Condor allows users to access a wide variety of machines distributed around the world. The Java Virtual Machine (JVM) provides a uniform platform on any machine, regardless of the machine's architecture or operating system. The Condor Java universe brings together these two features to create a distributed, homogeneous computing environment.
Compiled Java programs can be submitted to Condor, and Condor can execute the programs on any machine in the pool that will run the Java Virtual Machine.
The condor_status command can be used to see a list of machines in the pool for which Condor can use the Java Virtual Machine.
% condor_status -java Name JavaVendor Ver State Activity LoadAv Mem ActvtyTime adelie01.cs.wisc.e Sun Micros 1.6.0_ Claimed Busy 0.090 873 0+00:02:46 adelie02.cs.wisc.e Sun Micros 1.6.0_ Owner Idle 0.210 873 0+03:19:32 slot10@bio.cs.wisc Sun Micros 1.6.0_ Unclaimed Idle 0.000 118 7+03:13:28 slot2@bio.cs.wisc. Sun Micros 1.6.0_ Unclaimed Idle 0.000 118 7+03:13:28 ...
If there is no output from the condor_status command, then Condor does not know the location details of the Java Virtual Machine on machines in the pool, or no machines have Java correctly installed. In this case, contact your system administrator or see section 3.13 for more information on getting Condor to work together with Java.
Here is a complete, if simple, example. Start with a simple Java program, Hello.java:
public class Hello { public static void main( String [] args ) { System.out.println("Hello, world!\n"); } }
Build this program using your Java compiler. On most platforms, this is accomplished with the command
javac Hello.java
Submission to Condor requires a submit description file. If submitting where files are accessible using a shared file system, this simple submit description file works:
#################### # # Example 1 # Execute a single Java class # #################### universe = java executable = Hello.class arguments = Hello output = Hello.output error = Hello.error queue
The Java universe must be explicitly selected.
The main class of the program is given in the executable statement. This is a file name which contains the entry point of the program. The name of the main class (not a file name) must be specified as the first argument to the program.
If submitting the job where a shared file system is not accessible, the submit description file becomes:
#################### # # Example 1 # Execute a single Java class, # not on a shared file system # #################### universe = java executable = Hello.class arguments = Hello output = Hello.output error = Hello.error should_transfer_files = YES when_to_transfer_output = ON_EXIT queueFor more information about using Condor's file transfer mechanisms, see section 2.5.4.
To submit the job, where the submit description file is named Hello.cmd, execute
condor_submit Hello.cmd
To monitor the job, the commands condor_q and condor_rm are used as with all jobs.
executable = Stooges.class transfer_input_files = Larry.class,Curly.class,Moe.class
The executable command does not change. It still identifies the class file that contains the program's entry point.
% jar cvf Library.jar Larry.class Curly.class Moe.class Stooges.class
Condor must then be told where to find the JAR as well as to use the JAR. The JAR file that contains the entry point is specified with the executable command. All JAR files are specified with the jar_files command. For this example that collected all the class files into a single JAR file, the submit description file contains:
executable = Library.jar jar_files = Library.jar
Note that the JVM must know whether it is receiving JAR files or class files. Therefore, Condor must also be informed, in order to pass the information on to the JVM. That is why there is a difference in submit description file commands for the two ways of specifying files (transfer_input_files and jar_files).
If there are multiple JAR files, the executable command specifies the JAR file that contains the program's entry point. This file is also listed with the jar_files command:
executable = sortmerge.jar jar_files = sortmerge.jar,statemap.jar
executable = sortmerge.jar jar_files = sortmerge.jar,statemap.jar,commons-lang-2.1.jar
executable = anexecutable.jar jar_files = anexecutable.jar arguments = some.main.ClassFile
For a Java application which is run on the command line with
java -jar OneJarFile.jar
the equivalent version after discovery might look like
java -classpath OneJarFile.jar TheMainClass
The specified value for TheMainClass
can be discovered by unjarring the JAR file,
and looking for the MainClass definition in the Manifest file.
Use that definition in the Condor submit description file.
Partial contents of that file Java universe submit file will appear as
universe = java executable = OneJarFile.jar jar_files = OneJarFile.jar Arguments = TheMainClass More-Arguments queue
package hpc; public class CondorDriver { // class definition here }The JVM needs to know the location of this package. It is passed as a command-line argument, implying the use of the naming convention and directory structure.
Therefore, the submit description file for this example will contain
arguments = hpc.CondorDriver
requirements = (JavaVersion=="3.2")
requirements = (JavaMFlops>4.5)
java_vm_args = -DMyProperty=Value -verbose:gc -Xmx1024m
These options are those which go after the java command, but before the user's main class. Do not use this to set the classpath, as Condor handles that itself. Setting these options is useful for setting system properties, system assertions and debugging certain kinds of problems.
If a job has more sophisticated I/O requirements that cannot be met by Condor's file transfer mechanism, then the Chirp facility may provide a solution. Chirp has two advantages over simple, whole-file transfers. First, it permits the input files to be decided upon at run-time rather than submit time, and second, it permits partial-file I/O with results than can be seen as the program executes. However, small changes to the program are required in order to take advantage of Chirp. Depending on the style of the program, use either Chirp I/O streams or UNIX-like I/O functions.
Chirp I/O streams are the easiest way to get started. Modify the program to use the objects ChirpInputStream and ChirpOutputStream instead of FileInputStream and FileOutputStream. These classes are completely documented in the Condor Software Developer's Kit (SDK). Here is a simple code example:
import java.io.*; import edu.wisc.cs.condor.chirp.*; public class TestChirp { public static void main( String args[] ) { try { BufferedReader in = new BufferedReader( new InputStreamReader( new ChirpInputStream("input"))); PrintWriter out = new PrintWriter( new OutputStreamWriter( new ChirpOutputStream("output"))); while(true) { String line = in.readLine(); if(line==null) break; out.println(line); } out.close(); } catch( IOException e ) { System.out.println(e); } } }
To perform UNIX-like I/O with Chirp, create a ChirpClient object. This object supports familiar operations such as open, read, write, and close. Exhaustive detail of the methods may be found in the Condor SDK, but here is a brief example:
import java.io.*; import edu.wisc.cs.condor.chirp.*; public class TestChirp { public static void main( String args[] ) { try { ChirpClient client = new ChirpClient(); String message = "Hello, world!\n"; byte [] buffer = message.getBytes(); // Note that we should check that actual==length. // However, skip it for clarity. int fd = client.open("output","wct",0777); int actual = client.write(fd,buffer,0,buffer.length); client.close(fd); client.rename("output","output.new"); client.unlink("output.new"); } catch( IOException e ) { System.out.println(e); } } }
Regardless of which I/O style, the Chirp library must be specified and included with the job. The Chirp JAR (Chirp.jar) is found in the lib directory of the Condor installation. Copy it into your working directory in order to compile the program after modification to use Chirp I/O.
% condor_config_val LIB /usr/local/condor/lib % cp /usr/local/condor/lib/Chirp.jar .
Rebuild the program with the Chirp JAR file in the class path.
% javac -classpath Chirp.jar:. TestChirp.java
The Chirp JAR file must be specified in the submit description file. Here is an example submit description file that works for both of the given test programs:
universe = java executable = TestChirp.class arguments = TestChirp jar_files = Chirp.jar +WantIOProxy = True queue