Razercfg is a Razer device configuration tool. It is based on "razerd", a background daemon doing all of the low-level privileged hardware accesses. The user interface tools are "razercfg", a command-line tool, and "qrazercfg", a Qt-based graphical device configuration tool. Supported devices are the Razer DeathAdder (Classic, 3500DPI, and Black Edition) mouse, the Razer Krait mouse, the Razer Lachesis mouse, the Razer Copperhead mouse, the Razer Naga mouse, the Razer Boomslang CE mouse and the Razer Taipan mouse.
SIMPLE-MTPFS (Simple Media Transfer Protocol FileSystem) is a file system for Linux (and other operating systems with a FUSE implementation, such as Mac OS X or FreeBSD) capable of operating on files on MTP devices attached via USB to local machine. It allows the end user to seamlessly interact with MTP device files.
jnostromo provides drivers for the Razer Nostromo designed to be E-Sport legal. Profiles are unique user-defined keymappings and can be created for each game. A profile can have up to eight unique keymaps with mappings to switch between keymaps. jnostromo includes an easy-to-use configuration GUI to map keys from the nostromo to the keyboard and/or mouse. The configuration GUI can be hidden, and, at any time, the GUI can be displayed by clicking on the system tray icon. It's the goal of this project to make jnostromo the driver of choice for E-Sports and competitive gamers.
LinCAN is a Linux kernel module which implements a CAN driver capable of working with multiple cards, even with different chips and IO methods. Each communication object can be accessed from multiple applications concurrently. The driver supports Linux 2.4.x, 2.6.x, and 3.x kernels and implements select, poll, fasync, O_NONBLOCK, and O_SYNC semantics and multithreaded read/write capabilities. It works with the common Intel i82527, Philips 82c200, and Philips SJA1000 (in standard and PeliCAN mode) CAN controllers. It is part of a set of CAN/CANopen-related components developed as one of the OrtCAN project components.
ServoMaster provides hardware independent abstractions to servos and servo controllers. It has implementations for several servo controller families, including Phidget, Pololu, Parallax, and SSC. It has support for servo and controller metadata, introspection, and capabilities discovery.