We’re not just talking about NaCl.
Salt is:
It was developed in order to bring the best solutions found in the world of remote execution together and make them better, faster, and more malleable. Salt accomplishes this through its ability to handle large loads of information, and not just dozens but hundreds and even thousands of individual servers quickly through a simple and manageable interface.
Providing versatility between massive scale deployments and smaller systems may seem daunting, but Salt is very simple to set up and maintain, regardless of the size of the project. The architecture of Salt is designed to work with any number of servers, from a handful of local network systems to international deployments across different data centers. The topology is a simple server/client model with the needed functionality built into a single set of daemons. While the default configuration will work with little to no modification, Salt can be fine tuned to meet specific needs.
The core functions of Salt:
Salt also introduces more granular controls to the realm of remote execution, allowing systems to be targeted not just by hostname, but also by system properties.
Salt takes advantage of a number of technologies and techniques. The networking layer is built with the excellent ZeroMQ networking library, so the Salt daemon includes a viable and transparent AMQ broker. Salt uses public keys for authentication with the master daemon, then uses faster AES encryption for payload communication; authentication and encryption are integral to Salt. Salt takes advantage of communication via msgpack, enabling fast and light network traffic.
In order to allow for simple expansion, Salt execution routines can be written as plain Python modules. The data collected from Salt executions can be sent back to the master server, or to any arbitrary program. Salt can be called from a simple Python API, or from the command line, so that Salt can be used to execute one-off commands as well as operate as an integral part of a larger application.
The result is a system that can execute commands at high speed on target server groups ranging from one to very many servers. Salt is very fast, easy to set up, amazingly malleable and provides a single remote execution architecture that can manage the diverse requirements of any number of servers. The Salt infrastructure brings together the best of the remote execution world, amplifies its capabilities and expands its range, resulting in a system that is as versatile as it is practical, suitable for any network.
Salt is developed under the Apache 2.0 license, and can be used for open and proprietary projects. Please submit your expansions back to the Salt project so that we can all benefit together as Salt grows. Please feel free to sprinkle Salt around your systems and let the deliciousness come forth.
Join the Salt!
There are many ways to participate in and communicate with the Salt community.
Salt has an active IRC channel and a mailing list.
Join the salt-users mailing list. It is the best place to ask questions about Salt and see whats going on with Salt development! The Salt mailing list is hosted by Google Groups. It is open to new members.
The #salt
IRC channel is hosted on the popular Freenode network. You
can use the Freenode webchat client right from your browser.
Logs of the IRC channel activity are being collected courtesy of Moritz Lenz.
If you wish to discuss the development of Salt itself join us in
#salt-devel
.
The Salt code is developed via GitHub. Follow Salt for constant updates on what is happening in Salt development:
SaltStack Inc. keeps a blog with recent news and advancements:
http://www.saltstack.com/blog/
Thomas Hatch also shares news and thoughts on Salt and related projects in his personal blog The Red45:
The official salt-states
repository is:
https://github.com/saltstack/salt-states
A few examples of salt states from the community:
If you want to get involved with the development of source code or the documentation efforts, please review the hacking section!