Network Working Group D. Farinacci
Internet-Draft lispers.net
Intended status: Experimental S. Ouissal
Expires: November 26, 2021 E. Nordmark
Zededa
May 25, 2021
LISP Data-Plane Telemetry
draft-farinacci-lisp-telemetry-06
Abstract
This draft specs a JSON formatted RLOC-record for telemetry data
which decapsulating xTRs include in RLOC-probe Map Reply messages.
Status of This Memo
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2
2. Definition of Terms . . . . . . . . . . . . . . . . . . . . . 3
3. Overview . . . . . . . . . . . . . . . . . . . . . . . . . . 4
4. Telemetry Record Encoding . . . . . . . . . . . . . . . . . . 5
5. Security Considerations . . . . . . . . . . . . . . . . . . . 6
6. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 7
7. References . . . . . . . . . . . . . . . . . . . . . . . . . 7
7.1. Normative References . . . . . . . . . . . . . . . . . . 7
7.2. Informative References . . . . . . . . . . . . . . . . . 7
Appendix A. Acknowledgments . . . . . . . . . . . . . . . . . . 7
Appendix B. Document Change Log . . . . . . . . . . . . . . . . 8
B.1. Changes to draft-farinacci-lisp-telemetry-06 . . . . . . 8
B.2. Changes to draft-farinacci-lisp-telemetry-05 . . . . . . 8
B.3. Changes to draft-farinacci-lisp-telemetry-04 . . . . . . 8
B.4. Changes to draft-farinacci-lisp-telemetry-03 . . . . . . 8
B.5. Changes to draft-farinacci-lisp-telemetry-02 . . . . . . 8
B.6. Changes to draft-farinacci-lisp-telemetry-01 . . . . . . 8
B.7. Changes to draft-farinacci-lisp-telemetry-00 . . . . . . 8
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 9
1. Introduction
This document describes how the Locator/Identifier Separation
Protocol (LISP) can obtain, measure, and distribute data-plane
telemetry information. LISP is an encapsulation protocol built
around the fundamental idea of separating the topological location of
a network attachment point from the node's identity
[I-D.ietf-lisp-rfc6830bis]. As a result LISP creates two namespaces:
Endpoint Identifiers (EIDs), that are used to identify end-hosts and
routable Routing Locators (RLOCs), used to identify network
attachment points. LISP then defines functions for mapping between
the two namespaces and for encapsulating traffic originated by
devices using non-routable EIDs for transport across a network
infrastructure that routes and forwards using RLOCs.
This document specifies how a decapsulating xTR returns telemetry
data to an encapsulating xTR using RLOC-probe messages defined in
[I-D.ietf-lisp-rfc6833bis].
Early versions of this document will define the type and format of
the telemetry data and how it will be distributed. Later versions of
this document will describe how telemetry measurement will be
performed.
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2. Definition of Terms
Encapsulating xTR is a LISP ITR, RTR, or PITR data-plane network
element [I-D.ietf-lisp-rfc6830bis]. An encapsulating xTR
typically sends RLOC-probe Map-Request messages to decapsulating
xTRs to test for reachability of RLOC addresses. For the design
scope of this specification, RLOC-probes are also sent to obtain
LISP telemetry data measured by a decapsulating xTR.
Decapsulating xTR is a LISP ETR, RTR, or PETR data-plane network
element [I-D.ietf-lisp-rfc6830bis]. A decapsulating xTR typically
RLOC-probe replies with a Map-Reply message to an RLOC-probe Map-
Request sent by an encapsulating xTR. When a decapsulating xTR
does data-plane telemetry measurement, it returns measurement data
in RLOC-probe Map-Reply messages to an encapsulating xTR.
Telemetry Record a telemetry record is an RLOC-record that contains
telemetry data specified in this document. The telemetry data is
encoded as an LCAF JSON Type specified in [RFC8060].
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3. Overview
The following list of telemetry data has been identified as being
useful to obtain:
o Packet Count - the number of packets received within a given time
window between the encapsulating xTR and decapsulating xTR.
o Byte Count - the number bytes summed from all packets received
within a given time window between the encapsulating xTR and
decapsulating xTR.
o Packet Rate - the rate in packets per second an encapsulating xTR
is sending encapsulated packets to a decapsulating xTR.
o Bit Rate - the bit rate per second an encapsulating xTR is sending
encapsulated packets to a decapsulating xTR.
o Bandwidth - the amount of bandwidth used between encapsulating xTR
and decapsulating xTR in bytes per second.
o Packet Loss - the number of packets lost within a given time
window between the encapsulating xTR and decapsulating xTR.
o Packet Jitter - the amount of inter-packet time for a train of
packets within a given time window between the encapsulating xTR
and decapsulating xTR.
o Forward Hop-Count - the number underlay router hops from the
encapsulating xTR to the decapsulating xTR.
o Forward One-Way Latency - the amount of time from the
encapsulating xTR to the decapsulating xTR. Available when a
universal clock and rough time synchronization is available.
o Reverse TTL - the TTL value a decapsulating xTR is using for the
RLOC-probe Map-Reply. This is used to compute the return or
Reverse Hop-Count or number of underlay router hops between the
decapsulating xTR and encapsulating xTR.
o Reverse Timestamp - the universal clock timestamp when the
decapsulating xTR sent the RLOC-probe Map-Reply message. This is
used to compute the return or Reverse One-Way Latency between the
decapsulating xTR to the encapsulating xTR.
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4. Telemetry Record Encoding
A Telemetry Record is an RLOC-record encoded in LCAF JSON Type format
[RFC8060] within the EID-record inserted in a RLOC-probe Map-Reply
message. The RLOC-record is appended to the existing RLOC-records
for the EID being probed.
An encapsulating xTR does not need to request telemetry data so the
decapsulating xTR can provide it unilaterally by default or via
configuration to enable the feature. When an encapsulating xTR
receives a Telemetry Record in a RLOC-probe Map-Reply, it SHOULD NOT
store it in the map-cache and not use the RLOC-record for forwarding
(since there are no RLOCs in this record). The priority for this
RLOC-record MUST be set to 255 and the weight MUST be set to 0.
The JSON key values imply directionality. The directionality is from
encapsulating xTR to decapsulating xTR. That is, the same direction
of RLOC-probe Map-Requests and encapsulated packet flow. The JSON
string format is defined to be:
{ "type" : "telemetry",
"packet-count" : "<pc>",
"packet-loss" : "<pl>",
"byte-count" : "<bc>",
"packet-rate" : "<pr>",
"bit-rate" : "<br>",
"bandwidth" : "<b>",
"packet-jitter" : "<pj>",
"forward-latency" : "<fl>",
"forward-hop-count" : "<hc>",
"reverse-ttl" : "<ttl>",
"reverse-timestamp" : "<ts>"
}
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JSON data values:
+--------+----------------------------------------------------------+
| JSON | Encoding Description |
| Value | |
+--------+----------------------------------------------------------+
| <pc> | Number of packets encoded as an integer value within a |
| | string. |
| | |
| <pl> | Number of lost packets encoded as an integer value |
| | within a string. |
| | |
| <bc> | Number of bytes encoded as an integer value within a |
| | string. |
| | |
| <pr> | Packet rate in packets per second encoded as an integer |
| | value within a string. |
| | |
| <br> | Bit rate in kilobits per second encoded as an integer |
| | value within a string. |
| | |
| <b> | Bandwidth in kilobytes encoded as an integer value |
| | within a string. |
| | |
| <pj> | Packet jitter in milliseconds encoded as an integer |
| | value within a string. |
| | |
| <fl> | Latency in milliseconds encoded as an integer value |
| | within a string. |
| | |
| <hc> | Hop count encoded as an integer value within a string. |
| | |
| <ttl> | Map-Reply IP header TTL encoded as an integer value |
| | within a string. |
| | |
| <ts> | Timestamp encoded in Linux UTC format as an within a |
| | string (i.e. Tue Jun 26 16:27:25 UTC 2018). |
+--------+----------------------------------------------------------+
5. Security Considerations
RLOC-probe Map-Reply messages are signed to protect and authenticate
the Telemetry Record according to details in [I-D.ietf-lisp-sec].
Telemetry Records can be kept confidential by encrypting RLOC-probe
Map-Reply message with the asymmetric keys described in
[I-D.ietf-lisp-ecdsa-auth] or the symmetric keys computed by the key
exchange detailed in [RFC8061].
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6. IANA Considerations
At this time there are no specific requests for IANA.
7. References
7.1. Normative References
[RFC8060] Farinacci, D., Meyer, D., and J. Snijders, "LISP Canonical
Address Format (LCAF)", RFC 8060, DOI 10.17487/RFC8060,
February 2017, <https://www.rfc-editor.org/info/rfc8060>.
[RFC8061] Farinacci, D. and B. Weis, "Locator/ID Separation Protocol
(LISP) Data-Plane Confidentiality", RFC 8061,
DOI 10.17487/RFC8061, February 2017,
<https://www.rfc-editor.org/info/rfc8061>.
7.2. Informative References
[I-D.ietf-lisp-ecdsa-auth]
Farinacci, D. and E. Nordmark, "LISP Control-Plane ECDSA
Authentication and Authorization", draft-ietf-lisp-ecdsa-
auth-05 (work in progress), March 2021.
[I-D.ietf-lisp-rfc6830bis]
Farinacci, D., Fuller, V., Meyer, D., Lewis, D., and A.
Cabellos, "The Locator/ID Separation Protocol (LISP)",
draft-ietf-lisp-rfc6830bis-36 (work in progress), November
2020.
[I-D.ietf-lisp-rfc6833bis]
Farinacci, D., Maino, F., Fuller, V., and A. Cabellos,
"Locator/ID Separation Protocol (LISP) Control-Plane",
draft-ietf-lisp-rfc6833bis-30 (work in progress), November
2020.
[I-D.ietf-lisp-sec]
Maino, F., Ermagan, V., Cabellos, A., and D. Saucez,
"LISP-Security (LISP-SEC)", draft-ietf-lisp-sec-22 (work
in progress), January 2021.
Appendix A. Acknowledgments
The authors would like to thank the LISP WG for their review and
acceptance of this draft. A special thanks to Colin Cantrell for his
review, commentary and guidance.
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Appendix B. Document Change Log
[RFC Editor: Please delete this section on publication as RFC.]
B.1. Changes to draft-farinacci-lisp-telemetry-06
o Posted May 2021.
o Document timer and reference update.
B.2. Changes to draft-farinacci-lisp-telemetry-05
o Posted November 2020.
o Document timer and reference update.
B.3. Changes to draft-farinacci-lisp-telemetry-04
o Posted June 2020.
o Document timer and reference update.
B.4. Changes to draft-farinacci-lisp-telemetry-03
o Posted December 2019.
o Document timer and reference update.
B.5. Changes to draft-farinacci-lisp-telemetry-02
o Posted June 2019.
o Document timer and reference update.
B.6. Changes to draft-farinacci-lisp-telemetry-01
o Posted December 2018.
o Document timer and reference update.
B.7. Changes to draft-farinacci-lisp-telemetry-00
o Initial draft posted June 2018.
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Authors' Addresses
Dino Farinacci
lispers.net
San Jose, CA
USA
Email: farinacci@gmail.com
Said Ouissal
Zededa
Santa Clara, CA
USA
Email: said@zededa.com
Erik Nordmark
Zededa
Santa Clara, CA
USA
Email: erik@zededa.com
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