FemtoBeacon - Atmel SAM R21 (ARM Cortex M0+, SAM D21 with built in AT86RF233)
To contribute work, please do the following:
- Fork https://github.com/femtoduino/femto-beacon
- Checkout your fork of femto-beacon to your machine. You should now have something like
https://github.com/<your_username>/femto-beacon
- Add the femtoio/femto-beacon repository as the 'upstream' remote repository of your fork.
# Inside the checkout of your fork, add us as the remote repository named 'upstream'
git remote add upstream https://github.com/femtoduino/femto-beacon.git
# Remember to fetch from upstream to get all branch information
git fetch upstream
Now, you can pull the latest changes from 'upstream' into your fork, and push all work to your own fork
# To list branches.
git branch -a
# To pull changes from upstream 'master' branch into your 'master' branch (assuming you're in the master branch already)
git pull upstream master
# To switch into an existing branch named 'develop'
git checkout develop
# To create a new branch based on the develop branch
git checkout develop
# ...then, make sure you get the latest from upstream
git pull upstream develop
# ...now, create your new branch.
git checkout -b my-new-branch
# To push your new branch to your github fork
git push origin my-new-branch
...Once you push your changes to your fork, you may submit a Merge Request via github. We will review and assess the changes before accepting or rejecting your changes.
For Arduino support, see https://github.com/femtoduino/ArduinoCore-atsamd21e18a/
For bare-metal programming, see below.
On Ubuntu machines, you will need Terry Guo's arm-none-eabi-* toolchain, along with the build-essentials package, openocd 0.9.x with cmsis-dap and hidapi-libusb enabled, and the BOSSA utility.
See the following on how to build OpenOCD on your machine: https://github.com/RIOT-OS/RIOT/wiki/OpenOCD You must assert the required libraries are installed on your machine.
Compile OpenOCD with the following flags to enable cmsis-dap and hidapi support:
# Inside the openocd source code folder...
./configure --enable-maintainer-mode --enable-cmsis-dap --enable-hidapi-libusb
make
sudo make install
Install Eclipse C++, and the GNU ARM Eclipse plugins.
Install the BOSSA utility.
See https://github.com/shumatech/BOSSA
Download the Atmel Software Framework into the libraries/ folder before compiling examples.
If you have the Atmel Software framework files in a directory named asf-3.21.0
, then you would need it as femto-beacon/libraries/asf-3.21.0
Symlink the boards/femtobeacon folder into your copy of the ASF framework (libraries/asf-x.xx.x/sam0/boards/femtobeacon). Symlink the femtoIO MPU9250 library folder into your copy of the ASF framework (libraries/asf-x.xx.x/thirdparty/MPU9250).
You can symlink the femto-beacon examples to your Eclipse workspace folder. For example, if you want to make the 'sam-r21-blink' project availabe in Eclipse:
# Use ~ or full path! Do not use ./
ln -s /path/to/femto-beacon/examples/sam-r21-blink /path/to/eclipse/workspace/sam-r21-blink
...Refresh the Project Explorer panel to view it as a project.
Update the example's config.mk file accordingly
# Path to top level ASF directory relative to this project directory.
PRJ_PATH = ../../libraries/asf-3.21.0
Then, open up the example in Eclipse, and build. This should generate a BIN file you can then upload to your board using the BOSSA shell.
Create a new C project in Eclipse, symlink the libraries/ folder from femto-beacon/libraries into your project's directory.
cd MyNewProject/
ln -s /path/to/femto-beacon/libraries libraries
You can then copy/modify the asf.h, config.mk, and Makefile into your new project. Remember to modify config.mk to include the paths of the ASF modules you wish to use.
This board is unreleased at this time. These notes are here for future use. For toolchain setup, see https://devzone.nordicsemi.com/tutorials/7/