable data nodes in the ietf-isi.yang module may be
considered sensitive or vulnerable in some network environments. It
is thus important to control read access (e.g., via get, get-config,
or notification) to these data nodes. The exposure of the Link State
Database (LSDB) will expose the detailed topology of the network.
The Link State Database (LSDB) is represented by the following schema
node:
/isis/database
Exposure of the Link State Database includes information beyond the
scope of the IS-IS router and this may be undesirable since exposure
may facilitate other attacks. Additionally, the complete IP network
topology and, if deployed, the traffic engineering topology of the
IS-IS domain can be reconstucted. Network operators may consider
their topologies to be sensitive confidential data.
For IS-IS authentication, configuration is supported via the
specification of key-chain [RFC8177] or the direction specification
of key and authentication algorithm. Hence, authentification
configuration using the "auth-table-trailer" case in the
"authentication" container inherits the security considerations of
[RFC8177]. This includes the considerations with respect to the
local storage and handling of authentication keys.
Some of the RPC operations in this YANG module may be considered
sensitive or vulnerable in some network environments. It is thus
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important to control access to these operations. The IS-IS YANG
module support the "clear-adjacency" and "clear-database" RPCs. If
access too either of these is compromised, they can result in
temporary network outages be employed to mount DoS attacks.
The actual authentication key data (whether locally specified or part
of a key-chain) is sensitive and needs to be kept secret from
unauthorized parties; compromise of the key data would allow an
attacker to forge IS-IS traffic that would be accepted as authentic,
potentially compromising the entirety IS-IS domain.
8. Contributors
Authors would like to thank Kiran Agrahara Sreenivasa, Dean
Bogdanovic, Yingzhen Qu, Yi Yang, Jeff Tanstura for their major
contributions to the draft.
9. IANA Considerations
The IANA is requested to assign two new URIs from the IETF XML
registry [RFC3688]. Authors are suggesting the following URI:
URI: urn:ietf:params:xml:ns:yang:ietf-isis
Registrant Contact: The IESG
XML: N/A, the requested URI is an XML namespace
This document also requests one new YANG module name in the YANG
Module Names registry [RFC6020] with the following suggestion:
name: ietf-isis
namespace: urn:ietf:params:xml:ns:yang:ietf-isis
prefix: isis
reference: RFC XXXX
10. References
10.1. Normative References
[I-D.ietf-bfd-yang]
Rahman, R., Zheng, L., Jethanandani, M., Networks, J., and
G. Mirsky, "YANG Data Model for Bidirectional Forwarding
Detection (BFD)", draft-ietf-bfd-yang-17 (work in
progress), August 2018.
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[ISO-10589]
"Intermediate System to Intermediate System intra- domain
routeing information exchange protocol for use in
conjunction with the protocol for providing the
connectionless-mode network service (ISO 8473)",
International Standard 10589: 2002, Second Edition, 2002.
[RFC1195] Callon, R., "Use of OSI IS-IS for routing in TCP/IP and
dual environments", RFC 1195, DOI 10.17487/RFC1195,
December 1990, .
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119,
DOI 10.17487/RFC2119, March 1997,
.
[RFC2966] Li, T., Przygienda, T., and H. Smit, "Domain-wide Prefix
Distribution with Two-Level IS-IS", RFC 2966,
DOI 10.17487/RFC2966, October 2000,
.
[RFC3688] Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688,
DOI 10.17487/RFC3688, January 2004,
.
[RFC4090] Pan, P., Ed., Swallow, G., Ed., and A. Atlas, Ed., "Fast
Reroute Extensions to RSVP-TE for LSP Tunnels", RFC 4090,
DOI 10.17487/RFC4090, May 2005,
.
[RFC5029] Vasseur, JP. and S. Previdi, "Definition of an IS-IS Link
Attribute Sub-TLV", RFC 5029, DOI 10.17487/RFC5029,
September 2007, .
[RFC5120] Przygienda, T., Shen, N., and N. Sheth, "M-ISIS: Multi
Topology (MT) Routing in Intermediate System to
Intermediate Systems (IS-ISs)", RFC 5120,
DOI 10.17487/RFC5120, February 2008,
.
[RFC5130] Previdi, S., Shand, M., Ed., and C. Martin, "A Policy
Control Mechanism in IS-IS Using Administrative Tags",
RFC 5130, DOI 10.17487/RFC5130, February 2008,
.
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[RFC5286] Atlas, A., Ed. and A. Zinin, Ed., "Basic Specification for
IP Fast Reroute: Loop-Free Alternates", RFC 5286,
DOI 10.17487/RFC5286, September 2008,
.
[RFC5301] McPherson, D. and N. Shen, "Dynamic Hostname Exchange
Mechanism for IS-IS", RFC 5301, DOI 10.17487/RFC5301,
October 2008, .
[RFC5305] Li, T. and H. Smit, "IS-IS Extensions for Traffic
Engineering", RFC 5305, DOI 10.17487/RFC5305, October
2008, .
[RFC5306] Shand, M. and L. Ginsberg, "Restart Signaling for IS-IS",
RFC 5306, DOI 10.17487/RFC5306, October 2008,
.
[RFC5307] Kompella, K., Ed. and Y. Rekhter, Ed., "IS-IS Extensions
in Support of Generalized Multi-Protocol Label Switching
(GMPLS)", RFC 5307, DOI 10.17487/RFC5307, October 2008,
.
[RFC5308] Hopps, C., "Routing IPv6 with IS-IS", RFC 5308,
DOI 10.17487/RFC5308, October 2008,
.
[RFC5443] Jork, M., Atlas, A., and L. Fang, "LDP IGP
Synchronization", RFC 5443, DOI 10.17487/RFC5443, March
2009, .
[RFC5880] Katz, D. and D. Ward, "Bidirectional Forwarding Detection
(BFD)", RFC 5880, DOI 10.17487/RFC5880, June 2010,
.
[RFC5881] Katz, D. and D. Ward, "Bidirectional Forwarding Detection
(BFD) for IPv4 and IPv6 (Single Hop)", RFC 5881,
DOI 10.17487/RFC5881, June 2010,
.
[RFC6020] Bjorklund, M., Ed., "YANG - A Data Modeling Language for
the Network Configuration Protocol (NETCONF)", RFC 6020,
DOI 10.17487/RFC6020, October 2010,
.
[RFC6119] Harrison, J., Berger, J., and M. Bartlett, "IPv6 Traffic
Engineering in IS-IS", RFC 6119, DOI 10.17487/RFC6119,
February 2011, .
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[RFC6232] Wei, F., Qin, Y., Li, Z., Li, T., and J. Dong, "Purge
Originator Identification TLV for IS-IS", RFC 6232,
DOI 10.17487/RFC6232, May 2011,
.
[RFC6241] Enns, R., Ed., Bjorklund, M., Ed., Schoenwaelder, J., Ed.,
and A. Bierman, Ed., "Network Configuration Protocol
(NETCONF)", RFC 6241, DOI 10.17487/RFC6241, June 2011,
.
[RFC6242] Wasserman, M., "Using the NETCONF Protocol over Secure
Shell (SSH)", RFC 6242, DOI 10.17487/RFC6242, June 2011,
.
[RFC6991] Schoenwaelder, J., Ed., "Common YANG Data Types",
RFC 6991, DOI 10.17487/RFC6991, July 2013,
.
[RFC7490] Bryant, S., Filsfils, C., Previdi, S., Shand, M., and N.
So, "Remote Loop-Free Alternate (LFA) Fast Reroute (FRR)",
RFC 7490, DOI 10.17487/RFC7490, April 2015,
.
[RFC7794] Ginsberg, L., Ed., Decraene, B., Previdi, S., Xu, X., and
U. Chunduri, "IS-IS Prefix Attributes for Extended IPv4
and IPv6 Reachability", RFC 7794, DOI 10.17487/RFC7794,
March 2016, .
[RFC7917] Sarkar, P., Ed., Gredler, H., Hegde, S., Litkowski, S.,
and B. Decraene, "Advertising Node Administrative Tags in
IS-IS", RFC 7917, DOI 10.17487/RFC7917, July 2016,
.
[RFC7950] Bjorklund, M., Ed., "The YANG 1.1 Data Modeling Language",
RFC 7950, DOI 10.17487/RFC7950, August 2016,
.
[RFC7981] Ginsberg, L., Previdi, S., and M. Chen, "IS-IS Extensions
for Advertising Router Information", RFC 7981,
DOI 10.17487/RFC7981, October 2016,
.
[RFC8040] Bierman, A., Bjorklund, M., and K. Watsen, "RESTCONF
Protocol", RFC 8040, DOI 10.17487/RFC8040, January 2017,
.
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[RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174,
May 2017, .
[RFC8177] Lindem, A., Ed., Qu, Y., Yeung, D., Chen, I., and J.
Zhang, "YANG Data Model for Key Chains", RFC 8177,
DOI 10.17487/RFC8177, June 2017,
.
[RFC8294] Liu, X., Qu, Y., Lindem, A., Hopps, C., and L. Berger,
"Common YANG Data Types for the Routing Area", RFC 8294,
DOI 10.17487/RFC8294, December 2017,
.
[RFC8341] Bierman, A. and M. Bjorklund, "Network Configuration
Access Control Model", STD 91, RFC 8341,
DOI 10.17487/RFC8341, March 2018,
.
[RFC8342] Bjorklund, M., Schoenwaelder, J., Shafer, P., Watsen, K.,
and R. Wilton, "Network Management Datastore Architecture
(NMDA)", RFC 8342, DOI 10.17487/RFC8342, March 2018,
.
[RFC8343] Bjorklund, M., "A YANG Data Model for Interface
Management", RFC 8343, DOI 10.17487/RFC8343, March 2018,
.
[RFC8349] Lhotka, L., Lindem, A., and Y. Qu, "A YANG Data Model for
Routing Management (NMDA Version)", RFC 8349,
DOI 10.17487/RFC8349, March 2018,
.
[RFC8405] Decraene, B., Litkowski, S., Gredler, H., Lindem, A.,
Francois, P., and C. Bowers, "Shortest Path First (SPF)
Back-Off Delay Algorithm for Link-State IGPs", RFC 8405,
DOI 10.17487/RFC8405, June 2018,
.
[RFC8446] Rescorla, E., "The Transport Layer Security (TLS) Protocol
Version 1.3", RFC 8446, DOI 10.17487/RFC8446, August 2018,
.
[RFC8570] Ginsberg, L., Ed., Previdi, S., Ed., Giacalone, S., Ward,
D., Drake, J., and Q. Wu, "IS-IS Traffic Engineering (TE)
Metric Extensions", RFC 8570, DOI 10.17487/RFC8570, March
2019, .
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10.2. Informative References
[RFC8340] Bjorklund, M. and L. Berger, Ed., "YANG Tree Diagrams",
BCP 215, RFC 8340, DOI 10.17487/RFC8340, March 2018,
.
Appendix A. Example of IS-IS configuration in XML
This section gives an example of configuration of an IS-IS instance
on a device. The example is written in XML.
SLI
1.1.1.1
ISIS-example
isis:isis
true
level-2
87FC.FCDF.4432
49.0001
192.0.2.1
65535
65000
wide-only
111111
ipv4
true
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ipv6
true
Loopback0
200
0
true
Eth1
level-2
point-to-point
167890
Loopback0
ianaift:softwareLoopback
enabled
192.0.2.1
32
2001:DB8::1
128
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Eth1
ianaift:ethernetCsmacd
enabled
198.51.100.1
30
2001:DB8:0:0:FF::1
64
Authors' Addresses
Stephane Litkowski
Orange
Email: stephane.litkowski@orange.com
Derek Yeung
Arrcus, Inc
Email: derek@arrcus.com
Acee Lindem
Cisco Systems
Email: acee@cisco.com
Jeffrey Zhang
Juniper Networks
Email: zzhang@juniper.net
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Ladislav Lhotka
CZ.NIC
Email: lhotka@nic.cz
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