JGroups - A Framework for Group Communication in Java
March 3, 1998
4114 Upson Hall
Ithaca, NY 14853
JGroups is a Java library for reliable group communication. It
consists of 3 parts: (1) a socket-like API for application
development, (2) a protocol stack, which implements reliable
communication, and (3) a set of building blocks, which give the
developer high-level abstractions (e.g. ReplicatedHashMap, an
implementation of java.util.Map.
The API (a channel) looks like a socket: there are methods for joining
and leaving groups, sending and receiving messages,
getting the shared group state, and registering for notifications when
a member joins, or an existing member leaves or crashes.
The protocol stack is a list of protocols, through which each
message passes. Each protocol implements an up() and down()
method, and may modify, reorder, encrypt, fragment/unfragment, drop,
or pass a message up/down. The protocol stack is created
according to a specification given when a channel is created. New
protocols can be plugged into the stack easily.
Building blocks hide the channel and provide a higher abstraction.
Example: ReplicatedHashMap implements java.util.Mapand implements
all methods that change the map (clear(), put(), remove()).
Those methods are invoked on all hashmap instances in the same group
simultaneously, so that all hashmaps have the same state.
A new hashmap uses a state transfer protocol to initially obtain
the shared group state from an existing member. This allows for
replication of data structures across processes.
Group communication is important in the following situations:
- A service has to be replicated for availability. As long as at
least one of the servers remains operational, the service itself
- Service requests have to be balanced between a set of servers
- A large number of objects have to be managed as one entity (e.g. a
- Notification service / push technology: receivers subscribe to a
channel, senders send data to the channels, channels distribute
data to all receivers subscribed to the channel.
Used for example for video distribution, videoconferencing
JGroups deliberately models a rather low-level message-oriented
middleware (MOM) model. The reason is that we don't want to impose a
one-size-fits-all model on the programmer, who usually will want to
extend the model in various (previously unconceived) ways anyway.
Providing low level Java classes allows the programmer to
extend/replace classes at will, as the granularity of the system is