Spec-Zone .ru
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Setup
ProgramThis tutorial describes how to write a program that registers an
activation descriptor for a remote object with the
JavaTM Remote Method Invocation
(Java RMI) activation system daemon (rmid
) and then
binds a stub for that remote object in an rmiregistry
so that clients can look it up.
This tutorial has the following steps:
The files needed for this tutorial are:Setup.java
- main
Setup
programsetup.policy
-
security policy file for the Setup
programrmid.policy
-
security policy file for rmid
group.policy
-
security policy file for the activation groupSetup
programThe
Setup
program, implemented by the classexamples.activation.Setup
, registers an activation descriptor withrmid
to enable future activation of the object specified by that activation descriptor. This program does not create an instance of a remote object, but instead registers a remote object's stub with anrmiregistry
so that clients can look it up. ThisSetup
program must be run prior to running any of the clients described in the other activation tutorials.The
Setup
program uses a number of system properties to customize the information that is registered withrmid
andrmiregistry
. The program also takes a single command-line argument that specifies the package-qualified name of the implementation class for the activatable remote object being registered. TheSetup
program is run as follows:java -cp classpath \ -Djava.security.policy=setup.policy \ -Djava.rmi.server.codebase=codebase \ -Dexamples.activation.setup.codebase=setupCodebase \ -Dexamples.activation.impl.codebase=implCodebase \ -Dexamples.activation.name=name \ [-Dexamples.activation.file=filename] \ [-Dexamples.activation.policy=group.policy] \ examples.activation.Setup implClasswhere:
- classpath is a class path that includes the
Setup
program and the implementation classes- setup.policy is the security policy file for the
Setup
program- codebase is the location (URL) of the remote interface class(es)
- setupCodebase is the location (URL) the
Setup
program class (used in granting permissions to theSetup
program in the setup.policy file)- implCodebase is the location (URL) of the implementation class(es), used in the activation descriptor and also used in the group policy file as the codebase to grant permissions to
- name is the name for the object's stub to be bound in the registry
- file (optional) is the name of a file containing the object's persistent state which is registered as the data in the object's activation descriptor (no default)
- group.policy (optional) is the security policy file for the activation group (defaults to
group.policy
), and- implClass is the fully-qualified name of the
- implementation class.
The following is an example policy file for the
Setup
program:grant codeBase "${examples.activation.setup.codebase}" { // permissions to read system properties required by setup program permission java.util.PropertyPermission "examples.activation.impl.codebase","read"; permission java.util.PropertyPermission "examples.activation.policy","read"; permission java.util.PropertyPermission "examples.activation.file","read"; permission java.util.PropertyPermission "examples.activation.name","read"; // permission to connect to the activation system and the registry permission java.net.SocketPermission "*:1098-1099","connect"; };The codebase to which permissions are granted is a URL specifying the location of the
Setup
program's implementation class(es). This URL is the value of theexamples.activation.setup.codebase
system property, which is defined when theSetup
program is run. TheSetup
program needs the following permissions:
java.util.PropertyPermission
- to read various system properties required by theSetup
programjava.net.SocketPermission
- to connect to the activation system (port1098
) to register an activation descriptor, and to connect to the registry (port1099
) to bind the activatable object's stub to a nameThere are several steps to writing this
Setup
program:
- Construct an activation group descriptor
- Register the group descriptor
- Construct an activation descriptor
- Register the activation descriptor, and finally,
- Bind the remote object's stub in an
rmiregistry
The
Setup
class has a staticmain
method that performs all of the above steps. But before doing so, themain
method sets aSecurityManager
and obtains the single command line argument that specifies the package-qualified name of the implementation class for the activatable remote object. The rest of the steps are described below. SeeSetup.java
for the full source code.Construct an activation group descriptor
Before an application registers information about a particular activatable remote object, it first needs to register information about the activation group that the object will be contained in. An activation group is a container virtual machine (VM) for a set of activatable objects. Each activation group manages the execution of one or more activatable objects. An activation group descriptor contains information that the activation system needs to start an activation group's VM. An application can register an activation group descriptor with the activation system
rmid
to obtain an activation group ID to use for the activatable object, or the application can use an activation group ID obtained from a previous group registration.The activation group descriptor, an instance of the class
java.rmi.activation.ActivationGroupDesc
, can be constructed in several ways. This tutorial uses the two parameter constructorActivationGroupDesc(Properties,CommandEnvironment)
. TheProperties
map contains overrides for system properties in the activation group VM. For this tutorial, an activation group VM needs the following system properties defined:
java.security.policy
- the group's security policy filejava.class.path
- a dummy class path to prevent an activation group from loading implementation classes from the local class pathexamples.activation.impl.codebase
- the location of the implementation classes, which the group's policy file uses to grant permissions toexamples.activation.file
- a file containg the object's persistent stateThe
java.security.policy
property is specified by theexamples.activation.policy
system property, and defaults to the file namedgroup.policy
which will, in practice, be in the working directory wherermid
is run. Thejava.class.path
property is defined asno_classpath
. Theexamples.activation.impl.codebase
andexamples.activation.file
properties are specified by their current values (respectively), defined when theSetup
program runs.The group descriptor is constructed as follows:
String policy = System.getProperty("examples.activation.policy", "group.policy"); String implCodebase = System.getProperty("examples.activation.impl.codebase"); String filename = System.getProperty("examples.activation.file", ""); Properties props = new Properties(); props.put("java.security.policy", policy); props.put("java.class.path", "no_classpath"); props.put("examples.activation.impl.codebase", implCodebase); if (filename != null && !filename.equals("")) { props.put("examples.activation.file", filename); } ActivationGroupDesc groupDesc = new ActivationGroupDesc(props, null);The following is an example
group.policy
file that grants the appropriate permissions for the activation examples:grant codeBase "${examples.activation.impl.codebase}" { // permission to read and write object's file permission java.io.FilePermission "${examples.activation.file}","read,write"; // permission to listen on an anonymous port permission java.net.SocketPermission "*:1024-","accept"; };The codebase to which permissions are granted is a URL specifying the location of the activatable object's implementation classes. This URL is the value of the
examples.activation.impl.codebase
system property, which will be defined in the activation group's VM. An activatable object in the group needs two permissions:
java.io.FilePermission
- to read and write the file containing the activatable object's persistent statejava.net.SocketPermission
- to export the activatable object to accept connections an anonymous portRegister the group descriptor
Next, theSetup
program must register the activation group descriptor with the activation system to obtain the group's ID, an instance of the classjava.rmi.activation.ActivationGroupID
. The classjava.rmi.activation.ActivationGroup
has a static methodgetSystem
for obtaining the stub for the activation system. TheSetup
program calls the activation system's remote methodregisterGroup
, passing the group descriptor created above, to register the activation group:ActivationGroupID groupID = ActivationGroup.getSystem().registerGroup(groupDesc);Construct an activation descriptor
Once the activation group ID is obtained, the
Setup
program can register the activation descriptor. The activation descriptor has four basic pieces of information:
- the activation group ID for the group that the object will be contained in
- the implementation's class name
- the location (URL) specifying where the implementation's classes can be loaded from
- a marshalled object containing initialization information for the object
In this example, the activation group ID is the one obtained above; the implementation's class name is the class name, implClass, supplied as the command-line argument to the
Setup
program; the location (URL) is specified by the system propertyexamples.activation.impl.codebase
; and, the initialization data (which is optional) is a filename specified by the system propertyexamples.activation.file
.The activation descriptor is constructed as follows:
MarshalledObject data = null; if (filename != null && !filename.equals("")) { data = new MarshalledObject(filename); } ActivationDesc desc = new ActivationDesc(groupID, implClass, implCodebase, data);Register the activation descriptor
Next, the
Setup
program must register the activation descriptor with the activation system. The classActivatable
has a static convenience method,register
, that registers an activation descriptor with the activation system and returns a stub for the activatable object specified by the descriptor.Remote stub = Activatable.register(desc);Note: The
register
method attempts to load a stub class for the implementation class in order to create a stub instance. If your activatable object needs to support pre-5.0 clients, you will need usermic
to pregenerate a stub class for the implementation class. If your activatable object does not need to support pre-5.0 clients, then there is no need to pregenerate a stub class for the implementation class. If theregister
method is unable to load a pregenerated stub class, it will use an instance of a dynamically-generated proxy class that implements all the interfaces of the implementation class. In the latter case theregister
method needs load the implementation class in order to determine the remote interfaces that the implementation class implements. So, theregister
method has a slight behavioral difference, depending on whether a pregenerated or dynamically-generated stub class is used.Bind the remote object's stub in a
rmiregistry
Finally, the remote object's stub is bound to a name in the registry running on the default port of
1099
. The name is specified by the system propertyexamples.activation.name
.String name = System.getProperty("examples.activation.name"); LocateRegistry.getRegistry().rebind(name, stub);
The source file for this example can be compiled as follows:
where setupDir is the root destination directory to put the class files in.javac -d setupDir Setup.java
rmid
,
rmiregistry
, and the Setup
programTo run this the
Setup
program, you will need to do the following:Start
rmid
To start
rmid
, run thermid
command on the server's host. This command should produce no output if it is run with a security policy file as specified below. For more information, see the tools documentation forrmid
[Solaris, Windows].For example, in the Solaris Operating System:
rmid -J-Djava.security.policy=rmid.policy \ -J-Dexamples.activation.policy=group.policy &Or, on Windows platforms:
start rmid -J-Djava.security.policy=rmid.policy \ -J-Dexamples.activation.policy=group.policywhere:
- rmid.policy is the security policy file for
rmid
- group.policy is the group policy file, used in
rmid
's policy fileThe security policy file for
rmid
grants permissions forrmid
to execute specific commands and to use specific command-line options in starting activation group VMs. For example, a user might grant specific permissions to start an activation group VM with one or more system properties or otherjava
command-line options. This example allowsrmid
to start activation group VMs that define the system propertiesjava.security.policy
,java.class.path
,examples.activation.impl.codebase
, andexamples.activation.file
. The following example security policy file grants permission to start an activation group VM with these specific properties defined:grant { // allow activation groups to use certain system properties permission com.sun.rmi.rmid.ExecOptionPermission "-Djava.security.policy=${examples.activation.policy}"; permission com.sun.rmi.rmid.ExecOptionPermission "-Djava.class.path=no_classpath"; permission com.sun.rmi.rmid.ExecOptionPermission "-Dexamples.activation.impl.codebase=*"; permission com.sun.rmi.rmid.ExecOptionPermission "-Dexamples.activation.file=*"; };The first
ExecOptionPermission
permission grant restricts thejava.security.policy
system property to be the file specified by the system propertyexamples.activation.policy
, defined whenrmid
is run. The next permission grant allows a group to define the system propertyjava.class.path
asno_classpath
, a dummy class path that prevents the group from having a valid class path. The next permission grant allows the group to define the system propertyexamples.activation.impl.codebase
to be any value. The final permission grant allows theexamples.activation.file
system property to be any value.Start
rmiregistry
To start the registry, run the
rmiregistry
command on the server's host. This command produces no output (when successful) and is typically run in the background. For more information, see the tools documentation forrmiregistry
[Solaris, Windows].For example, in the Solaris Operating System:
rmiregistry &Or, on Windows platforms:
start rmiregistryBy default, the registry runs on TCP port 1099. To start a registry on a different port, specify the port number from the command line. For example, to start the registry on port 2001 on a Windows platform:
start rmiregistry 2001Note: Make sure that
rmiregistry
does not have any implementation classes in its class path to prevent it from loading any classes from its local class path.If the registry will be running on a port other than 1099, you'll need to specify the port number in the calls to
LocateRegistry.getRegistry
in theSetup
program, as well as any clients that access this registry. For example, if the registry is running on port 2001 in this example, the call togetRegistry
would be:Registry registry = LocateRegistry.getRegistry(2001);Also note that if you use a registry port other than
1099
, you will also need to modify theSetup
and client program's policy files to grant permission to connect to the registry's port.Run the
Setup
programTo start the
Setup
program, run theSetup
class using thejava
command as follows:java -cp setupDir:implDir \ -Djava.security.policy=setup.policy \ -Djava.rmi.server.codebase=codebase \ -Dexamples.activation.setup.codebase=setupCodebase \ -Dexamples.activation.impl.codebase=implCodebase \ -Dexamples.activation.name=name \ [-Dexamples.activation.file=file] \ [-Dexamples.activation.policy=group.policy] \ examples.activation.Setup implClasswhere:
- setupDir is the root directory for the
Setup
program's class- implDir is the root directory for the implementation's classes
- setup.policy is the security policy file for the
Setup
program- codebase is the location (URL) of the remote interface class(es)
- setupCodebase is the location (URL) the
Setup
program class (used in granting permissions to theSetup
program in the setup.policy file)- implCodebase is the location (URL) of the implementation class(es), used in the activation descriptor and also used in the group policy file as the codebase to grant permissions to
- name is the name for the object's stub to be bound in the registry
- file (optional) is the name of a file containing the object's persistent state which is registered as the
data
in the object's activation descriptor (no default)- group.policy (optional) is the security policy file for the activation group (defaults to
group.policy
), and- implClass is the fully-qualified name of the implementation class.
Note: If you use file URLs for any of the codebases listed above, make sure that each file URL has a trailing slash, or the codebase will be invalid.
The output from the
Setup
program should look like this:Activation group descriptor registered. Activation descriptor registered. Stub bound in registry.
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