.______ ____ ____ ___ .___________.___________. ______ __ ___
| _ \ \ \ / / / \ | | | / || |/ /
| |_) | \ \/ / / ^ \ `---| |----`---| |----`| ,----'| ' /
| ___/ \_ _/ / /_\ \ | | | | | | | <
| | | | / _____ \ | | | | | `----.| . \
| _| |__| /__/ \__\ |__| |__| \______||__|\__\
A Python package to interact with MITRE ATT&CK Frameworks
Current Version is 7.1.1
pyattck is a light-weight framework for MITRE ATT&CK Frameworks. This package extracts details from the MITRE Enterprise, PRE-ATT&CK, Mobile, and ICS Frameworks.
pyattck
assist organizations and individuals with accessing MITRE ATT&CK Framework(s) in a programmatic way. Meaning, you can access all defined actors, malwares, mitigations, tactics, techniques, and tools defined by the Enterprise, Mobile, Pre-Attck, and ICS frameworks via a command-line utility or embedding into your own code base.
There are many reasons why you would want to access this data in an automated (scripted/coded) way but a few examples are:
There are other benefits that pyattck
provide as well which includes the ability to provide additional contextual data. You can find more information about this data here but the basics are that pyattck
utilizes multiple open-source repositories to gather additional contextual data like commands used to execute a technique, country and other details about a malicious actor, other variants of malware similar to a defined tool/malware, etc.
This additional context is what makes pyattck
truly powerful and enables people to build more robust testing and validation of their detection rules, validates testing assumptions, etc. Truly there are countless ways that pyattck
could be utilized to help blue, red, and purple teams defend organizations (and themselves).
The pyattck package retrieves all Tactics, Techniques, Actors, Malware, Tools, and Mitigations from the MITRE ATT&CK Frameworks as well as any defined relationships within the MITRE ATT&CK dataset (including sub-techniques).
In addition, Techniques, Actors, and Tools (if applicable) now have collected data from third-party resources that are accessible via different properties. For more detailed information about these features, see External Datasets.
The pyattck package allows you to:
You can install pyattck on OS X, Linux, or Windows. You can also install it directly from the source. To install, see the commands under the relevant operating system heading, below.
pip install pyattck
git clone https://github.com/swimlane/pyattck.git
cd pyattck
python setup.py install
To use pyattck you must instantiate an Attck object. Although you can interact directly with each class, the intended use is through a Attck object:
from pyattck import Attck
attack = Attck()
By default, sub-techniques
are accessible under each technique object. You can turn this behavior off by passing nested_techniques=False
when creating your Attck
object.
As an example, the default behavior looks like the following example:
from pyattck import Attck
attack = Attck()
for technique in attack.enterprise.techniques:
print(technique.id)
print(technique.name)
for subtechnique in technique.techniques:
print(subtechnique.id)
print(subtechnique.name)
You can access the following main
properties on your Attck object:
Once you specify the MITRE ATT&CK Framework, you can access additional properties.
Here are the accessible objects under the Enterprise property:
For more information on object types under the enterprise
property, see Enterprise.
Here are the accessible objects under the PreAttck property:
For more information on object types under the preattck
property, see PreAttck.
Here are the accessible objects under the Mobile property:
For more information on object types under the mobile
property, see Mobile.
Here are the accessible objects under the ICS property:
For more information on object types under the ics
property, see ICS.
To utilize the new interactive menu system within pyattck, you must set interactive
to True
. By doing so, it will launch the interactive console menu system.
Using a script your can launch this by running:
from pyattck import Attck
Attck(interactive=True)
Or you can also run interactive mode on the command line:
pyattck --interactive
Checkout a gif example below:
pyattck
allows you to configure if you store external data and where it is stored.
from pyattck import Attck
attck = Attck(
nested_techniques=True,
use_config=False,
save_config=False,
config_file_path='~/pyattck/config.yml',
data_path='~/pyattck/data',
enterprise_attck_json="https://swimlane-pyattck.s3.us-west-2.amazonaws.com/merged_enterprise_attck_v1.json",
pre_attck_json="https://swimlane-pyattck.s3.us-west-2.amazonaws.com/merged_pre_attck_v1.json",
mobile_attck_json="https://swimlane-pyattck.s3.us-west-2.amazonaws.com/merged_mobile_attck_v1.json,
ics_attck_json="https://swimlane-pyattck.s3.us-west-2.amazonaws.com/merged_ics_attck_v1.json",
nist_controls_json="https://swimlane-pyattck.s3.us-west-2.amazonaws.com/merged_nist_controls_v1.json",
generated_nist_json="https://swimlane-pyattck.s3.us-west-2.amazonaws.com/attck_to_nist_controls.json",
**kwargs
)
By default, pyattck
will (now) pull the latest external data from their respective locations using HTTP GET requests. pyattck
currently pulls from the following locations:
You have several options when instantiating the Attck
object. As of 4.0.0
you can now specify any of the following options:
True
pyattck will attempt to retrieve the configuration specified in the config_file_path
location. If this file is corrupted or cannot be found, we will default to retrieving data from the specified *_attck_json
locations.True
pyattck will save the configuration file to the specified location set by config_file_path
. Additionally, we will save all downloaded files to the data_path
location specified. If you have specified a local path location instead of a download URL for any of the *_attck_json
parameters we will save this location in our configuration and reference this location going forward. ~/pyattck/config.yml
~/pyattck/data
Additionally, you can specify the location for each individual *_attck_json
files by passing in either a URI or a local file path. If you have passed in a local file path, we will simply read from this file.
If you have used the default values or specified an alternative URI location to retrieve these JSON files from, you can additionally pass in **kwargs
that will be passed along to the Requests
python package when performing any HTTP requests.
We understand that there are many different open-source projects being released, even on a daily basis, but we wanted to provide a straightforward Python package that allowed the user to identify known relationships between all verticals of the MITRE ATT&CK Framework.
If you are unfamiliar with the MITRE ATT&CK Framework, there are a few key components to ensure you have a firm grasp around. The first is Tactics & Techniques. When looking at the MITRE ATT&CK Framework, the Tactics are the columns and represent the different phases of an attack.
The MITRE ATT&CK Framework is NOT an all encompassing/defacto security coverage map - it is rather a FRAMEWORK and additional avenues should also be considered when assessing your security posture.
Techniques are the rows of the framework and are categorized underneath specific Tactics (columns). They are data points within the framework that provides guidance when assessing your security gaps. Additionally, (most) Techniques contain mitigation guidance in addition to information about their relationship to tools, malware, and even actors/groups that have used this technique during recorded attacks.
This means, if your organization is focused on TTPs (Tactics Techniques and Procedures) used by certain actors/groups then MITRE ATT&CK Framework is perfect for you. If you are not at this security maturing within your organization, no worries! The ATT&CK Framework still provides really good guidance in a simple and straightforward layout, but programmatically it is not straightforward--especially if you wanted to measure (or map) your security controls using the framework.
You can add features or bugs or run the code in a development environment.
To get a development and testing environment up and running, use this Dockerfile.
To use the Dockerfile
run, cd to this repository directory and run:
docker build --force-rm -t pyattck .
Next, run the docker container:
docker run pyattck
Running this calls the test python file in bin/test.py.
Modify the test python file for additional testing and development.
Tests within this project should cover all available properties and methods. As this project grows the tests will become more robust but for now we are testing that they exist and return outputs.
Please read CONTRIBUTING.md for details on our code of conduct, and the process for submitting pull requests to us.
We use SemVer for versioning.
For details on features for a specific version of pyattck
, see the CHANGELOG.md.
See also the list of contributors.
This project is licensed under the MIT License.
First of all, I would like to thank everyone who contributes to open-source projects, especially the maintainers and creators of these projects. Without them, this capability would not be possible.
This data set is generated from many different sources. As we continue to add more sources, we will continue to add them here. Again thank you to all of these projects. In no particular order, pyattck
utilizes data from the following projects:
.. toctree::
:titlesonly:
configuration
pyattck/attck
Dataset <https://github.com/swimlane/pyattck-data>
Data Models <https://github.com/swimlane/pyattck-data>
enterprise/enterprise
preattck/preattck
mobile/mobileattck
ics/icsattck