MPLS Working Group K. Raza Internet-Draft R. Asati Intended status: Standards Track Cisco Systems, Inc. Expires: September 6, 2018 X. Liu Jabil S. Esale Juniper Networks X. Chen Huawei Technologies H. Shah Ciena Corporation March 5, 2018 YANG Data Model for MPLS LDP draft-ietf-mpls-ldp-yang-04 Abstract This document describes a YANG data model for Multi-Protocol Label Switching (MPLS) Label Distribution Protocol (LDP). This model also serves as the base model that is augmented to define Multipoint LDP (mLDP) model. 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 September 6, 2018. Raza, et al. Expires September 6, 2018 [Page 1] Internet-Draft YANG Data Model for MPLS LDP March 2018 Copyright Notice Copyright (c) 2018 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 . . . . . . . . . . . . . . . . . . . . . . . . 3 1.1. Base and Extended . . . . . . . . . . . . . . . . . . . . 3 2. Specification of Requirements . . . . . . . . . . . . . . . . 4 3. Overview . . . . . . . . . . . . . . . . . . . . . . . . . . 4 4. Consolidated Tree . . . . . . . . . . . . . . . . . . . . . . 7 5. Configuration . . . . . . . . . . . . . . . . . . . . . . . . 16 5.1. Configuration Tree . . . . . . . . . . . . . . . . . . . 19 5.1.1. Base . . . . . . . . . . . . . . . . . . . . . . . . 19 5.1.2. Extended . . . . . . . . . . . . . . . . . . . . . . 20 5.2. Configuration Hierarchy . . . . . . . . . . . . . . . . . 23 5.2.1. Per-VRF parameters . . . . . . . . . . . . . . . . . 23 6. Operational State . . . . . . . . . . . . . . . . . . . . . . 25 6.1. Operational Tree . . . . . . . . . . . . . . . . . . . . 25 6.1.1. Base . . . . . . . . . . . . . . . . . . . . . . . . 25 6.1.2. Extended . . . . . . . . . . . . . . . . . . . . . . 29 6.2. States . . . . . . . . . . . . . . . . . . . . . . . . . 31 6.2.1. Adjacency state . . . . . . . . . . . . . . . . . . . 31 6.2.2. Peer state . . . . . . . . . . . . . . . . . . . . . 32 6.2.3. Bindings state . . . . . . . . . . . . . . . . . . . 33 6.2.4. Capabilities state . . . . . . . . . . . . . . . . . 35 7. Notifications . . . . . . . . . . . . . . . . . . . . . . . . 35 8. Actions . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 9. YANG Specification . . . . . . . . . . . . . . . . . . . . . 37 9.1. Base . . . . . . . . . . . . . . . . . . . . . . . . . . 37 9.2. Extended . . . . . . . . . . . . . . . . . . . . . . . . 65 10. Security Considerations . . . . . . . . . . . . . . . . . . . 85 11. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 85 12. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . 85 13. References . . . . . . . . . . . . . . . . . . . . . . . . . 85 13.1. Normative References . . . . . . . . . . . . . . . . . . 85 13.2. Informative References . . . . . . . . . . . . . . . . . 87 Raza, et al. Expires September 6, 2018 [Page 2] Internet-Draft YANG Data Model for MPLS LDP March 2018 Appendix A. Additional Contributors . . . . . . . . . . . . . . 88 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 88 1. Introduction The Network Configuration Protocol (NETCONF) [RFC6241] is one of the network management protocols that defines mechanisms to manage network devices. YANG [RFC6020] is a modular language that represents data structures in an XML tree format, and is used as a data modelling language for the NETCONF. This document introduces a YANG data model for MPLS Label Distribution Protocol (LDP) [RFC5036]. This model also covers LDP IPv6 [RFC7552] and LDP capabilities [RFC5561]. The data model is defined for following constructs that are used for managing the protocol: o Configuration o Operational State o Executables (Actions) o Notifications This document is organized to define the data model for each of the above constructs in the sequence as listed above. 1.1. Base and Extended The configuration and state items are divided into following two broad categories: o Base o Extended The "base" category contains the basic and fundamental features that are covered in LDP base specification [RFC5036] and constitute the minumum requirements for a typical base LDP deployment. Whereas, the "extended" category contains all other non-base features. All the items in a base category are mandatory and hence no "if-feature" is allowed under the "base" category model. The base and extended catogories are defined in their own modules as described later. The example of base feature includes the configuration of LDP lsr-id, enabling LDP interfaces, setting password for LDP session etc., Raza, et al. Expires September 6, 2018 [Page 3] Internet-Draft YANG Data Model for MPLS LDP March 2018 whereas the examples of extended feature include inbound/outbound label policies, igp sync, downstream-on-demand etc. This is worth higlighting that LDP IPv6 [RFC7552] is also categorized as an extended feature. While "base" model support will suffice for small deployments, it is expected that large deployments will require not only the "base" module support from the vendors but also the support for "extended" model for some extended feature(s) of interest. 2. Specification of Requirements The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in [RFC2119]. In this document, the word "IP" is used to refer to both IPv4 and IPv6, unless otherwise explicitly stated. For example, "IP address family" means and be read as "IPv4 and/or IPv6 address family" 3. Overview This document defines two new modules for LDP YANG support: o "ietf-mpls-ldp" module that models the base LDP features and augments /rt:routing/rt:control-plane-protocols defined in [RFC8022] o extended "ietf-mpls-ldp-extended" module that models the extended LDP features and augments the base LDP It is to be noted that mLDP data model [I-D.ietf-mpls-mldp-yang] augments LDP base and extended models to model the base and extended mLDP features respectively. There are four main containers in our module(s): o Read-Write parameters for configuration (Discussed in Section 5) o Read-only parameters for operational state (Discussed in Section 6) o Notifications for events (Discussed in Section 7) o RPCs for executing commands to perform some action (Discussed in Section 8) Raza, et al. Expires September 6, 2018 [Page 4] Internet-Draft YANG Data Model for MPLS LDP March 2018 The modeling in this document complies with the Network Management Datastore Architecture (NMDA) [I-D.ietf-netmod-revised-datastores]. The operational state data is combined with the associated configuration data in the same hierarchy [I-D.ietf-netmod-rfc6087bis]. When protocol states are retrieved from the NMDA operational state datastore, the returned states cover all "config true" (rw) and "config false" (ro) nodes defined in the schema. Following diagram depicts high level LDP yang tree organization and hierarchy: +-- rw routing +-- rw control-plane-protocols +-- rw mpls-ldp +-- rw ... +-- rw ... // base | +-- rw ... | +-- ro ... | +-- +-- ro ... | +-- ro ... | +-- ro ... | +-- +-- rw ldp-ext: .... // extended | +-- rw ... | +-- ro ... | +-- +-- ro ... +-- ro ... +-- ro ... rpcs: +-- x mpls-ldp-some_action +-- x . . . . . notifications: +--- n mpls-ldp-some_event +--- n ... Figure 1 Before going into data model details, it is important to take note of the following points: Raza, et al. Expires September 6, 2018 [Page 5] Internet-Draft YANG Data Model for MPLS LDP March 2018 o This module aims to address only the core LDP parameters as per RFC specification, as well as some widely deployed non-RFC features (such as label policies, session authentication etc). Any vendor specific feature should be defined in a vendor-specific augmentation of this model. o Multi-topology LDP [RFC7307] is beyond the scope of this document. o This module does not cover any applications running on top of LDP, nor does it cover any OAM procedures for LDP. o This model is a VPN Forwarding and Routing (VRF)-centric model. It is important to note that [RFC4364] defines VRF tables and default forwarding tables as different, however from a yang modelling perspective this introduces unnecessary complications, hence we are treating the default forwarding table as just another VRF. o A "network-instance", as defined in [I-D.ietf-rtgwg-ni-model], refers to a VRF instance (both default and non-default) within the scope of this model. o This model supports two address-families, namely "ipv4" and "ipv6". o This model assumes platform-wide label space (i.e. label space Id of zero). However, when Upstream Label assignment [RFC6389] is in use, an upstream assigned label is looked up in a Context-Specific label space as defined in [RFC5331]. o The label and peer policies (including filters) are defined using a prefix-list. When used for a peer policy, the prefix refers to the LSR Id of the peer. The prefix-list is referenced from routing-policy model as defined in [I-D.ietf-rtgwg-policy-model]. o This model uses the terms LDP "neighbor"/"adjacency", "session", and "peer" with the following semantics: * Neighbor/Adjacency: An LDP enabled LSR that is discovered through LDP discovery mechanisms. * Session: An LDP neighbor with whom a TCP connection has been established. * Peer: An LDP session which has successfully progressed beyond its initialization phase and is either already exchanging the bindings or is ready to do so. Raza, et al. Expires September 6, 2018 [Page 6] Internet-Draft YANG Data Model for MPLS LDP March 2018 It is to be noted that LDP Graceful Restart mechanisms defined in [RFC3478] allow keeping the exchanged bindings for some time after a session goes down with a peer. We call such a state belonging to a "stale" peer -- i.e. keeping peer bindings from a peer with whom currently there is either no connection established or connection is established but GR session is in recovery state. When used in this document, the above terms will refer strictly to the semantics and definitions defined for them. A graphical tree representation of full LDP YANG data model is presented in Figure 2, whereas LDP configuration (base and extended), state (base and extended), notification, and rpc are grapically represented in Figure 5, Figure 6, Figure 8, Figure 9, Figure 15, and Figure 16 respectively. The actual base and extended model definition in YANG is captured in Section 9. While presenting the YANG tree view and actual .yang specification, this document assumes readers' familiarity with the concepts of YANG modeling, its presentation and its compilation. 4. Consolidated Tree Following is a consolidated tree representation of configuration, state, notification, and rpc items under LDP base and extended. module: ietf-mpls-ldp augment /rt:routing/rt:control-plane-protocols: +--rw mpls-ldp! +--rw global | +--rw capability | | +--rw ldp-ext:end-of-lib {capability-end-of-lib}? | | | +--rw ldp-ext:enable? boolean | | +--rw ldp-ext:typed-wildcard-fec | | | {capability-typed-wildcard-fec}? | | | +--rw ldp-ext:enable? boolean | | +--rw ldp-ext:upstream-label-assignment | | {capability-upstream-label-assignment}? | | +--rw ldp-ext:enable? boolean | +--rw graceful-restart | | +--rw enable? boolean | | +--rw reconnect-time? uint16 | | +--rw recovery-time? uint16 | | +--rw forwarding-holdtime? uint16 | | +--rw ldp-ext:helper-enable? boolean | | {graceful-restart-helper-mode}? | +--rw lsr-id? rt-types:router-id | +--rw address-families Raza, et al. Expires September 6, 2018 [Page 7] Internet-Draft YANG Data Model for MPLS LDP March 2018 | | +--rw ipv4! | | | +--rw enable? boolean | | | +--ro label-distribution-controlmode? enumeration | | | +--ro bindings | | | | +--ro address* [address] | | | | | +--ro address inet:ipv4-address | | | | | +--ro advertisement-type? advertised-received | | | | | +--ro peer | | | | | +--ro lsr-id? leafref | | | | | +--ro label-space-id? leafref | | | | +--ro fec-label* [fec] | | | | +--ro fec inet:ipv4-prefix | | | | +--ro peer* | | | | [lsr-id label-space-id advertisement-type] | | | | +--ro lsr-id leafref | | | | +--ro label-space-id leafref | | | | +--ro advertisement-type advertised-received | | | | +--ro label? rt-types:mpls-label | | | | +--ro used-in-forwarding? boolean | | | +--rw ldp-ext:label-policy | | | | +--rw ldp-ext:advertise | | | | | +--rw ldp-ext:egress-explicit-null | | | | | | +--rw ldp-ext:enable? boolean | | | | | +--rw ldp-ext:prefix-list? | | | | | prefix-list-ref | | | | +--rw ldp-ext:accept | | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | | +--rw ldp-ext:assign | | | | {policy-label-assignment-config}? | | | | +--rw ldp-ext:independent-mode | | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | | +--rw ldp-ext:ordered-mode | | | | {policy-ordered-label-config}? | | | | +--rw ldp-ext:egress-prefix-list? | | | | prefix-list-ref | | | +--rw ldp-ext:transport-address? inet:ipv4-address | | +--rw ldp-ext:ipv6! | | +--rw ldp-ext:enable? boolean | | +--rw ldp-ext:label-policy | | | +--rw ldp-ext:advertise | | | | +--rw ldp-ext:egress-explicit-null | | | | | +--rw ldp-ext:enable? boolean | | | | +--rw ldp-ext:prefix-list? | | | | prefix-list-ref | | | +--rw ldp-ext:accept | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | +--rw ldp-ext:assign | | | {policy-label-assignment-config}? Raza, et al. Expires September 6, 2018 [Page 8] Internet-Draft YANG Data Model for MPLS LDP March 2018 | | | +--rw ldp-ext:independent-mode | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | +--rw ldp-ext:ordered-mode | | | {policy-ordered-label-config}? | | | +--rw ldp-ext:egress-prefix-list? | | | prefix-list-ref | | +--rw ldp-ext:transport-address | | | inet:ipv6-address | | +--ro ldp-ext:label-distribution-controlmode? | | | enumeration | | +--ro ldp-ext:bindings | | +--ro ldp-ext:address* [address] | | | +--ro ldp-ext:address | | | | inet:ipv6-address | | | +--ro ldp-ext:advertisement-type? | | | | advertised-received | | | +--ro ldp-ext:peer | | | +--ro ldp-ext:lsr-id? leafref | | | +--ro ldp-ext:label-space-id? leafref | | +--ro ldp-ext:fec-label* [fec] | | +--ro ldp-ext:fec inet:ipv6-prefix | | +--ro ldp-ext:peer* | | [lsr-id label-space-id advertisement-type] | | +--ro ldp-ext:lsr-id leafref | | +--ro ldp-ext:label-space-id leafref | | +--ro ldp-ext:advertisement-type | | | advertised-received | | +--ro ldp-ext:label? | | | rt-types:mpls-label | | +--ro ldp-ext:used-in-forwarding? boolean | +--rw ldp-ext:forwarding-nexthop | | {forwarding-nexthop-config}? | | +--rw ldp-ext:interfaces | | +--rw ldp-ext:interface* [name] | | +--rw ldp-ext:name if:interface-ref | | +--rw ldp-ext:address-family* [afi] | | +--rw ldp-ext:afi ldp:ldp-address-family | | +--rw ldp-ext:ldp-disable? boolean | +--rw ldp-ext:igp-synchronization-delay? uint16 +--rw discovery | +--rw interfaces | | +--rw hello-holdtime? uint16 | | +--rw hello-interval? uint16 | | +--rw interface* [name] | | +--rw name | | | if:interface-ref | | +--ro next-hello? uint16 | | +--rw address-families Raza, et al. Expires September 6, 2018 [Page 9] Internet-Draft YANG Data Model for MPLS LDP March 2018 | | | +--rw ipv4! | | | | +--rw enable? boolean | | | | +--ro hello-adjacencies | | | | | +--ro hello-adjacency* [adjacent-address] | | | | | +--ro adjacent-address inet:ipv4-address | | | | | +--ro flag* identityref | | | | | +--ro hello-holdtime | | | | | | +--ro adjacent? uint16 | | | | | | +--ro negotiated? uint16 | | | | | | +--ro remaining? uint16 | | | | | +--ro next-hello? uint16 | | | | | +--ro statistics | | | | | | +--ro discontinuity-time | | | | | | | yang:date-and-time | | | | | | +--ro hello-received? yang:counter64 | | | | | | +--ro hello-dropped? yang:counter64 | | | | | +--ro peer | | | | | +--ro lsr-id? leafref | | | | | +--ro label-space-id? leafref | | | | +--rw ldp-ext:transport-address? union | | | +--rw ldp-ext:ipv6! | | | +--rw ldp-ext:enable? boolean | | | +--ro ldp-ext:hello-adjacencies | | | | +--ro ldp-ext:hello-adjacency* | | | | [adjacent-address] | | | | +--ro ldp-ext:adjacent-address | | | | | inet:ipv6-address | | | | +--ro ldp-ext:flag* identityref | | | | +--ro ldp-ext:hello-holdtime | | | | | +--ro ldp-ext:adjacent? uint16 | | | | | +--ro ldp-ext:negotiated? uint16 | | | | | +--ro ldp-ext:remaining? uint16 | | | | +--ro ldp-ext:next-hello? uint16 | | | | +--ro ldp-ext:statistics | | | | | +--ro ldp-ext:discontinuity-time | | | | | | yang:date-and-time | | | | | +--ro ldp-ext:hello-received? | | | | | | yang:counter64 | | | | | +--ro ldp-ext:hello-dropped? | | | | | yang:counter64 | | | | +--ro ldp-ext:peer | | | | +--ro ldp-ext:lsr-id? leafref | | | | +--ro ldp-ext:label-space-id? leafref | | | +--rw ldp-ext:transport-address? union | | +--rw ldp-ext:hello-holdtime? uint16 | | +--rw ldp-ext:hello-interval? uint16 | | +--rw ldp-ext:igp-synchronization-delay? uint16 | | {per-interface-timer-config}? Raza, et al. Expires September 6, 2018 [Page 10] Internet-Draft YANG Data Model for MPLS LDP March 2018 | +--rw targeted | +--rw hello-holdtime? uint16 | +--rw hello-interval? uint16 | +--rw hello-accept | | +--rw enable? boolean | | +--rw ldp-ext:neighbor-list? neighbor-list-ref | | {policy-targeted-discovery-config}? | +--rw address-families | +--rw ipv4! | | +--ro hello-adjacencies | | | +--ro hello-adjacency* | | | [local-address adjacent-address] | | | +--ro local-address inet:ipv4-address | | | +--ro adjacent-address inet:ipv4-address | | | +--ro flag* identityref | | | +--ro hello-holdtime | | | | +--ro adjacent? uint16 | | | | +--ro negotiated? uint16 | | | | +--ro remaining? uint16 | | | +--ro next-hello? uint16 | | | +--ro statistics | | | | +--ro discontinuity-time | | | | | yang:date-and-time | | | | +--ro hello-received? yang:counter64 | | | | +--ro hello-dropped? yang:counter64 | | | +--ro peer | | | +--ro lsr-id? leafref | | | +--ro label-space-id? leafref | | +--rw target* [adjacent-address] | | +--rw adjacent-address inet:ipv4-address | | +--rw enable? boolean | | +--rw local-address? inet:ipv4-address | +--rw ldp-ext:ipv6! | +--ro ldp-ext:hello-adjacencies | | +--ro ldp-ext:hello-adjacency* | | [local-address adjacent-address] | | +--ro ldp-ext:local-address | | | inet:ipv6-address | | +--ro ldp-ext:adjacent-address | | | inet:ipv6-address | | +--ro ldp-ext:flag* identityref | | +--ro ldp-ext:hello-holdtime | | | +--ro ldp-ext:adjacent? uint16 | | | +--ro ldp-ext:negotiated? uint16 | | | +--ro ldp-ext:remaining? uint16 | | +--ro ldp-ext:next-hello? uint16 | | +--ro ldp-ext:statistics | | | +--ro ldp-ext:discontinuity-time Raza, et al. Expires September 6, 2018 [Page 11] Internet-Draft YANG Data Model for MPLS LDP March 2018 | | | | yang:date-and-time | | | +--ro ldp-ext:hello-received? | | | | yang:counter64 | | | +--ro ldp-ext:hello-dropped? | | | yang:counter64 | | +--ro ldp-ext:peer | | +--ro ldp-ext:lsr-id? leafref | | +--ro ldp-ext:label-space-id? leafref | +--rw ldp-ext:target* [adjacent-address] | +--rw ldp-ext:adjacent-address inet:ipv6-address | +--rw ldp-ext:enable? boolean | +--rw ldp-ext:local-address? inet:ipv6-address +--rw peers +--rw authentication | +--rw (auth-type-selection)? | +--:(auth-key) | | +--rw md5-key? string | +--:(ldp-ext:auth-key-chain) {key-chain}? | +--rw ldp-ext:key-chain? key-chain:key-chain-ref +--rw session-ka-holdtime? uint16 +--rw session-ka-interval? uint16 +--rw peer* [lsr-id label-space-id] | +--rw lsr-id rt-types:router-id | +--rw label-space-id uint16 | +--rw authentication | | +--rw (auth-type-selection)? | | +--:(auth-key) | | | +--rw md5-key? string | | +--:(ldp-ext:auth-key-chain) {key-chain}? | | +--rw ldp-ext:key-chain? key-chain:key-chain-ref | +--rw capability | +--rw address-families | | +--rw ipv4! | | | +--ro hello-adjacencies | | | | +--ro hello-adjacency* | | | | [local-address adjacent-address] | | | | +--ro local-address inet:ipv4-address | | | | +--ro adjacent-address inet:ipv4-address | | | | +--ro flag* identityref | | | | +--ro hello-holdtime | | | | | +--ro adjacent? uint16 | | | | | +--ro negotiated? uint16 | | | | | +--ro remaining? uint16 | | | | +--ro next-hello? uint16 | | | | +--ro statistics | | | | | +--ro discontinuity-time | | | | | | yang:date-and-time | | | | | +--ro hello-received? yang:counter64 Raza, et al. Expires September 6, 2018 [Page 12] Internet-Draft YANG Data Model for MPLS LDP March 2018 | | | | | +--ro hello-dropped? yang:counter64 | | | | +--ro interface? if:interface-ref | | | +--rw ldp-ext:label-policy | | | +--rw ldp-ext:advertise | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | +--rw ldp-ext:accept | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | +--rw ldp-ext:ipv6! | | +--ro ldp-ext:hello-adjacencies | | | +--ro ldp-ext:hello-adjacency* | | | [local-address adjacent-address] | | | +--ro ldp-ext:local-address | | | | inet:ipv6-address | | | +--ro ldp-ext:adjacent-address | | | | inet:ipv6-address | | | +--ro ldp-ext:flag* identityref | | | +--ro ldp-ext:hello-holdtime | | | | +--ro ldp-ext:adjacent? uint16 | | | | +--ro ldp-ext:negotiated? uint16 | | | | +--ro ldp-ext:remaining? uint16 | | | +--ro ldp-ext:next-hello? uint16 | | | +--ro ldp-ext:statistics | | | | +--ro ldp-ext:discontinuity-time | | | | | yang:date-and-time | | | | +--ro ldp-ext:hello-received? | | | | | yang:counter64 | | | | +--ro ldp-ext:hello-dropped? | | | | yang:counter64 | | | +--ro ldp-ext:interface? | | | if:interface-ref | | +--rw ldp-ext:label-policy | | +--rw ldp-ext:advertise | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | +--rw ldp-ext:accept | | +--rw ldp-ext:prefix-list? prefix-list-ref | +--ro label-advertisement-mode | | +--ro local? label-adv-mode | | +--ro peer? label-adv-mode | | +--ro negotiated? label-adv-mode | +--ro next-keep-alive? uint16 | +--ro received-peer-state | | +--ro graceful-restart | | | +--ro enable? boolean | | | +--ro reconnect-time? uint16 | | | +--ro recovery-time? uint16 | | +--ro capability | | +--ro end-of-lib | | | +--ro enable? boolean Raza, et al. Expires September 6, 2018 [Page 13] Internet-Draft YANG Data Model for MPLS LDP March 2018 | | +--ro typed-wildcard-fec | | | +--ro enable? boolean | | +--ro upstream-label-assignment | | +--ro enable? boolean | +--ro session-holdtime | | +--ro peer? uint16 | | +--ro negotiated? uint16 | | +--ro remaining? uint16 | +--ro session-state? enumeration | +--ro tcp-connection | | +--ro local-address? inet:ip-address | | +--ro local-port? inet:port-number | | +--ro remote-address? inet:ip-address | | +--ro remote-port? inet:port-number | +--ro up-time? string | +--ro statistics | | +--ro discontinuity-time yang:date-and-time | | +--ro received | | | +--ro total-octets? yang:counter64 | | | +--ro total-messages? yang:counter64 | | | +--ro address? yang:counter64 | | | +--ro address-withdraw? yang:counter64 | | | +--ro initialization? yang:counter64 | | | +--ro keepalive? yang:counter64 | | | +--ro label-abort-request? yang:counter64 | | | +--ro label-mapping? yang:counter64 | | | +--ro label-release? yang:counter64 | | | +--ro label-request? yang:counter64 | | | +--ro label-withdraw? yang:counter64 | | | +--ro notification? yang:counter64 | | +--ro sent | | | +--ro total-octets? yang:counter64 | | | +--ro total-messages? yang:counter64 | | | +--ro address? yang:counter64 | | | +--ro address-withdraw? yang:counter64 | | | +--ro initialization? yang:counter64 | | | +--ro keepalive? yang:counter64 | | | +--ro label-abort-request? yang:counter64 | | | +--ro label-mapping? yang:counter64 | | | +--ro label-release? yang:counter64 | | | +--ro label-request? yang:counter64 | | | +--ro label-withdraw? yang:counter64 | | | +--ro notification? yang:counter64 | | +--ro total-addresses? uint32 | | +--ro total-labels? uint32 | | +--ro total-fec-label-bindings? uint32 | +--rw ldp-ext:admin-down? boolean | | {per-peer-admin-down}? Raza, et al. Expires September 6, 2018 [Page 14] Internet-Draft YANG Data Model for MPLS LDP March 2018 | +--rw ldp-ext:graceful-restart | | +--rw ldp-ext:enable? boolean | | +--rw ldp-ext:reconnect-time? uint16 | | +--rw ldp-ext:recovery-time? uint16 | +--rw ldp-ext:session-ka-holdtime? uint16 | +--rw ldp-ext:session-ka-interval? uint16 +--rw ldp-ext:session-downstream-on-demand | {session-downstream-on-demand-config}? | +--rw ldp-ext:enable? boolean | +--rw ldp-ext:peer-list? peer-list-ref +--rw ldp-ext:dual-stack-transport-pereference {dual-stack-transport-pereference}? +--rw ldp-ext:max-wait? uint16 +--rw ldp-ext:prefer-ipv4! +--rw ldp-ext:peer-list? peer-list-ref rpcs: +---x mpls-ldp-clear-peer | +---w input | +---w lsr-id? leafref | +---w label-space-id? leafref +---x mpls-ldp-clear-hello-adjacency | +---w input | +---w hello-adjacency | +---w (hello-adjacency-type)? | +--:(targeted) | | +---w targeted! | | +---w target-address? inet:ip-address | +--:(link) | +---w link! | +---w next-hop-interface? leafref | +---w next-hop-address? inet:ip-address +---x mpls-ldp-clear-peer-statistics +---w input +---w lsr-id? leafref +---w label-space-id? leafref notifications: +---n mpls-ldp-peer-event | +--ro event-type? oper-status-event-type | +--ro peer | +--ro lsr-id? leafref | +--ro label-space-id? leafref +---n mpls-ldp-hello-adjacency-event | +--ro event-type? oper-status-event-type | +--ro (hello-adjacency-type)? | +--:(targeted) | | +--ro targeted | | +--ro target-address? inet:ip-address Raza, et al. Expires September 6, 2018 [Page 15] Internet-Draft YANG Data Model for MPLS LDP March 2018 | +--:(link) | +--ro link | +--ro next-hop-interface? if:interface-ref | +--ro next-hop-address? inet:ip-address +---n mpls-ldp-fec-event +--ro event-type? oper-status-event-type +--ro prefix? inet:ip-prefix Figure 2 5. Configuration This specification defines the configuration parameters for base LDP as specified in [RFC5036] and LDP IPv6 [RFC7552]. Moreover, it incorporates provisions to enable LDP Capabilities [RFC5561], and defines some of the most significant and commonly used capabilities such as Typed Wildcard FEC [RFC5918], End-of-LIB [RFC5919], and LDP Upstream Label Assignment [RFC6389]. This model augments /rt:routing/rt:control-plane-protocols that is defined in [RFC8022] and follows NMDA as mentioned earlier. Following is the high-level configuration organization for base LDP: Raza, et al. Expires September 6, 2018 [Page 16] Internet-Draft YANG Data Model for MPLS LDP March 2018 augment /rt:routing/rt:control-plane-protocols: +-- mpls-ldp +-- global | +-- ... | +-- ... | +-- address-families | | +-- ipv4 | | +-- . . . | | +-- . . . | +-- capability | +-- ... | +-- ... +-- discovery | +-- interfaces | | +-- ... | | +-- ... | | +-- interface* [interface] | | +-- ... | | +-- address-families | | +-- ipv4 | | +-- ... | | +-- ... | +-- targeteted | +-- ... | +-- address-families | +-- ipv4 | +- target* [adjacent-address] | +- ... | +- ... +-- peers +-- ... +-- ... +-- peer* [lsr-id label-space-id] +-- ... +-- ... Figure 3 Following is the high-level configuration organization for extended LDP: augment /rt:routing/rt:control-plane-protocols: +-- mpls-ldp +-- global | +-- ... | +-- ... Raza, et al. Expires September 6, 2018 [Page 17] Internet-Draft YANG Data Model for MPLS LDP March 2018 | +-- address-families | | +-- ipv4 | | | +-- . . . | | | +-- . . . | | | +-- label-policy | | | +-- ... | | | +-- ... | | +-- ipv6 | | +-- . . . | | +-- . . . | | +-- label-policy | | +-- ... | | +-- ... | +-- capability | | +-- ... | | +-- ... | +-- discovery | +-- interfaces | | +-- ... | | +-- ... | | +-- interface* [interface] | | +-- ... | | +-- address-families | | +-- ipv4 | | | +-- ... | | | +-- ... | | +-- ipv6 | | +-- ... | | +-- ... | +-- targeteted | +-- ... | +-- address-families | +-- ipv6 | +- target* [adjacent-address] | +- ... | +- ... +-- forwarding-nexthop | +-- ... | +-- ... +-- peers +-- ... +-- ... +-- peer* +-- ... +-- ... +-- label-policy | +-- .. +-- address-families Raza, et al. Expires September 6, 2018 [Page 18] Internet-Draft YANG Data Model for MPLS LDP March 2018 +-- ipv4 | +-- ... +-- ipv6 +-- ... Figure 4 Given the configuration hierarchy, the model allows inheritance such that an item in a child tree is able to derive value from a similar or related item in one of the parent. For instance, hello holdtime can be configured per-VRF or per-VRF-interface, thus allowing inheritance as well flexibility to override with a different value at any child level. 5.1. Configuration Tree 5.1.1. Base Following is a simplified graphical representation of the data model for LDP base configuration module: ietf-mpls-ldp augment /rt:routing/rt:control-plane-protocols: +--rw mpls-ldp! +--rw global | +--rw graceful-restart | | +--rw enable? boolean | | +--rw reconnect-time? uint16 | | +--rw recovery-time? uint16 | | +--rw forwarding-holdtime? uint16 | +--rw lsr-id? rt-types:router-id | +--rw address-families | +--rw ipv4! | +--rw enable? boolean +--rw discovery | +--rw interfaces | | +--rw hello-holdtime? uint16 | | +--rw hello-interval? uint16 | | +--rw interface* [name] | | +--rw name if:interface-ref | | +--rw address-families | | +--rw ipv4! | | +--rw enable? boolean | +--rw targeted | +--rw hello-holdtime? uint16 Raza, et al. Expires September 6, 2018 [Page 19] Internet-Draft YANG Data Model for MPLS LDP March 2018 | +--rw hello-interval? uint16 | +--rw hello-accept | | +--rw enable? boolean | +--rw address-families | +--rw ipv4! | +--rw target* [adjacent-address] | +--rw adjacent-address inet:ipv4-address | +--rw enable? boolean | +--rw local-address? inet:ipv4-address +--rw peers +--rw authentication | +--rw (auth-type-selection)? | +--:(auth-key) | +--rw md5-key? string +--rw session-ka-holdtime? uint16 +--rw session-ka-interval? uint16 +--rw peer* [lsr-id label-space-id] +--rw lsr-id rt-types:router-id +--rw label-space-id uint16 +--rw authentication +--rw (auth-type-selection)? +--:(auth-key) +--rw md5-key? string Figure 5 5.1.2. Extended Following is a simplified graphical representation of the data model for LDP extended configuration module: ietf-mpls-ldp augment /rt:routing/rt:control-plane-protocols: +--rw mpls-ldp! +--rw global | +--rw capability | | +--rw ldp-ext:end-of-lib {capability-end-of-lib}? | | | +--rw ldp-ext:enable? boolean | | +--rw ldp-ext:typed-wildcard-fec {capability-typed-wildcard-fec}? | | | +--rw ldp-ext:enable? boolean | | +--rw ldp-ext:upstream-label-assignment {capability-upstream-label-assignment}? | | +--rw ldp-ext:enable? boolean | +--rw graceful-restart | | +--rw ldp-ext:helper-enable? boolean {graceful-restart-helper-mode}? | +--rw address-families Raza, et al. Expires September 6, 2018 [Page 20] Internet-Draft YANG Data Model for MPLS LDP March 2018 | | +--rw ipv4! | | | +--rw ldp-ext:label-policy | | | | +--rw ldp-ext:advertise | | | | | +--rw ldp-ext:egress-explicit-null | | | | | | +--rw ldp-ext:enable? boolean | | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | | +--rw ldp-ext:accept | | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | | +--rw ldp-ext:assign {policy-label-assignment-config}? | | | | +--rw ldp-ext:independent-mode | | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | | +--rw ldp-ext:ordered-mode {policy-ordered-label-config}? | | | | +--rw ldp-ext:egress-prefix-list? prefix-list-ref | | | +--rw ldp-ext:transport-address? inet:ipv4-address | | +--rw ldp-ext:ipv6! | | +--rw ldp-ext:enable? boolean | | +--rw ldp-ext:label-policy | | | +--rw ldp-ext:advertise | | | | +--rw ldp-ext:egress-explicit-null | | | | | +--rw ldp-ext:enable? boolean | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | +--rw ldp-ext:accept | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | +--rw ldp-ext:assign {policy-label-assignment-config}? | | | +--rw ldp-ext:independent-mode | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | +--rw ldp-ext:ordered-mode {policy-ordered-label-config}? | | | +--rw ldp-ext:egress-prefix-list? prefix-list-ref | | +--rw ldp-ext:transport-address inet:ipv6-address | +--rw ldp-ext:forwarding-nexthop {forwarding-nexthop-config}? | | +--rw ldp-ext:interfaces | | +--rw ldp-ext:interface* [name] | | +--rw ldp-ext:name if:interface-ref | | +--rw ldp-ext:address-family* [afi] | | +--rw ldp-ext:afi ldp:ldp-address-family | | +--rw ldp-ext:ldp-disable? boolean | +--rw ldp-ext:igp-synchronization-delay? uint16 +--rw discovery | +--rw interfaces | | +--rw interface* [name] | | +--rw name if:interface-ref | | +--rw address-families | | | +--rw ipv4! | | | | +--rw ldp-ext:transport-address? union | | | +--rw ldp-ext:ipv6! | | | +--rw ldp-ext:enable? boolean | | | +--rw ldp-ext:transport-address? union | | +--rw ldp-ext:hello-holdtime? uint16 Raza, et al. Expires September 6, 2018 [Page 21] Internet-Draft YANG Data Model for MPLS LDP March 2018 | | +--rw ldp-ext:hello-interval? uint16 | | +--rw ldp-ext:igp-synchronization-delay? uint16 {per-interface-timer-config}? | +--rw targeted | +--rw hello-accept | | +--rw ldp-ext:neighbor-list? neighbor-list-ref {policy-targeted-discovery-config}? | +--rw address-families | +--rw ldp-ext:ipv6! | +--rw ldp-ext:target* [adjacent-address] | +--rw ldp-ext:adjacent-address inet:ipv6-address | +--rw ldp-ext:enable? boolean | +--rw ldp-ext:local-address? inet:ipv6-address +--rw peers +--rw authentication | +--rw (auth-type-selection)? | +--:(ldp-ext:auth-key-chain) {key-chain}? | +--rw ldp-ext:key-chain? key-chain:key-chain-ref +--rw peer* [lsr-id label-space-id] | +--rw lsr-id rt-types:router-id | +--rw label-space-id uint16 | +--rw authentication | | +--rw (auth-type-selection)? | | +--:(ldp-ext:auth-key-chain) {key-chain}? | | +--rw ldp-ext:key-chain? key-chain:key-chain-ref | +--rw address-families | | +--rw ipv4! | | | +--rw ldp-ext:label-policy | | | +--rw ldp-ext:advertise | | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | | +--rw ldp-ext:accept | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | +--rw ldp-ext:ipv6! | | +--rw ldp-ext:label-policy | | +--rw ldp-ext:advertise | | | +--rw ldp-ext:prefix-list? prefix-list-ref | | +--rw ldp-ext:accept | | +--rw ldp-ext:prefix-list? prefix-list-ref | +--rw ldp-ext:admin-down? boolean {per-peer-admin-down}? | +--rw ldp-ext:graceful-restart | | +--rw ldp-ext:enable? boolean | | +--rw ldp-ext:reconnect-time? uint16 | | +--rw ldp-ext:recovery-time? uint16 | +--rw ldp-ext:session-ka-holdtime? uint16 | +--rw ldp-ext:session-ka-interval? uint16 +--rw ldp-ext:session-downstream-on-demand {session-downstream-on-demand-config}? | +--rw ldp-ext:enable? boolean | +--rw ldp-ext:peer-list? peer-list-ref +--rw ldp-ext:dual-stack-transport-pereference {dual-stack-transport-pereference}? +--rw ldp-ext:max-wait? uint16 Raza, et al. Expires September 6, 2018 [Page 22] Internet-Draft YANG Data Model for MPLS LDP March 2018 +--rw ldp-ext:prefer-ipv4! +--rw ldp-ext:peer-list? peer-list-ref Figure 6 5.2. Configuration Hierarchy The LDP configuration container is logically divided into following high-level config areas: Per-VRF parameters o Global parameters o Per-address-family parameters o LDP Capabilities parameters o Hello Discovery parameters - interfaces - Per-interface: Global Per-address-family - targeted - Per-target o Peer parameters - Global - Per-peer Per-address-family o Forwarding parameters Figure 7 Following subsections briefly explain these configuration areas. 5.2.1. Per-VRF parameters LDP module resides under an network-instance and the scope of any LDP configuration defined under this tree is per network-instance (per- VRF). This configuration is further divided into sub categories as follows. 5.2.1.1. Per-VRF global parameters There are configuration items that are available directly under a VRF instance and do not fall under any other sub tree. Example of such a parameter is LDP LSR id that is typically configured per VRF. To keep legacy LDP features and applications working in an LDP IPv4 Raza, et al. Expires September 6, 2018 [Page 23] Internet-Draft YANG Data Model for MPLS LDP March 2018 networks with this model, this document recommends an operator to pick a routable IPv4 unicast address as an LSR Id. 5.2.1.2. Per-VRF Capabilities parameters This container falls under global tree and holds the LDP capabilities that are to be enabled for certain features. By default, an LDP capability is disabled unless explicitly enabled. These capabilities are typically used to negotiate with LDP peer(s) the support/non- support related to a feature and its parameters. The scope of a capability enabled under this container applies to all LDP peers in the given VRF instance. There is also a peer level capability container that is provided to override a capability that is enabled/ specified at VRF level. 5.2.1.3. Per-VRF Per-Address-Family parameters Any LDP configuration parameter related to IP address family (AF) whose scope is VRF wide is configured under this tree. The examples of per-AF parameters include enabling LDP for an address family, prefix-list based label policies, and LDP transport address. 5.2.1.4. Per-VRF Hello Discovery parameters This container is used to hold LDP configuration related to Hello and discovery process for both basic (link) and extended (targeted) discovery. The "interfaces" is a container to configure parameters related to VRF interfaces. There are parameters that apply to all interfaces (such as hello timers), as well as parameters that can be configured per-interface. Hence, an interface list is defined under "interfaces" container. The model defines parameters to configure per-interface non AF related items, as well as per-interface per-AF items. The example of former is interface hello timers, and example of latter is enabling hellos for a given AF under an interface. The "targeted" container under a VRF instance allows to configure LDP targeted discovery related parameters. Within this container, the "target" list provides a mean to configure multiple target addresses to perform extended discovery to a specific destination target, as well as to fine-tune the per-target parameters. 5.2.1.5. Per-VRF Peer parameters This container is used to hold LDP configuration related to LDP sessions and peers under a VRF instance. This container allows to configure parameters that either apply on VRF's all peers or a subset Raza, et al. Expires September 6, 2018 [Page 24] Internet-Draft YANG Data Model for MPLS LDP March 2018 (peer-list) of VRF peers. The example of such parameters include authentication password, session KA timers etc. Moreover, the model also allows per-peer parameter tuning by specifying a "peer" list under the "peers" container. A peer is uniquely identified using its LSR Id and hence LSR Id is the key for peer list Like per-interface parameters, some per-peer parameters are AF- agnostic (i.e. either non AF related or apply to both IP address families), and some that belong to an AF. The example of former is per-peer session password configuration, whereas the example of latter is prefix-list based label policies (inbound and outbound) that apply to a given peer. 5.2.1.6. Per-VRF Forwarding parameters This container is used to hold configuration used to control LDP forwarding behavior under a VRF instance. One example of a configuration under this container is when a user wishes to enable neighbor discovery on an interface but wishes to disable use of the same interface as forwarding nexthop. This example configuration makes sense only when there are more than one LDP enabled interfaces towards the neighbor. 6. Operational State Operational state of LDP can be queried and obtained from read-only state containers that fall under the same tree (/rt:routing/ rt:control-plane-protocols/) as the configuration. 6.1. Operational Tree 6.1.1. Base Following is a simplified graphical representation of the base data model for LDP operational state. module: ietf-mpls-ldp augment /rt:routing/rt:control-plane-protocols: +--rw mpls-ldp! +--rw global | +--rw address-families | +--rw ipv4! | +--ro label-distribution-controlmode? enumeration | +--ro bindings | +--ro address* [address] | | +--ro address inet:ipv4-address | | +--ro advertisement-type? advertised-received Raza, et al. Expires September 6, 2018 [Page 25] Internet-Draft YANG Data Model for MPLS LDP March 2018 | | +--ro peer | | +--ro lsr-id? leafref | | +--ro label-space-id? leafref | +--ro fec-label* [fec] | +--ro fec inet:ipv4-prefix | +--ro peer* | [lsr-id label-space-id advertisement-type] | +--ro lsr-id leafref | +--ro label-space-id leafref | +--ro advertisement-type advertised-received | +--ro label? rt-types:mpls-label | +--ro used-in-forwarding? boolean +--rw discovery | +--rw interfaces | | +--rw interface* [name] | | +--rw name if:interface-ref | | +--ro next-hello? uint16 | | +--rw address-families | | +--rw ipv4! | | +--ro hello-adjacencies | | +--ro hello-adjacency* [adjacent-address] | | +--ro adjacent-address inet:ipv4-address | | +--ro flag* identityref | | +--ro hello-holdtime | | | +--ro adjacent? uint16 | | | +--ro negotiated? uint16 | | | +--ro remaining? uint16 | | +--ro next-hello? uint16 | | +--ro statistics | | | +--ro discontinuity-time | | | | yang:date-and-time | | | +--ro hello-received? yang:counter64 | | | +--ro hello-dropped? yang:counter64 | | +--ro peer | | +--ro lsr-id? leafref | | +--ro label-space-id? leafref | +--rw targeted | +--rw address-families | +--rw ipv4! | +--ro hello-adjacencies | +--ro hello-adjacency* | [local-address adjacent-address] | +--ro local-address inet:ipv4-address | +--ro adjacent-address inet:ipv4-address | +--ro flag* identityref | +--ro hello-holdtime | | +--ro adjacent? uint16 | | +--ro negotiated? uint16 Raza, et al. Expires September 6, 2018 [Page 26] Internet-Draft YANG Data Model for MPLS LDP March 2018 | | +--ro remaining? uint16 | +--ro next-hello? uint16 | +--ro statistics | | +--ro discontinuity-time | | | yang:date-and-time | | +--ro hello-received? yang:counter64 | | +--ro hello-dropped? yang:counter64 | +--ro peer | +--ro lsr-id? leafref | +--ro label-space-id? leafref +--rw peers +--rw peer* [lsr-id label-space-id] +--rw lsr-id rt-types:router-id +--rw label-space-id uint16 +--rw address-families | +--rw ipv4! | +--ro hello-adjacencies | +--ro hello-adjacency* | [local-address adjacent-address] | +--ro local-address inet:ipv4-address | +--ro adjacent-address inet:ipv4-address | +--ro flag* identityref | +--ro hello-holdtime | | +--ro adjacent? uint16 | | +--ro negotiated? uint16 | | +--ro remaining? uint16 | +--ro next-hello? uint16 | +--ro statistics | | +--ro discontinuity-time | | | yang:date-and-time | | +--ro hello-received? yang:counter64 | | +--ro hello-dropped? yang:counter64 | +--ro interface? if:interface-ref +--ro label-advertisement-mode | +--ro local? label-adv-mode | +--ro peer? label-adv-mode | +--ro negotiated? label-adv-mode +--ro next-keep-alive? uint16 +--ro received-peer-state | +--ro graceful-restart | | +--ro enable? boolean | | +--ro reconnect-time? uint16 | | +--ro recovery-time? uint16 | +--ro capability | +--ro end-of-lib | | +--ro enable? boolean | +--ro typed-wildcard-fec | | +--ro enable? boolean Raza, et al. Expires September 6, 2018 [Page 27] Internet-Draft YANG Data Model for MPLS LDP March 2018 | +--ro upstream-label-assignment | +--ro enable? boolean +--ro session-holdtime | +--ro peer? uint16 | +--ro negotiated? uint16 | +--ro remaining? uint16 +--ro session-state? enumeration +--ro tcp-connection | +--ro local-address? inet:ip-address | +--ro local-port? inet:port-number | +--ro remote-address? inet:ip-address | +--ro remote-port? inet:port-number +--ro up-time? string +--ro statistics +--ro discontinuity-time yang:date-and-time +--ro received | +--ro total-octets? yang:counter64 | +--ro total-messages? yang:counter64 | +--ro address? yang:counter64 | +--ro address-withdraw? yang:counter64 | +--ro initialization? yang:counter64 | +--ro keepalive? yang:counter64 | +--ro label-abort-request? yang:counter64 | +--ro label-mapping? yang:counter64 | +--ro label-release? yang:counter64 | +--ro label-request? yang:counter64 | +--ro label-withdraw? yang:counter64 | +--ro notification? yang:counter64 +--ro sent | +--ro total-octets? yang:counter64 | +--ro total-messages? yang:counter64 | +--ro address? yang:counter64 | +--ro address-withdraw? yang:counter64 | +--ro initialization? yang:counter64 | +--ro keepalive? yang:counter64 | +--ro label-abort-request? yang:counter64 | +--ro label-mapping? yang:counter64 | +--ro label-release? yang:counter64 | +--ro label-request? yang:counter64 | +--ro label-withdraw? yang:counter64 | +--ro notification? yang:counter64 +--ro total-addresses? uint32 +--ro total-labels? uint32 +--ro total-fec-label-bindings? uint32 Figure 8 Raza, et al. Expires September 6, 2018 [Page 28] Internet-Draft YANG Data Model for MPLS LDP March 2018 6.1.2. Extended Following is a simplified graphical representation of the extended data model for LDP operational state. module: ietf-mpls-ldp augment /rt:routing/rt:control-plane-protocols: +--rw mpls-ldp! +--rw global | +--rw address-families | +--rw ldp-ext:ipv6! | +--ro ldp-ext:label-distribution-controlmode? | | enumeration | +--ro ldp-ext:bindings | +--ro ldp-ext:address* [address] | | +--ro ldp-ext:address | | | inet:ipv6-address | | +--ro ldp-ext:advertisement-type? | | | advertised-received | | +--ro ldp-ext:peer | | +--ro ldp-ext:lsr-id? leafref | | +--ro ldp-ext:label-space-id? leafref | +--ro ldp-ext:fec-label* [fec] | +--ro ldp-ext:fec inet:ipv6-prefix | +--ro ldp-ext:peer* [lsr-id label-space-id advertisement-type] | +--ro ldp-ext:lsr-id leafref | +--ro ldp-ext:label-space-id leafref | +--ro ldp-ext:advertisement-type | | advertised-received | +--ro ldp-ext:label? | | rt-types:mpls-label | +--ro ldp-ext:used-in-forwarding? boolean +--rw discovery | +--rw interfaces | | +--rw interface* [name] | | +--rw name if:interface-ref | | +--rw address-families | | +--rw ldp-ext:ipv6! | | +--ro ldp-ext:hello-adjacencies | | +--ro ldp-ext:hello-adjacency* [adjacent-address] | | +--ro ldp-ext:adjacent-address inet:ipv6-address | | +--ro ldp-ext:flag* identityref | | +--ro ldp-ext:hello-holdtime | | | +--ro ldp-ext:adjacent? uint16 | | | +--ro ldp-ext:negotiated? uint16 | | | +--ro ldp-ext:remaining? uint16 | | +--ro ldp-ext:next-hello? uint16 Raza, et al. Expires September 6, 2018 [Page 29] Internet-Draft YANG Data Model for MPLS LDP March 2018 | | +--ro ldp-ext:statistics | | | +--ro ldp-ext:discontinuity-time yang:date-and-time | | | +--ro ldp-ext:hello-received? yang:counter64 | | | +--ro ldp-ext:hello-dropped? yang:counter64 | | +--ro ldp-ext:peer | | +--ro ldp-ext:lsr-id? leafref | | +--ro ldp-ext:label-space-id? leafref | +--rw targeted | +--rw address-families | +--rw ldp-ext:ipv6! | +--ro ldp-ext:hello-adjacencies | +--ro ldp-ext:hello-adjacency* [local-address adjacent-address] | +--ro ldp-ext:local-address inet:ipv6-address | +--ro ldp-ext:adjacent-address inet:ipv6-address | +--ro ldp-ext:flag* identityref | +--ro ldp-ext:hello-holdtime | | +--ro ldp-ext:adjacent? uint16 | | +--ro ldp-ext:negotiated? uint16 | | +--ro ldp-ext:remaining? uint16 | +--ro ldp-ext:next-hello? uint16 | +--ro ldp-ext:statistics | | +--ro ldp-ext:discontinuity-time yang:date-and-time | | +--ro ldp-ext:hello-received? yang:counter64 | | +--ro ldp-ext:hello-dropped? yang:counter64 | +--ro ldp-ext:peer | +--ro ldp-ext:lsr-id? leafref | +--ro ldp-ext:label-space-id? leafref +--rw peers +--rw address-families +--rw ldp-ext:ipv6! +--ro ldp-ext:hello-adjacencies +--ro ldp-ext:hello-adjacency* [local-address adjacent-address] +--ro ldp-ext:local-address inet:ipv6-address +--ro ldp-ext:adjacent-address inet:ipv6-address +--ro ldp-ext:flag* identityref +--ro ldp-ext:hello-holdtime | +--ro ldp-ext:adjacent? uint16 | +--ro ldp-ext:negotiated? uint16 | +--ro ldp-ext:remaining? uint16 +--ro ldp-ext:next-hello? uint16 +--ro ldp-ext:statistics | +--ro ldp-ext:discontinuity-time yang:date-and-time | +--ro ldp-ext:hello-received? yang:counter64 | +--ro ldp-ext:hello-dropped? yang:counter64 +--ro ldp-ext:interface? if:interface-ref Figure 9 Raza, et al. Expires September 6, 2018 [Page 30] Internet-Draft YANG Data Model for MPLS LDP March 2018 6.2. States Following are main areas for which LDP operational state is defined: Neighbor Adjacencies Peer Bindings (FEC-label and address) Capabilities 6.2.1. Adjacency state Neighbor adjacencies are per address-family hello adjacencies that are formed with neighbors as result of LDP basic or extended discovery. In terms of organization, there is a source of discovery (e.g. interface or target address) along with its associated parameters and one or more discovered neighbors along with neighbor discovery related parameters. For the basic discovery, there could be more than one discovered neighbor for a given source (interface), whereas there is at most one discovered neighbor for an extended discovery source (local-address and target-address). This is also to be noted that the reason for a targeted neighbor adjacency could be either an active source (locally configured targeted) or passive source (to allow any incoming extended/targeted hellos). A neighbor/ adjacency record also contains session-state that helps highlight whether a given adjacency has progressed to subsequent session level or to eventual peer level. Following captures high level tree hierarchy for neighbor adjacency state. Raza, et al. Expires September 6, 2018 [Page 31] Internet-Draft YANG Data Model for MPLS LDP March 2018 +--rw mpls-ldp! +--rw discovery +--rw interfaces | +--rw interface* [interface] | +--rw address-families | +--rw ipv4 (or ipv6) | +--ro hello-adjacencies | +--ro hello-adjacencies* [adjacent-address] | +--ro adjacent-address | . . . . | . . . . +--rw targeted +--rw address-families +--rw ipv4 (or ipv6) +--ro hello-adjacencies +--ro hello-adjacencies* [local-address adjacent-address] +--ro local-address +--ro adjacent-address . . . . . . . . Figure 10 6.2.2. Peer state Peer related state is presented under peers tree. This is one of the core state that provides info on the session related parameters (mode, authentication, KA timeout etc.), TCP connection info, hello adjacencies for the peer, statistics related to messages and bindings, and capabilities exchange info. Following captures high level tree hierarchy for peer state. Raza, et al. Expires September 6, 2018 [Page 32] Internet-Draft YANG Data Model for MPLS LDP March 2018 +--rw mpls-ldp! +--rw peers +--rw peer* [lsr-id label-space-id] +--rw lsr-id +--rw label-space-id +--ro label-advertisement-mode +--ro session-state +--ro tcp-connection +--ro session-holdtime? +--ro up-time +-- . . . . +--ro address-families | +--ro ipv4 (or ipv6) | +--ro hello-adjacencies | +--ro hello-adjacencies* [local-address adjacent-address] | . . . . | . . . . +--ro received-peer-state | +--ro . . . . | +--ro capability | +--ro . . . . +--ro statistics +-- . . . . +-- received | +-- ... +-- sent +-- ... Figure 11 6.2.3. Bindings state Binding state provides information on LDP FEC-label bindings as well as address binding for both inbound (received) as well as outbound (advertised) direction. FEC-label bindings are presented as a FEC- centric view, and address bindings are presented as an address- centric view: Raza, et al. Expires September 6, 2018 [Page 33] Internet-Draft YANG Data Model for MPLS LDP March 2018 FEC-Label bindings: FEC 203.0.113.1/32: advertised: local-label 16000 peer 192.0.2.1:0 peer 192.0.2.2:0 peer 192.0.2.3:0 received: peer 192.0.2.1:0, label 16002, used-in-forwarding=Yes peer 192.0.2.2:0, label 17002, used-in-forwarding=No FEC 203.0.113.2/32: . . . . FEC 198.51.100.0/24: . . . . Address bindings: Addr 192.0.2.10: advertised Addr 192.0.2.1: received, peer 192.0.2.1:0 Addr 192.0.2.2: received, peer 192.0.2.2:0 Addr 192.0.2.3: received, peer 192.0.2.3:0 Figure 12 Note that all local addresses are advertised to all peers and hence no need to provide per-peer information for local address advertisement. Furthermore, note that it is easy to derive a peer- centric view for the bindings from the information already provided in this model. Following captures high level tree hierarchy for bindings state. Raza, et al. Expires September 6, 2018 [Page 34] Internet-Draft YANG Data Model for MPLS LDP March 2018 +--rw mpls-ldp! +--rw global +--rw address-families +--rw ipv4 (or ipv6) +--ro bindings +--ro address* [address] | +--ro address (ipv4-address or ipv6-address) | +--ro advertisement-type? advertised-received | +--ro peer? leafref +--ro fec-label* [fec] +--ro fec (ipv4-prefix or ipv6-prefix) +--ro peer* [peer advertisement-type] +--ro peer leafref +--ro advertisement-type? advertised-received +--ro label? mpls:mpls-label +--ro used-in-forwarding? boolean Figure 13 6.2.4. Capabilities state LDP capabilities state comprise two types of information - global information (such as timer etc.), and per-peer information. Following captures high level tree hierarchy for LDP capabilities state. +--rw mpls-ldp! +--rw peers +--rw peer* [lsr-id label-space-id] +--rw lsr-id yang:dotted-quad +--rw label-space-id +--ro received-peer-state +--ro capability +--ro . . . . +--ro . . . . Figure 14 7. Notifications This model defines a list of notifications to inform client of important events detected during the protocol operation. These events include events related to changes in the operational state of an LDP peer, hello adjacency, and FEC etc. It is to be noted that an Raza, et al. Expires September 6, 2018 [Page 35] Internet-Draft YANG Data Model for MPLS LDP March 2018 LDP FEC is treated as operational (up) as long as it has at least 1 NHLFE with outgoing label. Following is a simplified graphical representation of the data model for LDP notifications. module: ietf-mpls-ldp notifications: +---n mpls-ldp-peer-event | +--ro event-type? oper-status-event-type | +--ro peer | +--ro lsr-id? leafref | +--ro label-space-id? leafref +---n mpls-ldp-hello-adjacency-event | +--ro event-type? oper-status-event-type | +--ro (hello-adjacency-type)? | +--:(targeted) | | +--ro targeted | | +--ro target-address? inet:ip-address | +--:(link) | +--ro link | +--ro next-hop-interface? if:interface-ref | +--ro next-hop-address? inet:ip-address +---n mpls-ldp-fec-event +--ro event-type? oper-status-event-type +--ro prefix? inet:ip-prefix Figure 15 8. Actions This model defines a list of rpcs that allow performing an action or executing a command on the protocol. For example, it allows to clear (reset) LDP peers, hello-adjacencies, and statistics. The model makes an effort to provide different level of control so that a user is able to either clear all, or clear all for a given type, or clear a specific entity. Following is a simplified graphical representation of the data model for LDP actions. Raza, et al. Expires September 6, 2018 [Page 36] Internet-Draft YANG Data Model for MPLS LDP March 2018 module: ietf-mpls-ldp rpcs: +---x mpls-ldp-clear-peer | +---w input | +---w lsr-id? leafref | +---w label-space-id? leafref +---x mpls-ldp-clear-hello-adjacency | +---w input | +---w hello-adjacency | +---w (hello-adjacency-type)? | +--:(targeted) | | +---w targeted! | | +---w target-address? inet:ip-address | +--:(link) | +---w link! | +---w next-hop-interface? leafref | +---w next-hop-address? inet:ip-address +---x mpls-ldp-clear-peer-statistics +---w input +---w lsr-id? leafref +---w label-space-id? leafref Figure 16 9. YANG Specification Following are the actual YANG definition (module) for LDP constructs defined earlier in the document. 9.1. Base file "ietf-mpls-ldp@2018-02-28.yang" module ietf-mpls-ldp { namespace "urn:ietf:params:xml:ns:yang:ietf-mpls-ldp"; prefix "ldp"; import ietf-inet-types { prefix "inet"; } import ietf-yang-types { prefix "yang"; } Raza, et al. Expires September 6, 2018 [Page 37] Internet-Draft YANG Data Model for MPLS LDP March 2018 import ietf-routing { prefix "rt"; } import ietf-routing-types { prefix "rt-types"; } import ietf-interfaces { prefix "if"; } import ietf-ip { prefix "ip"; } organization "IETF MPLS Working Group"; contact "WG Web: WG List: Editor: Kamran Raza Editor: Rajiv Asati Editor: Xufeng Liu Editor: Santosh Esale Editor: Xia Chen Editor: Himanshu Shah "; description "This YANG module defines the essential components for the management of Multi-Protocol Label Switching (MPLS) Label Distribution Protocol (LDP). It is also the base model to be augmented for Multipoint LDP (mLDP). Copyright (c) 2018 IETF Trust and the persons identified as authors of the code. All rights reserved. Raza, et al. Expires September 6, 2018 [Page 38] Internet-Draft YANG Data Model for MPLS LDP March 2018 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 (http://trustee.ietf.org/license-info). This version of this YANG module is part of RFC XXXX; see the RFC itself for full legal notices."; revision 2018-02-28 { description "Initial revision."; reference "RFC XXXX: YANG Data Model for MPLS LDP."; } /* * Typedefs */ typedef ldp-address-family { type identityref { base rt:address-family; } description "LDP address family type."; } typedef duration32-inf { type union { type uint32; type enumeration { enum "infinite" { description "The duration is infinite."; } } } units seconds; description "Duration represented as 32 bit seconds with infinite."; } typedef advertised-received { type enumeration { enum advertised { description "Advertised information."; } enum received { Raza, et al. Expires September 6, 2018 [Page 39] Internet-Draft YANG Data Model for MPLS LDP March 2018 description "Received information."; } } description "Received or advertised."; } typedef downstream-upstream { type enumeration { enum downstream { description "Downstream information."; } enum upstream { description "Upstream information."; } } description "Received or advertised."; } typedef label-adv-mode { type enumeration { enum downstream-unsolicited { description "Downstream Unsolicited."; } enum downstream-on-demand { description "Downstream on Demand."; } } description "Label Advertisement Mode."; } typedef oper-status-event-type { type enumeration { enum up { value 1; description "Operational status changed to up."; } enum down { value 2; description "Operational status changed to down."; } } description "Operational status event type for notifications."; } Raza, et al. Expires September 6, 2018 [Page 40] Internet-Draft YANG Data Model for MPLS LDP March 2018 /* * Identities */ identity adjacency-flag-base { description "Base type for adjacency flags."; } identity adjacency-flag-active { base adjacency-flag-base; description "This adjacency is configured and actively created."; } identity adjacency-flag-passive { base adjacency-flag-base; description "This adjacency is not configured and passively accepted."; } /* * Groupings */ grouping adjacency-state-attributes { description "The operational state attributes of an LDP hello adjacency, which can used for basic and extended discoveris, in IPv4 and IPv6 address families."; leaf-list flag { type identityref { base adjacency-flag-base; } description "On or more flags to indicate whether the adjacency is actively created, passively accepted, or both."; } container hello-holdtime { description "Containing hello holdtime state information."; leaf adjacent { type uint16; units seconds; description "The holdtime value learned from the adjacent LSR."; } leaf negotiated { type uint16; Raza, et al. Expires September 6, 2018 [Page 41] Internet-Draft YANG Data Model for MPLS LDP March 2018 units seconds; description "The holdtime negotiated between this LSR and the adjacent LSR."; } leaf remaining { type uint16; units seconds; description "The time remaining until the holdtime timer expires."; } } leaf next-hello { type uint16; units seconds; description "The time when the next Hello message will be sent."; } container statistics { description "Statistics objects."; leaf discontinuity-time { type yang:date-and-time; mandatory true; description "The time on the most recent occasion at which any one or more of this interface's counters suffered a discontinuity. If no such discontinuities have occurred since the last re-initialization of the local management subsystem, then this node contains the time the local management subsystem re-initialized itself."; } leaf hello-received { type yang:counter64; description "The number of Hello messages received."; } leaf hello-dropped { type yang:counter64; description "The number of Hello messages dropped."; } } // statistics } // adjacency-state-attributes Raza, et al. Expires September 6, 2018 [Page 42] Internet-Draft YANG Data Model for MPLS LDP March 2018 grouping basic-discovery-timers { description "The timer attributes for basic discovery, used in the per-interface setting and in the all-interface setting."; leaf hello-holdtime { type uint16 { range 15..3600; } units seconds; default 15; description "The time interval for which a LDP link Hello adjacency is maintained in the absence of link Hello messages from the LDP neighbor"; } leaf hello-interval { type uint16 { range 5..1200; } units seconds; default 5; description "The interval between consecutive LDP link Hello messages used in basic LDP discovery"; } } // basic-discovery-timers grouping binding-address-state-attributes { description "Operational state attributes of an address binding, used in IPv4 and IPv6 address families."; leaf advertisement-type { type advertised-received; description "Received or advertised."; } container peer { when "../advertisement-type = 'received'" { description "Applicable for received address."; } description "LDP peer from which this address is received."; uses ldp-peer-ref; } } // binding-address-state-attributes Raza, et al. Expires September 6, 2018 [Page 43] Internet-Draft YANG Data Model for MPLS LDP March 2018 grouping binding-label-state-attributes { description "Operational state attributes for a FEC-label binding, used in IPv4 and IPv6 address families."; list peer { key "lsr-id label-space-id advertisement-type"; description "List of advertised and received peers."; uses ldp-peer-ref { description "The LDP peer from which this binding is received, or to which this binding is advertised. The peer is identified by its LDP ID, which consists of the LSR ID and the Label Space ID."; } leaf advertisement-type { type advertised-received; description "Received or advertised."; } leaf label { type rt-types:mpls-label; description "Advertised (outbound) or received (inbound) label."; } leaf used-in-forwarding { type boolean; description "'true' if the lable is used in forwarding."; } } // peer } // binding-label-state-attributes grouping graceful-restart-attributes-per-peer { description "Per peer graceful restart attributes. On the local side, these attributes are configuration and operational state data. One the peer side, these attributes are operational state data reveiced from the peer."; container graceful-restart { description "Attributes for graceful restart."; leaf enable { type boolean; default false; Raza, et al. Expires September 6, 2018 [Page 44] Internet-Draft YANG Data Model for MPLS LDP March 2018 description "Enable or disable graceful restart."; } leaf reconnect-time { type uint16 { range 10..1800; } units seconds; default 120; description "Specifies the time interval that the remote LDP peer must wait for the local LDP peer to reconnect after the remote peer detects the LDP communication failure."; } leaf recovery-time { type uint16 { range 30..3600; } units seconds; default 120; description "Specifies the time interval, in seconds, that the remote LDP peer preserves its MPLS forwarding state after receiving the Initialization message from the restarted local LDP peer."; } } // graceful-restart } // graceful-restart-attributes-per-peer grouping ldp-interface-ref { description "Defining a reference to LDP interface."; leaf name { type if:interface-ref; must "(/if:interfaces/if:interface[if:name=current()]/ip:ipv4)" + " or " + "(/if:interfaces/if:interface[if:name=current()]/ip:ipv6)" { description "Interface is IPv4 or IPv6."; } description "The name of an LDP interface."; } } grouping ldp-peer-ref { description Raza, et al. Expires September 6, 2018 [Page 45] Internet-Draft YANG Data Model for MPLS LDP March 2018 "An absolute reference to an LDP peer, by the LDP ID, which consists of the LSR ID and the Label Space ID."; leaf lsr-id { type leafref { path "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:peers/ldp:peer/ldp:lsr-id"; } description "The LSR ID of the peer, as a portion of the peer LDP ID."; } leaf label-space-id { type leafref { path "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:peers/ldp:peer/ldp:label-space-id"; } description "The Label Space ID of the peer, as a portion of the peer LDP ID."; } } // ldp-peer-ref grouping ldp-peer-ref-container { description "A container containing an absolute reference to an LDP peer."; container peer { description "Reference to an LDP peer, by the LDP ID, which consists of the LSR ID and the Label Space ID."; uses ldp-peer-ref; } // peer } // ldp-peer-ref grouping peer-attributes { description "Peer configuration attributes, used in the per-peer setting can in the all-peer setting."; leaf session-ka-holdtime { type uint16 { range 45..3600; } units seconds; default 180; description "The time interval after which an inactive LDP session terminates and the corresponding TCP session closes. Raza, et al. Expires September 6, 2018 [Page 46] Internet-Draft YANG Data Model for MPLS LDP March 2018 Inactivity is defined as not receiving LDP packets from the peer."; } leaf session-ka-interval { type uint16 { range 15..1200; } units seconds; default 60; description "The interval between successive transmissions of keepalive packets. Keepalive packets are only sent in the absence of other LDP packets transmitted over the LDP session."; } } // peer-attributes grouping peer-authentication { description "Peer authentication container, used in the per-peer setting can in the all-peer setting."; container authentication { description "Containing authentication information."; choice auth-type-selection { description "Options for expressing authentication setting."; case auth-key { leaf md5-key { type string; description "MD5 Key string."; } } } } // authentication } // peer-authentication grouping peer-state-derived { description "The peer state information derived from the LDP protocol operatoins."; container label-advertisement-mode { config false; description "Label advertisement mode state."; leaf local { type label-adv-mode; Raza, et al. Expires September 6, 2018 [Page 47] Internet-Draft YANG Data Model for MPLS LDP March 2018 description "Local Label Advertisement Mode."; } leaf peer { type label-adv-mode; description "Peer Label Advertisement Mode."; } leaf negotiated { type label-adv-mode; description "Negotiated Label Advertisement Mode."; } } leaf next-keep-alive { type uint16; units seconds; config false; description "Time to send the next KeepAlive message."; } container received-peer-state { config false; description "Operational state information learned from the peer."; uses graceful-restart-attributes-per-peer; container capability { description "Configure capability."; container end-of-lib { description "Configure end-of-lib capability."; leaf enable { type boolean; description "Enable end-of-lib capability."; } } container typed-wildcard-fec { description "Configure typed-wildcard-fec capability."; leaf enable { type boolean; description "Enable typed-wildcard-fec capability."; } } Raza, et al. Expires September 6, 2018 [Page 48] Internet-Draft YANG Data Model for MPLS LDP March 2018 container upstream-label-assignment { description "Configure upstream label assignment capability."; leaf enable { type boolean; description "Enable upstream label assignment."; } } } // capability } // received-peer-state container session-holdtime { config false; description "Session holdtime state."; leaf peer { type uint16; units seconds; description "Peer holdtime."; } leaf negotiated { type uint16; units seconds; description "Negotiated holdtime."; } leaf remaining { type uint16; units seconds; description "Remaining holdtime."; } } // session-holdtime leaf session-state { type enumeration { enum non-existent { description "NON EXISTENT state. Transport disconnected."; } enum initialized { description "INITIALIZED state."; } enum openrec { description "OPENREC state."; } enum opensent { description "OPENSENT state."; } enum operational { description "OPERATIONAL state."; Raza, et al. Expires September 6, 2018 [Page 49] Internet-Draft YANG Data Model for MPLS LDP March 2018 } } config false; description "Representing the operational status of the LDP session."; reference "RFC5036, Sec. 2.5.4."; } container tcp-connection { config false; description "TCP connection state."; leaf local-address { type inet:ip-address; description "Local address."; } leaf local-port { type inet:port-number; description "Local port number."; } leaf remote-address { type inet:ip-address; description "Remote address."; } leaf remote-port { type inet:port-number; description "Remote port number."; } } // tcp-connection leaf up-time { type string; config false; description "Up time. The interval format in ISO 8601."; } container statistics { config false; description "Statistics objects."; leaf discontinuity-time { type yang:date-and-time; mandatory true; description "The time on the most recent occasion at which any one or more of this interface's counters suffered a discontinuity. If no such discontinuities have occurred Raza, et al. Expires September 6, 2018 [Page 50] Internet-Draft YANG Data Model for MPLS LDP March 2018 since the last re-initialization of the local management subsystem, then this node contains the time the local management subsystem re-initialized itself."; } container received { description "Inbound statistics."; uses statistics-peer-received-sent; } container sent { description "Outbound statistics."; uses statistics-peer-received-sent; } leaf total-addresses { type uint32; description "The number of learned addresses."; } leaf total-labels { type uint32; description "The number of learned labels."; } leaf total-fec-label-bindings { type uint32; description "The number of learned label-address bindings."; } } // statistics } // peer-state-derived grouping statistics-peer-received-sent { description "Inbound and outbound statistic counters."; leaf total-octets { type yang:counter64; description "The total number of octets sent or received."; } leaf total-messages { type yang:counter64; description "The number of messages sent or received."; } leaf address { type yang:counter64; description Raza, et al. Expires September 6, 2018 [Page 51] Internet-Draft YANG Data Model for MPLS LDP March 2018 "The number of address messages sent or received."; } leaf address-withdraw { type yang:counter64; description "The number of address-withdraw messages sent or received."; } leaf initialization { type yang:counter64; description "The number of initialization messages sent or received."; } leaf keepalive { type yang:counter64; description "The number of keepalive messages sent or received."; } leaf label-abort-request { type yang:counter64; description "The number of label-abort-request messages sent or received."; } leaf label-mapping { type yang:counter64; description "The number of label-mapping messages sent or received."; } leaf label-release { type yang:counter64; description "The number of label-release messages sent or received."; } leaf label-request { type yang:counter64; description "The number of label-request messages sent or received."; } leaf label-withdraw { type yang:counter64; description "The number of label-withdraw messages sent or received."; } leaf notification { type yang:counter64; description "The number of messages sent or received."; } Raza, et al. Expires September 6, 2018 [Page 52] Internet-Draft YANG Data Model for MPLS LDP March 2018 } // statistics-peer-received-sent /* * Configuration data and operational state data nodes */ augment "/rt:routing/rt:control-plane-protocols" { description "LDP augmentation."; container mpls-ldp { presence "Enables the LDP protocol."; description "Containing configuration and operational data for the LDP protocol."; container global { description "Global attributes for LDP."; container capability { description "Containing the LDP capability data. The container is used for augmentations."; reference "RFC5036: Sec. 1.5."; } // capability container graceful-restart { description "Attributes for graceful restart."; leaf enable { type boolean; default false; description "Enable or disable graceful restart."; } leaf reconnect-time { type uint16 { range 10..1800; } units seconds; default 120; description "Specifies the time interval that the remote LDP peer must wait for the local LDP peer to reconnect after the remote peer detects the LDP communication failure."; Raza, et al. Expires September 6, 2018 [Page 53] Internet-Draft YANG Data Model for MPLS LDP March 2018 } leaf recovery-time { type uint16 { range 30..3600; } units seconds; default 120; description "Specifies the time interval, in seconds, that the remote LDP peer preserves its MPLS forwarding state after receiving the Initialization message from the restarted local LDP peer."; } leaf forwarding-holdtime { type uint16 { range 30..3600; } units seconds; default 180; description "Specifies the time interval, in seconds, before the termination of the recovery phase."; } } // graceful-restart leaf lsr-id { type rt-types:router-id; description "Specify the value to act as the LDP LSR ID. If this attribute is not specified, LDP uses the router ID as determined by the system."; } container address-families { description "Per address family confgiration and operational state. The address family can be either IPv4 or IPv6."; container ipv4 { presence "Present if IPv4 is enabled, unless the 'enable' leaf is set to 'false'"; description "Containing data related to the IPv4 address family."; leaf enable { type boolean; default true; description Raza, et al. Expires September 6, 2018 [Page 54] Internet-Draft YANG Data Model for MPLS LDP March 2018 "'true' to enable the address family."; } leaf label-distribution-controlmode { type enumeration { enum independent { description "Independent label distribution control."; } enum ordered { description "Ordered label distribution control."; } } config false; description "Label distribution control mode."; reference "RFC5036: LDP Specification. Sec 2.6."; } // ipv4 bindings container bindings { config false; description "LDP address and label binding information."; list address { key "address"; description "List of address bindings learned by LDP."; leaf address { type inet:ipv4-address; description "The IPv4 address learned from an Address message received from or advertised to a peer."; } uses binding-address-state-attributes; } // binding-address list fec-label { key "fec"; description "List of FEC-label bindings learned by LDP."; leaf fec { type inet:ipv4-prefix; description "The prefix FEC value in the FEC-label binding, learned in a Label Mapping message received from Raza, et al. Expires September 6, 2018 [Page 55] Internet-Draft YANG Data Model for MPLS LDP March 2018 or advertised to a peer."; } uses binding-label-state-attributes; } // fec-label } // bindings } // ipv4 } // address-families } // global container discovery { description "Neibgbor discovery configuration and operational state."; container interfaces { description "A list of interfaces for LDP Basic Descovery."; reference "RFC5036: LDP Specification. Sec 2.4.1."; uses basic-discovery-timers; list interface { key "name"; description "List of LDP interfaces used for LDP Basic Discovery."; uses ldp-interface-ref; leaf next-hello { type uint16; units seconds; config false; description "Time to send the next hello message."; } container address-families { description "Container for address families."; container ipv4 { presence "Present if IPv4 is enabled, unless the 'enable' leaf is set to 'false'"; description "IPv4 address family."; leaf enable { type boolean; default true; description "Enable the address family on the interface."; Raza, et al. Expires September 6, 2018 [Page 56] Internet-Draft YANG Data Model for MPLS LDP March 2018 } // ipv4 container hello-adjacencies { config false; description "Containing a list of hello adjacencies."; list hello-adjacency { key "adjacent-address"; config false; description "List of hello adjacencies."; leaf adjacent-address { type inet:ipv4-address; description "Neighbor address of the hello adjacency."; } uses adjacency-state-attributes; uses ldp-peer-ref-container; } // hello-adjacency } // hello-adjacencies } // ipv4 } // address-families } // list interface } // interfaces container targeted { description "A list of targeted neighbors for extended discovery."; leaf hello-holdtime { type uint16 { range 15..3600; } units seconds; default 45; description "The time interval for which LDP targeted Hello adjacency is maintained in the absence of targeted Hello messages from an LDP neighbor."; } leaf hello-interval { type uint16 { range 5..3600; } Raza, et al. Expires September 6, 2018 [Page 57] Internet-Draft YANG Data Model for MPLS LDP March 2018 units seconds; default 15; description "The interval between consecutive LDP targeted Hello messages used in extended LDP discovery."; } container hello-accept { description "LDP policy to control the acceptance of extended neighbor discovery Hello messages."; leaf enable { type boolean; default false; description "'true' to accept; 'false' to deny."; } } // hello-accept container address-families { description "Container for address families."; container ipv4 { presence "Present if IPv4 is enabled."; description "IPv4 address family."; container hello-adjacencies { config false; description "Containing a list of hello adjacencies."; list hello-adjacency { key "local-address adjacent-address"; description "List of hello adjacencies."; leaf local-address { type inet:ipv4-address; description "Local address of the hello adjacency."; } leaf adjacent-address { type inet:ipv4-address; description "Neighbor address of the hello adjacency."; } Raza, et al. Expires September 6, 2018 [Page 58] Internet-Draft YANG Data Model for MPLS LDP March 2018 uses adjacency-state-attributes; uses ldp-peer-ref-container; } // hello-adjacency } // hello-adjacencies list target { key "adjacent-address"; description "Targeted discovery params."; leaf adjacent-address { type inet:ipv4-address; description "Configures a remote LDP neighbor and enables extended LDP discovery of the specified neighbor."; } leaf enable { type boolean; default true; description "Enable the target."; } leaf local-address { type inet:ipv4-address; description "The local address used as the source address to send targeted Hello messages. If the value is not specified, the transport-address is used as the source address."; } } // target } // ipv4 } // address-families } // targeted } // discovery container peers { description "Peers configuration attributes."; uses peer-authentication; uses peer-attributes; list peer { key "lsr-id label-space-id"; Raza, et al. Expires September 6, 2018 [Page 59] Internet-Draft YANG Data Model for MPLS LDP March 2018 description "List of peers."; leaf lsr-id { type rt-types:router-id; description "The LSR ID of the peer, to identify the globally unique LSR. This is the first four octets of the LDP ID. This leaf is used together with the leaf 'label-space-id' to form the LDP ID."; reference "RFC5036. Sec 2.2.2."; } leaf label-space-id { type uint16; description "The Label Space ID of the peer, to identify a specific label space within the LSR. This is the last two octets of the LDP ID. This leaf is used together with the leaf 'lsr-id' to form the LDP ID."; reference "RFC5036. Sec 2.2.2."; } uses peer-authentication; container capability { description "Per peer capability"; } container address-families { description "Per-vrf per-af params."; container ipv4 { presence "Present if IPv4 is enabled."; description "IPv4 address family."; container hello-adjacencies { config false; description "Containing a list of hello adjacencies."; list hello-adjacency { key "local-address adjacent-address"; description "List of hello adjacencies."; Raza, et al. Expires September 6, 2018 [Page 60] Internet-Draft YANG Data Model for MPLS LDP March 2018 leaf local-address { type inet:ipv4-address; description "Local address of the hello adjacency."; } leaf adjacent-address { type inet:ipv4-address; description "Neighbor address of the hello adjacency."; } uses adjacency-state-attributes; leaf interface { type if:interface-ref; description "Interface for this adjacency."; } } // hello-adjacency } // hello-adjacencies } // ipv4 } // address-families uses peer-state-derived; } // list peer } // peers } // container mpls-ldp } /* * RPCs */ rpc mpls-ldp-clear-peer { description "Clears the session to the peer."; input { uses ldp-peer-ref { description "The LDP peer to be cleared. If this is not provided then all peers are cleared. The peer is identified by its LDP ID, which consists of the LSR ID and the Label Space ID."; } } } rpc mpls-ldp-clear-hello-adjacency { description "Clears the hello adjacency"; Raza, et al. Expires September 6, 2018 [Page 61] Internet-Draft YANG Data Model for MPLS LDP March 2018 input { container hello-adjacency { description "Link adjacency or targettted adjacency. If this is not provided then all hello adjacencies are cleared"; choice hello-adjacency-type { description "Adjacency type."; case targeted { container targeted { presence "Present to clear targeted adjacencies."; description "Clear targeted adjacencies."; leaf target-address { type inet:ip-address; description "The target address. If this is not provided then all targeted adjacencies are cleared"; } } // targeted } case link { container link { presence "Present to clear link adjacencies."; description "Clear link adjacencies."; leaf next-hop-interface { type leafref { path "/rt:routing/rt:control-plane-protocols/" + "mpls-ldp/discovery/interfaces/interface/name"; } description "Interface connecting to next-hop. If this is not provided then all link adjacencies are cleared."; } leaf next-hop-address { type inet:ip-address; must "../next-hop-interface" { description "Applicable when interface is specified."; } description "IP address of next-hop. If this is not provided then adjacencies to all next-hops on the given interface are cleared."; } // next-hop-address } // link } } Raza, et al. Expires September 6, 2018 [Page 62] Internet-Draft YANG Data Model for MPLS LDP March 2018 } } } rpc mpls-ldp-clear-peer-statistics { description "Clears protocol statistics (e.g. sent and received counters)."; input { uses ldp-peer-ref { description "The LDP peer whose statistics are to be cleared. If this is not provided then all peers' statistics are cleared. The peer is identified by its LDP ID, which consists of the LSR ID and the Label Space ID."; } } } /* * Notifications */ notification mpls-ldp-peer-event { description "Notification event for a change of LDP peer operational status."; leaf event-type { type oper-status-event-type; description "Event type."; } uses ldp-peer-ref-container; } notification mpls-ldp-hello-adjacency-event { description "Notification event for a change of LDP adjacency operational status."; leaf event-type { type oper-status-event-type; description "Event type."; } choice hello-adjacency-type { description "Interface or targeted adjacency."; case targeted { container targeted { Raza, et al. Expires September 6, 2018 [Page 63] Internet-Draft YANG Data Model for MPLS LDP March 2018 description "Targeted adjacency through LDP extended discovery."; leaf target-address { type inet:ip-address; description "The target adjacent address learned."; } } // targeted } case link { container link { description "Link adjacency through LDP basic discovery."; leaf next-hop-interface { type if:interface-ref; description "The interface connecting to the adjacent next hop."; } leaf next-hop-address { type inet:ip-address; must "../next-hop-interface" { description "Applicable when interface is specified."; } description "IP address of the next hop. This can be IPv4 or IPv6 address."; } } // link } } } notification mpls-ldp-fec-event { description "Notification event for a change of FEC status."; leaf event-type { type oper-status-event-type; description "Event type."; } leaf prefix { type inet:ip-prefix; description "The address prefix element of the FEC whose status has changed."; } } Raza, et al. Expires September 6, 2018 [Page 64] Internet-Draft YANG Data Model for MPLS LDP March 2018 } Figure 17 9.2. Extended file "ietf-mpls-ldp-extended@2018-02-28.yang" module ietf-mpls-ldp-extended { namespace "urn:ietf:params:xml:ns:yang:ietf-mpls-ldp-extended"; prefix "ldp-ext"; import ietf-inet-types { prefix "inet"; } import ietf-routing { prefix "rt"; } import ietf-key-chain { prefix "key-chain"; } import ietf-mpls-ldp { prefix "ldp"; } import ietf-interfaces { prefix "if"; } organization "IETF MPLS Working Group"; contact "WG Web: WG List: Editor: Kamran Raza Editor: Rajiv Asati Raza, et al. Expires September 6, 2018 [Page 65] Internet-Draft YANG Data Model for MPLS LDP March 2018 Editor: Xufeng Liu Editor: Santosh Esale Editor: Xia Chen Editor: Himanshu Shah "; description "This YANG module defines the extended components for the management of Multi-Protocol Label Switching (MPLS) Label Distribution Protocol (LDP). It is also the model to be augmented for extended Multipoint LDP (mLDP). 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 (http://trustee.ietf.org/license-info). This version of this YANG module is part of RFC XXXX; see the RFC itself for full legal notices."; revision 2018-02-28 { description "Initial revision."; reference "RFC XXXX: YANG Data Model for MPLS LDP."; } /* * Features */ feature dual-stack-transport-pereference { description "This feature indicates that the system allows to configure the transport connection pereference in a dual-stack setup."; } Raza, et al. Expires September 6, 2018 [Page 66] Internet-Draft YANG Data Model for MPLS LDP March 2018 feature capability-end-of-lib { description "This feature indicates that the system allows to configure LDP end-of-lib capability."; } feature capability-typed-wildcard-fec { description "This feature indicates that the system allows to configure LDP typed-wildcard-fec capability."; } feature capability-upstream-label-assignment { description "This feature indicates that the system allows to configure LDP upstream label assignment capability."; } feature forwarding-nexthop-config { description "This feature indicates that the system allows to configure forwarding nexthop on interfaces."; } feature graceful-restart-helper-mode { description "This feature indicates that the system supports graceful restart helper mode."; } feature key-chain { description "This feature indicates that the system supports keychain for authentication."; } feature per-interface-timer-config { description "This feature indicates that the system allows to configure interface hello timers at the per-interface level."; } feature per-peer-admin-down { description "This feature indicates that the system allows to administratively disable a peer."; } Raza, et al. Expires September 6, 2018 [Page 67] Internet-Draft YANG Data Model for MPLS LDP March 2018 feature per-peer-graceful-restart-config { description "This feature indicates that the system allows to configure graceful restart at the per-peer level."; } feature per-peer-session-attributes-config { description "This feature indicates that the system allows to configure session attributes at the per-peer level."; } feature policy-label-assignment-config { description "This feature indicates that the system allows to configure policies to assign labels according to certain prefixes."; } feature policy-ordered-label-config { description "This feature indicates that the system allows to configure ordered label policies."; } feature policy-targeted-discovery-config { description "This feature indicates that the system allows to configure policies to control the acceptance of targeted neighbor discovery hello messages."; } feature session-downstream-on-demand-config { description "This feature indicates that the system allows to configure session downstream-on-demand"; } /* * Typedefs */ typedef neighbor-list-ref { type string; description "A type for a reference to a neighbor address list. The string value is the name identifier for uniquely identifying the referenced address list, which contains a list of addresses that a routing policy can applied. The definition of such an address list is outside the scope of this document."; Raza, et al. Expires September 6, 2018 [Page 68] Internet-Draft YANG Data Model for MPLS LDP March 2018 } typedef prefix-list-ref { type string; description "A type for a reference to a prefix list. The string value is the name identifier for uniquely identifying the referenced prefix set, which contains a list of prefixes that a routing policy can applied. The definition of such a prefix set is outside the scope of this document."; } typedef peer-list-ref { type string; description "A type for a reference to a peer address list. The string value is the name identifier for uniquely identifying the referenced address list, which contains a list of addresses that a routing policy can applied. The definition of such an address list is outside the scope of this document."; } /* * Identities */ /* * Groupings */ grouping address-family-ipv4-augment { description "Augmentation to address family IPv4."; uses policy-container; leaf transport-address { type inet:ipv4-address; description "The transport address advertised in LDP Hello messages. If this value is not specified, the LDP LSR ID is used as the transport address."; reference "RFC5036. Sec. 3.5.2."; } } // address-family-ipv4-augment grouping authentication-keychain-augment { description "Augmentation to authentication to add keychain."; Raza, et al. Expires September 6, 2018 [Page 69] Internet-Draft YANG Data Model for MPLS LDP March 2018 leaf key-chain { type key-chain:key-chain-ref; description "key-chain name. If not specified, no key chain is used."; } } // authentication-keychain-augment grouping capability-augment { description "Augmentation to capability."; container end-of-lib { if-feature capability-end-of-lib; description "Configure end-of-lib capability."; leaf enable { type boolean; default false; description "Enable end-of-lib capability."; } } container typed-wildcard-fec { if-feature capability-typed-wildcard-fec; description "Configure typed-wildcard-fec capability."; leaf enable { type boolean; default false; description "Enable typed-wildcard-fec capability."; } } container upstream-label-assignment { if-feature capability-upstream-label-assignment; description "Configure upstream label assignment capability."; leaf enable { type boolean; default false; description "Enable upstream label assignment."; } } } // capability-augment grouping global-augment { description "Augmentation to global attributes."; Raza, et al. Expires September 6, 2018 [Page 70] Internet-Draft YANG Data Model for MPLS LDP March 2018 leaf igp-synchronization-delay { type uint16 { range "0 | 3..300"; } units seconds; default 0; description "Sets the interval that the LDP waits before notifying the Interior Gateway Protocol (IGP) that label exchange is completed so that IGP can start advertising the normal metric for the link. If the value is not specified, there is no delay."; } } // global-augment grouping global-forwarding-nexthop-augment { description "Augmentation to global forwarding nexthop interfaces."; container forwarding-nexthop { if-feature forwarding-nexthop-config; description "Configuration for forwarding nexthop."; container interfaces { description "A list of interfaces on which forwarding is disabled."; list interface { key "name"; description "List of LDP interfaces used for LDP Basic Discovery."; uses ldp:ldp-interface-ref; list address-family { key "afi"; description "Per-vrf per-af params."; leaf afi { type ldp:ldp-address-family; description "Address family type value."; } leaf ldp-disable { type boolean; default false; description "'true' to disable LDP forwarding on the interface."; } Raza, et al. Expires September 6, 2018 [Page 71] Internet-Draft YANG Data Model for MPLS LDP March 2018 } // address-family } // list interface } // interfaces } // forwarding-nexthop } // global-forwarding-nexthop-augment grouping graceful-restart-augment { description "Augmentation to graceful restart."; leaf helper-enable { if-feature graceful-restart-helper-mode; type boolean; default false; description "Enable or disable graceful restart helper mode."; } } // graceful-restart-augment grouping interface-address-family-ipv4-augment { description "Augmentation to interface address family IPv4."; leaf transport-address { type union { type enumeration { enum "use-global-transport-address" { description "Use the transport address set at the global level common for all interfaces for this address family."; } enum "use-interface-address" { description "Use interface address as the transport address."; } } type inet:ipv4-address; } default "use-global-transport-address"; description "IP address to be advertised as the LDP transport address."; } } // interface-address-family-ipv4-augment grouping interface-address-family-ipv6-augment { description "Augmentation to interface address family IPv6."; leaf transport-address { type union { type enumeration { Raza, et al. Expires September 6, 2018 [Page 72] Internet-Draft YANG Data Model for MPLS LDP March 2018 enum "use-global-transport-address" { description "Use the transport address set at the global level common for all interfaces for this address family."; } enum "use-interface-address" { description "Use interface address as the transport address."; } } type inet:ipv6-address; } default "use-global-transport-address"; description "IP address to be advertised as the LDP transport address."; } } // interface-address-family-ipv6-augment grouping interface-augment { description "Augmentation to interface."; uses ldp:basic-discovery-timers { if-feature per-interface-timer-config; } leaf igp-synchronization-delay { if-feature per-interface-timer-config; type uint16 { range "0 | 3..300"; } units seconds; default 0; description "Sets the interval that the LDP waits before notifying the Interior Gateway Protocol (IGP) that label exchange is completed so that IGP can start advertising the normal metric for the link. If the value is not specified, there is no delay."; } } // interface-augment grouping peer-af-policy-container { description "LDP policy attribute container under peer address-family."; container label-policy { description "Label policy attributes."; container advertise { description Raza, et al. Expires September 6, 2018 [Page 73] Internet-Draft YANG Data Model for MPLS LDP March 2018 "Label advertising policies."; leaf prefix-list { type prefix-list-ref; description "Applies the prefix list to filter outgoing label advertisements. If the value is not specified, no prefix filter is applied."; } } container accept { description "Label advertisement acceptance policies."; leaf prefix-list { type prefix-list-ref; description "Applies the prefix list to filer incoming label advertisements. If the value is not specified, no prefix filter is applied."; } } // accept } // label-policy } // peer-af-policy-container grouping peer-augment { description "Augmentation to each peer list entry."; leaf admin-down { if-feature per-peer-admin-down; type boolean; default false; description "'true' to disable the peer."; } uses ldp:graceful-restart-attributes-per-peer { if-feature per-peer-graceful-restart-config; } uses ldp:peer-attributes { if-feature per-peer-session-attributes-config; } } // peer-augment grouping peers-augment { description "Augmentation to peers container."; Raza, et al. Expires September 6, 2018 [Page 74] Internet-Draft YANG Data Model for MPLS LDP March 2018 container session-downstream-on-demand { if-feature session-downstream-on-demand-config; description "Session downstream-on-demand attributes."; leaf enable { type boolean; default false; description "'true' if session downstream-on-demand is enabled."; } leaf peer-list { type peer-list-ref; description "The name of a peer ACL, to be applied to the downstream-on-demand sessions. If this value is not specified, no filter is applied to any downstream-on-demand sessions."; } } container dual-stack-transport-pereference { if-feature dual-stack-transport-pereference; description "The settings of peers to establish TCP connection in a dual-stack setup."; leaf max-wait { type uint16 { range "0..60"; } default 30; description "The maximum wait time in seconds for preferred transport connection establishment. 0 indicates no preference."; } container prefer-ipv4 { presence "Present if IPv4 is prefered for transport connection establishment, subject to the 'peer-list' in this container."; description "Uses IPv4 as the prefered address family for transport connection establishment, subject to the 'peer-list' in this container. If this container is not present, as a default, IPv6 is the prefered address family for transport connection establishment."; leaf peer-list { type peer-list-ref; description Raza, et al. Expires September 6, 2018 [Page 75] Internet-Draft YANG Data Model for MPLS LDP March 2018 "The name of a peer ACL, to be applied to the IPv4 transport connections. If this value is not specified, no filter is applied, and the IPv4 is prefered for all peers."; } } } } // peers-augment grouping policy-container { description "LDP policy attributes."; container label-policy { description "Label policy attributes."; container advertise { description "Label advertising policies."; container egress-explicit-null { description "Enables an egress router to advertise an explicit null label (value 0) in place of an implicit null label (value 3) to the penultimate hop router."; leaf enable { type boolean; default false; description "'true' to enable explicit null."; } } leaf prefix-list { type prefix-list-ref; description "Applies the prefix list to filter outgoing label advertisements. If the value is not specified, no prefix filter is applied."; } } // advertise container accept { description "Label advertisement acceptance policies."; leaf prefix-list { type prefix-list-ref; description "Applies the prefix list to filter incoming label advertisements. Raza, et al. Expires September 6, 2018 [Page 76] Internet-Draft YANG Data Model for MPLS LDP March 2018 If the value is not specified, no prefix filter is applied."; } } // accept container assign { if-feature policy-label-assignment-config; description "Label assignment policies"; container independent-mode { description "Independent label policy attributes."; leaf prefix-list { type prefix-list-ref; description "Assign labels according to certain prefixes. If the value is not specified, no prefix filter is applied (labels are assigned to all learned routes)."; } } // independent-mode container ordered-mode { if-feature policy-ordered-label-config; description "Ordered label policy attributes."; leaf egress-prefix-list { type prefix-list-ref; description "Assign labels according to certain prefixes for egress LSR."; } } // ordered-mode } // assign } // label-policy } // policy-container /* * Configuration and state data nodes */ // Forwarding nexthop augmentation to the global tree augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:global" { description "Graceful forwarding nexthop augmentation."; uses global-forwarding-nexthop-augment; } // global/address-families/ipv6 augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" Raza, et al. Expires September 6, 2018 [Page 77] Internet-Draft YANG Data Model for MPLS LDP March 2018 + "ldp:global/ldp:address-families" { description "Global IPv6 augmentation."; container ipv6 { presence "Present if IPv6 is enabled, unless the 'enable' leaf is set to 'false'"; description "Containing data related to the IPv6 address family."; leaf enable { type boolean; default true; description "'true' to enable the address family."; } uses policy-container; leaf transport-address { type inet:ipv6-address; mandatory true; description "The transport address advertised in LDP Hello messages."; } leaf label-distribution-controlmode { type enumeration { enum independent { description "Independent label distribution control."; } enum ordered { description "Ordered label distribution control."; } } config false; description "Label distribution control mode."; reference "RFC5036: LDP Specification. Sec 2.6."; } // ipv6 bindings container bindings { config false; description Raza, et al. Expires September 6, 2018 [Page 78] Internet-Draft YANG Data Model for MPLS LDP March 2018 "LDP address and label binding information."; list address { key "address"; description "List of address bindings learned by LDP."; leaf address { type inet:ipv6-address; description "The IPv6 address learned from an Address message received from or advertised to a peer."; } uses ldp:binding-address-state-attributes; } // binding-address list fec-label { key "fec"; description "List of FEC-label bindings learned by LDP."; leaf fec { type inet:ipv6-prefix; description "The prefix FEC value in the FEC-label binding, learned in a Label Mapping message received from or advertised to a peer."; } uses ldp:binding-label-state-attributes; } // fec-label } // bindings } // ipv6 } // discovery/interfaces/interface/address-families/ipv6 augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:discovery/ldp:interfaces/ldp:interface/" + "ldp:address-families" { description "Interface IPv6 augmentation."; container ipv6 { presence "Present if IPv6 is enabled, unless the 'enable' leaf is set to 'false'"; description "IPv6 address family."; leaf enable { type boolean; default true; description Raza, et al. Expires September 6, 2018 [Page 79] Internet-Draft YANG Data Model for MPLS LDP March 2018 "Enable the address family on the interface."; } // ipv6 container hello-adjacencies { config false; description "Containing a list of hello adjacencies."; list hello-adjacency { key "adjacent-address"; config false; description "List of hello adjacencies."; leaf adjacent-address { type inet:ipv6-address; description "Neighbor address of the hello adjacency."; } uses ldp:adjacency-state-attributes; uses ldp:ldp-peer-ref-container; } // hello-adjacency } // hello-adjacencies } // ipv6 } // discovery/targeted/address-families/ipv6 augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:discovery/ldp:targeted/ldp:address-families" { description "Targeted discovery IPv6 augmentation."; container ipv6 { presence "Present if IPv6 is enabled."; description "IPv6 address family."; container hello-adjacencies { config false; description "Containing a list of hello adjacencies."; list hello-adjacency { key "local-address adjacent-address"; config false; description "List of hello adjacencies."; Raza, et al. Expires September 6, 2018 [Page 80] Internet-Draft YANG Data Model for MPLS LDP March 2018 leaf local-address { type inet:ipv6-address; description "Local address of the hello adjacency."; } leaf adjacent-address { type inet:ipv6-address; description "Neighbor address of the hello adjacency."; } uses ldp:adjacency-state-attributes; uses ldp:ldp-peer-ref-container; } // hello-adjacency } // hello-adjacencies list target { key "adjacent-address"; description "Targeted discovery params."; leaf adjacent-address { type inet:ipv6-address; description "Configures a remote LDP neighbor and enables extended LDP discovery of the specified neighbor."; } leaf enable { type boolean; default true; description "Enable the target."; } leaf local-address { type inet:ipv6-address; description "The local address used as the source address to send targeted Hello messages. If the value is not specified, the transport-address is used as the source address."; } } // target } // ipv6 } // /peers/peer/state/address-families/ipv6 augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" Raza, et al. Expires September 6, 2018 [Page 81] Internet-Draft YANG Data Model for MPLS LDP March 2018 + "ldp:peers/ldp:peer/ldp:address-families" { description "Peer state IPv6 augmentation."; container ipv6 { presence "Present if IPv6 is enabled."; description "IPv6 address family."; container hello-adjacencies { config false; description "Containing a list of hello adjacencies."; list hello-adjacency { key "local-address adjacent-address"; description "List of hello adjacencies."; leaf local-address { type inet:ipv6-address; description "Local address of the hello adjacency."; } leaf adjacent-address { type inet:ipv6-address; description "Neighbor address of the hello adjacency."; } uses ldp:adjacency-state-attributes; leaf interface { type if:interface-ref; description "Interface for this adjacency."; } } // hello-adjacency } // hello-adjacencies } // ipv6 } /* * Configuration data and operational state data nodes */ augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:global" { description "Graceful restart augmentation."; uses global-augment; } Raza, et al. Expires September 6, 2018 [Page 82] Internet-Draft YANG Data Model for MPLS LDP March 2018 augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:global/ldp:capability" { description "Capability augmentation."; uses capability-augment; } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:global/ldp:graceful-restart" { description "Graceful restart augmentation."; uses graceful-restart-augment; } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:global/ldp:address-families/ldp:ipv4" { description "Address family IPv4 augmentation."; uses address-family-ipv4-augment; } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:discovery/ldp:interfaces/ldp:interface" { description "Interface augmentation."; uses interface-augment; } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:discovery/ldp:interfaces/ldp:interface/" + "ldp:address-families/ldp:ipv4" { description "Interface address family IPv4 augmentation."; uses interface-address-family-ipv4-augment; } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:discovery/ldp:interfaces/ldp:interface/" + "ldp:address-families/ldp-ext:ipv6" { description "Interface address family IPv6 augmentation."; uses interface-address-family-ipv6-augment; } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:discovery/ldp:targeted/ldp:hello-accept" { description "Targeted discovery augmentation."; leaf neighbor-list { if-feature policy-targeted-discovery-config; type neighbor-list-ref; description "The name of a neighbor ACL, to accept Hello messages from LDP peers as permitted by the neighbor-list policy. If this value is not specified, targeted Hello messages from Raza, et al. Expires September 6, 2018 [Page 83] Internet-Draft YANG Data Model for MPLS LDP March 2018 any source are accepted."; } } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:peers" { description "Peers augmentation."; uses peers-augment; } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:peers/ldp:authentication/ldp:auth-type-selection" { if-feature key-chain; description "Peers authentication augmentation."; case auth-key-chain { uses authentication-keychain-augment; } } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:peers/ldp:peer" { description "Peer list entry augmentation."; uses peer-augment; } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:peers/ldp:peer/ldp:authentication/" + "ldp:auth-type-selection" { if-feature key-chain; description "Peer list entry authentication augmentation."; case auth-key-chain { uses authentication-keychain-augment; } } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:peers/ldp:peer/ldp:address-families/ldp:ipv4" { description "Peer list entry IPv4 augmentation."; uses peer-af-policy-container; } augment "/rt:routing/rt:control-plane-protocols/ldp:mpls-ldp/" + "ldp:peers/ldp:peer/ldp:address-families/ldp-ext:ipv6" { description "Peer list entry IPv6 augmentation."; uses peer-af-policy-container; } Raza, et al. Expires September 6, 2018 [Page 84] Internet-Draft YANG Data Model for MPLS LDP March 2018 } Figure 18 10. Security Considerations The configuration, state, action and notification data defined using YANG data models in this document are likely to be accessed via the protocols such as NETCONF [RFC6241] etc. Hence, YANG implementations MUST comply with the security requirements specified in section 15 of [RFC6020]. Additionally, NETCONF implementations MUST comply with the security requirements specified in sections 2.2, 2.3 and 9 of [RFC6241] as well as section 3.7 of [RFC6536]. 11. IANA Considerations This document does not extend LDP base protocol specifiction and hence there are no IANA considerations. Note to the RFC Editor: Please remove IANA section before the publication. 12. Acknowledgments The authors would like to acknowledge Eddie Chami, Nagendra Kumar, Mannan Venkatesan, Pavan Beeram for their contribution to this document. We also acknowledge Ladislav Lhotka for his useful comments as the YANG Doctor. 13. References 13.1. Normative References [I-D.ietf-netmod-revised-datastores] Bjorklund, M., Schoenwaelder, J., Shafer, P., Watsen, K., and R. Wilton, "Network Management Datastore Architecture", draft-ietf-netmod-revised-datastores-10 (work in progress), January 2018. Raza, et al. Expires September 6, 2018 [Page 85] Internet-Draft YANG Data Model for MPLS LDP March 2018 [I-D.ietf-netmod-rfc6087bis] Bierman, A., "Guidelines for Authors and Reviewers of YANG Data Model Documents", draft-ietf-netmod-rfc6087bis-18 (work in progress), February 2018. [I-D.ietf-rtgwg-ni-model] Berger, L., Hopps, C., Lindem, A., Bogdanovic, D., and X. Liu, "YANG Model for Network Instances", draft-ietf-rtgwg- ni-model-11 (work in progress), March 2018. [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, March 1997, . [RFC3478] Leelanivas, M., Rekhter, Y., and R. Aggarwal, "Graceful Restart Mechanism for Label Distribution Protocol", RFC 3478, DOI 10.17487/RFC3478, February 2003, . [RFC5036] Andersson, L., Ed., Minei, I., Ed., and B. Thomas, Ed., "LDP Specification", RFC 5036, DOI 10.17487/RFC5036, October 2007, . [RFC5331] Aggarwal, R., Rekhter, Y., and E. Rosen, "MPLS Upstream Label Assignment and Context-Specific Label Space", RFC 5331, DOI 10.17487/RFC5331, August 2008, . [RFC5561] Thomas, B., Raza, K., Aggarwal, S., Aggarwal, R., and JL. Le Roux, "LDP Capabilities", RFC 5561, DOI 10.17487/RFC5561, July 2009, . [RFC5918] Asati, R., Minei, I., and B. Thomas, "Label Distribution Protocol (LDP) 'Typed Wildcard' Forward Equivalence Class (FEC)", RFC 5918, DOI 10.17487/RFC5918, August 2010, . [RFC5919] Asati, R., Mohapatra, P., Chen, E., and B. Thomas, "Signaling LDP Label Advertisement Completion", RFC 5919, DOI 10.17487/RFC5919, August 2010, . [RFC6020] Bjorklund, M., Ed., "YANG - A Data Modeling Language for the Network Configuration Protocol (NETCONF)", RFC 6020, DOI 10.17487/RFC6020, October 2010, . Raza, et al. Expires September 6, 2018 [Page 86] Internet-Draft YANG Data Model for MPLS LDP March 2018 [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, . [RFC6389] Aggarwal, R. and JL. Le Roux, "MPLS Upstream Label Assignment for LDP", RFC 6389, DOI 10.17487/RFC6389, November 2011, . [RFC6536] Bierman, A. and M. Bjorklund, "Network Configuration Protocol (NETCONF) Access Control Model", RFC 6536, DOI 10.17487/RFC6536, March 2012, . [RFC7552] Asati, R., Pignataro, C., Raza, K., Manral, V., and R. Papneja, "Updates to LDP for IPv6", RFC 7552, DOI 10.17487/RFC7552, June 2015, . [RFC8022] Lhotka, L. and A. Lindem, "A YANG Data Model for Routing Management", RFC 8022, DOI 10.17487/RFC8022, November 2016, . 13.2. Informative References [I-D.ietf-mpls-mldp-yang] Raza, K., Krishnaswamy, S., Liu, X., Esale, S., Andersson, L., and J. Tantsura, "YANG Data Model for MPLS mLDP", draft-ietf-mpls-mldp-yang-03 (work in progress), November 2017. [I-D.ietf-rtgwg-policy-model] Qu, Y., Tantsura, J., Lindem, A., Liu, X., and A. Shaikh, "A YANG Data Model for Routing Policy Management", draft- ietf-rtgwg-policy-model-02 (work in progress), March 2018. [RFC4364] Rosen, E. and Y. Rekhter, "BGP/MPLS IP Virtual Private Networks (VPNs)", RFC 4364, DOI 10.17487/RFC4364, February 2006, . [RFC7307] Zhao, Q., Raza, K., Zhou, C., Fang, L., Li, L., and D. King, "LDP Extensions for Multi-Topology", RFC 7307, DOI 10.17487/RFC7307, July 2014, . Raza, et al. Expires September 6, 2018 [Page 87] Internet-Draft YANG Data Model for MPLS LDP March 2018 Appendix A. Additional Contributors Reshad Rahman Cisco Systems Inc. Email: rrahman@cisco.com Stephane Litkowski Orange. Email: stephane.litkowski@orange.com Authors' Addresses Kamran Raza Cisco Systems, Inc. 2000 Innovation Drive Kanata, ON K2K-3E8 CA Email: skraza@cisco.com Rajiv Asati Cisco Systems, Inc. USA Email: rajiva@cisco.com Danial Johari Cisco Systems, Inc. CA Email: dajohari@cisco.com Xufeng Liu Jabil USA Email: xufeng_liu@jabil.com Jeff Tantsura Email: jefftant.ietf@gmail.com Santosh Esale Juniper Networks USA Email: sesale@juniper.net Raza, et al. Expires September 6, 2018 [Page 88] Internet-Draft YANG Data Model for MPLS LDP March 2018 Xia Chen Huawei Technologies CN Email: jescia.chenxia@huawei.com Loa Andersson Huawei Technologies Email: loa@pi.nu Himanshu Shah Ciena Corporation USA Email: hshah@ciena.com Matthew Bocci Nokia Email: matthew.bocci@nokia.com Raza, et al. Expires September 6, 2018 [Page 89]