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570 lines
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570 lines
24 KiB
Plaintext
# $OpenLDAP$
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# Copyright 1999-2007 The OpenLDAP Foundation, All Rights Reserved.
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# COPYING RESTRICTIONS APPLY, see COPYRIGHT.
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H1: Replication
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Replicated directories are a fundamental requirement for delivering a
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resilient enterprise deployment.
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OpenLDAP has various configuration options for creating a replicated
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directory. The following sections will discuss these.
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H2: Replication Strategies
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H3: Push Based
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H5: Replacing Slurpd
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Slurpd replication has been deprecated in favor of Syncrepl replication and
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has been completely removed from 2.4.
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{{Why was it replaced?}}
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The slurpd daemon was the original replication mechanisim inherited from
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UMich's LDAP and operates in push mode: the master pushes changes to the
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slaves. It has been replaced for many reasons, in brief:
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- It is not reliable
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- It is extremely sensitive to the ordering of records in the replog
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- It can easily go out of sync, at which point manual intervention is
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required to resync the slave database with the master directory
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- It isn't very tolerant of unavailable servers. If a slave goes down
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for a long time, the replog may grow to a size that's too large for
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slurpd to process
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{{What was it replaced with?}}
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Syncrepl.
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{{Why is Syncrepl better?}}
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- Syncrepl is self-synchronising; you can start with a database in any
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state from totally empty to fully sync'd and it will automatically do
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the right thing to achieve and maintain synchronisation
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- Syncrepl can operate in either direction
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- Data updates can be minimal or maximal
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{{How do I implement a pushed based replication system using Syncrepl?}}
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The easiest way is to point an LDAP backend ({{SECT: Backends}} and {{slapd-ldap(8)}})
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to your slave/s directory and setup Syncrepl to point to your Master database.
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REFERENCE test045/048 for better explaination of above.
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If you imagine Syncrepl pulling down changes from the Master server, and then
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pushing those changes out to your slave servers via {{slapd-ldap(8)}}. This is
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called proxy mode (elaborate/confirm?).
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DIAGRAM HERE
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BETTER EXAMPLE here from test045/048 for different push/multiproxy examples.
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Here's an example:
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> include ./schema/core.schema
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> include ./schema/cosine.schema
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> include ./schema/inetorgperson.schema
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> include ./schema/openldap.schema
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> include ./schema/nis.schema
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>
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> pidfile /home/ghenry/openldap/ldap/tests/testrun/slapd.3.pid
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> argsfile /home/ghenry/openldap/ldap/tests/testrun/slapd.3.args
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>
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> modulepath ../servers/slapd/back-bdb/
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> moduleload back_bdb.la
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> modulepath ../servers/slapd/back-monitor/
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> moduleload back_monitor.la
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> modulepath ../servers/slapd/overlays/
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> moduleload syncprov.la
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> modulepath ../servers/slapd/back-ldap/
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> moduleload back_ldap.la
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>
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> # We don't need any access to this DSA
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> restrict all
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>
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> #######################################################################
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> # consumer proxy database definitions
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> #######################################################################
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>
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> database ldap
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> suffix "dc=example,dc=com"
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> rootdn "cn=Whoever"
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> uri ldap://localhost:9012/
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>
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> lastmod on
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>
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> # HACK: use the RootDN of the monitor database as UpdateDN so ACLs apply
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> # without the need to write the UpdateDN before starting replication
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> acl-bind bindmethod=simple
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> binddn="cn=Monitor"
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> credentials=monitor
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>
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> # HACK: use the RootDN of the monitor database as UpdateDN so ACLs apply
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> # whithout the need to write the UpdateDN before starting replication
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> syncrepl rid=1
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> provider=ldap://localhost:9011/
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> binddn="cn=Manager,dc=example,dc=com"
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> bindmethod=simple
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> credentials=secret
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> searchbase="dc=example,dc=com"
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> filter="(objectClass=*)"
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> attrs="*,structuralObjectClass,entryUUID,entryCSN,creatorsName,createTimestamp,modifiersName,modifyTimestamp"
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> schemachecking=off
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> scope=sub
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> type=refreshAndPersist
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> retry="5 5 300 5"
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>
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> overlay syncprov
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>
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> database monitor
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DETAILED EXPLAINATION OF ABOVE LIKE IN OTHER SECTIONS (line numbers?)
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ANOTHER DIAGRAM HERE
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As you can see, you can let your imagination go wild using Syncrepl and
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{{slapd-ldap(8)}} tailoring your replication to fit your specific network
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topology.
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H3: Pull Based
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H4: syncrepl replication
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H4: delta-syncrepl replication
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H2: Replication Types
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H3: syncrepl replication
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H3: delta-syncrepl replication
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H3: N-Way Multi-Master
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http://www.connexitor.com/blog/pivot/entry.php?id=105#body
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http://www.openldap.org/lists/openldap-software/200702/msg00006.html
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http://www.openldap.org/lists/openldap-software/200602/msg00064.html
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H3: MirrorMode
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H2: LDAP Sync Replication
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The {{TERM:LDAP Sync}} Replication engine, {{TERM:syncrepl}} for
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short, is a consumer-side replication engine that enables the
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consumer {{TERM:LDAP}} server to maintain a shadow copy of a
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{{TERM:DIT}} fragment. A syncrepl engine resides at the consumer-side
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as one of the {{slapd}}(8) threads. It creates and maintains a
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consumer replica by connecting to the replication provider to perform
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the initial DIT content load followed either by periodic content
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polling or by timely updates upon content changes.
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Syncrepl uses the LDAP Content Synchronization (or LDAP Sync for
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short) protocol as the replica synchronization protocol. It provides
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a stateful replication which supports both pull-based and push-based
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synchronization and does not mandate the use of a history store.
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Syncrepl keeps track of the status of the replication content by
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maintaining and exchanging synchronization cookies. Because the
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syncrepl consumer and provider maintain their content status, the
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consumer can poll the provider content to perform incremental
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synchronization by asking for the entries required to make the
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consumer replica up-to-date with the provider content. Syncrepl
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also enables convenient management of replicas by maintaining replica
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status. The consumer replica can be constructed from a consumer-side
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or a provider-side backup at any synchronization status. Syncrepl
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can automatically resynchronize the consumer replica up-to-date
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with the current provider content.
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Syncrepl supports both pull-based and push-based synchronization.
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In its basic refreshOnly synchronization mode, the provider uses
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pull-based synchronization where the consumer servers need not be
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tracked and no history information is maintained. The information
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required for the provider to process periodic polling requests is
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contained in the synchronization cookie of the request itself. To
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optimize the pull-based synchronization, syncrepl utilizes the
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present phase of the LDAP Sync protocol as well as its delete phase,
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instead of falling back on frequent full reloads. To further optimize
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the pull-based synchronization, the provider can maintain a per-scope
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session log as a history store. In its refreshAndPersist mode of
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synchronization, the provider uses a push-based synchronization.
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The provider keeps track of the consumer servers that have requested
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a persistent search and sends them necessary updates as the provider
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replication content gets modified.
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With syncrepl, a consumer server can create a replica without
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changing the provider's configurations and without restarting the
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provider server, if the consumer server has appropriate access
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privileges for the DIT fragment to be replicated. The consumer
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server can stop the replication also without the need for provider-side
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changes and restart.
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Syncrepl supports both partial and sparse replications. The shadow
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DIT fragment is defined by a general search criteria consisting of
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base, scope, filter, and attribute list. The replica content is
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also subject to the access privileges of the bind identity of the
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syncrepl replication connection.
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H3: The LDAP Content Synchronization Protocol
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The LDAP Sync protocol allows a client to maintain a synchronized
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copy of a DIT fragment. The LDAP Sync operation is defined as a set
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of controls and other protocol elements which extend the LDAP search
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operation. This section introduces the LDAP Content Sync protocol
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only briefly. For more information, refer to {{REF:RFC4533}}.
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The LDAP Sync protocol supports both polling and listening for
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changes by defining two respective synchronization operations:
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{{refreshOnly}} and {{refreshAndPersist}}. Polling is implemented
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by the {{refreshOnly}} operation. The client copy is synchronized
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to the server copy at the time of polling. The server finishes the
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search operation by returning {{SearchResultDone}} at the end of
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the search operation as in the normal search. The listening is
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implemented by the {{refreshAndPersist}} operation. Instead of
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finishing the search after returning all entries currently matching
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the search criteria, the synchronization search remains persistent
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in the server. Subsequent updates to the synchronization content
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in the server cause additional entry updates to be sent to the
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client.
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The {{refreshOnly}} operation and the refresh stage of the
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{{refreshAndPersist}} operation can be performed with a present
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phase or a delete phase.
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In the present phase, the server sends the client the entries updated
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within the search scope since the last synchronization. The server
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sends all requested attributes, be it changed or not, of the updated
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entries. For each unchanged entry which remains in the scope, the
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server sends a present message consisting only of the name of the
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entry and the synchronization control representing state present.
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The present message does not contain any attributes of the entry.
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After the client receives all update and present entries, it can
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reliably determine the new client copy by adding the entries added
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to the server, by replacing the entries modified at the server, and
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by deleting entries in the client copy which have not been updated
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nor specified as being present at the server.
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The transmission of the updated entries in the delete phase is the
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same as in the present phase. The server sends all the requested
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attributes of the entries updated within the search scope since the
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last synchronization to the client. In the delete phase, however,
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the server sends a delete message for each entry deleted from the
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search scope, instead of sending present messages. The delete
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message consists only of the name of the entry and the synchronization
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control representing state delete. The new client copy can be
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determined by adding, modifying, and removing entries according to
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the synchronization control attached to the {{SearchResultEntry}}
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message.
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In the case that the LDAP Sync server maintains a history store and
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can determine which entries are scoped out of the client copy since
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the last synchronization time, the server can use the delete phase.
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If the server does not maintain any history store, cannot determine
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the scoped-out entries from the history store, or the history store
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does not cover the outdated synchronization state of the client,
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the server should use the present phase. The use of the present
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phase is much more efficient than a full content reload in terms
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of the synchronization traffic. To reduce the synchronization
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traffic further, the LDAP Sync protocol also provides several
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optimizations such as the transmission of the normalized {{EX:entryUUID}}s
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and the transmission of multiple {{EX:entryUUIDs}} in a single
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{{syncIdSet}} message.
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At the end of the {{refreshOnly}} synchronization, the server sends
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a synchronization cookie to the client as a state indicator of the
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client copy after the synchronization is completed. The client
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will present the received cookie when it requests the next incremental
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synchronization to the server.
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When {{refreshAndPersist}} synchronization is used, the server sends
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a synchronization cookie at the end of the refresh stage by sending
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a Sync Info message with TRUE refreshDone. It also sends a
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synchronization cookie by attaching it to {{SearchResultEntry}}
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generated in the persist stage of the synchronization search. During
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the persist stage, the server can also send a Sync Info message
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containing the synchronization cookie at any time the server wants
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to update the client-side state indicator. The server also updates
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a synchronization indicator of the client at the end of the persist
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stage.
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In the LDAP Sync protocol, entries are uniquely identified by the
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{{EX:entryUUID}} attribute value. It can function as a reliable
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identifier of the entry. The DN of the entry, on the other hand,
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can be changed over time and hence cannot be considered as the
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reliable identifier. The {{EX:entryUUID}} is attached to each
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{{SearchResultEntry}} or {{SearchResultReference}} as a part of the
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synchronization control.
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H3: Syncrepl Details
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The syncrepl engine utilizes both the {{refreshOnly}} and the
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{{refreshAndPersist}} operations of the LDAP Sync protocol. If a
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syncrepl specification is included in a database definition,
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{{slapd}}(8) launches a syncrepl engine as a {{slapd}}(8) thread
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and schedules its execution. If the {{refreshOnly}} operation is
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specified, the syncrepl engine will be rescheduled at the interval
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time after a synchronization operation is completed. If the
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{{refreshAndPersist}} operation is specified, the engine will remain
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active and process the persistent synchronization messages from the
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provider.
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The syncrepl engine utilizes both the present phase and the delete
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phase of the refresh synchronization. It is possible to configure
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a per-scope session log in the provider server which stores the
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{{EX:entryUUID}}s of a finite number of entries deleted from a
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replication content. Multiple replicas of single provider content
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share the same per-scope session log. The syncrepl engine uses the
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delete phase if the session log is present and the state of the
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consumer server is recent enough that no session log entries are
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truncated after the last synchronization of the client. The syncrepl
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engine uses the present phase if no session log is configured for
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the replication content or if the consumer replica is too outdated
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to be covered by the session log. The current design of the session
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log store is memory based, so the information contained in the
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session log is not persistent over multiple provider invocations.
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It is not currently supported to access the session log store by
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using LDAP operations. It is also not currently supported to impose
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access control to the session log.
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As a further optimization, even in the case the synchronization
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search is not associated with any session log, no entries will be
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transmitted to the consumer server when there has been no update
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in the replication context.
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The syncrepl engine, which is a consumer-side replication engine,
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can work with any backends. The LDAP Sync provider can be configured
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as an overlay on any backend, but works best with the {{back-bdb}}
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or {{back-hdb}} backend.
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The LDAP Sync provider maintains a {{EX:contextCSN}} for each
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database as the current synchronization state indicator of the
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provider content. It is the largest {{EX:entryCSN}} in the provider
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context such that no transactions for an entry having smaller
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{{EX:entryCSN}} value remains outstanding. The {{EX:contextCSN}}
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could not just be set to the largest issued {{EX:entryCSN}} because
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{{EX:entryCSN}} is obtained before a transaction starts and
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transactions are not committed in the issue order.
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The provider stores the {{EX:contextCSN}} of a context in the
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{{EX:contextCSN}} attribute of the context suffix entry. The attribute
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is not written to the database after every update operation though;
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instead it is maintained primarily in memory. At database start
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time the provider reads the last saved {{EX:contextCSN}} into memory
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and uses the in-memory copy exclusively thereafter. By default,
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changes to the {{EX:contextCSN}} as a result of database updates
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will not be written to the database until the server is cleanly
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shut down. A checkpoint facility exists to cause the contextCSN to
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be written out more frequently if desired.
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Note that at startup time, if the provider is unable to read a
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{{EX:contextCSN}} from the suffix entry, it will scan the entire
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database to determine the value, and this scan may take quite a
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long time on a large database. When a {{EX:contextCSN}} value is
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read, the database will still be scanned for any {{EX:entryCSN}}
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values greater than it, to make sure the {{EX:contextCSN}} value
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truly reflects the greatest committed {{EX:entryCSN}} in the database.
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On databases which support inequality indexing, setting an eq index
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on the {{EX:entryCSN}} attribute and configuring {{contextCSN}}
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checkpoints will greatly speed up this scanning step.
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If no {{EX:contextCSN}} can be determined by reading and scanning
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the database, a new value will be generated. Also, if scanning the
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database yielded a greater {{EX:entryCSN}} than was previously
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recorded in the suffix entry's {{EX:contextCSN}} attribute, a
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checkpoint will be immediately written with the new value.
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The consumer also stores its replica state, which is the provider's
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{{EX:contextCSN}} received as a synchronization cookie, in the
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{{EX:contextCSN}} attribute of the suffix entry. The replica state
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maintained by a consumer server is used as the synchronization state
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indicator when it performs subsequent incremental synchronization
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with the provider server. It is also used as a provider-side
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synchronization state indicator when it functions as a secondary
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provider server in a cascading replication configuration. Since
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the consumer and provider state information are maintained in the
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same location within their respective databases, any consumer can
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be promoted to a provider (and vice versa) without any special
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actions.
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Because a general search filter can be used in the syncrepl
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specification, some entries in the context may be omitted from the
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synchronization content. The syncrepl engine creates a glue entry
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to fill in the holes in the replica context if any part of the
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replica content is subordinate to the holes. The glue entries will
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not be returned in the search result unless {{ManageDsaIT}} control
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is provided.
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Also as a consequence of the search filter used in the syncrepl
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specification, it is possible for a modification to remove an entry
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from the replication scope even though the entry has not been deleted
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on the provider. Logically the entry must be deleted on the consumer
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but in {{refreshOnly}} mode the provider cannot detect and propagate
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this change without the use of the session log.
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H3: Configuring Syncrepl
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Because syncrepl is a consumer-side replication engine, the syncrepl
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specification is defined in {{slapd.conf}}(5) of the consumer
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server, not in the provider server's configuration file. The initial
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loading of the replica content can be performed either by starting
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the syncrepl engine with no synchronization cookie or by populating
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the consumer replica by adding an {{TERM:LDIF}} file dumped as a
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backup at the provider.
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When loading from a backup, it is not required to perform the initial
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loading from the up-to-date backup of the provider content. The
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syncrepl engine will automatically synchronize the initial consumer
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replica to the current provider content. As a result, it is not
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required to stop the provider server in order to avoid the replica
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inconsistency caused by the updates to the provider content during
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the content backup and loading process.
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When replicating a large scale directory, especially in a bandwidth
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constrained environment, it is advised to load the consumer replica
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from a backup instead of performing a full initial load using
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syncrepl.
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H4: Set up the provider slapd
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The provider is implemented as an overlay, so the overlay itself
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must first be configured in {{slapd.conf}}(5) before it can be
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used. The provider has only two configuration directives, for setting
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checkpoints on the {{EX:contextCSN}} and for configuring the session
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log. Because the LDAP Sync search is subject to access control,
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proper access control privileges should be set up for the replicated
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content.
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The {{EX:contextCSN}} checkpoint is configured by the
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> syncprov-checkpoint <ops> <minutes>
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directive. Checkpoints are only tested after successful write
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operations. If {{<ops>}} operations or more than {{<minutes>}}
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time has passed since the last checkpoint, a new checkpoint is
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performed.
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The session log is configured by the
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> syncprov-sessionlog <size>
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directive, where {{<size>}} is the maximum number of session log
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entries the session log can record. When a session log is configured,
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it is automatically used for all LDAP Sync searches within the
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database.
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Note that using the session log requires searching on the {{entryUUID}}
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attribute. Setting an eq index on this attribute will greatly benefit
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the performance of the session log on the provider.
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A more complete example of the {{slapd.conf}}(5) content is thus:
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> database bdb
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> suffix dc=Example,dc=com
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> rootdn dc=Example,dc=com
|
|
> directory /var/ldap/db
|
|
> index objectclass,entryCSN,entryUUID eq
|
|
>
|
|
> overlay syncprov
|
|
> syncprov-checkpoint 100 10
|
|
> syncprov-sessionlog 100
|
|
|
|
|
|
H4: Set up the consumer slapd
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|
|
|
The syncrepl replication is specified in the database section of
|
|
{{slapd.conf}}(5) for the replica context. The syncrepl engine
|
|
is backend independent and the directive can be defined with any
|
|
database type.
|
|
|
|
> database hdb
|
|
> suffix dc=Example,dc=com
|
|
> rootdn dc=Example,dc=com
|
|
> directory /var/ldap/db
|
|
> index objectclass,entryCSN,entryUUID eq
|
|
>
|
|
> syncrepl rid=123
|
|
> provider=ldap://provider.example.com:389
|
|
> type=refreshOnly
|
|
> interval=01:00:00:00
|
|
> searchbase="dc=example,dc=com"
|
|
> filter="(objectClass=organizationalPerson)"
|
|
> scope=sub
|
|
> attrs="cn,sn,ou,telephoneNumber,title,l"
|
|
> schemachecking=off
|
|
> bindmethod=simple
|
|
> binddn="cn=syncuser,dc=example,dc=com"
|
|
> credentials=secret
|
|
|
|
In this example, the consumer will connect to the provider {{slapd}}(8)
|
|
at port 389 of {{FILE:ldap://provider.example.com}} to perform a
|
|
polling ({{refreshOnly}}) mode of synchronization once a day. It
|
|
will bind as {{EX:cn=syncuser,dc=example,dc=com}} using simple
|
|
authentication with password "secret". Note that the access control
|
|
privilege of {{EX:cn=syncuser,dc=example,dc=com}} should be set
|
|
appropriately in the provider to retrieve the desired replication
|
|
content. Also the search limits must be high enough on the provider
|
|
to allow the syncuser to retrieve a complete copy of the requested
|
|
content. The consumer uses the rootdn to write to its database so
|
|
it always has full permissions to write all content.
|
|
|
|
The synchronization search in the above example will search for the
|
|
entries whose objectClass is organizationalPerson in the entire
|
|
subtree rooted at {{EX:dc=example,dc=com}}. The requested attributes
|
|
are {{EX:cn}}, {{EX:sn}}, {{EX:ou}}, {{EX:telephoneNumber}},
|
|
{{EX:title}}, and {{EX:l}}. The schema checking is turned off, so
|
|
that the consumer {{slapd}}(8) will not enforce entry schema
|
|
checking when it process updates from the provider {{slapd}}(8).
|
|
|
|
For more detailed information on the syncrepl directive, see the
|
|
{{SECT:syncrepl}} section of {{SECT:The slapd Configuration File}}
|
|
chapter of this admin guide.
|
|
|
|
|
|
H4: Start the provider and the consumer slapd
|
|
|
|
The provider {{slapd}}(8) is not required to be restarted.
|
|
{{contextCSN}} is automatically generated as needed: it might be
|
|
originally contained in the {{TERM:LDIF}} file, generated by
|
|
{{slapadd}} (8), generated upon changes in the context, or generated
|
|
when the first LDAP Sync search arrives at the provider. If an
|
|
LDIF file is being loaded which did not previously contain the
|
|
{{contextCSN}}, the {{-w}} option should be used with {{slapadd}}
|
|
(8) to cause it to be generated. This will allow the server to
|
|
startup a little quicker the first time it runs.
|
|
|
|
When starting a consumer {{slapd}}(8), it is possible to provide
|
|
a synchronization cookie as the {{-c cookie}} command line option
|
|
in order to start the synchronization from a specific state. The
|
|
cookie is a comma separated list of name=value pairs. Currently
|
|
supported syncrepl cookie fields are {{csn=<csn>}} and {{rid=<rid>}}.
|
|
{{<csn>}} represents the current synchronization state of the
|
|
consumer replica. {{<rid>}} identifies a consumer replica locally
|
|
within the consumer server. It is used to relate the cookie to the
|
|
syncrepl definition in {{slapd.conf}}(5) which has the matching
|
|
replica identifier. The {{<rid>}} must have no more than 3 decimal
|
|
digits. The command line cookie overrides the synchronization
|
|
cookie stored in the consumer replica database.
|
|
|
|
|
|
H2: N-Way Multi-Master
|
|
|
|
|
|
H2: MirrorMode
|
|
|
|
|