One document matched: draft-zeilenga-ldup-harmful-02.txt
Differences from draft-zeilenga-ldup-harmful-01.txt
INTERNET-DRAFT Kurt D. Zeilenga
Intended Category: Informational OpenLDAP Foundation
Expires in six months 3 February 2004
LDAP Multi-master Replication Considered Harmful
<draft-zeilenga-ldup-harmful-02.txt>
1. Status of this Memo
This document is an Internet-Draft and is in full conformance with all
provisions of Section 10 of RFC2026.
Distribution of this memo is unlimited. Technical discussion of this
document may take place on the IETF LDUP Working Group mailing list at
<ietf-ldup@imc.org>. Please send editorial comments directly to the
document editor at <Kurt@OpenLDAP.org>.
Internet-Drafts are working documents of the Internet Engineering Task
Force (IETF), its areas, and its working groups. Note that other
groups may also distribute working documents as Internet-Drafts.
Internet-Drafts are draft documents valid for a maximum of six months
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The list of current Internet-Drafts can be accessed at
<http://www.ietf.org/ietf/1id-abstracts.txt>. The list of
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Copyright (C) The Internet Society (2004). All Rights Reserved.
Please see the Full Copyright section near the end of this document
for more information.
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Abstract
Over the last few years there has been significant development of
Lightweight Directory Access Protocol (LDAP) replication mechanisms
supporting multi-master service models. While multi-master
replication may be useful in some situations, the deployment of
multi-master replication alters the standard LDAP service model in a
manner which can be harmful. Specifically, the atomicity,
consistency, isolation, and durability (ACID) properties of the LDAP
service model would be lost.
This memo discusses the LDAP service model, how multi-master
replication alters the service model, and how this alteration is
harmful to existing directory applications.
1. Introduction
The Lightweight Directory Access Protocol (LDAP) [RFC3377] is a
protocol for accessing directory services which act in accordance with
the X.500 [X.500] information and service models [X.501][X.511].
There has been significant consumer demand for "multi-master"
replication of LDAP-based directory servers. However, there appears
to be continued consumer confusion over data consistency issues
introduced by the forms of multi-master replication being developed.
Consumers tend to want "high availability", "scalability", "strong
data consistency" and other qualities all at once. When engineering
an information service, a balance between these qualities must be
found which meets the design objectives.
The designers of X.500 and LDAP specified an information service which
offers "high-availability" and "scalability" of read-access through
shadowing (replication) to slave (read-only) servers and "strong data
consistency" through a "single master" (authoritative) server.
The introduction of multi-master replication, as described in
[RFC3384], to LDAP will significantly change the service model. In
particular, as no one server is authoritative over an object, the
protocol would not guarantee strong data consistency between its
peers. That is, the directory service would no longer be capable of
managing the concurrency of independent modifiers of directory
content.
Changing the service model change will break applications which rely
on current semantics and, hence, should not be made. Instead, a new
directory access protocol should be developed to accommodate the
desired semantics.
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To understand why the introduction of multi-master replication to
LDAP-enabled directories is harmful, one must first understand the
X.500 information and service models as used in LDAP. These models
are discussed in Section 2.
The introduction of multi-master replication would significantly alter
these models. Section 3 discusses these alterations.
These alterations will break existing directory applications. A
couple of examples of affected applications are provided in Section 4.
Security Considerations are discussed in Section 5.
Conclusions are discussed in Section 6.
2. X.500/LDAP Models
The X.500 information model [X.501] is hierarchical, object-oriented,
and designed to distributed directory systems. The model also
supports single-master replication [X.525]. LDAP is defined in terms
of X.500 as an X.500 access protocol [RFC2251]. The X.500 service
model [X.511] provides atomicity, consistency, isolation, and
durability properties ([ACID]).
The X.500 service model requires atomicity (i.e. "all or nothing").
That is, either all the parts of the update operation are committed to
the Directory or none are.
The X.500 service model requires consistency. That is, an successful
update operation creates a new and valid directory state and a failed
update operation leaves the directory unchanged.
The X.500 service model requires isolation. That is, no part of the
update operation becomes visible to other operations until its been
committed to the directory.
The X.500 service model assumes durability ("updates will not be
lost"). That is, the X.500 assumes that updates committed to the
Directory are held by the responsible directory system agents (DSAs or
servers). However, the specification does not explicitly state a
requirement that servers ensures correct state is maintained in the
face of unexpected and/or unusual faults (like power outages).
It is noted that X.500 replication (shadowing) model allows for
transient inconsistencies to exist between the master and shadow
copies of directory information. As applications which update
information operate upon the master copy, any inconsistencies in
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shadow copies are not evident to these applications.
3. Multi-master Changes to LDAP Service Model
RFC 3384 defines multi-master replication as follows:
Multi-Master Replication - A replication model where entries can
be written and updated on any of several master replica copies
without requiring communication with other master replicas before
the write or update is performed.
For example, if two directory user agents (DUAs or clients)
independently attempt to add different entries with the same name but
against different masters, both operations could indicate a successful
result despite the name conflict. Likewise, if two clients
independently attempted to add the same attribute but with different
values, both attempts could be successful despite the attribute value
conflict if issued against different masters.
Depending particulars of the multi-master replication system, such
conflicts are resolved either automatically or manually. Generally,
automated reconciliation procedures are used which rely simply
ignoring certain updates [LDUPURP]. These procedures can lead to
reconciliation to a directory state not requested by the user.
Obviously, the introduction of multi-master significantly changes the
X.500/LDAP service model. Atomicity is lost as the final state of the
directory may not incorporate all portions of an update request.
Consistency is lost because a successful update operation may not
result new and valid directory state being created. Isolation is
moot. No durability is provided as updates may be lost under normal
operating conditions.
4. Harm to existing directory applications
All directory applications which are designed to support concurrent
administration of user application information rely, to some degree,
on the service model's ACID properties. The severity of the harm done
to these applications will depend on a number of factors. In many
cases, the harm is irreparable. This section offers a few simple
examples intended to demonstrate the kind of harm that would can be
inflicted. In many other cases, the harm done may be quite subtle but
no less real.
4.1. Allocation of service entries
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Many directory applications allocate unique service entries for users.
For instance, white pages application may allow concurrent addition of
users (using the naming plan for Internet directory applications
[RFC2377] and inetOrgPerson schema [RFC2798]) and rely on the
directory service to ensure that each DN uniquely identifies a user.
One client interacting with master server might attempt to add an
entry for Joe Smith called <uid=joe@example.com,dc=example,dc=com> and
another client interacting with a second master server might attempt
to add an entry for Joe Jones <uid=joe@example.com,dc=example,dc=com>.
Both of these additions could be successful.
The introduction of multi-master replication would cause great harm to
such deployments as it would allow both adds to succeed.
4.2. Allocation of serial numbers
Many directory applications require each object (in a particular class
or set of classes) to have a unique serial number assigned to it. For
instance, in Network Information Service [RFC2307] system, uidNumber
associated with a user must be unique within an administrative domain.
One approach which allows multiple instances of the administrative
client to allocate unique serial numbers, is to have an entry in the
directory which holds the last assigned uidNumber. Then clients can
read the uidNumber and attempt to increment it as follows:
dn: cn=Last UID,dc=example,dc=com
changetype: modify
modify: delete
delete: uidNumber
uidNumber: 1020
-
modify: add
add: uidNumber
uidNumber: 1021
-
where 1020 was the value uidNumber read and 1021 is the desired value.
If the modify fails because the value to be deleted no longer exists,
the client can repeat as necessary.
(Another approach is to use a modify/increment with atomic read entry
features [X.511][Increment][ReadEntry].)
The introduction of multi-master replication would cause great harm to
such applications, resulting in same serial number being assigned to
different objects.
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4.3. Allocation of single-valued authority information
Some applications rely on the value of a single valued attribute to
indicate which service or process currently has authority over an
object. For example, say the single valued attribute 'authority' is
defined in the schema to represent the service or process which is
currently responsible for administration of the object. If one
client tries to add "authority: A" and another tries to add
"authority: B" to an entry which presently has no authority attribute,
both of these operations cannot be successful.
The introduction of multi-master replication would cause great harm to
such applications, resulting in exclusive authority being granted to
multiple services or processes.
4.4. Entry resurrection
Applications and administrator generally do not expect entries they
delete to be resurrected. For example, if an administrator deletes a
user entry, the administrator would likely be very surprised if it
later found that user entry had been resurrected.
The introduction of multi-master replication can lead to such as a
replication conflict, due to the addition of a child entry subordinate
the user entry on another master, can result in the user entry being
resurrected.
5. Security Considerations
It is unclear how one can build secure directory applications where
update operations do not have the atomicity, consistency, isolation,
and durability properties.
It is unclear how one can secure the directory when updates to
authentication credentials and security and other policy information
may be lost.
6. Conclusions
The X.500/LDAP information and service models does not support
multi-master replication and cannot be altered to support multi-master
replication without causing significant harm to existing directory
applications. LDAP developers should heed this implementation
absolute imperative [RFC 2251, Section 3.3]:
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This document defines LDAP in terms of X.500 as an X.500 access
mechanism. An LDAP server MUST act in accordance with the
X.500(1993) series of ITU recommendations when providing the
service. However, it is not required that an LDAP server make use
of any X.500 protocols in providing this service, e.g. LDAP can be
mapped onto any other directory system so long as the X.500 data
and service model as used in LDAP is not violated in the LDAP
interface.
7. Normative References
[RFC2251] Wahl, M., T. Howes and S. Kille, "Lightweight Directory
Access Protocol (v3)", RFC 2251, December 1997.
[RFC3377] Hodges, J. and R. Morgan, "Lightweight Directory Access
Protocol (v3): Technical Specification", RFC 3377,
September 2002.
[X.500] International Telecommunication Union -
Telecommunication Standardization Sector, "The Directory
-- Overview of concepts, models and services,"
X.500(1993) (also ISO/IEC 9594-1:1994).
[X.501] International Telecommunication Union -
Telecommunication Standardization Sector, "The Directory
-- Models," X.501(1993) (also ISO/IEC 9594-2:1994).
[X.511] International Telecommunication Union -
Telecommunication Standardization Sector, "The Directory:
Abstract Service Definition", X.511(1993).
[X.525] International Telecommunication Union -
Telecommunication Standardization Sector, "The Directory:
Replication", X.525(1993).
[RFC3384] E. Stokes, et. al., "LDAPv3 Replication Requirements",
RFC3384, October 2002.
8. Informative References
[ACID] Section 4 of ISO/IEC 10026-1:1992.
[RFC2307] Howard, L, "An Approach for Using LDAP as a Network
Information Service", RFC 2307, March 1998.
[RFC2377] Grimstad, A., R. Huber, S. Sataluri, and M. Wahl,
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"Naming Plan for Internet Directory-Enabled
Applications", RFC 2377, September 1998.
[RFC2798] Smith, M., "The LDAP inetOrgPerson Object Class", RFC
2798, April 2000.
[Increment] Zeilenga, K., "LDAP Modify/Increment Extension",
draft-zeilenga-ldap-modify-increment-xx.txt (to be
submitted soon), a work in progress.
[READENTRY] Zeilenga, K., "LDAP Read Entry Controls",
draft-zeilenga-ldap-readentry-xx.txt, a work in progress.
9. IANA Considerations
No IANA actions are requested.
10. Authors' Address
Kurt D. Zeilenga
OpenLDAP Foundation
Email: Kurt@OpenLDAP.org
Full Copyright
Copyright (C) The Internet Society (2004). All Rights Reserved.
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