Network Working Group S. Hollenbeck
Internet-Draft VeriSign, Inc.
Expires: March 6, 2003 September 5, 2002
Transport Layer Security Protocol Compression Methods
draft-ietf-tls-compression-00.txt
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Copyright Notice
Copyright (C) The Internet Society (2002). All Rights Reserved.
Abstract
The Transport Layer Security (TLS) protocol (RFC 2246) includes
features to negotiate selection of a lossless data compression method
as part of the TLS Handshake Protocol and to then apply the algorithm
associated with the selected method as part of the TLS Record
Protocol. TLS defines one standard compression method,
CompressionMethod.null, which specifies that data exchanged via the
record protocol will not be compressed. This document describes
additional compression methods associated with lossless data
compression algorithms for use with TLS.
Conventions Used In This Document
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The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in RFC 2119 [1].
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Compression Methods . . . . . . . . . . . . . . . . . . . . . 4
3. Intellectual Property Considerations . . . . . . . . . . . . . 5
4. Internationalization Considerations . . . . . . . . . . . . . 6
5. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 7
6. Security Considerations . . . . . . . . . . . . . . . . . . . 8
7. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 9
Normative References . . . . . . . . . . . . . . . . . . . . . 10
Informative References . . . . . . . . . . . . . . . . . . . . 11
Author's Address . . . . . . . . . . . . . . . . . . . . . . . 11
Full Copyright Statement . . . . . . . . . . . . . . . . . . . 12
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1. Introduction
The Transport Layer Security (TLS) protocol (RFC 2246, [2]) includes
features to negotiate selection of a lossless data compression method
as part of the TLS Handshake Protocol and to then apply the algorithm
associated with the selected method as part of the TLS Record
Protocol. TLS defines one standard compression method,
CompressionMethod.null, which specifies that data exchanged via the
record protocol will not be compressed. While this single
compression method helps ensure that TLS implementations are
interoperable, the lack of additional standard compression methods
has limited the ability of implementers to develop interoperable
implementations that include data compression.
TLS is used extensively to secure client-server connections on the
World Wide Web. While these connections can often be characterized
as short-lived and exchanging relatively small amounts of data, TLS
is also being used in environments where connections can be long-
lived and the amount of data exchanged can extend into thousands or
millions of octets. XML [4], for example, is increasingly being used
as a data representation method on the Internet, and XML tends to be
verbose. Compression within TLS is one way to help reduce the
bandwidth and latency requirements associated with exchanging large
amounts of data while preserving the security services provided by
TLS.
This document describes additional compression methods associated
with lossless data compression algorithms for use with TLS.
Standardization of the compressed data formats and compression
algorithms associated with the compression methods is beyond the
scope of this document.
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2. Compression Methods
TLS [2] includes the following compression method structure in
sections 6.1 and 7.4.1.2 and Appendix sections A.4.1 and A.6:
enum { null(0), (255) } CompressionMethod;
which allows for later specification of up to 256 different
compression methods. This definition is updated to segregate the
range of allowable values into three zones:
1. Values from 0 (zero) through 63 decimal (0x3F) inclusive are
reserved for future standardization efforts of the IETF TLS
working group.
2. Values from 64 decimal (0x40) through 192 decimal (0xC0) are
reserved for assignment by the IANA for specifications developed
outside the TLS working group. Assignments from this range of
values MUST be made by the IANA and MUST be associated with a
formal reference that describes the compression method.
3. Values from 193 decimal (0xC1) through 255 decimal (0xFF) are
reserved for private use.
Additional information describing the role of the IANA in the
allocation of compression method identifiers is described in Section
5.
In addition, this definition is updated to include assignment of
three additional compression methods:
enum { null(0), ZLIB(1), LZS(2), RLE(3), (255) } CompressionMethod;
The ZLIB compression method is described in RFC 1950 [5]. The Lempel
Zif Stac (LZS) compression method is described in ANSI publication
X3-241 [6]. The Run Length Encoding (RLE) compression method is
described in part 5 of the Digital Imaging and Communications in
Medicine standard [7].
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3. Intellectual Property Considerations
Many compression algorithms are subject to patent or other
intellectual property rights claims. Implementers are encouraged to
seek legal guidance to better understand the implications of
developing implementations of the compression methods described in
this document.
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4. Internationalization Considerations
The compression method identifiers specified in this document are
machine-readable numbers. As such, issues of human
internationalization and localization are not introduced.
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5. IANA Considerations
This document does not have a direct impact on the IANA, but it does
define ranges of compression method values for future assignment.
Values from the range reserved for future standardization efforts of
the TLS working group MUST be assigned according to the "Standards
Action" policy described in RFC 2434 [3]. Values from the range
reserved for private use MUST be used according to the "Private Use"
policy described in RFC 2434. Values from the general IANA pool MUST
be assigned according to the "IETF Consensus" policy described in RFC
2434.
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6. Security Considerations
This document does not introduce any topics that alter the threat
model addressed by TLS. However, data compression prior to
encryption can potentially provide a security benefit in "flattening"
the distribution of unencrypted octets (or increasing the unicity
distance) by using fewer bits to represent common characters. In
situations where the unencrypted octets represent human-readable
text, reducing the predictability of text patterns can make it
slightly more difficult to mount a successful attack on the encrypted
octets.
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7. Acknowledgements
The concepts described in this document were originally discussed on
the IETF TLS working group mailing list in December, 2000. The
author acknowledges the contributions to that discussion provided by
Jeffrey Altman, Eric Rescorla, and Marc Van Heyningen.
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Normative References
[1] Bradner, S., "Key words for use in RFCs to Indicate Requirement
Levels", BCP 14, RFC 2119, March 1997.
[2] Dierks, T., Allen, C., Treese, W., Karlton, P., Freier, A. and
P. Kocher, "The TLS Protocol Version 1.0", RFC 2246, January
1999.
[3] Narten, T. and H. Alvestrand, "Guidelines for Writing an IANA
Considerations Section in RFCs", BCP 26, RFC 2434, October 1998.
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Informative References
[4] Bray, T., Paoli, J., Sperberg-McQueen, C. and E. Maler,
"Extensible Markup Language (XML) 1.0 (2nd ed)", W3C REC-xml,
October 2000, <http://www.w3.org/TR/REC-xml>.
[5] Deutsch, L. and J-L. Gailly, "ZLIB Compressed Data Format
Specification version 3.3", RFC 1950, May 1996.
[6] American National Standards Institute, "Data Compression Method,
Adaptive Coding with Sliding Window of Information Interchange",
ANSI X3.241, 1994.
[7] National Electrical Manufacturers Association, "Digital Imaging
and Communications in Medicine (DICOM) Part 5: Data Structures
and Encoding", 2001, <http://medical.nema.org/dicom/2001/
01_05PU.PDF>.
Author's Address
Scott Hollenbeck
VeriSign, Inc.
21345 Ridgetop Circle
Dulles, VA 20166-6503
US
EMail: shollenbeck@verisign.com
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Funding for the RFC Editor function is currently provided by the
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