This project is still under initial development and thus neither APIs nor implementations are finished. This means that right now this software can't be used directly, but you can use it as an inspiration or you can choose to contribute to it if you like.
Cloudname is a library for managing services in a distributed environment. It allows services to announce their presence and state, it allows clients to locate services and their endpoints and it provides a simple mechanism for distributing configuration to services.
The current implementation uses Apache ZooKeeper to do the heavy lifting, but programmers should never have to deal directly with ZooKeeper -- only the library interface provided by Cloudname.
This is the Cloudname Library and the artifact that the project is named after. This is probably the directory you want to look at.
This directory contains some of the tools we use for logging.
A skeletal implementation of a simple log server.
Various classes that are useful when writing tests. For instance we have some helper classes for network related things as well as tools for doing tests against an embedded ZooKeeper instance.
In the following sections we will cover some of the Cloudname basics.
In cloudname each service has a Coordinate. A coordinate is an abstract name which identifies an instance of a service. The fields of a coordinate are:
cell - Roughly equivalent to a data center or cluster. In practical terms a cell is defined as a collection of machines served by the same ZooKeeper ensemble. Cells normally would not span data centers.
user - The user owning the service. This could be a real user or it can be a role type user.
service - The name of the service.
instance - An integer between 0 and 2^31-1 identifying the instance number.
The canonical form of a coordinate is the dot form of the coordinate. That is, the above mentioned fields separated by dots almost like a hostname:
A Cloudname Coordinate is just an abstract name. In itself it says nothing about the physical location of a service or whether the service is indeed running or not. Before it can be used, it has to be created, which is an operation that looks a lot like creating a directory in a filesystem.
In order to to make use of a coordinate a service has to claim the coordinate. This is typically the first thing a service does when it starts up. Only one service can own a given coordinate at any given time, so if the coordinate has already been claimed by another process, the claim will not succeed.
When a service has successfully claimed a coordinate, it will get a handle object which it can then use to:
- Modify its status information
- Publish and unpublish endpoints it provides
- Receive configuration and configuration updates.
If the service should terminate or crash, the endpoints will automatically be unpublished.
When a client wants to connect to a service it will use a Resolver to look up the Cloudname Coordinate and get one or more Endpoints. An Endpoint is just an object that describes the endpoint and contains information about host, port, protocol etc.
The Resolver knows how to turn coordinates into endpoints, but it also understands an extended syntax for coordinates. For instance you can use the resolver to ask for named endpoints (such as "httpport" or "rpc-port"):
If you have a service that has multiple instances you may want to resolve endpoints according to some strategy. For instance you may want all "httpport" endpoints for "myservice". This is done by replacing the instance part of the coordinate with a strategy:
This will make the resolver return a list of all the endpoints with name "httpport" for "myservice".
Initially we will provide a small set of fixed resolver strategies that should cover the basics, but we intend to make resolver strategies pluggable -- meaning that you will be able to provide your own. This will eventually enable you to do things like integrate with your monitoring system so you can ask for things like "give me the least loaded instance of service X".
If a client loses its connection to a service it will have to re-resolve the coordinate or the coordinate expression to get a valid endpoint. This is because services are mobile -- you have to assume that they can move from one physical node to another.
For now, we are not going to offer any mechanisms for doing this automatically since this will depend heavily on what makes sense for your service. We may revisit this at a later stage when we know more about actual needs.
Cloudname will have a fairly simple mechanism for distributing configuration to services. There is some design work going on in this area and we will update this section when we have landed a good initial design.