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Execution Engine

The Execution Engine is a software component for the execution of processes, which was developed as part of the Fraunhofer lighthouse project SWAP-IT. Further information about the SWAP-IT software modules can be found within the SWAP-IT Demonstration Scenario (https://github.com/swap-it/demo-scenario).

The Execution Engine itself is an OPC UA server and can be seen as interface between a scheduler and resources on a shop floor, which is able to execute scheduled processes and in this context, integrate custom Resource Assignment strategies, be attached to custom schedulers and map process parameters. Figure 1 illustrates the functional blocks of an Execution Engine. The Execution Engine Data Object constitutes a database that holds all parameters, specified within a process description. Here, the Execution Engine Data Object receives resource parameterization from the scheduler and stores them for the execution of Services. Besides, the Execution Engine Data Object receives service results from the resources on the shop floor, which are then used to either update existing variables within the Execution Engine Data Object, or to add new variables to it, which can later be used for a parameterization of a Service.

To effectively find resources on the shop floor and assign services to them, the Execution Engine interacts with a Device Registry and can integrate custom Resource Assignment strategies. To execute Services on the Shop Floor, the Execution Engine has a build-in Control Interface, which features an arbitrary number of OPC UA Clients that interact with the resources on the Shop Floor.

Besides, the Execution Engine can integrate custom schedulers through its Dispatcher Interface. Here the Execution Engine provides a set of Dispatcher Callbacks to react to scheduled Tasks and Services. In addition, the Dispatcher Interface provides a callback to communicate the completion of a Service Execution to the scheduler, as well as a callback to provide process data to the scheduler. These data can then be used by the scheduler to e.g., evaluate constructs such as loops or conditions.

As default implementation, we connect the PFDL Scheduler to the execution engine to run it in the SWAP-IT context. However, the Execution Engine provides an API to connect the Execution Engine to custom dispatchers.

Components of an Execution Engine

An extensive documentation of the execution engine can be found here:

https://fraunhoferiosb.github.io/swap-it-execution-engine/

or build from the repository. To build the documentation, sphinx and the sphinx rtd theme are required. Both can be installed with:

sphinx sphinx-rtd-theme myst_parser rst2pdf

Build the documentation:

git clone https://github.com/FraunhoferIOSB/swap-it-execution-engine
cd swap-it-execution-engine
#html
sphinx-build -M html documentation/source/ documentation/build/html
#pdf
sphinx-build -b pdf documentation/source/ documentation/build/pdf/

Start an ExecutionEngine

To start an Execution Engine for custom process execution, run the main.py file. However, the main Program requires a set of mandatory and optional arguments that must be handed over from as program arguments:

Mandatory Arguments

  • execution_engine_server_url
  • path_to_pfdl

Here, the execution_engine_server_url specifies the web-address of the Execution Engines OPC UA server and the path_to_pfdl a path to a local PFDL file that should be executed with the Execution Engine.

Example configurations could be:

  • opc.tcp://localhost:4840
  • ./PFDL_Examples/advanced.pfdl

Optional Arguments

The optional arguments are used to create kwargs for the Execution Engine object. Here, each argument that is set must provide a key and a value, separated by an equals. A potential configuration could be:

  • "dashboard_host_address"="http://localhost:8080"
  • "log_info"=True
  • "device_registry_url"="opc.tcp://localhost:8000"
  • "custom_url"="opc.tcp://localhost:"
  • "number_default_clients"=5
  • "assignment_agent_url"="opc.tcp://localhost:10000"
  • "delay_start"=20"

Run the main.py file

The main.py file can be started from a terminal with at least both mandatory program arguments set:

python3 main.py "opc.tcp://localhost:4840" "./PFDL_Examples/advanced.pfdl"

In case that some or all optional arguments should be deployed, the command would look like:

python3 main.py "opc.tcp://localhost:4840" "./PFDL_Examples/advanced.pfdl" "dashboard_host_address"="http://localhost:8080" "device_registry_url"="opc.tcp://localhost:8000" "number_default_clients"=5

Start an ExecutionEngine from Docker

The repository provides a Dockerfile from which a docker image with the swap-it-execution-engine can be build an executed. With the current configuration, the swap-it-execution-engine can execute processes, based on the SWAP-IT Demonstration Scenario (https://github.com/swap-it/demo-scenario) environment. For this, the repository also provides a corresponding docker-compose.yaml file.

Start the SWAP-IT Demonstration Scenario Environment

git clone https://github.com/FraunhoferIOSB/swap-it-execution-engine.git
cd swap-it-execution-engine
docker-compose up

Build and Start the Execution Engine Docker Image

docker build -t execution_engine -f Dockerfile .
docker run -p 3000:3000 execution_engine

OPC UA SDK Compatibility

Our approach is developed for the C-base open62541 OPC UA SDK (https://github.com/open62541/open62541). We also like to point to our swap-it-open62541-server template (https://github.com/FraunhoferIOSB/swap-it-open62541-server-template), which provides a base c-library for a simple server configuration

On an experimental basis, the approach also works with python-asyncio (https://github.com/FreeOpcUa/opcua-asyncio).

Installation Requirements

  pip install asyncua==1.1.5 nest-asyncio==1.6.0 pfdl-scheduler==0.9.0 coverage==7.6.1 python-on-whales==0.73.0

Besides, Graphviz (https://graphviz.org/) must be installed on the system.

Install

    pip install -r requirements.txt

Python Version

    3.12

Run Unit Tests

cd this repository
python3 -m unittest tests/unit_tests/run_unit_tests.py 

Run Unit Tests with Coverage

cd this repository
coverage run --omit=tests/*,__init__.py tests/unit_tests/run_unit_tests.py

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