Skip to content

libStorage provides a portable and remotable storage plugin framework.

License

Notifications You must be signed in to change notification settings

thecodeteam/libstorage

Folders and files

NameName
Last commit message
Last commit date

Latest commit

Feb 25, 2017
35c7b6d · Feb 25, 2017
Feb 25, 2017
Feb 15, 2017
Oct 28, 2016
Feb 16, 2017
Nov 1, 2016
Feb 9, 2017
Dec 7, 2016
Feb 25, 2017
Nov 16, 2016
Feb 24, 2017
Nov 16, 2016
Mar 22, 2016
Feb 25, 2017
Nov 13, 2015
Feb 23, 2017
Dec 7, 2016
Feb 25, 2017
Feb 21, 2017
Feb 21, 2017
Feb 16, 2017
Nov 7, 2016
Feb 16, 2017
Feb 23, 2017

Repository files navigation

libStorage GoDoc Build Status Go Report Card codecov

libStorage provides a vendor agnostic storage orchestration model, API, and reference client and server implementations.

Overview

libStorage enables storage consumption by leveraging methods commonly available, locally and/or externally, to an operating system (OS).

The Past

The libStorage project and its architecture represents a culmination of experience gained from the project authors' building of several different storage orchestration tools. While created using different languages and targeting disparate storage platforms, all the tools were architecturally aligned and embedded functionality directly inside the tools and affected storage platforms.

This shared design goal enabled tools that natively consumed storage, sans external dependencies.

The Present

Today libStorage focuses on adding value to container runtimes and storage orchestration tools such as Docker and Mesos, however the libStorage framework is available abstractly for more general usage across:

  • Operating systems
  • Storage platforms
  • Hardware platforms
  • Virtualization platforms

The client side implementation, focused on operating system activities, has a minimal set of dependencies in order to avoid a large, runtime footprint.

Storage Orchestration Tools Today

Today there are many storage orchestration and abstraction tools relevant to container runtimes. These tools often must be installed locally and run alongside the container runtime.

Storage Orchestration Tool Architecture Today

The solid green lines represent active communication paths. The dotted black lines represent passive paths. The orange volume represents a operating system device and volume path available to the container runtime.

libStorage Embedded Architecture

Embedding libStorage client and server components enable container runtimes to communicate directly with storage platforms, the ideal architecture. This design requires minimal operational dependencies and is still able to provide volume management for container runtimes.

libStorage Embedded Architecture

libStorage Centralized Architecture

In a centralized architecture, libStorage is hosted as a service, acting as a go-between for container runtimes and backend storage platforms.

The libStorage endpoint is advertised by a tool like REX-Ray, run from anywhere, and is responsible for all control plane operations to the storage platform along with maintaining escalated credentials for these platforms. All client based processes within the operating system are still embedded in the container runtime.

libStorage Centralized Architecture

libStorage Decentralized Architecture

Similar to the centralized architecture, this implementation design involves running a separate libStorage process alongside each container runtime, across one or several hosts.

libStorage De-Centralized Architecture

API

Central to libStorage is the HTTP/JSON API. It defines the control plane calls that occur between the client and server. While the libStorage package includes reference implementations of the client and server written using Go, both the client and server could be written using any language as long as both adhere to the published libStorage API.

Client

The libStorage client is responsible for discovering a host's instance ID and the next, available device name. The client's reference implementation is written using Go and is compatible with C++.

The design goal of the client is to be lightweight, portable, and avoid obsolescence by minimizing dependencies and focusing on deferring as much of the logic as possible to the server.

Server

The libStorage server implements the libStorage API and is responsible for coordinating requests between clients and backend orchestration packages. The server's reference implementation is also written using Go.

Model

The libStorage model defines several data structures that are easily represented using Go structs or a portable format such as JSON.

Documentation Docs

The libStorage documentation is available at libstorage.rtfd.org.

License

The libStorage project is licensed to you under the Apache License, Version 2.0. Please reference the LICENSE file for additional information.