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A compiler that automatically generates simulation code (OMNeT++) for analyzing network services specified as Petri nets.

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Network service simulation compiler

The compiler generates OMNeT++ simulation code for simulating and analyzing the behavior of a specified NFV network service. The network service needs to be specified precisely as Queuing Petri Net (QPN), using TimeNet.

This automated workflows enables fast and easy, yet accurate analysis of network services, providing valuable insights into their behavior and performance.

Cite this work

If you use this simulation compiler in your research, please cite our work:

Stefan Schneider, Sharma Arnab, Holger Karl, and Heike Wehrheim: "Specifying and Analyzing Virtual Network Services Using Queuing Petri Nets". IFIP/IEEE International Symposium on Integrated Network Management (IM 2019), Washington DC, USA (2019)

Note: For the source code originally implemented and submitted to IFIP/IEEE IM 2019, refer to the corresponding release or branch. The master branch may have evolved from the originally submitted code.

Installation requirements

  • Pyhton 3.6 for the automatic compilation and generation of OMNeT++ simulation code
  • OMNeT++ 5.2 to execute the generated simulation code
  • TimeNet 4.4 to specify new network services as Queuing Petri Nets

To install all requirements for running the evaluation Jupyter notebooks, use the requirements.txt:

pip install -r requirements.txt

Usage/Execution workflow

For simulation compilation, simply run python main.py <service.xml>, where <service.xml is the specified network service as xml file.

Here is the complete workflow of specification, compilation, and simulation:

  1. Specify the network service and the behavior of involved virtual network functions (VNFs) as Queuing Petri Net (QPN) using TimeNet 4.4. Copy the resulting xml file of the specified network service into the xml-files directory. There are already multiple examples, so you can skip this step if you just want to test and experiment with the simulation compiler.
  2. Execute main.py and specify the name (not the path) of the network service's xml file as command line argument. This triggers the compilation process and creates a new subfolder inside the autogen folder with the generated simulation code. The simulation code contains the C++ module implementations, copied from omnet-base and generates individual OMNeT++ configuration files corresponding to the specified network service.
  3. The generated simulation code can be used directly by OMNeT++ 5.2, by selecting File > New > OMNET++ Project inside the OMNeT++ IDE. In the following setup wizard, simply choose a project name and select the generated folder inside autogen as location (don't use default!). You can then directly execute and run the omnet.ini inside OMNeT++. If you just want to test the simulation with OMNeT++, the omnet-test contains an already generated/compiled OMNeT++ simulation that you can use.
  4. Run the simulation and analyze the results. For example, you can evaluate the impact of different service configurations on the end-to-end delay or investigate bottlenecks in the service.

Screenshots

Specification with TimeNet:

timenet

Simulation with OMNeT++ GUI (also possible from command line):

omnet

Example/Test

To illustrate and test the compilation process, consider the following very simple example network service (syncTrans.xml inside the xml-files folder): A single VNF receives requests from two sources. The VNF synchronizes and processes the requests before sending out the merged traffic to an end-point. This simplistic network service can be specified as Queuing Petri Nets as illustrated in the figure below.

example

This network service is specified in xml-files/syncTrans.xml. To compile the corresponding OMNeT++ simulation code, simply run python main.py syncTrans.xml. The resulting simulation code is in autogen/SynctransAuto.

Contact

The source code belongs to the paper "Specifying and Analyzing Virtual Network Services Using Queuing Petri Nets" submitted to IFIP/IEEE International Symposium on Integrated Network Management (IM) 2019. The authors are Stefan Schneider, Arnab Sharma, Holger Karl, and Heike Wehrheim.

Lead developer: Stefan Schneider (@StefanUPB)

For questions or support, please use GitHub's issue system.

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A compiler that automatically generates simulation code (OMNeT++) for analyzing network services specified as Petri nets.

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