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draft-ietf-pce-pcep-yang-11.xml
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draft-ietf-pce-pcep-yang-11.xml
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<?xml version="1.0" encoding="us-ascii"?>
<!DOCTYPE rfc SYSTEM "rfc2629.dtd"[]>
<?rfc toc="yes" ?>
<?rfc tocompact="yes"?>
<?rfc tocdepth="4"?>
<?rfc tocindent="yes"?>
<?rfc symrefs="yes" ?>
<?rfc sortrefs="no"?>
<?rfc rfcedstyle="yes"?>
<?rfc subcompact="no"?>
<?rfc compact="yes" ?>
<?rfc iprnotified="Yes" ?>
<?rfc strict="no" ?>
<rfc ipr="trust200902" category="std" docName="draft-ietf-pce-pcep-yang-11" obsoletes="" updates="" submissionType="IETF" xml:lang="en">
<front>
<title abbrev="PCE-YANG">A YANG Data Model for Path Computation Element Communications Protocol (PCEP)</title>
<author initials="D" surname="Dhody" fullname="Dhruv Dhody" role="editor">
<organization>Huawei Technologies</organization>
<address>
<postal>
<street>Divyashree Techno Park, Whitefield</street>
<city>Bangalore</city>
<region>Karnataka</region>
<code>560066</code>
<country>India</country>
</postal>
<email>dhruv.ietf@gmail.com</email>
</address>
</author>
<author fullname="Jonathan Hardwick" initials="J." surname="Hardwick">
<organization>Metaswitch</organization>
<address>
<postal>
<street>100 Church Street</street>
<city>Enfield</city>
<code>EN2 6BQ</code>
<country>UK</country>
</postal>
<email> jonathan.hardwick@metaswitch.com </email>
</address>
</author>
<author fullname="Vishnu Pavan Beeram" initials="V." surname="Beeram">
<organization>Juniper Networks</organization>
<address>
<postal>
<street></street>
<city></city>
<code></code>
<country>USA</country>
</postal>
<email> vbeeram@juniper.net </email>
</address>
</author>
<author fullname="Jeff Tantsura" initials="J." surname="Tantsura">
<organization></organization>
<address>
<postal>
<street></street>
<city></city>
<region></region>
<code></code>
<country>USA</country>
</postal>
<email>jefftant@gmail.com</email>
</address>
</author>
<date year="2019" />
<area>Routing</area>
<workgroup>PCE Working Group</workgroup>
<abstract>
<t>This document defines a YANG data model for the management of
Path Computation Element communications Protocol (PCEP) for
communications between a Path Computation Client (PCC) and a Path
Computation Element (PCE), or between two PCEs. The data model
includes configuration and state data.</t>
</abstract>
</front>
<middle>
<section title="Introduction" toc="default">
<t>The Path Computation Element (PCE) defined in <xref target="RFC4655"/>
is an entity that is capable of computing a network path or route
based on a network graph, and applying computational constraints.
A Path Computation Client (PCC) may make requests to a PCE for paths
to be computed.</t>
<t>PCEP is the communication protocol between a PCC and PCE and is
defined in <xref target="RFC5440"/>. PCEP interactions include path
computation requests and path computation replies as well as
notifications of specific states related to the use of a PCE in the
context of Multiprotocol Label Switching (MPLS) and Generalized MPLS
(GMPLS) Traffic Engineering (TE). <xref target='RFC8231'/>
specifies extensions to PCEP to enable stateful control of MPLS TE LSPs. </t>
<t>This document defines a YANG <xref target="RFC7950"/> data model
for the management of PCEP speakers. It is important to
establish a common data model for how PCEP speakers are identified,
configured, and monitored. The data model includes configuration data
and state data.</t>
<t>This document contains a specification of the PCEP YANG module,
"ietf-pcep" which provides the PCEP <xref target="RFC5440"/> data
model.</t>
<t>The PCEP operational state is included in the same tree as the PCEP
configuration consistent with Network Management Datastore
Architecture <xref target="RFC8342"/>.
The origin of the data is indicated as per the origin metadata
annotation.</t>
</section>
<section title="Requirements Language" toc="default">
<t>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 <xref target="RFC2119" /> <xref target="RFC8174"/> when, and only when, they
appear in all capitals, as shown here.</t>
</section>
<section title="Terminology and Notation" toc="default">
<t>
This document uses the terminology defined in <xref target="RFC4655"/>
and <xref target="RFC5440"/>. In particular, it uses the following
acronyms.
<list style='symbols'>
<t>
Path Computation Request message (PCReq).
</t>
<t>
Path Computation Reply message (PCRep).
</t>
<t>
Notification message (PCNtf).
</t>
<t>
Error message (PCErr).
</t>
<t>
Request Parameters object (RP).
</t>
<t>
Synchronization Vector object (SVEC).
</t>
<t>
Explicit Route object (ERO).
</t>
</list>
</t>
<t>
This document also uses the following terms defined in
<xref target="RFC7420"/>:
<list style='symbols'>
<t>
PCEP entity: a local PCEP speaker.
</t>
<t>
PCEP peer: to refer to a remote PCEP speaker.
</t>
<t>PCEP speaker: where it is not necessary to distinguish between local
and remote.
</t>
</list>
</t>
<t>
Further, this document also uses the following terms defined in
<xref target='RFC8231'/> :
<list style='symbols'>
<t>
Stateful PCE, Passive Stateful PCE, Active Stateful PCE
</t>
<t>
Delegation, Revocation, Redelegation
</t>
<t>LSP State Report, Path Computation Report message (PCRpt).</t>
<t>LSP State Update, Path Computation Update message (PCUpd).</t>
</list>
</t>
<t>
<xref target='RFC8281'/> :
<list style='symbols'>
<t>PCE-initiated LSP, Path Computation LSP Initiate Message (PCInitiate).</t>
</list>
</t>
<t>
<xref target='RFC8408'/> :
<list style='symbols'>
<t>Path Setup Type (PST).</t>
</list>
</t>
<t>
<xref target='I-D.ietf-pce-segment-routing'/> :
<list style='symbols'>
<t>Segment Routing (SR).</t>
</list>
</t>
<t>
<xref target='RFC6241'/> :
<list style='symbols'>
<t>Configuration data.</t>
<t>State data.</t>
</list>
</t>
<section anchor="sec.tree-symbols" title="Tree Diagrams" toc="default">
<t>A simplified graphical representation of the data model is used in this
document. The meaning of the symbols in these diagrams is defined in <xref target="RFC8340"/>.
</t>
<!--
<list style="symbols">
<t>Brackets "[" and "]" enclose list keys.</t>
<t>Abbreviations before data node names: "rw" means
configuration (read-write) and "ro" state data
(read-only).</t>
<t>Symbols after data node names: "?" means an optional node, "!"
means a presence container, and "*" denotes a list and leaf-list.</t>
<t>Parentheses enclose choice and case nodes, and case nodes
are also marked with a colon (":").</t>
<t>Ellipsis ("...") stands for contents of subtrees that are
not shown.</t>
</list></t>-->
</section>
<section title="Prefixes in Data Node Names" toc="default">
<t>In this document, names of data nodes and other data
model objects are often used without a prefix, as long as it is clear
from the context in which YANG module each name is defined.
Otherwise, names are prefixed using the standard prefix associated
with the corresponding YANG module, as shown in <xref target="tab.prefixes" pageno="false" format="default"/>.</t>
<texttable anchor="tab.prefixes" title="Prefixes and corresponding YANG modules" suppress-title="false" align="center" style="full">
<ttcol align="left">Prefix</ttcol>
<ttcol align="left">YANG module</ttcol>
<ttcol align="left">Reference</ttcol>
<c>yang</c><c>ietf-yang-types</c><c><xref target="RFC6991" pageno="false" format="default"/></c>
<c>inet</c><c>ietf-inet-types</c><c><xref target="RFC6991" pageno="false" format="default"/></c>
<c>te</c><c>ietf-te</c><c><xref target="I-D.ietf-teas-yang-te" pageno="false" format="default"/></c>
<c>te-types</c><c>ietf-te-types</c><c><xref target="I-D.ietf-teas-yang-te" pageno="false" format="default"/></c>
<c>key-chain</c><c>ietf-key-chain</c><c><xref target="RFC8177" pageno="false" format="default"/></c>
<c>nacm</c><c>ietf-netconf-acm</c><c><xref target="RFC8341" pageno="false" format="default"/></c>
<c>tls-server</c><c>ietf-tls-server</c><c><xref target="I-D.ietf-netconf-tls-client-server" pageno="false" format="default"/></c>
<c>tls-client</c><c>ietf-tls-client</c><c><xref target="I-D.ietf-netconf-tls-client-server" pageno="false" format="default"/></c>
<c>ospf</c><c>ietf-ospf</c><c><xref target="I-D.ietf-ospf-yang" pageno="false" format="default"/></c>
<c>isis</c><c>ietf-isis</c><c><xref target="I-D.ietf-isis-yang-isis-cfg" pageno="false" format="default"/></c>
</texttable>
</section>
<section title="Refrences in the Model" toc="default">
<t>Following documents are refrenced in the model defined in this document - </t>
<texttable anchor="tab.ref" title="Refrences in the YANG modules" suppress-title="false" align="center" style="full">
<ttcol align="left">Documents</ttcol>
<ttcol align="left">Reference</ttcol>
<c>RSVP-TE: Extensions to RSVP for LSP Tunnels</c><c><xref target="RFC3209" pageno="false" format="default"/></c>
<c>OSPF Protocol Extensions for Path Computation Element (PCE) Discovery</c><c><xref target="RFC5088" pageno="false" format="default"/></c>
<c>IS-IS Protocol Extensions for Path Computation Element (PCE) Discovery</c><c><xref target="RFC5089" pageno="false" format="default"/></c>
<c>Path Computation Element (PCE) Communication Protocol (PCEP)</c><c><xref target="RFC5440" pageno="false" format="default"/></c>
<c>Preserving Topology Confidentiality in Inter-Domain Path Computation Using a Path-Key-Based Mechanism</c><c><xref target="RFC5520" pageno="false" format="default"/></c>
<c>Encoding of Objective Functions in the Path Computation Element Communication Protocol (PCEP)</c><c><xref target="RFC5541" pageno="false" format="default"/></c>
<c>Path Computation Element Communication Protocol (PCEP) Requirements and Protocol Extensions in Support of Global Concurrent Optimization</c><c><xref target="RFC5557" pageno="false" format="default"/></c>
<c>Common YANG Data Types</c><c><xref target="RFC6991" pageno="false" format="default"/></c>
<c>YANG Data Model for Key Chains</c><c><xref target="RFC8177" pageno="false" format="default"/></c>
<c>Path Computation Element Communication Protocol (PCEP) Extensions for Stateful PCE</c><c><xref target="RFC8231" pageno="false" format="default"/></c>
<c>Optimizations of Label Switched Path State Synchronization Procedures for a Stateful PCE</c><c><xref target="RFC8232" pageno="false" format="default"/></c>
<c>PCEPS: Usage of TLS to Provide a Secure Transport for the Path Computation Element Communication Protocol (PCEP)</c><c><xref target="RFC8253" pageno="false" format="default"/></c>
<c>Path Computation Element Communication Protocol (PCEP) Extensions for PCE-Initiated LSP Setup in a Stateful PCE Model</c><c><xref target="RFC8281" pageno="false" format="default"/></c>
<c>Extensions to the Path Computation Element Communication Protocol (PCEP) for Point-to-Multipoint Traffic Engineering Label Switched Paths</c><c><xref target="RFC8306" pageno="false" format="default"/></c>
<c>Network Configuration Access Control Model</c><c><xref target="RFC8341" pageno="false" format="default"/></c>
<c>Conveying Path Setup Type in PCE Communication Protocol (PCEP) Messages</c><c><xref target="RFC8408" pageno="false" format="default"/></c>
<c>Traffic Engineering Common YANG Types</c><c><xref target="I-D.ietf-teas-yang-te-types" pageno="false" format="default"/></c>
<c>A YANG Data Model for Traffic Engineering Tunnels and Interfaces</c><c><xref target="I-D.ietf-teas-yang-te" pageno="false" format="default"/></c>
<c>YANG Groupings for TLS Clients and TLS Servers</c><c><xref target="I-D.ietf-netconf-tls-client-server" pageno="false" format="default"/></c>
<c>PCEP Extensions for Segment Routing</c><c><xref target="I-D.ietf-pce-segment-routing" pageno="false" format="default"/></c>
<c>PCEP Extensions for Establishing Relationships Between Sets of LSPs</c><c><xref target="I-D.ietf-pce-association-group" pageno="false" format="default"/></c>
<c>YANG Data Model for OSPF Protocol</c><c><xref target="I-D.ietf-ospf-yang" pageno="false" format="default"/></c>
<c>YANG Data Model for IS-IS Protocol</c><c><xref target="I-D.ietf-isis-yang-isis-cfg" pageno="false" format="default"/></c>
<c>PCEP extensions for GMPLS</c><c><xref target="I-D.ietf-pce-gmpls-pcep-extensions" pageno="false" format="default"/></c>
</texttable>
</section>
</section>
<section title="Objectives" toc="default">
<t>This section describes some of the design objectives for the model:
<list style="symbols">
<t>In case of existing implementations, it needs to map
the data model defined in this document to their proprietary
native data model. To facilitate such mappings, the data model
should be simple.</t>
<t>The data model should be suitable for new implementations to use
as is.</t>
<t>Mapping to the PCEP MIB Module should be clear.</t>
<t>The data model should allow for static configurations of peers.</t>
<t>The data model should include read-only counters in order to
gather statistics for sent and received PCEP messages,
received messages with errors, and messages that could not be sent
due to errors. This could be in a separate model which
augments the base data model.</t>
<t>It should be fairly straightforward to augment the base data model
for advanced PCE features.</t>
</list>
</t>
</section>
<section title="The Design of PCEP Data Model" toc="default" anchor="sec.data-tree">
<section title="The Overview of PCEP Data Model" toc="default" anchor="sec.overview.data-tree">
<t>The PCEP YANG module defined in this document has all the common
building blocks for the PCEP protocol.
<figure title="" suppress-title="false" align="left" alt="" width="" height="">
<artwork xml:space="preserve" name="" type="" align="left" alt="" width="" height=""><![CDATA[
module: ietf-pcep
+--rw pcep!
+--rw entity
+--rw addr inet:ip-address
+--rw enabled? boolean
+--rw role pcep-role
+--rw description? string
+--rw speaker-entity-id? string
| {stateful-sync-opt}?
+--rw admin-status? pcep-admin-status
+--ro index? uint32
+--ro oper-status? pcep-oper-status
+--rw domain
| +--rw domain* [domain-type domain]
| ...
+--rw capability
| ...
+--rw pce-info
| +--rw scope
| | ...
| +--rw neigh-domains
| | ...
| +--rw path-key {path-key}?
| ...
+--ro lsp-db {stateful}?
| +--ro db-ver? uint64
| | {stateful-sync-opt}?
| +--ro association-list*
| | [id source global-source extended-id]
| | ...
| +--ro lsp* [plsp-id pcc-id]
| ...
+--ro path-keys {path-key}?
| +--ro path-keys* [path-key]
| ...
+--rw peers
+--rw peer* [addr]
+--ro sessions
+--ro session* [initiator]
...
rpcs:
+---x trigger-resync {stateful,stateful-sync-opt}?
+---w input
+---w pcc? -> /pcep/entity/peers/peer/addr
notifications:
+---n pcep-session-up
| ...
+---n pcep-session-down
| ...
+---n pcep-session-local-overload
| ...
+---n pcep-session-local-overload-clear
| ...
+---n pcep-session-peer-overload
| ...
+---n pcep-session-peer-overload-clear
...
]]></artwork>
</figure>
</t>
</section>
<section title="The Entity" toc="default">
<t>The PCEP yang module may contain status information for the
local PCEP entity.</t>
<t>The entity has an IP address
(using ietf-inet-types <xref target="RFC6991"/>) and a "role"
leaf (the local entity PCEP role) as mandatory. </t>
<t>Note that, the PCEP MIB module <xref target="RFC7420"/> uses an
entity list and a system generated entity index as a primary index
to the read only entity
table. If the device implements the PCEP MIB, the "index" leaf MUST contain
the value of the corresponding pcePcepEntityIndex and only one entity
is assumed.</t>
<t>The various information related to this entity such as its domain, capcabilities etc.
Further incase when the entity is PCE it could also have path-key and the LSP-DB information.</t>
<figure title="" suppress-title="false" align="left" alt="" width="" height="">
<artwork xml:space="preserve" name="" type="" align="left" alt="" width="" height=""><![CDATA[
module: ietf-pcep
+--rw pcep!
+--rw entity
+--rw addr inet:ip-address
+--rw enabled? boolean
+--rw role pcep-role
+--rw description? string
+--rw speaker-entity-id? string {sync-opt}?
+--rw admin-status? boolean
+--ro index? uint32
+--ro oper-status? pcep-oper-status
+--rw domain
| +--rw domain* [domain-type domain]
| +--rw domain-type domain-type
| +--rw domain domain
+--rw capability
| +--rw capability? bits
| +--rw pce-initiated? boolean {pce-initiated}?
| +--rw include-db-ver? boolean
| | {stateful,sync-opt}?
| +--rw trigger-resync? boolean
| | {stateful,sync-opt}?
| +--rw trigger-initial-sync? boolean
| | {stateful,sync-opt}?
| +--rw incremental-sync? boolean
| | {stateful,sync-opt}?
| +--rw sr {sr}?
| +--rw enabled? boolean
| +--rw msd-limit? boolean
| +--rw nai? boolean
+--rw msd? uint8 {sr}?
+--rw pce-info
| +--rw scope
| | +--rw path-scope? bits
| | +--rw intra-area-pref? uint8
| | +--rw inter-area-pref? uint8
| | +--rw inter-as-pref? uint8
| | +--rw inter-layer-pref? uint8
| +--rw neigh-domains
| | +--rw domain* [domain-type domain]
| | +--rw domain-type domain-type
| | +--rw domain domain
| +--rw path-key {path-key}?
| +--rw enabled? boolean
| +--rw discard-timer? uint32
| +--rw reuse-time? uint32
| +--rw pce-id? inet:ip-address
+--rw connect-timer? uint16
+--rw connect-max-retry? uint32
+--rw init-backoff-timer? uint16
+--rw max-backoff-timer? uint32
+--rw open-wait-timer? uint16
+--rw keep-wait-timer? uint16
+--rw keep-alive-timer? uint8
+--rw dead-timer? uint8
+--rw allow-negotiation? boolean
+--rw max-keep-alive-timer? uint8
+--rw max-dead-timer? uint8
+--rw min-keep-alive-timer? uint8
+--rw min-dead-timer? uint8
+--rw sync-timer? uint16 {svec}?
+--rw request-timer? uint16
+--rw max-sessions? uint32
+--rw max-unknown-reqs? uint32
+--rw max-unknown-msgs? uint32
+--rw pcep-notification-max-rate uint32
+--rw stateful-parameter {stateful}?
| +--rw state-timeout? uint32
| +--rw redelegation-timeout? uint32
| +--rw rpt-non-pcep-lsp? boolean
+--rw of-list {objective-function}?
| +--rw objective-function* [of]
| +--rw of identityref
+--ro lsp-db {stateful}?
| +--ro db-ver? uint64 {sync-opt}?
| +--ro association-list*
| | [type id source global-source extended-id]
| | {association}?
| | +--ro type identityref
| | +--ro id uint16
| | +--ro source inet:ip-address
| | +--ro global-source uint32
| | +--ro extended-id string
| | +--ro lsp* [plsp-id pcc-id]
| | +--ro plsp-id -> /pcep/entity/lsp-db/lsp/plsp-id
| | +--ro pcc-id -> /pcep/entity/lsp-db/lsp/pcc-id
| +--ro lsp* [plsp-id pcc-id]
| +--ro plsp-id uint32
| +--ro pcc-id inet:ip-address
| +--ro lsp-ref
| | +--ro source?
| | | -> /te:te/lsps-state/lsp/source
| | +--ro destination?
| | | -> /te:te/lsps-state/lsp/destination
| | +--ro tunnel-id?
| | | -> /te:te/lsps-state/lsp/tunnel-id
| | +--ro lsp-id?
| | | -> /te:te/lsps-state/lsp/lsp-id
| | +--ro extended-tunnel-id?
| | -> /te:te/lsps-state/lsp/extended-tunnel-id
| +--ro admin-state? boolean
| +--ro operational-state? operational-state
| +--ro delegated
| | +--ro enabled? boolean
| | +--ro peer? -> /pcep/entity/peers/peer/addr
| | +--ro srp-id? uint32
| +--ro initiation {pce-initiated}?
| | +--ro enabled? boolean
| | +--ro peer? -> /pcep/entity/peers/peer/addr
| +--ro symbolic-path-name? string
| +--ro last-error? identityref
| +--ro pst? identityref
| +--ro association-list*
| [type id source global-source extended-id]
| {association}?
| +--ro type
| | -> /pcep/entity/lsp-db/association-list/type
| +--ro id
| | -> /pcep/entity/lsp-db/association-list/id
| +--ro source leafref
| +--ro global-source leafref
| +--ro extended-id leafref
+--ro path-keys {path-key}?
| +--ro path-keys* [path-key]
| +--ro path-key uint16
| +--ro cps
| | +--ro explicit-route-objects* [index]
| | +--ro index uint32
| | +--ro (type)?
| | +--:(numbered-node-hop)
| | | +--ro numbered-node-hop
| | | +--ro node-id te-node-id
| | | +--ro hop-type? te-hop-type
| | +--:(numbered-link-hop)
| | | +--ro numbered-link-hop
| | | +--ro link-tp-id te-tp-id
| | | +--ro hop-type? te-hop-type
| | | +--ro direction? te-link-direction
| | +--:(unnumbered-link-hop)
| | | +--ro unnumbered-link-hop
| | | +--ro link-tp-id te-tp-id
| | | +--ro node-id te-node-id
| | | +--ro hop-type? te-hop-type
| | | +--ro direction? te-link-direction
| | +--:(as-number)
| | | +--ro as-number-hop
| | | +--ro as-number inet:as-number
| | | +--ro hop-type? te-hop-type
| | +--:(label)
| | +--ro label-hop
| | +--ro te-label
| | ...
| +--ro pcc-original? -> /pcep/entity/peers/peer/addr
| +--ro req-id? uint32
| +--ro retrieved? boolean
| +--ro pcc-retrieved? -> /pcep/entity/peers/peer/addr
| +--ro creation-time? yang:timestamp
| +--ro discard-time? uint32
| +--ro reuse-time? uint32
+--rw peers
+--rw peer* [addr]
...
]]></artwork>
</figure>
</section>
<section title="The Peer Lists" toc="default">
<t>
The peer list contains peer(s) that the
local PCEP entity knows about. A PCEP speaker is identified by its
IP address. If there is a PCEP
speaker in the network that uses multiple IP addresses
then it looks like multiple distinct peers to the other PCEP
speakers in the network.
</t>
<t>
Since PCEP sessions
can be ephemeral, the peer list tracks a peer even when no
PCEP session currently exists to that peer. The statistics contained
are an aggregate of the statistics for all
successive sessions to that peer.
</t>
<t>
To limit the quantity of information that is stored, an
implementation MAY choose to discard this information
if and only if no PCEP session exists to the corresponding peer.
</t>
<t>The data model for PCEP peer presented in this document uses a flat
list of peers. Each peer in the list is identified by its
IP address (addr-type, addr).</t>
<t> There is a list for static peer configuration and operational state of
all peers (i.e.static as well as discovered)("/pcep/entity/peers"). The list
is used to enable remote PCE configuration at PCC (or PCE) and has the
operational state of these peers as well as the remote PCE peer which were
discovered and PCC peers that have initiated session.</t>
<figure title="" suppress-title="false" align="left" alt="" width="" height="">
<artwork xml:space="preserve" name="" type="" align="left" alt="" width="" height=""><![CDATA[
module: ietf-pcep
+--rw pcep!
+--rw entity
...
+--rw peers
+--rw peer* [addr]
+--rw addr inet:ip-address
+--rw role pcep-role
+--rw description? string
+--rw domain
| +--rw domain* [domain-type domain]
| +--rw domain-type domain-type
| +--rw domain domain
+--rw capability
| +--rw capability? bits
| +--rw pce-initiated? boolean
| | {pce-initiated}?
| +--rw include-db-ver? boolean
| | {stateful,sync-opt}?
| +--rw trigger-resync? boolean
| | {stateful,sync-opt}?
| +--rw trigger-initial-sync? boolean
| | {stateful,sync-opt}?
| +--rw incremental-sync? boolean
| | {stateful,sync-opt}?
| +--rw sr {sr}?
| +--rw enabled? boolean
| +--rw msd-limit? boolean
| +--rw nai? boolean
+--rw msd? uint8 {sr}?
+--rw pce-info
| +--rw scope
| | +--rw path-scope? bits
| | +--rw intra-area-pref? uint8
| | +--rw inter-area-pref? uint8
| | +--rw inter-as-pref? uint8
| | +--rw inter-layer-pref? uint8
| +--rw neigh-domains
| +--rw domain* [domain-type domain]
| +--rw domain-type domain-type
| +--rw domain domain
+--rw delegation-pref? uint8 {stateful}?
+--rw auth
| +--rw (auth-type-selection)?
| +--:(auth-key-chain)
| | +--rw key-chain?
| | key-chain:key-chain-ref
| +--:(auth-key)
| | +--rw crypto-algorithm identityref
| | +--rw (key-string-style)?
| | +--:(keystring)
| | | +--rw keystring? string
| | +--:(hexadecimal)
| | {key-chain:hex-key-string}?
| | +--rw hexadecimal-string?
| | yang:hex-string
| +--:(auth-tls) {tls}?
| +--rw (role)?
| +--:(server)
| | +--rw tls-server
| | ...
| +--:(client)
| +--rw tls-client
| ...
+--ro discontinuity-time? yang:timestamp
+--ro initiate-session? boolean
+--ro session-exists? boolean
+--ro session-up-time? yang:timestamp
+--ro session-fail-time? yang:timestamp
+--ro session-fail-up-time? yang:timestamp
+--ro sessions
+--ro session* [initiator]
...
]]></artwork>
</figure>
</section>
<section title="The Session Lists" toc="default">
<t>
The session list contains PCEP session that the
PCEP entity (PCE or PCC) is currently participating in.
The statistics in
session are semantically different from those in
peer since the former applies to the current session only,
whereas the latter is the aggregate for all sessions that have
existed to that peer.
</t>
<t>
Although <xref target="RFC5440"/> forbids more than one
active PCEP session between a given pair of PCEP entities
at any given time, there is a window during session
establishment where two sessions may exist for a given pair,
one representing a session initiated by the local PCEP
entity and the other representing a session initiated by
the peer. If either of these sessions reaches active state
first, then the other is discarded.
</t>
<t>The data model for PCEP session presented in this document uses a flat
list of sessions. Each session in the list is identified by its
initiator. This index allows two sessions to exist transiently for a
given peer, as discussed above.</t>
<figure title="" suppress-title="false" align="left" alt="" width="" height="">
<artwork xml:space="preserve" name="" type="" align="left" alt="" width="" height=""><![CDATA[
module: ietf-pcep
+--rw pcep!
+--rw entity
...
+--rw peers
+--rw peer* [addr]
...
+--ro sessions
+--ro session* [initiator]
+--ro initiator pcep-initiator
+--ro role?
| -> /pcep/entity/role
+--ro state-last-change? yang:timestamp
+--ro state? pcep-sess-state
+--ro session-creation? yang:timestamp
+--ro connect-retry? yang:counter32
+--ro local-id? uint8
+--ro remote-id? uint8
+--ro keepalive-timer? uint8
+--ro peer-keepalive-timer? uint8
+--ro dead-timer? uint8
+--ro peer-dead-timer? uint8
+--ro ka-hold-time-rem? uint8
+--ro overloaded? boolean
+--ro overload-time? uint32
+--ro peer-overloaded? boolean
+--ro peer-overload-time? uint32
+--ro lspdb-sync? sync-state
| {stateful}?
+--ro recv-db-ver? uint64
| {stateful,sync-opt}?
+--ro of-list {objective-function}?
| +--ro objective-function* [of]
| +--ro of identityref
+--ro pst-list
| +--ro path-setup-type* [pst]
| +--ro pst identityref
+--ro assoc-type-list {association}?
| +--ro assoc-type* [at]
| +--ro at identityref
+--ro speaker-entity-id? string {sync-opt}?
+--ro discontinuity-time? yang:timestamp
]]></artwork>
</figure>
</section>
<section title="Notifications" toc="default">
<t>This YANG model defines a list of notifications to inform client of
important events detected during the protocol operation. The
notifications defined cover the PCEP MIB notifications.</t>
<figure title="" suppress-title="false" align="left" alt="" width="" height="">
<artwork xml:space="preserve" name="" type="" align="left" alt="" width="" height=""><![CDATA[
notifications:
+---n pcep-session-up
| +--ro peer-addr? -> /pcep/entity/peers/peer/addr
| +--ro session-initiator?
| | -> /pcep/entity/peers/peer/sessions/session/initiator
| +--ro state-last-change? yang:timestamp
| +--ro state? pcep-sess-state
+---n pcep-session-down
| +--ro peer-addr? -> /pcep/entity/peers/peer/addr
| +--ro session-initiator? pcep-initiator
| +--ro state-last-change? yang:timestamp
| +--ro state? pcep-sess-state
+---n pcep-session-local-overload
| +--ro peer-addr? -> /pcep/entity/peers/peer/addr
| +--ro session-initiator?
| | -> /pcep/entity/peers/peer/sessions/session/initiator
| +--ro overloaded? boolean
| +--ro overload-time? uint32
+---n pcep-session-local-overload-clear
| +--ro peer-addr? -> /pcep/entity/peers/peer/addr
| +--ro overloaded? boolean
+---n pcep-session-peer-overload
| +--ro peer-addr? -> /pcep/entity/peers/peer/addr
| +--ro session-initiator?
| | -> /pcep/entity/peers/peer/sessions/session/initiator
| +--ro peer-overloaded? boolean
| +--ro peer-overload-time? uint32
+---n pcep-session-peer-overload-clear
+--ro peer-addr? -> /pcep/entity/peers/peer/addr
+--ro peer-overloaded? boolean
]]></artwork>
</figure>
</section>
<section title="RPC" toc="default">
<t>This YANG model defines a RPC to trigger state resynchronization to
a particular PCEP peer.</t>
<figure title="" suppress-title="false" align="left" alt="" width="" height="">
<artwork xml:space="preserve" name="" type="" align="left" alt="" width="" height=""><![CDATA[
rpcs:
+---x trigger-resync {stateful,sync-opt}?
+---w input
+---w pcc? -> /pcep/entity/peers/peer/addr
]]></artwork>
</figure>
</section>
<section title="The Full PCEP Data Model" toc="default" anchor="sec.full.data-tree">
<t>The module, "ietf-pcep", defines the basic components of a PCE speaker. The tree depth in the tree is set to 10.
<figure title="" suppress-title="false" align="left" alt="" width="" height="">
<artwork xml:space="preserve" name="" type="" align="left" alt="" width="" height=""><![CDATA[
module: ietf-pcep
+--rw pcep!
+--rw entity
+--rw addr inet:ip-address
+--rw enabled? boolean
+--rw role pcep-role
+--rw description? string
+--rw speaker-entity-id? string {sync-opt}?
+--rw admin-status? boolean
+--ro index? uint32
+--ro oper-status? pcep-oper-status
+--rw domain
| +--rw domain* [domain-type domain]
| +--rw domain-type domain-type
| +--rw domain domain
+--rw capability
| +--rw capability? bits
| +--rw pce-initiated? boolean {pce-initiated}?
| +--rw include-db-ver? boolean
| | {stateful,sync-opt}?
| +--rw trigger-resync? boolean
| | {stateful,sync-opt}?
| +--rw trigger-initial-sync? boolean
| | {stateful,sync-opt}?
| +--rw incremental-sync? boolean
| | {stateful,sync-opt}?
| +--rw sr {sr}?
| +--rw enabled? boolean
| +--rw msd-limit? boolean
| +--rw nai? boolean
+--rw msd? uint8 {sr}?
+--rw pce-info
| +--rw scope
| | +--rw path-scope? bits
| | +--rw intra-area-pref? uint8
| | +--rw inter-area-pref? uint8
| | +--rw inter-as-pref? uint8
| | +--rw inter-layer-pref? uint8
| +--rw neigh-domains
| | +--rw domain* [domain-type domain]
| | +--rw domain-type domain-type
| | +--rw domain domain
| +--rw path-key {path-key}?
| +--rw enabled? boolean
| +--rw discard-timer? uint32
| +--rw reuse-time? uint32
| +--rw pce-id? inet:ip-address
+--rw connect-timer? uint16
+--rw connect-max-retry? uint32
+--rw init-backoff-timer? uint16
+--rw max-backoff-timer? uint32
+--rw open-wait-timer? uint16
+--rw keep-wait-timer? uint16
+--rw keep-alive-timer? uint8
+--rw dead-timer? uint8
+--rw allow-negotiation? boolean
+--rw max-keep-alive-timer? uint8
+--rw max-dead-timer? uint8
+--rw min-keep-alive-timer? uint8
+--rw min-dead-timer? uint8
+--rw sync-timer? uint16 {svec}?
+--rw request-timer? uint16
+--rw max-sessions? uint32
+--rw max-unknown-reqs? uint32
+--rw max-unknown-msgs? uint32
+--rw pcep-notification-max-rate uint32
+--rw stateful-parameter {stateful}?
| +--rw state-timeout? uint32
| +--rw redelegation-timeout? uint32
| +--rw rpt-non-pcep-lsp? boolean
+--rw of-list {objective-function}?
| +--rw objective-function* [of]
| +--rw of identityref
+--ro lsp-db {stateful}?
| +--ro db-ver? uint64 {sync-opt}?
| +--ro association-list*
| | [type id source global-source extended-id]
| | {association}?
| | +--ro type identityref
| | +--ro id uint16
| | +--ro source inet:ip-address
| | +--ro global-source uint32
| | +--ro extended-id string
| | +--ro lsp* [plsp-id pcc-id]
| | +--ro plsp-id -> /pcep/entity/lsp-db/lsp/plsp-id
| | +--ro pcc-id -> /pcep/entity/lsp-db/lsp/pcc-id
| +--ro lsp* [plsp-id pcc-id]
| +--ro plsp-id uint32
| +--ro pcc-id inet:ip-address
| +--ro lsp-ref
| | +--ro source?
| | | -> /te:te/lsps-state/lsp/source
| | +--ro destination?
| | | -> /te:te/lsps-state/lsp/destination
| | +--ro tunnel-id?
| | | -> /te:te/lsps-state/lsp/tunnel-id
| | +--ro lsp-id?
| | | -> /te:te/lsps-state/lsp/lsp-id
| | +--ro extended-tunnel-id?
| | -> /te:te/lsps-state/lsp/extended-tunnel-id
| +--ro admin-state? boolean
| +--ro operational-state? operational-state
| +--ro delegated
| | +--ro enabled? boolean
| | +--ro peer? -> /pcep/entity/peers/peer/addr
| | +--ro srp-id? uint32
| +--ro initiation {pce-initiated}?
| | +--ro enabled? boolean
| | +--ro peer? -> /pcep/entity/peers/peer/addr
| +--ro symbolic-path-name? string
| +--ro last-error? identityref
| +--ro pst? identityref
| +--ro association-list*
| [type id source global-source extended-id]
| {association}?
| +--ro type
| | -> /pcep/entity/lsp-db/association-list/type
| +--ro id
| | -> /pcep/entity/lsp-db/association-list/id
| +--ro source leafref
| +--ro global-source leafref
| +--ro extended-id leafref
+--ro path-keys {path-key}?
| +--ro path-keys* [path-key]
| +--ro path-key uint16
| +--ro cps
| | +--ro explicit-route-objects* [index]
| | +--ro index uint32
| | +--ro (type)?
| | +--:(numbered-node-hop)
| | | +--ro numbered-node-hop
| | | +--ro node-id te-node-id
| | | +--ro hop-type? te-hop-type
| | +--:(numbered-link-hop)
| | | +--ro numbered-link-hop
| | | +--ro link-tp-id te-tp-id
| | | +--ro hop-type? te-hop-type
| | | +--ro direction? te-link-direction
| | +--:(unnumbered-link-hop)
| | | +--ro unnumbered-link-hop
| | | +--ro link-tp-id te-tp-id
| | | +--ro node-id te-node-id
| | | +--ro hop-type? te-hop-type
| | | +--ro direction? te-link-direction
| | +--:(as-number)
| | | +--ro as-number-hop
| | | +--ro as-number inet:as-number
| | | +--ro hop-type? te-hop-type
| | +--:(label)
| | +--ro label-hop
| | +--ro te-label
| | ...
| +--ro pcc-original? -> /pcep/entity/peers/peer/addr
| +--ro req-id? uint32
| +--ro retrieved? boolean
| +--ro pcc-retrieved? -> /pcep/entity/peers/peer/addr
| +--ro creation-time? yang:timestamp
| +--ro discard-time? uint32
| +--ro reuse-time? uint32
+--rw peers
+--rw peer* [addr]
+--rw addr inet:ip-address
+--rw role pcep-role
+--rw description? string
+--rw domain
| +--rw domain* [domain-type domain]
| +--rw domain-type domain-type
| +--rw domain domain
+--rw capability
| +--rw capability? bits
| +--rw pce-initiated? boolean
| | {pce-initiated}?
| +--rw include-db-ver? boolean
| | {stateful,sync-opt}?
| +--rw trigger-resync? boolean
| | {stateful,sync-opt}?
| +--rw trigger-initial-sync? boolean
| | {stateful,sync-opt}?
| +--rw incremental-sync? boolean
| | {stateful,sync-opt}?
| +--rw sr {sr}?
| +--rw enabled? boolean
| +--rw msd-limit? boolean
| +--rw nai? boolean
+--rw msd? uint8 {sr}?
+--rw pce-info
| +--rw scope
| | +--rw path-scope? bits
| | +--rw intra-area-pref? uint8
| | +--rw inter-area-pref? uint8
| | +--rw inter-as-pref? uint8
| | +--rw inter-layer-pref? uint8