Znav | ||||
---|---|---|---|---|
|
This page shows how to create an Ice application with Java.
On this page:
Table of Contents | ||
---|---|---|
|
Compiling a Slice Definition for Java
The first step in creating our Java application is to compile our Slice definition to generate Java proxies and skeletons. Under Unix, you can compile the definition as follows:
Wiki Markup |
---|
{zcode} $ mkdir generated $ slice2java --output-dir generated Printer.ice {zcode} |
Info |
---|
Whenever we show Unix commands, we assume a Bourne or Bash shell. The commands for Windows are essentially identical and therefore not shown. |
The --output-dir
option instructs the compiler to place the generated files into the generated
directory. This avoids cluttering the working directory with the generated files. The slice2java
compiler produces a number of Java source files from this definition. The exact contents of these files do not concern us for now — they contain the generated code that corresponds to the Printer
interface we defined in Printer.ice
.
Ztop |
---|
Writing and Compiling a Server in Java
To implement our Printer
interface, we must create a servant class. By convention, a servant class uses the name of its interface with an I
-suffix, so our servant class is called PrinterI
and placed into a source file PrinterI.java
:
Wiki Markup |
---|
{zcode:java} public class PrinterI extends Demo._PrinterDisp { public void printString(String s, Ice.Current current) { System.out.println(s); } } {zcode} |
The PrinterI
class inherits from a base class called _PrinterDisp
, which is generated by the slice2java
compiler. The base class is abstract and contains a printString
method that accepts a string for the printer to print and a parameter of type Ice.Current
. (For now we will ignore the Ice.Current
parameter.) Our implementation of the printString
method simply writes its argument to the terminal.
The remainder of the server code is in a source file called Server.java
, shown in full here:
Wiki Markup |
---|
{zcode:java} public class Server { public static void main(String[] args) { int status = 0; Ice.Communicator ic = null; try { ic = Ice.Util.initialize(args); Ice.ObjectAdapter adapter = ic.createObjectAdapterWithEndpoints("SimplePrinterAdapter", "default -p 10000"); Ice.Object object = new PrinterI(); adapter.add(object, ic.stringToIdentity("SimplePrinter")); adapter.activate(); ic.waitForShutdown(); } catch (Ice.LocalException e) { e.printStackTrace(); status = 1; } catch (Exception e) { System.err.println(e.getMessage()); status = 1; } if (ic != null) { // Clean up // try { ic.destroy(); } catch (Exception e) { System.err.println(e.getMessage()); status = 1; } } System.exit(status); } } {zcode} |
Note the general structure of the code:
Wiki Markup |
---|
{zcode:java} public class Server { public static void main(String[] args) { int status = 0; Ice.Communicator ic = null; try { // Server implementation here... } catch (Ice.LocalException e) { e.printStackTrace(); status = 1; } catch (Exception e) { System.err.println(e.getMessage()); status = 1; } if (ic != null) { // Clean up // try { ic.destroy(); } catch (Exception e) { System.err.println(e.getMessage()); status = 1; } } System.exit(status); } } {zcode} |
The body of main
contains a try
block in which we place all the server code, followed by two catch
blocks. The first block catches all exceptions that may be thrown by the Ice run time; the intent is that, if the code encounters an unexpected Ice run-time exception anywhere, the stack is unwound all the way back to main
, which prints the exception and then returns failure to the operating system. The second block catches Exception
exceptions; the intent is that, if we encounter a fatal error condition somewhere in our code, we can simply throw an exception with an error message. Again, this unwinds the stack all the way back to main
, which prints the error message and then returns failure to the operating system.
Before the code exits, it destroys the communicator (if one was created successfully). Doing this is essential in order to correctly finalize the Ice run time: the program must call destroy
on any communicator it has created; otherwise, undefined behavior results.
The body of our try
block contains the actual server code:
Wiki Markup |
---|
{zcode:java} ic = Ice.Util.initialize(args); Ice.ObjectAdapter adapter = ic.createObjectAdapterWithEndpoints("SimplePrinterAdapter", "default -p 10000"); Ice.Object object = new PrinterI(); adapter.add(object, ic.stringToIdentity("SimplePrinter")); adapter.activate(); ic.waitForShutdown(); {zcode} |
The code goes through the following steps:
- We initialize the Ice run time by calling
Ice.Util.initialize
. (We passargs
to this call because the server may have command-line arguments that are of interest to the run time; for this example, the server does not require any command-line arguments.) The call toinitialize
returns anIce.Communicator
reference, which is the main object in the Ice run time. - We create an object adapter by calling
createObjectAdapterWithEndpoints
on theCommunicator
instance. The arguments we pass are"SimplePrinterAdapter"
(which is the name of the adapter) and"default -p 10000"
, which instructs the adapter to listen for incoming requests using the default protocol (TCP/IP) at port number 10000. - At this point, the server-side run time is initialized and we create a servant for our
Printer
interface by instantiating aPrinterI
object. - We inform the object adapter of the presence of a new servant by calling
add
on the adapter; the arguments toadd
are the servant we have just instantiated, plus an identifier. In this case, the string"SimplePrinter"
is the name of the servant. (If we had multiple printers, each would have a different name or, more correctly, a different object identity.) - Next, we activate the adapter by calling its
activate
method. (The adapter is initially created in a holding state; this is useful if we have many servants that share the same adapter and do not want requests to be processed until after all the servants have been instantiated.) - Finally, we call
waitForShutdown
. This call suspends the calling thread until the server implementation terminates, either by making a call to shut down the run time, or in response to a signal. (For now, we will simply interrupt the server on the command line when we no longer need it.)
Note that, even though there is quite a bit of code here, that code is essentially the same for all servers. You can put that code into a helper class and, thereafter, will not have to bother with it again. (Ice provides such a helper class, called Ice.Application
.) As far as actual application code is concerned, the server contains only a few lines: seven lines for the definition of the PrinterI
class, plus three lines to instantiate a PrinterI
object and register it with the object adapter.
We can compile the server code as follows:
Wiki Markup |
---|
{zcode} $ mkdir classes $ javac -d classes -classpath classes:$ICE_HOME/lib/Ice.jar \ Server.java PrinterI.java generated/Demo/*.java {zcode} |
This compiles both our application code and the code that was generated by the Slice compiler. We assume that the ICE_HOME
environment variable is set to the top-level directory containing the Ice run time. (For example, if you have installed Ice in /opt/Ice
, set ICE_HOME
to that path.) Note that Ice for Java uses the ant
build environment to control building of source code. (ant
is similar to make
, but more flexible for Java applications.) You can have a look at the demo code that ships with Ice to see how to use this tool.
Ztop |
---|
Writing and Compiling a Client in Java
The client code, in Client.java
, looks very similar to the server. Here it is in full:
Wiki Markup |
---|
{zcode} public class Client { public static void main(String[] args) { int status = 0; Ice.Communicator ic = null; try { ic = Ice.Util.initialize(args); Ice.ObjectPrx base = ic.stringToProxy("SimplePrinter:default -p 10000"); Demo.PrinterPrx printer = Demo.PrinterPrxHelper.checkedCast(base); if (printer == null) throw new Error("Invalid proxy"); printer.printString("Hello World!"); } catch (Ice.LocalException e) { e.printStackTrace(); status = 1; } catch (Exception e) { System.err.println(e.getMessage()); status = 1; } if (ic != null) { // Clean up // try { ic.destroy(); } catch (Exception e) { System.err.println(e.getMessage()); status = 1; } } System.exit(status); } } {zcode} |
Note that the overall code layout is the same as for the server: we use the same try
and catch
blocks to deal with errors. The code in the try
block does the following:
- As for the server, we initialize the Ice run time by calling
Ice.Util.initialize
. - The next step is to obtain a proxy for the remote printer. We create a proxy by calling
stringToProxy
on the communicator, with the string"SimplePrinter:default -p 10000"
. Note that the string contains the object identity and the port number that were used by the server. (Obviously, hard-coding object identities and port numbers into our applications is a bad idea, but it will do for now; we will see more architecturally sound ways of doing this when we discuss IceGrid.) - The proxy returned by
stringToProxy
is of typeIce.ObjectPrx
, which is at the root of the inheritance tree for interfaces and classes. But to actually talk to our printer, we need a proxy for aPrinter
interface, not anObject
interface. To do this, we need to do a down-cast by callingPrinterPrxHelper.checkedCast
. A checked cast sends a message to the server, effectively asking "is this a proxy for aPrinter
interface?" If so, the call returns a proxy of typeDemo::Printer
; otherwise, if the proxy denotes an interface of some other type, the call returns null. - We test that the down-cast succeeded and, if not, throw an error message that terminates the client.
- We now have a live proxy in our address space and can call the
printString
method, passing it the time-honored"Hello World!"
string. The server prints that string on its terminal.
Compiling the client looks much the same as for the server:
Wiki Markup |
---|
{zcode} $ javac -d classes -classpath classes:$ICE_HOME/lib/Ice.jar \ Client.java PrinterI.java generated/Demo/*.java {zcode} |
Ztop |
---|
Running Client and Server in Java
To run client and server, we first start the server in a separate window:
Wiki Markup |
---|
{zcode} $ java Server {zcode} |
At this point, we won't see anything because the server simply waits for a client to connect to it. We run the client in a different window:
Wiki Markup |
---|
{zcode} $ java Client $ {zcode} |
The client runs and exits without producing any output; however, in the server window, we see the "Hello World!"
that is produced by the printer. To get rid of the server, we interrupt it on the command line for now. (We will see cleaner ways to terminate a server in our discussion of Ice.Application
.)
If anything goes wrong, the client will print an error message. For example, if we run the client without having first started the server, we get something like the following:
Wiki Markup |
---|
{zcode} Ice.ConnectionRefusedException error = 0 at IceInternal.ConnectRequestHandler.getConnection(ConnectRequestHandler.java:240) at IceInternal.ConnectRequestHandler.sendRequest(ConnectRequestHandler.java:138) at IceInternal.Outgoing.invoke(Outgoing.java:66) at Ice._ObjectDelM.ice_isA(_ObjectDelM.java:30) at Ice.ObjectPrxHelperBase.ice_isA(ObjectPrxHelperBase.java:111) at Ice.ObjectPrxHelperBase.ice_isA(ObjectPrxHelperBase.java:77) at Demo.HelloPrxHelper.checkedCast(HelloPrxHelper.java:228) at Client.run(Client.java:65) Caused by: java.net.ConnectException: Connection refused ... {zcode} |
Note that, to successfully run client and server, your CLASSPATH
must include the Ice library and the classes directory, for example:
Wiki Markup |
---|
{zcode} $ export CLASSPATH=$CLASSPATH:./classes:$ICE_HOME/lib/Ice.jar {zcode} |
Please have a look at the demo applications that ship with Ice for the details for your platform.
Ztop |
---|
See Also
- Client-Side Slice-to-Java Mapping
- Server-Side Slice-to-Java Mapping
- The
Ice.Application
Class - The Current Object
- IceGrid
Zret |
---|
Znav | ||||
---|---|---|---|---|
|