Network Working Group D. Kumar
Internet-Draft Cisco
Intended status: Standards Track M. Wang
Expires: April 14, 2018 Q. Wu
Huawei
R. Rahman
S. Raghavan
Cisco
October 11, 2017
Retrieval Methods YANG Data Model for Connectionless Operations,
Administration, and Maintenance(OAM) protocols
draft-ietf-lime-yang-connectionless-oam-methods-09
Abstract
This document presents a retrieval method YANG Data model for
connectionless OAM protocols. It provides technology-independent RPC
operations for connectionless OAM protocols. The retrieval methods
model presented here can be extended to include technology specific
details. This is leading to uniformity between OAM protocols and
support both nested OAM workflows (i.e., performing OAM functions at
different levels through a unified interface) and interacting OAM
workflows ( i.e., performing OAM functions at same levels through a
unified interface).
Status of This Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF). Note that other groups may also distribute
working documents as Internet-Drafts. The list of current Internet-
Drafts is at https://datatracker.ietf.org/drafts/current/.
Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
time. It is inappropriate to use Internet-Drafts as reference
material or to cite them other than as "work in progress."
This Internet-Draft will expire on April 14, 2018.
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Copyright Notice
Copyright (c) 2017 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
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to this document. Code Components extracted from this document must
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described in the Simplified BSD License.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2
2. Conventions used in this document . . . . . . . . . . . . . . 3
2.1. Terminology . . . . . . . . . . . . . . . . . . . . . . . 3
2.2. Tree Diagrams . . . . . . . . . . . . . . . . . . . . . . 4
3. Overview of the Connectionless OAM retrieval methods Model . 4
3.1. RPC operation definitions . . . . . . . . . . . . . . . . 5
3.2. OAM Retrieval Methods Hierarchy . . . . . . . . . . . . . 8
4. OAM Retrieval Methods YANG Module . . . . . . . . . . . . . . 15
5. Security Considerations . . . . . . . . . . . . . . . . . . . 21
6. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 22
7. References . . . . . . . . . . . . . . . . . . . . . . . . . 22
7.1. Normative References . . . . . . . . . . . . . . . . . . 22
7.2. Informative References . . . . . . . . . . . . . . . . . 23
Appendix A. Appdendix A.1 Extending Connectionless OAM Method
Module Example . . . . . . . . . . . . . . . . . . . 24
Appendix B. Appendix A.2 Example of new retrieval procedures
Model . . . . . . . . . . . . . . . . . . . . . . . 25
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 35
1. Introduction
Operations, Administration, and Maintenance (OAM) are important
networking functions that allow operators to:
1. Monitor reachability of destinations (Reachability Verification,
Continuity Check).
2. Troubleshoot failures (Fault verification and localization).
3. Monitor Performance
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An overview of OAM tools is presented at [RFC7276].
Ping and Traceroute [RFC792], [RFC4443] and BFD [RFC5880] are well-
known fault verification and isolation tools, respectively, for IP
networks. Over the years, different technologies have developed
similar tools for similar purposes.
In this document, we present an on-demand retrieval method YANG Data
model for connectionless OAM protocols. This model provides
technology-independent RPC operations for connectionless OAM
protocols. It is separated from the generic YANG model for
connectionless OAM [I-D.ietf-lime-yang-connectionless-oam] and can
avoid mixing the models for the retrieved-data from the retrieval
procedures. It is expected that retrieval procedures would evolve
faster than the data model [I-D.ietf-lime-yang-connectionless-oam]
and will allow new procedures to be defined for retrieval of the same
data defined by the base data model.
2. Conventions used in this document
The following terms are defined in [RFC6241] and are not redefined
here:
o client
o configuration data
o server
o state data
The following terms are defined in [RFC6020] and are not redefined
here:
o augment
o data model
o data node
The terminology for describing YANG data models is found in
[RFC6020].
2.1. Terminology
TP - Test Point
MAC - Media Access Control
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RPC - A Remote Procedure Call
RPC operation - A specific Remote Procedure Call
2.2. Tree Diagrams
A simplified graphical representation of the data model is used in
this document. The meaning of the symbols in these diagrams is as
follows:
Each node is printed as:
<status> <flags> <name> <opts> <type>
<status> is one of:
+ for current
<flags> is one of:
rw for configuration data
ro for non-configuration data
-x for rpcs
-n for notifications
<name> is the name of the node
If the node is augmented into the tree from another module, its name
is printed as <prefix>:<name>.
<opts> is one of:
? for an optional leaf or choice
! for a presence container
* for a leaf-list or list
[<keys>] for a list's keys
<type> is the name of the type for leafs and leaf-lists
3. Overview of the Connectionless OAM retrieval methods Model
In this document, we present an on-demand retrieval method YANG Data
model for connectionless OAM protocols. This model provides
technology-independent retrieval procedures (RPC operations) for
connectionless OAM protocols. It provides a flexible way to retrieve
the data which defined by the "ietf-connectionless-oam.yang"
[I-D.ietf-lime-yang-connectionless-oam].
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3.1. RPC operation definitions
The RPC model facilitates issuing commands to a NETCONF server (in
this case to the device that need to execute the OAM command) and
obtaining a response.
Under 'connectionless-oam-methods' module, we summarize common OAM
functions and define two generic RPC operations: 'continuity-check'
and 'path-discovery'. In practice, these RPC operations are
activated on-demand and supported by corresponding technology-
specific OAM tools [RFC7276]. For example, for the IP OAM model, the
continuity-check RPC corresponds to the IP Ping [RFC792] [RFC4443],
while the path-discovery RPC operation corresponds to IP Traceroute
[RFC792] [RFC4443].
Note that the RPC operation presented in this document is the base
building block, which is used to derive a model for a technology-
specific OAM (i.e., ICMP ping [RFC792] [RFC4443], LSP ping
[RFC8029]), the base building block should be extended with
corresponding technology specific parameters. To facilitate this for
future enhancements to data retrieval methods, the RPCs are captured
under a separate module.
The generic 'path-discovery-data' and 'continuity-check-data'
groupings are used as data outputs from different RPCs described in
this document. Similar methods including other RPCs can retrieve the
data using the same data model.
rpc continuity-check {
if-feature coam:continuity-check;
description
"Continuity-check RPC operation as per RFC7276.";
input {
uses rpc-input-parameters;
....
}
output {
container error-code {
leaf protocol-id {
type identityref {
base protocol-id;
}
mandatory true;
description
"Protocol used in CC. This could be a standard
protocol (eg., TCP/IP protocols, MPLS etc.,)
or a proprietary protocol as identified by
this field.";
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}
leaf protocol-id-meta-data {
type uint64;
description
"An optional meta-data related to the protocol ID.
For eg., this could be the Internet Protocol number
for standard Internet Protocols for help in protocol
processing.";
}
leaf status-code {
type identityref{
base status-code;
}
mandatory true;
description
"Error code for CC.";
}
leaf status-sub-code {
type identityref{
base status-sub-code;
}
mandatory true;
description
"Sub code for CC.";
}
description
"Error code and Sub Code for CC.";
}
uses coam:continuity-check-data;
}
}
rpc path-discovery {
description
"path discovery RPC operation as per RFC7276.";
input {
uses rpc-input-parameters;
.....
}
output {
list response-list {
key "response-index";
description
"Path discovery response list.";
leaf response-index {
type uint32;
mandatory true;
description
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"Response index.";
}
leaf protocol-id {
type identityref {
base protocol-id;
}
mandatory true;
description
"Protocol used in PD. This could be a standard
protocol (eg., TCP/IP protocols, MPLS etc.,)
or a proprietary protocol as identified by
this field.";
}
leaf protocol-id-meta-data {
type uint64;
description
"An optional meta-data related to the protocol ID.
For eg., this could be the Internet Protocol number
for standard Internet Protocols for help in protocol
processing.";
}
leaf status-code {
type identityref{
base status-code;
}
mandatory true;
description
"Error code for Path Discovery. ";
}
leaf status-sub-code {
type identityref{
base status-sub-code;
}
mandatory true;
description
"Sub code for Path Discovery. ";
}
}
uses coam:path-discovery-data;
}
}
Snippet of data hierarchy related to RPC operations
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3.2. OAM Retrieval Methods Hierarchy
The complete data hierarchy related to the Connectionless OAM
Retrieval Methods YANG model is presented below.
module: ietf-connectionless-oam-methods
rpcs:
+---x continuity-check {coam:continuity-check}?
| +---w input
| | +---w destination-tp
| | | +---w tp-location-type identityref
| | | +---w mac-address
| | | | +---w mac-address yang:mac-address
| | | +---w ipv4-address
| | | | +---w ipv4-address inet:ipv4-address
| | | +---w ipv6-address
| | | | +---w ipv6-address inet:ipv6-address
| | | +---w tp-attribute
| | | | +---w tp-attribute-type? address-attribute-type
| | | | +---w (tp-attribute-value)?
| | | | +--:(ip-prefix)
| | | | | +---w ip-prefix? inet:ip-prefix
| | | | +--:(bgp)
| | | | | +---w bgp? inet:ip-prefix
| | | | +--:(tunnel)
| | | | | +---w tunnel-interface? uint32
| | | | +--:(pw)
| | | | | +---w remote-pe-address? inet:ip-address
| | | | | +---w pw-id? uint32
| | | | +--:(vpls)
| | | | | +---w route-distinguisher? rt:route-distinguisher
| | | | | +---w sender-ve-id? uint16
| | | | | +---w receiver-ve-id? uint16
| | | | +--:(mpls-mldp)
| | | | +---w (root-address)?
| | | | +--:(ip-address)
| | | | | +---w source-address? inet:ip-address
| | | | | +---w group-ip-address? inet:ip-address
| | | | +--:(vpn)
| | | | | +---w as-number? inet:as-number
| | | | +--:(global-id)
| | | | +---w lsp-id? string
| | | +---w system-info
| | | +---w system-id? rt:router-id
| | +---w source-interface if:interface-ref
| | +---w outbound-interface if:interface-ref
| | +---w vrf? coam:routing-instance-ref
| | +---w session-type? enumeration
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| | +---w count? uint32
| | +---w ttl? uint8
| | +---w packet-size? uint32
| +--ro output
| +--ro error-code
| | +--ro protocol-id identityref
| | +--ro protocol-id-meta-data uint64
| | +--ro status-code identityref
| | +--ro status-sub-code identityref
| +--ro src-test-point
| | +--ro ni? routing-instance-ref
| | +--ro tp-location-type identityref
| | +--ro mac-address
| | | +--ro mac-address yang:mac-address
| | +--ro ipv4-address
| | | +--ro ipv4-address inet:ipv4-address
| | +--ro ipv6-address
| | | +--ro ipv6-address inet:ipv6-address
| | +--ro tp-attribute
| | | +--ro tp-attribute-type? address-attribute-type
| | | +--ro (tp-attribute-value)?
| | | +--:(ip-prefix)
| | | | +--ro ip-prefix? inet:ip-prefix
| | | +--:(bgp)
| | | | +--ro bgp? inet:ip-prefix
| | | +--:(tunnel)
| | | | +--ro tunnel-interface? uint32
| | | +--:(pw)
| | | | +--ro remote-pe-address? inet:ip-address
| | | | +--ro pw-id? uint32
| | | +--:(vpls)
| | | | +--ro route-distinguisher? rt:route-distinguisher
| | | | +--ro sender-ve-id? uint16
| | | | +--ro receiver-ve-id? uint16
| | | +--:(mpls-mldp)
| | | +--ro (root-address)?
| | | +--:(ip-address)
| | | | +--ro source-address? inet:ip-address
| | | | +--ro group-ip-address? inet:ip-address
| | | +--:(vpn)
| | | | +--ro as-number? inet:as-number
| | | +--:(global-id)
| | | +--ro lsp-id? string
| | +--ro system-info
| | | +--ro system-id? rt:router-id
| | +--ro egress-intf-name? if:interface-ref
| +--ro dest-test-point
| | +--ro ni? routing-instance-ref
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| | +--ro tp-location-type identityref
| | +--ro mac-address
| | | +--ro mac-address yang:mac-address
| | +--ro ipv4-address
| | | +--ro ipv4-address inet:ipv4-address
| | +--ro ipv6-address
| | | +--ro ipv6-address inet:ipv6-address
| | +--ro tp-attribute
| | | +--ro tp-attribute-type? address-attribute-type
| | | +--ro (tp-attribute-value)?
| | | +--:(ip-prefix)
| | | | +--ro ip-prefix? inet:ip-prefix
| | | +--:(bgp)
| | | | +--ro bgp? inet:ip-prefix
| | | +--:(tunnel)
| | | | +--ro tunnel-interface? uint32
| | | +--:(pw)
| | | | +--ro remote-pe-address? inet:ip-address
| | | | +--ro pw-id? uint32
| | | +--:(vpls)
| | | | +--ro route-distinguisher? rt:route-distinguisher
| | | | +--ro sender-ve-id? uint16
| | | | +--ro receiver-ve-id? uint16
| | | +--:(mpls-mldp)
| | | +--ro (root-address)?
| | | +--:(ip-address)
| | | | +--ro source-address? inet:ip-address
| | | | +--ro group-ip-address? inet:ip-address
| | | +--:(vpn)
| | | | +--ro as-number? inet:as-number
| | | +--:(global-id)
| | | +--ro lsp-id? string
| | +--ro system-info
| | | +--ro system-id? rt:router-id
| | +--ro ingress-intf-name? if:interface-ref
| +--ro sequence-number? uint64
| +--ro hop-cnt? uint8
| +--ro session-packet-statistics
| | +--ro rx-packet-count? uint32
| | +--ro tx-packet-count? uint32
| | +--ro rx-bad-packet? uint32
| | +--ro tx-packet-failed? uint32
| +--ro session-error-statistics
| | +--ro packet-drops-count? uint32
| | +--ro packet-reorder-count? uint32
| | +--ro packets-out-of-seq-count? uint32
| | +--ro packets-dup-count? uint32
| +--ro session-delay-statistics
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| | +--ro time-resolution-value? identityref
| | +--ro min-delay-value? uint32
| | +--ro max-delay-value? uint32
| | +--ro average-delay-value? uint32
| +--ro session-jitter-statistics
| +--ro time-resolution-value? identityref
| +--ro min-jitter-value? uint32
| +--ro max-jitter-value? uint32
| +--ro average-jitter-value? uint32
+---x path-discovery {coam:path-discovery}?
+---w input
| +---w destination-tp
| | +---w tp-location-type identityref
| | +---w mac-address
| | | +---w mac-address yang:mac-address
| | +---w ipv4-address
| | | +---w ipv4-address inet:ipv4-address
| | +---w ipv6-address
| | | +---w ipv6-address inet:ipv6-address
| | +---w tp-attribute
| | | +---w tp-attribute-type? address-attribute-type
| | | +---w (tp-attribute-value)?
| | | +--:(ip-prefix)
| | | | +---w ip-prefix? inet:ip-prefix
| | | +--:(bgp)
| | | | +---w bgp? inet:ip-prefix
| | | +--:(tunnel)
| | | | +---w tunnel-interface? uint32
| | | +--:(pw)
| | | | +---w remote-pe-address? inet:ip-address
| | | | +---w pw-id? uint32
| | | +--:(vpls)
| | | | +---w route-distinguisher? rt:route-distinguisher
| | | | +---w sender-ve-id? uint16
| | | | +---w receiver-ve-id? uint16
| | | +--:(mpls-mldp)
| | | +---w (root-address)?
| | | +--:(ip-address)
| | | | +---w source-address? inet:ip-address
| | | | +---w group-ip-address? inet:ip-address
| | | +--:(vpn)
| | | | +---w as-number? inet:as-number
| | | +--:(global-id)
| | | +---w lsp-id? string
| | +---w system-info
| | +---w system-id? rt:router-id
| +---w source-interface if:interface-ref
| +---w outbound-interface if:interface-ref
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| +---w vrf? coam:routing-instance-ref
| +---w session-type? enumeration
| +---w max-ttl? uint8
+--ro output
+--ro response-list* [response-index]
| +--ro response-index uint32
| +--ro protocol-id identityref
| +--ro protocol-id-meta-data uint64
| +--ro status-code identityref
| +--ro status-sub-code identityref
+--ro src-test-point
| +--ro ni? routing-instance-ref
| +--ro tp-location-type identityref
| +--ro mac-address
| | +--ro mac-address yang:mac-address
| +--ro ipv4-address
| | +--ro ipv4-address inet:ipv4-address
| +--ro ipv6-address
| | +--ro ipv6-address inet:ipv6-address
| +--ro tp-attribute
| | +--ro tp-attribute-type? address-attribute-type
| | +--ro (tp-attribute-value)?
| | +--:(ip-prefix)
| | | +--ro ip-prefix? inet:ip-prefix
| | +--:(bgp)
| | | +--ro bgp? inet:ip-prefix
| | +--:(tunnel)
| | | +--ro tunnel-interface? uint32
| | +--:(pw)
| | | +--ro remote-pe-address? inet:ip-address
| | | +--ro pw-id? uint32
| | +--:(vpls)
| | | +--ro route-distinguisher? rt:route-distinguisher
| | | +--ro sender-ve-id? uint16
| | | +--ro receiver-ve-id? uint16
| | +--:(mpls-mldp)
| | +--ro (root-address)?
| | +--:(ip-address)
| | | +--ro source-address? inet:ip-address
| | | +--ro group-ip-address? inet:ip-address
| | +--:(vpn)
| | | +--ro as-number? inet:as-number
| | +--:(global-id)
| | +--ro lsp-id? string
| +--ro system-info
| +--ro system-id? rt:router-id
+--ro dest-test-point
| +--ro ni? routing-instance-ref
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| +--ro tp-location-type identityref
| +--ro mac-address
| | +--ro mac-address yang:mac-address
| +--ro ipv4-address
| | +--ro ipv4-address inet:ipv4-address
| +--ro ipv6-address
| | +--ro ipv6-address inet:ipv6-address
| +--ro tp-attribute
| | +--ro tp-attribute-type? address-attribute-type
| | +--ro (tp-attribute-value)?
| | +--:(ip-prefix)
| | | +--ro ip-prefix? inet:ip-prefix
| | +--:(bgp)
| | | +--ro bgp? inet:ip-prefix
| | +--:(tunnel)
| | | +--ro tunnel-interface? uint32
| | +--:(pw)
| | | +--ro remote-pe-address? inet:ip-address
| | | +--ro pw-id? uint32
| | +--:(vpls)
| | | +--ro route-distinguisher? rt:route-distinguisher
| | | +--ro sender-ve-id? uint16
| | | +--ro receiver-ve-id? uint16
| | +--:(mpls-mldp)
| | +--ro (root-address)?
| | +--:(ip-address)
| | | +--ro source-address? inet:ip-address
| | | +--ro group-ip-address? inet:ip-address
| | +--:(vpn)
| | | +--ro as-number? inet:as-number
| | +--:(global-id)
| | +--ro lsp-id? string
| +--ro system-info
| +--ro system-id? rt:router-id
+--ro sequence-number? uint64
+--ro hop-cnt? uint8
+--ro session-packet-statistics
| +--ro rx-packet-count? uint32
| +--ro tx-packet-count? uint32
| +--ro rx-bad-packet? uint32
| +--ro tx-packet-failed? uint32
+--ro session-error-statistics
| +--ro packet-drops-count? uint32
| +--ro packet-reorder-count? uint32
| +--ro packets-out-of-seq-count? uint32
| +--ro packets-dup-count? uint32
+--ro session-delay-statistics
| +--ro time-resolution-value? identityref
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| +--ro min-delay-value? uint32
| +--ro max-delay-value? uint32
| +--ro average-delay-value? uint32
+--ro session-jitter-statistics
| +--ro time-resolution-value? identityref
| +--ro min-jitter-value? uint32
| +--ro max-jitter-value? uint32
| +--ro average-jitter-value? uint32
+--ro path-verification
| +--ro flow-info? string
| +--ro session-path-verification-statistics
| +--ro verified-count? uint32
| +--ro failed-count? uint32
+--ro path-trace-info
+--ro path-trace-info-list* [index]
+--ro index uint32
+--ro ni? routing-instance-ref
+--ro tp-location-type identityref
+--ro mac-address
| +--ro mac-address yang:mac-address
+--ro ipv4-address
| +--ro ipv4-address inet:ipv4-address
+--ro ipv6-address
| +--ro ipv6-address inet:ipv6-address
+--ro tp-attribute
| +--ro tp-attribute-type? address-attribute-type
| +--ro (tp-attribute-value)?
| +--:(ip-prefix)
| | +--ro ip-prefix? inet:ip-prefix
| +--:(bgp)
| | +--ro bgp? inet:ip-prefix
| +--:(tunnel)
| | +--ro tunnel-interface? uint32
| +--:(pw)
| | +--ro remote-pe-address? inet:ip-address
| | +--ro pw-id? uint32
| +--:(vpls)
| | +--ro route-distinguisher? rt:route-distinguisher
| | +--ro sender-ve-id? uint16
| | +--ro receiver-ve-id? uint16
| +--:(mpls-mldp)
| +--ro (root-address)?
| +--:(ip-address)
| | +--ro source-address? inet:ip-address
| | +--ro group-ip-address? inet:ip-address
| +--:(vpn)
| | +--ro as-number? inet:as-number
| +--:(global-id)
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| +--ro lsp-id? string
+--ro system-info
| +--ro system-id? rt:router-id
+--ro timestamp-type? uint32
+--ro timestamp-sec? uint32
+--ro timestamp-nanosec? uint32
+--ro ingress-intf-name? if:interface-ref
+--ro egress-intf-name? if:interface-ref
+--ro queue-depth? uint32
+--ro transit-delay? uint32
+--ro app-meta-data? uint64
data hierarchy of OAM Retrieval Methods
4. OAM Retrieval Methods YANG Module
<CODE BEGINS> file "ietf-connectionless-oam-methods@2017-09-06.yang"
module ietf-connectionless-oam-methods {
namespace "urn:ietf:params:xml:ns:yang:ietf-connectionless-oam-methods";
prefix coam-methods;
import ietf-interfaces {
prefix if;
}
import ietf-connectionless-oam {
prefix coam;
}
organization
"IETF LIME Working Group";
contact
"Deepak Kumar dekumar@cisco.com
Qin Wu bill.wu@huawei.com
S Raghavan srihari@cisco.com
Zitao Wang wangzitao@huawei.com
R Rahman rrahman@cisco.com";
description
"This YANG module defines the RPC operations for
connectionless OAM to be used within IETF
in a protocol Independent manner.
It is assumed that each protocol maps
corresponding abstracts to its native format.
Each protocol may extend the YANG model defined
here to include protocol specific extensions";
revision 2017-09-06{
description
"08 version";
reference "draft-ietf-lime-yang-connectionless-oam-methods";
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}
identity protocol-id {
description
"A generic protocol identifier.";
}
identity protocol-id-internet {
base protocol-id;
description
"Internet Protocols.";
}
identity protocol-id-propreitary {
base protocol-id;
description
"Propreitary protocol (eg.,IP SLA).";
}
identity protocol-id-sfc {
base protocol-id;
description
"Service Function Chaining.";
}
identity protocol-id-mpls {
base protocol-id;
description
"MPLS protocol.";
}
identity protocol-id-mpls-tp {
base protocol-id;
description
"MPLS-TP protocol.";
}
identity protocol-id-twamp {
base protocol-id;
description
"TWAMP protocol.";
}
identity protocol-id-bier {
base protocol-id;
description
"BIER protocol.";
}
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identity status-code{
description
"Base status code";
}
identity invalid-cc{
base status-code;
description
"Indicates that the Continuity check message is invalid";
}
identity invalid-pd {
base status-code;
description
"Indicates that the path discovery message is invalid";
}
identity status-sub-code {
description
"Base status sub code";
}
grouping rpc-input-parameters {
container destination-tp {
uses coam:tp-address;
description
"Destination test point.";
}
leaf source-interface {
type if:interface-ref;
mandatory true;
description
"Source interface.";
}
leaf outbound-interface {
type if:interface-ref;
mandatory true;
description
"Outbound interface.";
}
leaf vrf {
type coam:routing-instance-ref;
description
"VRF instance.";
}
description
"Grouping for RPC input parameters";
}
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rpc continuity-check {
if-feature "coam:continuity-check";
description
"Continuity-check RPC operation as per RFC7276.";
input {
uses rpc-input-parameters;
uses coam:session-type {
description "If session-type is specified, then session-type
must be set to on-demand";
}
leaf count {
type uint32 {
range 1..4294967295 {
description
"The overall number of packet to be transmitted
by the sender. If the count is set to 4294967295,
it indicates that the session will be run forever";
}
}
default "5";
description
"Specifies the number of
packets that will be sent. By
default, the packet number is
set to 5.";
}
leaf ttl {
type uint8;
default "255";
description
"Time to live (TTL) used to limit lifetime
of data packet transmitted in the network
and prevent looping. The TTL value is decremented
for every hop which the packet traverses. If the
TTL is zero, the data packet will be discarded.";
}
leaf packet-size {
type uint32 {
range "64..10000";
}
default "64";
description
"Packet size of continuity-check message, in octets.
By default, the packet size is set to 64 octets.";
}
}
output {
container error-code {
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leaf protocol-id {
type identityref {
base protocol-id;
}
mandatory true;
description
"Protocol used in CC. This could be a standard
protocol (eg., TCP/IP protocols, MPLS etc.,)
or a proprietary protocol as identified by
this field.";
}
leaf protocol-id-meta-data {
type uint64;
description
"An optional meta-data related to the protocol ID.
For eg., this could be the Internet Protocol number
for standard Internet Protocols for help in protocol
processing.";
}
leaf status-code {
type identityref{
base status-code;
}
mandatory true;
description
"Error code for continuity-check message, that is
relevant to the protocol under use for CC.
For example if ICMP is the protocol under use, the
error codes are as defined in [RFC4443].";
}
leaf status-sub-code {
type identityref{
base status-sub-code;
}
mandatory true;
description
"Error sub code for continuity-check message, that is
relevant to the error-code reported of the protocol
that is used for CC.";
}
description
"Error code and Sub Code for continuity-check message.";
}
uses coam:continuity-check-data;
}
}
rpc path-discovery {
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if-feature "coam:path-discovery";
description
"Path discovery RPC operation as per RFC7276.";
input {
uses rpc-input-parameters;
uses coam:session-type {
description "If session-type is specified, then session-type
must be set to on-demand";
}
leaf max-ttl {
type uint8;
default "255";
description
"Maximum TTL indicates the maixmum number of hops that
a packet is permitted to travel before being discarded
by a router. By default, the maximimum TTL is set to 255.";
}
}
output {
list response-list {
key "response-index";
description
"Path discovery response list.";
leaf response-index {
type uint32;
mandatory true;
description
"Response index.";
}
leaf protocol-id {
type identityref {
base protocol-id;
}
mandatory true;
description
"Protocol used in PD. This could be a standard
protocol (eg., TCP/IP protocols, MPLS etc.,)
or a proprietary protocol as identified by
this field.";
}
leaf protocol-id-meta-data {
type uint64;
description
"An optional meta-data related to the protocol ID.
For eg., this could be the Internet Protocol number
for standard Internet Protocols for help in protocol
processing.";
}
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leaf status-code {
type identityref{
base status-code;
}
mandatory true;
description
"Error code for path-discovery response message, that is
relevant to the protocol under use for PD.
For example if ICMP is the protocol under use, the
error codes are as defined in [RFC4443].";
}
leaf status-sub-code {
type identityref{
base status-sub-code;
}
mandatory true;
description
"Error sub code for path-discovery message, that is
relevant to the error-code reported of the protocol
that is used for PD.";
}
}
uses coam:path-discovery-data;
}
}
}
<CODE ENDS>
5. Security Considerations
The YANG module defined in this document 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 [RFC5246].
The NETCONF access control model [RFC6536] 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.
Some of the RPC operations in this YANG module may be considered
sensitive or vulnerable in some network environments. It is thus
important to control access to these operations. These are the
operations and their sensitivity/vulnerability:
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o continuity-check: Generates continuity check.
o path-discovery: Generates path discovery.
which may lead to Denial-of-Service attack on both the local device
and the network or unauthorized source access to some sensitive
information.
6. IANA Considerations
This document registers a URI in the IETF XML registry [RFC3688].
Following the format in [RFC3688], the following registration is
requested to be made:
URI: urn:ietf:params:xml:ns:yang:ietf-connectionless-oam-methods
Registrant Contact: The IESG.
XML: N/A, the requested URI is an XML namespace.
This document registers a YANG module in the YANG Module Names
registry [RFC6020].
name: ietf-connectionless-oam-methods
namespace: urn:ietf:params:xml:ns:yang:ietf-connectionless-oam-
methods
prefix: coam-methods
reference: RFC XXXX
7. References
7.1. Normative References
[I-D.ietf-lime-yang-connectionless-oam]
Kumar, D., Wang, Z., Wu, Q., Rahman, R., and S. Raghavan,
"Generic YANG Data Model for Connectionless Operations,
Administration, and Maintenance(OAM) protocols", draft-
ietf-lime-yang-connectionless-oam-11 (work in progress),
September 2017.
[RFC3688] Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688,
DOI 10.17487/RFC3688, January 2004,
<https://www.rfc-editor.org/info/rfc3688>.
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[RFC5246] Dierks, T. and E. Rescorla, "The Transport Layer Security
(TLS) Protocol Version 1.2", RFC 5246,
DOI 10.17487/RFC5246, August 2008,
<https://www.rfc-editor.org/info/rfc5246>.
[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>.
[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>.
[RFC6536] Bierman, A. and M. Bjorklund, "Network Configuration
Protocol (NETCONF) Access Control Model", RFC 6536,
DOI 10.17487/RFC6536, March 2012,
<https://www.rfc-editor.org/info/rfc6536>.
[RFC7011] Claise, B., Ed., Trammell, B., Ed., and P. Aitken,
"Specification of the IP Flow Information Export (IPFIX)
Protocol for the Exchange of Flow Information", STD 77,
RFC 7011, DOI 10.17487/RFC7011, September 2013,
<https://www.rfc-editor.org/info/rfc7011>.
[RFC792] Postel, J., "Internet Control Message Protocol", RFC 792,
September 1981.
[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>.
7.2. Informative References
[I-D.ietf-netconf-yang-push]
Clemm, A., Voit, E., Prieto, A., Tripathy, A., Nilsen-
Nygaard, E., Bierman, A., and B. Lengyel, "Subscribing to
YANG datastore push updates", draft-ietf-netconf-yang-
push-10 (work in progress), October 2017.
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[RFC4443] Conta, A., Deering, S., and M. Gupta, Ed., "Internet
Control Message Protocol (ICMPv6) for the Internet
Protocol Version 6 (IPv6) Specification", STD 89,
RFC 4443, DOI 10.17487/RFC4443, March 2006,
<https://www.rfc-editor.org/info/rfc4443>.
[RFC5880] Katz, D. and D. Ward, "Bidirectional Forwarding Detection
(BFD)", RFC 5880, DOI 10.17487/RFC5880, June 2010,
<https://www.rfc-editor.org/info/rfc5880>.
[RFC6087] Bierman, A., "Guidelines for Authors and Reviewers of YANG
Data Model Documents", RFC 6087, DOI 10.17487/RFC6087,
January 2011, <https://www.rfc-editor.org/info/rfc6087>.
[RFC7276] Mizrahi, T., Sprecher, N., Bellagamba, E., and Y.
Weingarten, "An Overview of Operations, Administration,
and Maintenance (OAM) Tools", RFC 7276,
DOI 10.17487/RFC7276, June 2014,
<https://www.rfc-editor.org/info/rfc7276>.
[RFC8029] Kompella, K., Swallow, G., Pignataro, C., Ed., Kumar, N.,
Aldrin, S., and M. Chen, "Detecting Multiprotocol Label
Switched (MPLS) Data-Plane Failures", RFC 8029,
DOI 10.17487/RFC8029, March 2017,
<https://www.rfc-editor.org/info/rfc8029>.
Appendix A. Appdendix A.1 Extending Connectionless OAM Method Module
Example
The following is an example of extensions possible to "ietf-
connectionless-oam-methods" YANG model defined in this document.
The snippet below depicts an example of augmenting the "ietf-
connectionless-oam-methods" YANG model with ICMP ping attributes:
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augment "/coam-methods:continutiy-check"
+"/coam-methods:output"{
container session-rtt-statistics{
leaf min-rtt{
type uint32;
description
"This minimum ping round-trip-time(RTT) received.";
}
leaf max-rtt{
type uint32;
description
"This maximum ping round-trip-time(RTT) received.";
}
leaf avg-rtt{
type uint32;
description
"The current average ping round-trip-time(RTT)";
}
description
"This container presents the ping round-trip-time statistics.";
}
}
Appendix B. Appendix A.2 Example of new retrieval procedures Model
As discussed in introduction section of this document, the new
retrieval procedures can be defined for retrieval of the same data
defined by base YANG Data model for connectionless OAM protocols.
This appendix demonstrates how the base connectionless OAM data model
can be extended to support persistent data retrieval besides on
demand retrieval procedures defined in section 3,i.e.,first retrieve
persistent-id based on destination test point location information
and then retrieve export details based on persistent-id. Internet
Protocol Flow Information Export (IPFIX) [RFC7011] or YANG-push
[I-D.ietf-netconf-yang-push]. are currently outlined here as data
export options and more can be added in future.
The YANG module "example-cl-oam-persistent-methods" shown below is
intended as an illustration rather than a real definition of a RPC
operation model for persistent data retrieval. For the sake of
brevity, this module does not obey all the guidelines specified in
[RFC6087].
module example-cl-oam-persistent-methods {
namespace "http://example.com/cl-oam-persistent-methods";
prefix pcoam-methods;
import ietf-interfaces {
prefix if;
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}
import ietf-connectionless-oam {
prefix coam;
}
import ietf-yang-types {
prefix yang;
}
identity export-method {
description
"Base identity to represent a conceptual export-method.";
}
identity ipfix-export {
base export-method;
description
"IPFIX based export. Configuration provided separately.";
}
identity yang-push-export {
base export-method;
description
"Yang-push from draft-ietf-netconf-yang-push";
}
identity protocol-id {
description
"A generic protocol identifier.";
}
identity status-code{
description
"Base status code";
}
identity invalid-cc{
base status-code;
description
"Indicates that the Continuity check message is invalid";
}
identity invalid-pd {
base status-code;
description
"Indicates that the path discovery message is invalid";
}
identity status-sub-code {
description
"Base status sub code";
}
typedef export-method {
type identityref {
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base export-method;
}
description
"Export method type.";
}
typedef change-type {
type enumeration {
enum "create" {
description
"Change due to a create.";
}
enum "delete" {
description
"Change due to a delete.";
}
enum "modify" {
description
"Change due to an update.";
}
}
description
"Different types of changes that may occur.";
}
rpc cc-get-persistent-id {
if-feature "coam:continuity-check";
description
"Obtains continuity-check persistent identification given mapping
parameters as input.";
input {
container destination-tp {
uses coam:tp-address;
description
"Destination test point.";
}
uses coam:session-type;
leaf source-interface {
type if:interface-ref;
description
"Source interface.";
}
leaf outbound-interface {
type if:interface-ref;
description
"Outbound interface.";
}
leaf vrf {
type coam:routing-instance-ref;
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description
"VRF instance.";
}
}
output {
container error-code {
leaf protocol-id {
type identityref {
base protocol-id;
}
mandatory true;
description
"Protocol used. This could be a standard
protocol (eg., TCP/IP protocols, MPLS etc.,)
or a proprietary protocol as identified by
this field.";
}
leaf protocol-id-meta-data {
type uint64;
description
"An optional meta-data related to the protocol ID.
For eg., this could be the Internet Protocol number
for standard Internet Protocols for help in protocol
processing.";
}
leaf status-code {
type identityref{
base status-code;
}
mandatory true;
description
"Error code.";
}
leaf status-sub-code {
type identityref{
base status-sub-code;
}
mandatory true;
description
"Sub code for CC.";
}
description
"Error code and Sub Code.";
}
leaf cc-persistent-id {
type string;
description
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"Id to act as a cookie.";
}
}
}
rpc cc-persistent-get-export-details {
if-feature "coam:continuity-check";
description
"Given the persistent id, gets the configuration
options, details related to the configured data
export.";
input {
leaf cc-persistent-id {
type string;
description
"Persistent Id for use as a key in search.";
}
}
output {
container error-code {
leaf protocol-id {
type identityref {
base protocol-id;
}
mandatory true;
description
"Protocol used. This could be a standard
protocol (eg., TCP/IP protocols, MPLS etc.,)
or a proprietary protocol as identified by
this field.";
}
leaf protocol-id-meta-data {
type uint64;
description
"An optional meta-data related to the protocol ID.
For eg., this could be the Internet Protocol number
for standard Internet Protocols for help in protocol
processing.";
}
leaf status-code {
type identityref{
base status-code;
}
mandatory true;
description
"Error code.";
}
leaf status-sub-code {
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type identityref{
base status-sub-code;
}
mandatory true;
description
"Sub code for CC.";
}
description
"Error code and Sub Code.";
}
leaf data-export-method {
type export-method;
description
"Type of export in use.";
}
choice cc-trigger {
description
"Necessary conditions for
periodic or on-change trigger.";
case periodic {
description
"Periodic reports.";
leaf period {
type yang:timeticks;
description
"Time interval between reports.";
}
leaf start-time {
type yang:date-and-time;
description
"Timestamp from which reports were started.";
}
}
case on-change {
description
"On-change trigger and not periodic.";
leaf all-data-on-start {
type boolean;
description
"Full update done on start or not.";
}
leaf-list excluded-change {
type change-type;
description
"Changes that will not trigger an update.";
}
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}
}
}
}
rpc pd-get-persistent-id {
if-feature "coam:path-discovery";
description
"Obtains persistent path discovery identification.";
input {
container destination-tp {
uses coam:tp-address;
description
"Destination test point.";
}
uses coam:session-type;
leaf source-interface {
type if:interface-ref;
description
"Source interface.";
}
leaf outbound-interface {
type if:interface-ref;
description
"Outbound interface.";
}
leaf vrf {
type coam:routing-instance-ref;
description
"VRF";
}
}
output {
list response-list {
key "response-index";
description
"Path discovery response list.";
leaf response-index {
type uint32;
mandatory true;
description
"Response index.";
}
leaf protocol-id {
type identityref {
base protocol-id;
}
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mandatory true;
description
"Protocol used. This could be a standard
protocol (eg., TCP/IP protocols, MPLS etc.,)
or a proprietary protocol as identified by
this field.";
}
leaf protocol-id-meta-data {
type uint64;
description
"An optional meta-data related to the protocol ID.
For eg., this could be the Internet Protocol number
for standard Internet Protocols for help in protocol
processing.";
}
leaf status-code {
type identityref {
base status-code;
}
mandatory true;
description
"Error code for Persistent Path Discovery Information. ";
}
leaf status-sub-code {
type identityref{
base status-sub-code;
}
mandatory true;
description
"Sub code for Persistent Path Discovery Information. ";
}
leaf pd-persistent-id {
type string;
description
"Id to act as a cookie.";
}
}
}
}
rpc pd-persistent-get-export-details {
if-feature "coam:path-discovery";
description
"Given the persistent id, gets the configuration
options, details related to the configured data
export.";
input {
leaf cc-persistent-id {
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type string;
description
"Persistent Id for use as a key in search.";
}
}
output {
list response-list {
key "response-index";
description
"Path discovery response list.";
leaf response-index {
type uint32;
mandatory true;
description
"Response index.";
}
leaf protocol-id {
type identityref {
base protocol-id;
}
mandatory true;
description
"Protocol used. This could be a standard
protocol (eg., TCP/IP protocols, MPLS etc.,)
or a proprietary protocol as identified by
this field.";
}
leaf protocol-id-meta-data {
type uint64;
description
"An optional meta-data related to the protocol ID.
For eg., this could be the Internet Protocol number
for standard Internet Protocols for help in protocol
processing.";
}
leaf status-code {
type identityref{
base status-code;
}
mandatory true;
description
"Error code for Persistent Path Discovery Creation. ";
}
leaf status-sub-code {
type identityref{
base status-sub-code;
}
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mandatory true;
description
"Sub code for Persistent Path Discovery Creation. ";
}
leaf data-export-method {
type export-method;
description
"Type of export.";
}
choice pd-trigger {
description
"Necessary conditions
for periodic or on-change
trigger.";
case periodic {
description
"Periodic reports.";
leaf period {
type yang:timeticks;
description
"Time interval between reports.";
}
leaf start-time {
type yang:date-and-time;
description
"Timestamp from which reports are started.";
}
}
case on-change {
description
"On-change trigger and not periodic.";
leaf all-data-on-start {
type boolean;
description
"Full update done on start or not.";
}
leaf-list excluded-change {
type change-type;
description
"Changes that will not trigger an update.";
}
}
}
}
}
}
}
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Authors' Addresses
Deepak Kumar
CISCO Systems
510 McCarthy Blvd
Milpitas, CA 95035
USA
Email: dekumar@cisco.com
Michael Wang
Huawei Technologies,Co.,Ltd
101 Software Avenue, Yuhua District
Nanjing 210012
China
Email: wangzitao@huawei.com
Qin Wu
Huawei
101 Software Avenue, Yuhua District
Nanjing, Jiangsu 210012
China
Email: bill.wu@huawei.com
Reshad Rahman
CISCO Systems
2000 Innovation Drive
Kanata, Ontario K2K 3E8
Canada
Email: rrahman@cisco.com
Srihari Raghavan
CISCO Systems
Tril Infopark Sez, Ramanujan IT City
Neville Block, 2nd floor, Old Mahabalipuram Road
Chennai, Tamil Nadu 600113
India
Email: srihari@cisco.com
Kumar, et al. Expires April 14, 2018 [Page 35]