Datasets:
D3FEND: A knowledge graph of cybersecurity countermeasures
Overview
D3FEND encodes a countermeasure knowledge base in the form of a knowledge graph. It meticulously organizes key concepts and relations in the cybersecurity countermeasure domain, linking each to pertinent references in the cybersecurity literature.
Use-cases
Researchers and cybersecurity enthusiasts can leverage D3FEND to:
- Develop sophisticated graph-based models.
- Fine-tune large language models, focusing on cybersecurity knowledge graph completion.
- Explore the complexities and nuances of defensive techniques, mappings to MITRE ATT&CK, weaknesses (CWEs), and cybersecurity taxonomies.
- Gain insight into ontology development and modeling in the cybersecurity domain.
Dataset construction and pre-processing
Source:
Building and Verification:
- Construction: The ontology, denoted as
d3fend-full.owl
, was built from the beta version of the D3FEND ontology referenced above using documented README in d3fend-ontology. This includes the CWE extensions. - Import and Reasoning: Imported into Protege version 5.6.1, utilizing the Pellet reasoner plugin for logical reasoning and verification.
- Coherence Check: Utilized the Debug Ontology plugin in Protege to ensure the ontology's coherence and consistency.
Exporting, Transformation, and Compression:
Note: The following steps were performed using Apache Jena's command line tools. (https://jena.apache.org/documentation/tools/)
- Exporting Inferred Axioms: Post-verification, I exported inferred axioms along with asserted axioms and annotations. Detailed Process
- Filtering: The materialized ontology was filtered using
d3fend.rq
to retain relevant triples. - Format Transformation: Subsequently transformed to Turtle and
N-Triples formats for diverse usability. Note: I export in Turtle
first because it is easier to read and verify. Then I convert to
N-Triples.
arq --query=d3fend.rq --data=d3fend.owl --results=turtle > d3fend.ttl riot --output=nt d3fend.ttl > d3fend.nt
- Compression: Compressed the resulting ontology files using gzip.
Features
The D3FEND dataset is composed of triples representing the relationships between different cybersecurity countermeasures. Each triple is a representation of a statement about a cybersecurity concept or a relationship between concepts. The dataset includes the following features:
1. Subject (string
)
The subject of a triple is the entity that the statement is about. In this dataset, the subject represents a cybersecurity concept or entity, such as a specific countermeasure or ATT&CK technique.
2. Predicate (string
)
The predicate of a triple represents the property or characteristic of the subject, or the nature of the relationship between the subject and the object. For instance, it might represent a specific type of relationship like "may-be-associated-with" or "has a reference."
3. Object (string
)
The object of a triple is the entity that is related to the subject by the predicate. It can be another cybersecurity concept, such as an ATT&CK technique, or a literal value representing a property of the subject, such as a name or a description.
Usage
First make sure you have the requirements installed:
pip install datasets
pip install rdflib
You can load the dataset using the Hugging Face Datasets library with the following Python code:
from datasets import load_dataset
dataset = load_dataset('wikipunk/d3fend', split='train')
Note on Format:
The subject, predicate, and object are stored in N3 notation, a
verbose serialization for RDF. This allows users to unambiguously
parse each component using rdflib.util.from_n3
from the RDFLib
Python library. For example:
from rdflib.util import from_n3
subject_node = from_n3(dataset[0]['subject'])
predicate_node = from_n3(dataset[0]['predicate'])
object_node = from_n3(dataset[0]['object'])
Once loaded, each example in the dataset will be a dictionary with
subject
, predicate
, and object
keys corresponding to the
features described above.
Example
Here is an example of a triple in the dataset:
- Subject:
"<http://d3fend.mitre.org/ontologies/d3fend.owl#T1550.002>"
- Predicate:
"<http://d3fend.mitre.org/ontologies/d3fend.owl#may-be-associated-with>"
- Object:
"<http://d3fend.mitre.org/ontologies/d3fend.owl#T1218.014>"
This triple represents the statement that the ATT&CK technique
identified by T1550.002
may be associated with the ATT&CK technique
identified by T1218.014
.
Acknowledgements
This ontology is developed by MITRE Corporation and is licensed under the MIT license. I would like to thank the authors for their work which has opened my eyes to a new world of cybersecurity modeling.
If you are a cybersecurity expert please consider contributing to D3FEND.
Citation
@techreport{kaloroumakis2021d3fend,
title={Toward a Knowledge Graph of Cybersecurity Countermeasures},
author={Kaloroumakis, Peter E. and Smith, Michael J.},
institution={The MITRE Corporation},
year={2021},
url={https://d3fend.mitre.org/resources/D3FEND.pdf}
}
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