From 4bfd864f10b68b71482b35c818559068ef8d5797 Mon Sep 17 00:00:00 2001 From: Thomas Voss Date: Wed, 27 Nov 2024 20:54:24 +0100 Subject: doc: Add RFC documents --- doc/rfc/rfc9070.txt | 4314 +++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 4314 insertions(+) create mode 100644 doc/rfc/rfc9070.txt (limited to 'doc/rfc/rfc9070.txt') diff --git a/doc/rfc/rfc9070.txt b/doc/rfc/rfc9070.txt new file mode 100644 index 0000000..a5400fc --- /dev/null +++ b/doc/rfc/rfc9070.txt @@ -0,0 +1,4314 @@ + + + + +Internet Engineering Task Force (IETF) K. Raza, Ed. +Request for Comments: 9070 R. Asati +Category: Standards Track Cisco Systems +ISSN: 2070-1721 X. Liu + IBM Corporation + S. Easale + Juniper Networks + X. Chen + Huawei Technologies + H. Shah + Ciena Corporation + March 2022 + + + YANG Data Model for MPLS LDP + +Abstract + + This document describes a YANG data model for the Multiprotocol Label + Switching (MPLS) Label Distribution Protocol (LDP). The model also + serves as the base model to define the Multipoint LDP (mLDP) model. + + The YANG modules in this document conform to the Network Management + Datastore Architecture (NMDA). + +Status of This Memo + + This is an Internet Standards Track document. + + This document is a product of the Internet Engineering Task Force + (IETF). It represents the consensus of the IETF community. It has + received public review and has been approved for publication by the + Internet Engineering Steering Group (IESG). Further information on + Internet Standards is available in Section 2 of RFC 7841. + + Information about the current status of this document, any errata, + and how to provide feedback on it may be obtained at + https://www.rfc-editor.org/info/rfc9070. + +Copyright Notice + + Copyright (c) 2022 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 Revised BSD License text as described in Section 4.e of the + Trust Legal Provisions and are provided without warranty as described + in the Revised BSD License. + +Table of Contents + + 1. Introduction + 1.1. Base and Extended + 2. Specification of Requirements + 3. Overview + 4. The Complete Tree + 5. Configuration + 5.1. Configuration Hierarchy + 5.1.1. Global Parameters + 5.1.2. Capabilities Parameters + 5.1.3. Per-Address-Family Parameters + 5.1.4. Hello Discovery Parameters + 5.1.5. Peer Parameters + 5.1.6. Forwarding Parameters + 6. Operational State + 6.1. Adjacency State + 6.2. Peer State + 6.3. Bindings State + 6.4. Capabilities State + 7. Notifications + 8. Action + 9. YANG Specification + 9.1. Base + 9.2. Extended + 10. Security Considerations + 10.1. YANG Data Model + 10.1.1. Writable Nodes + 10.1.2. Readable Nodes + 10.1.3. RPC Operations + 10.1.4. Notifications + 11. IANA Considerations + 12. Normative References + 13. Informative References + Appendix A. Data Tree Example + Acknowledgments + Contributors + Authors' Addresses + +1. Introduction + + The Network Configuration Protocol (NETCONF) [RFC6241] is one of the + network management protocols that defines mechanisms to manage + network devices. YANG [RFC6020] [RFC7950] is a modular language that + represents data structures in an XML tree format and is used as a + data modeling language for NETCONF. + + This document introduces a YANG data model for the MPLS Label + Distribution Protocol (LDP) [RFC5036]. This model also covers LDP + IPv6 [RFC7552] and LDP capability [RFC5561] specifications. + + The data model is defined for the following constructs that are used + for managing the protocol: + + * Configuration + + * Operational State + + * Executables (Actions) + + * 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 the following two + broad categories: + + * Base + + * Extended + + The "base" category contains the basic and fundamental features that + are covered in LDP base specification [RFC5036] and constitute the + minimum requirements for a typical base LDP deployment, whereas the + "extended" category contains other non-base features. All the items + in a base category are mandatory and, hence, no "if-feature" is + allowed under the "base" category. The base and extended categories + are defined in their own modules as described later. + + The examples of a base feature include the configuration of LDP lsr- + id, enabling LDP interfaces, setting passwords for LDP sessions, + etc., whereas the examples of an extended feature include inbound/ + outbound label policies, IGP Sync [RFC5443], downstream on demand, + etc. It is worth highlighting 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 both "base" and + "extended" model support from the vendors. + +2. Specification of Requirements + + In this document, the word "IP" is used to refer to both IPv4 and + IPv6 unless otherwise explicitly stated. For example, "IP address + family" should be read as "IPv4 and/or IPv6 address family". + +3. Overview + + This document defines two new modules for LDP YANG support: + + "ietf-mpls-ldp" + A module that specifies the base LDP features and augments + /rt:routing/rt:control-plane-protocols/rt:control-plane-protocol + defined in [RFC8349]. We define the new identity 'mpls-ldp' for + LDP; the model allows only a single instance of 'mpls-ldp'. + + "ietf-mpls-ldp-extended" + A module that specifies the extended LDP features and augments the + base LDP module. + + It is to be noted that the mLDP YANG data model [MPLS-MLDP-YANG] + augments LDP base and extended modules to specify the mLDP-specific + base and extended features. + + There are four types of containers in our module(s): + + * Read-write parameters for configuration (Section 5) + + * Read-only parameters for operational state (Section 6) + + * Notifications for events (Section 7) + + * RPCs for executing commands to perform some action (Section 8) + + The modules in this document conform to the Network Management + Datastore Architecture (NMDA) defined in [RFC8342]. The operational + state data is combined with the associated configuration data in the + same hierarchy [RFC8407]. 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. + + The following diagram depicts high-level LDP YANG tree organization + and hierarchy: + + +-- rw routing + +-- rw control-plane-protocols + +-- rw control-plane-protocol + +-- 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: LDP YANG Tree Organization + + Before going into data model details, it is important to take note of + the following points: + + * This model aims to address only the core LDP parameters as per RFC + specification, as well as well-known and widely deployed + manageability controls (such as label filtering policies to apply + filtering rules on the assignment, advertisement, and acceptance + for label bindings). Any vendor-specific feature should be + defined in a vendor-specific augmentation of this model. + + * Multi-topology LDP [RFC7307] is beyond the scope of this document. + + * This model does not cover any applications running on top of LDP, + nor does it cover any Operations, Administration, and Maintenance + (OAM) procedures for LDP. + + * This model is a VRF-centric model. It is important to note that + [RFC4364] defines VPN Routing and Forwarding (VRF) tables and + default forwarding tables as different; however, from a YANG + modeling perspective, this introduces unnecessary complications; + hence, we are treating the default forwarding table as just + another VRF. + + * A "network-instance", as defined in [RFC8529], refers to a VRF + instance (both default and non-default) within the scope of this + model. + + * This model supports two address families, namely, "ipv4" and + "ipv6". + + * 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]. + + * The label and peer policies (including filters) are defined using + prefix-set and neighbor-set, respectively, as defined in the + routing-policy model [RFC9067]. + + * This model uses the terms LDP "neighbor/adjacency", "session", and + "peer" with the following semantics: + + Neighbor/Adjacency: An LDP-enabled Label Switching Router (LSR) + that is discovered through LDP discovery mechanisms. + + Session: An LDP neighbor with whom a TCP connection has been + established. + + Peer: An LDP session that has successfully progressed beyond its + initialization phase and is either already exchanging the + bindings or is ready to do so. + + It is to be noted that LDP Graceful Restart (GR) mechanisms + defined in [RFC3478] allow keeping the exchanged bindings for some + time after a session goes down with a peer. We refer to such a + state as 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 the 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 simplified graphical tree representation of base and extended LDP + YANG data models is presented in Figure 2. The meaning of the + symbols in these tree diagrams is defined in [RFC8340]. + + The actual YANG specification for base and extended modules is + captured in Section 9. + + While presenting the YANG tree view and actual specification, this + document assumes readers are familiar with the concepts of YANG + modeling, its presentation, and its compilation. + +4. The Complete Tree + + The following is a complete tree representation of configuration, + state, notification, and RPC items under LDP base and extended + modules. + + module: ietf-mpls-ldp + augment /rt:routing/rt:control-plane-protocols + /rt:control-plane-protocol: + +--rw mpls-ldp + +--rw global + | +--rw capability + | | +--rw ldp-ext:end-of-lib {capability-end-of-lib}? + | | | +--rw ldp-ext:enabled? boolean + | | +--rw ldp-ext:typed-wildcard-fec + | | | {capability-typed-wildcard-fec}? + | | | +--rw ldp-ext:enabled? boolean + | | +--rw ldp-ext:upstream-label-assignment + | | {capability-upstream-label-assignment}? + | | +--rw ldp-ext:enabled? boolean + | +--rw graceful-restart + | | +--rw enabled? boolean + | | +--rw reconnect-time? uint16 + | | +--rw recovery-time? uint16 + | | +--rw forwarding-holdtime? uint16 + | | +--rw ldp-ext:helper-enabled? boolean + | | {graceful-restart-helper-mode}? + | +--rw lsr-id? + | | rt-types:router-id + | +--rw address-families + | | +--rw ipv4! + | | | +--rw enabled? boolean + | | | +--ro label-distribution-control-mode? 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:enabled? 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:enabled? + | | | boolean + | | +--rw ldp-ext:label-policy + | | | +--rw ldp-ext:advertise + | | | | +--rw ldp-ext:egress-explicit-null + | | | | | +--rw ldp-ext:enabled? 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 + | | +--ro ldp-ext:label-distribution-control-mode? + | | | 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 identityref + | | +--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 + | | | +--rw ipv4! + | | | | +--rw enabled? 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:enabled? 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 + | | | {per-interface-timer-config}? + | | +--rw ldp-ext:hello-interval? uint16 + | | | {per-interface-timer-config}? + | | +--rw ldp-ext:igp-synchronization-delay? uint16 + | | {per-interface-timer-config}? + | +--rw targeted + | +--rw hello-holdtime? uint16 + | +--rw hello-interval? uint16 + | +--rw hello-accept + | | +--rw enabled? 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 enabled? 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 + | | | | 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:enabled? boolean + | +--rw ldp-ext:local-address? + | inet:ipv6-address + +--rw peers + +--rw authentication + | +--rw (authentication-type)? + | +--:(password) + | | +--rw key? string + | | +--rw crypto-algorithm? identityref + | +--:(ldp-ext: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 (authentication-type)? + | | +--:(password) + | | | +--rw key? string + | | | +--rw crypto-algorithm? identityref + | | +--:(ldp-ext:key-chain) {key-chain}? + | | +--rw ldp-ext:key-chain? + | | key-chain:key-chain-ref + | +--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 + | | | +--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 enabled? boolean + | | | +--ro reconnect-time? uint16 + | | | +--ro recovery-time? uint16 + | | +--ro capability + | | +--ro end-of-lib + | | | +--ro enabled? boolean + | | +--ro typed-wildcard-fec + | | | +--ro enabled? boolean + | | +--ro upstream-label-assignment + | | +--ro enabled? 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? + | | rt-types:timeticks64 + | +--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}? + | +--rw ldp-ext:graceful-restart + | | {per-peer-graceful-restart-config}? + | | +--rw ldp-ext:enabled? boolean + | | +--rw ldp-ext:reconnect-time? uint16 + | | +--rw ldp-ext:recovery-time? uint16 + | +--rw ldp-ext:session-ka-holdtime? uint16 + | | {per-peer-session-attributes-config}? + | +--rw ldp-ext:session-ka-interval? uint16 + | {per-peer-session-attributes-config}? + +--rw ldp-ext:session-downstream-on-demand + | {session-downstream-on-demand-config}? + | +--rw ldp-ext:enabled? boolean + | +--rw ldp-ext:peer-list? peer-list-ref + +--rw ldp-ext:dual-stack-transport-preference + {peers-dual-stack-transport-preference}? + +--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 protocol-name? leafref + | +---w lsr-id? leafref + | +---w label-space-id? leafref + +---x mpls-ldp-clear-hello-adjacency + | +---w input + | +---w hello-adjacency + | +---w protocol-name? leafref + | +---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 protocol-name? leafref + +---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 protocol-name? leafref + | +--ro lsr-id? leafref + | +--ro label-space-id? leafref + +---n mpls-ldp-hello-adjacency-event + | +--ro event-type? oper-status-event-type + | +--ro protocol-name? leafref + | +--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 protocol-name? leafref + +--ro fec? inet:ip-prefix + + Figure 2: Complete Tree + +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/ + rt:control-plane-protocol, which is defined in [RFC8349] and follows + NMDA as mentioned earlier. + + The following is the high-level configuration organization for the + base LDP module: + + augment /rt:routing/rt:control-plane-protocols: + /rt:control-plane-protocol: + +-- mpls-ldp + +-- global + | +-- ... + | +-- ... + | +-- address-families + | | +-- ipv4 + | | +-- . . . + | | +-- . . . + | +-- capability + | +-- ... + | +-- ... + +-- discovery + | +-- interfaces + | | +-- ... + | | +-- ... + | | +-- interface* [interface] + | | +-- ... + | | +-- address-families + | | +-- ipv4 + | | +-- ... + | | +-- ... + | +-- targeted + | +-- ... + | +-- address-families + | +-- ipv4 + | +-- target* [adjacent-address] + | +-- ... + | +-- ... + +-- peers + +-- ... + +-- ... + +-- peer* [lsr-id label-space-id] + +-- ... + +-- ... + + Figure 3: Base Configuration Organization + + The following is the high-level configuration organization for the + extended LDP module: + + augment /rt:routing/rt:control-plane-protocols + /rt:control-plane-protocol + +-- mpls-ldp + +-- global + | +-- ... + | +-- ... + | +-- address-families + | | +-- ipv4 + | | | +-- . . . + | | | +-- . . . + | | | +-- label-policy + | | | +-- ... + | | | +-- ... + | | +-- ipv6 + | | +-- . . . + | | +-- . . . + | | +-- label-policy + | | +-- ... + | | +-- ... + | +-- capability + | | +-- ... + | | +-- ... + | +-- discovery + | +-- interfaces + | | +-- ... + | | +-- ... + | | +-- interface* [interface] + | | +-- ... + | | +-- address-families + | | +-- ipv4 + | | | +-- ... + | | | +-- ... + | | +-- ipv6 + | | +-- ... + | | +-- ... + | +-- targeted + | +-- ... + | +-- address-families + | +-- ipv6 + | +- target* [adjacent-address] + | +- ... + | +- ... + +-- forwarding-nexthop + | +-- ... + | +-- ... + +-- peers + +-- ... + +-- ... + +-- peer* + +-- ... + +-- ... + +-- label-policy + | +-- .. + +-- address-families + +-- ipv4 + | +-- ... + +-- ipv6 + +-- ... + + Figure 4: Extended Configuration Organization + + 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 parents. 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 Hierarchy + + The LDP module resides under a 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: + + * Global parameters + + * Per-address-family parameters + + * LDP Capabilities parameters + + * Hello Discovery parameters + + - interfaces + + o Global + + o Per-interface: Global + + o Per-interface: Per-address-family + + - targeted + + o Global + + o Per-address-family: Per-target + + * Peer parameters + + - Global + + - Per-peer: Global + + - Per-peer: Per-address-family + + * Forwarding parameters + + The following subsections briefly explain these configuration areas. + +5.1.1. Global Parameters + + There are configuration items that are available directly under a VRF + instance and do not fall under any other subtree. An example of such + a parameter is an LDP LSR Id that is typically configured per VRF. + To keep legacy LDP features and applications working in an LDP IPv4 + network with this model, this document recommends an operator to pick + a routable IPv4 unicast address (within a routing domain) as an LSR + Id. + +5.1.2. Capabilities Parameters + + This container falls under the 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. + +5.1.3. Per-Address-Family Parameters + + Any LDP configuration parameter related to an 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. + +5.1.4. Hello Discovery Parameters + + This container is used to hold LDP configuration related to the Hello + and discovery process for both basic (link) and extended (targeted) + discovery. + + The "interfaces" container is used 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 the + "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 the former is interface Hello timers, and an + example of the latter is enabling hellos for a given AF under an + interface. + + The "targeted" container under a VRF instance allows for the + configuration of parameters related to LDP targeted discovery. + Within this container, the "target" list provides a means to + configure multiple target addresses to perform extended discovery to + a specific destination target, as well as to fine tune the per-target + parameters. + +5.1.5. Peer Parameters + + This container is used to hold LDP configuration related to LDP + sessions and peers under a VRF instance. This container allows for + the configuration of parameters that either apply to all or a subset + (peer-list) of peers in a given VRF. The example of such parameters + includes authentication passwords, session KeepAlive (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 by its LSR Id. + + 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 belong to an AF. The example of the former is + per-peer session password configuration, whereas the example of the + latter is prefix-lis-based label policies (inbound and outbound) that + apply to a given peer. + +5.1.6. 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 + LDP neighbor discovery on an interface but wishes to disable use of + the same interface for forwarding MPLS packets. This example + configuration makes sense only when there are more than one LDP- + enabled interfaces towards a neighbor. + +6. Operational State + + The 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/rt:control-plane-protocol) as the + configuration. + + The following are main areas for which LDP operational state is + defined: + + * Neighbor Adjacencies + + * Peer + + * Bindings (FEC-Label and address) + + * Capabilities + +6.1. Adjacency State + + Neighbor adjacencies are per-address-family Hello adjacencies that + are formed with neighbors as a 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). It 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 the subsequent session + level or eventual peer level. + + The following captures high-level tree hierarchy for neighbor + adjacency state. The tree is shown for ipv4 address-family only; a + similar tree exists for ipv6 address-family as well. + + +--rw mpls-ldp! + +--rw discovery + +--rw interfaces + | +--rw interface* [interface] + | +--rw address-families + | +--rw ipv4 + | +--ro hello-adjacencies + | +--ro hello-adjacencies* [adjacent-address] + | +--ro adjacent-address + | . . . . + | . . . . + +--rw targeted + +--rw address-families + +--rw ipv4 + +--ro hello-adjacencies + +--ro hello-adjacencies* + | [local-address adjacent-address] + +--ro local-address + +--ro adjacent-address + . . . . + . . . . + + Figure 5: Adjacency State + +6.2. Peer State + + Peer-related state is presented under a peers tree. This is one of + the core states 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. + + The following captures high-level tree hierarchy for peer state. The + peer's Hello adjacencies tree is shown for ipv4 address-family only; + a similar tree exists for ipv6 address-family as well. + + +--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 + | +--ro hello-adjacencies + | +--ro hello-adjacencies* + | [local-address adjacent-address] + | . . . . + | . . . . + +--ro received-peer-state + | +--ro . . . . + | +--ro capability + | +--ro . . . . + +--ro statistics + +-- . . . . + +-- received + | +-- ... + +-- sent + +-- ... + + Figure 6: Peer State + +6.3. Bindings State + + Bindings state provides information on LDP FEC-Label bindings as well + as address bindings for both inbound (received) as well as outbound + (advertised) direction. FEC-Label bindings are presented in a FEC- + centric view, and address bindings are presented in an address- + centric view: + + 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: + . . . . + FEC 2001:db8:0:2:: + . . . . + FEC 2001:db8:0:3:: + . . . . + + Address bindings: + Addr 192.0.2.10: + advertised + Addr 2001:db8:0:10:: + 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 + Addr 2001:db8:0:2:: + received, peer 192.0.2.2:0 + Addr 2001:db8:0:3:: + received, peer 192.0.2.3:0 + + Figure 7: Example Bindings + + Note that all local addresses are advertised to all peers; hence, + there is 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. + + The following captures high-level tree hierarchy for bindings state. + The tree shown below is for ipv4 address-family only; a similar tree + exists for ipv6 address-family as well. + + +--rw mpls-ldp! + +--rw global + +--rw address-families + +--rw ipv4 + +--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 8: Bindings State + +6.4. Capabilities State + + LDP capabilities state comprises two types of information: global + information (such as timer, etc.) and per-peer information. + + The 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 9: Capabilities State + +7. Notifications + + This model defines a list of notifications to inform the 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 LDP FEC is treated as operational (up) as long as it has at least + one Next Hop Label Forwarding Entry (NHLFE) with an outgoing label. + + A simplified graphical representation of the data model for LDP + notifications is shown in Figure 2. + +8. Action + + This model defines a list of rpcs that allow performing an action or + executing a command on the protocol. For example, it allows for the + clearing (resetting) of LDP peers, hello-adjacencies, and statistics. + The model makes an effort to provide a different level of control so + that a user is able to either clear all, clear all for a given type, + or clear a specific entity. + + A simplified graphical representation of the data model for LDP + actions is shown in Figure 2. + +9. YANG Specification + + The following sections specify the actual YANG (module) specification + for LDP constructs defined earlier in the document. + +9.1. Base + + This YANG module imports types defined in [RFC6991], [RFC8177], + [RFC8294], [RFC8343], [RFC8344], [RFC8349], and [RFC9067]. + + file "ietf-mpls-ldp@2022-03-14.yang" + module ietf-mpls-ldp { + yang-version 1.1; + namespace "urn:ietf:params:xml:ns:yang:ietf-mpls-ldp"; + prefix ldp; + + import ietf-inet-types { + prefix inet; + reference + "RFC 6991: Common YANG Data Types"; + } + import ietf-yang-types { + prefix yang; + reference + "RFC 6991: Common YANG Data Types"; + } + import ietf-routing { + prefix rt; + reference + "RFC 8349: A YANG Data Model for Routing Management (NMDA + version)"; + } + import ietf-routing-types { + prefix rt-types; + reference + "RFC 8294: Common YANG Data Types for the Routing Area"; + } + import ietf-interfaces { + prefix if; + reference + "RFC 8343: A YANG Data Model for Interface Management"; + } + import ietf-ip { + prefix ip; + reference + "RFC 8344: A YANG Data Model for IP Management"; + } + import ietf-key-chain { + prefix key-chain; + reference + "RFC 8177: YANG Data Model for Key Chains"; + } + + organization + "IETF MPLS Working Group"; + contact + "WG Web: + WG List: + + Editor: Kamran Raza + + + Author: Rajiv Asati + + + Author: Xufeng Liu + + + Author: Santosh Easale + + + Author: Xia Chen + + + Author: Himanshu Shah + "; + description + "This YANG module defines the essential components for the + management of Multiprotocol Label Switching (MPLS) Label + Distribution Protocol (LDP). It is also the base model to + be augmented for Multipoint LDP (mLDP). + + Copyright (c) 2022 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 Revised BSD License + set forth in Section 4.c of the IETF Trust's Legal Provisions + Relating to IETF Documents + (https://trustee.ietf.org/license-info). + + This version of this YANG module is part of RFC 9070; see the + RFC itself for full legal notices."; + + revision 2022-03-14 { + description + "Initial revision."; + reference + "RFC 9070: YANG Data Model for MPLS LDP"; + } + + /* + * Typedefs + */ + + typedef advertised-received { + type enumeration { + enum advertised { + description + "Advertised information."; + } + enum received { + description + "Received information."; + } + } + description + "Received or advertised."; + } + + typedef downstream-upstream { + type enumeration { + enum downstream { + description + "Downstream information."; + } + enum upstream { + description + "Upstream information."; + } + } + description + "Downstream or upstream."; + } + + 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."; + } + + /* + * Identities + */ + + identity mpls-ldp { + base rt:control-plane-protocol; + description + "LDP protocol."; + reference + "RFC 5036: LDP Specification"; + } + + 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 discoveries, in IPv4 and + IPv6 address families."; + leaf-list flag { + type identityref { + base adjacency-flag-base; + } + description + "One 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; + 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 + + 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"; + description + "The time interval for which an LDP link Hello adjacency + is maintained in the absence of link Hello messages from + the LDP neighbor. + This leaf may be configured at the per-interface level or + the global level, with precedence given to the value at the + per-interface level. If the leaf is not configured at + either level, the default value at the global level is + used."; + } + leaf hello-interval { + type uint16 { + range "5..1200"; + } + units "seconds"; + description + "The interval between consecutive LDP link Hello messages + used in basic LDP discovery. + This leaf may be configured at the per-interface level or + the global level, with precedence given to the value at the + per-interface level. If the leaf is not configured at + either level, the default value at the global level is + used."; + } + } // 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-from-binding; + } + } // binding-address-state-attributes + + 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-from-binding { + 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 label 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. On the peer side, these attributes + are operational state data received from the peer."; + container graceful-restart { + description + "Attributes for graceful restart."; + leaf enabled { + type boolean; + description + "Enable or disable graceful restart. + This leaf may be configured at the per-peer level or the + global level, with precedence given to the value at the + per-peer level. If the leaf is not configured at either + level, the default value at the global level is used."; + } + leaf reconnect-time { + type uint16 { + range "10..1800"; + } + units "seconds"; + 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. + This leaf may be configured at the per-peer level or the + global level, with precedence given to the value at the + per-peer level. If the leaf is not configured at either + level, the default value at the global level is used."; + } + leaf recovery-time { + type uint16 { + range "30..3600"; + } + units "seconds"; + 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. + This leaf may be configured at the per-peer level or the + global level, with precedence given to the value at the + per-peer level. If the leaf is not configured at either + level, the default value at the global level is used."; + } + } // graceful-restart + } // graceful-restart-attributes-per-peer + + grouping ldp-interface-ref { + description + "Defining a reference to an 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-absolute { + description + "An absolute reference to an LDP peer, by the LDP ID, which + consists of the LSR Id and the label space Id."; + leaf protocol-name { + type leafref { + path "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/rt:name"; + } + description + "The name of the LDP protocol instance."; + } + leaf lsr-id { + type leafref { + path "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol" + + "[rt:name=current()/../protocol-name]/" + + "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/" + + "rt:control-plane-protocol" + + "[rt:name=current()/../protocol-name]/" + + "ldp:mpls-ldp/ldp:peers/" + + "ldp:peer[ldp:lsr-id=current()/../lsr-id]/" + + "ldp:label-space-id"; + } + description + "The label space Id of the peer, as a portion of the peer + LDP ID."; + } + } // ldp-peer-ref-absolute + + grouping ldp-peer-ref-from-binding { + description + "A relative 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 "../../../../../../../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 "../../../../../../../ldp:peers/" + + "ldp:peer[ldp:lsr-id=current()/../lsr-id]/" + + "ldp:label-space-id"; + } + description + "The label space Id of the peer, as a portion of the peer + LDP ID."; + } + } // ldp-peer-ref-from-binding + + grouping ldp-peer-ref-from-interface { + description + "A relative reference to an LDP peer, by the LDP ID, which + consists of the LSR Id and the label space Id."; + container peer { + description + "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 "../../../../../../../../../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 "../../../../../../../../../ldp:peers/" + + "ldp:peer[ldp:lsr-id=current()/../lsr-id]/" + + "ldp:label-space-id"; + } + description + "The label space Id of the peer, as a portion of the peer + LDP ID."; + } + } // peer + } // ldp-peer-ref-from-interface + + grouping ldp-peer-ref-from-target { + description + "A relative reference to an LDP peer, by the LDP ID, which + consists of the LSR Id and the label space Id."; + container peer { + description + "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 "../../../../../../../../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 "../../../../../../../../ldp:peers/" + + "ldp:peer[ldp:lsr-id=current()/../lsr-id]/" + + "ldp:label-space-id"; + } + description + "The label space Id of the peer, as a portion of the peer + LDP ID."; + } + } // peer + } // ldp-peer-ref-from-target + + 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"; + description + "The time interval after which an inactive LDP session + terminates and the corresponding TCP session closes. + Inactivity is defined as not receiving LDP packets from the + peer. + This leaf may be configured at the per-peer level or the + global level, with precedence given to the value at the + per-peer level. If the leaf is not configured at either + level, the default value at the global level is used."; + } + leaf session-ka-interval { + type uint16 { + range "15..1200"; + } + units "seconds"; + 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. + This leaf may be configured at the per-peer level or the + global level, with precedence given to the value at the + per-peer level. If the leaf is not configured at either + level, the default value at the global level is used."; + } + } // 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 authentication-type { + description + "Choice of authentication."; + case password { + leaf key { + type string; + description + "This leaf specifies the authentication key. The + length of the key may be dependent on the + cryptographic algorithm."; + } + leaf crypto-algorithm { + type identityref { + base key-chain:crypto-algorithm; + } + description + "Cryptographic algorithm associated with key."; + } + } + } + } + } // peer-authentication + + grouping peer-state-derived { + description + "The peer state information derived from the LDP protocol + operations."; + container label-advertisement-mode { + config false; + description + "Label advertisement mode state."; + leaf local { + type label-adv-mode; + 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 duration from now until sending 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 + "Peer capability information."; + container end-of-lib { + description + "Peer's end-of-lib capability."; + leaf enabled { + type boolean; + description + "'true' if peer's end-of-lib capability is enabled."; + } + } + container typed-wildcard-fec { + description + "Peer's typed-wildcard-fec capability."; + leaf enabled { + type boolean; + description + "'true' if peer's typed-wildcard-fec capability is + enabled."; + } + } + container upstream-label-assignment { + description + "Peer's upstream label assignment capability."; + leaf enabled { + type boolean; + description + "'true' if peer's upstream label assignment is + enabled."; + } + } + } // 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."; + } + } + config false; + description + "Representing the operational status of the LDP session."; + reference + "RFC 5036: LDP Specification, 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 rt-types:timeticks64; + config false; + description + "The number of time ticks (hundredths of a second) since the + state of the session with the peer changed to + OPERATIONAL."; + } + 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 + 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 + "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 notification messages sent or received."; + } + } // statistics-peer-received-sent + + /* + * Configuration data and operational state data nodes + */ + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol" { + when "derived-from-or-self(rt:type, 'ldp:mpls-ldp')" { + description + "This augmentation is only valid for a control plane + protocol instance of LDP (type 'mpls-ldp')."; + } + description + "LDP augmentation to routing control plane protocol + configuration and state."; + container mpls-ldp { + must "not (../../rt:control-plane-protocol" + + "[derived-from-or-self(rt:type, 'ldp:mpls-ldp')]" + + "[rt:name!=current()/../rt:name])" { + description + "Only one LDP instance is allowed."; + } + 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 + "RFC 5036: LDP Specification, Sec. 1.5."; + } + container graceful-restart { + description + "Attributes for graceful restart."; + leaf enabled { + 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."; + } + 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 + "Specifies 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 configuration and operational state. + The address family can be either IPv4 or IPv6."; + container ipv4 { + presence "Present if IPv4 is enabled, unless the + 'enabled' leaf is set to 'false'."; + description + "Containing data related to the IPv4 address family."; + leaf enabled { + type boolean; + default "true"; + description + "'false' to disable the address family."; + } + leaf label-distribution-control-mode { + type enumeration { + enum independent { + description + "Independent label distribution control."; + } + enum ordered { + description + "Ordered label distribution control."; + } + } + config false; + description + "Label distribution control mode."; + reference + "RFC 5036: 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; + } + 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 + or advertised to a peer."; + } + uses binding-label-state-attributes; + } + } // bindings + } // ipv4 + } // address-families + } // global + container discovery { + description + "Neighbor-discovery configuration and operational state."; + container interfaces { + description + "A list of interfaces for LDP Basic Discovery."; + reference + "RFC 5036: LDP Specification, Sec. 2.4.1."; + uses basic-discovery-timers { + refine "hello-holdtime" { + default "15"; + } + refine "hello-interval" { + default "5"; + } + } + 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 + 'enabled' leaf is set to 'false'."; + description + "IPv4 address family."; + leaf enabled { + type boolean; + default "true"; + description + "Set to false to disable the address family on + the interface."; + } + 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-from-interface; + } + } + } // ipv4 + } // address-families + } // 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 an 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"; + } + 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 enabled { + type boolean; + default "false"; + description + "'true' to accept; 'false' to deny."; + } + } + 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."; + } + uses adjacency-state-attributes; + uses ldp-peer-ref-from-target; + } + } + list target { + key "adjacent-address"; + description + "Targeted discovery params."; + leaf adjacent-address { + type inet:ipv4-address; + description + "Configures a remote LDP neighbor for the + extended LDP discovery."; + } + leaf enabled { + type boolean; + default "true"; + description + "'true' to 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 { + refine "session-ka-holdtime" { + default "180"; + } + refine "session-ka-interval" { + default "60"; + } + } + list peer { + key "lsr-id label-space-id"; + description + "List of peers."; + leaf lsr-id { + type rt-types:router-id; + description + "The LSR Id of the peer, used 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 + "RFC 5036: LDP Specification, Sec. 2.2.2."; + } + leaf label-space-id { + type uint16; + description + "The label space Id of the peer, used 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 + "RFC 5036: LDP Specification, Sec. 2.2.2."; + } + uses peer-authentication; + 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."; + 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."; + } + } + } + } // 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-absolute { + 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."; + input { + container hello-adjacency { + description + "Link adjacency or targeted adjacency. If this is not + provided, then all Hello adjacencies are cleared."; + leaf protocol-name { + type leafref { + path "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/rt:name"; + } + description + "The name of the LDP protocol instance."; + } + 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."; + } + } + } + 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/" + + "rt:control-plane-protocol/mpls-ldp/" + + "discovery/interfaces/interface/name"; + } + description + "Interface connecting to a 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 an interface is specified."; + } + description + "IP address of a next hop. If this is not + provided, then adjacencies to all next hops on the + given interface are cleared."; + } + } + } + } // hello-adjacency-type + } // hello-adjacency + } // input + } // mpls-ldp-clear-hello-adjacency + + rpc mpls-ldp-clear-peer-statistics { + description + "Clears protocol statistics (e.g., sent and received + counters)."; + input { + uses ldp-peer-ref-absolute { + 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."; + } + 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-absolute; + } + } + + 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."; + } + leaf protocol-name { + type leafref { + path "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/rt:name"; + } + description + "The name of the LDP protocol instance."; + } + choice hello-adjacency-type { + description + "Interface or targeted adjacency."; + case targeted { + container targeted { + description + "Targeted adjacency through LDP extended discovery."; + leaf target-address { + type inet:ip-address; + description + "The target adjacent-address learned."; + } + } + } + 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 an interface is specified."; + } + description + "IP address of the next hop. This can be IPv4 or IPv6 + address."; + } + } + } + } // hello-adjacency-type + } // mpls-ldp-hello-adjacency-event + + 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 protocol-name { + type leafref { + path "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/rt:name"; + } + description + "The name of the LDP protocol instance."; + } + leaf fec { + type inet:ip-prefix; + description + "The address prefix element of the FEC whose status + has changed."; + } + } + } + + + Figure 10: LDP Base Module + +9.2. Extended + + This YANG module imports types defined in [RFC5036], [RFC6991], + [RFC8349], [RFC8177], [RFC8343], and [RFC9067]. + + file "ietf-mpls-ldp-extended@2022-03-14.yang" + module ietf-mpls-ldp-extended { + yang-version 1.1; + namespace "urn:ietf:params:xml:ns:yang:ietf-mpls-ldp-extended"; + prefix ldp-ext; + + import ietf-inet-types { + prefix inet; + reference + "RFC 6991: Common YANG Data Types"; + } + import ietf-routing { + prefix rt; + reference + "RFC 8349: A YANG Data Model for Routing Management (NMDA + version)"; + } + import ietf-key-chain { + prefix key-chain; + reference + "RFC 8177: YANG Data Model for Key Chains"; + } + import ietf-mpls-ldp { + prefix ldp; + reference + "RFC 9070: YANG Data Model for MPLS LDP"; + } + import ietf-interfaces { + prefix if; + reference + "RFC 8343: A YANG Data Model for Interface Management"; + } + import ietf-routing-policy { + prefix rt-pol; + reference + "RFC 9067: A YANG Data Model for Routing Policy"; + } + + organization + "IETF MPLS Working Group"; + contact + "WG Web: + WG List: + + Editor: Kamran Raza + + + Author: Rajiv Asati + + + Author: Xufeng Liu + + + Author: Santosh Easale + + + Author: Xia Chen + + + Author: Himanshu Shah + "; + description + "This YANG module defines the extended components for the + management of Multiprotocol Label Switching (MPLS) Label + Distribution Protocol (LDP). It is also the model to + be augmented for extended Multipoint LDP (mLDP). + + Copyright (c) 2022 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 Revised BSD License set + forth in Section 4.c of the IETF Trust's Legal Provisions + Relating to IETF Documents + (https://trustee.ietf.org/license-info). + + This version of this YANG module is part of RFC 9070; see the + RFC itself for full legal notices."; + + revision 2022-03-14 { + description + "Initial revision."; + reference + "RFC 9070: YANG Data Model for MPLS LDP"; + } + + /* + * Features + */ + + feature capability-end-of-lib { + description + "This feature indicates that the system allows for the + configuration of LDP end-of-lib capability."; + } + + feature capability-typed-wildcard-fec { + description + "This feature indicates that the system allows for the + configuration of LDP typed-wildcard-fec capability."; + } + + feature capability-upstream-label-assignment { + description + "This feature indicates that the system allows for the + configuration of LDP upstream label assignment capability."; + } + + feature forwarding-nexthop-config { + description + "This feature indicates that the system allows for controlling + MPLS forwarding on an LDP interface."; + } + + feature graceful-restart-helper-mode { + description + "This feature indicates that the system supports graceful + restart helper mode. We call an LSR to be operating in GR + helper mode when it advertises 0 as its FT Reconnect Timeout + in the FT Session TLV. + Please refer to Section 2 of RFC 3478 for details."; + } + + feature key-chain { + description + "This feature indicates that the system supports key-chain for + authentication."; + } + + feature peers-dual-stack-transport-preference { + description + "This feature indicates that the system allows for the + configuration of the transport connection preference in a + dual-stack setup for peers."; + } + + feature per-interface-timer-config { + description + "This feature indicates that the system allows for the + configuration of interface Hello timers at the per-interface + level."; + } + + feature per-peer-admin-down { + description + "This feature indicates that the system allows for the + administrative disabling of a peer."; + } + + feature per-peer-graceful-restart-config { + description + "This feature indicates that the system allows for the + configuration of graceful restart at the per-peer level."; + } + + feature per-peer-session-attributes-config { + description + "This feature indicates that the system allows for the + configuration of session attributes at the per-peer level."; + } + + feature policy-label-assignment-config { + description + "This feature indicates that the system allows for the + configuration of policies to assign labels according to + certain prefixes."; + } + + feature policy-ordered-label-config { + description + "This feature indicates that the system allows for the + configuration of ordered label policies."; + } + + feature policy-targeted-discovery-config { + description + "This feature indicates that the system allows for the + configuration of 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 for the + configuration of session downstream on demand."; + } + + /* + * Typedefs + */ + + typedef neighbor-list-ref { + type leafref { + path "/rt-pol:routing-policy/rt-pol:defined-sets/" + + "rt-pol:neighbor-sets/rt-pol:neighbor-set/rt-pol:name"; + } + 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."; + reference + "RFC 9067: A YANG Data Model for Routing Policy"; + } + + typedef prefix-list-ref { + type leafref { + path "/rt-pol:routing-policy/rt-pol:defined-sets/" + + "rt-pol:prefix-sets/rt-pol:prefix-set/rt-pol:name"; + } + 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."; + reference + "RFC 9067: A YANG Data Model for Routing Policy"; + } + + typedef peer-list-ref { + type leafref { + path "/rt-pol:routing-policy/rt-pol:defined-sets/" + + "rt-pol:neighbor-sets/rt-pol:neighbor-set/rt-pol:name"; + } + 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."; + reference + "RFC 9067: A YANG Data Model for Routing Policy"; + } + + /* + * 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 + "RFC 5036: LDP Specification, Sec. 3.5.2."; + } + } + + grouping authentication-keychain-augment { + description + "Augmentation to authentication to add key-chain."; + leaf key-chain { + type key-chain:key-chain-ref; + description + "key-chain name. + If not specified, no key chain is used."; + } + } + + grouping capability-augment { + description + "Augmentation to capability."; + container end-of-lib { + if-feature "capability-end-of-lib"; + description + "Configure end-of-lib capability."; + leaf enabled { + type boolean; + default "false"; + description + "'true' to enable end-of-lib capability."; + } + } + container typed-wildcard-fec { + if-feature "capability-typed-wildcard-fec"; + description + "Configure typed-wildcard-fec capability."; + leaf enabled { + type boolean; + default "false"; + description + "'true' to enable typed-wildcard-fec capability."; + } + } + container upstream-label-assignment { + if-feature "capability-upstream-label-assignment"; + description + "Configure upstream label assignment capability."; + leaf enabled { + type boolean; + default "false"; + description + "'true' to enable upstream label assignment."; + } + } + } // capability-augment + + grouping global-augment { + description + "Augmentation to global attributes."; + 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."; + } + } + + grouping global-forwarding-nexthop-augment { + description + "Augmentation at the global level for controlling MPLS + forwarding on LDP interfaces."; + container forwarding-nexthop { + if-feature "forwarding-nexthop-config"; + description + "Configuration for controlling MPLS forwarding on LDP + interfaces."; + container interfaces { + description + "Containing a list of interfaces on which forwarding can be + disabled."; + list interface { + key "name"; + description + "List of LDP interfaces on which forwarding can be + disabled."; + uses ldp:ldp-interface-ref; + list address-family { + key "afi"; + description + "Per-vrf per-af params."; + leaf afi { + type identityref { + base rt:address-family; + } + description + "Address family type value."; + } + leaf ldp-disable { + type boolean; + default "false"; + description + "'true' to disable LDP forwarding on the interface."; + } + } + } // interface + } // interfaces + } // forwarding-nexthop + } // global-forwarding-nexthop-augment + + grouping graceful-restart-augment { + description + "Augmentation to graceful restart."; + leaf helper-enabled { + if-feature "graceful-restart-helper-mode"; + type boolean; + default "false"; + description + "Enable or disable graceful restart helper mode."; + } + } + + 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."; + } + } + + grouping interface-address-family-ipv6-augment { + description + "Augmentation to interface address family IPv6."; + 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:ipv6-address; + } + default "use-global-transport-address"; + description + "IP address to be advertised as the LDP transport address."; + } + } + + 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"; + 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. + This leaf may be configured at the per-interface level or + the global level, with precedence given to the value at the + per-interface level. If the leaf is not configured at + either level, the default value at the global level is + used."; + } + } + + grouping peer-af-policy-container { + description + "LDP policy attribute container under peer address family."; + container label-policy { + description + "Label policy attributes."; + container advertise { + description + "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."; + } + } + } + } // 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"; + } + } + + grouping peers-augment { + description + "Augmentation to peers container."; + container session-downstream-on-demand { + if-feature "session-downstream-on-demand-config"; + description + "Session downstream-on-demand attributes."; + leaf enabled { + 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-preference { + if-feature "peers-dual-stack-transport-preference"; + 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 preferred for transport + connection establishment, subject to the + 'peer-list' in this container."; + description + "Uses IPv4 as the preferred 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 preferred address family for transport connection + establishment."; + leaf peer-list { + type peer-list-ref; + description + "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 preferred 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 enabled { + 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."; + } + } + container accept { + description + "Label advertisement acceptance policies."; + leaf prefix-list { + type prefix-list-ref; + description + "Applies the prefix list to filter incoming label + advertisements. + If the value is not specified, no prefix filter + is applied."; + } + } + 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)."; + } + } + 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."; + } + } + } // assign + } // label-policy + } // policy-container + + /* + * Configuration and state data nodes + */ + // Forwarding nexthop augmentation to the global tree + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/ldp:mpls-ldp/ldp:global" { + description + "Forwarding nexthop augmentation."; + uses global-forwarding-nexthop-augment; + } + + // global/address-families/ipv6 + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/ldp:mpls-ldp/ldp:global/" + + "ldp:address-families" { + description + "Global IPv6 augmentation."; + container ipv6 { + presence "Present if IPv6 is enabled, unless the 'enabled' + leaf is set to 'false'."; + description + "Containing data related to the IPv6 address family."; + leaf enabled { + type boolean; + default "true"; + description + "'false' to disable 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-control-mode { + type enumeration { + enum independent { + description + "Independent label distribution control."; + } + enum ordered { + description + "Ordered label distribution control."; + } + } + config false; + description + "Label distribution control mode."; + reference + "RFC 5036: LDP Specification, Sec. 2.6."; + } + // ipv6 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:ipv6-address; + description + "The IPv6 address learned from an Address + message received from or advertised to a peer."; + } + uses ldp:binding-address-state-attributes; + } + 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; + } + } // bindings + } // ipv6 + } + + // discovery/interfaces/interface/address-families/ipv6 + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/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 'enabled' + leaf is set to 'false'."; + description + "IPv6 address family."; + leaf enabled { + type boolean; + default "true"; + description + "'false' to disable the address family on the interface."; + } + 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-from-interface; + } + } + } // ipv6 + } + + // discovery/targeted/address-families/ipv6 + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/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."; + 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-from-target; + } + } + list target { + key "adjacent-address"; + description + "Targeted discovery params."; + leaf adjacent-address { + type inet:ipv6-address; + description + "Configures a remote LDP neighbor for the + extended LDP discovery."; + } + leaf enabled { + type boolean; + default "true"; + description + "'true' to 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/" + + "rt:control-plane-protocol/ldp:mpls-ldp/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."; + } + } + } + } // ipv6 + } + + /* + * Configuration data and operational state data nodes + */ + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/ldp:mpls-ldp/ldp:global" { + description + "Graceful restart augmentation."; + uses global-augment; + } + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/ldp:mpls-ldp/ldp:global/" + + "ldp:capability" { + description + "Capability augmentation."; + uses capability-augment; + } + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/ldp:mpls-ldp/ldp:global/" + + "ldp:graceful-restart" { + description + "Graceful restart augmentation."; + uses graceful-restart-augment; + } + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/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/" + + "rt:control-plane-protocol/ldp:mpls-ldp/ldp:discovery/" + + "ldp:interfaces/ldp:interface" { + description + "Interface augmentation."; + uses interface-augment; + } + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/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/" + + "rt:control-plane-protocol/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/" + + "rt:control-plane-protocol/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, used to accept Hello messages + from LDP peers as permitted by the neighbor-list policy. + If this value is not specified, targeted Hello messages + from any source are accepted."; + } + } + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/ldp:mpls-ldp/ldp:peers" { + description + "Peers augmentation."; + uses peers-augment; + } + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/ldp:mpls-ldp/ldp:peers/" + + "ldp:authentication/ldp:authentication-type" { + if-feature "key-chain"; + description + "Peers authentication augmentation."; + case key-chain { + uses authentication-keychain-augment; + } + } + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/ldp:mpls-ldp/ldp:peers/" + + "ldp:peer" { + description + "Peer list entry augmentation."; + uses peer-augment; + } + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/ldp:mpls-ldp/ldp:peers/" + + "ldp:peer/ldp:authentication/ldp:authentication-type" { + if-feature "key-chain"; + description + "Peer list entry authentication augmentation."; + case key-chain { + uses authentication-keychain-augment; + } + } + + augment "/rt:routing/rt:control-plane-protocols/" + + "rt:control-plane-protocol/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/" + + "rt:control-plane-protocol/ldp:mpls-ldp/ldp:peers/" + + "ldp:peer/ldp:address-families/ldp-ext:ipv6" { + description + "Peer list entry IPv6 augmentation."; + uses peer-af-policy-container; + } + } + + + Figure 11: LDP Extended Module + +10. Security Considerations + + This specification inherits the security considerations captured in + [RFC5920] and the LDP protocol specification documents, namely base + LDP [RFC5036], LDP IPv6 [RFC7552], LDP Capabilities [RFC5561], Typed + Wildcard FEC [RFC5918], LDP End-of-LIB [RFC5919], and LDP Upstream + Label Assignment [RFC6389]. + +10.1. YANG Data Model + + The YANG modules specified in this document define a schema for data + that is designed to be accessed via network management protocols such + as NETCONF [RFC6241] or RESTCONF [RFC8040]. The lowest NETCONF layer + is the secure transport layer, and the mandatory-to-implement secure + transport is Secure Shell (SSH) [RFC6242]. The lowest RESTCONF layer + is HTTPS, and the mandatory-to-implement secure transport is TLS + [RFC8446]. + + The Network Configuration Access Control Model (NACM) [RFC8341] + provides the means to restrict access for particular NETCONF or + RESTCONF users to a preconfigured subset of all available NETCONF or + RESTCONF protocol operations and content. + +10.1.1. Writable Nodes + + There are a number of data nodes defined in these YANG modules that + are writable/creatable/deletable (i.e., config true, which is the + default). These data nodes may be considered sensitive or vulnerable + in some network environments. Write operations (e.g., edit-config) + to these data nodes without proper protection can have a negative + effect on network operations. + + For LDP, the ability to modify MPLS LDP configuration may allow the + entire MPLS LDP domain to be compromised including forming LDP + adjacencies and/or peer sessions with unauthorized routers to mount a + massive Denial-of-Service (DoS) attack. In particular, the following + are the subtrees and data nodes that are sensitive and vulnerable: + + /mpls-ldp/discovery/interfaces/interface: Adding LDP on any + unprotected interface could allow an LDP Hello adjacency to be + formed with an unauthorized and malicious neighbor. Once a Hello + adjacency is formed, a peer session could progress with this + neighbor. + + /mpls-ldp/discovery/targeted/hello-accept: Allowing acceptance of + targeted-hellos could open LDP to DoS attacks related to incoming + targeted hellos from malicious sources. + + /mpls-ldp/peers/authentication: Allowing a peer session + establishment is typically controlled via LDP authentication where + a proper and secure authentication password/key management is + warranted. + + /mpls-ldp/peers/peer/authentication: Same as above. + +10.1.2. Readable Nodes + + Some of the readable data nodes in these YANG modules may be + considered sensitive or vulnerable in some network environments. It + is thus important to control read access (e.g., via get, get-config, + or notification) to these data nodes. These are the subtrees and + data nodes and their sensitivity/vulnerability: + + The exposure of LDP databases (such as Hello adjacencies, peers, + address bindings, and FEC-Label bindings) beyond the scope of the LDP + admin domain may be undesirable. The relevant subtrees and data + nodes are as follows: + + * /mpls-ldp/global/address-families/ipv4/bindings/address + + * /mpls-ldp/global/address-families/ipv6/bindings/address + + * /mpls-ldp/global/address-families/ipv4/bindings/fec-label + + * /mpls-ldp/global/address-families/ipv6/bindings/fec-label + + * /mpls-ldp/discovery/interfaces/interface/address-families/ipv4/ + hello-adjacencies + + * /mpls-ldp/discovery/interfaces/interface/address-families/ipv6/ + hello-adjacencies + + * /mpls-ldp/discovery/targeted/address-families/ipv4/hello- + adjacencies + + * /mpls-ldp/discovery/targeted/address-families/ipv6/hello- + adjacencies + + * /mpls-ldp/peers + + The configuration for LDP peer authentication is supported via the + key-chain specification [RFC8177] or via direct specification of a + key associated with a crypto algorithm (such as MD5). The relevant + subtrees and data nodes are as follows: + + * /mpls-ldp/peers/authentication + + * /mpls-ldp/peers/peer/authentication + + The actual authentication key data (whether locally specified or part + of a key-chain) is sensitive and needs to be kept secret from + unauthorized parties. For key-chain-based authentication, this model + inherits the security considerations of [RFC8040] (that includes the + considerations with respect to the local storage and handling of + authentication keys). A similar procedure for storage and access to + direct keys is warranted. + +10.1.3. RPC Operations + + Some of the RPC operations in these YANG modules may be considered + sensitive or vulnerable in some network environments. It is thus + important to control access to these operations; otherwise, control + plane flaps, network outages, and DoS attacks are possible. The RPC + operations are: + + * mpls-ldp-clear-peer + + * mpls-ldp-clear-hello-adjacency + +10.1.4. Notifications + + The model describes several notifications. The implementations must + rate-limit the generation of these notifications to avoid creating + significant notification load and possible side effects on the system + stability. + +11. IANA Considerations + + Per this document, the following URIs have been registered in the + IETF "XML Registry" [RFC3688]: + + URI: urn:ietf:params:xml:ns:yang:ietf-mpls-ldp + Registrant: The IESG + XML: N/A + + URI: urn:ietf:params:xml:ns:yang:ietf-mpls-ldp-extended + Registrant: The IESG + XML: N/A + + Per this document, the following YANG modules have been registered in + the "YANG Module Names" registry [RFC6020]: + + Name: ietf-mpls-ldp + Namespace: urn:ietf:params:xml:ns:yang:ietf-mpls-ldp + Prefix: ldp + Reference: RFC 9070 + + Name: ietf-mpls-ldp-extended + Namespace: urn:ietf:params:xml:ns:yang:ietf-mpls-ldp-extended + Prefix: ldp-ext + Reference: RFC 9070 + +12. Normative References + + [RFC3478] Leelanivas, M., Rekhter, Y., and R. Aggarwal, "Graceful + Restart Mechanism for Label Distribution Protocol", + RFC 3478, DOI 10.17487/RFC3478, February 2003, + . + + [RFC3688] Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688, + DOI 10.17487/RFC3688, January 2004, + . + + [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, + . + + [RFC5443] Jork, M., Atlas, A., and L. Fang, "LDP IGP + Synchronization", RFC 5443, DOI 10.17487/RFC5443, March + 2009, . + + [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, + . + + [RFC5920] Fang, L., Ed., "Security Framework for MPLS and GMPLS + Networks", RFC 5920, DOI 10.17487/RFC5920, July 2010, + . + + [RFC6020] Bjorklund, M., Ed., "YANG - A Data Modeling Language for + the Network Configuration Protocol (NETCONF)", RFC 6020, + DOI 10.17487/RFC6020, October 2010, + . + + [RFC6241] Enns, R., Ed., Bjorklund, M., Ed., Schoenwaelder, J., Ed., + and A. Bierman, Ed., "Network Configuration Protocol + (NETCONF)", RFC 6241, DOI 10.17487/RFC6241, June 2011, + . + + [RFC6242] Wasserman, M., "Using the NETCONF Protocol over Secure + Shell (SSH)", RFC 6242, DOI 10.17487/RFC6242, June 2011, + . + + [RFC6389] Aggarwal, R. and JL. Le Roux, "MPLS Upstream Label + Assignment for LDP", RFC 6389, DOI 10.17487/RFC6389, + November 2011, . + + [RFC6991] Schoenwaelder, J., Ed., "Common YANG Data Types", + RFC 6991, DOI 10.17487/RFC6991, July 2013, + . + + [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, + . + + [RFC7950] Bjorklund, M., Ed., "The YANG 1.1 Data Modeling Language", + RFC 7950, DOI 10.17487/RFC7950, August 2016, + . + + [RFC8040] Bierman, A., Bjorklund, M., and K. Watsen, "RESTCONF + Protocol", RFC 8040, DOI 10.17487/RFC8040, January 2017, + . + + [RFC8177] Lindem, A., Ed., Qu, Y., Yeung, D., Chen, I., and J. + Zhang, "YANG Data Model for Key Chains", RFC 8177, + DOI 10.17487/RFC8177, June 2017, + . + + [RFC8294] Liu, X., Qu, Y., Lindem, A., Hopps, C., and L. Berger, + "Common YANG Data Types for the Routing Area", RFC 8294, + DOI 10.17487/RFC8294, December 2017, + . + + [RFC8341] Bierman, A. and M. Bjorklund, "Network Configuration + Access Control Model", STD 91, RFC 8341, + DOI 10.17487/RFC8341, March 2018, + . + + [RFC8342] Bjorklund, M., Schoenwaelder, J., Shafer, P., Watsen, K., + and R. Wilton, "Network Management Datastore Architecture + (NMDA)", RFC 8342, DOI 10.17487/RFC8342, March 2018, + . + + [RFC8343] Bjorklund, M., "A YANG Data Model for Interface + Management", RFC 8343, DOI 10.17487/RFC8343, March 2018, + . + + [RFC8344] Bjorklund, M., "A YANG Data Model for IP Management", + RFC 8344, DOI 10.17487/RFC8344, March 2018, + . + + [RFC8349] Lhotka, L., Lindem, A., and Y. Qu, "A YANG Data Model for + Routing Management (NMDA Version)", RFC 8349, + DOI 10.17487/RFC8349, March 2018, + . + + [RFC8407] Bierman, A., "Guidelines for Authors and Reviewers of + Documents Containing YANG Data Models", BCP 216, RFC 8407, + DOI 10.17487/RFC8407, October 2018, + . + + [RFC8446] Rescorla, E., "The Transport Layer Security (TLS) Protocol + Version 1.3", RFC 8446, DOI 10.17487/RFC8446, August 2018, + . + + [RFC8529] Berger, L., Hopps, C., Lindem, A., Bogdanovic, D., and X. + Liu, "YANG Data Model for Network Instances", RFC 8529, + DOI 10.17487/RFC8529, March 2019, + . + + [RFC9067] Qu, Y., Tantsura, J., Lindem, A., and X. Liu, "A YANG Data + Model for Routing Policy", RFC 9067, DOI 10.17487/RFC9067, + October 2021, . + +13. Informative References + + [MPLS-MLDP-YANG] + Raza, K., Ed., Liu, X., Esale, S., Andersson, L., + Tantsura, J., and S. Krishnaswamy, "YANG Data Model for + MPLS mLDP", Work in Progress, Internet-Draft, draft-ietf- + mpls-mldp-yang-10, 11 November 2021, + . + + [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, + . + + [RFC7951] Lhotka, L., "JSON Encoding of Data Modeled with YANG", + RFC 7951, DOI 10.17487/RFC7951, August 2016, + . + + [RFC8340] Bjorklund, M. and L. Berger, Ed., "YANG Tree Diagrams", + BCP 215, RFC 8340, DOI 10.17487/RFC8340, March 2018, + . + +Appendix A. Data Tree Example + + This section contains an example of an instance data tree in the JSON + encoding [RFC7951], containing both configuration and state data. + + +---------------------+ + | | + | Router 203.0.113.1 | + | | + +----------+----------+ + |eth1 + |2001:db8:0:1::1/64 + | + | + |2001:db8:0:1::2/64 + +----------+----------+ + | | | + | Another Router +---------| 2001:db8:0:2::/64 + | | | + +---------------------+ + + Figure 12: Example Topology + + The configuration instance data tree for Router 203.0.113.1 in + Figure 12 could be as follows: + + { + "ietf-interfaces:interfaces": { + "interface": [ + { + "name": "eth1", + "description": "An interface with LDP enabled.", + "type": "iana-if-type:ethernetCsmacd", + "ietf-ip:ipv6": { + "address": [ + { + "ip": "2001:db8:0:1::1", + "prefix-length": 64 + } + ], + "forwarding": true + } + } + ] + }, + "ietf-routing:routing": { + "router-id": "203.0.113.1", + "control-plane-protocols": { + "control-plane-protocol": [ + { + "type": "ietf-mpls-ldp:mpls-ldp", + "name": "ldp-1", + "ietf-mpls-ldp:mpls-ldp": { + "global": { + "address-families": { + "ietf-mpls-ldp-extended:ipv6": { + "enabled": true, + "transport-address": "2001:db8:0:1::1" + } + } + }, + "discovery": { + "interfaces": { + "interface": [ + { + "name": "eth1", + "address-families": { + "ietf-mpls-ldp-extended:ipv6": { + "enabled": true + } + } + } + ] + } + } + } + } + ] + } + } + } + + Figure 13: Example Configuration Data in JSON + + The corresponding operational state data for Router 203.0.113.1 could + be as follows: + + { + "ietf-interfaces:interfaces": { + "interface": [ + { + "name": "eth1", + "description": "An interface with LDP enabled.", + "type": "iana-if-type:ethernetCsmacd", + "phys-address": "00:00:5e:00:53:01", + "oper-status": "up", + "statistics": { + "discontinuity-time": "2018-09-10T15:16:27-05:00" + }, + "ietf-ip:ipv6": { + "forwarding": true, + "mtu": 1500, + "address": [ + { + "ip": "2001:db8:0:1::1", + "prefix-length": 64, + "origin": "static", + "status": "preferred" + }, + { + "ip": "fe80::200:5eff:fe00:5301", + "prefix-length": 64, + "origin": "link-layer", + "status": "preferred" + } + ], + "neighbor": [ + { + "ip": "2001:db8:0:1::2", + "link-layer-address": "00:00:5e:00:53:02", + "origin": "dynamic", + "is-router": [null], + "state": "reachable" + }, + { + "ip": "fe80::200:5eff:fe00:5302", + "link-layer-address": "00:00:5e:00:53:02", + "origin": "dynamic", + "is-router": [null], + "state": "reachable" + } + ] + } + } + ] + }, + "ietf-routing:routing": { + "router-id": "203.0.113.1", + "interfaces": { + "interface": [ + "eth1" + ] + }, + "control-plane-protocols": { + "control-plane-protocol": [ + { + "type": "ietf-mpls-ldp:mpls-ldp", + "name": "ldp-1", + "ietf-mpls-ldp:mpls-ldp": { + "global": { + "address-families": { + "ietf-mpls-ldp-extended:ipv6": { + "enabled": true, + "transport-address": "2001:db8:0:1::1" + } + } + }, + "discovery": { + "interfaces": { + "interface": [ + { + "name": "eth1", + "address-families": { + "ietf-mpls-ldp-extended:ipv6": { + "enabled": true, + "hello-adjacencies": { + "hello-adjacency": [ + { + "adjacent-address": + "fe80::200:5eff:fe00:5302", + "flag": ["adjacency-flag-active"], + "hello-holdtime": { + "adjacent": 15, + "negotiated": 15, + "remaining": 9 + }, + "next-hello": 3, + "statistics": { + "discontinuity-time": + "2018-09-10T15:16:27-05:00" + }, + "peer": { + "lsr-id": "203.0.113.2", + "label-space-id": 0 + } + } + ] + } + } + } + } + ] + } + }, + "peers": { + "peer": [ + { + "lsr-id": "203.0.113.2", + "label-space-id": 0, + "label-advertisement-mode": { + "local": "downstream-unsolicited", + "peer": "downstream-unsolicited", + "negotiated": "downstream-unsolicited" + }, + "next-keep-alive": 5, + "session-holdtime": { + "peer": 180, + "negotiated": 180, + "remaining": 78 + }, + "session-state": "operational", + "tcp-connection": { + "local-address": "fe80::200:5eff:fe00:5301", + "local-port": 646, + "remote-address": "fe80::200:5eff:fe00:5302", + "remote-port": 646 + }, + "up-time": 3438100, + "statistics": { + "discontinuity-time": "2018-09-10T15:16:27-05:00" + } + } + ] + } + } + } + ] + } + } + } + + Figure 14: Example Operational Data in JSON + +Acknowledgments + + The authors would like to acknowledge Eddie Chami, Nagendra Kumar, + Mannan Venkatesan, and Pavan Beeram for their contribution to this + document. + + We also acknowledge Ladislav Lhotka, Jan Lindblad, Tom Petch, + Yingzhen Qu, and Benjamin Kaduk for their detailed review of the + model during WG and IESG processes. + +Contributors + + Danial Johari + Cisco Systems + Email: dajohari@cisco.com + + + Loa Andersson + Huawei Technologies + Email: loa@pi.nu + + + Jeff Tantsura + Apstra + Email: jefftant.ietf@gmail.com + + + Matthew Bocci + Nokia + Email: matthew.bocci@nokia.com + + + Reshad Rahman + Email: reshad@yahoo.com + + + Stephane Litkowski + Cisco Systems + Email: slitkows@cisco.com + + +Authors' Addresses + + Kamran Raza (editor) + Cisco Systems + Canada + Email: skraza@cisco.com + + + Rajiv Asati + Cisco Systems + United States of America + Email: rajiva@cisco.com + + + Xufeng Liu + IBM Corporation + United States of America + Email: xufeng.liu.ietf@gmail.com + + + Santosh Easale + Juniper Networks + United States of America + Email: santosh_easale@berkeley.edu + + + Xia Chen + Huawei Technologies + China + Email: jescia.chenxia@huawei.com + + + Himanshu Shah + Ciena Corporation + United States of America + Email: hshah@ciena.com -- cgit v1.2.3