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Workflow for GitHub noobs
This guide is targeted for Ubuntu Linux users, who want to help testing EdgeTX firmware and or LUA scripts, but who have not yet found their way around Git and GitHub.
EdgeTX project uses GitHub services e.g. for distributed version control and source code management functionalities. As an open-source project, the source code can be downloaded by everyone. Users can modify and augment the code and propose the changes as so called pull requests. But this page is not about the latter. Here, we will concentrate on getting EdgeTX code from GitHub, in order to compile and test it locally. If you used the guide to get Ubuntu running on a Windows subsystem, or having another Ubuntu environment, and you followed the instructions to get the compile toolchain installed, then you have already installed the GIT software with it, so no actions there.
Well, if you followed the installations and first instructions to the letter, you already did the following things:
- Created a folder for managing code in your personal /home/user directory (~)
mkdir ~/edgetx
cd ~/edgetx
- "Cloned" the code from the public repository
git clone --recursive -b main https://github.com/EdgeTX/edgetx.git edgetx-main
- Created a subfolder for the main branch by doing the above (~/edgetx/edgetx-main)
That's good!
I will list all the steps to compile the code into the firmware for on the radio, the full simulator, and companion. The goal is that we test things first in the simulator, and then on the physical radio. Saves a lot of hassle.
cd ~/edgetx/edgetx-main
If it doesn't exist yet from a previous build session, create a build output folder:
mkdir build-output
Move to the build-output folder and start preparation of the CMAKE file (the file that contains the instructions to compile all stuff):
cd build-output
Don't forget to add the path for this session:
export PATH="~/edgetx/edgetx-main/radio/util:$PATH"
(You can add it to your environment permanently. Search google). And then create the makefile in the right spot:
cd ~/edgetx/edgetx-main/build-output
cmake -DPCB=X10 -DPCBREV=TX16S -DDEFAULT_MODE=2 -DGVARS=YES -DPPM_UNIT=US -DHELI=NO -DLUA=YES -DINTERNAL_GPS=YES -DCMAKE_BUILD_TYPE=Debug ../
Change the above to your preferences of course :). See ~/edgetx-main-cmake-options.txt.
make -j`nproc` firmware
The firmware created to load on your radio is firmware.bin.
cd ~/edgetx/edgetx-main/build-output
make -j`nproc` companion25
To launch Companion, issue: ./companion25
Do that first, to create at least ONE profile to be able to use the simulator.
Remember it will use the settings as prepared in the cmake command.
cd ~/edgetx/edgetx-main/build-output
make -j`nproc` libsimulator && make -j`nproc` simulator25
Set the path if you didn't do it yet
export PATH="~/edgetx/edgetx-main/radio/util:$PATH"
Do the rest
cd ~/edgetx/edgetx-main/build-output
cmake -DPCB=X10 -DPCBREV=TX16S -DDEFAULT_MODE=2 -DGVARS=YES -DPPM_UNIT=US -DHELI=NO -DLUA=YES -DINTERNAL_GPS=YES -DCMAKE_BUILD_TYPE=Debug ../
make -j`nproc` firmware
make -j`nproc` companion25
make -j`nproc` libsimulator
make -j`nproc` simulator25
You will need to have some location for the SDCARD you are going to use for the simulation. I suggest to set up an SDCARD folder in your personal directory, and create a subfolder for all radio types. Yes, if you are going to test, it is good practice to not only test your own preferred radio, but to test at least one of each of the other versions. It is a courtesy to the developer and future users:
mkdir ~/SDCARD
cd ~/SDCARD
wget https://github.com/EdgeTX/edgetx-sdcard/releases/download/latest/taranis-x7.zip
wget https://github.com/EdgeTX/edgetx-sdcard/releases/download/latest/taranis-x9.zip
wget https://github.com/EdgeTX/edgetx-sdcard/releases/download/latest/horus.zip
unzip -u taranis-x7.zip
unzip -u taranis-x9.zip
unzip -u horus.zip
rm *.zip
The companion is located in the build_output directory, so we run it with this command:
~/edgetx/edgetx-main/build-output/companion25
Now when companion started, you need to go to settings/radio profiles and create at least one profile, with the created radio type selected. Also, in settings, set the SDcard path to your just downloaded and unzipped SDCard content, in this tutorial the Horus content.
/home/yourUserName/SDCARD/horus
If you have an existing .otx file, you can now load is at well :).
The simulator is located in the build_output directory as well, so we run it with this command:
~/edgetx/edgetx-main/build-output/simulator25
Now when companion started, you created at least one profile, with the created radio type. Select that profile, and start it up.
Now you have a running simulator, you can test your own models by opening your .otx file in the simulator. Be aware that the simulator will actually CHANGE that file, so better use copies only. If the simulator works correct, you can try using the firmware on the radio. You can just copy the firmware you created to the SDCard of your radio, in the FIRMWARE folder. Then, when starting the radio in BOOTLOADER mode by pushing the horizontal trims to each other while starting the radio, you can select the new firmware, and install it. Make sure you have backups if needed, and a correct firmware somewhere to be able to go back when necessary.
Well, if you found any issue, please first check if it is not an existing issue on github. EdgeTX open issues
You can then add your findings to the existing issues, making it easier to solve it (correctly). Otherwise, create a new issue. new issue At least, mention the radio type and firmware version in your issue, as well as if it was the simulator or the physical radio that showed the bug, or both.
This is the part where all the work was done for. By having the possibility to compile yourself, you don't need to wait for the release candidates to help testing certain changes! You can now update the code you cloned before at anytime to the latest version by the following command:
cd ~/edgetx/edgetx_main
git pull https://github.com/EdgeTX/edgetx.git
This video gives some useful tips: github tutorial
- You can start an explorer from Ubuntu, that will allow you to access the Ubuntu files safely from Windows. Simple type
explorer.exe
in Ubuntu. In the explorer you open from Ubuntu in Windows: - The Ubuntu files are under
\\wsl$\Ubuntu-20.04\
Pin it to you quick access list of locations!! there is a small pin in the start menu on explorer to do that.
Make sure you know where you are in Ubuntu Linux:
- the terminal starts in your personal directory in Ubuntu, just one level below
/HOME
. So typecd /HOME
, and thendir
, and you can see where your personal files are for your Ubuntu user. - The X-windows terminal starts in
/mnt/c/Windows/System32
. To switch quickly to your home directory typecd /HOME
It is not that difficult when you got it al listed out to setup and compile your own stuff, test it, report it back, and redo the entire cycle.
I hope others feel the same when using this guide.
Next guide will be on documentation.
I am really a noob. That helps to prevent the obvious things from being forgotten to write down for other noobs. Like setting the path on every session before the compile, and other stupid simple things you do without thinking when you do things more often.
In this workflow, we are NOT interested in keeping things up to date, correct, organized, from a coding perspective.
It is meant to reload another branch or tag or version or whatever things there are on GitHub that need testing or documentation (new parts in the GUI for instance) with as little as possible actions. And without ruining any settings or references that are already created for the companion and or simulator that are probably stored when running in the build-output directory.
What I am not understanding yet is how to test a certain pull request before it is part of the main branch.
If someone could help out there, that would be great.
Getting started with Git
- Workflow for GitHub noobs
Building and debugging EdgeTX
- In a webbrowser with Gitpod
- Windows 10 (MSYS2)
- Docker with Windows 10
- Ubuntu in a WSL2 under Win10
- Ubuntu 20.04
- MacOS 10.15
- MacOS 14.1
Modifications:
- Flysky Hall Sticks Mod
- Flysky FRM303 Mod for TX16S
- Flysky PL18 & PL18EV Hardware Mod for Complete EdgeTX Support
- Flysky NB4+ Hardware Mod for Complete EdgeTX Support
- Flashing EdgeTX to Flysky PL18 or Paladin-EV
How to unbrick your radio with STM32CubeProgrammer
DMA mappings of radios:
- RadioMaster TX16S
- FlySky NV14
Interrupt usage of radios:
- RadioMaster TX16S
Implementation notes:
- YAML Parser/Generator
- Mixer synchronisation
Customisable switches:
- Customisable switches
Deprecated:
- Windows 10 (Visual C++)