KEYCLOAK-5961 Remove CrossDataCenter README file from codebase
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Test Cross-Data-Center scenario (test with external JDG server)
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===============================================================
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These are temporary notes. This docs should be removed once we have cross-DC support finished and properly documented.
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These steps are already automated for embedded Undertow, see Cross-DC tests section in [HOW-TO-RUN.md](../testsuite/integration-arquillian/HOW-TO-RUN.md) document. For Wildfly they are not yet automated.
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Following instructions are related to Wildfly server.
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Right now, everything should work correctly in cross-dc environment. Especially:
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- Propagating of invalidation messages for `realms`, `users` and `authorization` caches
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- sessions, offline sessions and login failures are propagated between datacenters
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Documentation intro
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===================
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Keycloak has support for cross-datacenter (cross-site) replication. Typical usecase is, that you have multiple
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datacenters (sites) in different geographical locations. Every datacenter has it's own cluster of Keycloak servers.
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Here is the picture with some example architecture:
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TODO: Hynek will provide the picture.
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QUESTION FROM MAREK: Is it better to use term "site" or term "datacenter" . In the whole docs, I am using both (but probably term "datacenter" a bit more).
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Should it be consolidated?
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HYNEK: We should add reference to infinispan/jdg nomenclature - they use site and "cross-site" ("x-site") for our "cross-DC"
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MATTHEW: Will check and polish this in the documentation.
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Prerequisities
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==============
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Cross-datacenter replication is quite an advanced topic. It's recommended that you have some background knowledge and go through
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those documents first:
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* Keycloak/RHSSO clustering - http://www.keycloak.org/docs/latest/server_installation/index.html#_clustering
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With cross-datacenter, you will usually setup more independent Keycloak clusters.
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So it's good to understand how cluster works and basic concepts and requirements around it (Multicast, Loadbalancing, Shared database etc).
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* JDG Cross-Datacenter docs - https://access.redhat.com/documentation/en-us/red_hat_jboss_data_grid/7.1/html/administration_and_configuration_guide/set_up_cross_datacenter_replication
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Keycloak Cross-Datacenter uses JDG for the actual replication of infinispan data between the datacenters. So it's good to read and understand
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JDG first. We use the `Remote Client-Server Mode` described in here - https://access.redhat.com/documentation/en-us/red_hat_jboss_data_grid/7.1/html/administration_and_configuration_guide/set_up_cross_datacenter_replication#configure_cross_datacenter_replication_remote_client_server_mode
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Technical details
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=================
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Data
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----
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Keycloak is stateful application, which uses 2 main sources of data.
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* Database - is used to persist permanent data (EG. informations about the users).
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* Infinispan cache - is used to cache persistent data from DB and also to save some short-lived and often-changing metadata like user sessions.
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Infinispan is usually much faster then database, however the data saved here are not permanent and usually they don't survive cluster restarts.
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Assume you have 2 datacenters called `site1` and `site2` .
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For the cross-datacenter setup, we need to make sure that both sources of data work reliably and Keycloak
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servers from `site1` are eventually able to read the data saved by Keycloak servers on `site2` .
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Based on the environment, you have some flexibility to decide if you prefer:
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* Reliability - typically needed in Active/Active mode. Data written on `site1` need to be visible immediately on `site2`.
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* Performance - typically in Active/Passive mode. Data written on `site1` doesn't need to be visible immediately on `site2`.
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In some cases, they may not be visible on `site2` at all.
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More details about this is in [Modes section](#modes).
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Request processing
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------------------
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In typical scenario, end user's browser sends HTTP request to the [frontend loadbalancer server](http://www.keycloak.org/docs/latest/server_installation/index.html#_setting-up-a-load-balancer-or-proxy).
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Loadbalancer is usually HTTPD or Wildfly with mod_cluster, NGinx, HA Proxy or other kind of software or hardware loadbalancer.
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Loadbalancer then forwards HTTP requests to the underlying Keycloak instances, which can be spread among
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multiple datacenters (sites). Loadbalancers typically offer support for [sticky sessions](http://www.keycloak.org/docs/latest/server_installation/index.html#sticky-sessions),
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which means that loadbalancer is able to forward HTTP requests from one user always to the same Keycloak instance in same datacenter.
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There are also HTTP requests, which are sent from client applications to the loadbalancer. Those HTTP requests are `backchannel requests`.
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They are not seen by end user's browser and can't be part of sticky session between user and loadbalancer. Hence loadbalancer can forward
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the particular HTTP request to any Keycloak instance in any datacenter. This is challenging as some OpenID Connect or SAML flows require
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multiple HTTP requests from both user and application. Because we can't reliably rely on sticky sessions, it means that some data need to be
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replicated between datacenters, so they are seen by subsequent HTTP requests during particular flow.
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Modes
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-----
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According your requirements, there are 2 basic operating modes for the cross-dc setup:
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* Active/Passive - Here the users and client applications send the requests just to the Keycloak nodes in single datacenter.
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The second datacenter is used just as a `backup` for saving the data. In case of the failure in the main datacenter,
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the data can be usually restored from the second datacenter.
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* Active/Active - Here the users and client applications send the requests to the Keycloak nodes in both datacenters.
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It means that data need to be visible immediately on both sites and available to be consumed immediately from Keycloak servers on both sites.
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Especially if Keycloak server writes some data on `site1`, it is required that the data are available immediately for reading
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for Keycloak servers on `site2` at the time when the write on `site1` is finished.
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The active/passive mode is better for performance. More info about how to configure caches for both modes will follow
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in the [sync or async backups section](#sync-or-async-backups).
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Database
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--------
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Keycloak uses RDBMS to persist some metadata about realms, clients, users etc. See [this chapter](http://www.keycloak.org/docs/latest/server_installation/index.html#_database)
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for more details. In cross-datacenter setup, we assume that either both datacenters talk to same database or every datacenter
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has it's own database node and both database nodes are synchronously replicated. In both cases, it's required that when Keycloak server
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on `site1` persists some data and commits the transaction, those data are immediately visible by subsequent DB transactions on `site2`.
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Details of DB setup are out-of-scope of Keycloak, however note that many RDBMS vendors like PostgreSQL, MariaDB or Oracle offers
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replicated databases and synchronous replication. We tested Keycloak with those vendors:
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TODO: Details about MariaDB and Oracle RAC versions etc.
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Infinispan caches
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-----------------
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Here are some overview about the infinispan caches. More details about the details of the cache setup will follow later.
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**Authentication sessions**
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In Keycloak we have concept of authentication sessions. There is separate infinispan cache `authenticationSessions` used to save data during
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authentication of particular user. Requests from this cache usually involves just browser and Keycloak server, not the application. Hence we can
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rely on sticky sessions and `authenticationSessions` cache content doesn't need to be replicated among datacenters even if you are in Active/Active mode.
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**Action tokens**
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We have concept of [action tokens](http://www.keycloak.org/docs/latest/server_development/index.html#_action_token_spi), which
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are used typically for scenarios when user needs to confirm some actions asynchronously by email.
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For example during `forget password` flow. The `actionTokens` infinispan cache is used to track metadata about action tokens
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(eg. which action token was already used, so it can't be reused second time) and it usually needs to be replicated between datacenters.
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**Caching and invalidation of persistent data**
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Keycloak uses infinispan for cache persistent data to avoid many unecessary requests to the database.
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Caching is great for save performance, however there is one additional challenge, that when some Keycloak
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server updates any data, all other Keycloak servers in all datacenters need to be aware of it, so they
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invalidate particular data from their caches. Keycloak uses local infinispan caches called `realms`, `users`
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and `authorization` to cache persistent data.
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We use separate cache `work`, which is replicated among all datacenters. The work cache itself doesn't cache
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any real data. It is defacto used just for sending invalidation messages between cluster nodes and datacenters.
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In other words, when some data is updated (eg. user `john` is updated), the particular Keycloak node sends
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the invalidation message to all other cluster nodes in same datacenter and also to all other datacenters.
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Every node then invalidates particular data from their local cache once it receives the invalidation message.
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**User sessions**
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There are infinispan caches `sessions`, `clientSessions`, `offlineSessions` and `offlineClientSessions`,
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which usually need to be replicated between datacenters. Those caches are used to save data about user
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sessions, which are valid for the whole life of one user's browser session. The caches need to deal with
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the HTTP requests from the end user and from the application. As described above, sticky session can't be
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always reliably used, but we still want to ensure that subsequent HTTP requests can see the latest data.
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Hence the data are usually replicated between datacenters.
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**Brute force protection**
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Finally `loginFailures` cache is used to track data about failed logins (eg. how many times user `john`
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filled the bad password on username/password screen etc). The details are described [here](http://www.keycloak.org/docs/latest/server_admin/index.html#password-guess-brute-force-attacks) .
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It is up to the admin if he wants this cache to be replicated between datacenters. To have accurate count of login failures,
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the replication is needed. On the other hand, avoid replicating this data can save some performance. So if performance is
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more important then accurate counts of login failures, the replication can be avoided.
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More details about how can be caches configured is [in this section](#tuning-jdg-cache-configuration) .
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Communication details
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---------------------
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Under the covers, there are multiple separate infinispan clusters here. Every Keycloak node is in the cluster
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with the other Keycloak nodes in same datacenter, but not with the Keycloak nodes in different datacenters.
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Keycloak node doesn't communicate directly with the Keycloak nodes from different datacenters. Keycloak nodes use external JDG
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(or infinispan server) for communication between datacenters. This is done
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through the [Infinispan HotRod protocol](http://infinispan.org/docs/8.2.x/user_guide/user_guide.html#using_hot_rod_server) .
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The infinispan caches on Keycloak side needs to be configured with the [remoteStore](http://infinispan.org/docs/8.2.x/user_guide/user_guide.html#remote_store),
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to ensure that data are saved to the remote cache, which uses HotRod protocol under the covers. There is separate infinispan cluster
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between JDG servers, so the data saved on JDG1 on `site1` are replicated to JDG2 on `site2` .
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Finally the receiver JDG server then notifies Keycloak servers in it's cluster through the Client Listeners, which is a feature of
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HotRod protocol. Keycloak nodes on `site2` then update their infinispan caches and particular user session is visible on Keycloak nodes on
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site 2 too.
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See the picture in [intro section](#documentation-intro) for more details.
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Basic setup
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===========
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This is the example setup simulating 2 datacenters `site1 ` and `site 2` . Each datacenter consists of 1 infinispan server and 2 Keycloak servers.
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So 2 infinispan servers and 4 Keycloak servers are totally in the testing setup.
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* Site1 consists of infinispan server `jdg1` and 2 Keycloak servers `node11` and `node12` .
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* Site2 consists of infinispan server `jdg2` and 2 Keycloak servers `node21` and `node22` .
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* Infinispan servers `jdg1` and `jdg2` are connected with each other through the RELAY2 protocol and `backup` based infinispan caches in
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similar way as described in the [JDG documentation](https://access.redhat.com/documentation/en-us/red_hat_jboss_data_grid/7.1/html-single/administration_and_configuration_guide/#configure_cross_datacenter_replication_remote_client_server_mode) .
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* Keycloak servers `node11` and `node12` forms cluster with each other, but they don't communicate with any server in `site2` .
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They communicate with infinispan server `jdg1` through the HotRod protocol (Remote cache). See [previous section](#communication-details) for the details.
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* Same applies for `node21` and `node22` . They have cluster with each other and communicate just with `jdg2` server through the HotRod protocol.
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Example setup assumes all 6 servers are bootstrapped on localhost, but each on different ports. It also assumes
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that all 4 Keycloak servers talk to same database, which can be either locally set MySQL, PostgreSQL, MariaDB
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or any other. In production, there will be rather separate synchronously replicated databases between datacenters as described in
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[this section](#database) .
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JDG Server setup
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----------------
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1) Download JDG 7.1.0 server (or Infinispan 8.2.8 server for the community) as in previous section applies here)
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and unzip to some folder. It will be referred in later steps as `JDG1_HOME` .
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2) Change those things in the `JDG1_HOME/standalone/configuration/clustered.xml` in the configuration of JGroups subsystem:
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2.a) Add the `xsite` channel, which will use `tcp` stack, under `channels` element:
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```xml
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<channels default="cluster">
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<channel name="cluster"/>
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<channel name="xsite" stack="tcp"/>
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</channels>
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```
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2.b) Add `relay` element to the end of the `udp` stack. We will configure it in a way that our site is `site1` and the
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other site, where we will backup, is `site2`:
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```xml
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<stack name="udp">
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...
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<relay site="site1">
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<remote-site name="site2" channel="xsite"/>
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<property name="relay_multicasts">false</property>
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</relay>
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</stack>
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```
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2.c) Configure `tcp` stack to use `TCPPING` protocol instead of `MPING` . Just remove `MPING` element and replace with the `TCPPING` like this.
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The `initial_hosts` element points to the hosts `jdg1` and `jdg2`, which in our example setup are both on `localhost`,
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but differs just in the port offset:
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```xml
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<stack name="tcp">
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<transport type="TCP" socket-binding="jgroups-tcp"/>
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<protocol type="TCPPING">
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<property name="initial_hosts">localhost[8610],localhost[9610]"</property>
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<property name="ergonomics">false</property>
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</protocol>
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<protocol type="MERGE3"/>
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...
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</stack>
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```
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NOTE:
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This is just an example setup to have things quickly running. In production, you are not required to use `tcp` stack for the
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JGroups `RELAY2`, but you can configure any other stack. For example the other instance of UDP protocol, if the network between your
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datacenters is able to support multicast. Similarly you are not required to use `TCPPING` as discovery protocol. And in production,
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you probably won't use `TCPPING` due it's static nature. Site names are
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also configurable.
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Details of this setup are out-of-scope of the Keycloak documentation. You can take a look at JDG documentation and JGroups documentation
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for more details.
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ENDNOTE
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TODO: Once we have documentation for the Amazon setup, we should add the link to the Amazon setup
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documentation here.
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3) Add this into `JDG1_HOME/standalone/configuration/clustered.xml` under cache-container named `clustered` :
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```xml
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<cache-container name="clustered" default-cache="default" statistics="true">
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...
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<replicated-cache-configuration name="sessions-cfg" mode="SYNC" start="EAGER" batching="false">
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<transaction mode="NON_DURABLE_XA" locking="PESSIMISTIC"/>
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<locking acquire-timeout="0" />
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<backups>
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<backup site="site2" failure-policy="FAIL" strategy="SYNC" enabled="true">
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<take-offline min-wait="60000" after-failures="3" />
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</backup>
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</backups>
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</replicated-cache-configuration>
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<replicated-cache name="work" configuration="sessions-cfg"/>
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<replicated-cache name="sessions" configuration="sessions-cfg"/>
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<replicated-cache name="clientSessions" configuration="sessions-cfg"/>
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<replicated-cache name="offlineSessions" configuration="sessions-cfg"/>
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<replicated-cache name="offlineClientSessions" configuration="sessions-cfg"/>
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<replicated-cache name="actionTokens" configuration="sessions-cfg"/>
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<replicated-cache name="loginFailures" configuration="sessions-cfg"/>
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</cache-container>
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```
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NOTE: Details about the configuration options inside `replicated-cache-configuration` are explained in [later section](#tuning-jdg-cache-configuration). Also
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with possibilities to tweak some of those options.
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ENDNOTE
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4) Copy the server into the second location referred later as `JDG2_HOME`
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5) In the `JDG2_HOME/standalone/configuration/clustered.xml` exchange `site1` with `site2` and viceversa in the configuration of `relay` in the
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JGroups subsystem and in configuration of `backups` in the cache-subsystem.
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In other words, the `relay` element should look like this:
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```
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<relay site="site2">
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<remote-site name="site1" channel="xsite"/>
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</relay>
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```
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And the backups like this:
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```
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<backups>
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<backup site="site1" ....
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...
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```
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NOTE: It's currently needed to have different configuration files for the JDG servers on both sites as Infinispan subsystem doesn't support
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replacing site name with expressions. See [this issue](https://issues.jboss.org/browse/WFLY-9458) for more details.
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ENDNOTE
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6) Start server `jdg1`:
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```
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cd JDG1_HOME/bin
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./standalone.sh -c clustered.xml -Djava.net.preferIPv4Stack=true \
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-Djboss.socket.binding.port-offset=1010 -Djboss.default.multicast.address=234.56.78.99 \
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-Djboss.node.name=jdg1
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```
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7) Start server `jdg2` . There is different multicast address, so the `jdg1` and `jdg2` servers are not in "direct" cluster with each other,
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but they are just connected through the RELAY2 protocol and TCP JGroups stack is used for communication between them. So the startup command is like this:
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```
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cd JDG2_HOME/bin
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./standalone.sh -c clustered.xml -Djava.net.preferIPv4Stack=true \
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-Djboss.socket.binding.port-offset=2010 -Djboss.default.multicast.address=234.56.78.100 \
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-Djboss.node.name=jdg2
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```
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8) To verify that channel works at this point, you may need to use JConsole and connect either to JDG1 or JDG2 running server. When
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use the MBean `jgroups:type=protocol,cluster="cluster",protocol=RELAY2` and operation `printRoutes`, you should see the output like this:
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```
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site1 --> _jdg1:site1
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site2 --> _jdg2:site2
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```
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When use the MBean `jgroups:type=protocol,cluster="cluster",protocol=GMS`, you should see that attribute member contains just single member. On JDG1
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it should be like this:
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```
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(1) jdg1
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```
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And on JDG2 like this:
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```
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(1) jdg2
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```
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In production, you can have more JDG servers in every datacenter. You just need to ensure that JDG servers in same datacenter are using
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same multicast address (In other words, same `jboss.default.multicast.address` during startup). Then in jconsole in `GMS` protocol
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view, you will see all the members of current cluster.
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Keycloak servers setup
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----------------------
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1) Unzip keycloak server distribution to some location referred later as `NODE11`
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2) Configure shared database for KeycloakDS datasource. Recommended to use MySQL, MariaDB or PostgreSQL for testing purposes.
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See [this section](#database)] for more details.
|
||||
|
||||
Note again, that in production you will likely need to have separate database server in every datacenter and both database servers
|
||||
should be synchronously replicated to each other. In the example setup, we just use single database and connect all 4 Keycloak servers to it.
|
||||
|
||||
3) Edit `NODE11/standalone/configuration/standalone-ha.xml` :
|
||||
|
||||
3.1) Add attribute `site` to the JGroups UDP protocol:
|
||||
|
||||
```xml
|
||||
<stack name="udp">
|
||||
<transport type="UDP" socket-binding="jgroups-udp" site="${jboss.site.name}"/>
|
||||
```
|
||||
|
||||
3.2) Add this `module` attribute under `cache-container` element of name `keycloak` :
|
||||
|
||||
```xml
|
||||
<cache-container name="keycloak" jndi-name="infinispan/Keycloak" module="org.keycloak.keycloak-model-infinispan">
|
||||
```
|
||||
|
||||
3.3) Add the `remote-store` under `work` cache:
|
||||
|
||||
```xml
|
||||
<replicated-cache name="work" mode="SYNC">
|
||||
<remote-store cache="work" remote-servers="remote-cache" passivation="false" fetch-state="false" purge="false" preload="false" shared="true">
|
||||
<property name="rawValues">true</property>
|
||||
<property name="marshaller">org.keycloak.cluster.infinispan.KeycloakHotRodMarshallerFactory</property>
|
||||
</remote-store>
|
||||
</replicated-cache>
|
||||
```
|
||||
|
||||
3.5) Add the `remote-store` like this under `sessions` cache:
|
||||
|
||||
```xml
|
||||
<distributed-cache name="sessions" mode="SYNC" owners="1">
|
||||
<remote-store cache="sessions" remote-servers="remote-cache" passivation="false" fetch-state="false" purge="false" preload="false" shared="true">
|
||||
<property name="rawValues">true</property>
|
||||
<property name="marshaller">org.keycloak.cluster.infinispan.KeycloakHotRodMarshallerFactory</property>
|
||||
</remote-store>
|
||||
</distributed-cache>
|
||||
```
|
||||
|
||||
3.6) Same for `offlineSessions`, `clientSessions`, `offlineClientSessions`, `loginFailures`, and `actionTokens` caches (the only difference
|
||||
from `sessions` cache is that `cache` property value are different):
|
||||
|
||||
```xml
|
||||
<distributed-cache name="offlineSessions" mode="SYNC" owners="1">
|
||||
<remote-store cache="offlineSessions" remote-servers="remote-cache" passivation="false" fetch-state="false" purge="false" preload="false" shared="true">
|
||||
<property name="rawValues">true</property>
|
||||
<property name="marshaller">org.keycloak.cluster.infinispan.KeycloakHotRodMarshallerFactory</property>
|
||||
</remote-store>
|
||||
</distributed-cache>
|
||||
|
||||
<distributed-cache name="clientSessions" mode="SYNC" owners="1">
|
||||
<remote-store cache="clientSessions" remote-servers="remote-cache" passivation="false" fetch-state="false" purge="false" preload="false" shared="true">
|
||||
<property name="rawValues">true</property>
|
||||
<property name="marshaller">org.keycloak.cluster.infinispan.KeycloakHotRodMarshallerFactory</property>
|
||||
</remote-store>
|
||||
</distributed-cache>
|
||||
|
||||
<distributed-cache name="offlineClientSessions" mode="SYNC" owners="1">
|
||||
<remote-store cache="offlineClientSessions" remote-servers="remote-cache" passivation="false" fetch-state="false" purge="false" preload="false" shared="true">
|
||||
<property name="rawValues">true</property>
|
||||
<property name="marshaller">org.keycloak.cluster.infinispan.KeycloakHotRodMarshallerFactory</property>
|
||||
</remote-store>
|
||||
</distributed-cache>
|
||||
|
||||
<distributed-cache name="loginFailures" mode="SYNC" owners="1">
|
||||
<remote-store cache="loginFailures" remote-servers="remote-cache" passivation="false" fetch-state="false" purge="false" preload="false" shared="true">
|
||||
<property name="rawValues">true</property>
|
||||
<property name="marshaller">org.keycloak.cluster.infinispan.KeycloakHotRodMarshallerFactory</property>
|
||||
</remote-store>
|
||||
</distributed-cache>
|
||||
|
||||
<distributed-cache name="actionTokens" mode="SYNC" owners="2">
|
||||
<eviction max-entries="-1" strategy="NONE"/>
|
||||
<expiration max-idle="-1" interval="300000"/>
|
||||
<remote-store cache="actionTokens" remote-servers="remote-cache" passivation="false" fetch-state="false" purge="false" preload="true" shared="true">
|
||||
<property name="rawValues">true</property>
|
||||
<property name="marshaller">org.keycloak.cluster.infinispan.KeycloakHotRodMarshallerFactory</property>
|
||||
</remote-store>
|
||||
</distributed-cache>
|
||||
```
|
||||
|
||||
3.7) Add outbound socket binding for the remote store into `socket-binding-group` element configuration:
|
||||
|
||||
```xml
|
||||
<outbound-socket-binding name="remote-cache">
|
||||
<remote-destination host="${remote.cache.host:localhost}" port="${remote.cache.port:11222}"/>
|
||||
</outbound-socket-binding>
|
||||
```
|
||||
|
||||
3.8) The configuration of distributed cache `authenticationSessions` and other caches is left unchanged.
|
||||
|
||||
3.9) Optionally enable DEBUG logging under `logging` subsystem:
|
||||
|
||||
```xml
|
||||
<logger category="org.keycloak.cluster.infinispan">
|
||||
<level name="DEBUG"/>
|
||||
</logger>
|
||||
<logger category="org.keycloak.connections.infinispan">
|
||||
<level name="DEBUG"/>
|
||||
</logger>
|
||||
<logger category="org.keycloak.models.cache.infinispan">
|
||||
<level name="DEBUG"/>
|
||||
</logger>
|
||||
<logger category="org.keycloak.models.sessions.infinispan">
|
||||
<level name="DEBUG"/>
|
||||
</logger>
|
||||
```
|
||||
|
||||
4) Copy the `NODE11` to 3 other directories referred later as `NODE12`, `NODE21` and `NODE22`.
|
||||
|
||||
5) Start `NODE11` :
|
||||
|
||||
```
|
||||
cd NODE11/bin
|
||||
./standalone.sh -c standalone-ha.xml -Djboss.node.name=node11 -Djboss.site.name=site1 \
|
||||
-Djboss.default.multicast.address=234.56.78.1 -Dremote.cache.port=12232 -Djava.net.preferIPv4Stack=true \
|
||||
-Djboss.socket.binding.port-offset=3000
|
||||
|
||||
```
|
||||
|
||||
6) Start `NODE12` :
|
||||
|
||||
````
|
||||
cd NODE12/bin
|
||||
./standalone.sh -c standalone-ha.xml -Djboss.node.name=node12 -Djboss.site.name=site1 \
|
||||
-Djboss.default.multicast.address=234.56.78.1 -Dremote.cache.port=12232 -Djava.net.preferIPv4Stack=true \
|
||||
-Djboss.socket.binding.port-offset=4000
|
||||
````
|
||||
|
||||
The cluster nodes should be connected. Something like this should be in the log of both NODE11 and NODE12:
|
||||
|
||||
```
|
||||
Received new cluster view for channel keycloak: [node11|1] (2) [node11, node12]
|
||||
```
|
||||
|
||||
NOTE: The channel name in the log might be different.
|
||||
ENDNOTE
|
||||
|
||||
|
||||
7) Start `NODE21` :
|
||||
|
||||
```
|
||||
cd NODE21/bin
|
||||
./standalone.sh -c standalone-ha.xml -Djboss.node.name=node21 -Djboss.site.name=site2 \
|
||||
-Djboss.default.multicast.address=234.56.78.2 -Dremote.cache.port=13232 -Djava.net.preferIPv4Stack=true \
|
||||
-Djboss.socket.binding.port-offset=5000
|
||||
```
|
||||
|
||||
It shouldn't be connected to the cluster with `NODE11` and `NODE12`, but to separate one:
|
||||
|
||||
```
|
||||
Received new cluster view for channel keycloak: [node21|0] (1) [node21]
|
||||
```
|
||||
|
||||
8) Start `NODE22` :
|
||||
|
||||
```
|
||||
cd NODE22/bin
|
||||
./standalone.sh -c standalone-ha.xml -Djboss.node.name=node22 -Djboss.site.name=site2 \
|
||||
-Djboss.default.multicast.address=234.56.78.2 -Dremote.cache.port=13232 -Djava.net.preferIPv4Stack=true \
|
||||
-Djboss.socket.binding.port-offset=6000
|
||||
```
|
||||
|
||||
It should be in cluster with `NODE21` :
|
||||
|
||||
```
|
||||
Received new cluster view for channel keycloak: [node21|1] (2) [node21, node22]
|
||||
```
|
||||
|
||||
NOTE: The channel name in the log might be different.
|
||||
ENDNOTE
|
||||
|
||||
|
||||
9) Test:
|
||||
|
||||
9.1) Go to `http://localhost:11080/auth/` and create initial admin user
|
||||
|
||||
9.2) Go to `http://localhost:11080/auth/admin` and login as admin to admin console
|
||||
|
||||
9.3) Open 2nd browser and go to any of nodes `http://localhost:12080/auth/admin` or `http://localhost:13080/auth/admin` or `http://localhost:14080/auth/admin` . After login, you should be able to see
|
||||
the same sessions in tab `Sessions` of particular user, client or realm on all 4 servers
|
||||
|
||||
9.4) After doing any change in Keycloak admin console (eg. update some user or some realm), the update
|
||||
should be immediately visible on any of 4 nodes as caches should be properly invalidated everywhere.
|
||||
|
||||
|
||||
9.5) Check server.logs if needed. After login or logout, the message like this should be on all the nodes `NODEXY/standalone/log/server.log` :
|
||||
|
||||
```
|
||||
2017-08-25 17:35:17,737 DEBUG [org.keycloak.models.sessions.infinispan.remotestore.RemoteCacheSessionListener] (Client-Listener-sessions-30012a77422542f5) Received event from remote store.
|
||||
Event 'CLIENT_CACHE_ENTRY_REMOVED', key '193489e7-e2bc-4069-afe8-f1dfa73084ea', skip 'false'
|
||||
```
|
||||
|
||||
|
||||
Administration of Cross DC deployment
|
||||
=====================================
|
||||
|
||||
Few tips and possibilities related to the Cross-DC deployment.
|
||||
|
||||
* When you run the Keycloak server inside datacenter, it is required that database referenced in `KeycloakDS` datasource
|
||||
is already running and available in that datacenter. It is also necessary that JDG server referenced by the `outbound-socket-binding`, which
|
||||
is referenced from the infinispan cache `remote-store` elements, is already running. Otherwise Keycloak server will fail to start.
|
||||
|
||||
|
||||
* Every datacenter can have more database nodes if you want to support database failover and better reliability.
|
||||
Refer to the documentation of your database and JDBC driver for the details how to setup this on the
|
||||
database side and how the `KeycloakDS` datasource on Keycloak side needs to be configured.
|
||||
|
||||
|
||||
* As mentioned before in [the JDG Server setup section](#jdg-server-setup), every datacenter can have more JDG servers
|
||||
running in the cluster. This is useful if you want some failover and better fault tolerance.
|
||||
The hotrod protocol used for communication between JDG servers and Keycloak servers has a feature that JDG servers will
|
||||
automatically send new topology to the Keycloak servers about the change in
|
||||
the JDG cluster, so the remote store on Keycloak side will know to which JDG servers it can connect.
|
||||
Read the JDG/Infinispan and Wildfly documentation for more details around this.
|
||||
|
||||
|
||||
* It is highly recommended that master JDG server is running in every site before the Keycloak servers in **any** site
|
||||
are executed. Like in our example, we executed both `jdg1` and `jdg2` first and all Keycloak servers afterwards. If you still
|
||||
need to run the Keycloak server and the backup site is offline, it is recommended to manually switch the backup site
|
||||
offline on the JDG servers on your site as described in [next section](#bringing-sites-offline-and-online).
|
||||
Without manually switching the unavailable site offline, the first startup may fail or they may be some exceptions during
|
||||
startup until the backup site is taken offline automatically due the configured count of failed operations.
|
||||
See [this part](#take-site-offline) for details.
|
||||
|
||||
|
||||
Bringing sites offline and online
|
||||
=================================
|
||||
|
||||
For example, assume this scenario.
|
||||
|
||||
1) Site `site2` is entirely offline from the `site1` perspective. It means that all JDG servers on `site2` are off *or* the network between `site1` and `site2` is broken.
|
||||
2) You run Keycloak servers and JDG server `jdg1` in site `site1`
|
||||
3) Someone login on some Keycloak server on `site1`.
|
||||
4) The Keycloak server from `site1` will try to write the session to the remote
|
||||
cache on `jdg1` server, which is supposed to backup data to the `jdg2` server in the `site2`. See [this section](#communication-details) for
|
||||
the details.
|
||||
5) Server `jdg2` is offline or unreachable from `jdg1`. So the backup from `jdg1` to `jdg2` will fail.
|
||||
6) The exception is thrown in `jdg1` log and the failure will be propagated from `jdg1` server to Keycloak servers as well because
|
||||
the default `FAIL` backup failure policy is configured. See [this section](#backup-failure-policy) for details around the backup policies.
|
||||
7) The error will happen on Keycloak side too and user may not be able to finish his login.
|
||||
|
||||
According to your environment, it may be more or less probable that the network between sites is unavailable or temporarily broken (split-brain).
|
||||
In case that this will happen, it's good that JDG servers on `site1` are aware of the fact that JDG servers on `site2` are
|
||||
unavailable (In other words, that `site2` is offline), so they will stop
|
||||
trying to reach servers in `jdg2` site and the backup failures won't happen. This is called `Take site offline` .
|
||||
|
||||
Take site offline
|
||||
-----------------
|
||||
|
||||
There are 2 ways to take the site offline.
|
||||
|
||||
1) **Manually by admin** - Admin can use the `jconsole` or other tool and run some JMX operations to manually take the particular site offline.
|
||||
This is useful especially if the outage is planned. With `jconsole` or CLI, you can connect to the `jdg1` server and take the `site2` offline.
|
||||
More details about this is
|
||||
in the [JDG documentation](https://access.redhat.com/documentation/en-us/red_hat_jboss_data_grid/7.1/html/administration_and_configuration_guide/set_up_cross_datacenter_replication#taking_a_site_offline)
|
||||
|
||||
WARNING: This turned off the backup to `site2` for the cache `sessions`. The same steps usually needs to be done for all the
|
||||
other Keycloak caches mentioned [here](#sync-or-async-backups) .
|
||||
STOPWARNING
|
||||
|
||||
|
||||
2) **Automatically** - After some amount of failed backups, the `site2` will be usually automatically taken offline. This is done due the
|
||||
configuration of `take-offline` element inside the cache configuration as configured [here](#jdg-server-setup) .
|
||||
|
||||
```
|
||||
<take-offline min-wait="60000" after-failures="3" />
|
||||
```
|
||||
|
||||
It means that site will be automatically taken offline for the particular single cache if there are at least 3 subsequent failed backups
|
||||
and there is no any success backup within 60 seconds.
|
||||
|
||||
Automatically taking site offline is useful especially if the broken network between sites is unplanned. It's disadvantage is, that
|
||||
there will be some failed backups until the network outage is detected, which could also mean the failures on the application side.
|
||||
For example, there will be failed logins for some users or big login timeouts. Especially if `failure-policy` with value `FAIL` is used.
|
||||
|
||||
WARNING: The tracking if site is offline or not is again tracked separately for every cache.
|
||||
ENDWARNING
|
||||
|
||||
|
||||
Take site online
|
||||
----------------
|
||||
|
||||
|
||||
Once your network is back and `site1` and `site2` can talk to each other, you may need to put the site online. This needs to be done
|
||||
manually through JMX or CLI in similar way as described in the [previous section](#take-site-offline).
|
||||
Again, you may need to check all the caches and bring them online.
|
||||
|
||||
Once the sites are put online, it's usually good to:
|
||||
* Do the [state transfer](#state-transfer)
|
||||
* Manually [clear the Keycloak caches](#clear-caches) .
|
||||
|
||||
State transfer
|
||||
-------------
|
||||
|
||||
State transfer is manually required step. JDG doesn't do this automatically as
|
||||
for example during split-brain, it's just the admin who may need to decide which site has preference and hence if state-transfer
|
||||
needs to be done bi-directionaly between both sites or just unidirectionally (EG. just from `site1` to `site2`, but not from `site2` to `site1`).
|
||||
|
||||
During bi-directional state transfer, it will ensure that entities, which were created *after* split-brain on `site1` will be transferred
|
||||
to `site2` . This is no issue as they don't exist yet on `site2` . Similarly entities created *after* split-brain on `site2` will be transferred
|
||||
to `site1` . Possible problematic parts are the entities, which exists *before* split brain on both sites and which were updated during split-brain
|
||||
on both sites. In that case one of the site will *win* and will overwrite the updates done during split-brain by the second part.
|
||||
|
||||
Unfortunately there is no any universal solution to this. Split-brains and network outages are just state, which is usually impossible to be handled 100%
|
||||
correctly with 100% consistent data between sites. For the case of Keycloak, it typically is not critical issue. In worst case, users
|
||||
will need to re-login again to their clients. Or have the improper count of loginFailures tracked for brute force protection. See JDG/JGroups/Infinispan
|
||||
docs for more tips how to deal with split brain.
|
||||
|
||||
The state transfer can be done again on the JDG side through JMX. Operation name is `pushState` . There are few other operations to monitor status, cancel push state etc.
|
||||
More info about state transfer is in JDG docs - https://access.redhat.com/documentation/en-us/red_hat_jboss_data_grid/7.1/html/administration_and_configuration_guide/set_up_cross_datacenter_replication#state_transfer_between_sites
|
||||
|
||||
Clear caches
|
||||
------------
|
||||
|
||||
After split-brain it's also safe to manually clear caches in Keycloak admin console. Reason is, that there might be some data changed in DB
|
||||
on `site1` and the event, that cache should be invalidated wasn't transferred during split-brain to `site2` .
|
||||
Hence Keycloak nodes on `site2` may still have some stale data in their caches.
|
||||
|
||||
To clear the caches, take a look at http://www.keycloak.org/docs/latest/server_admin/index.html#_clear-cache .
|
||||
|
||||
When network is back, it's sufficient to clear the cache just on one Keycloak node on any random site.
|
||||
The event about cache invalidation will be sent to all the other Keycloak nodes in all sites. However it needs
|
||||
to be done for all the caches (realms, users, keys).
|
||||
|
||||
|
||||
Tuning JDG cache configuration
|
||||
==============================
|
||||
|
||||
Backup failure policy
|
||||
---------------------
|
||||
|
||||
By default, the configuration of backup `failure-policy` in the infinispan cache configuration in JDG `clustered.xml`
|
||||
file is configured as `FAIL` . According your preferences, you may change it to `WARN` or `IGNORE` .
|
||||
|
||||
The difference between `FAIL` and `WARN` is, that when JDG server tries to backup data to the other site and the backup fails (EG. second site
|
||||
is temporarily unreachable or there is concurrent transaction, which is trying to update same entity),
|
||||
then the failure will be propagated back to the caller (Keycloak server) if the `FAIL` policy is used.
|
||||
The Keycloak server will then try to retry the particular operation few times. However if the second site is really unavailable,
|
||||
the retry will fail too and the user might see the error after some longer timeout (EG. 1 minute).
|
||||
|
||||
With `WARN` policy, the failed backups are not propagated from JDG server to the Keycloak server. User won't see the error and the
|
||||
failed backup will be just ignored. There will just be some shorter timeout,
|
||||
typically 10 seconds as that's the default timeout for backup. It can be changed by the attribute `timeout` of `backup` element.
|
||||
There won't be retries. There will just be the WARNING message in the JDG server log.
|
||||
|
||||
The potential issue is, that in some cases, there may be just some very short network outage between sites, where the retry
|
||||
(usage of the `FAIL` policy) may help, so with `WARN` (without retry), there will be some data inconsistencies between sites.
|
||||
This can also happen if there is an attempt to update same entity concurrently on both sites.
|
||||
|
||||
The question is, how bad inconsistencies are. Usually it means that user just need to re-authenticate.
|
||||
|
||||
With `WARN` policy, it may happen that single-use cache, which is provided by the `actionTokens` cache and which handles that
|
||||
particular key is really single
|
||||
use, may "successfully" write the same key twice. But for example the OAuth2 specification mentions that code must be single-use.
|
||||
See [here](https://tools.ietf.org/html/rfc6749#section-10.5) .
|
||||
With the `WARN` policy, this may not be strictly guaranteed and the same code could be written twice if there is an attempt to write
|
||||
it concurrently in both sites.
|
||||
|
||||
If there is real longer network outage or split-brain, then with both `FAIL` and `WARN`, the other site will be taken offline after some
|
||||
time and failures as described [here](#take-site-offline) . With the default 1 minute timeout, it is usually after 1-3 minutes
|
||||
until all the involved caches are taken offline. Then all the operations will work fine from the end user perspective.
|
||||
You just need to manually restore the site when it's back online as mentioned [here](#take-site-online) .
|
||||
|
||||
In summary, if you expect often longer outages between sites and it's acceptable for you to have some data inconsistencies and
|
||||
not 100% accurate single-use cache, but you never want end-users to see the errors and long timeouts, then switch to `WARN` .
|
||||
|
||||
The difference between `WARN` and `IGNORE` is, that with `IGNORE` there are even no warnings in the JDG log. See more details in the Infinispan
|
||||
documentation.
|
||||
|
||||
|
||||
Lock acquisition timeout
|
||||
------------------------
|
||||
The default configuration is using transaction in NON_DURABLE_XA mode with acquire timeout 0. This means that
|
||||
transaction will fail-fast if there is other transaction in progress for same key.
|
||||
|
||||
The reason for switch this to 0 instead of default 10 seconds was to avoid possible deadlock issues. With Keycloak,
|
||||
it can happen that same entity (typically session entity or loginFailure) is updated concurrently from both sites.
|
||||
This can cause deadlock under some circumstances, which will cause the transaction blocked for 10 seconds. See [this
|
||||
JIRA](https://issues.jboss.org/browse/JDG-1318) for details.
|
||||
|
||||
With timeout 0, the transaction will immediately fail and then will be retried from Keycloak if backup `failure-policy` with
|
||||
the value `FAIL` is configured. As long as the second concurrent transaction is finished, the retry will be usually successful and entity
|
||||
will have applied updates from both concurrent transactions.
|
||||
|
||||
We see very good consistency and results for concurrent transaction with this configuration, so at least for now is
|
||||
recommended to keep it.
|
||||
|
||||
The only (non-functional) problem is the exception in the JDG log, which happen every time when the lock is not
|
||||
immediately available.
|
||||
|
||||
|
||||
|
||||
SYNC or ASYNC backups
|
||||
---------------------
|
||||
|
||||
One important note on the `backup` element is a `strategy` attribute and decide whether it needs to be `SYNC` or `ASYNC` . Actually we have
|
||||
7 caches, which might be cross-dc aware, and those can be configured in 3 different modes regarding cross-dc:
|
||||
1) SYNC backup
|
||||
2) ASYNC backup
|
||||
3) No backup at all
|
||||
|
||||
If the `SYNC` backup is used, then the backup is synchronous and operation is considered finished on the caller (Keycloak server) side
|
||||
once the backup is processed on the second site. This has worse performance than `ASYNC`, but on the other hand, you are sure that subsequent reads
|
||||
of the particular entity (EG. user session) on `site2` will see the updates from `site1` . Also it's needed if you want data
|
||||
consistency as with `ASYNC` the caller is not notified at all if backup to the other site failed.
|
||||
|
||||
For some caches, it's even possible to not backup at all and completely skip writing data to the JDG server. For setup this, you can avoid
|
||||
to use `remote-store` element for the particular cache on the Keycloak side (file `KEYCLOAK_HOME/standalone/configuration/standalone-ha.xml`) and
|
||||
the particular `replicated-cache` element is also not needed on the JDG side then.
|
||||
|
||||
By default, all 7 caches are configured with `SYNC` backup, which is the safest option. Few things to consider:
|
||||
|
||||
* If you are using active/passive mode (all Keycloak servers are in single site `site1` and the JDG server in `site2` is used purely as
|
||||
backup. More details [here](#modes)), then it's usually fine to use `ASYNC` strategy for all the caches to save the performance.
|
||||
|
||||
* The `work` cache is used mainly to send some messages (EG. cache invalidation events) to the other site. It's also used to ensure that some
|
||||
special events (EG. userStorage synchronizations) happen just on single site. It's recommended to keep it in `SYNC` strategy.
|
||||
|
||||
* The `actionTokens` cache is used as single-use cache to track that some tokens/tickets were used just once. For example
|
||||
[Action tokens](#infinispan-caches) or OAuth2 codes. It's possible to switch it to `ASYNC` to save some performance, but then it's not
|
||||
guaranteed that particular ticket is really single-use. For example if there is concurrent request for same ticket in both sites, then
|
||||
it's possible that both requests will be successful with the `ASYNC` strategy. So it depends if you prefer better
|
||||
security (`SYNC` strategy) or better performance (`ASYNC` strategy).
|
||||
|
||||
* The `loginFailures` cache may be possibly used in all 3 modes. If there is no backup at all, it means that count of login failures for user
|
||||
(See [here](#infinispan-caches) for details) will be counted separately for every site. This has some security implications,
|
||||
however it has some performance advantages. Also it mitigates the possible risk of DoS. For example if attacker
|
||||
simulates 1000 concurrent requests of trying username/password of the user on both sites, it will mean lots of the messages
|
||||
between the sites, which may result in network congestion. The `ASYNC` strategy might be even worse as the attacker
|
||||
requests won't be blocked by waiting for the backup to the other site, resulting in potentially even bigger network traffic.
|
||||
The count of login failures also won't be accurate with the `ASYNC` strategy.
|
||||
|
||||
For the environments with slower network between datacenters and probability of DoS, it's recommended to not backup `loginFailures` cache at all.
|
||||
|
||||
* Caches `sessions` and `clientSessions` are usually recommended to keep in `SYNC` strategy. Switching them to `ASYNC` strategy is possible just
|
||||
if you are sure that user requests and backchannel requests (requests from client applications to Keycloak as described [here](#request-processing))
|
||||
will be always processed on same site. This is true for example if:
|
||||
* You use active/passive mode as described [here](#modes).
|
||||
* All your client applications are using Keycloak [Javascript Adapter](http://www.keycloak.org/docs/latest/securing_apps/index.html#_javascript_adapter).
|
||||
Javascript adapter sends the backchannel requests within browser and hence they participate on the browser sticky session and
|
||||
will end on same cluster node (hence on same site) as the other browser requests of this user.
|
||||
* Loadbalancer is able to serve the requests based on client IP address (location) and the client applications are deployed on both sites.
|
||||
For example you have 2 sites LON and NYC. As long as your applications are deployed in both LON and NYC sites too, you can ensure
|
||||
that all the user requests from London users will be redirected to the applications in LON site and also to the Keycloak servers in LON site.
|
||||
Backchannel requests from the LON site client deployments will end on Keycloak servers in LON site too. On the other hand, for the American
|
||||
users, all the Keycloak requests, application requests and backchannel requests will be processed on NYC site.
|
||||
|
||||
* For `offlineSessions` and `offlineClientSessions` it's similar. With the difference, that you even don't need to backup them at all
|
||||
if you never plan to use offline tokens for any of your client applications.
|
||||
|
||||
|
||||
Generally, if you are in doubt and the performance is not a blocker for you, it's safer to keep the caches in `SYNC` strategy.
|
||||
|
||||
|
||||
WARNING: Regarding the switch to SYNC/ASYNC backup, make sure that you edit the `strategy` attribute of the the `backup` element. For example
|
||||
like this:
|
||||
```
|
||||
<backup site="site2" failure-policy="FAIL" strategy="ASYNC" enabled="true">
|
||||
```
|
||||
|
||||
Not the `mode` attribute of cache-configuration element.
|
||||
ENDWARNING
|
||||
|
||||
|
||||
Troubleshooting
|
||||
===============
|
||||
|
||||
Few tips:
|
||||
|
||||
* It's recommended to go through the [example setup](#basic-setup) and have this one working first, so that you have some understanding
|
||||
of how things work. It's also good to read The whole chapter to have some understanding of things.
|
||||
|
||||
* Check in jconsole cluster status (GMS) and the JGroups status (RELAY) of JDG as described in [the part for JDG setup](#jdg-server-setup) .
|
||||
If it doesn't look as expected, then the issue is likely in the setup of JDG servers.
|
||||
|
||||
* For the keycloak servers, you should see some message like this during the server startup
|
||||
|
||||
```
|
||||
18:09:30,156 INFO [org.keycloak.connections.infinispan.DefaultInfinispanConnectionProviderFactory] (ServerService Thread Pool -- 54)
|
||||
Node name: node11, Site name: site1
|
||||
```
|
||||
|
||||
Make sure that the site name and the node name looks as expected during the startup of Keycloak server.
|
||||
|
||||
* Make sure that Keycloak servers are in cluster as expected. Hence only the Keycloak servers from same datacenter are in cluster with each other.
|
||||
This can be also checked in JConsole through the GMS view. Also look
|
||||
at [cluster troubleshooting](http://www.keycloak.org/docs/latest/server_installation/index.html#troubleshooting) for the additional details.
|
||||
|
||||
* If there are exceptions during startup of Keycloak server like:
|
||||
```
|
||||
17:33:58,605 ERROR [org.infinispan.client.hotrod.impl.operations.RetryOnFailureOperation] (ServerService Thread Pool -- 59) ISPN004007: Exception encountered. Retry 10 out of 10: org.infinispan.client.hotrod.exceptions.TransportException:: Could not fetch transport
|
||||
...
|
||||
Caused by: org.infinispan.client.hotrod.exceptions.TransportException:: Could not connect to server: 127.0.0.1:12232
|
||||
at org.infinispan.client.hotrod.impl.transport.tcp.TcpTransport.<init>(TcpTransport.java:82)
|
||||
|
||||
```
|
||||
|
||||
it usually means that Keycloak server is not able to reach the JDG server in his own datacenter. Make sure that
|
||||
firewall is set as expected and JDG server is possible to connect.
|
||||
|
||||
|
||||
* If there are exceptions during startup of Keycloak server like:
|
||||
```
|
||||
16:44:18,321 WARN [org.infinispan.client.hotrod.impl.protocol.Codec21] (ServerService Thread Pool -- 57) ISPN004005: Error received from the server: javax.transaction.RollbackException: ARJUNA016053: Could not commit transaction.
|
||||
...
|
||||
```
|
||||
then it's good to check the log of corresponding JDG server of our site and check if it doesn't failed to backup
|
||||
to the other site. If the backup site is unavailable, then it's recommended to switch it offline, so that JDG server
|
||||
won't try to backup to the offline site and hence the operations will pass successfully on Keycloak server side as well.
|
||||
More details are described in [this section](#administration-of-cross-dc-deployment) .
|
||||
|
||||
|
||||
* Check the infinispan statistics, which are again available through JMX. For example, you can try to login and then see if the new session
|
||||
was successfully written to both JDG servers and is available in the `sessions` cache there. This can be done indirectly by checking
|
||||
the count of elements in the `sessions` cache for the MBean `jboss.datagrid-infinispan:type=Cache,name="sessions(repl_sync)",manager="clustered",component=Statistics` .
|
||||
and attribute `numberOfEntries` . After login, there should be one more entry for `numberOfEntries` on both JDG servers on both sites.
|
||||
|
||||
* Enable DEBUG logging as described [here](#keycloak-servers-setup) . For example if you login and you think that the new session is not
|
||||
available on the second site, it's good to see the Keycloak server logs and check that listeners were triggered as described in
|
||||
the [the setup section](#keycloak-servers-setup). If you don't know and want to ask on keycloak-user mailing list, it's good to send the log
|
||||
files from Keycloak servers on both datacenters to the email. Either add the log snippets to the mails or put the logs somewhere and reference them from mail
|
||||
to avoid put big attachements to the mail sent to the mailing list.
|
||||
|
||||
* If you updated the entity (EG. user) on Keycloak server on `site1` and you don't see that entity updated on the Keycloak server on `site2`, then
|
||||
the issue can be either in the replication of the synchronous database itself or just that Keycloak caches are not properly invalidated. You may
|
||||
try to temporarily disable the Keycloak caches as described [here](http://www.keycloak.org/docs/latest/server_installation/index.html#disabling-caching)
|
||||
to nail down if the issue is at the database replication level. Also it may help to manually connect to the database and check if data are updated
|
||||
as expected. This is specific to every database, so we won't describe the details here.
|
||||
|
||||
* Sometimes you may see the exceptions related to locks like this in JDG log:
|
||||
|
||||
```
|
||||
(HotRodServerHandler-6-35) ISPN000136: Error executing command ReplaceCommand,
|
||||
writing keys [[B0x033E243034396234..[39]]: org.infinispan.util.concurrent.TimeoutException: ISPN000299: Unable to acquire lock after
|
||||
0 milliseconds for key [B0x033E243034396234..[39] and requestor GlobalTx:jdg1:4353. Lock is held by GlobalTx:jdg1:4352
|
||||
```
|
||||
|
||||
Those exceptions are not necessarily an issue. They may happen anytime when concurrent edit of same
|
||||
entity is triggered on both DCs. Which can be the often case in some deployment. Usually the Keycloak is notified about the failed operation
|
||||
and will retry it, so from the user's point of view, there is usually not any issue.
|
||||
|
||||
* If you try to authenticate with Keycloak to your application, but it failed with the infinite number
|
||||
of redirects in your browser and you see the errors like this in the Keycloak server log:
|
||||
```
|
||||
2017-11-27 14:50:31,587 WARN [org.keycloak.events] (default task-17) type=LOGIN_ERROR, realmId=master, clientId=null, userId=null, ipAddress=37.188.148.81, error=expired_code, restart_after_timeout=true
|
||||
```
|
||||
it probably means that your loadbalancer needs to be set to support sticky sessions.
|
||||
Make sure that the provided route name used during startup of Keycloak server (Property `jboss.node.name`)
|
||||
contains the correct name used by loadbalancer server to identify current server.
|
|
@ -536,11 +536,21 @@ First we will manually download, configure and run infinispan servers. Then we c
|
|||
It's more effective during development as there is no need to restart infinispan server(s) among test runs.
|
||||
|
||||
1) Download infinispan server 8.2.X from http://infinispan.org/download/ and go through the steps
|
||||
from the [../../misc/CrossDataCenter.md](../../misc/CrossDataCenter.md) and the `Infinispan Server Setup` part.
|
||||
from the [Keycloak Cross-DC documentation](http://www.keycloak.org/docs/latest/server_installation/index.html#jdgsetup) for setup infinispan servers.
|
||||
|
||||
Assume you have both Infinispan/JDG servers up and running.
|
||||
The difference to original docs is, that you need to have JDG servers available on localhost with port offsets. So:
|
||||
|
||||
**TODO:** Change this once CrossDataCenter.md is removed and converted to the proper docs.
|
||||
* The TCPPING hosts should be like this:
|
||||
|
||||
```xml
|
||||
<property name="initial_hosts">localhost[8610],localhost[9610]"</property>
|
||||
```
|
||||
|
||||
* The port offset when starting node `jdg1` should be like: `-Djboss.socket.binding.port-offset=1010` and when
|
||||
starting the `jdg2` server, then `-Djboss.socket.binding.port-offset=2010` . In both cases, the bind address should be just
|
||||
default `localhost` (In other words, the `-b` switch can be omitted).
|
||||
|
||||
So assume you have both Infinispan/JDG servers up and running.
|
||||
|
||||
2) Setup MySQL database or some other shared database.
|
||||
|
||||
|
|
Loading…
Reference in a new issue