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227 lines
9.2 KiB
Plaintext
227 lines
9.2 KiB
Plaintext
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Network Working Group C. Weider
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Request for Comments: 1308 ANS
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FYI: 13 J. Reynolds
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ISI
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March 1992
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Executive Introduction to Directory Services
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Using the X.500 Protocol
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Status of this Memo
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This memo provides information for the Internet community. It does
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not specify an Internet standard. Distribution of this memo is
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unlimited.
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Abstract
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This document is an Executive Introduction to Directory Services
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using the X.500 protocol. It briefly discusses the deficiencies in
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currently deployed Internet Directory Services, and then illustrates
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the solutions provided by X.500.
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This FYI RFC is a product of the Directory Information Services
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(pilot) Infrastructure Working Group (DISI). A combined effort of
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the User Services and the OSI Integration Areas of the Internet
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Engineering Task Force (IETF).
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1. INTRODUCTION
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The Internet is growing at a phenomenal rate, with no deceleration in
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sight. Every month thousands of new users are added. New networks
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are added literally almost every day. In fact, it is entirely
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conceivable that in the future every human with access to a computer
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will be able to interact with every other over the Internet and her
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sister networks. However, the ability to interact with everyone is
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only useful if one can locate the people with whom they need to work.
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Thus, as the Internet grows, one of the limitations imposed on the
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effective use of the network will be determined by the quality and
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coverage of Directory Services available.
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Directory Services in this paper refers not only to the types of
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services provided by the telephone companies' White Pages, but to
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resource location, Yellow Pages services, mail address lookup, etc.
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We will take a brief look at the services available today, and at the
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problems they have, and then we will show how the X.500 standard
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solves those problems.
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DISI Working Group [Page 1]
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RFC 1308 Executive Intro to X.500 March 1992
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2. CURRENT SERVICES AND THEIR LIMITATIONS
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In the interests of brevity, we will only look at the WHOIS service,
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and at the DNS. Each will illustrate a particular philosophy, if you
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will, of Directory Services.
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The WHOIS service is maintained by the Defense Data Network Network
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Information Center, or DDN NIC. It is currently maintained at GSI
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for the IP portion of the Internet. It contains information about IP
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networks, IP network managers, a scattering of well-known personages
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in the Internet, and a large amount of information related
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specifically to the MILNET systems. As the NIC is responsible for
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assigning new networks out of the pool of IP addresses, it is very
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easily able to collect this information when a new network is
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registered. However, the WHOIS database is big enough and
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comprehensive enough to exhibit many of the flaws of a large
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centralized database. First, centralized location of the WHOIS
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database causes slow response during times of peak querying activity,
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storage limitations, and also causes the entire service to be
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unavailable if the link to GSI is broken. Second, centralized
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administration of the database, where any changes to the database
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have to be mailed off to GSI for human transcription into the
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database, increases the turnaround time before the changes are
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propagated, and also introduces another source of potential error in
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the accuracy of the information. These particular problems affect to
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different degrees any system which attempts to provide Directory
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Services through a centralized database.
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The Domain Name Service, or DNS, contains information about the
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mapping of host and domain names, such as, "home.ans.net", to IP
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addresses. This is done so that humans can use easily remembered
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names for machines rather than strings of numbers. It is maintained
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in a distributed fashion, with each DNS server providing nameservice
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for a limited number of domains. Also, secondary nameservers can be
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identified for each domain, so that one unreachable network will not
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necessarily cut off nameservice. However, even though the DNS is
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superlative at providing these services, there are some problems when
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we attempt to provide other Directory Services in the DNS. First, the
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DNS has very limited search capabilities. Second, the DNS supports
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only a small number of data types. Adding new data types, such as
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photographs, would involve very extensive implementation changes.
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3. THE X.500 SOLUTION
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X.500 is a CCITT protocol which is designed to build a distributed,
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global directory. It offers the following features:
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* Decentralized Maintenance:
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DISI Working Group [Page 2]
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RFC 1308 Executive Intro to X.500 March 1992
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Each site running X.500 is responsible ONLY for its local part of
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the Directory, so updates and maintenance can be done instantly.
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* Powerful Searching Capabilities:
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X.500 provides powerful searching facilities that allow users to
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construct arbitrarily complex queries.
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* Single Global Namespace:
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Much like the DNS, X.500 provides a single homogeneous namespace
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to users. The X.500 namespace is more flexible and expandable
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than the DNS.
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* Structured Information Framework:
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X.500 defines the information framework used in the Directory,
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allowing local extensions.
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* Standards-Based Directory Services:
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As X.500 can be used to build a standards-based directory,
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applications which require directory information (e-mail,
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automated resources locators, special-purpose directory tools)
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can access a planet's worth of information in a uniform manner,
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no matter where they are based or currently running.
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With these features alone, X.500 is being used today to provide the
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backbone of a global White Pages service. There is almost 3 years of
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operational experience with X.500, and it is being used widely in
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Europe and Australia in addition to North America. In addition, the
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various X.500 implementations add some other features, such as
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photographs in G3-FAX format, and color photos in JPEG format.
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However, as X.500 is standards based, there are very few
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incompatibilities between the various versions of X.500, and as the
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namespace is consistent, the information in the Directory can be
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accessed by any implementation. Also, work is being done in providing
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Yellow Pages services and other information resource location tasks
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in the Directory.
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However, there are some limitations to the X.500 technology as it is
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currently implemented. One price that is paid for the flexibility in
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searching is a decline in the speed of the searching. This is because
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a) searches over a part of the distributed namespace may have to
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traverse the network, and some implementations cache all the
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responses before giving them to the user, and b) some early
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implementations performed search slowly anyway. A second problem with
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the implementations is that for security reasons only a limited
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amount of information is returned to the user; for example, if a
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search turns up 1000 hits, only 20 or so are returned to the user.
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Although this number is tunable, it does mean that someone with a big
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search will have to do a lot of work. The performance of the
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DISI Working Group [Page 3]
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RFC 1308 Executive Intro to X.500 March 1992
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Directory, while increasing rapidly in the last two years, is still
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not able to provide real-time directory services for such things as
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routing protocols. However, work is being done to speed up service.
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The X.500 Directory is taking us closer to the day when we will
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indeed have the entire world on our desktops, and X.500 will help
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insure that we can find whom and what we need.
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4: FOR FURTHER INFORMATION
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For a more detailed technical introduction to X.500 and an extensive
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bibliography, see "Technical Overview of Directory Services Using the
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X.500 Protocol", by Weider, Reynolds, and Heker. This is available
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from the NIC as FYI 14, RFC 1309. For a catalogue of X.500
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implementations, see "A Catalog of Available X.500 Implementations",
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ed. Lang and Wright. This is available from the NIC as FYI 11, RFC
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1292.
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5: SECURITY CONSIDERATIONS
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Security issues are not discussed in this paper.
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6: AUTHORS' ADDRESSES
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Chris Weider
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Advanced Network and Services, Inc.
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2901 Hubbard, G-1
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Ann Arbor, MI 48105-2437
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Phone (313) 663-2482
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E-mail: weider@ans.net
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Joyce K. Reynolds
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Information Sciences Institute
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University of Southern California
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4676 Admirality Way
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Marina del Rey, CA 90292
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Phone: (310) 822-1511
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E-Mail: jkrey@isi.edu
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DISI Working Group [Page 4]
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