SPRING Working Group K. Raza, Ed.
Internet-Draft R. Sawaya
Intended status: Standards Track Cisco Systems
Expires: December 1, 2019
Z. Shunwan
Huawei Technologies
D. Voyer
Bell Canada
M. Durrani
Equinix
S. Matsushima
SoftBank
May 30, 2019
YANG Data Model for Segment Routing Policy
draft-raza-spring-sr-policy-yang-00.txt
Abstract
This document defines a YANG data model for Segment Routing (SR)
Policy that can be used for configuring, instantiating, and managing
SR policies. The model is generic and apply equally to the MPLS and
SRv6 instantiations of SR policies.
Status of This Memo
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provisions of BCP 78 and BCP 79.
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This Internet-Draft will expire on December 1, 2019.
Copyright Notice
Copyright (c) 2019 IETF Trust and the persons identified as the
document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal
Provisions Relating to IETF Documents
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publication of this document. Please review these documents
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described in the Simplified BSD License.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2
2. Specification of Requirements . . . . . . . . . . . . . . . . 3
3. Building Blocks . . . . . . . . . . . . . . . . . . . . . . . 3
4. YANG Model . . . . . . . . . . . . . . . . . . . . . . . . . 4
4.1. Types and Definitions . . . . . . . . . . . . . . . . . . 4
4.2. SR Policy . . . . . . . . . . . . . . . . . . . . . . . . 5
4.2.1. Configuration . . . . . . . . . . . . . . . . . . . . 6
4.2.2. State . . . . . . . . . . . . . . . . . . . . . . . . 10
4.2.3. Notification . . . . . . . . . . . . . . . . . . . . 12
5. Pending Items . . . . . . . . . . . . . . . . . . . . . . . . 13
6. YANG Specification . . . . . . . . . . . . . . . . . . . . . 14
6.1. Types . . . . . . . . . . . . . . . . . . . . . . . . . . 14
6.2. SR Policy . . . . . . . . . . . . . . . . . . . . . . . . 21
7. Security Considerations . . . . . . . . . . . . . . . . . . . 41
8. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 41
9. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . 42
10. References . . . . . . . . . . . . . . . . . . . . . . . . . 42
10.1. Normative References . . . . . . . . . . . . . . . . . . 42
10.2. Informative References . . . . . . . . . . . . . . . . . 43
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 43
1. Introduction
The Network Configuration Protocol (NETCONF) [RFC6241] defines
mechanisms to manage network devices. YANG [RFC6020] is a modular
language that represents data structures in an XML tree format, and
is used as a data modeling language for the NETCONF.
Segment Routing (SR), as defined in [RFC8402], allows a headend node
to steer a packet flow along any topological path and/or service
chain. The headend node is said to steer a flow into a Segment
Routing Policy (SR Policy). An SR policy is a framework
[I-D.ietf-spring-segment-routing-policy] that enables instantiation
of an ordered list of segments on a node for implementing a policy.
This document introduces a YANG data model for SR policy framework
for instantiating, configuring and managing SR policies along with
its attributes. It is also expected that other companion models,
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such as BGP SR Policy [I-D.ietf-idr-segment-routing-te-policy], will
be defined and/or augmented accordingly in their respective areas.
This model defines the following constructs for managing an SR
policy:
o Configuration
o Operational State
o Notifications
o Executables (Actions)
This document expects and requires the reader to be well familiar
with the concepts and constructs of an SR policy
[I-D.ietf-spring-segment-routing-policy] as well as the YANG modeling
language and its presentation [RFC6020].
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 BCP 14 [RFC2119]
[RFC8174] when, and only when, they appear in all capitals, as shown
here.
3. Building Blocks
Before looking into the YANG model for SR policy, it is important to
recall and highlight the major building blocks and constructs that
constitute and contribute to an SR policy, as described in
[I-D.ietf-spring-segment-routing-policy].
o policy: specifies constructs to allow a headend node to setup SR
path(s) as an ordered list of segments for a given color and
endpoint. The endpoint and the color are used to automate the
steering of service or transport routes on an SR Policy. For a
given headend, the key for an SR policy is (color, endpoint) where
endpoint is an IP address that could be also NULL.
o candidate-path: is the unit for signalling of an SR Policy to a
headend via protocols (such as PCEP, BGP, CLI etc.). A candidate
path is either dynamic or explicit type, where an explicit
candidate path is associated with one or more segment-lists and
dynamic candidate path expresses optimization objectives and set
of constraints. An SR Policy is associated with one or more
candidate paths and the preference of the candidate path is used
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to select the best candidate path for an SR Policy. A candidate
path is valid if it is usable (e.g. when its constituents SIDs are
reachable). An "active" candidate path is the selected path (for
forwarding) that is valid and determined to be the best path of
the SR Policy.
o segment-list: specifies ordered list of segments to traverse,
where a segment can be specified in various forms (refer section 4
of [I-D.ietf-spring-segment-routing-policy]). The list is sorted
by the index of the segment. A segment-list is used and referred
by an explicit type of candidate-path.
o binding-sid: An SR policy is associated with a BSID to provide
benefits of scaling, network opacity and service independence.
4. YANG Model
The modeling in this document complies with the Network Management
Datastore Architecture (NMDA) [RFC8342]. The operational state data
is combined with the associated configuration data in the same
hierarchy [RFC8407]. When protocol states are retrieved from the
NMDA operational state datastore, the returned states cover all
"config true" (rw) and "config false" (ro) nodes defined in the
schema.
For SR policy YANG specification, this document defines following new
YANG modules:
+----------------------+--------------------------------------------+
| Module Name | Purpose |
+----------------------+--------------------------------------------+
| ietf-sr-policy-types | defines common and basic types related to |
| | an SR policy and related constructs |
| | |
| ietf-sr-policy | defines the model for SR policy |
| | instantiation, configuration, and |
| | management |
+----------------------+--------------------------------------------+
4.1. Types and Definitions
SR policy common types and definitions are defined in the new module
"ietf-sr-policy-types". The main types defined in this module
include:
o dataplane-type: A union to specify MPLS or IPv6 as the dataplane
type for SR.
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o sid-value-type: A Union to specify SID value for SR-MPLS or SRv6
type.
o binding-sid-alloc-mode: Enum to define explicit or dynamic alloc
mode types for a BSID.
o protocol-origin-type: Enum to specify protocol origin (e.g. PCEP)
for an SR policy.
o explicit-binding-sid-rule-type: Enum to specify BSID alloc
enforcement/rule when doing explicit alloc request.
o binding-sid-oper-state: An Enum representing various operational
states for a BSID.
o policy-admin-state: An Enum for admin state of an SR policy.
o policy-oper-state: An Enum for operational state of an SR policy.
o segment-type: An Enum that defines various types for a "segment"
of a Segment list.
o candidate-path-non-selection-reason: The base identity along with
its children to specify reason for not selecting a candidate path
as the best/active path.
o policy-down-reason: The base identity along with its children to
specify reason for a policy becoming (or remaining) operationally
down.
o binding-sid-unavailable-reason: The base identity along with its
children to specify reason for a BSID's unavailability.
The associated YANG specification for this module is captured in
Section 6.1.
4.2. SR Policy
The base SR policy model is captured in ietf-sr-policy module. This
base module augments "/rt:routing" and specifies the configuration,
operational state, executables/rpcs, and notification events required
to manage SR policies.
The associated YANG specification for this module is captured in
Section 6.2.
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4.2.1. Configuration
In terms of configuration hierarchy, SR policy configuration tree has
following two main areas:
o policy-attributes: container that defines common constructs that
could be used across policies. An example of such a construct is
segment-lists definition. In future revision of this document, it
is expected that this container will have more constructs defined.
o policies: container that defines list of policies with their
attributes such as BSID, candidate-paths etc.
Following diagram depicts high level yang organization and hierarchy
for an SR policy specification:
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segment-routing
sr-policy
+ policy-attributes
| + segment-lists
| | segment-list* [name]
| | segments
| | segment* [index]
| | ...
| + explicit-binding-sid-rules
| ...
|
+ policies
policy* [color endpoint]
+ ...
|
+ binding-sid
| ...
|
+ candidate-paths
candidate-path* [protocol origin discrim]
+ ...
|
+ type
+ dynamic
| ...
|
+ explicit
segment-lists
segment-list* [ref]
...
Figure 1: SR Policy - Hierarchy
Using the building blocks described in Section 3, following is the
complete graphical representation of the data model for SR policy
configuration:
module: ietf-sr-policy
augment /rt:routing:
+--rw segment-routing
+--rw sr-policy
+--rw policy-attributes
| +--rw segment-lists
| | +--rw segment-list* [name]
| | +--rw name string
| | +--rw segments
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| | +--rw segment* [index]
| | +--rw index uint32
| | +--rw type? sr-policy-types:segment-type
| | +--rw segment-types
| | | +--rw segment-type-1
| | | | +--rw sid-value? rt-types:mpls-label
| | | +--rw segment-type-2
| | | | +--rw sid-value? srv6-types:srv6-sid
| | | +--rw segment-type-3
| | | | +--rw ipv4-address? inet:ipv4-address
| | | | +--rw algorithm? uint8
| | | +--rw segment-type-4
| | | | +--rw ipv4-address? inet:ipv6-address
| | | | +--rw algorithm? uint8
| | | +--rw segment-type-5
| | | | +--rw ipv4-address? inet:ipv4-address
| | | | +--rw interface-identifier? uint32
| | | +--rw segment-type-6
| | | | +--rw local-ipv4-address? inet:ipv4-address
| | | | +--rw remote-ipv4-address? inet:ipv4-address
| | | +--rw segment-type-7
| | | | +--rw local-ipv6-address? inet:ipv6-address
| | | | +--rw local-interface-identifier? uint32
| | | | +--rw remote-ipv6-address? inet:ipv6-address
| | | | +--rw remote-interface-identifier? uint32
| | | +--rw segment-type-8
| | | | +--rw local-ipv6-address? inet:ipv6-address
| | | | +--rw remote-ipv6-address? inet:ipv6-address
| | | +--rw segment-type-9
| | | | +--rw ipv6-address? inet:ipv6-address
| | | | +--rw algorithm? uint8
| | | +--rw segment-type-10
| | | | +--rw local-ipv6-address? inet:ipv6-address
| | | | +--rw local-interface-identifier? uint32
| | | | +--rw remote-ipv6-address? inet:ipv6-address
| | | | +--rw remote-interface-identifier? uint32
| | | +--rw segment-type-11
| | | +--rw local-ipv6-address? inet:ipv6-address
| | | +--rw remote-ipv6-address? inet:ipv6-address
| | +--rw validate? boolean
| +--rw explicit-binding-sid-rules* [index]
| +--rw index uint32
| +--rw rule? sr-policy-types:explicit-binding-sid-rule-type
+--rw policies
+--rw policy* [color endpoint]
+--rw color uint32
+--rw endpoint inet:ip-address
+--rw name? string
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+--rw description? string
+--rw admin-state? sr-policy-types:policy-admin-state
+--rw priority? uint8
+--rw binding-sid
| +--rw dataplane? sr-policy-types:dataplane-type
| +--rw value? sr-policy-types:sid-value-type
+--rw candidate-paths
+--rw candidate-path* [protocol-origin originator discriminator]
+--rw protocol-origin sr-policy-types:protocol-origin-type
+--rw originator string
+--rw discriminator uint32
+--rw name? string
+--rw preference? uint32
+--rw description? string
+--rw binding-sid {capability-candidate-path-binding-sid}?
| +--rw dataplane? sr-policy-types:dataplane-type
| +--rw value? sr-policy-types:sid-value-type
+--rw (type)?
+--:(explicit)
| +--rw segment-lists
| +--rw segment-list* [name-ref]
| +--rw name-ref -> .. segment-list/name
| +--rw weight? uint32
+--:(dynamic)
+--rw sid-dataplane-type? sr-policy-types:dataplane-type
Figure 2: SR Policy - Config Tree
Please take note of the following important points in the above
configuration model:
o This model supports both MPLS and SRv6 dataplane for SR -- i.e.
items like segments and BSID can be defined as MPLS label or SRv6
SIDs.
o Specification of a segment supports all the types defined in SR
policy base specification document
o The above model supports explicit BSID specification on SR policy
level as the main mode of specification. The model also allows
explicit BSID per candidate-path as an if-feature capability that
is optional for implementations
o The above model will be extended in future revisions of this
document to enhance items like attribute and control related to
dynamic type of segment-list, candidate-path, and traffic steering
etc.
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4.2.2. State
As per NMDA model, the state related to configuration items specified
in earlier Section 4.2.1 can be retrieved from the same tree. This
section defines the other operational state items related to SR
policy.
In addition to configured state, the operational state corresponding
to the SR policy includes:
o policy operational state
o policy up/down timestamps
o policy BSID info such as alloc mode, actual value in-use,
operational state, and forwarding stats
o Per candidate-path info such as:
* Whether candidate-path is the best candidate-path
* In case of non-best, the reason for such non-selection
* Type of candidate-path - explicit or dynamic
* Per segment-list information - such as validity of the segment-
list, as well as forwarding state for a valid segment-list.
The forwarding state is represented in terms of per forwarding
path info that includes nexthop address, outgoing interface,
protection information, and encapsulation (label stack or SRv6
SID stack) etc.
Following is a simplified graphical representation of the data model
for the SR policy operational state:
module: ietf-sr-policy
augment /rt:routing:
+--rw segment-routing
+--rw sr-policy
+--rw policies
+--rw policy* [color endpoint]
+--rw color uint32
+--rw endpoint inet:ip-address
+--ro oper-state? sr-policy-types:policy-oper-state
+--ro transition-count? uint32
+--ro up-time? yang:date-and-time
+--ro down-time? yang:date-and-time
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+--rw binding-sid
| +--ro alloc-mode? sr-policy-types:binding-sid-alloc-mode
| +--ro allocated-sid? sr-policy-types:sid-value-type
| +--ro oper-state? sr-policy-types:binding-sid-oper-state
+--ro counters
| +--ro pkts? yang:counter64
| +--ro octets? yang:counter64
+--rw candidate-paths
+--rw candidate-path* [protocol-origin originator discriminator]
+--rw protocol-origin sr-policy-types:protocol-origin-type
+--rw originator string
+--rw discriminator uint32
+--ro is-best-candidate-path? boolean
+--ro non-selection-reason? identityref
+--rw (type)?
+--:(explicit)
| +--rw segment-lists
| +--rw segment-list* [name-ref]
| +--rw name-ref -> .. segment-list/name
| +--ro is-valid? boolean
| +--ro forwarding-paths
| +--ro forwarding-path* [path-id]
| +--ro path-id uint8
| +--ro next-hop-address? inet:ip-address
| +--ro next-hop-table-id? uint32
| +--ro outgoing-interface? if:interface-ref
| +--ro outgoing-sids
| | +--ro (dataplanetype)?
| | +--:(mpls)
| | | +--ro labels* [label]
| | | +--ro label rt-types:mpls-label
| | +--:(srv6)
| | +--ro sids* [sid]
| | +--ro sid srv6-types:srv6-sid
| +--ro is-protected? boolean
| +--ro is-pure-backup? boolean
| +--ro backup-path-id? uint8
| +--ro weight? uint32
+--:(dynamic)
+--ro is-valid? boolean
+--ro forwarding-paths
+--ro forwarding-path* [path-id]
+--ro path-id uint8
+--ro next-hop-address? inet:ip-address
+--ro next-hop-table-id? uint32
+--ro outgoing-interface? if:interface-ref
+--ro outgoing-sids
| +--ro (dataplanetype)?
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| +--:(mpls)
| | +--ro labels* [label]
| | +--ro label rt-types:mpls-label
| +--:(srv6)
| +--ro sids* [sid]
| +--ro sid srv6-types:srv6-sid
+--ro is-protected? boolean
+--ro is-pure-backup? boolean
+--ro backup-path-id? uint8
+--ro weight? uint32
Figure 3: SR Policy - State Tree
4.2.3. Notification
This model defines a list of notifications to inform an operator of
important events detected regarding an SR policy. These events
include events related to:
o policy status: policy operational state changes
o Candidate-path active status and changes
o Explicit Binding SID collision/unavailability events
Following is a simplified graphical representation of the data model
for SR policy notifications:
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module: ietf-sr-policy
notifications:
+---n sr-policy-oper-state-change-event
| +--ro policy-name-ref? -> .. policy/name
| +--ro policy-color-ref? -> .. policy/color
| +--ro policy-endpoint-ref? -> .. policy/endpoint
| +--ro policy-new-oper-state? sr-policy-types:policy-oper-state
| +--ro policy-down-reason? identityref
+---n sr-policy-candidate-path-change-event
| +--ro policy-name-ref? -> .. policy/name
| +--ro policy-color-ref? -> .. policy/color
| +--ro policy-endpoint-ref? -> .. policy/endpoint
| +--ro existing-preference? uint32
| +--ro new-preference? uint32
+---n sr-policy-binding-sid-unavailable-event
| +--ro policy-name-ref? -> .. policy/name
| +--ro policy-color-ref? -> .. policy/color
| +--ro policy-endpoint-ref? -> .. policy/endpoint
| +--ro policy-binding-sid-value-ref? -> .. policy/binding-sid/value
| +--ro reason? identityref
+---n sr-policy-candidate-path-binding-sid-mismatch-event
+--ro policy-color-ref? -> .. policy/color
+--ro policy-endpoint-ref? -> .. policy/endpoint
+--ro existing-candidate-path-protocol-origin-ref? -> .. candidate-path/protocol-origin
+--ro existing-candidate-path-preference-ref? -> .. candidate-path/preference
+--ro existing-candidate-path-binding-sid-dataplane-ref? -> .. candidate-path/binding-sid/dataplane
+--ro existing-candidate-path-binding-sid-value-ref? -> .. candidate-path/binding-sid/value
+--ro conflicting-candidate-path-protocol-origin? uint8
+--ro conflicting-candidate-path-preference? uint32
+--ro conflicting-candidate-path-binding-sid-dataplane? sr-policy-types:dataplane-type
+--ro conflicting-candidate-path-binding-sid-value? sr-policy-types:sid-value-type
Figure 4: SR Policy - Notification Tree
5. Pending Items
Following are the items that will be addressed in future revisions of
this document:
o Configuration and Specification of:
* Link Attributes
* Dynamic type of candidate-path (optimization objectives and
constraints)
* Traffic steering over SR policy
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* ODN templates
* Spray policy
o Executables (RPC actions)
6. YANG Specification
Following are actual YANG definition for the modules defined earlier
in the document.
6.1. Types
<CODE BEGINS> file "ietf-sr-policy-types@2018-07-01.yang" -->
module ietf-sr-policy-types {
namespace "urn:ietf:params:xml:ns:yang:ietf-sr-policy";
prefix "ietf-sr-policy-types";
import ietf-inet-types {
prefix "inet";
}
import ietf-routing-types {
prefix "rt-types";
}
import ietf-srv6-types {
prefix "srv6-types";
}
organization "IETF SPRING Working Group";
contact
"WG Web: <http://tools.ietf.org/wg/spring/>
WG List: <mailto:spring@ietf.org>
Editor: Kamran Raza
<mailto:skraza@cisco.com>
Editor: Zhuang Shunwan
<mailto:zhuangshunwa@huawei.com>
Editor: Daniel Voyer
<mailto:daniel.voyer@bell.ca>
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Editor: Muhammad Durrani
<mailto:mdurrani@equinix.com>
Editor: Satoru Matsushima
<mailto:satoru.matsushima@g.softbank.co.jp>
";
description
"This YANG module defines the essential types for the management
of SR policy module.
Copyright (c) 2018 IETF Trust and the persons identified as
authors of the code. All rights reserved.
Redistribution and use in source and binary forms, with or
without modification, is permitted pursuant to, and subject
to the license terms contained in, the Simplified BSD License
set forth in Section 4.c of the IETF Trust's Legal Provisions
Relating to IETF Documents
(http://trustee.ietf.org/license-info).";
revision "2018-07-01" {
description
"Initial version";
reference
"draft-ietf-spring-segment-routing-policy";
}
/* Identities */
identity candidate-path-not-selected-reason {
description
"Base identity for which reasons for not selecting
candidate path are derived from";
}
identity candidate-path-not-selected-not-best {
base candidate-path-not-selected-reason;
description
"Higher preference path exists";
}
identity candidate-path-not-selected-no-valid-segment-list {
base candidate-path-not-selected-reason;
description
"Candidate path has no valid segment list(s)";
}
identity candidate-path-not-selected-empty-segment-list {
base candidate-path-not-selected-reason;
description
"Candidate path has empty segment list(s)";
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}
identity candidate-path-not-selected-invalid-binding-sid {
base candidate-path-not-selected-reason;
description
"Candidate path has invalid binding SID";
}
identity policy-down-reason {
description
"Base identity for the reasons why SR policy is operationally down";
}
identity policy-down-reason-admin-down {
base policy-down-reason;
description "Policy is administrately down";
}
identity policy-down-reason-no-source-address {
base policy-down-reason;
description "Policy has no source address";
}
identity policy-down-reason-no-endpoint {
base policy-down-reason;
description "Policy has no end-point";
}
identity policy-down-reason-no-candidate-path {
base policy-down-reason;
description "Policy has no candidate path";
}
identity policy-down-reason-no-valid-candidate-path {
base policy-down-reason;
description "Policy has no valid candidate path";
}
identity policy-down-reason-candidate-path-invalid-segment-list {
base policy-down-reason;
description "Policy's candidate path has invalid segment list";
}
identity policy-down-reason-policy-unconfigured {
base policy-down-reason;
description "Policy is unconfigured";
}
identity policy-down-reason-policy-color-endpoint-updated {
base policy-down-reason;
description "Policy's color and end-point are updated";
}
identity policy-down-reason-local-label-setup-failed {
base policy-down-reason;
description "Policy's local label setup (allocation/rewrite) failed";
}
identity policy-down-reason-forwarding-rewrite-failed {
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base policy-down-reason;
description "Policy's forwarding rewrite installation failed";
}
identity policy-down-reason-internal-error {
base policy-down-reason;
description "Infra related internal error";
}
identity binding-sid-unavailable-reason {
description
"Base identity for binding sid unavailable reason types";
}
identity binding-sid-allocation-error {
base binding-sid-unavailable-reason;
description "SID allocator returned an error";
}
identity binding-sid-already-exists {
base binding-sid-unavailable-reason;
description "Binding sid already exists/allocated";
}
identity binding-sid-internal-error {
base binding-sid-unavailable-reason;
description "Internal error with binding sid allocation";
}
identity binding-sid-color-endpoint-conflict {
base binding-sid-unavailable-reason;
description "Binding sid already allocated by another sr-policy with different color/endpoint";
}
identity binding-sid-rewrite-error {
base binding-sid-unavailable-reason;
description "Binding sid forwarding rewrite error";
}
identity binding-sid-outside-srlb-range {
base binding-sid-unavailable-reason;
description "Binding sid outside SRLB range";
}
/* Typdefs */
typedef sid-value-type {
type union {
type rt-types:mpls-label;
type srv6-types:srv6-sid;
}
description "The SID value type";
}
typedef binding-sid-oper-state {
type enumeration {
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enum ALLOC-PENDING {
value 1;
description "SID allocation pending for Binding SID";
}
enum PROGRAMMED {
value 3;
description "Binding SID is programmed in forwarding";
}
enum CONFLICT {
value 4;
description "Binding SID is in-conflict state with
regards to SID allocation. This also means that SID
allocation is pending";
}
}
description
"Binding SID operational state type";
}
typedef policy-admin-state {
type enumeration {
enum UP {
value 1;
description "SR policy is administratively up";
}
enum DOWN {
value 2;
description "SR policy is administratively down";
}
}
description "SR policy admin state";
}
typedef policy-oper-state {
type enumeration {
enum UP {
value 1;
description "SR policy is operationally up";
}
enum DOWN {
value 2;
description "SR policy is operationally down";
}
}
description "SR policy oper state";
}
typedef segment-type {
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type enumeration {
enum segment-type-1 {
value 1;
description "SR-MPLS Label";
}
enum segment-type-2 {
value 2;
description "SRv6 SID";
}
enum segment-type-3 {
value 3;
description "IPv4 Prefix with optional SR Algorithm";
}
enum segment-type-4 {
value 4;
description "IPv6 Global Prefix with optional SR Algorithm for SR-MPLS";
}
enum segment-type-5 {
value 5;
description "IPv4 Prefix with Local Interface ID";
}
enum segment-type-6 {
value 6;
description "IPv4 Addresses for link endpoints as Local, Remote pair";
}
enum segment-type-7 {
value 7;
description "IPv6 Prefix and Interface ID for link endpoints as Local,
Remote pair for SR-MPLS";
}
enum segment-type-8 {
value 8;
description "IPv6 Addresses for link endpoints as Local, Remote pair for
SR-MPLS";
}
enum segment-type-9 {
value 9;
description "IPv6 Global Prefix with optional SR Algorithm for SRv6";
}
enum segment-type-10 {
value 10;
description "IPv6 Prefix and Interface ID for link endpoints as Local,
Remote pair for SRv6";
}
enum segment-type-11 {
value 11;
description "IPv6 Addresses for link endpoints as Local, Remote pair for
SRv6";
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}
}
description "SR segment type";
}
typedef dataplane-type {
type enumeration {
enum mpls {
value 1;
description "Segment-routing MPLS";
}
enum srv6 {
value 2;
description "Segment-routing v6";
}
}
description "Dataplane type of the segments";
}
typedef binding-sid-alloc-mode {
type enumeration {
enum explicit {
value 1;
description "Explicitly specified BSID";
}
enum dynamic {
value 2;
description "Dynamically allocated BSID";
}
}
description "binding SID allocation mode";
}
typedef protocol-origin-type {
type enumeration {
enum pcep {
value 10;
description "PCEP used as signalling mechanism for the candidate path";
}
enum bgp {
value 20;
description "BGP used as signalling mechanism for the candidate path";
}
enum local {
value 30;
description "CLI, Yang model via Netconf, gRPC, etc used for candidate path instantiation";
}
}
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description "Originating protocol type";
}
typedef explicit-binding-sid-rule-type {
type enumeration {
enum enforce-srlb {
value 1;
description
"Explicit Binding SID is enforced with no
fallback if label does not fall in SRLB or
if no SRLB is configured";
}
enum fallback-dynamic {
value 2;
description
"Explicit Binding SID falls back to dynamic in
case explicit label is not available.";
}
}
description "Explicit binding sid rule types";
}
}
<CODE ENDS>
Figure 5: ietf-sr-policy-types.yang
6.2. SR Policy
<CODE BEGINS> file "ietf-sr-policy@2018-07-01.yang" -->
module ietf-sr-policy {
namespace "urn:ietf:params:xml:ns:yang:ietf-sr-policy";
prefix "ietf-sr-policy";
import ietf-inet-types {
prefix "inet";
}
import ietf-interfaces {
prefix if;
}
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import ietf-routing {
prefix "rt";
}
import ietf-routing-types {
prefix "rt-types";
}
import ietf-yang-types {
prefix "yang";
}
import ietf-srv6-types {
prefix "srv6-types";
}
import ietf-sr-policy-types {
prefix "sr-policy-types";
}
organization "IETF SPRING Working Group";
contact
"WG Web: <http://tools.ietf.org/wg/spring/>
WG List: <mailto:spring@ietf.org>
Editor: Kamran Raza
<mailto:skraza@cisco.com>
Editor: Zhuang Shunwan
<mailto:zhuangshunwa@huawei.com>
Editor: Daniel Voyer
<mailto:daniel.voyer@bell.ca>
Editor: Muhammad Durrani
<mailto:mdurrani@equinix.com>
Editor: Satoru Matsushima
<mailto:satoru.matsushima@g.softbank.co.jp>
";
description
"This module contains a collection of YANG definitions
for SR policy module.
Copyright (c) 2018 IETF Trust and the persons identified as
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authors of the code. All rights reserved.
Redistribution and use in source and binary forms, with or
without modification, is permitted pursuant to, and subject
to the license terms contained in, the Simplified BSD License
set forth in Section 4.c of the IETF Trust's Legal Provisions
Relating to IETF Documents
(http://trustee.ietf.org/license-info).";
revision "2018-07-01" {
description
"Initial version";
reference
"draft-ietf-spring-segment-routing-policy";
}
grouping segment_config {
description "Segment properties grouping";
leaf index {
type uint32;
description "Segment index";
}
leaf type {
type sr-policy-types:segment-type;
description "Segment type";
}
container segment-types {
description "Types of segments";
container segment-type-1 {
description
"Segment declared by MPLS label";
leaf sid-value {
type rt-types:mpls-label;
description "MPLS label value";
}
}
container segment-type-2 {
description
"Segment declared by SRv6 SID value";
leaf sid-value {
type srv6-types:srv6-sid;
description "SRv6 SID value";
}
}
container segment-type-3 {
description
"Segment declared by IPv4 Prefix with optional SR Algorithm";
leaf ipv4-address {
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type inet:ipv4-address;
description "Segment IPv4 address";
}
leaf algorithm {
type uint8;
description "Prefix SID algorithm identifier";
}
}
container segment-type-4 {
description
"Segment declared by IPv6 Global Prefix with optional
SR Algorithm for SR-MPLS";
leaf ipv6-address {
type inet:ipv6-address;
description "Segment IPv6 address";
}
leaf algorithm {
type uint8;
description "Prefix SID algorithm identifier";
}
}
container segment-type-5 {
description
"Segment declared by IPv4 Prefix with Local Interface ID";
leaf ipv4-address {
type inet:ipv4-address;
description "Node IPv4 address";
}
leaf interface-identifier {
type uint32;
description "local interface identifier";
}
}
container segment-type-6 {
description
"Segment declared by IPv4 Addresses for link endpoints
as Local, Remote pair";
leaf local-ipv4-address {
type inet:ipv4-address;
description "Segment local IPv4 adjacency address";
}
leaf remote-ipv4-address {
type inet:ipv4-address;
description "Segment remote IPv4 adjacency address";
}
}
container segment-type-7 {
description
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"Segment declared by IPv6 Prefix and Interface ID for
link endpoints as Local, Remote pair for SR-MPLS";
leaf local-ipv6-address {
type inet:ipv6-address;
description "Local link IPv6 address";
}
leaf local-interface-identifier {
type uint32;
description "Local interface identifier";
}
leaf remote-ipv6-address {
type inet:ipv6-address;
description "Remote link IPv6 address";
}
leaf remote-interface-identifier {
type uint32;
description "Remote interface identifier";
}
}
container segment-type-8 {
description
"Segment declared by IPv6 Addresses for link endpoints as
Local, Remote pair for SR-MPLS";
leaf local-ipv6-address {
type inet:ipv6-address;
description "Segment local IPv6 adjacency address";
}
leaf remote-ipv6-address {
type inet:ipv6-address;
description "Segment remote IPv6 adjacency address";
}
}
container segment-type-9 {
description
"Segment declared by IPv6 Global Prefix with optional
SR Algorithm for SRv6";
leaf ipv6-address {
type inet:ipv6-address;
description "Segment IPv6 prefix";
}
leaf algorithm {
type uint8;
description "Prefix SID algorithm identifier";
}
}
container segment-type-10 {
description
"Segment declared by IPv6 Prefix and Interface ID for
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link endpoints as Local, Remote pair for SRv6";
leaf local-ipv6-address {
type inet:ipv6-address;
description "Local link IPv6 address";
}
leaf local-interface-identifier {
type uint32;
description "Local interface identifier";
}
leaf remote-ipv6-address {
type inet:ipv6-address;
description "Remote link IPv6 address";
}
leaf remote-interface-identifier {
type uint32;
description "Remote interface identifier";
}
}
container segment-type-11 {
description
"Segment declared by IPv6 Addresses for link endpoints as
Local, Remote pair for SRv6";
leaf local-ipv6-address {
type inet:ipv6-address;
description "Segment local IPv6 adjacency address";
}
leaf remote-ipv6-address {
type inet:ipv6-address;
description "Segment remote IPv6 adjacency address";
}
}
}
leaf validate {
type boolean;
default 'false';
description "Indicates whether the segment should be validated. The default
applies to all segments other than the first segment. For the
first segment, validation is always done.";
}
}
grouping segment-properties {
description
"SR segment properties grouping";
uses segment_config;
}
grouping policy-attributes {
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description
"Grouping containing attributes applicable to all SR policies";
container policy-attributes {
description
"Attributes applicable to all SR policies";
uses segment-lists;
uses explicit-binding-sid-rules;
}
}
grouping segment-lists {
description
"Segment lists grouping";
container segment-lists {
description "Segment-lists properties";
list segment-list {
key "name";
description "Segment-list properties";
leaf name {
type string;
description "Segment-list name";
}
container segments {
description
"Segments for given segment list";
list segment {
key "index";
description "Configure Segment/hop at the index";
uses segment-properties;
}
}
}
}
}
grouping binding-sid_config {
description
"Binding SID configuration properties grouping";
leaf dataplane {
type sr-policy-types:dataplane-type;
description "Binding SID dataplane type";
}
leaf value {
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type sr-policy-types:sid-value-type;
description "Binding SID value";
}
}
grouping forwarding-counters {
description
"Grouping for counters";
container counters {
config false;
description
"Counters containing stats related to forwarding";
leaf pkts {
type yang:counter64;
description "Number of packets forwarded";
}
leaf octets {
type yang:counter64;
units "byte";
description "Number of bytes forwarded";
}
}
}
grouping binding-sid_state {
description
"Binding SID state properties grouping";
leaf alloc-mode {
type sr-policy-types:binding-sid-alloc-mode;
config false;
description "Binding SID type";
}
leaf allocated-sid {
type sr-policy-types:sid-value-type;
config false;
description "Allocated SID value for the Binding SID";
}
leaf oper-state {
type sr-policy-types:binding-sid-oper-state;
config false;
description
"Binding SID operational state";
}
}
grouping binding-sid-properties {
description
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"Binding SID properties grouping";
container binding-sid {
description "Binding Segment ID";
uses binding-sid_config;
uses binding-sid_state;
}
}
grouping mpls-label-stack {
description
"Grouping for MPLS label stack";
list labels {
key "label";
description
"Stack containing MPLS labels";
leaf label {
type rt-types:mpls-label;
description
"MPLS label value";
}
}
}
grouping srv6-sid-stack {
description
"Grouping for SRv6 label stack";
list sids {
key "sid";
description
"Stack containing SRv6 SIDs";
leaf sid {
type srv6-types:srv6-sid;
description
"SRv6 sid value";
}
}
}
grouping path-forwarding_state {
description "Policy Forwarding path information";
leaf path-id {
type uint8;
description "Primary path id";
}
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leaf next-hop-address {
type inet:ip-address;
description "Nexthop address";
}
leaf next-hop-table-id {
type uint32;
description "Table ID for nexthop address";
}
leaf outgoing-interface {
type if:interface-ref;
description "Outgoing interface handle";
}
container outgoing-sids {
description
"Outgoing sid stack";
choice dataplanetype {
description
"Outgoing sids dataplane choice";
case mpls {
uses mpls-label-stack;
}
case srv6 {
uses srv6-sid-stack;
}
}
}
leaf is-protected {
type boolean;
description "Is this path protected ?";
}
leaf is-pure-backup {
type boolean;
description "Is this path a pure backup ?";
}
leaf backup-path-id {
type uint8;
description "Backup path id";
}
leaf weight {
type uint32;
description "Path's weight for W-ECMP balancing";
}
}
grouping explicit-path-properties {
description
"Explicit path properties of the candidate path";
container segment-lists {
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description
"Path segment list(s) properties";
list segment-list {
key "name-ref";
description "SR policy candidate path segment lists";
leaf name-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policy-attributes/ietf-sr-policy:segment-lists/ietf-sr-policy:segment-list/ietf-sr-policy:name";
}
description "Reference to segment-list name";
}
leaf weight {
type uint32;
description "Segment-list weighted loadshare";
}
leaf is-valid {
type boolean;
config false;
description
"True if the segment-list is valid, False otherwise";
}
container forwarding-paths {
config false;
description
"Forwarding state of paths";
list forwarding-path {
key "path-id";
description "Forwarding path";
uses path-forwarding_state;
}
}
}
}
}
grouping dynamic-path-properties {
description
"Dynamic path properties of the candidate path";
leaf sid-dataplane-type {
type sr-policy-types:dataplane-type;
description
"The dataplane type for the sid";
}
leaf is-valid {
type boolean;
config false;
description
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"True if the segment-list is valid, False otherwise";
}
container forwarding-paths {
config false;
description
"Forwarding state of paths";
list forwarding-path {
key "path-id";
description "Forwarding path";
uses path-forwarding_state;
}
}
}
grouping candidate-path_state {
description
"Candidate path state properties grouping";
leaf is-best-candidate-path {
type boolean;
default 'false';
config false;
description
"True if the candidate path is the best candidate path, False otherwise";
}
leaf non-selection-reason {
type identityref {
base sr-policy-types:candidate-path-not-selected-reason;
}
config false;
description
"Candidate path not selected reason";
}
}
grouping policy-properties_config {
description
"SR policy configuration grouping";
leaf name {
type string {
length "1..59";
}
description "SR policy name";
}
leaf color {
type uint32 {
range "1..4294967295";
}
description "Color associated with the policy";
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}
leaf endpoint {
type inet:ip-address;
description "Policy end point IP address";
}
leaf description {
type string;
description "Description of the policy";
}
leaf admin-state {
type sr-policy-types:policy-admin-state;
default 'UP';
description
"SR policy administrative state, true for
enabled, false for disabled";
}
}
grouping policy-properties_state {
description
"SR policy property grouping";
leaf oper-state {
type sr-policy-types:policy-oper-state;
config false;
description
"SR policy operational state";
}
leaf transition-count {
type uint32;
config false;
description "Indicates number of up/down transitions";
}
leaf up-time {
type yang:date-and-time;
config false;
description "Policy up time in seconds";
}
leaf down-time {
type yang:date-and-time;
config false;
description "Policy down time in seconds";
}
}
grouping policy-properties {
description
"SR policy properties";
uses policy-properties_state;
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uses binding-sid-properties;
uses forwarding-counters;
}
grouping candidate-path-type {
description "Candidate path type grouping";
choice type {
description
"Type of candidate paths";
case explicit {
description "Candidate path with explicitly defined set/s of segment-lists";
uses explicit-path-properties;
}
case dynamic {
description "Candidate path with dynamic computed segment-lists";
uses dynamic-path-properties;
}
}
}
grouping candidate-paths {
description "SR policy candidate path grouping";
container candidate-paths {
description "SR policy candidate path(s) ";
list candidate-path {
key "protocol-origin originator discriminator";
description "SR policy Candidate path(s) list entry";
leaf protocol-origin {
type sr-policy-types:protocol-origin-type;
description
"Instantiation mechanism used to create the candidate path";
}
leaf originator {
type string;
description
"Identifier (concatenation of ASN and node-address) of the node
that signalled/instantiated the candidate path on headend";
}
leaf discriminator {
type uint32;
description "Candidate path distinguisher";
}
leaf name {
type string;
description "Candidate path name";
}
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leaf preference {
type uint32 {
range "1..65535";
}
description "Candidate path preference";
}
leaf description {
type string;
description "Candidate path description";
}
container binding-sid {
if-feature capability-candidate-path-binding-sid;
description
"Binding segment ID";
uses binding-sid_config;
}
uses candidate-path_state;
uses candidate-path-type;
}
}
}
grouping policies {
description "SR policy grouping";
container policies {
description "SR Policy container";
list policy {
key "color endpoint";
unique "name";
description "SR Policy properties";
leaf color {
type uint32 {
range "1..4294967295";
}
description "Color associated with the policy";
}
leaf endpoint {
type inet:ip-address;
description "Policy end point IP address";
}
leaf name {
type string {
length "1..59";
}
description "SR policy name";
}
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leaf description {
type string;
description "Description of the policy";
}
leaf admin-state {
type sr-policy-types:policy-admin-state;
default 'UP';
description
"SR policy administrative state, true for
enabled, false for disabled";
}
leaf priority {
type uint8;
default 128;
description "Priority considered when policy is recomputed due to topology changes";
}
uses policy-properties;
uses candidate-paths;
}
}
}
grouping explicit-binding-sid-rules {
description
"Grouping for explicit binding sid rules";
list explicit-binding-sid-rules {
key "index";
description
"Explicit binding sid rules applicable for all policies";
leaf index {
type uint32;
description "Explicit binding SID rules list index";
}
leaf rule {
type sr-policy-types:explicit-binding-sid-rule-type;
description "Explicit binding sid rule";
}
}
}
augment "/rt:routing" {
description
"This augments routing-instance configuration with segment-routing sr-policy.";
container segment-routing {
description "Main segment routing container";
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container sr-policy {
description "SR policy main container";
uses policy-attributes;
uses policies;
}
}
}
/* Notifications */
notification sr-policy-oper-state-change-event {
description
"Notification event when the operational state of the SR policy changes";
leaf policy-name-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:name";
}
description "Reference to sr-policy name";
}
leaf policy-color-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:color";
}
description "Reference to sr-policy color";
}
leaf policy-endpoint-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:endpoint";
}
description "Reference to sr-policy endpoint";
}
leaf policy-new-oper-state {
type sr-policy-types:policy-oper-state;
description "New operational state of the SR policy";
}
leaf policy-down-reason {
type identityref {
base sr-policy-types:policy-down-reason;
}
description "Down reason if the SR policy's new operational state is down";
}
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}
notification sr-policy-candidate-path-change-event {
description
"Notification event when candidate path changes for SR policy";
leaf policy-name-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:name";
}
description "Reference to sr-policy name";
}
leaf policy-color-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:color";
}
description "Reference to sr-policy color";
}
leaf policy-endpoint-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:endpoint";
}
description "Reference to sr-policy endpoint";
}
leaf existing-preference {
type uint32;
description "Existing candidate path preference";
}
leaf new-preference {
type uint32;
description "New candidate path preference";
}
}
notification sr-policy-binding-sid-unavailable-event {
description
"Notification event when the binding sid of sr-policy is unavailable";
leaf policy-name-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:name";
}
description "Reference to sr-policy name";
}
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leaf policy-color-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:color";
}
description "Reference to sr-policy color";
}
leaf policy-endpoint-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:endpoint";
}
description "Reference to sr-policy endpoint";
}
leaf policy-binding-sid-value-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:binding-sid/ietf-sr-policy:value";
}
description "Reference to sr-policy binding-sid value";
}
leaf reason {
type identityref {
base sr-policy-types:binding-sid-unavailable-reason;
}
description
"Reason why the binding sid is unavailable";
}
}
notification sr-policy-candidate-path-binding-sid-mismatch-event {
description
"Notification event when binding sid of requested candidate path
is different from the binding sid of the existing candidate path";
leaf policy-color-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:color";
}
description "Reference to sr-policy color";
}
leaf policy-endpoint-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:endpoint";
}
description "Reference to sr-policy endpoint";
}
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leaf existing-candidate-path-protocol-origin-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:candidate-paths/ietf-sr-policy:candidate-path/ietf-sr-policy:protocol-origin";
}
description "Reference to existing candidate path protocol origin";
}
leaf existing-candidate-path-preference-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:candidate-paths/ietf-sr-policy:candidate-path/ietf-sr-policy:preference";
}
description "Reference to existing candidate path preference";
}
leaf existing-candidate-path-binding-sid-dataplane-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:candidate-paths/ietf-sr-policy:candidate-path/ietf-sr-policy:binding-sid/ietf-sr-policy:dataplane";
}
description "Reference to existing candidate path binding sid dataplane type";
}
leaf existing-candidate-path-binding-sid-value-ref {
type leafref {
path "/rt:routing/ietf-sr-policy:segment-routing/ietf-sr-policy:sr-policy/ietf-sr-policy:policies/ietf-sr-policy:policy/ietf-sr-policy:candidate-paths/ietf-sr-policy:candidate-path/ietf-sr-policy:binding-sid/ietf-sr-policy:value";
}
description "Reference to existing candidate path binding sid value";
}
leaf conflicting-candidate-path-protocol-origin {
type uint8;
description "Conflicting candidate path protocol origin";
}
leaf conflicting-candidate-path-preference {
type uint32;
description "Conflicting candidate path preference";
}
leaf conflicting-candidate-path-binding-sid-dataplane {
type sr-policy-types:dataplane-type;
description "Conflicting candidate path binding sid dataplane type";
}
leaf conflicting-candidate-path-binding-sid-value {
type sr-policy-types:sid-value-type;
description "Conflicting candidate path binding sid value";
}
}
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/* Features */
feature capability-candidate-path-binding-sid {
description
"This feature enables the capability of specifying binding-sid
for a candidate path.";
}
}
<CODE ENDS>
Figure 6: ietf-sr-policy.yang
7. Security Considerations
The configuration, state, and notification data defined using YANG
data models in this document are likely to be accessed via the
protocols such as NETCONF [RFC6241] etc.
Hence, YANG implementations MUST comply with the security
requirements specified in section 15 of [RFC6020]. Additionally,
NETCONF implementations MUST comply with the security requirements
specified in sections 2.2, 2.3 and 9 of [RFC6241] as well as section
3.7 of [RFC8341].
8. IANA Considerations
This document requests the registration of the following URIs in the
IETF "XML registry" [RFC3688]:
+------------------------------------------------+------------+-----+
| URI | Registrant | XML |
+------------------------------------------------+------------+-----+
| urn:ietf:params:xml:ns:yang:ietf-sr-policy- | The IESG | N/A |
| types | | |
| | | |
| urn:ietf:params:xml:ns:yang:ietf-sr-policy | The IESG | N/A |
+------------------------------------------------+------------+-----+
This document requests the registration of the following YANG modules
in the "YANG Module Names" registry [RFC6020]:
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+--------------+------------------------------+------------+--------+
| Name | Namespace | Prefix | Refere |
| | | | nce |
+--------------+------------------------------+------------+--------+
| ietf-sr- | urn:ietf:params:xml:ns:yang | sr-policy- | This d |
| policy-types | :ietf-sr-policy-types | types | ocumen |
| | | | t |
| | | | |
| ietf-sr- | urn:ietf:params:xml:ns:yang | sr-policy | This d |
| policy | :ietf-sr-policy | | ocumen |
| | | | t |
+--------------+------------------------------+------------+--------+
9. Acknowledgments
The authors of this document/YANG model would like to acknowledge the
contributions/reviews by Johnson Thomas, Clarence Filsfils, Siva
Sivabalan, Tarek Saad, Kris Michielsen, Dhanendra Jain, Ketan
Talaulikar, Bhupendra Yadav, and Bruno Decraene.
10. References
10.1. Normative References
[I-D.ietf-spring-segment-routing-policy]
Filsfils, C., Sivabalan, S., daniel.voyer@bell.ca, d.,
bogdanov@google.com, b., and P. Mattes, "Segment Routing
Policy Architecture", draft-ietf-spring-segment-routing-
policy-03 (work in progress), May 2019.
[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>.
[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>.
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[RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174,
May 2017, <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>.
[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>.
[RFC8402] Filsfils, C., Ed., Previdi, S., Ed., Ginsberg, L.,
Decraene, B., Litkowski, S., and R. Shakir, "Segment
Routing Architecture", RFC 8402, DOI 10.17487/RFC8402,
July 2018, <https://www.rfc-editor.org/info/rfc8402>.
[RFC8407] Bierman, A., "Guidelines for Authors and Reviewers of
Documents Containing YANG Data Models", BCP 216, RFC 8407,
DOI 10.17487/RFC8407, October 2018,
<https://www.rfc-editor.org/info/rfc8407>.
10.2. Informative References
[I-D.ietf-idr-segment-routing-te-policy]
Previdi, S., Filsfils, C., Jain, D., Mattes, P., Rosen,
E., and S. Lin, "Advertising Segment Routing Policies in
BGP", draft-ietf-idr-segment-routing-te-policy-06 (work in
progress), May 2019.
Authors' Addresses
Kamran Raza (editor)
Cisco Systems
Email: skraza@cisco.com
Robert Sawaya
Cisco Systems
Email: thjohns2@cisco.com
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Zhuang Shunwan
Huawei Technologies
Email: zhuangshunwa@huawei.com
Daniel Voyer
Bell Canada
Email: daniel.voyer@bell.ca
Muhammad Durrani
Equinix
Email: mdurrani@equinix.com
Satoru Matsushima
SoftBank
Email: satoru.matsushima@g.softbank.co.jp
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