Raspberry and ROS: Difference between revisions
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If everything is configured as above, then you just need to figure out the IP. | If everything is configured as above, then you just need to figure out the IP. | ||
On a Linux computer, you can find the Raspberry IP address using (if on the same local net): | |||
sudo apt install net-tools nmap | |||
nmap -sP 192.168.2.0/24 | |||
else | else | ||
You need a screen and keyboard. | You need a screen and keyboard. | ||
Log on to the Raspberry Pi | |||
$ ifconfig | |||
eth0: flags=4099<UP,BROADCAST,MULTICAST> mtu 1500 | |||
... | |||
lo: flags=73<UP,LOOPBACK,RUNNING> mtu 65536 | |||
... | |||
wlan0: flags=4163<UP,BROADCAST,RUNNING,MULTICAST> mtu 1500 | |||
inet 10.197.217.175 netmask 255.255.252.0 broadcast 10.197.219.255 | |||
inet6 fe80::f620:b431:69cc:44f4 prefixlen 64 scopeid 0x20<link> | |||
ether dc:a6:32:f4:0e:a4 txqueuelen 1000 (Ethernet) | |||
RX packets 486 bytes 41505 (40.5 KiB) | |||
RX errors 0 dropped 0 overruns 0 frame 0 | |||
TX packets 421 bytes 43403 (42.3 KiB) | |||
TX errors 0 dropped 0 overruns 0 carrier 0 collisions 0 | |||
In this case, the IP4 is 10.197.217.175. | |||
If you don't get an IP, the wifi may not be set correctly. | |||
=== Wifi connect === | === Wifi connect === | ||
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I will use Noetic (if it is ethical to do so). | I will use Noetic (if it is ethical to do so). | ||
Follow the instructions at http:// | Follow the instructions at http://docs.ros.org/en/humble/Installation.html like this: | ||
Setup your computer to accept software from packages.ros.org. | Setup your computer to accept software from packages.ros.org. | ||
Line 146: | Line 161: | ||
sudo apt install ros-desktop-full python3-rosinstall libmap-msgs-dev | sudo apt install ros-desktop-full python3-rosinstall libmap-msgs-dev | ||
=== Install ROS 2 base (mostly for ubuntu 22.04) === | |||
'''NB! do not use ROS2 for Robobot on Raspeberry Pi in 2023 version!, not compatible''' | |||
Using "humble" version. | |||
In general, follow the instructions at http://wiki.ros.org/noetic/Installation/Ubuntu like this: | |||
Set up keys (may need to install curl first 'sudo apt install curl') | |||
sudo curl -sSL https://raw.githubusercontent.com/ros/rosdistro/master/ros.key -o /usr/share/keyrings/ros-archive-keyring.gpg | |||
Add package source | |||
echo "deb [arch=$(dpkg --print-architecture) signed-by=/usr/share/keyrings/ros-archive-keyring.gpg] http://packages.ros.org/ros2/ubuntu $(. /etc/os-release && echo $UBUNTU_CODENAME) main" | sudo tee /etc/apt/sources.list.d/ros2.list > /dev/null | |||
Update package list with the new source | |||
sudo apt update | |||
sudo apt dist-upgrade | |||
Install some tools | |||
sudo apt install \ | |||
python3-flake8-docstrings \ | |||
python3-pip \ | |||
python3-pytest-cov \ | |||
ros-dev-tools | |||
And for Ubuntu 22.04: | |||
sudo apt install \ | |||
python3-flake8-blind-except \ | |||
python3-flake8-builtins \ | |||
python3-flake8-class-newline \ | |||
python3-flake8-comprehensions \ | |||
python3-flake8-deprecated \ | |||
python3-flake8-import-order \ | |||
python3-flake8-quotes \ | |||
python3-pytest-repeat \ | |||
python3-pytest-rerunfailures | |||
Install in the ros-desktop version: | |||
sudo apt install ros-humble-desktop | |||
sudo apt install python3-colcon-common-extensions python3-rosinstall libmap-msgs-dev | |||
Add the installed environment to .bashrc and run it once for this terminal. | |||
echo "source /opt/ros/humble/setup.bash" >> ~/.bashrc | |||
source /opt/ros/humble/setup.bash | |||
Make a ROS2 workspace. | |||
mkdir -p ros2_ws/src | |||
cd ros2_ws | |||
colcon build --symlink-install | |||
source install/setup.bash | |||
Get the ROS2 Teensy bridge into the workspace | |||
cd ~/ros2_ws/src | |||
svn co svn://repos.gbar.dtu.dk/jcan/ros2_bridge/test_bridge | |||
svn co svn://repos.gbar.dtu.dk/jcan/ros2_bridge/teensy_bridge_messages | |||
Compile the bridge | |||
cd ~ros2_ws | |||
colcon build | |||
=== Robobot from SVN === | === Robobot from SVN === | ||
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We will install these packages in an 'svn' directory, and make an easy link to the relevant parts. | We will install these packages in an 'svn' directory, and make an easy link to the relevant parts. | ||
mkdir | mkdir svn | ||
cd svn | cd svn | ||
svn checkout svn://repos.gbar.dtu.dk/jcan/fejemis | svn checkout svn://repos.gbar.dtu.dk/jcan/fejemis | ||
Line 169: | Line 250: | ||
=== Teensy firmware compile === | === Teensy firmware compile === | ||
NB! | NB! This procedure normally requires that the Raspberry is allowed to show graphics, i.e. use the '-X' option when ssh to the Raspberry. This is to install teensyduino and upload code to Teensy itself. All other steps are command-line only. A command-line alternative is described below. | ||
Download Arduino from https://www.arduino.cc/ ; find the software and download version 1.8.19 for Linux arm 32 bit. | Download Arduino from https://www.arduino.cc/ ; find the software and download version 1.8.19 for Linux arm 32 bit. | ||
Download also TeensyduinoInstall.linuxarm and 00-teensy.rules from https://www.pjrc.com/teensy/td_download.html - again the arm 32 bit version | Download also '''TeensyduinoInstall.linuxarm''' and '''00-teensy.rules''' from https://www.pjrc.com/teensy/td_download.html - again the arm 32 bit version | ||
Assuming these files end in the Downloads directory, then | Assuming these files end in the Downloads directory, then | ||
Line 179: | Line 260: | ||
cd | cd | ||
cd Downloads | cd Downloads | ||
tar - | tar -xf arduino-1.8.19-linuxarm.tar.xz | ||
Arduino is now ready to run, but we need the Teensy addition, so: | Arduino is now ready to run, but we need the Teensy addition, so: | ||
Line 193: | Line 274: | ||
cd | cd | ||
mkdir git | mkdir git | ||
cd git | |||
git clone https://github.com/adafruit/Adafruit_SSD1306.git | git clone https://github.com/adafruit/Adafruit_SSD1306.git | ||
git clone https://github.com/adafruit/Adafruit-GFX-Library.git | git clone https://github.com/adafruit/Adafruit-GFX-Library.git | ||
Line 208: | Line 290: | ||
(The GFX library needs to be renamed to use '_' for '-' for some strange Arduino reason) | (The GFX library needs to be renamed to use '_' for '-' for some strange Arduino reason) | ||
====Modify Makefile==== | |||
If svn version is older than 1561, then see the next section. | |||
Modify the Makefile (in regbot/regbot, regbot/regbot/4.1, regbot/regbot/3.5 as needed) | |||
Modify the BASEPATH to the Arduino/Teensyduino library about line 31 of the Makefile (for Robobot it should work as is): | |||
ARDUINO_ROBOBOT := $(shell ls -d /home/local/Downloads/arduino-1.8.19/hardware 2>/dev/null) | |||
ifeq ($(ARDUINO_ROBOBOT),) | |||
# '''home installation''' - modify as needed | |||
BASEPATH := '''/home/chr/Downloads/arduino/arduino-1.8.19/hardware''' | |||
else | |||
# raspberry pi based RoboBot | |||
BASEPATH := /home/local/Downloads/arduino-1.8.19/hardware | |||
endif | |||
This change is actuated, as my development tool (Kdevelop) failed to work with the previous symbolic links, but it is also a more standard solution. | |||
====Compile and upload==== | |||
Now it should be possible to compile the Teensy firmware. | Now it should be possible to compile the Teensy firmware. | ||
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''Press the (red) power button on the Regbot board (to maintain power while the processor is reprogrammed)'' | ''Press the (red) power button on the Regbot board (to maintain power while the processor is reprogrammed)'' | ||
make upload | make upload | ||
(PS! For drone_ctrl, the code compiles on Raspberry, but the processor fails to start. The same code compiles and runs fine from the PC.) | |||
====Command line upload to Teensy==== | |||
A command line upload utility, that does not use any graphics is available here: https://github.com/PaulStoffregen/teensy_loader_cli . | |||
This can be an advantage if the Teensy is accessed through SSH. | |||
I would normally put such utilities in a GIT directory | |||
cd | |||
mkdir -p git | |||
cd git | |||
git clone https://github.com/PaulStoffregen/teensy_loader_cli | |||
cd teensy_loader_cli | |||
To compile the following package is needed | |||
sudo apt-get install libusb-dev | |||
The compile | |||
cd ~/git/teensy_loader_cli | |||
make | |||
This makes the command ''teensy_loader_cli'', but it needs to know which processor the HEX code is intended for, so make a script | |||
cd <directory with compiled HEX code> | |||
ln -s ~/git/teensy_loader_cli/teensy_loader_cli . | |||
nano upload.bash | |||
and enter | |||
#!/bin/bash | |||
~/git/teensy_loader_cli/teensy_loader_cli -v -w --mcu=TEENSY41 regbot.hex | |||
if the HEX code is in ''regbot.hex'' and Teensy is ''4.1'', else modify. See also https://www.pjrc.com/teensy/loader_cli.html for more details. | |||
Make the new script executable: | |||
chmod +x upload.bash | |||
And execute when needed (and press button on Teensy, when requested). | |||
./upload.bash | |||
=== Initialize the ROS environment === | === Initialize the ROS environment === | ||
Line 314: | Line 453: | ||
grep CRON /var/log/syslog | grep CRON /var/log/syslog | ||
=== Rename host to match robot === | |||
When the robot bridge gets the robot name from the Regbot board, it writes the name in a hostname file in the local home directory. | |||
At the next boot, this file is used to rename the hostname of the Raspberry pi. | |||
Create the script that triggers the rename in /etc/init.d | |||
sudo nano /etc/init.d/robobot_rename.sh | |||
Enter the following line into the new file | |||
bash /home/local/svn/robobot/setup/rename_host.sh | |||
Exit the editor (ctrl-s + ctrl-x) and make the script executable, and add it to run-level 2 (before networking is started) | |||
sudo chmod +x /home/local/rename_host.sh | |||
ln -s /etc/init.d/robobot_rename_test.sh /etc/rc2.d/s99robobot_rename | |||
The script is then executed when the Raspberry boots, and if the hostname does not match that of the Teensy, then the hostname is modified. | |||
=== Clone the just installed image === | === Clone the just installed image === | ||
Use SD card clone/copier (on Raspberry | Use SD card clone/copier (on Raspberry) | ||
Attach an extra USB based SD-card read/writer | |||
use rpi-clone to make a copy of the running SD-card. | |||
- | (takes about 5 minutes, depending on the SD-card speed) |
Latest revision as of 09:43, 6 July 2023
Back to Robobot
Installation from blank SD-flash
Install Raspberry
Use Raspberry pi imager (download from https://www.raspberrypi.com/software/)
rpi-imager
First configure settings: click the gear icon, and set:
- enable ssh, hostname, English language, Danish keyboard, possibly SSID, time zone, username (local) and password (remember to spell the password correctly).
then
Select operating system 'Raspberry Pi OS lite' and storage, an empty SD-flash of at least 16GB, then write.
When finished, mount the SD into the Raspberry
Start Raspberry
If everything is configured as above, then you just need to figure out the IP. On a Linux computer, you can find the Raspberry IP address using (if on the same local net):
sudo apt install net-tools nmap nmap -sP 192.168.2.0/24
else
You need a screen and keyboard.
Log on to the Raspberry Pi
$ ifconfig eth0: flags=4099<UP,BROADCAST,MULTICAST> mtu 1500 ... lo: flags=73<UP,LOOPBACK,RUNNING> mtu 65536 ... wlan0: flags=4163<UP,BROADCAST,RUNNING,MULTICAST> mtu 1500 inet 10.197.217.175 netmask 255.255.252.0 broadcast 10.197.219.255 inet6 fe80::f620:b431:69cc:44f4 prefixlen 64 scopeid 0x20<link> ether dc:a6:32:f4:0e:a4 txqueuelen 1000 (Ethernet) RX packets 486 bytes 41505 (40.5 KiB) RX errors 0 dropped 0 overruns 0 frame 0 TX packets 421 bytes 43403 (42.3 KiB) TX errors 0 dropped 0 overruns 0 carrier 0 collisions 0
In this case, the IP4 is 10.197.217.175.
If you don't get an IP, the wifi may not be set correctly.
Wifi connect
The Raspberry uses the configuration in
cd /etc/wpa_supplicant sudo nano wpa_supplicant.conf
@todo how to setup - copy from old installguide?
SSH from another computer
If the Raspberry has an IP of 192.168.2.39, then:
ssh local@192.168.2.39
or
ssh -X local@192.168.2.39
If your computer support X-graphics, e.g. has X-ming installed
Putty or other tools could be used too.
Install tools
Install subversion and other tools
Note: if you are on DTU network, then the date on the Raspberry will most likely not be set correct, and that may give problems for updating the operating system. If so you may need to install NTP and NTPDATE first and then configure /etc/ntpconf as described below.
ntp # time setup ntpdate # time setup from DTU net libreadline-dev # command line memory libopencv-dev # openCV python3-pyqtgraph # fancy graphs in Python python3-scipy # scientific functions python3-serial # USB communication pyqt5-dev # QT designed GUI pyqt5-dev-tools # design QT GUI festival # text to sound sox # sound format read/write libsox-fmt-all # formats for SOX v4l-utils # video utilities apt-file # for finding missing system files (optional) qv4l2 # for testing camera (optional) kate # graphical editor (optional - nano is faster) xinit # to run server (graphical user interface) cmake # to build apps pip # Python package install
sudo apt update sudo apt dist-upgrade sudo apt install ntp ntpdate libreadline-dev subversion libopencv-dev python3-pyqtgraph python3-scipy python3-serial pyqt5-dev pyqt5-dev-tools festival sox libsox-fmt-all apt-file kate qv4l2 v4l-utils xinit cmake pip
NTP when on DTU net
Network time protocol (NTP), to keep clocks in sync. At DTU most clock sources are blocked, the clock source needs to be configured.
At DTU, edit /etc/ntp.conf, add ntp.ait.du.dk to the NTP server pool, like:
... # Use servers from the NTP Pool Project. Approved by Ubuntu Technical Board # on 2011-02-08 (LP: #104525). See http://www.pool.ntp.org/join.html for # more information. pool ntp.ait.dtu.dk pool 0.ubuntu.pool.ntp.org iburst ...
This should ensure a proper date on a DTU net and when the internet is available elsewhere.
Sync time (if on DTU net)
sudo ntpdate -u ntp.ait.dtu.dk date
Install ROS base
I will use Noetic (if it is ethical to do so).
Follow the instructions at http://docs.ros.org/en/humble/Installation.html like this:
Setup your computer to accept software from packages.ros.org.
sudo sh -c 'echo "deb http://packages.ros.org/ros/ubuntu $(lsb_release -sc) main" > /etc/apt/sources.list.d/ros-latest.list'
Set up your keys
curl -s https://raw.githubusercontent.com/ros/rosdistro/master/ros.asc | sudo apt-key add -
Update package list with the new source
sudo apt update
but it may fail with "The repository 'http://packages.ros.org/ros/ubuntu jammy Release' does not have a Release file."
The repository adds a file /etc/apt/sources.list.d/ros-latest.list. Modify the line in that file to include [trusted=yes], like:
sudo nano /etc/apt/sources.list.d/ros-latest.list deb [trusted=yes] http://packages.ros.org/ros/ubuntu bullseye main
Then redo the (a few failed to fetch is OK)
sudo apt update
Install ros-desktop-full-dev or ros-desktop-full and a bit more to use a Catkin workspace:
sudo apt install ros-desktop-full python3-rosinstall libmap-msgs-dev
Install ROS 2 base (mostly for ubuntu 22.04)
NB! do not use ROS2 for Robobot on Raspeberry Pi in 2023 version!, not compatible
Using "humble" version.
In general, follow the instructions at http://wiki.ros.org/noetic/Installation/Ubuntu like this:
Set up keys (may need to install curl first 'sudo apt install curl')
sudo curl -sSL https://raw.githubusercontent.com/ros/rosdistro/master/ros.key -o /usr/share/keyrings/ros-archive-keyring.gpg
Add package source
echo "deb [arch=$(dpkg --print-architecture) signed-by=/usr/share/keyrings/ros-archive-keyring.gpg] http://packages.ros.org/ros2/ubuntu $(. /etc/os-release && echo $UBUNTU_CODENAME) main" | sudo tee /etc/apt/sources.list.d/ros2.list > /dev/null
Update package list with the new source
sudo apt update sudo apt dist-upgrade
Install some tools
sudo apt install \ python3-flake8-docstrings \ python3-pip \ python3-pytest-cov \ ros-dev-tools
And for Ubuntu 22.04:
sudo apt install \ python3-flake8-blind-except \ python3-flake8-builtins \ python3-flake8-class-newline \ python3-flake8-comprehensions \ python3-flake8-deprecated \ python3-flake8-import-order \ python3-flake8-quotes \ python3-pytest-repeat \ python3-pytest-rerunfailures
Install in the ros-desktop version:
sudo apt install ros-humble-desktop sudo apt install python3-colcon-common-extensions python3-rosinstall libmap-msgs-dev
Add the installed environment to .bashrc and run it once for this terminal.
echo "source /opt/ros/humble/setup.bash" >> ~/.bashrc source /opt/ros/humble/setup.bash
Make a ROS2 workspace.
mkdir -p ros2_ws/src cd ros2_ws colcon build --symlink-install source install/setup.bash
Get the ROS2 Teensy bridge into the workspace
cd ~/ros2_ws/src svn co svn://repos.gbar.dtu.dk/jcan/ros2_bridge/test_bridge svn co svn://repos.gbar.dtu.dk/jcan/ros2_bridge/teensy_bridge_messages
Compile the bridge
cd ~ros2_ws colcon build
Robobot from SVN
Install the needed Regbot and Fejemis packages. Fejemis is for the bridge, which also is a ROS bridge. Regbot is for the firmware, and the user interface used for the sensor calibration.
We will install these packages in an 'svn' directory, and make an easy link to the relevant parts.
mkdir svn cd svn svn checkout svn://repos.gbar.dtu.dk/jcan/fejemis svn checkout svn://repos.gbar.dtu.dk/jcan/regbot svn checkout svn://repos.gbar.dtu.dk/jcan/robobot
and then the links
cd ln -s svn/regbot/regbot_gui ln -s svn/fejemis/ROS/catkin_ws
Teensy firmware compile
NB! This procedure normally requires that the Raspberry is allowed to show graphics, i.e. use the '-X' option when ssh to the Raspberry. This is to install teensyduino and upload code to Teensy itself. All other steps are command-line only. A command-line alternative is described below.
Download Arduino from https://www.arduino.cc/ ; find the software and download version 1.8.19 for Linux arm 32 bit.
Download also TeensyduinoInstall.linuxarm and 00-teensy.rules from https://www.pjrc.com/teensy/td_download.html - again the arm 32 bit version
Assuming these files end in the Downloads directory, then
cd cd Downloads tar -xf arduino-1.8.19-linuxarm.tar.xz
Arduino is now ready to run, but we need the Teensy addition, so:
sudo cp 00-teensy.rules /etc/udev/rules.d/ chmod +x TeensyduinoInstall.linuxarm ./TeensyduinoInstall.linuxarm
This should start the Teensyduino installer, guide the installation to the Arduino.1.8.19 just unpacked and install all packages.
We need some extra packages; we put them in a new 'git' directory:
cd mkdir git cd git git clone https://github.com/adafruit/Adafruit_SSD1306.git git clone https://github.com/adafruit/Adafruit-GFX-Library.git git clone https://github.com/adafruit/Adafruit_BusIO.git
Next, these libraries need to be put where the Makefile looks for them, so link as follows:
cd cd Downloads/arduino-1.8.19/hardware/teensy/avr/libraries ln -s ~/git/Adafruit-GFX-Library ln -s Adafruit-GFX-Library Adafruit_GFX_Library ln -s ~/git/Adafruit_SSD1306 ln -s ~/git/Adafruit_BusIO
(The GFX library needs to be renamed to use '_' for '-' for some strange Arduino reason)
Modify Makefile
If svn version is older than 1561, then see the next section.
Modify the Makefile (in regbot/regbot, regbot/regbot/4.1, regbot/regbot/3.5 as needed)
Modify the BASEPATH to the Arduino/Teensyduino library about line 31 of the Makefile (for Robobot it should work as is):
ARDUINO_ROBOBOT := $(shell ls -d /home/local/Downloads/arduino-1.8.19/hardware 2>/dev/null) ifeq ($(ARDUINO_ROBOBOT),) # home installation - modify as needed BASEPATH := /home/chr/Downloads/arduino/arduino-1.8.19/hardware else # raspberry pi based RoboBot BASEPATH := /home/local/Downloads/arduino-1.8.19/hardware endif
This change is actuated, as my development tool (Kdevelop) failed to work with the previous symbolic links, but it is also a more standard solution.
Compile and upload
Now it should be possible to compile the Teensy firmware. It is a Teensy 4.1, so:
cd 4.1 make -j3
The option '-j3' requests using 3 CPU cores; it is faster but eats memory and heats up the CPU. If that seems to be a problem, then use a lower number.
To install the newly compiled regbot.hex:
Press the (red) power button on the Regbot board (to maintain power while the processor is reprogrammed)
make upload
(PS! For drone_ctrl, the code compiles on Raspberry, but the processor fails to start. The same code compiles and runs fine from the PC.)
Command line upload to Teensy
A command line upload utility, that does not use any graphics is available here: https://github.com/PaulStoffregen/teensy_loader_cli . This can be an advantage if the Teensy is accessed through SSH.
I would normally put such utilities in a GIT directory
cd mkdir -p git cd git git clone https://github.com/PaulStoffregen/teensy_loader_cli cd teensy_loader_cli
To compile the following package is needed
sudo apt-get install libusb-dev
The compile
cd ~/git/teensy_loader_cli make
This makes the command teensy_loader_cli, but it needs to know which processor the HEX code is intended for, so make a script
cd <directory with compiled HEX code> ln -s ~/git/teensy_loader_cli/teensy_loader_cli . nano upload.bash
and enter
#!/bin/bash ~/git/teensy_loader_cli/teensy_loader_cli -v -w --mcu=TEENSY41 regbot.hex
if the HEX code is in regbot.hex and Teensy is 4.1, else modify. See also https://www.pjrc.com/teensy/loader_cli.html for more details.
Make the new script executable:
chmod +x upload.bash
And execute when needed (and press button on Teensy, when requested).
./upload.bash
Initialize the ROS environment
Initialize sets up the needed environment variables and makes a script for remaining settings for this project.
cd ~/catkin_ws rosws init . /usr/share
This outputs a message about the location of the ROS setup script:
rosinstall update complete. Type 'source /home/local/svn/fejemis/ROS/catkin_ws/setup.bash' to change into this environment. Add that source command to the bottom of your ~/.bashrc to set it up every time you log in.
Put this script into ~/.bashrc, e.g. by
echo "source /home/local/svn/fejemis/ROS/catkin_ws/setup.bash" >> ~/.bashrc
Run catkin_make in the catkin_ws directory
cd ~/catkin_ws catkin_make
Autostart ROSCORE and bridge
Link the startup script to the home directory of user 'local' as well as a link to the bridge executable and the initialization-file used by the bridge.
cd ln -s svn/robobot/setup/start_bridge.sh ln -s catkin_ws/devel/lib/bridge/bridge ln -s svn/robobot/setup/bridge.ini
This script starts roscore and the bridge in this order.
Add the script to autostart at boot:
crontab -e
Select an editor; if asked, I have selected 'nano' (an ok simple editor) In the editor, add this line:
@reboot /home/local/start_bridge.sh
End with ctrl-s to save and ctrl-x to exit (if nano is the editor)
For info: the start script is executed as user 'local' and has the following content:
#!/bin/bash # start roscore and bridge # this script is added as a root cronjob # to see and edit the job # $ crontab -e # cd /home/local/ date >> rebootinfo.txt /usr/bin/roscore & # wait for ROSCORE to start sleep 8 #start the bridge (as a daemon) ./bridge -d & echo "Bridge started with PID:" >> rebootinfo.txt sleep 1 pgrep -l bridge >> rebootinfo.txt exit 0
Reboot
sudo reboot now
Reenter
ssh -X local@<IP>
If all goes well, then the 'rebootinfo.txt' should end with something like this:
Sun 27 Nov 13:03:52 CET 2022 Bridge started with PID: 426 start_bridge.sh 617 bridge
If not you may see what cronjob is executed by:
grep CRON /var/log/syslog
Rename host to match robot
When the robot bridge gets the robot name from the Regbot board, it writes the name in a hostname file in the local home directory. At the next boot, this file is used to rename the hostname of the Raspberry pi.
Create the script that triggers the rename in /etc/init.d
sudo nano /etc/init.d/robobot_rename.sh
Enter the following line into the new file
bash /home/local/svn/robobot/setup/rename_host.sh
Exit the editor (ctrl-s + ctrl-x) and make the script executable, and add it to run-level 2 (before networking is started)
sudo chmod +x /home/local/rename_host.sh ln -s /etc/init.d/robobot_rename_test.sh /etc/rc2.d/s99robobot_rename
The script is then executed when the Raspberry boots, and if the hostname does not match that of the Teensy, then the hostname is modified.
Clone the just installed image
Use SD card clone/copier (on Raspberry) Attach an extra USB based SD-card read/writer
use rpi-clone to make a copy of the running SD-card.
(takes about 5 minutes, depending on the SD-card speed)