Since 1994, the Java programming language evolved and became a
valid tool to develop, other than applets and client applications,
reliable and performant server applications. The major disadvantage of
the Java platform is that still today the only portable way to
start a Java application relies on a single point of entry: the
public static void
main(String[]) method.
Having a single-point of entry is a valid solution for client
applications, where interactively a user can command to the application
to quit (which can terminate the Virtual Machine process at calling the
System.exit(int)
method), but in those cases where the application is not interactive
(server applications) there is currently no portable way to notify
the Virtual Machine of its imminent shutdown.
A server application written in Java might have to perform several tasks before being able to shutdown the Virtual Machine process. For example in the case of a Servlet container, before the VM process is shut down, sessions might need to be serialized to disk, and web applications need to be destroyed.
One common solution to this problem is to create (for example) a
ServerSocket and wait for a particular
message to be issued. When the message is received, all operations
required to shut down the server applications are performed and at the
end the System.exit method is called
to terminate the Virtual Machine process. This method, however, implies
several disadvantages and risks: for example in case of a system-wide
shutdown, it might happen that the Virtual Machine process will be shut
down directly by the operating system, without notifying the running
server application. Or, for example, if an attacker finds out what is
the required message to send to the server, and discovers a way to send
this message to the running server application, he can easily interrupt
the operation of a server, bypassing all the security restrictions
implemented in the operating system.
Most multi-user operating systems already have a way in which server applications are started and stopped, under Unix based operating systems non interactive server applications are called daemons and are controlled by the operating system with a set of specified signals. Under Windows such programs are called services and are controlled by appropriate calls to specific functions defined in the application binary, but although the ways of dealing with the problem are different, in both cases the operating system can notify a server application of its imminent shutdown, and the application has the ability to perform certain tasks before its process of execution is destroyed.
Daemon is made of 2 parts. One written in C that makes the interface to the operating system and the other in Java that provides the Daemon API.