Internet DRAFT - draft-ietf-opsawg-sap
draft-ietf-opsawg-sap
OPSAWG M. Boucadair, Ed.
Internet-Draft Orange
Intended status: Standards Track O. Gonzalez de Dios
Expires: 22 July 2023 Telefonica
S. Barguil
Nokia
Q. Wu
Huawei
V. Lopez
Nokia
18 January 2023
A YANG Network Model for Service Attachment Points (SAPs)
draft-ietf-opsawg-sap-15
Abstract
This document defines a YANG data model for representing an abstract
view of the provider network topology that contains the points from
which its services can be attached (e.g., basic connectivity, VPN,
network slices). Also, the model can be used to retrieve the points
where the services are actually being delivered to customers
(including peer networks).
This document augments the 'ietf-network' data model by adding the
concept of Service Attachment Points (SAPs). The SAPs are the
network reference points to which network services, such as Layer 3
Virtual Private Network (L3VPN) or Layer 2 Virtual Private Network
(L2VPN), can be attached. One or multiple services can be bound to
the same SAP. Both User-Network Interface (UNI) and Network-to-
Network Interface (NNI) are supported in the SAP data model.
Status of This Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF). Note that other groups may also distribute
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material or to cite them other than as "work in progress."
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This Internet-Draft will expire on 22 July 2023.
Copyright Notice
Copyright (c) 2023 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 . . . . . . . . . . . . . . . . . . . . . . . . 2
2. Terminology . . . . . . . . . . . . . . . . . . . . . . . . . 4
3. Sample SAP Network Model Usage . . . . . . . . . . . . . . . 5
4. Relationship to Other YANG Data Models . . . . . . . . . . . 8
5. SAP Module Tree Structure . . . . . . . . . . . . . . . . . . 9
6. SAP YANG Module . . . . . . . . . . . . . . . . . . . . . . . 14
7. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 21
8. Security Considerations . . . . . . . . . . . . . . . . . . . 22
9. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 23
10. References . . . . . . . . . . . . . . . . . . . . . . . . . 23
10.1. Normative References . . . . . . . . . . . . . . . . . . 23
10.2. Informative References . . . . . . . . . . . . . . . . . 25
Appendix A. A Simplified SAP Network Example . . . . . . . . . . 28
Appendix B. A Simple Example of SAP Network Model: Node
Filter . . . . . . . . . . . . . . . . . . . . . . . . . 33
Appendix C. An Example of NNI SAP: Inter-AS VPN Option A . . . . 38
Appendix D. Examples of Using the SAP Network Model in Service
Creation . . . . . . . . . . . . . . . . . . . . . . . . 42
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 43
1. Introduction
Service providers offer a variety of network services to their
customers. Such services include, but are not limited to, Virtual
Private Networks (VPNs), Software-Defined Wide Area Network (SDWAN)
[I-D.ietf-bess-bgp-sdwan-usage], and network slices
[I-D.ietf-teas-ietf-network-slices]. In order to rationalize the
overall service operations and allow for more automated service
provisioning procedures, service providers need to maintain a view on
where services can be delivered to customers. Such a view can be
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used, e.g., to feed an intelligence that is responsible for service
order handling, service feasibility checks, tracking per-service
coverage, etc. (e.g., Section 3.2 of [RFC8969]). To that aim, this
document introduces the concept of Service Attachment Points (SAPs).
The SAPs represent the network reference points where network
services can be delivered to customers. For example, this concept is
used to decide where to attach and, thus, deliver the service in the
Layer 3 VPN Service Model (L3SM) [RFC8299] and the Layer 2 VPN
Service Model (L2SM) [RFC8466]. It can also be used to retrieve
where such services are delivered to customers through the network
configuration described in the Layer 3 VPN Network Model (L3NM)
[RFC9182] and the Layer 2 VPN Network Model (L2NM) [RFC9291].
This document defines a YANG network model (Section 6) for
representing, managing, and controlling the SAPs. The data model
augments the 'ietf-network' module [RFC8345] by adding the concept of
SAPs. Section 3 provides a sample usage of the model. This document
explains the scope and purpose of a SAP network model and its
relation with other models (Section 4).
A network may support multiple services, potentially of different
types. Whether a SAP topology is dedicated to services of a specific
service type, an individual service, or shared among many services of
different types is deployment specific. This document supports all
of these deployment schemes.
This document does not make any assumption about the services
provided by a network to its users. VPN services (e.g., Layer 3
Virtual Private Network (L3VPN) or Layer 2 Virtual Private Network
(L2VPN)) [RFC4026] are used for illustration purposes (Appendices A
and B).
Given that User-Network Interface (UNI) and Network-to-Network
Interface (NNI) are reference points that are widely used by
operators to indicate the demarcation points when delivering
services, both UNI and NNI SAPs are supported in the document. The
reader may refer, e.g., to [MEF6], [MEF17], [RFC6004], or [RFC6215]
for a discussion on the use of UNI and NNI reference points. An
example of NNI usage in a VPN context is provided in Appendix C.
The YANG data model in Section 6 conforms to the Network Management
Datastore Architecture (NMDA) [RFC8342].
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2. Terminology
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in BCP
14 [RFC2119] [RFC8174] when, and only when, they appear in all
capitals, as shown here.
This document assumes that the reader is familiar with the contents
of [RFC6241], [RFC7950], [RFC8345], and [RFC8309]. The document uses
terms from those documents.
The meanings of the symbols in tree diagrams are defined in
[RFC8340].
This document uses the term "network model" defined in Section 2.1 of
[RFC8969].
This document uses the following terms:
Service provider: The organization responsible for operating the
network that offers a service (e.g., a VPN) to customers.
Attachment Circuit (AC): A channel that connects a Customer Edge
(CE) to a Provider Edge (PE). The AC may be a physical or logical
link (Section 6.1 of [RFC4026]).
Customer Edge (CE): Equipment that is dedicated to a particular
customer and is directly connected to one or more PEs via ACs. A
CE is usually located at the customer premises. A CE may be
dedicated to a single service (e.g., L3VPN), although it may
support multiple VPNs if each one has separate attachment
circuits. A CE can be a router, a bridge, a switch, etc.
Provider Edge (PE): Equipment owned and managed by the service
provider that can support multiple services (e.g., VPNs) for
different customers. A PE is directly connected to one or more
CEs via ACs.
Service Attachment Points (SAPs): An abstraction of the network
reference points (e.g., PE side of an AC, CE side of an AC for a
provider-managed CE) where network services can be delivered and/
or are delivered to customers. A SAP can be bound to one or
multiple ACs.
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3. Sample SAP Network Model Usage
Management operations of a service provider network can be automated
using a variety of means such as interfaces based on YANG modules
[RFC8969][RFC6241][RFC8040]. From that standpoint, and considering
the architecture depicted in Figure 1, a goal of this document is to
provide a mechanism to show via a YANG-based interface an abstracted
network view from the network controller to the service orchestration
layer with a focus on where a service can be delivered to customers.
The model is also used to retrieve the network reference points where
a service is being delivered to customers. For services that require
resources from peer networks, the module can also be used to expose
NNIs.
+-----------------+
| Customer |
+--------+--------+
Customer Service Models |
(e.g., L3SM, L2SM) |
+--------+--------+
| Service |
| Orchestration |
+------+---+------+
Network Models | | SAP Network Model
(e.g., L3NM, L2NM) | |
+------+---+------+
| Network |
| Controller |
+--------+--------+
|
+---------------------+---------------------+
| Network |
+-------------------------------------------+
Figure 1: SAP Network Model Usage
The reader may refer to Section 5 of [RFC4026] for an overview of the
building blocks that are usually invoked when characterizing a
service provider network.
The service orchestration layer does not need to know about all the
internals of the underlying network (e.g., P nodes). Figure 2 shows
the abstract network view as seen by a service orchestrator.
However, this view is not enough to provide to the service
orchestration layer the information to create services in the
network. The service topology need is to be able to expose the set
of nodes and the attachment points associated with the nodes from
which network services can be grafted (delivered).
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.---------. .---------.
| PE1 | | PE2 |
'---------' '---------'
\ /
\------/
( )
( )
( )
/------\
/ \
.---------. .---------.
| PE3 | | PE4 |
'---------' '---------'
Figure 2: Abstract Network Topology
Typically, and focusing on the UNIs, the service orchestration layer
would see a set of PEs and a set of client-facing interfaces
(physical or logical) to which CEs can be connected (or are actually
connected). Such interfaces are also referred to as UNI-N (User-to-
Network Interface, Network side) [RFC6215]. The service
orchestration layer can use these interfaces to set up the requested
services or to commit the delivery of a service. Figure 3 depicts a
sample SAP network topology that is maintained by the network
controller and exposed to the service orchestration.
.-+-. .-+-. .-+-. .-+-. .-+-.
.-|sap|-|sap|-|sap|-. .-|sap|-------|sap|-.
| '---' '---' '---' | | '---' '---' |
.---. | | |
|sap| PE1 | | PE2 |
'---' | | |
| | | |
'-------------------' '-------------------'
.-------------------. .-------------------.
| | | |
| | | .---.
| PE3 | | PE4 |sap|
| | | '---'
| .---. .---. .---. | | .---. .---. .---. |
'-|sap|-|sap|-|sap|-' '-|sap|-|sap|-|sap|-'
'-+-' '-+-' '-+-' '-+-' '-+-' '-+-'
Figure 3: A SAP Network Topology
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A single SAP network topology can be used for one or multiple service
types (e.g., L3VPN, Ethernet VPN (EVPN)). The network controller
can, then, expose the service types and associated interfaces via the
SAPs.
As shown in Figure 4, the service orchestration layer will have also
access to a set of customer service model (e.g., the L3SM or the
L2SM) in the customer-facing interface and a set of network models
(e.g., the L3NM and network topology data models) in the resource-
facing interface. In this use case, it is assumed that the network
controller is unaware of what happens beyond the PEs towards the CEs;
it is only responsible for the management and control of the SAPs and
the network between PEs. In order to correlate between delivery
points expressed in service requests and SAPs, the SAP model may
include a peer customer point identifier. That identifier can be a
CE identifier, a site identifier, etc.
.---.
|CE2|
'-+-'
|
.-+-. .-+-. .-+-. .-+-. .-+-.
.-|sap|-|sap|-|sap|-. .-|sap|-------|sap|-.
| '---' '---' '---' | | '---' '---' |
.---. .---. | | |
|CE1+--+sap| PE1 | | PE2 |
'---' '---' | | |
| | | |
'-------------------' '-------------------'
.-------------------. .-------------------.
| | | |
| | | .---. .---.
| PE3 | | PE4 |sap+--+CE5|
| | | '---' '---'
| .---. .---. .---. | | .---. .---. .---. |
'-|sap|-|sap|-|sap|-' '-|sap|-|sap|-|sap|-'
'-+-' '-+-' '-+-' '-+-' '-+-' '-+-'
| | |
.-+-. | .-+-.
|CE3+----------------' |CE4|
'---' '---'
Figure 4: Network Topology with CEs and ACs
Refer to Appendix A for an example echoing the topology depicted in
Figure 4.
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4. Relationship to Other YANG Data Models
The SAP network model can be seen as inventory data associated with
SAPs. The model maintains an inventory of customer-facing nodes
contained in a network relying upon [RFC8345].
+-------------------------+
| |
| Abstract Network Model |
| |
+------------+------------+
|
+---------+---------+
| |
+------V------+ +------V------+
| Abstract | | Inventory |
| Network | | Models |
| Topology | | e.g., SAP |
| Model | | Network |
| | | Model |
+-----+-------+ +-------------+
|
+-----------+-----------+
| | |
+----V----+ +----V----+ +----V----+
|TE Topo | |L3 Topo | |L2 Topo |
| Model | | Model | | Model | ...
+---------+ +---------+ +---------+
Figure 5: Relation of SAP Network Model to Other Models
Figure 5 depicts the relationship of the SAP network model to other
models. The SAP network model augments the Network model [RFC8345]
and imports the Network Topology model, while other technology-
specific topology models (e.g., Traffic Engineering (TE) Topologies
model [RFC8795] or Layer 3 Topologies model [RFC8346]) augment the
Network Topology model.
SAPs can be seen as customer-facing termination points (TPs) with
specific service provisions. However, a difference between SAPs and
TPs is that links are terminated by a single TP (Section 4.4.6 of
[RFC8345]) while an AC can be terminated by multiple SAPs. Also, a
SAP is not a tunnel termination point (TTP) (Section 3.6 of
[RFC8795]) nor a link.
In the context of Software-Defined Networking (SDN)
[RFC7149][RFC7426], the SAP YANG data model can be used to exchange
information between control elements, so as to support VPN service
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provision and resource management discussed in [RFC9182][RFC9291].
Through this data model, the service orchestration layer can learn
the available endpoints (i.e., SAPs) of interconnection resources of
the underlying network. The service orchestration layer can
determine which interconnection endpoints to add to an L2VPN or L3VPN
service. With the help of other data models (e.g., L3SM [RFC8299] or
L2SM [RFC8466]), hierarchical control elements can also assess the
feasibility of an end-to-end IP connectivity or L2VPN connectivity
and, therefore, derive the sequence of domains and the points of
interconnection to use.
Advanced interface-specific data nodes are not included in the SAP
model. The interface identifiers listed in the SAP model can be used
as filters to set or get such data using device models (e.g.,
[RFC7224]).
5. SAP Module Tree Structure
The SAP network model 'ietf-sap-ntw' builds on the 'ietf-network'
module [RFC8345] by augmenting the nodes with SAPs.
The structure of the 'ietf-sap-ntw' module is shown in Figure 6.
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module: ietf-sap-ntw
augment /nw:networks/nw:network/nw:network-types:
+--rw sap-network!
+--rw service-type* identityref
augment /nw:networks/nw:network/nw:node:
+--rw service* [service-type]
+--rw service-type identityref
+--rw sap* [sap-id]
+--rw sap-id string
+--rw description? string
+--rw parent-termination-point? nt:tp-id
+--rw attachment-interface? string
+--rw interface-type? identityref
+--rw encapsulation-type? identityref
+--rw role? identityref
+--rw allows-child-saps? boolean
+--rw peer-sap-id* string
+--ro sap-status
| +--ro status? identityref
| +--ro last-change? yang:date-and-time
+--rw service-status
+--rw admin-status
| +--rw status? identityref
| +--rw last-change? yang:date-and-time
+--ro oper-status
+--ro status? identityref
+--ro last-change? yang:date-and-time
Figure 6: SAP YANG Module Tree Structure
A SAP network topology can be used for one or multiple service types
('service-type'). Examples of supported service types are as
follows:
* L3VPN [RFC4364],
* Virtual Private LAN Service (VPLS) [RFC4761][RFC4762],
* Virtual Private Wire Service (VPWS) [RFC8214],
* BGP MPLS-Based Ethernet VPN [RFC7432],
* VPWS in Ethernet VPN [RFC8214],
* Provider Backbone Bridging Combined with Ethernet VPN (PBB-EVPN)
[RFC7623],
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* VXLAN-based EVPN [RFC8365],
* Virtual Networks [RFC8453],
* Enhanced VPN (VPN+) [I-D.ietf-teas-enhanced-vpn],
* Network slice [I-D.ietf-teas-ietf-network-slices],
* SDWAN [I-D.ietf-bess-bgp-sdwan-usage], and
* Basic IP connectivity.
These service types build on the types that are already defined in
[RFC9181] and additional types that are defined in this document.
Other service types can be defined in future YANG modules (including
future revisions of the YANG module defined in this document), if
needed.
| Leveraging the service types defined in [RFC9181] is meant to
| ease the correlation between the SAP topology and the
| corresponding network modules that are used to provision a
| specific service over a provider's network.
Filters based on the service type can be used to access per-service
SAP topology. An example is depicted in Figure 10.
A node in the topology can support one or multiple service types
('service-type') among those listed under the 'sap-network'
container. A list of SAPs are then bound to each service type that
is supported by a given node. Each SAP is characterized as follows:
'sap-id': Includes an identifier that uniquely identifies a SAP
within a node.
The same SAP may appear under distinct service types. In such a
case, the same identifier is used for these service types in
association.
SAPs that are associated with the interfaces that are directly
hosting services, interfaces that are ready to host per-service
sub-interfaces (but not yet activated), or services that are
already instantiated on sub-interfaces are listed as SAPs. For
illustration purposes, Figure 9 depicts how to indicate interfaces
that are capable for hosting per-service sub-interfaces.
For example, 'sap-id' may be the VPN network access identifier in
Section 7.6 of [RFC9182]. An example to illustrate the use of
this attribute during service creation is provided in Appendix D.
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'description': Includes a textual description of the SAP.
'parent-termination-point': Includes a reference to the parent
termination point to which the SAP is bound. As per Section 4.2
of [RFC8345], a termination point terminates a link in a node. A
termination point can be a physical port, an interface, etc.
The referenced parent termination point is expected to be a
customer-facing termination point, not a core-facing termination
point.
This attribute is used, e.g., to associate an interface with its
sub-interfaces as all these interfaces may be listed under the
SAPs of a node. It is also used to link a SAP with the physical
topology.
For example, this data node can be used to map the IETF Network
Slice endpoints ([I-D.ietf-teas-ietf-network-slices]) to the
service/tunnel/path endpoints in the underlay network.
'attachment-interface': Indicates a reference to the interface to
which the SAP is bound. The same interface may host multiple
services.
Whether the attachment identifier echoes the content of the
attachment interface is deployment specific.
For example, this reference may be any of the identifiers ('l2-
termination-point', 'local-bridge-reference', 'bearer-reference',
or 'lag-interface-id') defined in Section 7.6.1 of [RFC9182] or
'l3-termination-point' defined in Section 7.6.2 of [RFC9182]. It
is the responsibility of the controller to ensure that consistent
references are used in the SAP and underlying device modes or any
other device inventory mechanism.
'interface-type': Indicates whether a SAP is bound to a physical
port, a loopback interface, a Link Aggregation Group (LAG)
interface [IEEE802.1AX], an Integrated Routing Bridge (IRB) (e.g.,
[RFC9135]), a local bridge reference, etc.
The mapping to the detailed interface types as per [RFC7224] is
maintained by the controller. That mapping is used, for example,
when the controller translates this SAP network module into device
modules (Section 4.4 of [RFC8969]).
'encapsulation-type': Indicates the encapsulation type for the
interface indicated in the 'attachment-interface' attribute. The
types are taken from [RFC9181].
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This data node can be used, for example, to decide whether an
existing SAP can be (re)used to host a service or if a new sub-
interface has to be instantiated.
'role': Specifies the role of a SAP (e.g., a UNI or NNI).
A SAP inherits the role of its parent interface ('parent-
termination-point').
'allows-child-saps': When set to 'true', this data node indicates
that the attachment interface for this SAP is capable of hosting
per-service sub-interfaces.
Whether a service can be directly attached to the parent SAP in
addition to child SAPs depends on the service.
'peer-sap-id': Includes references to the remote endpoints of an
attachment circuit. This identifier may or may not be the same as
the SAP identifier used in the peer's configuration. Note that
the use of identical identifiers eases correlating between a
peer's service request with a local SAP.
Examples of such a reference are: a site identifier (Section 6.3
of [RFC8299]), a Service Demarcation Point (SDP) identifier
(Section 2.1 of [I-D.ietf-teas-ietf-network-slices]), and the IP
address of a peer Autonomous System Border Router (ASBR).
'sap-status': Indicates the operational status of a SAP. Values are
taken from the values defined in [RFC9181].
When both a sub-interface and its parent interface are present,
but the parent interface is disabled, the status of the parent
interface takes precedence over the status indicated for the sub-
interface.
'service-status': Indicates the administrative and operational
status of the service for a given SAP. This information is
particularly useful when many services are provisioned for the
same SAP, but only a subset of these services are activated. As
such, the administrative 'service-status' MUST NOT be influenced
by the value of the operational 'sap-status'.
The service 'oper-status' reflects the operational status of the
service only as observed at a specific SAP, not the overall
network level status of the service connecting many SAPs. The
network level service status can be retrieved using specific
network models, e.g., Section 7.3 of [RFC9182] or Section 7.3 of
[RFC9291].
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In order to assess the service delivery status for a given SAP, it
is recommended to check both the administrative and operational
service status ('service-status') in addition to the 'sap-status'.
In doing so, a network controller (or operator) can detect
anomalies. For example, if a service is administratively enabled
for a SAP and the 'sap-status' of that SAP is reported as being
down, the service 'oper-status' is also expected to be down.
Retrieving a distinct service operational status under these
conditions can be used as a trigger to detect an anomaly.
Likewise, administrative status and operational status can be
compared to detect service-specific SAP activation anomalies. For
example, a service that is administratively declared as inactive
for a SAP but reported as operationally active for that SAP is an
indication that some service provision actions are needed to align
the observed service status with the expected service status.
6. SAP YANG Module
This module imports types from [RFC6991], [RFC8343], [RFC8345], and
[RFC9181].
The 'sap-entry' and 'sap-list' are defined as groupings for the reuse
of these nodes in service-specific YANG modules.
<CODE BEGINS> file "ietf-sap-ntw@2023-01-09.yang"
module ietf-sap-ntw {
yang-version 1.1;
namespace "urn:ietf:params:xml:ns:yang:ietf-sap-ntw";
prefix sap;
import ietf-network-topology {
prefix nt;
reference
"RFC 8345: A YANG Data Model for Network
Topologies, Section 6.2";
}
import ietf-network {
prefix nw;
reference
"RFC 8345: A YANG Data Model for Network
Topologies, Section 6.1";
}
import ietf-vpn-common {
prefix vpn-common;
reference
"RFC 9181: A Common YANG Data Model for Layer 2 and Layer 3
VPNs";
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}
import ietf-yang-types {
prefix yang;
reference
"RFC 6991: Common YANG Data Types, Section 3";
}
organization
"IETF OPSA (Operations and Management Area) Working Group";
contact
"WG Web: <https://datatracker.ietf.org/wg/opsawg/>
WG List: <mailto:opsawg@ietf.org>
Editor: Mohamed Boucadair
<mailto:mohamed.boucadair@orange.com>
Author: Oscar Gonzalez de Dios
<mailto:oscar.gonzalezdedios@telefonica.com>
Author: Samier Barguil
<mailto:samier.barguil_giraldo@nokia.com>
Author: Qin Wu
<mailto:bill.wu@huawei.com>
Author: Victor Lopez
<victor.lopez@nokia.com>";
description
"This YANG module defines a model for representing, managing,
and controlling the Service Attachment Points (SAPs) in the
network topology.
Copyright (c) 2023 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 XXXX
(https://www.rfc-editor.org/info/rfcXXXX); see the RFC itself
for full legal notices.";
revision 2023-01-09 {
description
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"Initial version";
reference
"RFC XXXX: A YANG Network Model for Service Attachment
Points (SAPs)";
}
identity virtual-network {
base vpn-common:service-type;
description
"Virtual network. Refers to a logical network instance
that is built over a physical network.";
reference
"RFC 8453: Framework for Abstraction and Control of TE
Networks (ACTN)";
}
identity enhanced-vpn {
base vpn-common:service-type;
description
"Enhanced VPN (VPN+). VPN+ is an approach that is
based on existing VPN and Traffic Engineering (TE)
technologies but adds characteristics that specific
services require over and above conventional VPNs.";
reference
"draft-ietf-teas-enhanced-vpn:
A Framework for Enhanced Virtual Private Network
(VPN+) Services";
}
identity network-slice {
base vpn-common:service-type;
description
"IETF network slice. An IETF network slice
is a logical network topology connecting a number of
endpoints using a set of shared or dedicated network
resources that are used to satisfy specific service
objectives.";
reference
"draft-ietf-teas-ietf-network-slices:
A Framework for IETF Network Slices";
}
identity sdwan {
base vpn-common:service-type;
description
"PE-based Software-Defined Wide Area Network (SDWAN).";
reference
"draft-ietf-bess-bgp-sdwan-usage: BGP Usage for SDWAN
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Overlay Network";
}
identity basic-connectivity {
base vpn-common:service-type;
description
"Basic IP connectivity. This is, for example, a plain
connectivity offered to Enterprises over a dedicated
or shared MPLS infrastructure.";
}
identity interface-role {
description
"Base identity for the network role of an interface.";
}
identity uni {
base interface-role;
description
"User-Network Interface (UNI).";
}
identity nni {
base interface-role;
description
"Network-to-Network Interface (NNI).";
}
identity interface-type {
description
"Base identity for the interface type.";
}
identity phy {
base interface-type;
description
"Physical port.";
}
identity loopback {
base interface-type;
description
"Loopback interface.";
}
identity lag {
base interface-type;
description
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"Link Aggregation Group (LAG) interface.";
}
identity irb {
base interface-type;
description
"Integrated Routing Bridge (IRB). An IRB typically
connects an IP-VRF to a bridge domain.";
}
identity local-bridge {
base interface-type;
description
"A local bridge reference to accommodate, e.g.,
implementations that require internal bridging.
When such a type is used, a reference to a local
bridge domain is used to identify the interface.";
}
identity logical {
base interface-type;
description
"Refers to a logical sub-interface that is typically
used to bind a service. This type is used only
if none of the other more specific types (i.e.,
loopback, lag, irb, or local-bridge) can be used.";
}
grouping sap-entry {
description
"Service Attachment Point (SAP) entry information.";
leaf sap-id {
type string;
description
"Indicates an identifier that uniquely identifies
a SAP.";
}
leaf description {
type string;
description
"A textual description of the SAP.";
}
leaf parent-termination-point {
type nt:tp-id;
description
"Indicates the parent termination point to
which the SAP is attached to. A termination
point can be a physical port, an interface, etc.";
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}
leaf attachment-interface {
type string;
description
"Indicates the interface to which the SAP is bound.";
}
leaf interface-type {
type identityref {
base interface-type;
}
description
"The type of the interface to which the SAP is bound.";
}
leaf encapsulation-type {
type identityref {
base vpn-common:encapsulation-type;
}
description
"Encapsulation type of the interface to which the
SAP is bound.";
}
leaf role {
type identityref {
base interface-role;
}
description
"Indicates the role of a SAP.";
}
leaf allows-child-saps {
type boolean;
description
"Indicates whether the attachment interface of this
SAP is capable of hosting per-service sub-interfaces.";
}
leaf-list peer-sap-id {
type string;
description
"Indicates an identifier of the peer's termination
identifier (e.g., Customer Edge (CE)). This
information can be used for correlation purposes,
such as identifying the SAP that is attached to
an endpoint that is provided in a service request.";
}
}
grouping sap-list {
description
"Service Attachment Point (SAP) information.";
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list sap {
key "sap-id";
description
"The Service Attachment Points are abstraction of
the points where network services such as L3VPNs,
L2VPNs, or network slices can be attached to.";
uses sap-entry;
container sap-status {
config false;
description
"Indicates the operational status of the SAP,
independent of any service provisioned over it.";
uses vpn-common:oper-status-timestamp;
}
container service-status {
description
"Indicates the service status.";
container admin-status {
description
"Administrative service status.";
leaf status {
type identityref {
base vpn-common:administrative-status;
}
description
"Administrative status of the service provisioned
at the SAP.";
}
leaf last-change {
type yang:date-and-time;
description
"Indicates the actual date and time of the service
status change.";
}
}
container oper-status {
config false;
description
"Operational status of the service provisioned
at the SAP.";
uses vpn-common:oper-status-timestamp;
}
}
}
}
augment "/nw:networks/nw:network/nw:network-types" {
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description
"Introduces a new network type for SAP network.";
container sap-network {
presence "Indicates SAP network type.";
description
"The presence of the container node indicates the
SAP network type.";
leaf-list service-type {
type identityref {
base vpn-common:service-type;
}
description
"Indicates the set of supported service types.";
}
}
}
augment "/nw:networks/nw:network/nw:node" {
when '../nw:network-types/sap:sap-network' {
description
"Augmentation parameters apply only for SAP
networks.";
}
description
"SAP parameters for the node level.";
list service {
key "service-type";
description
"A list of supported service types for the node.";
leaf service-type {
type identityref {
base vpn-common:service-type;
}
description
"Indicates a service type.";
}
uses sap-list;
}
}
}
<CODE ENDS>
7. IANA Considerations
This document registers the following namespace URI in the "ns"
subregistry within the "IETF XML Registry" [RFC3688]:
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URI: urn:ietf:params:xml:ns:yang:ietf-sap-ntw
Registrant Contact: The IESG.
XML: N/A, the requested URI is an XML namespace.
This document registers the following YANG module in the YANG Module
Names registry [RFC6020] within the "YANG Parameters" registry:
name: ietf-sap-ntw
namespace: urn:ietf:params:xml:ns:yang:ietf-sap-ntw
maintained by IANA? N
prefix: sap
reference: RFC XXXX
8. Security Considerations
The YANG module specified in this document defines 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.
There are a number of data nodes defined in this YANG module that are
writable/creatable/deletable (i.e., config true, which is the
default). These data nodes may be considered sensitive or vulnerable
in some network environments. Write operations (e.g., edit-config)
to these data nodes without proper protection can have a negative
effect on network operations. These are the subtrees and data nodes
and their sensitivity/vulnerability:
* /nw:networks/nw:network/nw:node/sap:service/sap:sap
This subtree specifies the configurations of the nodes in a SAP
network model. Unexpected changes to this subtree (e.g.,
associating a SAP with another parent termination point) could
lead to service disruption and/or network misbehavior. Such
network misbehavior results mainly from a network configuration
that is inconsistent with the intended behavior as defined by the
operator (e.g., Section 4.2.1 of [RFC8969]).
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Some of the readable data nodes in this YANG module may be considered
sensitive or vulnerable in some network environments. It is thus
important to control read access (e.g., via get, get-config, or
notification) to these data nodes. These are the subtrees and data
nodes and their sensitivity/vulnerability:
* /nw:networks/nw:network/nw:node/sap:service/sap:sap
Unauthorized access to this subtree can disclose the operational
state information of the nodes in a SAP network model (e.g.,
disclose the identity of a customer 'peer-sap-id').
9. Acknowledgements
Thanks to Adrian Farrell, Daniel King, Dhruv Dhody, Benoit Claise, Bo
Wu, Erez Segev, Raul Arco, Joe Clarke, Riyas Valiyapalathingal, Tom
Petch, Olga Havel, and Richard Roberts for the comments.
Thanks to Martin Bjoerklund for the YANG Doctors review, Menachem
Dodge for the opsdir review, Mach Chen for the rtgdir review, Linda
Dunbar for the genart review, and Ivaylo Petrov for the secdir
review.
Special thanks to Adrian Farrel for the Shepherd review and Rob
Wilton for the careful AD review.
Thanks to Lars Eggert, Roman Danyliw, and Zaheduzzaman Sarker for the
comments during the IESG review.
10. References
10.1. 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,
<https://www.rfc-editor.org/info/rfc2119>.
[RFC3688] Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688,
DOI 10.17487/RFC3688, January 2004,
<https://www.rfc-editor.org/info/rfc3688>.
[RFC6020] Bjorklund, M., Ed., "YANG - A Data Modeling Language for
the Network Configuration Protocol (NETCONF)", RFC 6020,
DOI 10.17487/RFC6020, October 2010,
<https://www.rfc-editor.org/info/rfc6020>.
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[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,
<https://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,
<https://www.rfc-editor.org/info/rfc6242>.
[RFC6991] Schoenwaelder, J., Ed., "Common YANG Data Types",
RFC 6991, DOI 10.17487/RFC6991, July 2013,
<https://www.rfc-editor.org/info/rfc6991>.
[RFC7950] Bjorklund, M., Ed., "The YANG 1.1 Data Modeling Language",
RFC 7950, DOI 10.17487/RFC7950, August 2016,
<https://www.rfc-editor.org/info/rfc7950>.
[RFC8040] Bierman, A., Bjorklund, M., and K. Watsen, "RESTCONF
Protocol", RFC 8040, DOI 10.17487/RFC8040, January 2017,
<https://www.rfc-editor.org/info/rfc8040>.
[RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174,
May 2017, <https://www.rfc-editor.org/info/rfc8174>.
[RFC8341] Bierman, A. and M. Bjorklund, "Network Configuration
Access Control Model", STD 91, RFC 8341,
DOI 10.17487/RFC8341, March 2018,
<https://www.rfc-editor.org/info/rfc8341>.
[RFC8345] Clemm, A., Medved, J., Varga, R., Bahadur, N.,
Ananthakrishnan, H., and X. Liu, "A YANG Data Model for
Network Topologies", RFC 8345, DOI 10.17487/RFC8345, March
2018, <https://www.rfc-editor.org/info/rfc8345>.
[RFC8346] Clemm, A., Medved, J., Varga, R., Liu, X.,
Ananthakrishnan, H., and N. Bahadur, "A YANG Data Model
for Layer 3 Topologies", RFC 8346, DOI 10.17487/RFC8346,
March 2018, <https://www.rfc-editor.org/info/rfc8346>.
[RFC8446] Rescorla, E., "The Transport Layer Security (TLS) Protocol
Version 1.3", RFC 8446, DOI 10.17487/RFC8446, August 2018,
<https://www.rfc-editor.org/info/rfc8446>.
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[RFC8795] Liu, X., Bryskin, I., Beeram, V., Saad, T., Shah, H., and
O. Gonzalez de Dios, "YANG Data Model for Traffic
Engineering (TE) Topologies", RFC 8795,
DOI 10.17487/RFC8795, August 2020,
<https://www.rfc-editor.org/info/rfc8795>.
[RFC9181] Barguil, S., Gonzalez de Dios, O., Ed., Boucadair, M.,
Ed., and Q. Wu, "A Common YANG Data Model for Layer 2 and
Layer 3 VPNs", RFC 9181, DOI 10.17487/RFC9181, February
2022, <https://www.rfc-editor.org/info/rfc9181>.
10.2. Informative References
[I-D.ietf-bess-bgp-sdwan-usage]
Dunbar, L., Guichard, J., Sajassi, A., Drake, J., Najem,
B., and D. Carrel, "BGP Usage for SDWAN Overlay Networks",
Work in Progress, Internet-Draft, draft-ietf-bess-bgp-
sdwan-usage-06, 10 October 2022,
<https://www.ietf.org/archive/id/draft-ietf-bess-bgp-
sdwan-usage-06.txt>.
[I-D.ietf-teas-enhanced-vpn]
Dong, J., Bryant, S., Li, Z., Miyasaka, T., and Y. Lee, "A
Framework for Enhanced Virtual Private Network (VPN+)",
Work in Progress, Internet-Draft, draft-ietf-teas-
enhanced-vpn-11, 19 September 2022,
<https://www.ietf.org/archive/id/draft-ietf-teas-enhanced-
vpn-11.txt>.
[I-D.ietf-teas-ietf-network-slices]
Farrel, A., Drake, J., Rokui, R., Homma, S., Makhijani,
K., Contreras, L. M., and J. Tantsura, "A Framework for
IETF Network Slices", Work in Progress, Internet-Draft,
draft-ietf-teas-ietf-network-slices-18, 9 January 2023,
<https://www.ietf.org/archive/id/draft-ietf-teas-ietf-
network-slices-18.txt>.
[IEEE802.1AX]
"Link Aggregation", IEEE Std 802.1AX-2020, 2020.
[MEF17] The Metro Ethernet Forum, "Technical Specification MEF 17,
Service OAM Requirements & Framework - Phase 1", April
2007, <https://www.mef.net/wp-content/uploads/2015/04/MEF-
17.pdf>.
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[MEF6] The Metro Ethernet Forum, "Technical Specification MEF 6,
Ethernet Services Definitions - Phase I", June 2004,
<https://www.mef.net/Assets/Technical_Specifications/PDF/
MEF_6.pdf>.
[RFC4026] Andersson, L. and T. Madsen, "Provider Provisioned Virtual
Private Network (VPN) Terminology", RFC 4026,
DOI 10.17487/RFC4026, March 2005,
<https://www.rfc-editor.org/info/rfc4026>.
[RFC4364] Rosen, E. and Y. Rekhter, "BGP/MPLS IP Virtual Private
Networks (VPNs)", RFC 4364, DOI 10.17487/RFC4364, February
2006, <https://www.rfc-editor.org/info/rfc4364>.
[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,
<https://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,
<https://www.rfc-editor.org/info/rfc4762>.
[RFC6004] Berger, L. and D. Fedyk, "Generalized MPLS (GMPLS) Support
for Metro Ethernet Forum and G.8011 Ethernet Service
Switching", RFC 6004, DOI 10.17487/RFC6004, October 2010,
<https://www.rfc-editor.org/info/rfc6004>.
[RFC6215] Bocci, M., Levrau, L., and D. Frost, "MPLS Transport
Profile User-to-Network and Network-to-Network
Interfaces", RFC 6215, DOI 10.17487/RFC6215, April 2011,
<https://www.rfc-editor.org/info/rfc6215>.
[RFC7149] Boucadair, M. and C. Jacquenet, "Software-Defined
Networking: A Perspective from within a Service Provider
Environment", RFC 7149, DOI 10.17487/RFC7149, March 2014,
<https://www.rfc-editor.org/info/rfc7149>.
[RFC7224] Bjorklund, M., "IANA Interface Type YANG Module",
RFC 7224, DOI 10.17487/RFC7224, May 2014,
<https://www.rfc-editor.org/info/rfc7224>.
[RFC7426] Haleplidis, E., Ed., Pentikousis, K., Ed., Denazis, S.,
Hadi Salim, J., Meyer, D., and O. Koufopavlou, "Software-
Defined Networking (SDN): Layers and Architecture
Terminology", RFC 7426, DOI 10.17487/RFC7426, January
2015, <https://www.rfc-editor.org/info/rfc7426>.
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[RFC7432] Sajassi, A., Ed., Aggarwal, R., Bitar, N., Isaac, A.,
Uttaro, J., Drake, J., and W. Henderickx, "BGP MPLS-Based
Ethernet VPN", RFC 7432, DOI 10.17487/RFC7432, February
2015, <https://www.rfc-editor.org/info/rfc7432>.
[RFC7623] Sajassi, A., Ed., Salam, S., Bitar, N., Isaac, A., and W.
Henderickx, "Provider Backbone Bridging Combined with
Ethernet VPN (PBB-EVPN)", RFC 7623, DOI 10.17487/RFC7623,
September 2015, <https://www.rfc-editor.org/info/rfc7623>.
[RFC8214] Boutros, S., Sajassi, A., Salam, S., Drake, J., and J.
Rabadan, "Virtual Private Wire Service Support in Ethernet
VPN", RFC 8214, DOI 10.17487/RFC8214, August 2017,
<https://www.rfc-editor.org/info/rfc8214>.
[RFC8299] Wu, Q., Ed., Litkowski, S., Tomotaki, L., and K. Ogaki,
"YANG Data Model for L3VPN Service Delivery", RFC 8299,
DOI 10.17487/RFC8299, January 2018,
<https://www.rfc-editor.org/info/rfc8299>.
[RFC8309] Wu, Q., Liu, W., and A. Farrel, "Service Models
Explained", RFC 8309, DOI 10.17487/RFC8309, January 2018,
<https://www.rfc-editor.org/info/rfc8309>.
[RFC8340] Bjorklund, M. and L. Berger, Ed., "YANG Tree Diagrams",
BCP 215, RFC 8340, DOI 10.17487/RFC8340, March 2018,
<https://www.rfc-editor.org/info/rfc8340>.
[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,
<https://www.rfc-editor.org/info/rfc8342>.
[RFC8343] Bjorklund, M., "A YANG Data Model for Interface
Management", RFC 8343, DOI 10.17487/RFC8343, March 2018,
<https://www.rfc-editor.org/info/rfc8343>.
[RFC8365] Sajassi, A., Ed., Drake, J., Ed., Bitar, N., Shekhar, R.,
Uttaro, J., and W. Henderickx, "A Network Virtualization
Overlay Solution Using Ethernet VPN (EVPN)", RFC 8365,
DOI 10.17487/RFC8365, March 2018,
<https://www.rfc-editor.org/info/rfc8365>.
[RFC8453] Ceccarelli, D., Ed. and Y. Lee, Ed., "Framework for
Abstraction and Control of TE Networks (ACTN)", RFC 8453,
DOI 10.17487/RFC8453, August 2018,
<https://www.rfc-editor.org/info/rfc8453>.
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[RFC8466] Wen, B., Fioccola, G., Ed., Xie, C., and L. Jalil, "A YANG
Data Model for Layer 2 Virtual Private Network (L2VPN)
Service Delivery", RFC 8466, DOI 10.17487/RFC8466, October
2018, <https://www.rfc-editor.org/info/rfc8466>.
[RFC8969] Wu, Q., Ed., Boucadair, M., Ed., Lopez, D., Xie, C., and
L. Geng, "A Framework for Automating Service and Network
Management with YANG", RFC 8969, DOI 10.17487/RFC8969,
January 2021, <https://www.rfc-editor.org/info/rfc8969>.
[RFC9135] Sajassi, A., Salam, S., Thoria, S., Drake, J., and J.
Rabadan, "Integrated Routing and Bridging in Ethernet VPN
(EVPN)", RFC 9135, DOI 10.17487/RFC9135, October 2021,
<https://www.rfc-editor.org/info/rfc9135>.
[RFC9182] Barguil, S., Gonzalez de Dios, O., Ed., Boucadair, M.,
Ed., Munoz, L., and A. Aguado, "A YANG Network Data Model
for Layer 3 VPNs", RFC 9182, DOI 10.17487/RFC9182,
February 2022, <https://www.rfc-editor.org/info/rfc9182>.
[RFC9291] Boucadair, M., Ed., Gonzalez de Dios, O., Ed., Barguil,
S., and L. Munoz, "A YANG Network Data Model for Layer 2
VPNs", RFC 9291, DOI 10.17487/RFC9291, September 2022,
<https://www.rfc-editor.org/info/rfc9291>.
Appendix A. A Simplified SAP Network Example
An example of a SAP topology that is reported by a network controller
is depicted in Figure 7. This example echoes the topology shown in
Figure 4. Only a minimum set of information is provided for each
SAP. Particularly, 'parent-termination-point', 'attachment-
interface', 'interface-type', 'encapsulation-type', and 'role' are
not shown in the example. SAPs that are capable of hosting a
service, but not yet activated, are identified by the 'sap-status/
status' set to 'ietf-vpn-common:op-down' and 'service-status/admin-
status/status' set to 'ietf-vpn-common:admin-down'. SAPs that are
enabled to deliver a service are identified by 'service-status/admin-
status/status' set to 'ietf-vpn-common:admin-up' and 'service-status/
oper-status/status' set to 'ietf-vpn-common:op-up'. Note that none
of the anomalies discussed in Section 5 are detected for these SAPs.
{
"ietf-network:networks": {
"network": [
{
"network-types": {
"ietf-sap-ntw:sap-network": {
"service-type": [
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"ietf-vpn-common:l3vpn",
"ietf-vpn-common:vpls"
]
}
},
"network-id": "example:an-id",
"node": [
{
"node-id": "example:pe1",
"ietf-sap-ntw:service": [
{
"service-type": "ietf-vpn-common:l3vpn",
"sap": [
{
"sap-id": "sap#11",
"peer-sap-id": ["ce-1"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
},
{
"sap-id": "sap#12",
"sap-status": {
"status": "ietf-vpn-common:op-down"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-down"
}
}
},
{
"sap-id": "sap#13",
"sap-status": {
"status": "ietf-vpn-common:op-down"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-down"
}
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}
},
{
"sap-id": "sap#14",
"sap-status": {
"status": "ietf-vpn-common:op-down"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-down"
}
}
}
]
}
]
},
{
"node-id": "example:pe2",
"ietf-sap-ntw:service": [
{
"service-type": "ietf-vpn-common:l3vpn",
"sap": [
{
"sap-id": "sap#21",
"sap-status": {
"status": "ietf-vpn-common:op-down"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-down"
}
}
},
{
"sap-id": "sap#22",
"peer-sap-id": ["ce-2"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
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}
]
}
]
},
{
"node-id": "example:pe3",
"ietf-sap-ntw:service": [
{
"service-type": "ietf-vpn-common:l3vpn",
"sap": [
{
"sap-id": "sap#31",
"sap-status": {
"status": "ietf-vpn-common:op-down"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-down"
}
}
},
{
"sap-id": "sap#32",
"sap-status": {
"status": "ietf-vpn-common:op-down"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-down"
}
}
},
{
"sap-id": "sap#33",
"peer-sap-id": ["ce-3"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
}
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]
}
]
},
{
"node-id": "example:pe4",
"ietf-sap-ntw:service": [
{
"service-type": "ietf-vpn-common:l3vpn",
"sap": [
{
"sap-id": "sap#41",
"peer-sap-id": ["ce-3"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
},
{
"sap-id": "sap#42",
"peer-sap-id": ["ce-4"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
},
{
"sap-id": "sap#43",
"sap-status": {
"status": "ietf-vpn-common:op-down"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-down"
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}
}
},
{
"sap-id": "sap#44",
"peer-sap-id": ["ce-5"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
}
]
}
]
}
]
}
]
}
}
Figure 7: A Simplified SAP Network Example
Appendix B. A Simple Example of SAP Network Model: Node Filter
In the example shown in Figure 8, PE1 (with a "node-id" set to
"example:pe1") has two physical interfaces "GE0/6/1" and "GE0/6/4".
Two sub-interfaces "GE0/6/4.1" and "GE0/6/4.2" are associated with
the physical interface "GE0/6/4". Let us consider that four SAPs are
exposed to the service orchestrator and mapped to these physical
interfaces and sub-interfaces.
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.-------------------------.
| GE0/6/4 |
| PE1 .----+----.
| |sap#2 |GE0/6/4.1
| | .--+--.
| | |sap#3|
| | '--+--'
| | |GE0/6/4.2
| | .--+--.
| | |sap#4|
| | '--+--'
| | |
| +----+----+
| |
| GE0/6/1|
| .----+----.
| |sap#1 |
| '----+----'
| |
'-------------------------'
Figure 8: An Example of a PE and its Physical/Logical Interfaces
Let us assume that no service is enabled yet for the SAP associated
with the physical interface "GE0/6/1". Also, let us assume that, for
the SAPs that are associated with the physical interface "GE0/6/4",
VPLS and L3VPN services are activated on the two sub-interfaces
"GE0/6/4.1" and "GE0/6/4.2", respectively. Both "sap#1" and "sap#2"
are tagged as being capable of hosting per-service sub-interfaces
('allows-child-saps' is set to 'true').
A service orchestrator can query what services are provided on which
SAPs of PE1 from the network controller by sending, e.g., a GET
RESTCONF request. Figure 9 shows an example of the body of the
RESTCONF response that is received from the network controller.
{
"ietf-sap-ntw:service": [
{
"service-type": "ietf-vpn-common:l3vpn",
"sap": [
{
"sap-id": "sap#1",
"description": "Ready to host SAPs",
"attachment-interface": "GE0/6/1",
"interface-type": "ietf-sap-ntw:phy",
"role": "ietf-sap-ntw:uni",
"allows-child-saps": true,
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"sap-status": {
"status": "ietf-vpn-common:op-up"
}
},
{
"sap-id": "sap#2",
"description": "Ready to host SAPs",
"attachment-interface": "GE0/6/4",
"interface-type": "ietf-sap-ntw:phy",
"role": "ietf-sap-ntw:uni",
"allows-child-saps": true,
"sap-status": {
"status": "ietf-vpn-common:op-up"
}
},
{
"sap-id": "sap#3",
"description": "A first SAP description",
"parent-termination-point": "GE0/6/4",
"attachment-interface": "GE0/6/4.1",
"interface-type": "ietf-sap-ntw:logical",
"encapsulation-type": "ietf-vpn-common:vlan-type",
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
}
]
},
{
"service-type": "ietf-vpn-common:vpls",
"sap": [
{
"sap-id": "sap#1",
"description": "Ready to host SAPs",
"attachment-interface": "GE0/6/1",
"interface-type": "ietf-sap-ntw:phy",
"role": "ietf-sap-ntw:uni",
"allows-child-saps": true,
"sap-status": {
"status": "ietf-vpn-common:op-up"
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}
},
{
"sap-id": "sap#2",
"description": "Ready to host SAPs",
"attachment-interface": "GE0/6/4",
"interface-type": "ietf-sap-ntw:phy",
"role": "ietf-sap-ntw:uni",
"allows-child-saps": true,
"sap-status": {
"status": "ietf-vpn-common:op-up"
}
},
{
"sap-id": "sap#4",
"description": "Another description",
"parent-termination-point": "GE0/6/4",
"attachment-interface": "GE0/6/4.2",
"interface-type": "ietf-sap-ntw:logical",
"encapsulation-type": "ietf-vpn-common:vlan-type",
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
}
]
}
]
}
Figure 9: An Example of a Response Body to a Request with a Node
Filter
Figure 10 shows an example of the response message body that is
received from the network controller if the request includes a filter
on the service type for a particular node:
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{
"ietf-sap-ntw:service": [
{
"service-type": "ietf-vpn-common:l3vpn",
"sap": [
{
"sap-id": "sap#1",
"description": "Ready to host SAPs",
"attachment-interface": "GE0/6/1",
"interface-type": "ietf-sap-ntw:phy",
"role": "ietf-sap-ntw:uni",
"allows-child-saps": true,
"sap-status": {
"status": "ietf-vpn-common:op-up"
}
},
{
"sap-id": "sap#2",
"description": "Ready to host SAPs",
"attachment-interface": "GE0/6/4",
"interface-type": "ietf-sap-ntw:phy",
"role": "ietf-sap-ntw:uni",
"allows-child-saps": true,
"sap-status": {
"status": "ietf-vpn-common:op-up"
}
},
{
"sap-id": "sap#3",
"description": "A first SAP description",
"parent-termination-point": "GE0/6/4",
"attachment-interface": "GE0/6/4.1",
"interface-type": "ietf-sap-ntw:logical",
"encapsulation-type": "ietf-vpn-common:vlan-type",
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
}
]
}
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]
}
Figure 10: An Example of a Response Body to a Request with a
Service Filter
Appendix C. An Example of NNI SAP: Inter-AS VPN Option A
Section 10 of [RFC4364] discuses several options to extend a VPN
service beyond the scope of a single Autonomous System (AS). For
illustration purposes, this section focuses on the so-called "Option
A" but similar examples can be considered for other options.
In this option, an ASBR of an AS is directly connected to an ASBR of
a neighboring AS. These two ASBRs are connected by multiple physical
or logical interfaces. Also, at least one sub-interface is
maintained by these ASBRs for each of the VPNs that require their
routes to be passed from one AS to the other AS. Each ASBR behaves
as a PE and treats the other as if it were a CE.
Figure 11 shows a simplified (excerpt) topology of two ASes A and B
with a focus on the interconnection links between these two ASes.
.--------------------. .--------------------.
| | | |
| A .--+--. .--+--. A |
| S | +================+ | S |
| B | (VRF1)----(VPN1)----(VRF1) | B |
| R | | | | R |
| | (VRF2)----(VPN2)----(VRF2) | |
| a | +================+ | b |
| 1 '--+--' '--+--' 1 |
| AS A | | AS B |
| A .--+--. .--+--. A |
| S | +================+ | S |
| B | (VRF1)----(VPN1)----(VRF1) | B |
| R | | | | R |
| | (VRF2)----(VPN2)----(VRF2) | |
| a | +================+ | b |
| 2 '--+--' '--+--' 2 |
| | | |
'--------------------' '--------------------'
Figure 11: An Example of Inter-AS VPN (Option A)
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Figure 12 shows an example of a message body that is received from
the network controller of AS A (with a focus on the NNIs shown in
Figure 11).
{
"ietf-network:networks": {
"network": [
{
"network-types": {
"ietf-sap-ntw:sap-network": {
"service-type": [
"ietf-vpn-common:l3vpn"
]
}
},
"network-id": "example:an-id",
"node": [
{
"node-id": "example:asbr-a1",
"ietf-sap-ntw:service": [
{
"service-type": "ietf-vpn-common:l3vpn",
"sap": [
{
"sap-id": "sap#11",
"description": "parent inter-as link#1",
"role": "ietf-sap-ntw:nni",
"allows-child-saps": true,
"peer-sap-id": ["asbr-b1"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
}
},
{
"sap-id": "sap#12",
"description": "parent inter-as link#2",
"role": "ietf-sap-ntw:nni",
"allows-child-saps": true,
"peer-sap-id": ["asbr-b1"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
}
},
{
"sap-id": "sap#13",
"description": "vpn1",
"role": "ietf-sap-ntw:nni",
"peer-sap-id": ["asbr-b1"],
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"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
},
{
"sap-id": "sap#14",
"description": "vpn2",
"role": "ietf-sap-ntw:nni",
"peer-sap-id": ["asbr-b1"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
}
]
}
]
},
{
"node-id": "example:asbr-a2",
"ietf-sap-ntw:service": [
{
"service-type": "ietf-vpn-common:l3vpn",
"sap": [
{
"sap-id": "sap#11",
"description": "parent inter-as link#1",
"role": "ietf-sap-ntw:nni",
"allows-child-saps": true,
"peer-sap-id": ["asbr-b2"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
}
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},
{
"sap-id": "sap#12",
"description": "parent inter-as link#2",
"role": "ietf-sap-ntw:nni",
"allows-child-saps": true,
"peer-sap-id": ["asbr-b2"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
}
},
{
"sap-id": "sap#21",
"description": "vpn1",
"role": "ietf-sap-ntw:nni",
"peer-sap-id": ["asbr-b2"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
},
{
"sap-id": "sap#22",
"description": "vpn2",
"role": "ietf-sap-ntw:nni",
"peer-sap-id": ["asbr-b2"],
"sap-status": {
"status": "ietf-vpn-common:op-up"
},
"service-status": {
"admin-status": {
"status": "ietf-vpn-common:admin-up"
},
"oper-status": {
"status": "ietf-vpn-common:op-up"
}
}
}
]
}
]
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}
]
}
]
}
}
Figure 12: An Example of SAP Usage for NNI
Appendix D. Examples of Using the SAP Network Model in Service Creation
This section describes an example to illustrate the use of the SAP
model for service creation purposes.
An example of a SAP topology is presented in Figure 7. This example
includes four PEs with their SAPs, as well as the customer
information.
Let us assume that an operator wants to create an L3VPN service
between two PEs (PE3 and PE4) that are servicing two CEs (CE6 and
CE7). To that aim, the operator would query the SAP topology and
would obtain a response similar to what is depicted in Figure 7.
That response indicates that the SAPs having "sap#31" and "sap#43" as
attachment identifiers do not have any installed services. This is
particularly inferred from the administrative 'service-status' which
is set to 'ietf-vpn-common:admin-down' for all the services that are
supported by these two SAPs and that none of the anomalies discussed
in Section 5 are detected. Once the "free" SAPs are identified, the
'interface-type' and 'encapsulation-type' are checked to see if the
requested L3VPN service is compatible with the SAP characteristics.
If they are compatible, the 'attachment-id' value can be used as the
VPN network access identifier in an L3NM create query.
A similar process can be followed for creating the so-called "Inter-
AS VPN Option A" services. Unlike the previous example, let us
assume that an operator wants to create an L3VPN service between two
PEs (PE3 and PE4) but these PEs are not in the same AS: PE3 belongs
to AS A while PE4 belongs to AS B. The NNIs between these ASes are
represented in Figure 11. The operator of AS A would query, via the
controller of its AS, the SAP topology and would obtain not only the
information that is depicted in Figure 7, but also the information
shown in Figure 12 representing the NNIs. The operator would create
the service in the AS A between PE3 and a free, compatible SAP in the
ASBR A1. The same procedure is followed by the operator of AS B to
create the service in the AS B between a free, compatible SAP in the
ASBR B1 and PE4. The services can be provisioned in each of these
ASes using the L3NM.
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Let us now assume that, instead of the L3VPN service, the operator
wants to set up an L2VPN service. If the 'interface-type' is a
physical port, a new logical SAP can be created using the SAP model
to cope with the service needs (e.g., the 'encapsulation-type'
attribute can be set to 'ietf-vpn-common:vlan-type'). Once the
logical SAP is created, the 'attachment-id' of the new SAP is used to
create an L2NM instance (Section 7.6 of [RFC9291]).
Authors' Addresses
Mohamed Boucadair (editor)
Orange
France
Email: mohamed.boucadair@orange.com
Oscar Gonzalez de Dios
Telefonica
Madrid
Spain
Email: oscar.gonzalezdedios@telefonica.com
Samier Barguil
Nokia
Madrid
Spain
Email: samier.barguil_giraldo@nokia.com
Qin Wu
Huawei
101 Software Avenue, Yuhua District
Nanjing
Jiangsu, 210012
China
Email: bill.wu@huawei.com
Victor Lopez
Nokia
Spain
Email: victor.lopez@nokia.com
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