Language Idiomatic bindings for building Container Images.
Containers are an optimal way to package and deploy your code. However, teaching developers to learn a new configuration file format, and toolchain, just to package their application in a container is an unnecessary barrier to entry for many programmers just starting out with containers.
Metaparticle/Package simplifies the task of building and deploying container images. Metaparticle/Package is a collection of libraries that enable programmers to build and deploy containers using code that feels familiar to them.
Rather than learn a new set of tools, syntaxes or workflows. The package libraries aim to use language level features to add new capabilities to existing programming languages.
Here's a simple example of building a containerized Java application:
import io.metaparticle.annotations.Package;
import static io.metaparticle.Metaparticle.Containerize;
public class Main {
@Package(repository="brendanburns",
jarFile="path/to/my-fat-jar.jar")
public static void main(String[] args) {
Containerize(() -> {
System.out.println("Hello Metaparticle/Package");
});
}
}
When you run this program via the java
command or your IDE, rather than simply executing your code, this program
packages up the Java code in a container, and runs that container.
Currently:
But it's fairly straightforward to add other languages, we would love to see contributions.
For more details see the more complete walkthroughs for each language:
When you link the metaparticle package library into your application, it intercepts and overwrites the
main
program entry point. This interception performs the following pseudo code:
func main(args []string) {
if runningInDockerContainer {
executeOriginalMain(args)
} else {
buildDockerImage()
pushDockerImage()
if deployRequested {
deployDockerImage()
}
}
}
The net effect of this is that a developer can containerize, distribute and optionally deploy their application without ever leaving the syntax or confines of their development environment a nd language of choice.
At the same time, metaparticle is not intended to be a platform. Under the hood, the libraries still
write Dockerfiles
and make calls to the same build and push code. So when a developer wants or needs
to switch to the complete container tooling, they can easily take their application with them.
In addition to basic packaging and deployment, metaparticle can also implement more complex distributed system patterns via language fluent semantics.
There are many ways to contribute to Metaparticle
- Submit bugs and help us verify fixes as they are checked in.
- Review the source code changes.
- Engage with other Metaparticle users and developers on gitter.
- Join the #metaparticle discussion on Twitter.
- Contribute bug fixes.
This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact opencode@microsoft.com with any additional questions or comments.