One document matched: draft-shah-bess-l2vpn-yang-00.txt
BESS Working Group H. Shah
Internet-Draft Ciena Corporation
Intended status: Standards Track P. Brissette
Expires: April 17, 2016 R. Rahman
K. Raza
Cisco Systems, Inc.
Z. Li
Z. Shunwan
W. Haibo
Huawei Technologies
I. Chen
Ericsson
M. Bocci
Alcatel-Lucent
J. Hardwick
Metaswitch
S. Esale
K. Tiruveedhula
T. Singh
Juniper Networks
I. Hussain
Infinera Corporation
B. Wen
J. Walker
Comcast
N. Delregno
L. Jalil
M. Joecylyn
Verizon
October 15, 2015
YANG Data Model for MPLS-based L2VPN
draft-shah-bess-l2vpn-yang-00.txt
Abstract
This document describes a YANG data model for Layer 2 VPN services
over MPLS networks. These services include Virtual Private Wire
Service (VPWS) and Virtual Private LAN service (VPLS) that uses LDP
and BGP signaled Pseudowires. The current version of the document
expands the L2VPN object model to include VPLS services in addition
to the VPWS services described in the last revision. This is a
living document and contains aspects of object models that have been
discussed extensively in the working group with consensus. The
intention is to continue to seek input from larger audience during
evolution of the L2VPN service model through this document.
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Status of This Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF). Note that other groups may also distribute
working documents as Internet-Drafts. The list of current Internet-
Drafts is at http://datatracker.ietf.org/drafts/current/.
Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
time. It is inappropriate to use Internet-Drafts as reference
material or to cite them other than as "work in progress."
This Internet-Draft will expire on April 17, 2016.
Copyright Notice
Copyright (c) 2015 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
(http://trustee.ietf.org/license-info) in effect on the date of
publication of this document. Please review these documents
carefully, as they describe your rights and restrictions with respect
to this document. Code Components extracted from this document must
include Simplified BSD License text as described in Section 4.e of
the Trust Legal Provisions and are provided without warranty as
described in the Simplified BSD License.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Specification of Requirements . . . . . . . . . . . . . . . . 4
3. L2VPN YANG Model . . . . . . . . . . . . . . . . . . . . . . 4
3.1. Overview . . . . . . . . . . . . . . . . . . . . . . . . 4
3.2. L2VPN Common . . . . . . . . . . . . . . . . . . . . . . 7
3.2.1. ac-templates . . . . . . . . . . . . . . . . . . . . 7
3.2.2. pw-templates . . . . . . . . . . . . . . . . . . . . 7
3.3. VPWS and VPLS . . . . . . . . . . . . . . . . . . . . . . 8
3.3.1. ac list . . . . . . . . . . . . . . . . . . . . . . . 8
3.3.2. pw list . . . . . . . . . . . . . . . . . . . . . . . 8
3.3.3. redundancy-grp choice . . . . . . . . . . . . . . . . 8
3.3.4. endpoint container . . . . . . . . . . . . . . . . . 8
3.3.5. vpws-instances and vpls-instances container . . . . . 9
4. YANG Module . . . . . . . . . . . . . . . . . . . . . . . . . 13
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5. Security Considerations . . . . . . . . . . . . . . . . . . . 30
6. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 30
7. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . 30
8. References . . . . . . . . . . . . . . . . . . . . . . . . . 30
8.1. Normative References . . . . . . . . . . . . . . . . . . 30
8.2. Informative References . . . . . . . . . . . . . . . . . 30
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 33
1. Introduction
The Network Configuration Protocol (NETCONF) [RFC6241] is a network
management protocol that defines mechanisms to manage network
devices. YANG [RFC6020] is a modular language that represents data
structures in an XML or JSON tree format, and is used as a data
modeling language for the NETCONF.
This document introduces a YANG data model for MPLS based Layer 2 VPN
services (L2VPN) [RFC4664] as well as switching between the local
attachment circuits. The L2VPN services include point-to-point VPWS
and Multipoint VPLS services. These services are realized by
signaling Pseudowires across MPLS networks using LDP
[RFC4447][RFC4762] or BGP[RFC4761].
The Yang data model in this document defines Ethernet based Layer 2
services. Other Layer 2 services, such as ATM, Frame Relay, TDM, etc
are included in the scope but will be covered as the future work
items. The Ethernet based Layer 2 services will leverage the
definitions used in other standards organizations such as IEEE 802.1
and Metro Ethernet Forum (MEF).
The goal is to propose a data object model consisting of building
blocks that can be assembled in different order to realize different
services. The definition work is undertaken initially by a smaller
working group with members representing various vendors and service
providers. The VPWS service definitions were covered first in the
last revision of the document. The current version documents VPLS
services that build on the data blocks defined for VPWS.
The data model is defined for following constructs that are used for
managing the services:
o Configuration
o Operational State
o Executables (Actions)
o Notifications
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The document is organized to first define the data model for the
configuration of all the L2VPN services followed by definition of
operational state, actions and notifications for the same. The L2VPN
data object model defined in this document uses the instance centric
approach. The attributes of each service, VPWS, VPLS, etc are
specified for a given service instance.
2. Specification of Requirements
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in [RFC2119].
3. L2VPN YANG Model
3.1. Overview
One single top level container, mpls-l2vpn, is defined as a parent
for three different second level containers that are vpws-instances,
vpls-instances, and common building blocks of AC-templates(Attachment
Circuit templates) and pseudowire-templates. The current version of
the document is extended to include vpls-instances.
The L2VPN services have been defined in the IETF L2VPN working group
but leverages the pseudowire technologies that were defined in the
PWE3 working group. A large number of RFCs from these working groups
cover this subject matter. Hence, it is prudent that this document
state the scope of the MPLS L2VPN object model definitions.
The following documents are within the scope. This is not an
exhaustive list but a representation of documents that are covered
for this work:
o Requirements for Pseudo-wire Emulation Edge-to-Edge (PWE3)
[RFC3916]
o Pseudo-wire Emulation Edge-to-Edge (PWE3) Architecture [RFC3985]
o IANA Allocations for Pseudowire Edge to Edge Emulation (PWE3)
[RFC4446]
o Pseudowire Setup and Maintenance Using the Label Distribution
Protocol (LDP) [RFC4447]
o Encapsulation Methods for Transport of Ethernet over MPLS Networks
[RFC4448]
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o Pseudowire Emulation Edge-to-Edge (PWE3) Control Word for Use over
an MPLS PSN [RFC4385]
o Requirements for Multi-Segment Pseudowire Emulation Edge-to-Edge
(PWE3) [RFC5254]
o An Architecture for Multi-Segment Pseudowire Emulation Edge-to-
Edge [RFC5659]
o Segmented Pseudowire [RFC6073]
o Framework for Layer 2 Virtual Private Networks [RFC4664]
o Service Requirements for Layer 2 Provider-Provisioned Virtual
Private Networks [RFC4665]
o Virtual Private LAN Service (VPLS) Using BGP for Auto-Discovery
and Signaling [RFC4761]
o Virtual Private LAN Service (VPLS) Using Label Distribution
Protocol (LDP) Signaling [RFC4762]
o Attachment Individual Identifier (AII) Types for Aggregation
[RFC5003]
o Provisioning, Auto-Discovery, and Signaling in Layer 2 Virtual
Private Networks (L2VPNs) [RFC6074]
o Flow-Aware Transport of Pseudowires over an MPLS Packet Switched
Network [RFC6391]
o Layer 2 Virtual Private Networks Using BGP for Auto-Discovery and
Signaling [RFC6624]
o Extensions to the Virtual Private LAN Service (VPLS) Provider Edge
(PE) Model for Provider Backbone Bridging [RFC7041]
o LDP Extensions for Optimized MAC Address Withdrawal in a
Hierarchical Virtual Private LAN Service (H-VPLS) [RFC7361]
o Using the generic associated channel label for Pseudowire in the
MPLS Transport Profile [RFC6423]
o Pseudowire status for static pseudowire [RFC6478]
Note that while pseudowire over MPLS-TP related work is in scope, the
initial effort will only address definitions of object models for
services that are commonly deployed.
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The ietf work in L2VPN and PWE3 working group relating to L2TP, OAM,
multicast (e.g. p2mp, etree, etc) and access specific protocols such
as G.8032, MSTP, etc is out-of-scope for this document.
The following is the high level view of the L2VPN data model.
template-ref AC // AC
template
attributes
template-ref PW // PW
template
attributes
vpls-instance name // container
common attributes
PBB-parameters // container
pbb specific attributes
BGP-parameters // container
common attributes
auto-discovery attributes
signaling attributes
// list of ACs and PWs being used
AC // container
template-ref AC
attribute-override
PW // container
template-ref PW
attribute-override
// List of endpoints, where each member endpoint container is -
AC // reference
PW // reference
redundancy-grp // container
AC // reference
PW // reference
vpws-instance name // container
common attributes
BGP-parameters // container
common attributes
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auto-discovery attributes
signaling attributes
AC-1 // container
template-ref AC
attribute-override
PW-2 // container
template-ref PW
attribute-override
PW-3 // container
template-ref PW
attribute-override
// ONLY 2 endpoints!!!
endpoint-A // container
AC-1 // reference
endpoint-Z // container
redundancy-grp // container
PW-2 // reference
PW-3 // reference
Figure 1
3.2. L2VPN Common
3.2.1. ac-templates
The ac-templates container contains a list of ac-template. Each ac-
template defines a list of AC attributes that are part of native
services but associated and processed within the context of L2VPN.
For instance, Ethernet VLAN tag imposition, disposition and
translation or CVID-bundling would be part of this template. The ac-
template defintion remains skeleton. More details will be
supplemented from the external documents prepared by MEF and
IEEE802.1
3.2.2. pw-templates
The pw-templates container contains a list of pw-template. Each pw-
template defines a list of common pseudowire attributes such as PW
MTU, control word support etc.
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3.3. VPWS and VPLS
3.3.1. ac list
Each VPWS and VPLS instance defines a list of AC that are
participating members of the given service instance. Each entry of
the AC consists of one ac-template with predefined attributes and
values, but also defines attributes that override the attributes
defined in referenced ac-template. The VPLS specific attribute(s)
are present in the definition of AC that are member of VPLS instance
only and not applicable to VPWS service.
3.3.2. pw list
Each VPWS and VPLS instance defines a list of PW which are
participating members of the given service instance. Each entry of
the PW consists of one pw-template with pre-defined attributes and
values, but also defines attributes that override those defined in
referenced pw-template.
No restrictions are placed on type of signaling (i.e. LDP or BGP)
used for a given PW. It is entirely possible to define two PWs, one
signaled by LDP and other by BGP.
The VPLS specific attribute(s) are present in the definition of the
PW that are member of VPLS instance only and not applicable to VPWS
service.
3.3.3. redundancy-grp choice
The redundancy-grp is a generic redundancy construct which can hold
primary and backup members of AC and PWs. This flexibility permits
combinations of -
o primary and backup AC
o primary and backup PW
o primary AC and backup PW
o primary PW and backup AC
3.3.4. endpoint container
The endpoint container in general holds AC, PW or redundancy-grp
references. The core aspect of endpoint container is its flexible
personality based on what user decides to include in it. It is
future-proofed with possible extensions that can be included in the
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endpoint container such as Integrated Route Bridging (IRB), PW
Headend, Virtual Switch Instance, etc.
The endpoint container for the VPLS service holds references to a
list of ACs, a list of PWs or a redundancy group that contains a list
of ACs and/or a list of PWs. This differs from the VPWS instance
where an endpoint contains exactly one member; AC or PW or redundancy
group and not a list.
3.3.5. vpws-instances and vpls-instances container
The vpws-instances container contains a list of vpws-instance. Each
entry of the vpws-instance represents a layer-2 cross-connection of
two endpoints. This model defines three possible types of endpoints,
ac, pw, and redundancy-grp, and allows a vpws-instance to cross-
connect any one type of endpoint to all other types of endpoint.
The vpls-instances container contains a list of vpls-instace. Each
entry of the vpls-instance represent a list of endpoints that are
member of the broadcast/bridge domain. The vpls-instance endpoints
introduces an additional forwarding characteristics to a list of PWs
and/or ACs. This split-horizon forwarding behavior is typical in
VPLS instance.
The augmentation of ietf-mpls-l2vpn module is TBD. All IP addresses
defined in this module are currently scoped under global VRF/table.
module: ietf-mpls-l2vpn
+--rw l2vpn
+--rw common
| +--rw pw-templates
| | +--rw pw-template* [name]
| | +--rw name string
| | +--rw mtu? uint32
| | +--rw cw-negotiation? cw-negotiation-type
| | +--rw tunnel-policy? string
| +--rw ac-templates
| +--rw ac-template* [name]
| +--rw name string
+--rw vpls-instances
| +--rw vpls-instance* [name]
| +--rw name string
| +--rw mac-withdraw? boolean
| +--rw pbb-parameters
| | +--rw component-type? pbb-component-type
| | +--rw bind-b-component? vpls-instance-ref
| | +--rw i-tag? uint32
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| | +--rw backbone-src-mac? yang:mac-address
| +--rw bgp-parameters
| | +--rw common
| | | +--rw route-distinguisher? string
| | | +--rw vpn-targets* [rt-value]
| | | +--rw rt-value string
| | | +--rw rt-type bgp-rt-type
| | +--rw discovery
| | | +--rw vpn-id? string
| | +--rw signaling
| | +--rw site-id? uint16
| | +--rw site-range? uint16
| +--rw pw* [name]
| | +--rw name string
| | +--rw split-horizon-group? string
| | +--rw template? pw-template-ref
| | +--rw discovery-type? l2vpn-discovery-type
| | +--rw signaling-type? l2vpn-signaling-type
| | +--rw peer-ip? inet:ip-address
| | +--rw pw-id? uint32
| | +--rw transmit-label? uint32
| | +--rw receive-label? uint32
| +--rw ac* [name]
| | +--rw name string
| | +--rw split-horizon-group? string
| | +--rw template? ac-template-ref
| +--rw endpoint* [id]
| +--rw id uint8
| +--rw split-horizon-group? string
| +--rw (ac-or-pw-or-redundancy-grp)?
| +--:(ac)
| | +--rw ac* [name]
| | +--rw name -> ../../../ac/name
| +--:(pw)
| | +--rw pw* [name]
| | +--rw name -> ../../../pw/name
| +--:(redundancy-grp)
| +--rw (primary)
| | +--:(primary-pw)
| | | +--rw primary-pw* [name]
| | | +--rw name -> ../../../pw/name
| | +--:(primary-ac)
| | +--rw primary-ac? -> ../../ac/name
| +--rw (backup)?
| | +--:(backup-pw)
| | | +--rw backup-pw* [name]
| | | +--rw name -> ../../../pw/name
| | | +--rw precedence? uint32
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| | +--:(backup-ac)
| | +--rw backup-ac? -> ../../ac/name
| +--rw protection-mode? enumeration
| +--rw reroute-mode? enumeration
| +--rw reroute-delay? uint16
| +--rw dual-receive? boolean
| +--rw revert? boolean
| +--rw revert-delay? uint16
+--rw vpws-instances
+--rw vpws-instance* [name]
+--rw name string
+--rw description? string
+--rw service-type? l2vpn-service-type
+--rw discovery-type? l2vpn-discovery-type
+--rw signaling-type l2vpn-signaling-type
+--rw bgp-parameters
| +--rw common
| | +--rw route-distinguisher? string
| | +--rw vpn-targets* [rt-value]
| | +--rw rt-value string
| | +--rw rt-type bgp-rt-type
| +--rw discovery
| | +--rw vpn-id? string
| +--rw signaling
| +--rw site-id? uint16
| +--rw site-range? uint16
+--rw pw* [name]
| +--rw name string
| +--rw cw-negotiation? cw-negotiation-type
| +--rw template? pw-template-ref
| +--rw vccv-ability? boolean
| +--rw tunnel-policy? string
| +--rw request-vlanid? uint16
| +--rw vlan-tpid? string
| +--rw ttl? uint8
| +--rw (pw-type)?
| +--:(ldp-pw)
| | +--rw peer-ip? inet:ip-address
| | +--rw pw-id? uint32
| | +--rw transmit-label? uint32
| | +--rw receive-label? uint32
| | +--rw icb? boolean
| +--:(bgp-pw)
| | +--rw remote-pe-id? inet:ip-address
| +--:(bgp-ad-pw)
| +--rw remote-ve-id? uint16
+--rw ac* [name]
| +--rw name string
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| +--rw template? ac-template-ref
| +--rw pipe-mode? enumeration
| +--rw link-discovery-protocol? link-discovery-protocol-type
+--rw endpoint-a
| +--rw (ac-or-pw-or-redundancy-grp)?
| +--:(ac)
| | +--rw ac? -> ../../ac/name
| +--:(pw)
| | +--rw pw? -> ../../pw/name
| +--:(redundancy-grp)
| +--rw (primary)
| | +--:(primary-pw)
| | | +--rw primary-pw? -> ../../pw/name
| | +--:(primary-ac)
| | +--rw primary-ac? -> ../../ac/name
| +--rw (backup)
| | +--:(backup-pw)
| | | +--rw backup-pw? -> ../../pw/name
| | +--:(backup-ac)
| | +--rw backup-ac? -> ../../ac/name
| +--rw protection-mode? enumeration
| +--rw reroute-mode? enumeration
| +--rw reroute-delay? uint16
| +--rw dual-receive? boolean
| +--rw revert? boolean
| +--rw revert-delay? uint16
+--rw endpoint-z
+--rw (ac-or-pw-or-redundancy-grp)?
+--:(ac)
| +--rw ac? -> ../../ac/name
+--:(pw)
| +--rw pw? -> ../../pw/name
+--:(redundancy-grp)
+--rw (primary)
| +--:(primary-pw)
| | +--rw primary-pw? -> ../../pw/name
| +--:(primary-ac)
| +--rw primary-ac? -> ../../ac/name
+--rw (backup)
| +--:(backup-pw)
| | +--rw backup-pw? -> ../../pw/name
| +--:(backup-ac)
| +--rw backup-ac? -> ../../ac/name
+--rw protection-mode? enumeration
+--rw reroute-mode? enumeration
+--rw reroute-delay? uint16
+--rw dual-receive? boolean
+--rw revert? boolean
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+--rw revert-delay? uint16
Figure 2
4. YANG Module
The L2VPN configuration container is logically divided into following
high level config areas:
<CODE BEGINS> file "ietf-mpls-l2vpn@2015-06-30.yang"
module ietf-mpls-l2vpn {
namespace "urn:ietf:params:xml:ns:yang:ietf-mpls-l2vpn";
prefix "l2vpn";
import ietf-inet-types {
prefix "inet";
}
import ietf-yang-types {
prefix "yang";
}
organization "ietf";
contact "ietf";
description "l2vpn";
revision "2015-10-15" {
description "Second revision " +
" - Added container vpls-instances " +
" - Rearranged groupings and typedefs to be reused " +
" across vpls-instance and vpws-instances";
reference "";
}
revision "2015-06-30" {
description "Initial revision";
reference "";
}
/* identities */
identity link-discovery-protocol {
description "Base identiy from which identities describing " +
"link discovery protocols are derived.";
}
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identity lacp {
base "link-discovery-protocol";
description "This identity represents LACP";
}
identity lldp {
base "link-discovery-protocol";
description "This identity represents LLDP";
}
identity bpdu {
base "link-discovery-protocol";
description "This identity represens BPDU";
}
identity cpd {
base "link-discovery-protocol";
description "This identity represents CPD";
}
identity udld {
base "link-discovery-protocol";
description "This identity represens UDLD";
}
/* typedefs */
typedef l2vpn-service-type {
type enumeration {
enum ethernet {
description "Ethernet service";
}
enum ATM {
description "Asynchronous Transfer Mode";
}
enum FR {
description "Frame-Relay";
}
enum TDM {
description "Time Division Multiplexing";
}
}
description "L2VPN service type";
}
typedef l2vpn-discovery-type {
type enumeration {
enum manual {
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description "Manual configuration";
}
enum bgp-ad {
description "Border Gateway Protocol (BGP) auto-discovery";
}
enum ldp {
description "Label Distribution Protocol (LDP)";
}
enum mixed {
description "Mixed";
}
}
description "L2VPN discovery type";
}
typedef l2vpn-signaling-type {
type enumeration {
enum static {
description "Static configuration of labels (no signaling)";
}
enum ldp {
description "Label Distribution Protocol (LDP) signaling";
}
enum bgp {
description "Border Gateway Protocol (BGP) signaling";
}
enum mixed {
description "Mixed";
}
}
description "L2VPN signaling type";
}
typedef bgp-rt-type {
type enumeration {
enum import {
description "For import";
}
enum export {
description "For export";
}
enum both {
description "For both import and export";
}
}
description "BGP route-target type. Import from BGP YANG";
}
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typedef cw-negotiation-type {
type enumeration {
enum "non-preferred" {
description "No preference for control-word";
}
enum "preferred" {
description "Prefer to have control-word negotiation";
}
}
description "control-word negotiation preference type";
}
typedef link-discovery-protocol-type {
type identityref {
base "link-discovery-protocol";
}
description "This type is used to identify " +
"link discovery protocol";
}
typedef pbb-component-type {
type enumeration {
enum "b-component" {
description "Identifies as a b-component";
}
enum "i-component" {
description "Identifies as an i-component";
}
}
description "This type is used to identify " +
"the type of PBB component";
}
typedef pw-template-ref {
type leafref {
path "/l2vpn/common/pw-templates/pw-template/name";
}
description "pw-template-ref";
}
typedef ac-template-ref {
type leafref {
path "/l2vpn/common/ac-templates/ac-template/name";
}
description "ac-tempalte-ref";
}
typedef vpls-instance-ref {
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type leafref {
path "/l2vpn/vpls-instances/vpls-instance/name";
}
description "vpls-instance-ref";
}
/* groupings */
grouping pbb-parameters-grp {
description "PBB parameters grouping";
container pbb-parameters {
description "pbb-parameters";
leaf component-type {
type pbb-component-type;
description "PBB component type";
}
leaf bind-b-component {
when "../component-type = 'i-component'" {
description "Only applies to an i-component";
}
type vpls-instance-ref;
description "Reference to the associated b-component";
}
leaf i-tag {
type uint32;
description "i-tag";
}
leaf backbone-src-mac {
type yang:mac-address;
description "backbone-src-mac";
}
}
}
grouping bgp-parameters-grp {
description "BGP parameters grouping";
container bgp-parameters {
description "Parameters for BGP";
container common {
when "../../discovery-type = 'bgp-ad'" {
description "Check discovery type: " +
"Can only configure BGP discovery if " +
"discovery type is BGP-AD";
}
description "Common BGP parameters";
leaf route-distinguisher {
type string;
description "BGP RD";
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}
list vpn-targets {
key rt-value;
description "Route Targets";
leaf rt-value {
type string;
description "Route-Target value";
}
leaf rt-type {
type bgp-rt-type;
mandatory true;
description "Type of RT";
}
}
}
container discovery {
when "../../discovery-type = 'bgp-ad'" {
description "BGP parameters for discovery: " +
"Can only configure BGP discovery if " +
"discovery type is BGP-AD";
}
description "BGP parameters for discovery";
leaf vpn-id {
type string;
description "VPN ID";
}
}
container signaling {
when "../../signaling-type = 'bgp'" {
description "Check signaling type: " +
"Can only configure BGP signaling if " +
"signaling type is BGP";
}
description "BGP parameters for signaling";
leaf site-id {
type uint16;
description "Site ID";
}
leaf site-range {
type uint16;
description "Site Range";
}
}
}
}
grouping pw-type-grp {
description "pseudowire type grouping";
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choice pw-type {
description "A choice of pseudowire type";
case ldp-pw {
leaf peer-ip {
type inet:ip-address;
description "peer IP address";
}
leaf pw-id {
type uint32;
description "pseudowire id";
}
leaf transmit-label {
type uint32;
description "transmit lable";
}
leaf receive-label {
type uint32;
description "receive label";
}
leaf icb {
type boolean;
description "inter-chassis backup";
}
}
case bgp-pw {
leaf remote-pe-id {
type inet:ip-address;
description "remote pe id";
}
}
case bgp-ad-pw {
leaf remote-ve-id {
type uint16;
description "remote ve id";
}
}
}
}
grouping vpls-pw-list-grp {
description "vpls-pw-list-grp";
list pw {
key "name";
leaf name {
type leafref {
path "../../../pw/name";
}
description "name of pseudowire";
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}
description "vpls pseudowire list";
}
}
grouping vpls-ac-list-grp {
description "vpls-ac-list-grp";
list ac {
key "name";
leaf name {
type leafref {
path "../../../ac/name";
}
description "Reference to an attachment circuit";
}
description "vpls attachment circuit list";
}
}
grouping redundancy-group-properties-grp {
description "redundancy-group-properties-grp";
leaf protection-mode {
type enumeration {
enum "frr" {
value 0;
description "fast reroute";
}
enum "master-slave" {
value 1;
description "master-slave";
}
enum "independent" {
value 2;
description "independent";
}
}
description "protection-mode";
}
leaf reroute-mode {
type enumeration {
enum "immediate" {
value 0;
description "immediate reroute";
}
enum "delayed" {
value 1;
description "delayed reroute";
}
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enum "never" {
value 2;
description "never reroute";
}
}
description "reroute-mode";
}
leaf reroute-delay {
when "../reroute-mode = 'delayed'" {
description "Specify amount of time to delay reroute " +
"only when delayed route is configured";
}
type uint16;
description "amount of time to delay reroute";
}
leaf dual-receive {
type boolean;
description
"allow extra traffic to be carried by backup";
}
leaf revert {
type boolean;
description "allow forwarding to revert to primary " +
"after restoring primary";
/* This is called "revertive" during the discussion. */
}
leaf revert-delay {
when "../revert = 'true'" {
description "Specify the amount of time to wait to revert " +
"to primary only if reversion is configured";
}
type uint16;
description "amount ot time to wait to revert to primary";
/* This is called "wtr" during discussion. */
}
}
grouping vpls-endpoint-grp {
description "A vpls endpoint";
choice ac-or-pw-or-redundancy-grp {
description "A choice ofattachment circuit or " +
"pseudowire or redundancy group";
case ac {
uses vpls-ac-list-grp;
description "reference to attachment circuits";
}
case pw {
uses vpls-pw-list-grp;
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description "reference to pseudowires";
}
case redundancy-grp {
choice primary {
mandatory true;
description "primary options";
case primary-pw {
description "primary-pw";
list primary-pw {
key "name";
leaf name {
type leafref {
path "../../../pw/name";
}
description "Reference a pseudowire";
}
description "A list of primary pseudowires";
}
}
case primary-ac {
description "primary-ac";
leaf primary-ac {
type leafref {
path "../../ac/name";
}
description "Reference an attachment circuit";
}
}
}
choice backup {
description "backup options";
case backup-pw {
list backup-pw {
key "name";
leaf name {
type leafref {
path "../../../pw/name";
}
description "Reference an attachment circuit";
}
leaf precedence {
type uint32;
description "precedence of the pseudowire";
}
description "A list of backup pseudowires";
}
}
case backup-ac {
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leaf backup-ac {
type leafref {
path "../../ac/name";
}
description "Reference an attachment circuit";
}
description "backup-ac";
}
}
uses redundancy-group-properties-grp;
}
}
}
grouping vpws-endpoint-grp {
description
"A vpws-endpoint could either be an ac or a pw";
choice ac-or-pw-or-redundancy-grp {
description "A choice ofattachment circuit or " +
"pseudowire or redundancy group";
case ac {
leaf ac {
type leafref {
path "../../ac/name";
}
description "reference to an attachment circuit";
}
}
case pw {
leaf pw {
type leafref {
path "../../pw/name";
}
description "reference to a pseudowire";
}
}
case redundancy-grp {
choice primary {
mandatory true;
description "primary options";
case primary-pw {
leaf primary-pw {
type leafref {
path "../../pw/name";
}
description "primary pseudowire";
}
}
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case primary-ac {
leaf primary-ac {
type leafref {
path "../../ac/name";
}
description "primary attachment circuit";
}
}
}
choice backup {
mandatory true;
description "backup options";
case backup-pw {
leaf backup-pw {
type leafref {
path "../../pw/name";
}
description "backup pseudowire";
}
}
case backup-ac {
leaf backup-ac {
type leafref {
path "../../ac/name";
}
description "backup attachment circuit";
}
}
}
uses redundancy-group-properties-grp;
}
}
}
/* We can define vpls-endpoing-grp that has the same structure as
* vpws-endpoing-grp, but has more endpoint options.
*/
/* L2VPN YANG Model */
container l2vpn {
description "l2vpn";
container common {
description "common l2pn attributes";
container pw-templates {
description "pw-templates";
list pw-template {
key "name";
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description "pw-template";
leaf name {
type string;
description "name";
}
leaf mtu {
type uint32;
description "pseudowire mtu";
}
leaf cw-negotiation {
type cw-negotiation-type;
default "preferred";
description
"control-word negotiation preference";
}
leaf tunnel-policy {
type string;
description "tunnel policy name";
}
}
}
container ac-templates {
description "attachment circuit templates";
/* To be fleshed out in future revisions */
list ac-template {
key "name";
description "ac-template";
leaf name {
type string;
description "name";
}
}
}
}
container vpls-instances {
/* To be fleshed out in future revisions */
description "vpls-instances";
list vpls-instance {
key "name";
description "A VPLS instance";
leaf name {
type string;
description "Name of a VPLS instance";
}
leaf mac-withdraw {
type boolean;
description "Withdraw MAC";
}
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uses pbb-parameters-grp;
uses bgp-parameters-grp;
list pw {
key "name";
description "pseudowire";
leaf name {
type string;
description "pseudowire name";
}
leaf split-horizon-group {
type string;
description "Identify a split horizon group";
}
leaf template {
type pw-template-ref;
description "pseudowire template";
}
leaf discovery-type {
type l2vpn-discovery-type;
description "VPLS discovery type";
}
leaf signaling-type {
type l2vpn-signaling-type;
description "VPLS signaling type";
}
leaf peer-ip {
type inet:ip-address;
description "peer IP address";
}
leaf pw-id {
type uint32;
description "pseudowire id";
}
leaf transmit-label {
type uint32;
description "transmit lable";
}
leaf receive-label {
type uint32;
description "receive label";
}
}
list ac {
key "name";
description "attachment circuit";
leaf name {
type string;
description "name";
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}
leaf split-horizon-group {
type string;
description "Identify a split horizon group";
}
leaf template {
type ac-template-ref;
description "attachment circuit template";
}
}
list endpoint {
key "id";
leaf id {
type uint16;
description "endpoint ID";
}
leaf split-horizon-group {
type string;
description "Identify a split horizon group";
}
uses vpls-endpoint-grp;
description "List of endpoints";
}
}
}
container vpws-instances {
description "vpws-instances";
list vpws-instance {
key "name";
description "A VPWS instance";
leaf name {
type string;
description "Name of VPWS instance";
}
leaf description {
type string;
description "Description of the VPWS instance";
}
leaf service-type {
type l2vpn-service-type;
default ethernet;
description "VPWS service type";
}
leaf discovery-type {
type l2vpn-discovery-type;
default manual;
description "VPWS discovery type";
}
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leaf signaling-type {
type l2vpn-signaling-type;
mandatory true;
description "VPWS signaling type";
}
uses bgp-parameters-grp;
list pw {
key "name";
description "pseudowire";
leaf name {
type string;
description "pseudowire name";
}
leaf cw-negotiation {
type cw-negotiation-type;
default "preferred";
description "Override the control-word negotiation " +
"preference specified in the " +
"pseudowire template.";
}
leaf template {
type pw-template-ref;
description "pseudowire template";
}
leaf vccv-ability {
type boolean;
description "vccvability";
}
leaf tunnel-policy {
type string;
description "Used to override the tunnel policy name " +
"specified in the pseduowire template";
}
leaf request-vlanid {
type uint16;
description "request vlanid";
}
leaf vlan-tpid {
type string;
description "vlan tpid";
}
leaf ttl {
type uint8;
description "time-to-live";
}
uses pw-type-grp;
}
list ac {
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key "name";
description "attachment circuit";
leaf name {
type string;
description "name";
}
leaf template {
type ac-template-ref;
description "attachment circuit template";
}
leaf pipe-mode {
type enumeration {
enum "pipe" {
value 0;
description "regular pipe mode";
}
enum "short-pipe" {
value 1;
description "short pipe mode";
}
enum "uniform" {
value 2;
description "uniform pipe mode";
}
}
description "pipe mode";
}
leaf link-discovery-protocol {
type link-discovery-protocol-type;
description "link discovery protocol";
}
}
container endpoint-a {
description "endpoint-a";
uses vpws-endpoint-grp;
}
container endpoint-z {
description "endpoint-z";
uses vpws-endpoint-grp;
}
}
}
}
}
<CODE ENDS>
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Figure 3
5. Security Considerations
The configuration, state, action and notification data defined in
this document are designed to be accessed via the NETCONF protocol
[RFC6241]. The lowest NETCONF layer is the secure transport layer
and the mandatory-to-implement secure transport is SSH [RFC6242].
The NETCONF access control model [RFC6536] provides means to restrict
access for particular NETCONF users to a pre-configured subset of all
available NETCONF protocol operations and content.
The security concerns listed above are, however, no different than
faced by other routing protocols. Hence, this draft does not change
any underlying security issues inherent in [I-D.ietf-netmod-routing-
cfg]
6. IANA Considerations
None.
7. Acknowledgments
The authors would like to acknowledge TBD for their useful comments.
8. References
8.1. Normative References
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119,
DOI 10.17487/RFC2119, March 1997,
<http://www.rfc-editor.org/info/rfc2119>.
8.2. Informative References
[RFC3916] Xiao, X., Ed., McPherson, D., Ed., and P. Pate, Ed.,
"Requirements for Pseudo-Wire Emulation Edge-to-Edge
(PWE3)", RFC 3916, DOI 10.17487/RFC3916, September 2004,
<http://www.rfc-editor.org/info/rfc3916>.
[RFC3985] Bryant, S., Ed. and P. Pate, Ed., "Pseudo Wire Emulation
Edge-to-Edge (PWE3) Architecture", RFC 3985,
DOI 10.17487/RFC3985, March 2005,
<http://www.rfc-editor.org/info/rfc3985>.
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[RFC4385] Bryant, S., Swallow, G., Martini, L., and D. McPherson,
"Pseudowire Emulation Edge-to-Edge (PWE3) Control Word for
Use over an MPLS PSN", RFC 4385, DOI 10.17487/RFC4385,
February 2006, <http://www.rfc-editor.org/info/rfc4385>.
[RFC4446] Martini, L., "IANA Allocations for Pseudowire Edge to Edge
Emulation (PWE3)", BCP 116, RFC 4446,
DOI 10.17487/RFC4446, April 2006,
<http://www.rfc-editor.org/info/rfc4446>.
[RFC4447] Martini, L., Ed., Rosen, E., El-Aawar, N., Smith, T., and
G. Heron, "Pseudowire Setup and Maintenance Using the
Label Distribution Protocol (LDP)", RFC 4447,
DOI 10.17487/RFC4447, April 2006,
<http://www.rfc-editor.org/info/rfc4447>.
[RFC4448] Martini, L., Ed., Rosen, E., El-Aawar, N., and G. Heron,
"Encapsulation Methods for Transport of Ethernet over MPLS
Networks", RFC 4448, DOI 10.17487/RFC4448, April 2006,
<http://www.rfc-editor.org/info/rfc4448>.
[RFC4664] Andersson, L., Ed. and E. Rosen, Ed., "Framework for Layer
2 Virtual Private Networks (L2VPNs)", RFC 4664,
DOI 10.17487/RFC4664, September 2006,
<http://www.rfc-editor.org/info/rfc4664>.
[RFC4665] Augustyn, W., Ed. and Y. Serbest, Ed., "Service
Requirements for Layer 2 Provider-Provisioned Virtual
Private Networks", RFC 4665, DOI 10.17487/RFC4665,
September 2006, <http://www.rfc-editor.org/info/rfc4665>.
[RFC4761] Kompella, K., Ed. and Y. Rekhter, Ed., "Virtual Private
LAN Service (VPLS) Using BGP for Auto-Discovery and
Signaling", RFC 4761, DOI 10.17487/RFC4761, January 2007,
<http://www.rfc-editor.org/info/rfc4761>.
[RFC4762] Lasserre, M., Ed. and V. Kompella, Ed., "Virtual Private
LAN Service (VPLS) Using Label Distribution Protocol (LDP)
Signaling", RFC 4762, DOI 10.17487/RFC4762, January 2007,
<http://www.rfc-editor.org/info/rfc4762>.
[RFC5003] Metz, C., Martini, L., Balus, F., and J. Sugimoto,
"Attachment Individual Identifier (AII) Types for
Aggregation", RFC 5003, DOI 10.17487/RFC5003, September
2007, <http://www.rfc-editor.org/info/rfc5003>.
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[RFC5254] Bitar, N., Ed., Bocci, M., Ed., and L. Martini, Ed.,
"Requirements for Multi-Segment Pseudowire Emulation Edge-
to-Edge (PWE3)", RFC 5254, DOI 10.17487/RFC5254, October
2008, <http://www.rfc-editor.org/info/rfc5254>.
[RFC5659] Bocci, M. and S. Bryant, "An Architecture for Multi-
Segment Pseudowire Emulation Edge-to-Edge", RFC 5659,
DOI 10.17487/RFC5659, October 2009,
<http://www.rfc-editor.org/info/rfc5659>.
[RFC6020] Bjorklund, M., Ed., "YANG - A Data Modeling Language for
the Network Configuration Protocol (NETCONF)", RFC 6020,
DOI 10.17487/RFC6020, October 2010,
<http://www.rfc-editor.org/info/rfc6020>.
[RFC6073] Martini, L., Metz, C., Nadeau, T., Bocci, M., and M.
Aissaoui, "Segmented Pseudowire", RFC 6073,
DOI 10.17487/RFC6073, January 2011,
<http://www.rfc-editor.org/info/rfc6073>.
[RFC6074] Rosen, E., Davie, B., Radoaca, V., and W. Luo,
"Provisioning, Auto-Discovery, and Signaling in Layer 2
Virtual Private Networks (L2VPNs)", RFC 6074,
DOI 10.17487/RFC6074, January 2011,
<http://www.rfc-editor.org/info/rfc6074>.
[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,
<http://www.rfc-editor.org/info/rfc6241>.
[RFC6242] Wasserman, M., "Using the NETCONF Protocol over Secure
Shell (SSH)", RFC 6242, DOI 10.17487/RFC6242, June 2011,
<http://www.rfc-editor.org/info/rfc6242>.
[RFC6391] Bryant, S., Ed., Filsfils, C., Drafz, U., Kompella, V.,
Regan, J., and S. Amante, "Flow-Aware Transport of
Pseudowires over an MPLS Packet Switched Network",
RFC 6391, DOI 10.17487/RFC6391, November 2011,
<http://www.rfc-editor.org/info/rfc6391>.
[RFC6423] Li, H., Martini, L., He, J., and F. Huang, "Using the
Generic Associated Channel Label for Pseudowire in the
MPLS Transport Profile (MPLS-TP)", RFC 6423,
DOI 10.17487/RFC6423, November 2011,
<http://www.rfc-editor.org/info/rfc6423>.
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[RFC6478] Martini, L., Swallow, G., Heron, G., and M. Bocci,
"Pseudowire Status for Static Pseudowires", RFC 6478,
DOI 10.17487/RFC6478, May 2012,
<http://www.rfc-editor.org/info/rfc6478>.
[RFC6536] Bierman, A. and M. Bjorklund, "Network Configuration
Protocol (NETCONF) Access Control Model", RFC 6536,
DOI 10.17487/RFC6536, March 2012,
<http://www.rfc-editor.org/info/rfc6536>.
[RFC6624] Kompella, K., Kothari, B., and R. Cherukuri, "Layer 2
Virtual Private Networks Using BGP for Auto-Discovery and
Signaling", RFC 6624, DOI 10.17487/RFC6624, May 2012,
<http://www.rfc-editor.org/info/rfc6624>.
[RFC7041] Balus, F., Ed., Sajassi, A., Ed., and N. Bitar, Ed.,
"Extensions to the Virtual Private LAN Service (VPLS)
Provider Edge (PE) Model for Provider Backbone Bridging",
RFC 7041, DOI 10.17487/RFC7041, November 2013,
<http://www.rfc-editor.org/info/rfc7041>.
[RFC7361] Dutta, P., Balus, F., Stokes, O., Calvignac, G., and D.
Fedyk, "LDP Extensions for Optimized MAC Address
Withdrawal in a Hierarchical Virtual Private LAN Service
(H-VPLS)", RFC 7361, DOI 10.17487/RFC7361, September 2014,
<http://www.rfc-editor.org/info/rfc7361>.
Authors' Addresses
Himanshu Shah
Ciena Corporation
Email: hshah@ciena.com
Patrice Brissette
Cisco Systems, Inc.
Email: pbrisset@cisco.com
Reshad Rahman
Cisco Systems, Inc.
Email: rrahman@cisco.com
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Kamran Raza
Cisco Systems, Inc.
Email: skraza@cisco.com
Zhenbin Li
Huawei Technologies
Email: lizhenbin@huawei.com
Zhuang Shunwan
Huawei Technologies
Email: Zhuangshunwan@huawei.com
Wang Haibo
Huawei Technologies
Email: rainsword.wang@huawei.com
Ing-When Chen
Ericsson
Email: ing-wher.chen@ericsson.com
Mathew Bocci
Alcatel-Lucent
Email: mathew.bocci@alcatel-lucent.com
Jonathan Hardwick
Metaswitch
Email: jonathan.hardwick@metaswitch.com
Santosh Esale
Juniper Networks
Email: sesale@juniper.net
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Kishore Tiruveedhula
Juniper Networks
Email: kishoret@juniper.net
Tapraj Singh
Juniper Networks
Email: tsingh@juniper.net
Iftekar Hussain
Infinera Corporation
Email: ihussain@infinera.com
Bin Wen
Comcast
Email: Bin_Wen@cable.comcast.com
Jason Walker
Comcast
Email: jason_walker2@cable.comcast.com
Nick Delregno
Verizon
Email: nick.deregno@verizon.com
Luay Jalil
Verizon
Email: luay.jalil@verizon.com
Maria Joecylyn
Verizon
Email: joecylyn.malit@verizon.com
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