mraa
v1.9.0
Published
IO library that helps you use I2c, SPI, gpio, uart, pwm, analog inputs (aio) and more on a number of platforms such as the Intel galileo, the Intel edison and others
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libmraa - Low Level Skeleton Library for Communication on GNU/Linux platforms
Libmraa is a C/C++ library with bindings to Java, Python and JavaScript to interface with the IO on Galileo, Edison & other platforms, with a structured and sane API where port names/numbering matches the board that you are on. Use of libmraa does not tie you to specific hardware with board detection done at runtime you can create portable code that will work across the supported platforms.
The intent is to make it easier for developers and sensor manufacturers to map their sensors & actuators on top of supported hardware and to allow control of low level communication protocol by high level languages & constructs.
Supported Boards
X86
- Galileo Gen 1 - Rev D
- Galileo Gen 2 - Rev H
- Edison
- Intel DE3815
- Minnowboard
- NUC 5th generation
- UP
- UP Squared
- Intel Joule
ARM
MIPS
FPGA
USB
I2C
Mock
JSON platform
Installing on your board
Installing on Ubuntu
Here is a PPA for installing on ubuntu: https://launchpad.net/~mraa/+archive/ubuntu/mraa
sudo add-apt-repository ppa:mraa/mraa
sudo apt-get update
sudo apt-get install libmraa1 libmraa-dev libmraa-java python-mraa python3-mraa node-mraa mraa-tools
Running MRAA tools or applications on Ubuntu systems requires elevated permissions
(e.g. run with sudo
).
Install on Arch Linux
There is an AUR package for mraa here: https://aur.archlinux.org/packages/mraa
Install on openSUSE
REPO="openSUSE_Tumbleweed"
if test "$(arch)" == "aarch64"; then
REPO="openSUSE_Factory_ARM"
fi
sudo zypper ar http://download.opensuse.org/repositories/hardware/$REPO/hardware.repo
sudo zypper in mraa
Installing for Node.js only
Note: Node.js 7.0.0+ is not currently supported. You'll have to downgrade to 6.x.x.
You can also install just the node.js mraa module by using npm. You will need a C++ compiler and the node development headers, however it's not required to have SWIG installed.
npm install mraa
Note that installing mraa in this way builds mraa without json-c so you cannot use mraa_init_json_platform(). Also building this way means the mraa.node includes a static version of libmraa rather than relying on a dynamic library in /usr/lib.
Subplatforms (i.e. Firmata) have to be added manually with this kind of install from your application, as shown in this example.
Installing on Intel 32bit Yocto based opkg image
See the section below on compiling or use our repository to install on a glibc based yocto poky image that supports opkg. Adding this repository is as simple as and you'll have the latest stable tagged build of mraa installed!
echo "src mraa-upm http://iotdk.intel.com/repos/3.5/intelgalactic/opkg/i586" > /etc/opkg/mraa-upm.conf
opkg update
opkg install mraa
If you would like to get the latest & greatest builds from master HEAD you can use our -dev repository
echo "src mraa-upm http://iotdk.intel.com/repos/3.5/intelgalactic-dev/opkg/i586" > /etc/opkg/mraa-upm.conf
opkg update
opkg install mraa
Compiling
See documentation on building
Examples
See the examples available for various languages
Debugging
Sometimes it just doesn't want to work, let us try and help you, you can file issues in github or join us in #mraa on freenode IRC, hang around for a little while because we're not necessarily on 24/7, but we'll get back to you! Have a glance at our debugging page too.
API Documentation
Contact Us
To ask questions either file issues in github or send emails on our mailing list. You might also catch us on the mraa channel on freenode IRC.
See the Contribution documentation for more details.
Changelog
Version changelog here.