Merge pull request 'README update and utility host scripts' (#62) from mueller/readme-update-cp-script into develop
Reviewed-on: #62 Reviewed-by: Jakob.Meier <meierj@irs.uni-stuttgart.de>
This commit is contained in:
commit
cffd6af1e1
637
README.md
637
README.md
@ -1,7 +1,25 @@
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<img align="center" src="./doc/img/eive-logo.png" width="20%">
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|
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<a id="top"></a> <a name="linux"></a> EIVE On-Board Software
|
||||
======
|
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|
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# General information
|
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# Index
|
||||
|
||||
1. [General](#general)
|
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2. [Prerequisites](#prereq)
|
||||
3. [Building the Software](#build)
|
||||
4. [Useful and Common Host Commands](#host-commands)
|
||||
5. [Setting up Prerequisites](#set-up-prereq)
|
||||
6. [Remote Debugging](#remote-debugging)
|
||||
7. [Direct Debugging](#direct-debugging)
|
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8. [Transfering Files to the Q7S](#file-transfer)
|
||||
9. [Q7S OBC](#q7s)
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10. [Static Code Analysis](#static-code-analysis)
|
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11. [Eclipse](#eclipse)
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12. [Running the OBSW on a Raspberry Pi](#rpi)
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13. [FSFW](#fsfw)
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# <a id="general"></a> General information
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|
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Target systems:
|
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|
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@ -36,16 +54,199 @@ The CMake build system can be used to generate build systems as well (see helper
|
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- Linux Host: Uses the `bsp_hosted` BSP folder and the CMake Unix Makefiles generator.
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- Windows Host: Uses the `bsp_hosted` BSP folder, the CMake MinGW Makefiles generator and MSYS2.
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# Setting up development environment
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# <a id="prereq"></a> Prerequisites
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||||
## Installing Vivado the the Xilinx development tools
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There is a separate [prerequisites](#set-up-prereq) which specifies how to set up all
|
||||
prerequisites.
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## Building the OBSW and flashing it on the Q7S
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|
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1. ARM cross-compiler installed, either as part of [Vivado 2018.2 installation](#vivado) or
|
||||
as a [separate download](#arm-toolchain)
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2. [Q7S sysroot](#q7s-sysroot) on local development machine
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3. Recommended: Eclipse or [Vivado 2018.2 SDK](#vivado) for OBSW development
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3. [TCF agent] running on Q7S
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|
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## Hardware Design
|
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|
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1. [Vivado 2018.2](#vivado) for programmable logic design
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|
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# <a id="build"></a> Building the software
|
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|
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## CMake
|
||||
|
||||
When using Windows, run theses steps in MSYS2.
|
||||
|
||||
1. Clone the repository with
|
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|
||||
```sh
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git clone https://egit.irs.uni-stuttgart.de/eive/eive_obsw.git
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```
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||||
|
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2. Update all the submodules
|
||||
|
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```sh
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git submodule init
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git submodule sync
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git submodule update
|
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```
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|
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3. Ensure that the cross-compiler is working with `arm-linux-gnueabihf-gcc --version`.
|
||||
It is recommended to set up a shell script which takes care of setting up the environment
|
||||
for convenience or to set up the
|
||||
[PATH and the CROSS_COMPILE variable permanently](https://unix.stackexchange.com/questions/26047/how-to-correctly-add-a-path-to-path)
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in the `.profile` file.
|
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|
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4. Run the CMake configuration to create the build system in a `build-Debug-Q7S` folder.
|
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Add `-G "MinGW Makefiles` in MinGW64 on Windows.
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|
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```sh
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mkdir build-Debug-Q7S && cd build-Debug-Q7S
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cmake -DTGT_BSP="arm/q7s" -DCMAKE_BUILD_TYPE=Debug -DOS_FSFW=linux ..
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cmake --build . -j
|
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```
|
||||
|
||||
You can also use provided shell scripts to perform these commands
|
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|
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```sh
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cd cmake/scripts/Q7S
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./make_debug_cfg.sh
|
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cd ../../..
|
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```
|
||||
|
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This will invoke a Python script which in turn invokes CMake with the correct
|
||||
arguments to configure CMake for Q7S cross-compilation.
|
||||
|
||||
You can build the hosted variant of the OBSW by replacing `-DOS_FSFW=linux` with
|
||||
`-DOS_FSFW=host`. There are also different values for `-DTGT_BSP` to build for the Raspberry Pi
|
||||
or the Beagle Bone Black: `arm/raspberrypi` and `arm/beagleboneblack`.
|
||||
|
||||
5. Build the software with
|
||||
```sh
|
||||
cd build-Debug-Q7S
|
||||
cmake --build . -j
|
||||
```
|
||||
|
||||
## Building in Xilinx SDK 2018.2
|
||||
|
||||
1. Open Xilinx SDK 2018.2
|
||||
2. Import project
|
||||
* File → Import → C/C++ → Existing Code as Makefile Project
|
||||
3. Set build command. Replace \<target\> with either debug or release.
|
||||
* When on Linux right click project → Properties → C/C++ Build → Set build command to `make <target> -j`
|
||||
* -j causes the compiler to use all available cores
|
||||
* The target is used to either compile the debug or the optimized release build.
|
||||
* On windows create a make target additionally (Windows → Show View → Make Target)
|
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* Right click eive_obsw → New
|
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* Target name: all
|
||||
* Uncheck "Same as the target name"
|
||||
* Uncheck "Use builder settings"
|
||||
* As build command type: `cmake --build .`
|
||||
* In the Behaviour tab, you can enable build acceleration
|
||||
4. Run build command by double clicking the created target or by right clicking
|
||||
the project folder and selecting Build Project.
|
||||
|
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# <a id="host-commands"></a> Useful and Common Commands (Host)
|
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|
||||
## Connect to EIVE flatsat
|
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|
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### DNS
|
||||
|
||||
```sh
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ssh eive@flatsat.eive.absatvirt.lw
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||||
```
|
||||
|
||||
### IPv6
|
||||
```sh
|
||||
ssh eive@2001:7c0:2018:1099:babe:0:e1fe:f1a5
|
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```
|
||||
|
||||
### IPv4
|
||||
|
||||
```sh
|
||||
ssh eive@192.168.199.227
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```
|
||||
|
||||
## Connecting to the serial console or ssh console
|
||||
|
||||
A serial console session is up permanently in a `tmux` session
|
||||
|
||||
### Serial console
|
||||
|
||||
You can check whether the sessions exist with `tmux ls`
|
||||
|
||||
```sh
|
||||
tmux a -t q7s-serial
|
||||
```
|
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|
||||
If the session does not exist, you can create it like this
|
||||
|
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```sh
|
||||
tmux new -s q7s-serial
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/bin/bash
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||||
q7s_serial
|
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```
|
||||
|
||||
### SSH console
|
||||
|
||||
You can use the following command to connect to the Q7S with `ssh`:
|
||||
|
||||
```sh
|
||||
q7s_ssh
|
||||
```
|
||||
|
||||
## Port forwarding for connection to TCF agent
|
||||
|
||||
This is a required step to connect to the `tcf-agent` on the Q7S, which is required for convenient
|
||||
remote debugging. Assuming the IPv6
|
||||
|
||||
```sh
|
||||
ssh -L 1534:192.168.133.10:1534 eive@2001:7c0:2018:1099:babe:0:e1fe:f1a5 -t /bin/bash
|
||||
```
|
||||
|
||||
You then need to connect to `localhost` with port `1534`.
|
||||
|
||||
## Port forwarding for file transfers with `scp`
|
||||
|
||||
```sh
|
||||
ssh -L 1535:192.168.133.10:22 eive@2001:7c0:2018:1099:babe:0:e1fe:f1a5 -t /bin/bash
|
||||
```
|
||||
|
||||
You then need to run `scp` with the `-P 1535` flag with `localhost` as the target IP address.
|
||||
|
||||
## Port forwarding for TMTC commanding
|
||||
|
||||
This requires using the TCP on sender side (Python client) and receiver side (OBSW TMTC TCP server).
|
||||
|
||||
```sh
|
||||
ssh -L 1536:192.168.133.10:7301 eive@2001:7c0:2018:1099:babe:0:e1fe:f1a5 -t /bin/bash
|
||||
```
|
||||
|
||||
## Set up all port forwarding at once
|
||||
|
||||
You can specify the `-L` option multiple times to set up all port forwarding at once
|
||||
|
||||
```sh
|
||||
ssh -L 1534:192.168.133.10:1534 \
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||||
-L 1535:192.168.133.10:22 \
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||||
-L 1536:192.168.133.10:7301 \
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||||
eive@2001:7c0:2018:1099:babe:0:e1fe:f1a5 \
|
||||
-t 'export CONSOLE_PREFIX="[Q7S Tunnel] /bin/bash'
|
||||
```
|
||||
|
||||
There is also a shell script called `q7s-port.sh` which can be used to achieve the same.
|
||||
|
||||
# <a id="set-up-prereq"></a> Setting up prerequisites
|
||||
|
||||
## <a id="vivado"></a> Installing Vivado the the Xilinx development tools
|
||||
|
||||
It's also possible to perform debugging with a normal Eclipse installation by installing
|
||||
the TCF plugin and downloading the cross-compiler as specified in the section below. However,
|
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if you want to generate the `*.xdi` files necessary to update the firmware, you need to
|
||||
installed Vivado with the SDK core tools.
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|
||||
* Install Vivado 2018.2 and Xilinx SDK from https://www.xilinx.com/support/download/index.html/content/xilinx/en/downloadNav/vivado-design-tools/archive.html.
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* Install Vivado 2018.2 and
|
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[Xilinx SDK](https://www.xilinx.com/support/download/index.html/content/xilinx/en/downloadNav/vivado-design-tools/archive.html).
|
||||
Install the Vivado Design Suite - HLx Editions - 2018.2 Full Product Installation instead of
|
||||
the updates. It is recommended to use the installer.
|
||||
|
||||
@ -85,7 +286,7 @@ For Linux, you can also download a more recent version of the
|
||||
[Linaro 8.3.0 cross-compiler](https://developer.arm.com/tools-and-software/open-source-software/developer-tools/gnu-toolchain/gnu-a/downloads)
|
||||
from [here](https://developer.arm.com/-/media/Files/downloads/gnu-a/8.3-2019.03/binrel/gcc-arm-8.3-2019.03-x86_64-arm-linux-gnueabihf.tar.xz?revision=e09a1c45-0ed3-4a8e-b06b-db3978fd8d56&la=en&hash=93ED4444B8B3A812B893373B490B90BBB28FD2E3)
|
||||
|
||||
## Installing toolchain without Vivado
|
||||
## <a id="arm-toolchain"></a> Installing toolchain without Vivado
|
||||
|
||||
You can download the toolchains for Windows and Linux
|
||||
[from the EIVE cloud](https://eive-cloud.irs.uni-stuttgart.de/index.php/apps/files?dir=/EIVE_IRS/Software/tools&fileid=831898).
|
||||
@ -136,7 +337,7 @@ wget https://eive-cloud.irs.uni-stuttgart.de/index.php/s/2Fp2ag6NGnbtAsK/downloa
|
||||
sudo apt-get install cmake
|
||||
````
|
||||
|
||||
## Getting the Q7S system root
|
||||
## <a id="q7s-sysroot"></a> Getting the Q7S system root
|
||||
|
||||
It is necessary to copy the Q7S system root to your local development machine for libraries
|
||||
like `libgpio`. You can find the system root for the Q7S, the Raspberry Pi and the
|
||||
@ -151,102 +352,58 @@ wget https://eive-cloud.irs.uni-stuttgart.de/index.php/s/agnJGYeRf6fw2ci/downloa
|
||||
|
||||
Then, create a new environmental variables `Q7S_SYSROOT` and set it to the local system root path.
|
||||
|
||||
# Building the software with CMake
|
||||
## Setting up UNIX environment for real-time functionalities
|
||||
|
||||
When using Windows, run theses steps in MSYS2.
|
||||
Please note that on most UNIX environments (e.g. Ubuntu), the real time functionalities
|
||||
used by the UNIX pthread module are restricted, which will lead to permission errors when creating
|
||||
these tasks and configuring real-time properites like scheduling priorities.
|
||||
|
||||
1. Clone the repository with
|
||||
To solve this issues, try following steps:
|
||||
|
||||
1. Edit the /etc/security/limits.conf
|
||||
file and add following lines at the end:
|
||||
```sh
|
||||
<username> hard rtprio 99
|
||||
<username> soft rtprio 99
|
||||
```
|
||||
The soft limit can also be set in the console with `ulimit -Sr` if the hard
|
||||
limit has been increased, but it is recommended to add it to the file as well for convenience.
|
||||
If adding the second line is not desired for security reasons,
|
||||
the soft limit needs to be set for each session. If using an IDE like eclipse
|
||||
in that case, the IDE needs to be started from the console after setting
|
||||
the soft limit higher there. After adding the two lines to the file,
|
||||
the computer needs to be restarted.
|
||||
|
||||
It is also recommended to perform the following change so that the unlockRealtime
|
||||
script does not need to be run anymore each time. The following steps
|
||||
raise the maximum allowed message queue length to a higher number permanently, which is
|
||||
required for some framework components. The recommended values for the new message
|
||||
length is 130.
|
||||
|
||||
2. Edit the /etc/sysctl.conf file
|
||||
|
||||
```sh
|
||||
git clone https://egit.irs.uni-stuttgart.de/eive/eive_obsw.git
|
||||
sudo nano /etc/sysctl.conf
|
||||
```
|
||||
|
||||
2. Update all the submodules
|
||||
|
||||
Append at end:
|
||||
```sh
|
||||
git submodule init
|
||||
git submodule sync
|
||||
git submodule update
|
||||
```
|
||||
|
||||
3. Ensure that the cross-compiler is working with `arm-linux-gnueabihf-gcc --version`.
|
||||
It is recommended to run the shell script `win_path_helper_xilinx_tools.sh` in `cmake/scripts/Q7S`
|
||||
or to set up the [PATH and the CROSS_COMPILE variable permanently](https://unix.stackexchange.com/questions/26047/how-to-correctly-add-a-path-to-path)
|
||||
in the `.profile` file.
|
||||
|
||||
4. Run the CMake configuration to create the build system in a `build-Debug-Q7S` folder.
|
||||
Add `-G "MinGW Makefiles` in MinGW64 on Windows.
|
||||
|
||||
```sh
|
||||
mkdir build-Debug-Q7S && cd build-Debug-Q7S
|
||||
cmake -DTGT_BSP="arm/q7s" -DCMAKE_BUILD_TYPE=Debug -DOS_FSFW=linux ..
|
||||
cmake --build . -j
|
||||
```
|
||||
|
||||
You can also use provided shell scripts to perform these commands
|
||||
|
||||
```sh
|
||||
cd cmake/scripts/Q7S
|
||||
./make_debug_cfg.sh
|
||||
cd ../../..
|
||||
```
|
||||
|
||||
This will invoke a Python script which in turn invokes CMake with the correct
|
||||
arguments to configure CMake for Q7S cross-compilation.
|
||||
|
||||
You can build the hosted variant of the OBSW by replacing `-DOS_FSFW=linux` with
|
||||
`-DOS_FSFW=host`. There are also different values for `-DTGT_BSP` to build for the Raspberry Pi
|
||||
or the Beagle Bone Black: `arm/raspberrypi` and `arm/beagleboneblack`.
|
||||
|
||||
5. Build the software with
|
||||
```sh
|
||||
cd Debug
|
||||
cmake --build . -j
|
||||
fs/mqueue/msg_max = <newMsgMaxLen>
|
||||
```
|
||||
|
||||
## Setting up default Eclipse for Q7S projects - TCF agent
|
||||
Apply changes with:
|
||||
```sh
|
||||
sudo sysctl -p
|
||||
```
|
||||
|
||||
The [TCF agent](https://wiki.eclipse.org/TCF) can be used to perform remote debugging on the Q7S.
|
||||
A possible solution which only persists for the current session is
|
||||
```sh
|
||||
echo <newMsgMax> | sudo tee /proc/sys/fs/mqueue/msg_max
|
||||
```
|
||||
|
||||
1. Install the TCF agent plugin in Eclipse from the [releases](https://www.eclipse.org/tcf/downloads.php). Go to Help → Install New Software and use the download page, for example https://download.eclipse.org/tools/tcf/releases/1.6/1.6.2/ to search for the plugin and install it.
|
||||
## <a id="tcf-agent"></a> TCF-Agent
|
||||
|
||||
2. Go to Window → Perspective → Open Perspective and open the **Target Explorer Perspective**.
|
||||
Here, the Q7S should show up if the local port forwarding was set up as explained previously. Please note that you have to connect to `localhost` and port `1534` with port forwaring set up.
|
||||
|
||||
3. A launch configuration was provided, but it might be necessary to adapt it for your own needs. Alternatively:
|
||||
|
||||
- Create a new **TCF Remote Application** by pressing the cogs button at the top or going to Run → Debug Configurations → Remote Application and creating a new one there.
|
||||
|
||||
- Set up the correct image in the main tab (it might be necessary to send the image to the Q7S manually once) and file transfer properties
|
||||
|
||||
- It is also recommended to link the correct Eclipse project.
|
||||
|
||||
After that, comfortable remote debugging should be possible with the Debug button.
|
||||
|
||||
A build configuration and a shell helper script has been provided to set up the path variables and
|
||||
build the Q7S binary on Windows, but a launch configuration needs to be newly created because the
|
||||
IP address and path settings differ from machine to machine.
|
||||
|
||||
## Building in Xilinx SDK 2018.2
|
||||
|
||||
1. Open Xilinx SDK 2018.2
|
||||
2. Import project
|
||||
* File → Import → C/C++ → Existing Code as Makefile Project
|
||||
3. Set build command. Replace \<target\> with either debug or release.
|
||||
* When on Linux right click project → Properties → C/C++ Build → Set build command to `make <target> -j`
|
||||
* -j causes the compiler to use all available cores
|
||||
* The target is used to either compile the debug or the optimized release build.
|
||||
* On windows create a make target additionally (Windows → Show View → Make Target)
|
||||
* Right click eive_obsw → New
|
||||
* Target name: all
|
||||
* Uncheck "Same as the target name"
|
||||
* Uncheck "Use builder settings"
|
||||
* As build command type: `cmake --build .`
|
||||
* In the Behaviour tab, you can enable build acceleration
|
||||
4. Run build command by double clicking the created target or by right clicking
|
||||
the project folder and selecting Build Project.
|
||||
|
||||
## TCF-Agent
|
||||
Most of the steps specified here were already automated
|
||||
|
||||
1. On reboot, some steps have to be taken on the Q7S. Set static IP address and netmask
|
||||
|
||||
@ -264,7 +421,7 @@ IP address and path settings differ from machine to machine.
|
||||
You can run it manually there. To perform auto-start on boot, have a look at the start-up
|
||||
application section.
|
||||
|
||||
# Debugging the software via Flatsat PC
|
||||
# <a id="remote-debugging"></a> Remote Debugging
|
||||
|
||||
Open SSH connection to flatsat PC:
|
||||
|
||||
@ -298,6 +455,7 @@ console of the Q7S like this to set it
|
||||
picocom -b 115200 /dev/ttyUSB0
|
||||
```
|
||||
|
||||
The flatsat has the aliases and shell scripts `q7s_ssh` and `q7s_serial` for this task as well.
|
||||
If the serial port is blocked for some reason, you can kill
|
||||
the process using it with `q7s_kill`.
|
||||
|
||||
@ -325,13 +483,68 @@ ssh -L 1534:192.168.133.10:1534 eive@2001:7c0:2018:1099:babe:0:e1fe:f1a5 -t bash
|
||||
```
|
||||
|
||||
This forwards any requests to localhost:1534 to the port 1534 of the Q7S with the IP address
|
||||
192.168.133.10.
|
||||
This needs to be done every time, so it is recommended to create an alias to do this quickly.
|
||||
192.168.133.10. This needs to be done every time, so it is recommended to create an
|
||||
alias or shell script to do this quickly.
|
||||
|
||||
Note: When now setting up a debug session in the Xilinx SDK or Eclipse, the host must be set
|
||||
to localhost instead of the IP address of the Q7S.
|
||||
|
||||
# Transfering files via SCP
|
||||
# <a id="direct-debugging"></a> Direct Debugging
|
||||
|
||||
1. Assign static IP address to Q7S
|
||||
* Open serial console of Q7S (Accessible via the micro-USB of the PIM, see also Q7S user
|
||||
manual chapter 10.3)
|
||||
* Baudrate 115200
|
||||
* Login to Q7S:
|
||||
* user: root
|
||||
* pw: root
|
||||
|
||||
2. Connect Q7S to workstation via ethernet
|
||||
3. Make sure the netmask of the ehternet interface of the workstation matches the netmask of the Q7S
|
||||
* When IP address is set to 192.168.133.10 and the netmask is 255.255.255.0, an example IP address for the workstation
|
||||
is 192.168.133.2
|
||||
|
||||
4. Run tcf-agent on Q7S
|
||||
|
||||
* Tcf-agent is not yet integrated in the rootfs of the Q7S. Therefore build tcf-agent manually
|
||||
|
||||
```sh
|
||||
git clone git://git.eclipse.org/gitroot/tcf/org.eclipse.tcf.agent.git
|
||||
cd org.eclipse.tcf.agent/agent
|
||||
make CC=arm-linux-gnueabihf-gcc LD=arm-linux-gnueabihf-ld MACHINE=arm NO_SSL=1 NO_UUID=1
|
||||
```
|
||||
|
||||
* Transfer executable agent from org.eclipse.tcf.agent/agent/obj/GNU/Linux/arm/Debug to /tmp of Q7S
|
||||
|
||||
```sh
|
||||
cd obj/GNU/Linux/arm/Debug
|
||||
scp agent root@192.168.133.10:/tmp
|
||||
```
|
||||
|
||||
* On Q7S
|
||||
```sh
|
||||
cd /tmp
|
||||
chmod +x agent
|
||||
```
|
||||
|
||||
* Run agent
|
||||
```sh
|
||||
./agent
|
||||
```
|
||||
|
||||
5. In Xilinx SDK 2018.2 right click on project → Debug As → Debug Configurations
|
||||
6. Right click Xilinx C/C++ applicaton (System Debugger) → New →
|
||||
7. Set Debug Type to Linux Application Debug and Connectin to Linux Agent
|
||||
8. Click New
|
||||
9. Give connection a name
|
||||
10. Set Host to static IP address of Q7S. e.g. 192.168.133.10
|
||||
11. Test connection (This ensures the TCF Agent is running on the Q7S)
|
||||
12. Select Application tab
|
||||
* Project Name: eive_obsw
|
||||
* Local File Path: Path to eiveobsw-linux.elf (in `_bin\linux\devel`)
|
||||
* Remote File Path: `/tmp/eive_obsw.elf`
|
||||
|
||||
# <a id="file-transfer"></a> Transfering Files to the Q7S
|
||||
|
||||
To transfer files from the local machine to the Q7S, use port forwarding
|
||||
|
||||
@ -355,7 +568,11 @@ From a windows machine files can be copied with putty tools (note: use IPv4 addr
|
||||
pscp -scp -P 22 eive@192.168.199.227:</directory-to-example-file/>/example-file </windows-machine-path/>
|
||||
````
|
||||
|
||||
# Launching an application at start-up
|
||||
More detailed information about the used q7s commands can be found in the Q7S user manual.
|
||||
|
||||
# <a id="q7s"></a> Q7S
|
||||
|
||||
## Launching an application at start-up
|
||||
|
||||
Load the root partiton from the flash memory (there are to nor-flash memories and each flash holds
|
||||
two xdi images). Note: It is not possible to modify the currently loaded root partition, e.g.
|
||||
@ -420,58 +637,7 @@ creating directories. To do this, the parition needs to be mounted.
|
||||
systemctl status example
|
||||
```
|
||||
|
||||
More detailed information about the used q7s commands can be found in the Q7S user manual.
|
||||
|
||||
## Setting up UNIX environment for real-time functionalities
|
||||
|
||||
Please note that on most UNIX environments (e.g. Ubuntu), the real time functionalities
|
||||
used by the UNIX pthread module are restricted, which will lead to permission errors when creating
|
||||
these tasks and configuring real-time properites like scheduling priorities.
|
||||
|
||||
To solve this issues, try following steps:
|
||||
|
||||
1. Edit the /etc/security/limits.conf
|
||||
file and add following lines at the end:
|
||||
```sh
|
||||
<username> hard rtprio 99
|
||||
<username> soft rtprio 99
|
||||
```
|
||||
The soft limit can also be set in the console with `ulimit -Sr` if the hard
|
||||
limit has been increased, but it is recommended to add it to the file as well for convenience.
|
||||
If adding the second line is not desired for security reasons,
|
||||
the soft limit needs to be set for each session. If using an IDE like eclipse
|
||||
in that case, the IDE needs to be started from the console after setting
|
||||
the soft limit higher there. After adding the two lines to the file,
|
||||
the computer needs to be restarted.
|
||||
|
||||
It is also recommended to perform the following change so that the unlockRealtime
|
||||
script does not need to be run anymore each time. The following steps
|
||||
raise the maximum allowed message queue length to a higher number permanently, which is
|
||||
required for some framework components. The recommended values for the new message
|
||||
length is 130.
|
||||
|
||||
2. Edit the /etc/sysctl.conf file
|
||||
|
||||
```sh
|
||||
sudo nano /etc/sysctl.conf
|
||||
```
|
||||
|
||||
Append at end:
|
||||
```sh
|
||||
fs/mqueue/msg_max = <newMsgMaxLen>
|
||||
```
|
||||
|
||||
Apply changes with:
|
||||
```sh
|
||||
sudo sysctl -p
|
||||
```
|
||||
|
||||
A possible solution which only persists for the current session is
|
||||
```sh
|
||||
echo <newMsgMax> | sudo tee /proc/sys/fs/mqueue/msg_max
|
||||
```
|
||||
|
||||
# PCDU
|
||||
## PCDU
|
||||
|
||||
Connect to serial console of P60 Dock
|
||||
````
|
||||
@ -496,102 +662,6 @@ p60-dock # param get out_en[0]
|
||||
GET out_en[0] = 1
|
||||
````
|
||||
|
||||
# Debugging the software (when workstation is directly conncected to Q7S)
|
||||
|
||||
1. Assign static IP address to Q7S
|
||||
* Open serial console of Q7S (Accessible via the micro-USB of the PIM, see also Q7S user
|
||||
manual chapter 10.3)
|
||||
* Baudrate 115200
|
||||
* Login to Q7S:
|
||||
* user: root
|
||||
* pw: root
|
||||
|
||||
2. Connect Q7S to workstation via ethernet
|
||||
3. Make sure the netmask of the ehternet interface of the workstation matches the netmask of the Q7S
|
||||
* When IP address is set to 192.168.133.10 and the netmask is 255.255.255.0, an example IP address for the workstation
|
||||
is 192.168.133.2
|
||||
|
||||
4. Run tcf-agent on Q7S
|
||||
|
||||
* Tcf-agent is not yet integrated in the rootfs of the Q7S. Therefore build tcf-agent manually
|
||||
|
||||
```sh
|
||||
git clone git://git.eclipse.org/gitroot/tcf/org.eclipse.tcf.agent.git
|
||||
cd org.eclipse.tcf.agent/agent
|
||||
make CC=arm-linux-gnueabihf-gcc LD=arm-linux-gnueabihf-ld MACHINE=arm NO_SSL=1 NO_UUID=1
|
||||
```
|
||||
|
||||
* Transfer executable agent from org.eclipse.tcf.agent/agent/obj/GNU/Linux/arm/Debug to /tmp of Q7S
|
||||
|
||||
```sh
|
||||
cd obj/GNU/Linux/arm/Debug
|
||||
scp agent root@192.168.133.10:/tmp
|
||||
```
|
||||
|
||||
* On Q7S
|
||||
```sh
|
||||
cd /tmp
|
||||
chmod +x agent
|
||||
```
|
||||
|
||||
* Run agent
|
||||
```sh
|
||||
./agent
|
||||
```
|
||||
|
||||
5. In Xilinx SDK 2018.2 right click on project → Debug As → Debug Configurations
|
||||
6. Right click Xilinx C/C++ applicaton (System Debugger) → New →
|
||||
7. Set Debug Type to Linux Application Debug and Connectin to Linux Agent
|
||||
8. Click New
|
||||
9. Give connection a name
|
||||
10. Set Host to static IP address of Q7S. e.g. 192.168.133.10
|
||||
11. Test connection (This ensures the TCF Agent is running on the Q7S)
|
||||
12. Select Application tab
|
||||
* Project Name: eive_obsw
|
||||
* Local File Path: Path to eiveobsw-linux.elf (in `_bin\linux\devel`)
|
||||
* Remote File Path: `/tmp/eive_obsw.elf`
|
||||
|
||||
# Running cppcheck on the Software
|
||||
|
||||
Static code analysis can be useful to find bugs.
|
||||
`cppcheck` can be used for this purpose. On Windows you can use MinGW64 to do this.
|
||||
|
||||
```sh
|
||||
pacman -S mingw-w64-x86_64-cppcheck
|
||||
```
|
||||
|
||||
On Ubuntu, install with
|
||||
|
||||
```sh
|
||||
sudo apt-get install cppcheck
|
||||
```
|
||||
|
||||
You can use the Eclipse integration or you can perform the scanning manually from the command line.
|
||||
CMake will be used for this.
|
||||
|
||||
Run the CMake build generation commands specified above but supply
|
||||
`-DCMAKE_EXPORT_COMPILE_COMMANDS=ON` to the build generation. Invoking the build command will
|
||||
generate a `compile_commands.json` file which can be used by cppcheck.
|
||||
|
||||
```sh
|
||||
cppcheck --project=compile_commands.json --xml 2> report.xml
|
||||
```
|
||||
|
||||
Finally, you can convert the generated `.xml` file to HTML with the following command
|
||||
|
||||
```sh
|
||||
cppcheck-htmlreport --file=report.xml --report-dir=cppcheck --source-dir=..
|
||||
```
|
||||
|
||||
# Special notes on Eclipse
|
||||
|
||||
When using Eclipse, there are two special build variables in the project properties
|
||||
→ C/C++ Build → Build Variables called `Q7S_SYSROOT` or `RPI_SYSROOT`. You can set
|
||||
the sysroot path in those variables to get any additional includes like `gpiod.h` in the
|
||||
Eclipse indexer.
|
||||
|
||||
# Q7S Utilities and Troubleshooting
|
||||
|
||||
## Core commands
|
||||
|
||||
Display currently running image:
|
||||
@ -773,7 +843,10 @@ EIVE implementation
|
||||
- Mount point `/mnt/sd0` created for SD card 0. Created with `mkdir`
|
||||
- Mount point `/mnt/sd1` created for SD card 1. Created with `mkdir`
|
||||
- Folder `scripts` in `/home/root` folder.
|
||||
- `scripts` folder currently contains `update_main_components.sh` script
|
||||
- `scripts` folder currently contains a few shell helper scripts
|
||||
- Folder `profile.d` in `/etc` folder which contains the `path-set.sh` script
|
||||
which is sourced at software startup
|
||||
- Library `libwire.so` in `/usr/lib` folder
|
||||
|
||||
### SD Cards
|
||||
|
||||
@ -783,7 +856,76 @@ EIVE implementation
|
||||
- Folder `tm` for telemetry
|
||||
- Folder `xdi` for XDI components (e.g. for firmware or device tree updates)
|
||||
|
||||
# Running the EIVE OBSW on a Raspberry Pi
|
||||
# <a id="static-code-analysis"></a> Running cppcheck on the Software
|
||||
|
||||
Static code analysis can be useful to find bugs.
|
||||
`cppcheck` can be used for this purpose. On Windows you can use MinGW64 to do this.
|
||||
|
||||
```sh
|
||||
pacman -S mingw-w64-x86_64-cppcheck
|
||||
```
|
||||
|
||||
On Ubuntu, install with
|
||||
|
||||
```sh
|
||||
sudo apt-get install cppcheck
|
||||
```
|
||||
|
||||
You can use the Eclipse integration or you can perform the scanning manually from the command line.
|
||||
CMake will be used for this.
|
||||
|
||||
Run the CMake build generation commands specified above but supply
|
||||
`-DCMAKE_EXPORT_COMPILE_COMMANDS=ON` to the build generation. Invoking the build command will
|
||||
generate a `compile_commands.json` file which can be used by cppcheck.
|
||||
|
||||
```sh
|
||||
cppcheck --project=compile_commands.json --xml 2> report.xml
|
||||
```
|
||||
|
||||
Finally, you can convert the generated `.xml` file to HTML with the following command
|
||||
|
||||
```sh
|
||||
cppcheck-htmlreport --file=report.xml --report-dir=cppcheck --source-dir=..
|
||||
```
|
||||
|
||||
# <a id="eclipse"></a> Eclipse
|
||||
|
||||
When using Eclipse, there are two special build variables in the project properties
|
||||
→ C/C++ Build → Build Variables called `Q7S_SYSROOT` or `RPI_SYSROOT`. You can set
|
||||
the sysroot path in those variables to get any additional includes like `gpiod.h` in the
|
||||
Eclipse indexer.
|
||||
|
||||
## Setting up default Eclipse for Q7S projects - TCF agent
|
||||
|
||||
The [TCF agent](https://wiki.eclipse.org/TCF) can be used to perform remote debugging on the Q7S.
|
||||
|
||||
1. Install the TCF agent plugin in Eclipse from
|
||||
the [releases](https://www.eclipse.org/tcf/downloads.php). Go to
|
||||
Help → Install New Software and use the download page, for
|
||||
example https://download.eclipse.org/tools/tcf/releases/1.6/1.6.2/ to search for the plugin and install it.
|
||||
|
||||
2. Go to Window → Perspective → Open Perspective and open the **Target Explorer Perspective**.
|
||||
Here, the Q7S should show up if the local port forwarding was set up as explained previously.
|
||||
Please note that you have to connect to `localhost` and port `1534` with port forwaring set up.
|
||||
|
||||
3. A launch configuration was provided, but it might be necessary to adapt it for your own needs.
|
||||
Alternatively:
|
||||
|
||||
- Create a new **TCF Remote Application** by pressing the cogs button at the top or going to
|
||||
Run → Debug Configurations → Remote Application and creating a new one there.
|
||||
|
||||
- Set up the correct image in the main tab (it might be necessary to send the image to the
|
||||
Q7S manually once) and file transfer properties
|
||||
|
||||
- It is also recommended to link the correct Eclipse project.
|
||||
|
||||
After that, comfortable remote debugging should be possible with the Debug button.
|
||||
|
||||
A build configuration and a shell helper script has been provided to set up the path variables and
|
||||
build the Q7S binary on Windows, but a launch configuration needs to be newly created because the
|
||||
IP address and path settings differ from machine to machine.
|
||||
|
||||
# <a id="rpi"></a> Running the EIVE OBSW on a Raspberry Pi
|
||||
|
||||
Special section for running the EIVE OBSW on the Raspberry Pi.
|
||||
The Raspberry Pi build uses the `bsp_rpi` BSP folder, and a very similar cross-compiler.
|
||||
@ -799,7 +941,7 @@ sudo apt-get install gpiod libgpiod-dev
|
||||
|
||||
to install the required GPIO libraries before cloning the system root folder.
|
||||
|
||||
# Flight Software Framework (FSFW)
|
||||
# <a id="fsfw"></a> Flight Software Framework (FSFW)
|
||||
|
||||
An EIVE fork of the FSFW is submodules into this repository.
|
||||
To add the master upstream branch and merge changes and updates from it
|
||||
@ -816,4 +958,5 @@ After that, an update can be merged by running
|
||||
git merge upstream/master
|
||||
```
|
||||
|
||||
Alternatively, changes from other upstreams (forks) and branches can be merged like that in the same way.
|
||||
Alternatively, changes from other upstreams (forks) and branches can be merged like that
|
||||
in the same way.
|
||||
|
@ -269,7 +269,8 @@ ReturnValue_t CoreController::incrementAllocationFailureCount() {
|
||||
ReturnValue_t CoreController::versionFileInit() {
|
||||
|
||||
std::string unameFileName = "/tmp/uname_version.txt";
|
||||
std::string unameCmd = "uname -a > " + unameFileName;
|
||||
// TODO: No -v flag for now. If the kernel version is used, need to cut off first few letters
|
||||
std::string unameCmd = "uname -mnrso > " + unameFileName;
|
||||
int result = std::system(unameCmd.c_str());
|
||||
if(result != 0) {
|
||||
utility::handleSystemError(result, "CoreController::versionFileInit");
|
||||
|
BIN
doc/img/eive-logo.png
Normal file
BIN
doc/img/eive-logo.png
Normal file
Binary file not shown.
After Width: | Height: | Size: 104 KiB |
42
scripts/q7s-cp.py
Executable file
42
scripts/q7s-cp.py
Executable file
@ -0,0 +1,42 @@
|
||||
#!/usr/bin/env python3
|
||||
import argparse
|
||||
import os
|
||||
|
||||
|
||||
def main():
|
||||
args = handle_args()
|
||||
cmd = build_cmd(args)
|
||||
# Run the command
|
||||
print(f'Running command: {cmd}')
|
||||
os.system(cmd)
|
||||
|
||||
|
||||
def handle_args():
|
||||
help_string = 'This script copies files to the Q7S as long as port forwarding is active.\n'
|
||||
help_string += 'You can set up port forwarding with ' \
|
||||
'"ssh -L 1535:192.168.133.10:22 <eive-flatsat-ip>" -t /bin/bash'
|
||||
parser = argparse.ArgumentParser(
|
||||
description=help_string
|
||||
)
|
||||
# Optional arguments
|
||||
parser.add_argument('-r', '--recursive', dest='recursive', default=False, action='store_true')
|
||||
parser.add_argument('-t', '--target', help='Target destination', default='/tmp')
|
||||
parser.add_argument('-P', '--port', help='Target port', default=1535)
|
||||
# Positional argument(s)
|
||||
parser.add_argument('source', help='Source files to copy')
|
||||
return parser.parse_args()
|
||||
|
||||
|
||||
def build_cmd(args):
|
||||
# Build run command
|
||||
cmd = 'scp '
|
||||
if args.recursive:
|
||||
cmd += '-r '
|
||||
cmd += f'-P {args.port} {args.source} root@localhost:'
|
||||
if args.target:
|
||||
cmd += args.target
|
||||
return cmd
|
||||
|
||||
|
||||
if __name__ == "__main__":
|
||||
main()
|
11
scripts/q7s-port.sh
Executable file
11
scripts/q7s-port.sh
Executable file
@ -0,0 +1,11 @@
|
||||
#!/bin/bash
|
||||
echo "Setting up all Q7S ports"
|
||||
echo "-L 1534:192.168.133.10:1534 for connection to TCF agent"
|
||||
echo "-L 1535:192.168.133.10:22 for file transfers"
|
||||
echo "-L 1536:192.168.133.10:7301 to TMTC commanding using TCP"
|
||||
|
||||
ssh -L 1534:192.168.133.10:1534 \
|
||||
-L 1535:192.168.133.10:22 \
|
||||
-L 1536:192.168.133.10:7301 \
|
||||
eive@2001:7c0:2018:1099:babe:0:e1fe:f1a5 \
|
||||
-t 'CONSOLE_PREFIX="[Q7S Tunnel]" /bin/bash'
|
2
thirdparty/arcsec_star_tracker
vendored
2
thirdparty/arcsec_star_tracker
vendored
@ -1 +1 @@
|
||||
Subproject commit f596c53315f1f81facb28faec3150612a5ad2ca0
|
||||
Subproject commit c468400aaf8470a31e393f53c858d2bf2c361273
|
Loading…
Reference in New Issue
Block a user