When creating a new POA, the application developer may declare specific policy choices for the new POA and provide a different adapter activator and servant manager (these are callback objects used by the POA to activate POAs on demand and activate servants). Creating new POAs also allows the application developer to partition the name space of objects, as Object Ids are interpreted relative to a POA. Finally, by creating new POAs, the developer can independently control request processing for multiple sets of objects.
A Servant Activator is a type of Servant Manager. Servant Managers are optional. You would use a servant manager to allow the POA to activate servants on demand when a request for an inactive object is received. If your server loads all objects when it starts up, you do not need a servant manager.
A servant manager is a callback object that the application developer can associate with a POA. The ORB will invoke operations on servant managers to activate servants on demand, and to deactivate servants. Servant managers are responsible for managing the association of an object reference (as characterized by its Object Id value) with a particular servant, and for determining whether an object reference exists or not. Each servant manager type contains two operations, the first called to find and return a servant and the second to deactivate a servant. The operations differ according to the amount of information usable for their situation.
To use servant managers, the USE_SERVANT_MANAGER
policy must be set. Once set, the type of servant manager used in a
particular situation depends on other policies in the POA. The two
types of servant managers are:
ServantActivator
When the POA has the RETAIN
policy, it uses servant
managers that are ServantActivators
. A
ServantActivator
always results in an entry in the
Active Object Map. The servant is then used until it is
deactivated. A servant can be deactivated by destroying the POA,
the POA Manager, or the ORB, or by an explicit
deactivate
call.
ServantLocator
When the POA has the NON_RETAIN
policy, it uses
servant managers that are ServantLocators
. Because the
POA knows that the servant returned by this servant manager will be
used only for a single request, it can supply extra information to
the servant manager's operations and the servant manager's pair of
operations may be able to cooperate to do something different than
a ServantActivator
. When the POA uses the
ServantLocator
interface, immediately after performing
the operation invocation on the servant returned by preinvoke, the
POA will invoke postinvoke on the servant manager, passing the
ObjectId value and the Servant value as parameters (among others).
This feature may be used to force every request for objects
associated with a POA to be mediated by the servant manager.
The following example code shows an application that uses Servant Locators to enable the POA to activate transient objects. This application builds on the "Hello World" example. The following files are included for your information:
import org.omg.CORBA.ORB; import org.omg.CosNaming.*; public class Client { public Client(String[] args) { try { ORB orb = ORB.init(args, System.getProperties()); NamingContext rootContext = NamingContextHelper.narrow( orb.resolve_initial_references("NameService")); // Resolves for remote object reference of HelloServer NameComponent name[] = {new NameComponent("HelloServer", "")}; Hello helloRef = HelloHelper.narrow(rootContext.resolve(name)); System.out.println("\nClient: Obtained the remote object " + "reference"); // Invokes the remote sayHello() method System.out.println("Client: Invoking the remote operation ..."); System.out.println(helloRef.sayHello()); } catch (Exception e) { System.err.println("\nClient: Caught exception - " + e); e.printStackTrace(); } } public static void main(String [] args) { Client servantLocatorClient = new Client(args); } }
import org.omg.CORBA.*; import org.omg.PortableServer.*; import org.omg.PortableServer.ServantLocatorPackage.*; import org.omg.CosNaming.*; public class Server { public Server(String[] args) { try { ORB orb = ORB.init(args, System.getProperties()); POA rootPoa = (POA) orb.resolve_initial_references("RootPOA"); rootPoa.the_POAManager().activate(); System.out.println("\nServer: Obtained from ORB and activated " + "the " + rootPoa.the_name()); Policy poaPolicy[] = new Policy[2]; poaPolicy[0] = rootPoa.create_servant_retention_policy( ServantRetentionPolicyValue.NON_RETAIN); poaPolicy[1] = rootPoa.create_request_processing_policy( RequestProcessingPolicyValue.USE_SERVANT_MANAGER); System.out.println("Server: Set POA policy as NON_RETAIN and " + "USE_SERVANT_MANAGER"); POA poa1 = rootPoa.create_POA("HelloPoa", null, poaPolicy); poa1.the_POAManager().activate(); System.out.println("Server: Created and activated child POA " + "\"" + poa1.the_name() + "\""); poa1.set_servant_manager(new PoaServantLocator()); System.out.println("Server: Associated the servant manager of " + "type servant locator with \"" + poa1.the_name() + "\""); // This create_reference operation does not cause an activation, // the resulting object reference will be exported and passed to // client, so that subsequent requests on the reference will cause // the appropriate servant manager to be invoked org.omg.CORBA.Object objectRef = poa1.create_reference( HelloHelper.id()); System.out.println("Server: Created a CORBA object reference " + "from id \"" + HelloHelper.id() + "\""); NamingContext rootContext = NamingContextHelper.narrow( orb.resolve_initial_references("NameService")); NameComponent name[] = {new NameComponent("HelloServer", "")}; rootContext.rebind(name, objectRef); System.out.println("Server: Exported the CORBA object reference " + "to NameService"); System.out.println("Server: Ready and waiting for requests ..."); orb.run(); } catch (Exception e) { System.err.println("\nServer: Caught exception - " + e); e.printStackTrace(); } } public static void main(String [] args) { Server serverServantLocator = new Server(args) ; } } class PoaServantLocator extends LocalObject implements ServantLocator { public Servant preinvoke(byte[] oid, POA adapter, String operation, CookieHolder the_cookie) throws ForwardRequest { try { HelloImpl servantObj = new HelloImpl(); System.out.println("PoaServantLocator.preinvoke(): Created \"" + servantObj.getClass().getName() + "\" " + "servant object for \"" + adapter.the_name() + "\""); return servantObj; } catch (Exception e) { System.err.println("preinvoke: Caught exception - " + e); } return null; } public void postinvoke(byte[] oid, POA adapter, String operation, java.lang.Object the_cookie, Servant the_servant) { try { System.out.println("PoaServantLocator.postinvoke(): For \"" + adapter.the_name() + "\" adapter of servant " + "object type \"" + the_servant.getClass().getName() + "\""); } catch (Exception e) { System.err.println("postinvoke: Caught exception - " + e); } } }
interface Hello { string sayHello(); };
public class HelloImpl extends HelloPOA { public String sayHello() { return "Hello :)"; } }
IDLJ=${JAVA_HOME}/bin/idlj JAVAC=${JAVA_HOME}/bin/javac JAVA=${JAVA_HOME}/bin/java CLASSFILES=./classes_dir IDLJFLAGS=-fall -verbose -td ${CLASSFILES} JFLAGS=-g -d $(CLASSFILES) -classpath $(CLASSFILES) JAVAFLAGS=-cp $(CLASSFILES) -Dorg.omg.CORBA.ORBInitialHost=localhost \ -Dorg.omg.CORBA.ORBInitialPort=1950 ORBD_FLAGS=-port 1949 -ORBInitialHost ${SERVER_HOSTNAME} \ -ORBInitialPort 1950 -ORBDebug ORBD=${JAVA_HOME}/bin/orbd $(ORBD_FLAGS) orbd client = Client.java server = HelloImpl.java \ Server.java all: clean build run clean: @echo "" @echo "*** Clean up old files and directories ***" -$(RM) $(CLASSFILES) -$(RM) ./orb.db -$(RM) ./kill_started_processes.sh build: stubs client_server stubs: Hello.idl @echo "" @echo "*** Generate stubs and helpers ***" @-$(MKDIR) $(CLASSFILES) $(IDLJ) $(IDLJFLAGS) Hello.idl client_server: $(client) $(server) @echo "" @echo "*** Compile client, server and implementation ***" $(JAVAC) $(JFLAGS) $(client) $(server) run: run_orbd run_server run_client terminate_servers run_orbd: @echo "" @echo "*** Start the orbd ***" $(ORBD) & \ echo "kill -9 $$!" > ./kill_started_processes.sh; \ if [ $(OS) = "WinNT" ] ; then \ tpid=`ps -o pid,ppid,comm | grep $$! | grep -v "sh" | cut -c1-6` ; \ echo "kill -9 $$tpid" >> ./kill_started_processes.sh ; \ fi ; \ $(SLEEP) $(SLEEP_LONG) run_server: run_orbd @echo "" @echo "*** Start the Server ***" $(JAVA) $(JAVAFLAGS) Server & \ echo "kill -9 $$!" >> ./kill_started_processes.sh; \ if [ $(OS) = "WinNT" ] ; then \ tpid=`ps -o pid,ppid,comm | grep $$! | grep -v "sh" | cut -c1-6` ; \ echo "kill -9 $$tpid" >> ./kill_started_processes.sh ; \ fi ; \ $(SLEEP) $(SLEEP_NORMAL) run_client: @echo "" @echo "*** Start the Client ***" $(JAVA) $(JAVAFLAGS) Client terminate_servers: @echo "" @echo "*** Terminate the Server and orbd ***" @$(SLEEP) $(SLEEP_SHORT) @if [ -f ./kill_started_processes.sh ]; then \ $(CHMOD) u+x ./kill_started_processes.sh; \ ./kill_started_processes.sh; \ $(SLEEP) $(SLEEP_SHORT) ; \ fi
#!/bin/ksh if [ `uname` = "OpenOS" ] ; then OS="Solaris_sparc" JAVA_HOME=/path_to_your_java_installation SEP=: SLEEP=/bin/sleep RM="/bin/rm -rf" CHMOD=/bin/chmod MKDIR=/bin/mkdir SLEEP_SHORT=2 SLEEP_NORMAL=5 SLEEP_LONG=7 elif [ `uname` = "Windows_NT" ] ; then OS="WinNT" if [ ! -d "y:/path_to_your_java_installation" ] ; then echo; echo "Please map drive y: to \\\\\path_to_your_java_installation before runSample" exit 1 fi JAVA_HOME="y:/path_to_your_java_installation" SEP=";" SLEEP=sleep RM="rm -rf" CHMOD=chmod MKDIR="mkdir -p" SLEEP_SHORT=5 SLEEP_NORMAL=10 SLEEP_LONG=15 fi while [ $# -gt 0 ] ; do case $1 in -host ) SERVER_HOSTNAME=$2 ; shift;; * ) TARGET=$* ; break ;; esac shift done DEFAULT_HOSTNAME=localhost SERVER_HOSTNAME=${HOSTNAME-$DEFAULT_HOSTNAME} make ${TARGET} \ "OS=${OS}" \ "JAVA_HOME=${JAVA_HOME}" \ "SERVER_HOSTNAME=${SERVER_HOSTNAME}" \ "SLEEP=${SLEEP}" \ "RM=${RM}" \ "CHMOD=${CHMOD}" \ "MKDIR=${MKDIR}" \ "SLEEP_SHORT=${SLEEP_SHORT}" \ "SLEEP_NORMAL=${SLEEP_NORMAL}" \ "SLEEP_LONG=${SLEEP_LONG}"
To run this example,
runSample
.You will see output generated to the terminal window similar to that below:
*** Clean up old files and directories *** /bin/rm -rf ./classes_dir /bin/rm -rf ./orb.db /bin/rm -rf ./kill_started_processes.sh *** Generate stubs and helpers *** /path_to_your_java_installation/bin/idlj -fall -verbose -td ./classes_dir Hello.idl Parsing Hello.idl done - Hello.idl Generating Hello done - Hello *** Compile client, server and implementation *** /path_to_your_java_installation/bin/javac -g -d ./classes_dir -classpath ./classes_dir Client.java HelloImpl.java Server.java *** Start the orbd *** /path_to_your_java_installation/bin/orbd -port 1949 -ORBInitialHost localhost -ORBInitialPort 1950 -ORBDebug orbd & \ echo "kill -9 $!" > ./kill_started_processes.sh; \ if [ Solaris_sparc = "WinNT" ] ; then \ tpid=`ps -o pid,ppid,comm | grep $! | grep -v "sh" | cut -c1-6` ; \ echo "kill -9 $tpid" >> ./kill_started_processes.sh ; \ fi ; \ /bin/sleep 7 ORBD begins initialization. ORBD is ready. ORBD serverid: 1 activation dbdir: /home/dcarson1/samples/POA_samples/ServantLocator/./orb.db activation port: 1949 activation Server Polling Time: 1000 milli-seconds activation Server Startup Delay: 1000 milli-seconds *** Start the Server *** /path_to_your_java_installation/bin/java -cp ./classes_dir -Dorg.omg.CORBA.ORBInitialHost=localhost -Dorg.omg.CORBA.ORBInitialPort=1950 Server & \ echo "kill -9 $!" >> ./kill_started_processes.sh; \ if [ Solaris_sparc = "WinNT" ] ; then \ tpid=`ps -o pid,ppid,comm | grep $! | grep -v "sh" | cut -c1-6` ; \ echo "kill -9 $tpid" >> ./kill_started_processes.sh ; \ fi ; \ /bin/sleep 5 Server: Obtained from ORB and activated the RootPOA Server: Set POA policy as NON_RETAIN and USE_SERVANT_MANAGER Server: Created and activated child POA "HelloPoa" Server: Associated the servant manager of type servant locator with "HelloPoa" Server: Created a CORBA object reference from id "IDL:Hello:1.0" Server: Exported the CORBA object reference to NameService Server: Ready and waiting for requests ... *** Start the Client *** /path_to_your_java_installation/bin/java -cp ./classes_dir -Dorg.omg.CORBA.ORBInitialHost=localhost -Dorg.omg.CORBA.ORBInitialPort=1950 Client Client: Obtained the remote object reference Client: Invoking the remote operation ... PoaServantLocator.preinvoke(): Created "HelloImpl" servant object for "HelloPoa" PoaServantLocator.postinvoke(): For "HelloPoa" adapter of servant object type "HelloImpl" Hello :) *** Terminate the Server and orbd ***
For more information on Servant Locators, see the section on Servant Managers in section 11.3.4 of the CORBA 2.3.1 Specification.