From 88c66bfe89c4342b0214c97e81274e6062a1ab01 Mon Sep 17 00:00:00 2001 From: Gavin Henry Date: Fri, 1 Jun 2007 17:45:42 +0000 Subject: [PATCH] New TOC, new sdf files and merging/reworking of existing data. Makefile updated and tested also. --- doc/guide/admin/Makefile | 7 +- doc/guide/admin/appendix-configs.sdf | 13 + doc/guide/admin/backends.sdf | 100 +++ doc/guide/admin/intro.sdf | 9 + doc/guide/admin/maintenance.sdf | 15 + doc/guide/admin/master.sdf | 24 +- .../admin/{proxycache.sdf => overlays.sdf} | 161 +++- doc/guide/admin/preface.sdf | 2 +- doc/guide/admin/replication.sdf | 754 ++++++++++-------- doc/guide/admin/syncrepl.sdf | 404 ---------- doc/guide/admin/troubleshooting.sdf | 22 + 11 files changed, 749 insertions(+), 762 deletions(-) create mode 100644 doc/guide/admin/appendix-configs.sdf create mode 100644 doc/guide/admin/backends.sdf create mode 100644 doc/guide/admin/maintenance.sdf rename doc/guide/admin/{proxycache.sdf => overlays.sdf} (78%) delete mode 100644 doc/guide/admin/syncrepl.sdf create mode 100644 doc/guide/admin/troubleshooting.sdf diff --git a/doc/guide/admin/Makefile b/doc/guide/admin/Makefile index dfae7270e9..5799eb88dc 100644 --- a/doc/guide/admin/Makefile +++ b/doc/guide/admin/Makefile @@ -18,16 +18,19 @@ sdf-src: \ ../plain.sdf \ ../preamble.sdf \ abstract.sdf \ + appendix-configs.sdf \ + backends.sdf \ config.sdf \ dbtools.sdf \ glossary.sdf \ guide.sdf \ install.sdf \ intro.sdf \ + maintenance.sdf \ master.sdf \ monitoringslapd.sdf \ + overlays.sdf \ preface.sdf \ - proxycache.sdf \ quickstart.sdf \ referrals.sdf \ replication.sdf \ @@ -36,9 +39,9 @@ sdf-src: \ schema.sdf \ security.sdf \ slapdconfig.sdf \ - syncrepl.sdf \ title.sdf \ tls.sdf \ + troubleshooting.sdf \ tuning.sdf sdf-img: \ diff --git a/doc/guide/admin/appendix-configs.sdf b/doc/guide/admin/appendix-configs.sdf new file mode 100644 index 0000000000..13ebf87fab --- /dev/null +++ b/doc/guide/admin/appendix-configs.sdf @@ -0,0 +1,13 @@ +# Copyright 2007 The OpenLDAP Foundation, All Rights Reserved. +# COPYING RESTRICTIONS APPLY, see COPYRIGHT. + +H1: Configuration File Examples + + +H2: slapd.conf + + +H2: ldap.conf + + +H2: a-n-other.conf diff --git a/doc/guide/admin/backends.sdf b/doc/guide/admin/backends.sdf new file mode 100644 index 0000000000..40905dfd3d --- /dev/null +++ b/doc/guide/admin/backends.sdf @@ -0,0 +1,100 @@ +# Copyright 2007 The OpenLDAP Foundation, All Rights Reserved. +# COPYING RESTRICTIONS APPLY, see COPYRIGHT. + +H1: Backends + + +H2: Berkley DB Backends + + +H3: Overview + + +H3: back-bdb/back-hdb Configuration + + +H3: Further Information + + +H2: LDAP + + +H3: Overview + + +H3: back-ldap Configuration + + +H3: Further Information + + +H2: LDIF + + +H3: Overview + + +H3: back-ldif Configuration + + +H3: Further Information + + +H2: Metadirectory + + +H3: Overview + + +H3: back-meta Configuration + + +H3: Further Information + + +H2: Monitor + + +H3: Overview + + +H3: back-monitor Configuration + + +H3: Further Information + + +H2: Relay + + +H3: Overview + + +H3: back-relay Configuration + + +H3: Further Information + + +H2: Perl/Shell + + +H3: Overview + + +H3: back-perl/back-shell Configuration + + +H3: Further Information + + +H2: SQL + + +H3: Overview + + +H3: back-sql Configuration + + +H3: Further Information diff --git a/doc/guide/admin/intro.sdf b/doc/guide/admin/intro.sdf index 8d40e9d724..988d4f402c 100644 --- a/doc/guide/admin/intro.sdf +++ b/doc/guide/admin/intro.sdf @@ -154,6 +154,12 @@ LDAP also supports data security (integrity and confidentiality) services. +H2: When should I use LDAP? + + +H2: When should I not use LDAP? + + H2: How does LDAP work? LDAP utilizes a {{client-server model}}. One or more LDAP servers @@ -221,6 +227,9 @@ simultaneously is quite problematic. LDAPv2 should be avoided. LDAPv2 is disabled by default. +H2: LDAP vs RDBMS + + H2: What is slapd and what can it do? {{slapd}}(8) is an LDAP directory server that runs on many different diff --git a/doc/guide/admin/maintenance.sdf b/doc/guide/admin/maintenance.sdf new file mode 100644 index 0000000000..7d8aa256f1 --- /dev/null +++ b/doc/guide/admin/maintenance.sdf @@ -0,0 +1,15 @@ +# Copyright 2007 The OpenLDAP Foundation, All Rights Reserved. +# COPYING RESTRICTIONS APPLY, see COPYRIGHT. + +H1: Maintenance + + +H2: Directory Backups + + +H2: Berkeley DB Logs + + +H2: Checkpointing + + diff --git a/doc/guide/admin/master.sdf b/doc/guide/admin/master.sdf index 7d7b4b2471..7c7968ee19 100644 --- a/doc/guide/admin/master.sdf +++ b/doc/guide/admin/master.sdf @@ -48,6 +48,12 @@ PB: !include "dbtools.sdf"; chapter PB: +!include "backends.sdf"; chapter +PB: + +!include "overlays.sdf"; chapter +PB: + !include "schema.sdf"; chapter PB: @@ -60,25 +66,29 @@ PB: !include "tls.sdf"; chapter PB: -!include "monitoringslapd.sdf"; chapter +!include "referrals.sdf"; chapter PB: -#!include "tuning.sdf"; chapter -#PB: +!include "replication.sdf"; chapter +PB: -!include "referrals.sdf"; chapter +!include "maintenance.sdf"; chapter PB: -!include "replication.sdf"; chapter +!include "monitoringslapd.sdf"; chapter PB: -!include "syncrepl.sdf"; chapter +!include "tuning.sdf"; chapter PB: -!include "proxycache.sdf"; chapter +!include "troubleshooting.sdf"; chapter PB: # Appendices +# Config file examples +!include "appendix-configs.sdf"; appendix +PB: + # Terms !include "glossary.sdf"; appendix PB: diff --git a/doc/guide/admin/proxycache.sdf b/doc/guide/admin/overlays.sdf similarity index 78% rename from doc/guide/admin/proxycache.sdf rename to doc/guide/admin/overlays.sdf index 0d4dcab72b..96ab483eb4 100644 --- a/doc/guide/admin/proxycache.sdf +++ b/doc/guide/admin/overlays.sdf @@ -1,8 +1,64 @@ -# $OpenLDAP$ -# Copyright 2003-2007 The OpenLDAP Foundation, All Rights Reserved. +# Copyright 2007 The OpenLDAP Foundation, All Rights Reserved. # COPYING RESTRICTIONS APPLY, see COPYRIGHT. -H1: The Proxy Cache Engine +H1: Overlays + + +H2: Access Logging + + +H3: Overview + + +H3: Access Logging Configuration + + +H2: Audit Logging + + +H3: Overview + + +H3: Audit Logging Configuration + + +H2: Constraints + + +H3: Overview + + +H3: Constraint Configuration + + +H2: Dynamic Directory Services + + +H3: Overview + + +H3: Dynamic Directory Service Configuration + + +H2: Dynamic Groups + + +H3: Overview + + +H3: Dynamic Group Configuration + + +H2: Dynamic Lists + + +H3: Overview + + +H3: Dynamic List Configuration + + +H2: The Proxy Cache Engine {{TERM:LDAP}} servers typically hold one or more subtrees of a {{TERM:DIT}}. Replica (or shadow) servers hold shadow copies of @@ -11,7 +67,7 @@ from the master server to replica (slave) servers using LDAP Sync replication. An LDAP cache is a special type of replica which holds entries corresponding to search filters instead of subtrees. -H2: Overview +H3: Overview The proxy cache extension of slapd is designed to improve the responseiveness of the ldap and meta backends. It handles a search @@ -52,14 +108,14 @@ The Proxy Cache paper design and implementation details. -H2: Proxy Cache Configuration +H3: Proxy Cache Configuration The cache configuration specific directives described below must appear after a {{EX:overlay proxycache}} directive within a {{EX:"database meta"}} or {{EX:database ldap}} section of the server's {{slapd.conf}}(5) file. -H3: Setting cache parameters +H4: Setting cache parameters > proxyCache @@ -75,7 +131,7 @@ entries in a cachable query. The specifies the consistency check period (in seconds). In each period, queries with expired TTLs are removed. -H3: Defining attribute sets +H4: Defining attribute sets > proxyAttrset @@ -84,7 +140,7 @@ set is associated with an index number from 0 to -1. These indices are used by the proxyTemplate directive to define cacheable templates. -H3: Specifying cacheable templates +H4: Specifying cacheable templates > proxyTemplate @@ -94,7 +150,7 @@ its prototype filter string and set of required attributes identified by . -H3: Example +H4: Example An example {{slapd.conf}}(5) database section for a caching server which proxies for the {{EX:"dc=example,dc=com"}} subtree held @@ -117,7 +173,7 @@ at server {{EX:ldap.example.com}}. > index cn,sn,uid,mail pres,eq,sub -H4: Cacheable Queries +H5: Cacheable Queries A LDAP search query is cacheable when its filter matches one of the templates as defined in the "proxyTemplate" statements and when it references @@ -126,7 +182,7 @@ In the example above the attribute set number 0 defines that only the attributes: {{EX:mail postaladdress telephonenumber}} are cached for the following proxyTemplates. -H4: Examples: +H5: Examples: > Filter: (&(sn=Richard*)(givenName=jack)) > Attrs: mail telephoneNumber @@ -145,4 +201,87 @@ H4: Examples: is not cacheable, because the filter does not match the template ( logical OR "|" condition instead of logical AND "&" ) + + +H2: Password Policies + + +H3: Overview + + +H3: Password Policy Configuration + + +H2: Referential Integrity + + +H3: Overview + + +H3: Referential Integrity Configuration + + +H2: Return Code + + +H3: Overview + + +H3: Return Code Configuration + + +H2: Rewrite/Remap + + +H3: Overview + + +H3: Rewrite/Remap Configuration + + +H2: Sync Provider + + +H3: Overview + + +H3: Sync Provider Configuration + + +H2: Translucent Proxy + + +H3: Overview + + +H3: Translucent Proxy Configuration + + +H2: Attribute Uniqueness + + +H3: Overview + + +H3: Attribute Uniqueness Configuration + + +H2: Value Sorting + + +H3: Overview + + +H3: Value Sorting Configuration + + +H2: Overlay Stacking + + +H3: Overview + + +H3: Example Senarios + +H4: Samba diff --git a/doc/guide/admin/preface.sdf b/doc/guide/admin/preface.sdf index c3d7f320b7..e1a433afa9 100644 --- a/doc/guide/admin/preface.sdf +++ b/doc/guide/admin/preface.sdf @@ -9,7 +9,7 @@ P1: Preface # document's copyright P2[notoc] Copyright -Copyright 1998-2006, The {{ORG[expand]OLF}}, {{All Rights Reserved}}. +Copyright 1998-2007, The {{ORG[expand]OLF}}, {{All Rights Reserved}}. Copyright 1992-1996, Regents of the {{ORG[expand]UM}}, {{All Rights Reserved}}. diff --git a/doc/guide/admin/replication.sdf b/doc/guide/admin/replication.sdf index 5f1ba20335..be4ae7ed04 100644 --- a/doc/guide/admin/replication.sdf +++ b/doc/guide/admin/replication.sdf @@ -1,356 +1,436 @@ # $OpenLDAP$ # Copyright 1999-2007 The OpenLDAP Foundation, All Rights Reserved. # COPYING RESTRICTIONS APPLY, see COPYRIGHT. -H1: Replication with slurpd -Note: this section is provided for historical reasons. {{slurpd}}(8) -is deprecated in favor of LDAP Sync based replication, commonly -referred to as {{syncrepl}}. Syncrepl is discussed in -{{SECT:LDAP Sync Replication}} section of this document. +H1: Replication -In certain configurations, a single {{slapd}}(8) instance may be -insufficient to handle the number of clients requiring -directory service via LDAP. It may become necessary to -run more than one slapd instance. At many sites, -for instance, there are multiple slapd servers: one -master and one or more slaves. {{TERM:DNS}} can be setup such that -a lookup of {{EX:ldap.example.com}} returns the {{TERM:IP}} addresses -of these servers, distributing the load among them (or -just the slaves). This master/slave arrangement provides -a simple and effective way to increase capacity, availability -and reliability. -{{slurpd}}(8) provides the capability for a master slapd to -propagate changes to slave slapd instances, -implementing the master/slave replication scheme -described above. slurpd runs on the same host as the -master slapd instance. +H2: Replication Strategies +H3: Working with Firewalls -H2: Overview -{{slurpd}}(8) provides replication services "in band". That is, it -uses the LDAP protocol to update a slave database from -the master. Perhaps the easiest way to illustrate this is -with an example. In this example, we trace the propagation -of an LDAP modify operation from its initiation by the LDAP -client to its distribution to the slave slapd instance. +H2: Replication Types -{{B: Sample replication scenario:}} +H3: syncrepl replication -^ The LDAP client submits an LDAP modify operation to -the slave slapd. -+ The slave slapd returns a referral to the LDAP -client referring the client to the master slapd. +H3: delta-syncrepl replication -+ The LDAP client submits the LDAP modify operation to -the master slapd. -+ The master slapd performs the modify operation, -writes out the change to its replication log file and returns -a success code to the client. +H3: N-Way Multi-Master + -+ The slurpd process notices that a new entry has -been appended to the replication log file, reads the -replication log entry, and sends the change to the slave -slapd via LDAP. +H3: MirrorMode + + +H2: LDAP Sync Replication + +The {{TERM:LDAP Sync}} Replication engine, {{TERM:syncrepl}} for +short, is a consumer-side replication engine that enables the +consumer {{TERM:LDAP}} server to maintain a shadow copy of a +{{TERM:DIT}} fragment. A syncrepl engine resides at the consumer-side +as one of the {{slapd}}(8) threads. It creates and maintains a +consumer replica by connecting to the replication provider to perform +the initial DIT content load followed either by periodic content +polling or by timely updates upon content changes. + +Syncrepl uses the LDAP Content Synchronization (or LDAP Sync for +short) protocol as the replica synchronization protocol. It provides +a stateful replication which supports both pull-based and push-based +synchronization and does not mandate the use of a history store. + +Syncrepl keeps track of the status of the replication content by +maintaining and exchanging synchronization cookies. Because the +syncrepl consumer and provider maintain their content status, the +consumer can poll the provider content to perform incremental +synchronization by asking for the entries required to make the +consumer replica up-to-date with the provider content. Syncrepl +also enables convenient management of replicas by maintaining replica +status. The consumer replica can be constructed from a consumer-side +or a provider-side backup at any synchronization status. Syncrepl +can automatically resynchronize the consumer replica up-to-date +with the current provider content. + +Syncrepl supports both pull-based and push-based synchronization. +In its basic refreshOnly synchronization mode, the provider uses +pull-based synchronization where the consumer servers need not be +tracked and no history information is maintained. The information +required for the provider to process periodic polling requests is +contained in the synchronization cookie of the request itself. To +optimize the pull-based synchronization, syncrepl utilizes the +present phase of the LDAP Sync protocol as well as its delete phase, +instead of falling back on frequent full reloads. To further optimize +the pull-based synchronization, the provider can maintain a per-scope +session log as a history store. In its refreshAndPersist mode of +synchronization, the provider uses a push-based synchronization. +The provider keeps track of the consumer servers that have requested +a persistent search and sends them necessary updates as the provider +replication content gets modified. + +With syncrepl, a consumer server can create a replica without +changing the provider's configurations and without restarting the +provider server, if the consumer server has appropriate access +privileges for the DIT fragment to be replicated. The consumer +server can stop the replication also without the need for provider-side +changes and restart. + +Syncrepl supports both partial and sparse replications. The shadow +DIT fragment is defined by a general search criteria consisting of +base, scope, filter, and attribute list. The replica content is +also subject to the access privileges of the bind identity of the +syncrepl replication connection. + + +H3: The LDAP Content Synchronization Protocol + +The LDAP Sync protocol allows a client to maintain a synchronized +copy of a DIT fragment. The LDAP Sync operation is defined as a set +of controls and other protocol elements which extend the LDAP search +operation. This section introduces the LDAP Content Sync protocol +only briefly. For more information, refer to {{REF:RFC4533}}. + +The LDAP Sync protocol supports both polling and listening for +changes by defining two respective synchronization operations: +{{refreshOnly}} and {{refreshAndPersist}}. Polling is implemented +by the {{refreshOnly}} operation. The client copy is synchronized +to the server copy at the time of polling. The server finishes the +search operation by returning {{SearchResultDone}} at the end of +the search operation as in the normal search. The listening is +implemented by the {{refreshAndPersist}} operation. Instead of +finishing the search after returning all entries currently matching +the search criteria, the synchronization search remains persistent +in the server. Subsequent updates to the synchronization content +in the server cause additional entry updates to be sent to the +client. + +The {{refreshOnly}} operation and the refresh stage of the +{{refreshAndPersist}} operation can be performed with a present +phase or a delete phase. + +In the present phase, the server sends the client the entries updated +within the search scope since the last synchronization. The server +sends all requested attributes, be it changed or not, of the updated +entries. For each unchanged entry which remains in the scope, the +server sends a present message consisting only of the name of the +entry and the synchronization control representing state present. +The present message does not contain any attributes of the entry. +After the client receives all update and present entries, it can +reliably determine the new client copy by adding the entries added +to the server, by replacing the entries modified at the server, and +by deleting entries in the client copy which have not been updated +nor specified as being present at the server. + +The transmission of the updated entries in the delete phase is the +same as in the present phase. The server sends all the requested +attributes of the entries updated within the search scope since the +last synchronization to the client. In the delete phase, however, +the server sends a delete message for each entry deleted from the +search scope, instead of sending present messages. The delete +message consists only of the name of the entry and the synchronization +control representing state delete. The new client copy can be +determined by adding, modifying, and removing entries according to +the synchronization control attached to the {{SearchResultEntry}} +message. + +In the case that the LDAP Sync server maintains a history store and +can determine which entries are scoped out of the client copy since +the last synchronization time, the server can use the delete phase. +If the server does not maintain any history store, cannot determine +the scoped-out entries from the history store, or the history store +does not cover the outdated synchronization state of the client, +the server should use the present phase. The use of the present +phase is much more efficient than a full content reload in terms +of the synchronization traffic. To reduce the synchronization +traffic further, the LDAP Sync protocol also provides several +optimizations such as the transmission of the normalized {{EX:entryUUID}}s +and the transmission of multiple {{EX:entryUUIDs}} in a single +{{syncIdSet}} message. + +At the end of the {{refreshOnly}} synchronization, the server sends +a synchronization cookie to the client as a state indicator of the +client copy after the synchronization is completed. The client +will present the received cookie when it requests the next incremental +synchronization to the server. + +When {{refreshAndPersist}} synchronization is used, the server sends +a synchronization cookie at the end of the refresh stage by sending +a Sync Info message with TRUE refreshDone. It also sends a +synchronization cookie by attaching it to {{SearchResultEntry}} +generated in the persist stage of the synchronization search. During +the persist stage, the server can also send a Sync Info message +containing the synchronization cookie at any time the server wants +to update the client-side state indicator. The server also updates +a synchronization indicator of the client at the end of the persist +stage. + +In the LDAP Sync protocol, entries are uniquely identified by the +{{EX:entryUUID}} attribute value. It can function as a reliable +identifier of the entry. The DN of the entry, on the other hand, +can be changed over time and hence cannot be considered as the +reliable identifier. The {{EX:entryUUID}} is attached to each +{{SearchResultEntry}} or {{SearchResultReference}} as a part of the +synchronization control. + + +H3: Syncrepl Details + +The syncrepl engine utilizes both the {{refreshOnly}} and the +{{refreshAndPersist}} operations of the LDAP Sync protocol. If a +syncrepl specification is included in a database definition, +{{slapd}}(8) launches a syncrepl engine as a {{slapd}}(8) thread +and schedules its execution. If the {{refreshOnly}} operation is +specified, the syncrepl engine will be rescheduled at the interval +time after a synchronization operation is completed. If the +{{refreshAndPersist}} operation is specified, the engine will remain +active and process the persistent synchronization messages from the +provider. + +The syncrepl engine utilizes both the present phase and the delete +phase of the refresh synchronization. It is possible to configure +a per-scope session log in the provider server which stores the +{{EX:entryUUID}}s of a finite number of entries deleted from a +replication content. Multiple replicas of single provider content +share the same per-scope session log. The syncrepl engine uses the +delete phase if the session log is present and the state of the +consumer server is recent enough that no session log entries are +truncated after the last synchronization of the client. The syncrepl +engine uses the present phase if no session log is configured for +the replication content or if the consumer replica is too outdated +to be covered by the session log. The current design of the session +log store is memory based, so the information contained in the +session log is not persistent over multiple provider invocations. +It is not currently supported to access the session log store by +using LDAP operations. It is also not currently supported to impose +access control to the session log. + +As a further optimization, even in the case the synchronization +search is not associated with any session log, no entries will be +transmitted to the consumer server when there has been no update +in the replication context. + +The syncrepl engine, which is a consumer-side replication engine, +can work with any backends. The LDAP Sync provider can be configured +as an overlay on any backend, but works best with the {{back-bdb}} +or {{back-hdb}} backend. + +The LDAP Sync provider maintains a {{EX:contextCSN}} for each +database as the current synchronization state indicator of the +provider content. It is the largest {{EX:entryCSN}} in the provider +context such that no transactions for an entry having smaller +{{EX:entryCSN}} value remains outstanding. The {{EX:contextCSN}} +could not just be set to the largest issued {{EX:entryCSN}} because +{{EX:entryCSN}} is obtained before a transaction starts and +transactions are not committed in the issue order. + +The provider stores the {{EX:contextCSN}} of a context in the +{{EX:contextCSN}} attribute of the context suffix entry. The attribute +is not written to the database after every update operation though; +instead it is maintained primarily in memory. At database start +time the provider reads the last saved {{EX:contextCSN}} into memory +and uses the in-memory copy exclusively thereafter. By default, +changes to the {{EX:contextCSN}} as a result of database updates +will not be written to the database until the server is cleanly +shut down. A checkpoint facility exists to cause the contextCSN to +be written out more frequently if desired. + +Note that at startup time, if the provider is unable to read a +{{EX:contextCSN}} from the suffix entry, it will scan the entire +database to determine the value, and this scan may take quite a +long time on a large database. When a {{EX:contextCSN}} value is +read, the database will still be scanned for any {{EX:entryCSN}} +values greater than it, to make sure the {{EX:contextCSN}} value +truly reflects the greatest committed {{EX:entryCSN}} in the database. +On databases which support inequality indexing, setting an eq index +on the {{EX:entryCSN}} attribute and configuring {{contextCSN}} +checkpoints will greatly speed up this scanning step. + +If no {{EX:contextCSN}} can be determined by reading and scanning +the database, a new value will be generated. Also, if scanning the +database yielded a greater {{EX:entryCSN}} than was previously +recorded in the suffix entry's {{EX:contextCSN}} attribute, a +checkpoint will be immediately written with the new value. + +The consumer also stores its replica state, which is the provider's +{{EX:contextCSN}} received as a synchronization cookie, in the +{{EX:contextCSN}} attribute of the suffix entry. The replica state +maintained by a consumer server is used as the synchronization state +indicator when it performs subsequent incremental synchronization +with the provider server. It is also used as a provider-side +synchronization state indicator when it functions as a secondary +provider server in a cascading replication configuration. Since +the consumer and provider state information are maintained in the +same location within their respective databases, any consumer can +be promoted to a provider (and vice versa) without any special +actions. + +Because a general search filter can be used in the syncrepl +specification, some entries in the context may be omitted from the +synchronization content. The syncrepl engine creates a glue entry +to fill in the holes in the replica context if any part of the +replica content is subordinate to the holes. The glue entries will +not be returned in the search result unless {{ManageDsaIT}} control +is provided. + +Also as a consequence of the search filter used in the syncrepl +specification, it is possible for a modification to remove an entry +from the replication scope even though the entry has not been deleted +on the provider. Logically the entry must be deleted on the consumer +but in {{refreshOnly}} mode the provider cannot detect and propagate +this change without the use of the session log. + + +H3: Configuring Syncrepl + +Because syncrepl is a consumer-side replication engine, the syncrepl +specification is defined in {{slapd.conf}}(5) of the consumer +server, not in the provider server's configuration file. The initial +loading of the replica content can be performed either by starting +the syncrepl engine with no synchronization cookie or by populating +the consumer replica by adding an {{TERM:LDIF}} file dumped as a +backup at the provider. + +When loading from a backup, it is not required to perform the initial +loading from the up-to-date backup of the provider content. The +syncrepl engine will automatically synchronize the initial consumer +replica to the current provider content. As a result, it is not +required to stop the provider server in order to avoid the replica +inconsistency caused by the updates to the provider content during +the content backup and loading process. + +When replicating a large scale directory, especially in a bandwidth +constrained environment, it is advised to load the consumer replica +from a backup instead of performing a full initial load using +syncrepl. + + +H4: Set up the provider slapd + +The provider is implemented as an overlay, so the overlay itself +must first be configured in {{slapd.conf}}(5) before it can be +used. The provider has only two configuration directives, for setting +checkpoints on the {{EX:contextCSN}} and for configuring the session +log. Because the LDAP Sync search is subject to access control, +proper access control privileges should be set up for the replicated +content. + +The {{EX:contextCSN}} checkpoint is configured by the + +> syncprov-checkpoint + +directive. Checkpoints are only tested after successful write +operations. If {{}} operations or more than {{}} +time has passed since the last checkpoint, a new checkpoint is +performed. + +The session log is configured by the + +> syncprov-sessionlog + +directive, where {{}} is the maximum number of session log +entries the session log can record. When a session log is configured, +it is automatically used for all LDAP Sync searches within the +database. + +Note that using the session log requires searching on the {{entryUUID}} +attribute. Setting an eq index on this attribute will greatly benefit +the performance of the session log on the provider. + +A more complete example of the {{slapd.conf}}(5) content is thus: + +> database bdb +> suffix dc=Example,dc=com +> 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 + +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=}} and {{rid=}}. +{{}} represents the current synchronization state of the +consumer replica. {{}} 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 {{}} 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 -+ The slave slapd performs the modify operation and -returns a success code to the slurpd process. - - -Note: {{ldapmodify}}(1) and other clients distributed as part of -OpenLDAP Software do not support automatic referral chasing -(for security reasons). - - - -H2: Replication Logs - -When slapd is configured to generate a replication logfile, it -writes out a file containing {{TERM:LDIF}} change records. The -replication log gives the replication site(s), a timestamp, the DN -of the entry being modified, and a series of lines which specify -the changes to make. In the example below, Barbara ({{EX:uid=bjensen}}) -has replaced the {{EX:description}} value. The change is to be -propagated to the slapd instance running on {{EX:slave.example.net}} -Changes to various operational attributes, such as {{EX:modifiersName}} -and {{EX:modifyTimestamp}}, are included in the change record and -will be propagated to the slave slapd. - -> replica: slave.example.com:389 -> time: 809618633 -> dn: uid=bjensen,dc=example,dc=com -> changetype: modify -> replace: multiLineDescription -> description: A dreamer... -> - -> replace: modifiersName -> modifiersName: uid=bjensen,dc=example,dc=com -> - -> replace: modifyTimestamp -> modifyTimestamp: 20000805073308Z -> - - -The modifications to {{EX:modifiersName}} and {{EX:modifyTimestamp}} -operational attributes were added by the master {{slapd}}. - - - -H2: Command-Line Options - -This section details commonly used {{slurpd}}(8) command-line options. - -> -d | ? - -This option sets the slurpd debug level to {{EX: }}. When -level is a `?' character, the various debugging levels are printed -and slurpd exits, regardless of any other options you give it. -Current debugging levels (a subset of slapd's debugging levels) are - -!block table; colaligns="RL"; align=Center; \ - title="Table 13.1: Debugging Levels" -Level Description -4 heavy trace debugging -64 configuration file processing -65535 enable all debugging -!endblock - -Debugging levels are additive. That is, if you want heavy trace -debugging and want to watch the config file being processed, you -would set level to the sum of those two levels (in this case, 68). - -> -f - -This option specifies an alternate slapd configuration file. Slurpd -does not have its own configuration file. Instead, all configuration -information is read from the slapd configuration file. - -> -r - -This option specifies an alternate slapd replication log file. -Under normal circumstances, slurpd reads the name of the slapd -replication log file from the slapd configuration file. However, -you can override this with the -r flag, to cause slurpd to process -a different replication log file. See the {{SECT:Advanced slurpd -Operation}} section for a discussion of how you might use this -option. - -> -o - -Operate in "one-shot" mode. Under normal circumstances, when slurpd -finishes processing a replication log, it remains active and -periodically checks to see if new entries have been added to the -replication log. In one-shot mode, by comparison, slurpd processes -a replication log and exits immediately. If the -o option is given, -the replication log file must be explicitly specified with the -r -option. See the {{SECT:One-shot mode and reject files}} section -for a discussion of this mode. - -> -t - -Specify an alternate directory for slurpd's temporary copies of -replication logs. The default location is {{F:/usr/tmp}}. - - -H2: Configuring slurpd and a slave slapd instance - -To bring up a replica slapd instance, you must configure the master -and slave slapd instances for replication, then shut down the master -slapd so you can copy the database. Finally, you bring up the master -slapd instance, the slave slapd instance, and the slurpd instance. -These steps are detailed in the following sections. You can set up -as many slave slapd instances as you wish. - - -H3: Set up the master {{slapd}} - -The following section assumes you have a properly working {{slapd}}(8) -instance. To configure your working {{slapd}}(8) server as a -replication master, you need to make the following changes to your -{{slapd.conf}}(5). - -^ Add a {{EX:replica}} directive for each replica. The {{EX:binddn=}} -parameter should match the {{EX:updatedn}} option in the corresponding -slave slapd configuration file, and should name an entry with write -permission to the slave database (e.g., an entry allowed access via -{{EX:access}} directives in the slave slapd configuration file). -This DN generally {{should not}} be the same as the master's -{{EX:rootdn}}. - -+ Add a {{EX:replogfile}} directive, which tells slapd where to log -changes. This file will be read by slurpd. - - -H3: Set up the slave {{slapd}} - -Install the slapd software on the host which is to be the slave -slapd server. The configuration of the slave server should be -identical to that of the master, with the following exceptions: - -^ Do not include a {{EX:replica}} directive. While it is possible -to create "chains" of replicas, in most cases this is inappropriate. - -+ Do not include a {{EX:replogfile}} directive. - -+ Do include an {{EX:updatedn}} line. The DN given should match the -DN given in the {{EX:binddn=}} parameter of the corresponding -{{EX:replica=}} directive in the master slapd config file. The -{{EX:updatedn}} generally {{should not}} be the same as the -{{EX:rootdn}} of the master database. - -+ Make sure the DN given in the {{EX:updatedn}} directive has -permission to write the database (e.g., it is is allowed {{EX:access}} -by one or more access directives). - -+ Use the {{EX:updateref}} directive to define the URL the slave -should return if an update request is received. - - -H3: Shut down the master server - -In order to ensure that the slave starts with an exact copy of the -master's data, you must shut down the master slapd. Do this by -sending the master slapd process an interrupt signal with -{{EX:kill -INT }}, where {{EX:}} is the process-id of the master -slapd process. - -If you like, you may restart the master slapd in read-only mode -while you are replicating the database. During this time, the master -slapd will return an "unwilling to perform" error to clients that -attempt to modify data. - - -H3: Copy the master slapd's database to the slave - -Copy the master's database(s) to the slave. For {{TERM:BDB}} and -{{TERM:HDB}} databases, you must copy all database files located -in the database {{EX:directory}} specified in {{slapd.conf}}(5). -In general, you should copy each file found in the database {{EX: -directory}} unless you know it is not used by {{slapd}}(8). - -Note: This copy process assumes homogeneous servers with identically -configured OpenLDAP installations. Alternatively, you may use -{{slapcat}} to output the master's database in LDIF format and use -the LDIF with {{slapadd}} to populate the slave. Using LDIF avoids -any potential incompatibilities due to differing server architectures -or software configurations. See the {{SECT:Database Creation and -Maintenance Tools}} chapter for details on these tools. - - -H3: Configure the master slapd for replication - -To configure slapd to generate a replication logfile, you add a -"{{EX: replica}}" configuration option to the master slapd's config -file. For example, if we wish to propagate changes to the slapd -instance running on host {{EX:slave.example.com}}: - -> replica uri=ldap://slave.example.com:389 -> binddn="cn=Replicator,dc=example,dc=com" -> bindmethod=simple credentials=secret - -In this example, changes will be sent to port 389 (the standard -LDAP port) on host slave.example.com. The slurpd process will bind -to the slave slapd as "{{EX:cn=Replicator,dc=example,dc=com}}" using -simple authentication with password "{{EX:secret}}". - -If we wish to perform the same replication using ldaps on port 636: - -> replica uri=ldaps://slave.example.com:636 -> binddn="cn=Replicator,dc=example,dc=com" -> bindmethod=simple credentials=secret - -The host option is deprecated in favor of uri, but the following -replica configuration is still supported: - -> replica host=slave.example.com:389 -> binddn="cn=Replicator,dc=example,dc=com" -> bindmethod=simple credentials=secret - -Note that the DN given by the {{EX:binddn=}} directive must exist -in the slave slapd's database (or be the rootdn specified in the -slapd config file) in order for the bind operation to succeed. The -DN should also be listed as the {{EX:updatedn}} for the database -in the slave's slapd.conf(5). It is generally recommended that -this DN be different than the {{EX:rootdn}} of the master database. - -Note: The use of strong authentication and transport security is -highly recommended. - - -H3: Restart the master slapd and start the slave slapd - -Restart the master slapd process. To check that it is -generating replication logs, perform a modification of any -entry in the database, and check that data has been -written to the log file. - - -H3: Start slurpd - -Start the slurpd process. Slurpd should immediately send -the test modification you made to the slave slapd. Watch -the slave slapd's logfile to be sure that the modification -was sent. - -> slurpd -f - - - -H2: Advanced slurpd Operation - -H3: Replication errors - -When slurpd propagates a change to a slave slapd and receives an -error return code, it writes the reason for the error and the -replication record to a reject file. The reject file is located in -the same directory as the per-replica replication logfile, and has -the same name, but with the string "{{F:.rej}}" appended. For -example, for a replica running on host {{EX:slave.example.com}}, -port 389, the reject file, if it exists, will be named - -> /usr/local/var/openldap/replog.slave.example.com:389.rej - -A sample rejection log entry follows: - -> ERROR: No such attribute -> replica: slave.example.com:389 -> time: 809618633 -> dn: uid=bjensen,dc=example,dc=com -> changetype: modify -> replace: description -> description: A dreamer... -> - -> replace: modifiersName -> modifiersName: uid=bjensen,dc=example,dc=com -> - -> replace: modifyTimestamp -> modifyTimestamp: 20000805073308Z -> - - -Note that this is precisely the same format as the original replication -log entry, but with an {{EX:ERROR}} line prepended to the entry. - - - -H3: One-shot mode and reject files - -It is possible to use slurpd to process a rejection log with its -"one-shot mode." In normal operation, slurpd watches for more -replication records to be appended to the replication log file. In -one-shot mode, by contrast, slurpd processes a single log file and -exits. Slurpd ignores {{EX:ERROR}} lines at the beginning of -replication log entries, so it's not necessary to edit them out -before feeding it the rejection log. - -To use one-shot mode, specify the name of the rejection log on the -command line as the argument to the -r flag, and specify one-shot -mode with the -o flag. For example, to process the rejection log -file {{F:/usr/local/var/openldap/replog.slave.example.com:389}} and -exit, use the command - -> slurpd -r /usr/tmp/replog.slave.example.com:389 -o diff --git a/doc/guide/admin/syncrepl.sdf b/doc/guide/admin/syncrepl.sdf deleted file mode 100644 index 8907bdd200..0000000000 --- a/doc/guide/admin/syncrepl.sdf +++ /dev/null @@ -1,404 +0,0 @@ -# $OpenLDAP$ -# Copyright 2003-2007 The OpenLDAP Foundation, All Rights Reserved. -# COPYING RESTRICTIONS APPLY, see COPYRIGHT. - -H1: LDAP Sync Replication - -The {{TERM:LDAP Sync}} Replication engine, {{TERM:syncrepl}} for -short, is a consumer-side replication engine that enables the -consumer {{TERM:LDAP}} server to maintain a shadow copy of a -{{TERM:DIT}} fragment. A syncrepl engine resides at the consumer-side -as one of the {{slapd}}(8) threads. It creates and maintains a -consumer replica by connecting to the replication provider to perform -the initial DIT content load followed either by periodic content -polling or by timely updates upon content changes. - -Syncrepl uses the LDAP Content Synchronization (or LDAP Sync for -short) protocol as the replica synchronization protocol. It provides -a stateful replication which supports both pull-based and push-based -synchronization and does not mandate the use of a history store. - -Syncrepl keeps track of the status of the replication content by -maintaining and exchanging synchronization cookies. Because the -syncrepl consumer and provider maintain their content status, the -consumer can poll the provider content to perform incremental -synchronization by asking for the entries required to make the -consumer replica up-to-date with the provider content. Syncrepl -also enables convenient management of replicas by maintaining replica -status. The consumer replica can be constructed from a consumer-side -or a provider-side backup at any synchronization status. Syncrepl -can automatically resynchronize the consumer replica up-to-date -with the current provider content. - -Syncrepl supports both pull-based and push-based synchronization. -In its basic refreshOnly synchronization mode, the provider uses -pull-based synchronization where the consumer servers need not be -tracked and no history information is maintained. The information -required for the provider to process periodic polling requests is -contained in the synchronization cookie of the request itself. To -optimize the pull-based synchronization, syncrepl utilizes the -present phase of the LDAP Sync protocol as well as its delete phase, -instead of falling back on frequent full reloads. To further optimize -the pull-based synchronization, the provider can maintain a per-scope -session log as a history store. In its refreshAndPersist mode of -synchronization, the provider uses a push-based synchronization. -The provider keeps track of the consumer servers that have requested -a persistent search and sends them necessary updates as the provider -replication content gets modified. - -With syncrepl, a consumer server can create a replica without -changing the provider's configurations and without restarting the -provider server, if the consumer server has appropriate access -privileges for the DIT fragment to be replicated. The consumer -server can stop the replication also without the need for provider-side -changes and restart. - -Syncrepl supports both partial and sparse replications. The shadow -DIT fragment is defined by a general search criteria consisting of -base, scope, filter, and attribute list. The replica content is -also subject to the access privileges of the bind identity of the -syncrepl replication connection. - - -H2: The LDAP Content Synchronization Protocol - -The LDAP Sync protocol allows a client to maintain a synchronized -copy of a DIT fragment. The LDAP Sync operation is defined as a set -of controls and other protocol elements which extend the LDAP search -operation. This section introduces the LDAP Content Sync protocol -only briefly. For more information, refer to {{REF:RFC4533}}. - -The LDAP Sync protocol supports both polling and listening for -changes by defining two respective synchronization operations: -{{refreshOnly}} and {{refreshAndPersist}}. Polling is implemented -by the {{refreshOnly}} operation. The client copy is synchronized -to the server copy at the time of polling. The server finishes the -search operation by returning {{SearchResultDone}} at the end of -the search operation as in the normal search. The listening is -implemented by the {{refreshAndPersist}} operation. Instead of -finishing the search after returning all entries currently matching -the search criteria, the synchronization search remains persistent -in the server. Subsequent updates to the synchronization content -in the server cause additional entry updates to be sent to the -client. - -The {{refreshOnly}} operation and the refresh stage of the -{{refreshAndPersist}} operation can be performed with a present -phase or a delete phase. - -In the present phase, the server sends the client the entries updated -within the search scope since the last synchronization. The server -sends all requested attributes, be it changed or not, of the updated -entries. For each unchanged entry which remains in the scope, the -server sends a present message consisting only of the name of the -entry and the synchronization control representing state present. -The present message does not contain any attributes of the entry. -After the client receives all update and present entries, it can -reliably determine the new client copy by adding the entries added -to the server, by replacing the entries modified at the server, and -by deleting entries in the client copy which have not been updated -nor specified as being present at the server. - -The transmission of the updated entries in the delete phase is the -same as in the present phase. The server sends all the requested -attributes of the entries updated within the search scope since the -last synchronization to the client. In the delete phase, however, -the server sends a delete message for each entry deleted from the -search scope, instead of sending present messages. The delete -message consists only of the name of the entry and the synchronization -control representing state delete. The new client copy can be -determined by adding, modifying, and removing entries according to -the synchronization control attached to the {{SearchResultEntry}} -message. - -In the case that the LDAP Sync server maintains a history store and -can determine which entries are scoped out of the client copy since -the last synchronization time, the server can use the delete phase. -If the server does not maintain any history store, cannot determine -the scoped-out entries from the history store, or the history store -does not cover the outdated synchronization state of the client, -the server should use the present phase. The use of the present -phase is much more efficient than a full content reload in terms -of the synchronization traffic. To reduce the synchronization -traffic further, the LDAP Sync protocol also provides several -optimizations such as the transmission of the normalized {{EX:entryUUID}}s -and the transmission of multiple {{EX:entryUUIDs}} in a single -{{syncIdSet}} message. - -At the end of the {{refreshOnly}} synchronization, the server sends -a synchronization cookie to the client as a state indicator of the -client copy after the synchronization is completed. The client -will present the received cookie when it requests the next incremental -synchronization to the server. - -When {{refreshAndPersist}} synchronization is used, the server sends -a synchronization cookie at the end of the refresh stage by sending -a Sync Info message with TRUE refreshDone. It also sends a -synchronization cookie by attaching it to {{SearchResultEntry}} -generated in the persist stage of the synchronization search. During -the persist stage, the server can also send a Sync Info message -containing the synchronization cookie at any time the server wants -to update the client-side state indicator. The server also updates -a synchronization indicator of the client at the end of the persist -stage. - -In the LDAP Sync protocol, entries are uniquely identified by the -{{EX:entryUUID}} attribute value. It can function as a reliable -identifier of the entry. The DN of the entry, on the other hand, -can be changed over time and hence cannot be considered as the -reliable identifier. The {{EX:entryUUID}} is attached to each -{{SearchResultEntry}} or {{SearchResultReference}} as a part of the -synchronization control. - - -H2: Syncrepl Details - -The syncrepl engine utilizes both the {{refreshOnly}} and the -{{refreshAndPersist}} operations of the LDAP Sync protocol. If a -syncrepl specification is included in a database definition, -{{slapd}}(8) launches a syncrepl engine as a {{slapd}}(8) thread -and schedules its execution. If the {{refreshOnly}} operation is -specified, the syncrepl engine will be rescheduled at the interval -time after a synchronization operation is completed. If the -{{refreshAndPersist}} operation is specified, the engine will remain -active and process the persistent synchronization messages from the -provider. - -The syncrepl engine utilizes both the present phase and the delete -phase of the refresh synchronization. It is possible to configure -a per-scope session log in the provider server which stores the -{{EX:entryUUID}}s of a finite number of entries deleted from a -replication content. Multiple replicas of single provider content -share the same per-scope session log. The syncrepl engine uses the -delete phase if the session log is present and the state of the -consumer server is recent enough that no session log entries are -truncated after the last synchronization of the client. The syncrepl -engine uses the present phase if no session log is configured for -the replication content or if the consumer replica is too outdated -to be covered by the session log. The current design of the session -log store is memory based, so the information contained in the -session log is not persistent over multiple provider invocations. -It is not currently supported to access the session log store by -using LDAP operations. It is also not currently supported to impose -access control to the session log. - -As a further optimization, even in the case the synchronization -search is not associated with any session log, no entries will be -transmitted to the consumer server when there has been no update -in the replication context. - -The syncrepl engine, which is a consumer-side replication engine, -can work with any backends. The LDAP Sync provider can be configured -as an overlay on any backend, but works best with the {{back-bdb}} -or {{back-hdb}} backend. - -The LDAP Sync provider maintains a {{EX:contextCSN}} for each -database as the current synchronization state indicator of the -provider content. It is the largest {{EX:entryCSN}} in the provider -context such that no transactions for an entry having smaller -{{EX:entryCSN}} value remains outstanding. The {{EX:contextCSN}} -could not just be set to the largest issued {{EX:entryCSN}} because -{{EX:entryCSN}} is obtained before a transaction starts and -transactions are not committed in the issue order. - -The provider stores the {{EX:contextCSN}} of a context in the -{{EX:contextCSN}} attribute of the context suffix entry. The attribute -is not written to the database after every update operation though; -instead it is maintained primarily in memory. At database start -time the provider reads the last saved {{EX:contextCSN}} into memory -and uses the in-memory copy exclusively thereafter. By default, -changes to the {{EX:contextCSN}} as a result of database updates -will not be written to the database until the server is cleanly -shut down. A checkpoint facility exists to cause the contextCSN to -be written out more frequently if desired. - -Note that at startup time, if the provider is unable to read a -{{EX:contextCSN}} from the suffix entry, it will scan the entire -database to determine the value, and this scan may take quite a -long time on a large database. When a {{EX:contextCSN}} value is -read, the database will still be scanned for any {{EX:entryCSN}} -values greater than it, to make sure the {{EX:contextCSN}} value -truly reflects the greatest committed {{EX:entryCSN}} in the database. -On databases which support inequality indexing, setting an eq index -on the {{EX:entryCSN}} attribute and configuring {{contextCSN}} -checkpoints will greatly speed up this scanning step. - -If no {{EX:contextCSN}} can be determined by reading and scanning -the database, a new value will be generated. Also, if scanning the -database yielded a greater {{EX:entryCSN}} than was previously -recorded in the suffix entry's {{EX:contextCSN}} attribute, a -checkpoint will be immediately written with the new value. - -The consumer also stores its replica state, which is the provider's -{{EX:contextCSN}} received as a synchronization cookie, in the -{{EX:contextCSN}} attribute of the suffix entry. The replica state -maintained by a consumer server is used as the synchronization state -indicator when it performs subsequent incremental synchronization -with the provider server. It is also used as a provider-side -synchronization state indicator when it functions as a secondary -provider server in a cascading replication configuration. Since -the consumer and provider state information are maintained in the -same location within their respective databases, any consumer can -be promoted to a provider (and vice versa) without any special -actions. - -Because a general search filter can be used in the syncrepl -specification, some entries in the context may be omitted from the -synchronization content. The syncrepl engine creates a glue entry -to fill in the holes in the replica context if any part of the -replica content is subordinate to the holes. The glue entries will -not be returned in the search result unless {{ManageDsaIT}} control -is provided. - -Also as a consequence of the search filter used in the syncrepl -specification, it is possible for a modification to remove an entry -from the replication scope even though the entry has not been deleted -on the provider. Logically the entry must be deleted on the consumer -but in {{refreshOnly}} mode the provider cannot detect and propagate -this change without the use of the session log. - - -H2: Configuring Syncrepl - -Because syncrepl is a consumer-side replication engine, the syncrepl -specification is defined in {{slapd.conf}}(5) of the consumer -server, not in the provider server's configuration file. The initial -loading of the replica content can be performed either by starting -the syncrepl engine with no synchronization cookie or by populating -the consumer replica by adding an {{TERM:LDIF}} file dumped as a -backup at the provider. - -When loading from a backup, it is not required to perform the initial -loading from the up-to-date backup of the provider content. The -syncrepl engine will automatically synchronize the initial consumer -replica to the current provider content. As a result, it is not -required to stop the provider server in order to avoid the replica -inconsistency caused by the updates to the provider content during -the content backup and loading process. - -When replicating a large scale directory, especially in a bandwidth -constrained environment, it is advised to load the consumer replica -from a backup instead of performing a full initial load using -syncrepl. - - -H3: Set up the provider slapd - -The provider is implemented as an overlay, so the overlay itself -must first be configured in {{slapd.conf}}(5) before it can be -used. The provider has only two configuration directives, for setting -checkpoints on the {{EX:contextCSN}} and for configuring the session -log. Because the LDAP Sync search is subject to access control, -proper access control privileges should be set up for the replicated -content. - -The {{EX:contextCSN}} checkpoint is configured by the - -> syncprov-checkpoint - -directive. Checkpoints are only tested after successful write -operations. If {{}} operations or more than {{}} -time has passed since the last checkpoint, a new checkpoint is -performed. - -The session log is configured by the - -> syncprov-sessionlog - -directive, where {{}} is the maximum number of session log -entries the session log can record. When a session log is configured, -it is automatically used for all LDAP Sync searches within the -database. - -Note that using the session log requires searching on the {{entryUUID}} -attribute. Setting an eq index on this attribute will greatly benefit -the performance of the session log on the provider. - -A more complete example of the {{slapd.conf}}(5) content is thus: - -> database bdb -> suffix dc=Example,dc=com -> rootdn dc=Example,dc=com -> directory /var/ldap/db -> index objectclass,entryCSN,entryUUID eq -> -> overlay syncprov -> syncprov-checkpoint 100 10 -> syncprov-sessionlog 100 - - -H3: Set up the consumer slapd - -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. - - -H3: 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=}} and {{rid=}}. -{{}} represents the current synchronization state of the -consumer replica. {{}} 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 {{}} must have no more than 3 decimal -digits. The command line cookie overrides the synchronization -cookie stored in the consumer replica database. diff --git a/doc/guide/admin/troubleshooting.sdf b/doc/guide/admin/troubleshooting.sdf new file mode 100644 index 0000000000..ab759a4d06 --- /dev/null +++ b/doc/guide/admin/troubleshooting.sdf @@ -0,0 +1,22 @@ +# Copyright 2007 The OpenLDAP Foundation, All Rights Reserved. +# COPYING RESTRICTIONS APPLY, see COPYRIGHT. + +H1: Troubleshooting + + +H2: Checklist + + +H2: User or Software errors? + + +H2: How to contact the OpenLDAP Project + + +H2: How to present your problem + + +H2: Debugging slapd + + +H2: Commercial Support -- 2.39.5