Replicated Caching using JGroups

Introduction

JGroups can be used as the underlying mechanism for the replication operations in ehcache. JGroups offers a very flexible protocol stack, reliable unicast and multicast message transmission.

On the down side JGroups can be complex to configure and some protocol stacks have dependencies on others.

To set up replicated caching using JGroups you need to configure a PeerProviderFactory of type JGroupsCacheManagerPeerProviderFactory which is done globally for a CacheManager

For each cache that will be replicated, you then need to add a cacheEventListenerFactory of type JGroupsCacheReplicatorFactory to propagate messages.

Suitable Element Types

Only Serializable Elements are suitable for replication.

Some operations, such as remove, work off Element keys rather than the full Element itself. In this case the operation will be replicated provided the key is Serializable, even if the Element is not.

Peer Discovery

If you use the UDP multicast stack there is no additional configuration. If you use a TCP stack you will need to specify the initial hosts in the cluster.

Configuration

There are two things to configure:

  • The JGroupsCacheManagerPeerProviderFactory which is done once per CacheManager and therefore once per ehcache.xml file.
  • The JGroupsCacheReplicatorFactory which is added to each cache’s configuration.

The main configuration happens in the JGroupsCacheManagerPeerProviderFactory connect sub-property.

A connect property is passed directly to the JGroups channel and therefore all the protocol stacks and options available in JGroups can be set.

Example configuration using UDP Multicast

Suppose you have two servers in a cluster. You wish to replicated sampleCache11 and sampleCache12 and you wish to use UDP multicast as the underlying mechanism. The configuration for server1 and server2 are identical and will look like this:

         <cacheManagerPeerProviderFactory
class="net.sf.ehcache.distribution.jgroups.JGroupsCacheManagerPeerProviderFactory"
properties="connect=UDP(mcast_addr=231.12.21.132;mcast_port=45566;):PING:
MERGE2:FD_SOCK:VERIFY_SUSPECT:pbcast.NAKACK:UNICAST:pbcast.STABLE:FRAG:pbcast.GMS"
propertySeparator="::"
/>

      

Example configuration using TCP Unicast

The TCP protocol requires the IP address of all servers to be known. They are configured through the {TCPPING protocol} of Jgroups.

Suppose you have 2 servers host1 and host2, then the configuration is:

         <cacheManagerPeerProviderFactory
class="net.sf.ehcache.distribution.jgroups.JGroupsCacheManagerPeerProviderFactory"
properties="connect=TCP(start_port=7800):
   TCPPING(initial_hosts=host1[7800],host2[7800];port_range=10;timeout=3000;
   num_initial_members=3;up_thread=true;down_thread=true):
   VERIFY_SUSPECT(timeout=1500;down_thread=false;up_thread=false):
   pbcast.NAKACK(down_thread=true;up_thread=true;gc_lag=100;retransmit_timeout=3000):
   pbcast.GMS(join_timeout=5000;join_retry_timeout=2000;shun=false;
   print_local_addr=false;down_thread=true;up_thread=true)"
propertySeparator="::" />

      

Protocol considerations.

You should read the JGroups documentation to configure the protocols correctly.

See http://www.jgroups.org/javagroupsnew/docs/manual/html_single/index.html.

If using UDP you should at least configure PING, FD_SOCK (Failure detection), VERIFY_SUSPECT, pbcast.NAKACK (Message reliability), pbcast.STABLE (message garbage collection).

Configuring CacheReplicators

Each cache that will be replicated needs to set a cache event listener which then replicates messages to the other CacheManager peers. This is done by adding a cacheEventListenerFactory element to each cache’s configuration. The properties are identical to the one used for RMI replication. The listener factory must be of type JGroupsCacheReplicatorFactory.

         <!-- Sample cache named sampleCache2. -->
<cache name="sampleCache2"
  maxEntriesLocalHeap="10"
  eternal="false"
  timeToIdleSeconds="100"
  timeToLiveSeconds="100"
  overflowToDisk="false">
  <cacheEventListenerFactory
  class="net.sf.ehcache.distribution.jgroups.JGroupsCacheReplicatorFactory"
  properties="replicateAsynchronously=true, replicatePuts=true,
  replicateUpdates=true, replicateUpdatesViaCopy=false, replicateRemovals=true" />
</cache>

      

The configuration options are explained below:

class - use net.sf.ehcache.distribution.jgroups.JGroupsCacheReplicatorFactory

The factory recognises the following properties:

  • replicatePuts=true | false - whether new elements placed in a cache are replicated to others. Defaults to true.
  • replicateUpdates=true | false - whether new elements which override an element already existing with the same key are replicated. Defaults to true.
  • replicateRemovals=true - whether element removals are replicated. Defaults to true.
  • replicateAsynchronously=true | false - whether replications are asyncrhonous (true) or synchronous (false). Defaults to true.
  • replicateUpdatesViaCopy=true | false - whether the new elements are copied to other caches (true), or whether a remove message is sent. Defaults to true.
  • asynchronousReplicationIntervalMillis default 1000ms Time between updates when replication is asynchroneous

Complete Sample configuration

A typical complete configuration for one replicated cache configured for UDP will look like:

         <Ehcache xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
  xsi:noNamespaceSchemaLocation="../../../main/config/ehcache.xsd">
  <diskStore path="java.io.tmpdir/one"/>
  <cacheManagerPeerProviderFactory class="net.sf.ehcache.distribution.jgroups
    .JGroupsCacheManagerPeerProviderFactory"
    properties="connect=UDP(mcast_addr=231.12.21.132;mcast_port=45566;ip_ttl=32;
    mcast_send_buf_size=150000;mcast_recv_buf_size=80000):
    PING(timeout=2000;num_initial_members=6):
    MERGE2(min_interval=5000;max_interval=10000):
    FD_SOCK:VERIFY_SUSPECT(timeout=1500):
    pbcast.NAKACK(gc_lag=10;retransmit_timeout=3000):
    UNICAST(timeout=5000):
    pbcast.STABLE(desired_avg_gossip=20000):
    FRAG:
    pbcast.GMS(join_timeout=5000;join_retry_timeout=2000;
    shun=false;print_local_addr=true)"
    propertySeparator="::"
  />
  <cache name="sampleCacheAsync"
    maxEntriesLocalHeap="1000"
    eternal="false"
    timeToIdleSeconds="1000"
    timeToLiveSeconds="1000"
    overflowToDisk="false">
  <cacheEventListenerFactory
    class="net.sf.ehcache.distribution.jgroups.JGroupsCacheReplicatorFactory"
    properties="replicateAsynchronously=true, replicatePuts=true,
      replicateUpdates=true, replicateUpdatesViaCopy=false,
      replicateRemovals=true" />
  </cache>
</ehcache>

      

Common Problems

If replication using JGroups doesn’t work the way you have it configured try this configuration which has been extensively tested:

         <cacheManagerPeerProviderFactory class="net.sf.ehcache.distribution.jgroups.JGroupsCacheManagerPeerProviderFactory"/>
<cache name="sampleCacheAsync"
  maxEntriesLocalHeap="1000"
  eternal="false"
  timeToIdleSeconds="1000"
  timeToLiveSeconds="1000"
  overflowToDisk="false">
  <cacheEventListenerFactory
    class="net.sf.ehcache.distribution.jgroups.JGroupsCacheReplicatorFactory"
    properties="replicateAsynchronously=true, replicatePuts=true,
      replicateUpdates=true, replicateUpdatesViaCopy=false,
      replicateRemovals=true" />
</cache>

      

If this fails to replicate, see the example programs in the JGroups documentation.

Once you have figured out the connection string that works in your network for JGroups, you can directly paste it in the connect property of JGroupsCacheManagerPeerProviderFactory.