Network Working Group G. Mirsky
Internet-Draft ZTE Corp.
Intended status: Standards Track I. Meilik
Expires: September 3, 2017 Broadcom
March 2, 2017
Support of IEEE-1588 time stamp format in Two-Way Active Measurement
Protocol (TWAMP)
draft-ietf-ippm-twamp-time-format-03
Abstract
This document describes an OPTIONAL feature for active performance
measurement protocols allowing use of the Precision Time Protocol
time stamp format defined in IEEE-1588v2-2008, as an alternative to
the Network Time Protocol that is currently used.
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Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 2
1.1. Conventions used in this document . . . . . . . . . . . . 3
1.1.1. Terminology . . . . . . . . . . . . . . . . . . . . . 3
1.1.2. Requirements Language . . . . . . . . . . . . . . . . 3
2. OWAMP and TWAMP Extensions . . . . . . . . . . . . . . . . . 3
2.1. Timestamp Format Negotiation in Setting Up Connection in
OWAMP . . . . . . . . . . . . . . . . . . . . . . . . . . 4
2.2. Timestamp Format Negotiation in Setting Up Connection in
TWAMP . . . . . . . . . . . . . . . . . . . . . . . . . . 5
2.3. OWAMP-Test and TWAMP-Test Update . . . . . . . . . . . . 5
2.3.1. Consideration for TWAMP Light mode . . . . . . . . . 6
3. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 6
4. Security Considerations . . . . . . . . . . . . . . . . . . . 6
5. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 6
6. Normative References . . . . . . . . . . . . . . . . . . . . 7
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 7
1. Introduction
One-Way Active Measurement Protocol (OWAMP) [RFC4656] defines that
only the NTP [RFC5905] format of a time stamp can be used in OWAMP-
Test protocol. Two-Way Active Measurement Protocol (TWAMP) [RFC5357]
adopted the OWAMP-Test packet format and extended it by adding a
format for a reflected test packet. Both the sender's and
reflector's packets time stamps are expected to follow the 64-bit
long NTP format [RFC5905]. NTP, when used over Internet, typically
achieves clock accuracy of about 5ms to 100ms. Surveys conducted
recently suggest that 90% devices achieve accuracy of better than 100
ms and 99% - better than 1 sec. It should be noted that NTP
synchronizes clocks on the control plane, not on data plane.
Distribution of clock within a node may be supported by independent
NTP domain or via interprocess communication in multiprocessor
distributed system. And of mentioned solutions will be subject to
additional queuing delays that negatively affect data plane clock
accuracy.
Precision Time Protocol (PTP) [IEEE.1588.2008] has gained wide
support since the development of OWAMP and TWAMP. PTP, using on-path
support and other mechanisms, allows sub-microsecond clock accuracy.
PTP is now supported in multiple implementations of fast forwarding
engines and thus accuracy achieved by PTP is the accuracy of clock in
data plane. An option to use a more accurate clock as a source of
time stamps for IP performance measurements is one of this proposal?s
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advantages. Another advantage is realized by simplification of
hardware in data plane. To support OWAMP or TWAMP test protocol time
stamps must be converted from PTP to NTP. That requires resources,
use of micro-code or additional processing elements, that are always
limited. To address this, this document proposes optional extensions
to Control and Test protocols to support use of IEEE-1588v2 time
stamp format as optional alternative to the NTP time stamp format.
One of the goals of this proposal is not only to allow end-points of
a test session to use timestamp format other than NTP but to support
backwards compatibility with nodes that do not yet support this
extension.
1.1. Conventions used in this document
1.1.1. Terminology
IPPM: IP Performance Measurement
NTP: Network Time Protocol
PTP: Precision Time Protocol
TWAMP: Two-Way Active Measurement Protocol
OWAMP: One-Way Active Measurement Protocol
1.1.2. Requirements Language
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
[RFC2119].
2. OWAMP and TWAMP Extensions
OWAMP connection establishment follows the procedure defined in
Section 3.1 of [RFC4656] and additional steps in TWAMP described in
Section 3.1 of [RFC5357]. In these procedures, the Modes field been
used to identify and select specific communication capabilities. At
the same time the Modes field has been recognized and used as
extension mechanism [RFC6038]. The new feature requires one bit
position for Server and Control-Client to negotiate which timestamp
format can be used in some or all test sessions invoked with this
control connection. The end-point of the test session, Session-
Sender and Session-Receiver or Session-Reflector, that supports this
extension MUST be capable to interpret NTP and PTPv2 timestamp
formats. If the end-point does not support this extension, then the
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value of PTPv2 Timestamp flag MUST be 0 because it is in Must Be Zero
field. If the value of PTPv2 Timestamp flags is 0, then the
advertising node can use and interpret only NTP timestamp format.
Use of PTPv2 Timestamp flags is discussed in the following sub-
sections. For details on the assigned values and bit positions see
the Section 3.
2.1. Timestamp Format Negotiation in Setting Up Connection in OWAMP
In OWAMP-Test [RFC4656] the Session-Receiver and/or Fetch-Client
interpret collected timestamps. Thus, the Server uses the Modes
field timestamp format to indicate which formats the Session-Receiver
is capable to interpret. The Control-Client inspects values set by
the Server for timestamp formats and sets values in the Modes field
of the Set-Up-Response message according to timestamp formats
Session-Sender can use. The rules of setting timestamp flags in
Modes field in server greeting and Set-Up-Response messages and
interpreting them are as follows:
o The Server that establishes test sessions for Session-Receiver
that supports this extension MUST set PTPv2 Timestamp flag to 1 in
the server greeting message per the requirement listed in
Section 2.
o If PTPv2 Timestamp flag of the server greeting message that the
Control-Client receives has value 0, then the Session-Sender MUST
use NTP format for timestamp in the test session and Control-
Client SHOULD set PTPv2 Timestamp flag to 0 in accordance with
[RFC4656]. If the Session-Sender cannot use NTP timestamps, then
the Control-Client SHOULD close the TCP connection associated with
the OWAMP-Control session.
o If the Session-Sender can set timestamp in PTPv2 format, then the
Control-Client MUST set the PTPv2 Timestamp flag to 1 in Modes
field in the Set-Up-Response message and the Session-Sender MUST
set timestamp in PTPv2 timestamp format. Otherwise the Control-
Client MUST set the PTPv2 Timestamp flag in the Set-Up-Response
message to 0.
o Otherwise, if the Session-Sender can set timestamp in NTP format,
then the Session-Sender MUST set timestamp in NTP timestamp
format. Otherwise the Control-Client MUST close the TCP
connection associated with the OWAMP-Control session.
If values of both NTP and PTPv2 Timestamp flags in the Set-Up-
Response message are equal to 0, then that indicates that the
Control-Client can set timestamp only in NTP format.
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If OWAMP-Control uses Fetch-Session commands, then selection and use
of one or another timestamp format is local decision for both
Session-Sender and Session-Receiver.
2.2. Timestamp Format Negotiation in Setting Up Connection in TWAMP
In TWAMP-Test [RFC5357] the Session-Sender interprets collected
timestamps. Hence, in the Modes field a Server advertises timestamp
formats that the Session-Reflector can use in TWAMP-Test message.
The choice of the timestamp format to be used by the Session-Sender
is a local decision. The Control-Client inspects the Modes field and
sets timestamp flags values to indicate which format will be used by
the Session-Reflector. The rules of setting and interpreting flag
values are as follows:
o Server MUST set to 1 value of PTPv2 Timestamp flag in its greeting
message if Session-Reflector can set timestamp in PTPv2 format.
Otherwise the PTPv2 Timestamp flag MUST be set to 0.
o If value of the PTPv2 Timestamp flag in received server greeting
message equals 0, then Session-Reflector does not support this
extension and will use NTP timestamp format. Control-Client
SHOULD set PTPv2 Timestamp flag to 0 in Set-Up-Response message in
accordance with [RFC5357].
o Control-Client MUST set PTPv2 Timestamp flag value to 1 in Modes
field in the Set-Up-Response message if Server advertised ability
of the Session-Reflector to use PTPv2 format for timestamps.
Otherwise the flag MUST be set to 0.
o If the values of PTPv2 Timestamp flag in the Set-Up-Response
message equals 0, then that means that Session-Sender can only
interpret NTP timestamp format. Then the Session-Reflector MUST
use NTP timestamp format. If the Session-Reflector does not
support NTP format then Server and MUST close the TCP connection
associated with the TWAMP-Control session.
2.3. OWAMP-Test and TWAMP-Test Update
Participants of a test session need to indicate which timestamp
format being used. The proposal is to use Z field in Error Estimate
defined in Section 4.1.2 of [RFC4656]. The new interpretation of the
Error Estimate is in addition to it specifying error estimate and
synchronization, Error Estimate indicates format of a collected
timestamp. And this proposal changes the semantics of the Z bit
field, the one between S and Scale fields, to be referred as
Timestamp format and value MUST be set per the following:
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o 0 - NTP 64 bit format of a timestamp;
o 1 - PTPv2 truncated format of a timestamp.
As result of this value of the Z field from Error Estimate, Sender
Error Estimate or Send Error Estimate and Receive Error Estimate
SHOULD NOT be ignored and MUST be used when calculating delay and
delay variation metrics based on collected timestamps.
2.3.1. Consideration for TWAMP Light mode
This document does not specify how Session-Sender and Session-
Reflector in TWAMP Light mode are informed of timestamp format to be
used. It is assumed that, for example, configuration could be used
to direct Session-Sender and Session-Reflector respectively to use
timestamp format per their capabilities and rules listed in
Section 2.2.
3. IANA Considerations
The TWAMP-Modes registry defined in [RFC5618].
IANA is requested to reserve a new PTPv2 Timestamp as follows:
+--------------+------------------+---------------------+-----------+
| Value | Description | Semantics | Reference |
+--------------+------------------+---------------------+-----------+
| TBA1 | PTPv2 Timestamp | bit position TBA2 | This |
| (proposed | Capability | (proposed 8) | document |
| 256) | | | |
+--------------+------------------+---------------------+-----------+
Table 1: New Timestamp Capability
4. Security Considerations
Use of particular format of a timestamp in test session does not
appear to introduce any additional security threat to hosts that
communicate with OWAMP and/or TWAMP as defined in [RFC4656],
[RFC5357] respectively. The security considerations that apply to
any active measurement of live networks are relevant here as well.
See the Security Considerations sections in [RFC4656] and [RFC5357].
5. Acknowledgements
The authors would like to thank Lakshmikanthan and Suchit Bansal for
their insightful suggestions. The authors would like to thank David
Allan for his thorough review and thoughtful comments.
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6. Normative References
[IEEE.1588.2008]
"Standard for a Precision Clock Synchronization Protocol
for Networked Measurement and Control Systems",
IEEE Standard 1588, March 2008.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119,
DOI 10.17487/RFC2119, March 1997,
<http://www.rfc-editor.org/info/rfc2119>.
[RFC4656] Shalunov, S., Teitelbaum, B., Karp, A., Boote, J., and M.
Zekauskas, "A One-way Active Measurement Protocol
(OWAMP)", RFC 4656, DOI 10.17487/RFC4656, September 2006,
<http://www.rfc-editor.org/info/rfc4656>.
[RFC5357] Hedayat, K., Krzanowski, R., Morton, A., Yum, K., and J.
Babiarz, "A Two-Way Active Measurement Protocol (TWAMP)",
RFC 5357, DOI 10.17487/RFC5357, October 2008,
<http://www.rfc-editor.org/info/rfc5357>.
[RFC5618] Morton, A. and K. Hedayat, "Mixed Security Mode for the
Two-Way Active Measurement Protocol (TWAMP)", RFC 5618,
DOI 10.17487/RFC5618, August 2009,
<http://www.rfc-editor.org/info/rfc5618>.
[RFC5905] Mills, D., Martin, J., Ed., Burbank, J., and W. Kasch,
"Network Time Protocol Version 4: Protocol and Algorithms
Specification", RFC 5905, DOI 10.17487/RFC5905, June 2010,
<http://www.rfc-editor.org/info/rfc5905>.
[RFC6038] Morton, A. and L. Ciavattone, "Two-Way Active Measurement
Protocol (TWAMP) Reflect Octets and Symmetrical Size
Features", RFC 6038, DOI 10.17487/RFC6038, October 2010,
<http://www.rfc-editor.org/info/rfc6038>.
Authors' Addresses
Greg Mirsky
ZTE Corp.
Email: gregimirsky@gmail.com
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Israel Meilik
Broadcom
Email: israel@broadcom.com
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