Chico3
We installed Ubuntu 8.04 LTS Desktop ('Hardy Heron') 64 bit on the black 17" Tsunami laptop, dubbed chico3. For systems specifications click here.
Operating system installation
We chose to go for Ubuntu 8.04 because it is proven to be stable and working well with the latest versions of ACE, YARP and OpenCV (as of May 2009).
Partitions
We chose the 'Guided - use entire disk' option, which yielded the following:
size | mountpoint | filesystem |
---|---|---|
287GB | / | ext3 |
8GB | swap |
Ubuntu installation parameters
- machine name: chico3
- user name: icub
Operations after first boot
Operations performed after the standard installation:
- choose Main server (rather than Portugal server, which is incomplete) as the software repository. You can do this in System -> Administration -> Synaptic Package Manager -> Settings -> Repositories -> Download from: Main server
- system update
- enabled nvidia proprietary drivers (necessary to obtain a decent screen resolution)
- removed the package network-manager-gnome
Other operations performed
Network
- manually configured the internet connection (/etc/network/interfaces):
auto lo iface lo inet loopback auto eth0 iface eth0 inet static address 10.10.1.53 <-- this used to be venus' IP; not anymore netmask 255.255.255.0 network 10.10.1.0 broadcast 10.10.1.255 gateway 10.10.1.254
- added the following lines to /etc/hosts, to enable running commands like: ping cortex1.
10.10.1.50 pc104 10.10.1.51 icubsrv 10.10.1.52 chico2 10.10.1.53 chico3 10.10.1.1 cortex1 10.10.1.2 cortex2 10.10.1.3 cortex3 10.10.1.4 cortex4 10.10.1.5 cortex5
- TODO: disable wifi (wlan0 and wmaster000 interfaces), for security and power consumption reasons
Additional packages and environment variables
- Install some required packages:
sudo apt-get install gcc g++ make cmake cvs subversion ssh libace-dev libgsl0-dev <-- pretty much the absolute minimum we need sudo apt-get install libncurses5-dev libgtk2.0-dev libgtkmm-2.4-dev libglademm-2.4-dev python-tk <-- for graphical stuff
- Create a file called ~/.bash_env (used by non-interactive sessions, namely commands launched via yarprun from another machine) containing these lines:
export ICUB_DIR=/home/icub/iCub export ICUB_ROOT=$ICUB_DIR export YARP_DIR=/home/icub/YARP/yarp2 export YARP_ROOT=$YARP_DIR export PATH=$PATH:$ICUB_DIR/bin export PATH=$PATH:$YARP_DIR/bin
- Copy all that stuff at the bottom of ~/.bashrc, too:
cat ~/.bash_env >> ~/.bashrc
- Then, before the following line of /etc/bash.bashrc
[ -z "$PS1" ] && return
add this:
# per-user environment variables (non-interactive and interactive mode) source $HOME/.bash_env
Additional RobotCub software
OpenCV
Ubuntu prepackaged version 1.0.0-4:
sudo apt-get install libcv1 libcvaux1 libcvaux-dev libcv-dev libhighgui1 libhighgui-dev opencv-doc python-opencv
iCub: downloading the repository
In /home/icub, do:
cvs -d vislab@cvs.robotcub.org:/cvsroot/robotcub co iCub
For now, don't compile iCub but start installing YARP instead. (This is the most general approach which always works. However, since this machine does not have special iCub hardware to be found by YARP, like in the case of the PC104, then in this case we could've probably compiled straight ahead.)
YARP
- Type this from the homedir (/home/icub):
mkdir ~/YARP cd ~/YARP cvs -d:pserver:anonymous@yarp0.cvs.sourceforge.net:/cvsroot/yarp0 login cvs -z3 -d:pserver:anonymous@yarp0.cvs.sourceforge.net:/cvsroot/yarp0 co -P yarp2 cd yarp2
- (SKIP THIS POINT, AS THIS MACHINE IS NOT ATTACHED TO dragonfly esdMotionControl headcalibrator xsensmtx) Enter yarp2/conf and do:
cp ExternalModules.cmake.template ExternalModules.cmake
then write the following lines in ExternalModules.cmake:
SET(EXTERNAL_MODULES icub) SET(icub_DIR "/home/icub/iCub/src/modules")
- Proceed with the configuration and compilation:
ccmake .
Click 'c' when CMake starts, then enable:
COMPILE_NEW_YARPVIEW <-- right? CREATE_DEVICE_LIBRARY_MODULES CREATE_GUIS CREATE_LIB_MATH
Click 'c' again, then choose
ENABLE_yarpmod_opencv_grabber
Click 'c' a couple of times more, until nothing happens when you do it. Now hit 'g': generate and quit.
make make test sudo make install
iCub: compiling and installing
- Off we go:
cd /home/icub/iCub ccmake . c <-- whenever necessary
- Enable these modules:
BUILD_IN_ROOT <-- it is already ON, most likely
(I don't think we need more modules here. Right? --gsaponaro)
- And finally:
g make sudo make install
More VisLab-specific configuration
Passwordless connection to other machines
- set up passwordless log-in to the Cortex computers:
#generate the public and private keys on this computer. enter empty strings when prompted for various answers. ssh-keygen #the cortex computers (ip addresses 10.10.1.1 to 10.10.1.5) share the same disk, so you need to do the set up only once.
#copy the public key you just generated to cortex1, on the user account you want to use there (e.g. icub). scp /home/icub/.ssh/id_rsa.pub icub@10.10.1.1: <-- be sure to write the semicolon ":" at the end #log in as 'icub' to cortex1 ssh 10.10.1.1 #add the public key to the authorized ones cat id_rsa.pub >> ~/.ssh/authorized_keys #remove the id_rsa.pub file and log out from cortex1. rm id_rsa.pub exit exit #log in again to each cortex computer, to check that the process worked and they don't prompt for a password.
- set up passwordless log-in to pc104
pc104 boots from a read-only medium, so you cannot modify permanently its authorized_keys file. pc104, though, mounts a part of icubsrv's hard-disk and then runs some scripts from there (see the pc104 page for reference).
#copy the usual public key to the icubsrv (laptop) scp id_rsa.pub icub@10.10.1.51: #ssh to icubsrv ssh icub@10.10.1.51 #add the key to the authorized ones cat id_rsa.pub >> /exports/code-pc104/pc104/hooks/keys/authorized_keys #rm the id_rsa.pub file rm id_rsa.pub
PC104 authentication caveat
For pc104 it might be necessary to add a StrictHostKeyChecking=no option argument to ssh (because there are different incompatible keys depending on the pc104 hardware setup, i.e., with or without pen):
gnome-terminal --window-with-profile=pc104 -e "ssh -o StrictHostKeyChecking=no icub@10.10.1.50 -X"
Customization of GNOME
We used the same buttons that we put on Chico2. We copied the files by typing this on chico2:
scp ~/Pictures/* chico3:/home/icub/Pictures
and then we manually added the buttons one by one on the top toolbar of chico3.
Adding a new terminal button
Example for the button to open the gnome-terminal on cortex1:
- right click on the panel and select "add to panel"
- select "custom application launcher"
- click on the icon and select the directory where your icons are, typically ~/Pictures/
- click on open, then select the picture for this particular button
- write this in the "command" field:
gnome-terminal --window-with-profile=cortex -e "ssh icub@10.10.1.1 -X"
- set the name to something like: ssh icub@cortex1
Note about gnome-terminal profiles: the profile we have specified specified (--window-with-profile=cortex) does not exist by default, we need to create it. These profiles are used to give terminals on different machines different colors (e.g., all terminals running in a cortex computer will be blue, terminals local to chico2 will be white, etc.). To create the "cortex" profile do this:
- open a terminal on, say, cortex1
- click on File, select "new profile" and name it "cortex", then choose the colors
- cortex windows usually are blue background with white text, while pc104 windows are yellow with black text.
Nautilus buttons
For the buttons that start the file manager Nautilus on pc104 and on cortex (once again, all cortex computers share the same disk, so you need only one button for them) you should use these lines of code:
nautilus sftp://icub@10.10.1.50/home/icub/ nautilus sftp://icub@10.10.1.1/home/icub
After you are done browsing a remote machine disk with Nautilus, don't forget to unmount the volume (right-click the relevant icon on the desktop).
Desktop background
Last but not least, you can change the default Ubuntu desktop background to something fancier: