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A distribution of the open source CFE framework which includes CCSDS Electronic Data Sheet support

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Core Flight System with Electronic Data Sheets

A distribution of the open source CFE framework which includes CCSDS Electronic Data Sheet support. This repository represents an assembly of CFE framework components, merged together into a single git repository using "git subtree".

The following NASA open source releases are part of this repository:

GSC-18128-1, Core Flight Executive Version 6.7
GSC-18370-1, Operating System Abstraction Layer
LEW-19710-1, CCSDS SOIS Electronic Data Sheet Implementation

This comprises the following individual subdirectories:

Each component contains a LICENSE file in its respective directory.

Getting Started

Prerequisites

The system can be developed on any GNU/Linux development host, although most testing takes place on Ubuntu "LTS" distributions. The following development packages must be installed on the host. Note these are names of Debian/Ubuntu packages; other Linux distributions should provide a similar set but the package names may vary.

  • build-essential (contains gcc, libc-dev, make, etc.)
  • cmake (at least v2.8.12 recommended)
  • libexpat1-dev
  • liblua5.3-dev (older versions of Lua may work, at least v5.1 is required)
  • libjson-c-dev (optional; for JSON bindings)
  • python3-dev (optional; for python bindings)

Initial Setup

The distribution contains a "sample" configuration and wrapper Makefile which is intended as a starting point for users. This configuration may be copied to the top level and extended from there.

Commands:

cp -r ./cfe/cmake/sample_defs .
cp -r ./cfe/cmake/Makefile.sample Makefile

The sample_defs directory contains a complete CFE and OSAL configuration. Once cloned, it can be modified or extended with project-specific items as needed. In particular the targets.cmake file controls which applications are built.

Building the Software

The software uses CMake to generate Unix Makefiles to perform the build. However, due to the fact that a CFE mission may contain multiple different targets and several different architectures, the build is implemented in several tiers. The "mission" is the top-tier, and the "arch" is the lower- tier, and multiple different "arch" tiers may exist. A "mission-all" custom target is defined at the top level which builds all tiers.

The sample Makefile contains wrapper targets for both executing CMake to prepare the build tree, and for the actual software build. This wrapper makes it easy to integrate into various IDEs, even if the IDE is not CMake-aware.

The variable SIMULATION may be used to override the system architecture in the configuration files. The special keyword native is recognized to indicate the native system. In this mode, the default host compiler (e.g. /usr/bin/cc) is used to build all binaries, regardless of the target architecture. This feature builds an executable suitable for running and debugging directly on the development host.

To prepare a build tree, which will be generated in ./build by default:

make SIMULATION=native prep

To build all binaries:

make all

To stage the software for execution:

make install

The "install" target stages the output by default into ./build/exe

Executing the software

If the SIMULATION=native flag is supplied in the initial setup, then the resulting binaries can be executed directly on the development host. Note that OSAL uses a virtualized file system which is rooted in the current working directoy (cwd) so one should always cd into the staging tree prior to executing CFE.

To execute the software on the development host:

cd build/exe/cpu1
./core-cpu1

Commands may be sent to the software using the cmdUtil host tool. This is installed in the host subdirectory. From another terminal/window:

cd build/exe/host
./cmdUtil -D CFE_ES/Application/CMD.Noop

To view telemetry, first enable telemetry output in TO_LAB and send to localhost:

./cmdUtil -D TO_LAB/Application/EnableOutput dest_IP=127.0.0.1

Then to view and decode the telemetry being sent:

./tlm_decode

Next Steps

This distribution may serve as the baseline for a CFE mission. It may be forked and extended for mission-specific needs while still retaining the relationship to the original component sources for future patching/upgrading as needed.

Changing the Name

The distribution contains a configuration named "SampleMission" in the sample_defs directory.
Generally one of the first steps is to rename this to be more appropriate.

  • Rename the sample_defs directory to ${name}_defs (retaining the _defs suffix)
  • Rename and update sample_mission_cfg.h and sample_perfids.h file accordingly
  • Update the MISSION_NAME and SPACECRAFT_ID within the targets.cmake file

Adding and Updating an App

Third party CFS applications may be obtained through a variety of different channels. The package or upstream app repository should be typically placed as a subdirectory under ./apps with a directory name matching the name of the application or library.

If the upstream application is in a git repository, then the git subtree add command may be used to add the application, which retains a relationship to the original source:

git remote add ${name} ${repo_url}
git config remote.${name}.tagOpt --no-tags
git fetch ${name}
git subtree add -P apps/${name} ${name}/master

See notes below for further explanation of the --no-tags option and why this is often necessary.

If/when a new version of the upstream app is released after the initial subtree add, it may be merged, for example:

git fetch ${name}
git subtree merge -P apps/${name} ${name}/master

If the application is distributed as a tarball or zipfile, then the distribution file may be simply extracted as a subdirectory within ./apps.

The application should then be added to targets.cmake and cfe_es_startup.scr within the mission configuration directory (e.g. sample_defs) to build and execute it.

IMPORTANT: The build scripts will search for applications and modules based on the name, so the directory name containing the module must match the name of the module listed in targets.cmake exactly. It is recommended to use all lowercase names to avoid issues with case senstivity in file systems, and avoid any sort of punctuation aside from underscores.

Subtrees and Tags

git implments a single/unified namespace for tags, and as a result the tags of any repository added as a remote per the above will also fetch the tags of that remote, and create local tags of the same name. If tags are simply named, such as e.g. v2.4.0, then it is possible to get duplicate/conflicting tags between subtree repositories.

To avoid this issue, it is recommended to fetch with --no-tags for repositories used as subtrees. This can be configured persistently using the command:

git config remote.${name}.tagOpt --no-tags

Where ${name} represents the name of the remote. The result should be equivalent to specifying the --no-tags option on all fetches from this remote.

OPTIONAL: Translate tags when fetching and introduce a namespace prefix

It is also fairly simple to add and explicit specification to fetch tags but translate them into a namespace. This can be done by editing the .git/config file within the base repository, and adding a line to each remote used with subtrees:

fetch = +refs/tags/*:refs/tags/${name}-*

Again, where ${name} represents the name of the remote. This creates a local tag with the same name but with a prefix based on the remote name, thereby avoiding tag conflicts. Note that one still needs to use the --no-tags option per above, otherwise two tags will be locally created, one with the prefix and one without the prefix.

Further information

As this repository represents only an assemply of components without any additional code, any issues should be submitted to the upstream component whenever possible.

Additional resources may be found at:

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