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AutoQuad Flight Control Firmware

This is a fork/continuation of Bill Nesbitt's AutoQuad firmware for multicopter flight control.

USE AT YOUR OWN RISK!!! ABSOLUTELY NO RESPONSOBILITY IS ASSUMED BY THE AUTHORS OR PUBLISHERS OF THIS FIRMWARE. SEE LICENSE FILE FOR FULL TERMS.

Repository Structure:

  • master branch is current stable version.
  • next branch is to integrate all proposed changes for holistic testing before being committed to master.
  • Numbered branches (eg. 6.8) are for older versions.
  • All other branches are "feature" branches used for testing individual changes before integration into next.

Pull requests should typically be submitted against the next branch, unless it is an important fix for something which affects master as well, or some other similarly good reason.

Binary Distributions

Pre-compiled firmware versions can be found at the AutoQuad public FTP site: ftp://ftp.autoquad.org/3/334693_22529/aq-firmware/forks/mpaperno/aq_flight_control/. The structure is organized by repository branch and then hardware version.

Getting The Source Code

If you already have a Git client installed (or are willing to learn), the easiest method is to clone this repository to your local machine. If you do not want to deal with Git, you may also download zip archives of the necessary projects.

Repository Checkout & Submodule Init/Update

This repository contains Git submodules (for MAVLink headers) which must be initialized and updated. This is a simple process but you will get compile errors if you don't do it.

If you use a GUI Git client (TortoiseGit, SourceTree, etc) then look for options such as recursive during cloning and commands like "Update Submodules". This is usually an option when (or after) you do a clone/checkout command. Refer to the program's help if necessary. After checking out the code, make sure the lib/mavlink/include folder exists.

It is also very easy to use the command line for clone, update, and checkout.

Here's a complete example starting with fresh copy of the repo, then checking out the next branch, and the submodule init:

git clone https://github.com/mpaperno/aq_flight_control.git
cd aq_flight_control
git checkout next
git submodule update --init

If you already have a clone of the repo and you only want to do a pull of the latest changes, run something like this (example uses the master branch and assumes "origin" for the remote name of this GitHub repo, which is a typical default):

git checkout master
git pull --recurse-submodules origin master
git submodule update --init

As you may have gathered by now, the point is to run git submodule update after cloning or updating the code from this repository. The --init option is only necessary the first time, but it doesn't hurt to include it.

Download Code as Zip Archives

Unfortunately GitHub makes this a bit more complicated than it should be. To download a snapshot of the current code on any branch:

  1. In the default GitHub Code tab view, find the Branch menu and select the branch you want to download.
  2. To the right of the Branch menu, click the Download ZIP link and save the file (it will be named something like "aq_flight_control_master.zip")
  3. While still in the Code view, click on the lib folder.
  4. To the right of the mavlink folder there is an ID like "67a140b" or similar (7 hex digits). Click on that. It will take you to a different code repository (AutoQuad/mavlink_headers) and to a specific commit in a specific branch (this is important).
  5. Now click the Download Zip link on this new page. Save the file (it will be named "mavlink_headers-" with a long string of numbers at the end).
  6. Unzip the "aq_flight_control_master.zip" file into wherever you want to keep the firmware source code (preferably a directory path w/out spaces).
  7. Unzip the "mavlink_headers-xxxxx.zip" file into the lib/mavlink folder of the firmware source code tree. So the final result should be a lib/mavlink/include folder with 2 subfolders and some .h files inside.

Compiling The Firmware

Download GNU ARM Embedded Toolchain and follow its readme.txt to install the toolchain on your system.

Building with Eclipse:

Note: You will need Java to run Eclipse.

  1. Download and install Eclipse CDT.

  2. Install the GNU MCU Eclipse plug-ins.

  3. Open Eclipse and click File -> New -> Makefile Project with Existing Code. In the popup window, select the project folder in Existing Code Location. And select ARM Cross GCC in the Toolchain for Indexer Settings list. The click Finish.

  4. Right click the project and click Properties. Select C/C++ Build on the left, then de-select Use default build command and set Build command to make BUILD_TYPE=Debug MAV_VER=2 PROJ_ROOT=${CWD}.

  5. (Optional) Click C/C++ General -> Preprocessor Include Paths in the Properties window. Switch to Providers tab. In the list of providers, click CDT Cross GCC Built-in Compiler Settings. Under Command to get compiler specs, replace the text in Command to get compiler specs with arm-none-eabi-gcc ${FLAGS} -E -P -v -dD "${INPUTS}". Then click CDT GCC Build Output Parser and replace the text in Compiler command pattern with arm-none-eabi-(g?cc)|([gc]\+\+)|(clang).

  6. Right click the project and click Build Project to build.

Building with Makefile:
  1. By default a release binary is built. Run make BUILD_TYPE=Debug to build debug firmware.
  2. To change the AQ hardware version, pass BOARD_VER and BOARD_REV arguments to make. Eg. make BOARD_VER=8 BOARD_REV=6 to build for M4 rev 6 (M4 v2). Read the Makefile for full list of versions and revisions available.
Tips for using Makefile
  1. Read the Makefile comments for more options, full list of build targets, and other information.
  2. Use -jX for faster (parallel) compilation, where "X" equals the number of CPUs/cores/threads on your computer. If you have make version 4+, also add the -O option for better progress output during compilation. Eg. make -j8 -O for a quad-core CPU.
  3. The Makefile.user file is the right place to specify build options you typically want, then you can avoid entering them on the command-line each time, or editing the main Makefile. You can also set any variable in the environment and make will use it instead of the default in the Makefile. Command-line options always override all other variables.
  4. All directory paths are relative to the location of the Makefile. You can use relative or absolute paths for most options.
  5. You can easily set up a local environment and specify build options using a batch or shell file. This is especially useful for Windows so you can specify a local PATH variable w/out having to change the system-wide PATH (and need to restart Windows). The order of the PATH entries also affects how Windows searches for commands (making it easy to, for example, override Windows' mkidir with GNU tools mkdir). Here is a basic example batch file to initiate a build (this also shows using environment variables to set all the build options):
@echo off
set PATH=c:\devel\gcc-arm-none-eabi\bin;c:\devel\GnuWin\bin;C:\Windows\system32;C:\WINDOWS;C:\WINDOWS\System32\Wbem
set BUILD_TYPE=Release-M4.r6
set BOARD_VER=8
set BOARD_REV=6
make bin 
Notes for Windows Users:

You will need some GNU (Unix/Linux) tools installed and in your PATH. Make sure to install them on a path with no spaces (eg. c:/GnuWin/) There are several good sources for these, including GnuWin32 CoreUtils and ezwinports. The following utilities are required:

sh, make, gawk, mv, echo, rm, mkdir, expr, zip.

Most distributions include an older version of 'make' (3.x). Version 4.x offers some improvements for parallel builds. Windows versions are available from ezwinports (get a "w/out guile" version) or Equation Solution (64 or 32 bit version, depending on your Windows type).

Note that all directory paths used by make should have forward slashes (/) instead of typical Windows backslashes (\).

Debug in Eclipse:

  1. Download and install OpenOCD from this repo.
  2. Build the firmware in Eclipse.
  3. Click Run -> Debug Configurations and double click GDB OpenOCD Debugging. The a new target will be created under GDB OpenOCD Debugging, click the new target.
  4. Check the elf binary is correct in the Main tab.
  5. Switch to Debugger tab, check the Start OpenOCD locally option and select the executable path for OpenOCD. Type -f openocd.cfg in the Config options text field. Note that the openocd.cfg in this repo is for ST-Link v2 only. If you are using other debug probes, the openocd.cfg should be revised.
  6. Click Apply button to save the configuration. The click Debug button to start a debug session.

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