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1.0 Brief Introduction to Xenon Build Status

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1.1 Xenon Highlights

Xenon is a framework for writing small REST-based services. (Some people call them microservices.) The runtime is implemented in Java and acts as the host for the lightweight, asynchronous services. The programming model is language agnostic (does not rely on Java specific constructs) so implementations in other languages are encouraged. The services can run on a set of distributed nodes. Xenon provides replication, synchronization, ordering, and consistency for the state of the services. Because of the distributed nature of Xenon, the services scale well and are highly available.

Xenon is a "batteries included" framework. Unlike some frameworks that provide just consistent data replication or just a microservice framework, Xenon provides both. Xenon services have REST-based APIs and are backed by a consistent, replicated document store.

Each service has less than 500 bytes of overhead and can be paused/resumed, making Xenon able to host millions of service instances even on a memory constrained environment.

Service authors annotate their services with various service options, acting as requirements on the runtime, and the framework implements the appropriate algorithms to enforce them. The runtime exposes each service with a URI and provides utility services per instance, for stats, reflection, subscriptions and configuration. A built-in load balancer routes client requests between nodes, according to service options and plug-able node selection algorithms. Xenon supports multiple, independent node groups, maintaining node group state using a scalable gossip scheme.

A powerful index service, invoked as part of the I/O pipeline for persisted services, provides a multi version document store with a rich query language.

High availability and scale-out is enabled through the use of a consensus and replication algorithm and is also integrated in the I/O processing.

1.2 What can Xenon be used for?

The lightweight runtime enables the creation of highly available and scalable applications in the form of cooperating light weight services. The operation model for a cluster of Xenon nodes is the same for both on premise, and service deployments.

The photon controller project makes heavy use of Xenon to build a scalable and highly available Infrastructure-as-a-Service fabric, composed of stateful services, responsible for configuration (desired state), work flows (finite state machine tasks), grooming and scheduling logic. Xenon is also used by several teams building new products, services and features, within VMware.

1.3 Learning More

For a more detailed description of Xenon, keep reading this document.

For more technical details including tutorials, please refer to the wiki.

Various code samples are in the xenon-samples directory.

1.4 Reporting Issues

Xenon uses a public pivotal tracker project for tracking and reporting issues: https://www.pivotaltracker.com/n/projects/1471320

2.0 Detailed Introduction to Xenon

Xenon is a framework for writing small REST-based services. (Some people call them microservices.) It supports a long list of features, but let’s step back a moment and take it a step at a time.

2.1 What is a Xenon service?

There are multiple definitions of "services", so let's define what we mean by a Xenon service. (For now, we’ll assume we’re talking about Xenon running on a single host--we'll get to using multiple hosts in a moment.)

A single Xenon service implements a REST-based API for a single URI endpoint. For example, you might have a service running on:

https://myhost.example.com/example/service

You have a lot of choices in how you implement the service, but a few things are true:

  1. The service can support any of the standard REST operations: GET, POST, PUT, PATCH, DELETE

  2. This service has a document associated with it. If you do a GET on the service, you’ll see the document. In most cases, the document is represented in JSON. There are a few standard JSON fields that every document has, such as the the "kind" of document, the version, the time it was last updated, etc.

  3. Your service may have business logic associated with it. Perhaps when you do a POST, it creates a new VM, and a PATCH will modify the VM.

  4. A service may have its state persisted on disk (a "stateful" service) or it may be generated on the fly (a “stateless” service). Persisted services can have an optional expiration time, after which they are removed from the datastore.

  5. All services can communicate with all other services by using the same APIs that a client will use. Within a single host, communication is optimized (no need to use the network). API calls from clients or services are nearly identical and treated the same way. This makes for a very consistent communication pattern.

  6. For stateful services, only one modification may happen at a time: modifications to a statefule service are serialized, while reads from a service can be made in parallel. If two modifications are attempted in parallel, there will be a conflict. One will succeed, and the other will receive an error. (Xenon is flexible, and allows you to disable this if you really want to.)

2.2 Factory Services

How are services made? In general, a Xenon host will be started with a number of "factory services". These are services that can create other services. For instance, you might have a service for creating VMs:

https://myhost.example.com/vms

If a client POSTs a valid document describing a VM to that service, a new service will be created and (presumably) the new VM will also be created. Typically the service will be created with a unique random ID (a UUID):

https://myhost.example.com/vms/bb15980c-166e-11e6-b6ba-3e1d05defe78

The factory service is stateless. It does not explicitly keep track of all the services that were made. Clients can do a GET to the factory service to find all of the services of that type. Internally, the factory service just queries the underlying document store to find all of them. These queries are implemented efficiently on top of a Lucene index.

2.3 Task Services: Just for business logic

Some services do not need long-term persistence, but just need to accomplish a short-lived task. For example, you might have a task that finds all disks that are running out of space and send a message to a Slack channel. Interesting and valuable, but ephemeral.

Task services are just like any other services, but they take advantage of two features of Xenon:

  1. Task services use the ability to communicate with services: they communicate to themselves. As a task proceeds, it records its state by using its own API to update itself. For instance:
  • A client POSTs to a task factory and the task service is made
  • The task service does something (search for disks, to continue above example)
  • The task services sends a PATCH to itself to update its state
  • When the task receives the PATCH, it triggers the next step: send message to Slack
  • When the task is done, it sends a PATCH to itself to mark task as done: any client can see that it’s done by doing a GET to the task service.
  1. Task services are asynchronous: every step happens as part of asynchronously responding to the initial POST or the subsequent PATCHs.

The mechanisms used to implement task services are identical as those for other services. As a result, tasks are transparent (clients can see progress of the tasks) and encourages asynchronous implementations, which scale well.

2.4 What can you do with Xenon services?

Just about anything you want. Think about it this way: Xenon encourages you to build a system as a set of small services that have REST-based APIs and can communicate with each other. People have built a wide variety of systems on top of Xenon including an IaaS system, Photon Contorller.

2.5 Authentication & Authorization

Xenon provides both authentication and authorization. Today it has a username/password mechanism for authentication, but allows for it to be extended (via the addition of appropriate services). Users can be given access to all documents or a subset of documents, depending on how Xenon is configured. All configuration of users and permissions is via Xenon services.

2.6 How does Xenon work when there are multiple hosts?

Xenon is architected to work well when there are multiple Xenon hosts in a cluster. Systems that build on top of Xenon have choices in how they want to build their system.

Note that each of these configuration choices is done per-service: different services can have different ownership, replication, and consistency configuration, depending on their needs.

Ownership: In cases where it matters, developers can choose to have Xenon select a single owner for a service. Xenon calls these "owner-selected" services. The owner is chosen automatically using a consitent hashing algorithm and it will be updated if Xenon hosts are added or removed from the system. When a host is added or removed, the ownership may be updated immediately or as-needed, but to users cannot tell the difference: whenever they need to access a document, the latest version is provided. Users never need to be aware of the ownership of the document: this is an internal detail that Xenon manages.

Replication: Xenon replicates all service documents to other nodes. Developers can choose between symmetric replication (all nodes have a copy of the data) or asymmetric replication (some subset has it). The choice between these two is between simplicity and performance. For operations that modify a services, the developer can choose to either wait for all nodes to have the same data, or they can for a smaller number, called the quorum, to have the data. By default, the quorum is a majority of nodes.

Consistency: Xenon allows developers to choose between strongly consistent or eventually consistent, but is most commonly strongly consistent. Strongly consistent services use owner-selection (the service document is managed by the owner) and replication.

Node failures: If a node fails, other Xenon nodes continue to run. If a Xenon service was configured to require all nodes to have a replica of the data, the service cannot be updated until the missing node is returned to service or the quorum size is reduced to match the number of nodes. When a node returns to service, it is updated with changes that happened in its absence. This update process is called synchronization.

3.0 Getting started

3.1 Building the code

A detailed list of pre-requisite tools can be found in the developer guide. Xenon uses Maven for building.

Once you have installed all the pre-requisites from the root of the repository execute the following Maven command:

  mvn clean test

The above command will compile the code, run checkstyle, and run unit-tests.

3.2 Editing the code

The team uses Eclipse or IntelliJ. Formatting style settings for both these editors can be found in the contrib folder.

4.0 Contributing

We welcome contributions and help with Xenon! If you wish to contribute code and you have not signed our contributor license agreement (CLA), our bot will update the issue when you open a Pull Request. For any questions about the CLA process, please refer to our FAQ.

4.1.1 Pull Request Guide

TBD

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