Copyright 2013-2018 The Netherlands eScience Center
Many applications use remote storage and compute resources. To do so, they need to include code to interact with the scheduling systems and file transfer protocols used on those remote machines.
Unfortunately, many different scheduler systems and file transfer protocols exist, often with completely different programming interfaces. This makes it hard for applications to switch to a different system or support multiple remote systems simultaneously.
Xenon solves this problem by providing a single programming interface to many different types of remote resources, allowing applications to switch without changing a single line of code.
Xenon is an abstraction layer that sits between your application and the remote resource it uses. Xenon is written in Java, but is also accessible from other languages (e.g. Python) through its gRPC interface.
component | repository |
---|---|
Xenon library | https://github.com/NLeSC/Xenon |
gRPC extension for Xenon | https://github.com/NLeSC/xenon-grpc |
command line interface to Xenon | https://github.com/NLeSC/xenon-cli |
Python API for Xenon | https://github.com/NLeSC/pyxenon |
Xenon currently supports the following file access mechanisms:
file
(local file manipulation)ftp
sftp
webdav
s3
hdfs
Xenon currently supports the following job submission mechanisms:
local
ssh
gridengine
slurm
torque
See the roadmap for the planned extensions.
Follow the instructions from bintray.com to include Xenon as a dependency for Gradle, Maven, SBT, or Leiningen projects, e.g. Gradle:
allprojects {
repositories {
...
jcenter()
}
}
and
dependencies {
compile 'nl.esciencecenter.xenon:xenon:2.6.2'
}
Or for a Maven project,
<repositories>
<repository>
<id>jcenter</id>
<url>https://jcenter.bintray.com</url>
</repository>
</repositories>
and
<dependency>
<groupId>nl.esciencecenter.xenon</groupId>
<artifactId>xenon</artifactId>
<version>2.6.2</version>
</dependency>
Here are some examples of basic operations you can perform with Xenon:
import nl.esciencecenter.xenon.XenonException;
import nl.esciencecenter.xenon.credentials.PasswordCredential;
import nl.esciencecenter.xenon.filesystems.CopyMode;
import nl.esciencecenter.xenon.filesystems.CopyStatus;
import nl.esciencecenter.xenon.filesystems.FileSystem;
import nl.esciencecenter.xenon.filesystems.Path;
public class CopyFileLocalToSftpAbsolutePaths {
public static void main(String[] args) throws Exception {
// Use the file system adaptors to create file system representations; the remote file system
// requires credentials, so we need to create those too.
//
// Assume the remote system is actually just a Docker container (e.g.
// https://hub.docker.com/r/nlesc/xenon-ssh/), accessible via
// port 10022 on localhost
String location = "localhost:10022";
String username = "xenon";
char[] password = "javagat".toCharArray();
PasswordCredential credential = new PasswordCredential(username, password);
FileSystem localFileSystem = FileSystem.create("file");
FileSystem remoteFileSystem = FileSystem.create("sftp", location, credential);
// create Paths for the source and destination files, using absolute paths
Path sourceFile = new Path("/etc/passwd");
Path destFile = new Path("/tmp/password");
// create the destination file only if the destination path doesn't exist yet
CopyMode mode = CopyMode.CREATE;
boolean recursive = false;
// perform the copy and wait 1000 ms for the successful or otherwise
// completion of the operation
String copyId = localFileSystem.copy(sourceFile, remoteFileSystem, destFile, mode, recursive);
long timeoutMilliSecs = 1000;
CopyStatus copyStatus = localFileSystem.waitUntilDone(copyId, timeoutMilliSecs);
// throw any exceptions
XenonException copyException = copyStatus.getException();
if (copyException != null) {
throw copyException;
}
}
}
The following code performs a wordcount of a file residing on a remote machine:
import nl.esciencecenter.xenon.credentials.PasswordCredential;
import nl.esciencecenter.xenon.schedulers.JobDescription;
import nl.esciencecenter.xenon.schedulers.JobStatus;
import nl.esciencecenter.xenon.schedulers.Scheduler;
public class SlurmSubmitWordCountJob {
public static void main(String[] args) throws Exception {
// Assume the remote system is actually just a Docker container (e.g.
// https://hub.docker.com/r/nlesc/xenon-slurm/), accessible to user 'xenon' via
// port 10022 on localhost, using password 'javagat'
String location = "localhost:10022";
String username = "xenon";
char[] password = "javagat".toCharArray();
PasswordCredential credential = new PasswordCredential(username, password);
// create the SLURM scheduler representation
Scheduler scheduler = Scheduler.create("slurm", location, credential);
JobDescription description = new JobDescription();
description.setExecutable("/usr/bin/wc");
description.setArguments("-l", "/etc/passwd");
description.setStdout("/tmp/wc.stdout.txt");
// submit the job
String jobId = scheduler.submitBatchJob(description);
long WAIT_INDEFINITELY = 0;
JobStatus jobStatus = scheduler.waitUntilDone(jobId, WAIT_INDEFINITELY);
// print any exceptions
Exception jobException = jobStatus.getException();
if (jobException != null) {
throw jobException;
}
}
}
The output of the job will be written to /tmp/wc.stdout.txt
file in the nlesc/xenon-slurm
Docker container.
For more examples, see the tutorial at Read The Docs.
Xenon's JavaDoc is available online at http://nlesc.github.io/Xenon/versions/2.6.2/javadoc/.
The Xenon library is copyrighted by the Netherlands eScience Center and released under the Apache License, Version 2.0. A copy of the license may be obtained from http://www.apache.org/licenses/LICENSE-2.0.
Xenon uses several third-party libraries that have their own (permissive, open source) licenses. See the file legal/README.md for an overview.