hilscherautomation / netpi-codesys-basis Goto Github PK

Made for Raspberry Pi 3B architecture based devices and compatibles

https://hub.docker.com/r/hilschernetpi/netpi-codesys-basis/

The image provided hereunder deploys a container with a basic setup of Linux tools, utilities and default user pi as needed for a flawless installation of the CODESYS Control for Raspberry Pi (SL and MC SL) packages with the Windows® based CODESYS Development System V3(free).

Base of this image builds debian with enabled SSH and created default user 'pi'(sudo). This setup is equivalent to a stripped down Raspbian OS with least capabilities.

Once the container is deployed it needs an upgrade with the following packages you can download from the CODESYS store

• CODESYS Control for Raspberry Pi SL or CODESYS Control for Raspberry Pi MC SL
• CODESYS Edge Gateway (needed at later versions of CODESYS runtime)

The container has been successfully tested on the following Docker hosts

• netPI, model RTE 3, product name NIOT-E-NPI3-51-EN-RE
• netPI, model CORE 3, product name NIOT-E-NPI3-EN
• netIOT Connect, product name NIOT-E-TPI51-EN-RE
• netFIELD Connect, product name NIOT-E-TPI51-EN-RE/NFLD
• Raspberry Pi, model 3B

netPI devices specifically feature a restricted Docker protecting the Docker host system software's integrity by maximum. The restrictions are

• privileged mode is not automatically adding all host devices /dev/ to a container
• volume bind mounts to rootfs is not supported
• the devices /dev,/dev/mem,/dev/sd*,/dev/dm*,/dev/mapper,/dev/mmcblk* cannot be added to a container

If not licensed the "CODESYS Control for Raspberry Pi" SoftPLC runtime operates 1 hour and then stops. A Licensing is needed to make it run an unlimited time.

A license purchase follows an email with a ticket number (e.g A78HY-TBVMD-8SVC7-P8BHX-4LED6) granting you the license. The Tools->License Manager in the CODESYS Development System (internet needed) transforms the ticket number in a deployed license. The ticket number can be used only one time and gets invalid during the licensing procedure.

It is possible to deploy a license to either a CODESYS Runtime Key (USB dongle) or to a software container.

IMPORTANT NOTE: A software container needs special care cause the license is stored in container. If this container is lost or destroyed by any reason or is deleted your license copy is gone forever!!!. This is why a license backup is obligatory in this case.

To backup the license file "3SLicenseInfo.tar" follow this FAQ information. To restore the license file "3SLicenseInfo.tar" follow this FAQ information.

The container binds the SSH server port to 22 by default.

For an alternative port use the variable SSHPORT with the desired port number as value.

The container needs to run in host network mode.

Using this mode makes port mapping unnecessary since all the used container ports (like 22) are exposed to the host automatically.

The privileged mode option needs to be activated to lift the standard Docker enforced container limitations. With this setting the container and the applications inside are the getting (almost) all capabilities as if running on the Host directly

The CODESYS runtime perfoms a license check across the Docker host VideoCore GPU when started. To grant access to the GPU chip the /dev/vcio Docker host device is mandatory to add to the container.

In case an external USB CODESYS Runtime Key Dongle is used for licensing the Docker host device /dev/hidraw0 needs to be added to the container. The device /dev/hidraw0 is only available on the Docker host if such a USB dongle physically has been connected to one of the USB sockets.

The container configures the double RJ45 socket driven by netX controller to operate as standard LAN interface (single MAC address, switched always) with a device name cifx0 if the following devices found added to the container

• Docker host device /dev/spidev0.0 granting access to the network controller netX driving the RTE ports
• Docker host device /dev/net/tun granting access to network interface registering logic

Cause the container runs in host network mode the interface is instantiated on the Docker host as a standard LAN interface. This is why the cifx0 IP settings have to be configured in the Docker host's web UI network setup dialog (as "eth0" interface) and not in the container. Any change on the IP settings needs a container restart to accept the new IP parameters.

The netX controller was designed to support all kind of Industrial Networks as device in the first place. Its performance is high when exchanging IO data with a network master across IO buffers. It was not designed to support high performance message oriented exchange of data as used in Ethernet communications. This is why the provided cifx0 interface is a low to mid-range performer but is still a good compromise if another Ethernet interface is needed.

Measurements have shown that around 700 to 800KByte/s throughput can be reached across cifx0 only whereas with netPI's primary Ethernet port eth0 10MByte/s can be reached. The reasons are:

• 25MHz SPI clock frequency between netX and Raspberry Pi CPU only
• User space driver instead of a kernel driver
• 8 messages deep message receive queue only for incoming Ethernet frames
• SPI handshake protocol with additional overhead between netX and Raspberry Pi during message based communications

The cifx0 LAN interface will drop Ethernet frames in case its message queue is being overun at high LAN network traffic. The TCP/IP network protocol embeds a recovery procedure for packet loss due to retransmissions. This is why you usually do not recognize a problem when this happens. Single frame communications using non TCP/IP based traffic like the ping command may recognize lost frames.

The cifx0 LAN interface DOES NOT support Ethernet package reception of type multicast.

Pulling the image may take 10 minutes.

STEP 1. Open netPI's web UI in your browser (https).

STEP 2. Click the Docker tile to open the Portainer.io Docker management user interface.

STEP 3. Enter the following parameters under Containers > + Add Container

STEP 4. Press the button Actions > Start/Deploy container

docker run -d --privileged --network=host --restart=always -e SSHPORT=22 --device=/dev/vcio0:/dev/vcio --device=/dev/hidraw0:/dev/hidraw0 --device=/dev/spidev0.0:/dev/spidev0.0 --device=/dev/net/tun:/dev/net-tun -p 22:22/tcp hilschernetpi/netpi-codesys-basis

A docker-compose.yml file could look like this

version: "2"

services:
 nodered:
   image: hilschernetpi/netpi-codesys-basis
   restart: always
   privileged: true
   network_mode: host
   ports:
     - 22:22
   devices:
     - "/dev/vcio:/dev/vcio"
     - "/dev/hidraw0:/dev/hidraw0"
     - "/dev/spidev0.0:/dev/spidev0.0"
     - "/dev/net/tun:/dev/net/tun"
   environment:
     - SSHPORT=22

The container starts the SSH server automatically when deployed.

For an SSH terminal session as used by the CODESYS development system to communicate with a target hardware use the Docker host IP address with the port number 22 or the configured SSHPORT.

A fresh container can immediately be upgraded with your downloaded packages from the CODESYS store. Here is how to proceed

STEP 1: Upgrade your Windows CODESYS development system first with support for Raspberry Pi/Linux compatible platforms using the function Tools->Package Manager->Install. Choose your packages "CODESYS Control for Raspberry Pi 3.5.xx.xx.package" and "CODESYS Edge Gateway for Linux 3.5.x.x.package" and click Install.

STEP 2: Restart the development system to activate the installed packages extending the top menu bar Tools by two new functions.

STEP 3: Use the new function Tools->Update Raspberry Pi to deploy your "CODESYS Control for Raspberry Pi" package to the container. Enter the user pi and the password raspberry as Login credentials. Enter your Docker host IP address in Select target->IP address with the :port as extension , choose the version under Package you want to install and press Install. The installation may take up to 1 minute. Choose Standard or Multicore runtime mode during installation.

STEP 4: Use the new function Tools->Update Edge Gateway to deploy your "CODESYS Edge Gateway for Linux" package to the container. Enter the user pi and the password raspberry as Login credentials. Enter your Dcoker host IP address in Select target->IP address with the :port as extension, choose the version V3.5.x.x.(armhf) under Package you want to install and press Install. The installation may take up to 1 minute. The container is now well prepared and ready to receive a project.

STEP 5: Create a CODESYS new project. Choose Standard Project and as Device "CODESYS Control for Raspberry Pi xx" and then ok. After project creation double click the topmost Device(CODESYS Control for Raspberry Pi) in the project tree.

STEP 6: Setup a communication from the CODESYS development system to the container Edge Gateway. Use the function Gateway->Add New Gateway in the dialog Device. As gateway IP-address use the Docker host IP address at port 1217 and click ok. Use the option Device->Scan Network... option and click the found device found. e.g. NTB827EBEA02D0 [0000.0539] and ok.

The container has been successfully tested against the CODESYS Development System V3 in the version V3.5.15.40(64Bit) and the CODESYS Control for Raspberry Pi SL and CODESYS Control for Raspberry Pi MC SL both in the version V3.5.16.0

Copyright (c) Hilscher Gesellschaft fuer Systemautomation mbH. All rights reserved. Licensed under the LISENSE.txt file information stored in the project's source code repository.

As with all Docker images, these likely also contain other software which may be under other licenses (such as Bash, etc from the base distribution, along with any direct or indirect dependencies of the primary software being contained). As for any pre-built image usage, it is the image user's responsibility to ensure that any use of this image complies with any relevant licenses for all software contained within.

Hilscher Gesellschaft fuer Systemautomation mbH www.hilscher.com