files | ||
http | ||
.gitignore | ||
build.json | ||
README.md |
LJ Packer
Welcome to LJ Packer, LJ software's virtual machine images provider.
Errr... Sorry but what is this "LJ" thing already?
- LJ is used to command multiple LASERS via a CENTRAL SERVER
- CENTRAL SERVER exchanges data with LASERS and POINTS GENERATORS on a Local Area Network (LAN)
- LASERS use ETHER-DREAMS interfaces to connect to LAN
- POINTS GENERATORS store their output in a REDIS located on CENTRAL SERVER
The images produced by this code provide CENTRAL SERVER and REDIS, plus some help to configure LAN. You will need LASERS and ETHER-DREAMS to get a fully working setup.
OK, but why?
LJ is written in Python with lots of dependencies and can be a bit difficult to configure, hence the need for such bootable and easily (re)configured system images.
But be cautious, the images are not safe to run on the Internet AT ALL! The SSH server is open for root login with a VERY simple password:
root:laser
Run the images produced with care on local / airtight networks.
Images
No official repository for images yet, but this is expected in the future.
Limitations
All of this has been tested only on Debian 10 Buster. YMMV.
Crash course
These instructions are for building images, see below to run images.
You need to install packer first, the syntax is valid with version 1.6+
Compiling for qemu (recommanded):
sudo apt install qemu qemu-kvm
git clone https://git.interhacker.space/teamlaser/lj-packer
cd lj-packer
# The "no-desktop" install
PACKER_LOG=1 sudo packer build -on-error=ask --only=teamlaser-lj build.json
# The "desktop" install
PACKER_LOG=1 sudo packer build -on-error=ask --only=teamlaser-lj-xfce build.json
Compile for LXC (not fully tested, should work):
sudo apt install lxc
PACKER_LOG=1 sudo packer build -on-error=ask --only=teamlaser-lj-lxc build.json
All the compilation should be automatic, and result with images in local directories (output, output)
Running in KVM
All commands are given for terminal use and probably require root access.
kvm:user : KVM with simple/no-LAN network
It is the simple solution, useful for fast testing the software. You will access the VM services through "virtual" localhost ports of your machine. But the VM will not be able to exchange data on LAN.
kvm:user 0. Rediction of VM Ports to Local Ports
Ports redirections are done so that you can access the VM port.
In our case, we propose to access Port number "N" by adding 10000 to it.
Here are the resulting redirections in the (Localhost:Port) (VM:Port) format:
* localhost:10022 SSH (VM:22) i.e. ssh root@localhost -p 10022
* localhost:10080 HTTP (VM:80) i.e. x-www-browser http://localhost:10080
* localhost:10443 HTTPS (VM:443) i.e. x-www-browser https://localhost:10443
* localhost:16379 REDIS (VM:6379) i.e.redis-cli -h localhost -p 16379
* localhost:16454 ARTNET (VM:6454)
* localhost:19001 WEBSOCKET ws (VM:9001)
* localhost:19002 WEBSOCKET SECURE wss (VM:9001)
kvm:user 1. Booting
# Choose the XFCE image
export IMAGE=packer-teamlaser-lj-xfce
# For the non desktop image
# export IMAGE=packer-teamlaser-lj
Start the VM
Place yourself in the reposity where you placed the iso file
sudo /usr/bin/qemu-system-x86_64 \
-m 2048M -boot once=d \
-machine type=pc,accel=kvm \
-display gtk -vnc 127.0.0.1:6 \
-name ${IMAGE}\
-drive file=${IMAGE},format=qcow2 \
-device virtio-net,netdev=user.0 \
-netdev user,id=user.0,hostfwd=tcp::10022-:22,hostfwd=tcp::10080-:80,hostfwd=tcp::10443-:443,hostfwd=tcp::16379-:6379,hostfwd=tcp::6454-:6454,hostfwd=tcp::19001-:9001,hostfwd=tcp::19002-:9002
kvm:user 2. Connecting to the VM
If you start the LXDE version, a login box should appear after boot. Use:
LOGIN root
PASS laser (e.g. lqser for AZERTY keyboards)
With LXDE or not, you can connect using the SSH protocol:
# Wait until ssh/login is available in the VM
# Type password "laser" i.e. "lqser" on AZERTY keyboards
ssh root@localhost -p10022
kvm:user 3. Configure the app
Some configuration is required to access the web interface
The app will run an auto-diagnostic, which might fail to connect to network in this mode.
But it's not so bad: with the ports redirections, it works nonetheless.
When asked for an action, choose (c)onfigure
in the menu by pressing c
.
You have now access to the configuration menu.
Configure :
127.0.0.1
for#1 The IP address for webui
: press1
, then type127.0.0.1
19001
for#3 Websocket port
: press3
, then type19001
Then type x
to exit. Done!
kvm:user 4. Start playing
Start the LJ app on the VM
root@debian:/opt/LJ python3 ./main.py
This should start all the required processes.
Access the web app from the HOST, i.e. your machine
Open a web browser on [http://locahost:10080].
It should show a 'CONNECTED' message, and the 'Simulator' page show a default parallelogram.
You can now start sending your points to the redis server from your machine and see the result in the web simulator.
With redis installed on your machine:
redis-cli -h 127.0.0.1 -p 16379 set '/pl/0/0' '(150.0, 230.0, 65280), (170.0, 170.0, 65280), (230.0, 170.0, 65280), (210.0, 230.0, 65280), (150.0, 230.0, 65280)]'
kvm:bridge KVM with full network access
It is a more complex solution, useful for real use of LJ with LASERS on LAN. You will access the VM services through "virtual" localhost ports of your machine. But the VM will not be able to exchange data on LAN.
Here is the documentation on how to setup a bridge interface on your machine. It is a bit complex, but follow the instructions and it should be fine...
kvm:bridge 0. First some variables / names we will use
# 0. Names / concepts
HOST The name used to define your laptop (or any other machine running qemu)
GUEST The name used to define the qemu virtual machine
# 0. Variables
HOST_IF The variable for HOST's network interface, the one used for LAN. Ex: eth0, ens3
HOST_IP The variable for HOST's IP address on the LAN. Ex: 192.168.1.20
IP_RANGE The variable for size of a the subnet for your LAN. Ex: /24
GUEST_IF The variable for GUEST's network interface.
GUEST_IP The variable for GUEST's IP address on the LAN. Ex: 192.168.1.21
SU The sudo command required if not running as root
## As an Example, here is a working configuration
export HOST_IF=enx9cebe8ce6930
export HOST_IP=192.168.1.99
export IP_RANGE=/24
export SU='sudo '
kvm:bridge 1. Configuring HOST network interfaces
# 1. Configure HOST: set up bridge over HOST_IF
$SU ip l set dev ${HOST_IF} down
$SU brctl addbr br0
$SU brctl addif br0 ${HOST_IF}
$SU ip tuntap add tap0 mode tap
$SU brctl addif br0 tap0
$SU iptables -t nat -A POSTROUTING -o br0 -j MASQUERADE
$SU iptables -I FORWARD -i br0 -j ACCEPT
$SU ip l set dev ${HOST_IF} up
$SU ip l set dev br0 up
$SU ip l set dev tap0 up
$SU ip a add ${HOST_IP}${IP_RANGE} dev br0
$SU sysctl net.ipv4.ip_forward=1
##troubleshooting: there must be NO ip address attached to $HOST_IF
$SU ip address show dev ${HOST_IF} | grep global || echo -e "\n\e[31mOops.... Remove all IP addresses from ${HOST_IF}! Use:\e[0m\n\n$SU ip address del (address/range shown above) dev ${HOST_IF}"
kvm:bridge 2. Booting the VM
Notice how the net
model changed: we have a MAC address and use the tap
interface to exchange network packets.
# Choose the XFCE image
export IMAGE=packer-teamlaser-lj-xfce
sudo /usr/bin/qemu-system-x86_64\
-m 2048M -boot once=d\
-machine type=pc,accel=kvm\
-display gtk -vnc 127.0.0.1:6\
-name ${IMAGE}\
-drive file=${IMAGE},format=qcow2\
-net nic,model=virtio,macaddr=00:00:00:00:00:01\
-net tap,ifname=tap0\
kvm:bridge 3. Configuring GUEST's network
This part may be more or less complex, as a DHCP server might automatically assign an IP address to your VM.
Use the connection via login described below (4.2) : a script will check the network connectivity on login.
According to its output,
-
you might be fine: it will show an IP address which you can use to connect using standard protocols, i.e. SSH, HTTPS, etc.
-
you might be required to configure the network. In such a case, you will be asked
- if you want to configure the network with a graphical tool. This is an option for expert users. It uses the nmtui (network-manager Terminal UI) interface. Use and to forget to your interface
- to provide the GUEST_IP/RANGE and the GUEST_GW to use.
- GUEST_IP/RANGE are depending on your HOST_IP in the LAN
- GUEST_GW is your HOST_IP
- Also, can do things by yourself with the following commands on GUEST:
ip address add ${GUEST_IP}/${IP_RANGE} dev ${GUEST_IF} ip route add default via ${HOST_IP}
kvm:bridge 4. Connecting
kvm:bridge 4.1 Connecting via login
If you started the QEMU with a display, you can connect to it as root.
CAUTION for french users, it as QWERTY keyboard mapping, typelqser
USER "root"
PASS "laser" # i.e. "lqser" on AZERTY keyboards
kvm:bridge 4.2 Connecting via SSH
# Wait until ssh/login is available in the VM
# Type password "laser" i.e. "lqser" on AZERTY keyboards
ssh root@${GUEST_IP}
Todos
[] Export USB devices [] template for config.js + include in html pages