MSTIC Security Tools
Project description
MSTIC Jupyter and Python Security Tools
Microsoft Threat Intelligence Python Security Tools.
The msticpy package was initially developed to support Jupyter Notebooks authoring for Azure Sentinel. Many of the included tools can be used in other security scenarios for threat hunting and threat investigation.
There are three main sub-packages:
- sectools - Python security tools to help with data enrichment, analysis or investigation.
- nbtools - Jupyter-specific UI tools such as widgets, plotting and other data display.
- data - data layer and pre-defined queries for Azure Sentinel, MDATP and other data sources.
We welcome feedback, bug reports, suggestions for new features and contributions.
Installing
pip install msticpy
or for the latest dev build
pip install git+https://github.com/microsoft/msticpy
Documentation
Full documentation is at ReadTheDocs
Sample notebooks for many of the modules are in the docs/notebooks folder and accompanying notebooks.
You can also browse through the sample notebooks referenced at the end of this document (especially the Windows Alert Investigation notebook) to see some of the functionality used in context.
Security Tools Sub-package - sectools
This subpackage contains several modules helpful for working on security investigations and hunting:
base64unpack
Base64 and archive (gz, zip, tar) extractor. Input can either be a single string or a specified column of a pandas dataframe. It will try to identify any base64 encoded strings and decode them. If the result looks like one of the supported archive types it will unpack the contents. The results of each decode/unpack are rechecked for further base64 content and will recurse down up to 20 levels (default can be overridden). Output is to a decoded string (for single string input) or a DataFrame (for dataframe input).
iocextract
Uses a set of built-in regular expressions to look for Indicator of Compromise (IoC) patterns. Input can be a single string or a pandas dataframe with one or more columns specified as input.
The following types are built-in:
- IPv4 and IPv6
- URL
- DNS domain
- Hashes (MD5, SHA1, SHA256)
- Windows file paths
- Linux file paths (this is kind of noisy because a legal Linux file path can have almost any character)
You can modify or add to the regular expressions used at runtime.
Output is a dictionary of matches (for single string input) or a DataFrame (for dataframe input).
tiproviders
The TILookup class can lookup IoCs across multiple TI providers. built-in providers include AlienVault OTX, IBM XForce, VirusTotal and Azure Sentinel.
The input can be a single IoC observable or a pandas DataFrame containing multiple observables. Depending on the provider, you may require an account and an API key. Some providers also enforce throttling (especially for free tiers), which might affect performing bulk lookups.
For more details see TIProviders
and
TILookup Usage Notebook
vtlookup
Wrapper class around Virus Total API. Input can be a single IoC observable or a pandas DataFrame containing multiple observables. Processing requires a Virus Total account and API key and processing performance is limited to the number of requests per minute for the account type that you have. Support IoC Types:
- Filehash
- URL
- DNS Domain
- IPv4 Address
geoip
Geographic location lookup for IP addresses.
This module has two classes for different services:
- GeoLiteLookup - Maxmind Geolite (see https://www.maxmind.com)
- IPStackLookup - IPStack (see https://ipstack.com)
Both services offer a free tier for non-commercial use. However, a paid tier will normally get you more accuracy, more detail and a higher throughput rate. Maxmind geolite uses a downloadable database, while IPStack is an online lookup (API key required).
eventcluster
This module is intended to be used to summarize large numbers of events into clusters of different patterns. High volume repeating events can often make it difficult to see unique and interesting items.
This is an unsupervised learning module implemented using SciKit Learn DBScan.
The module contains functions to generate clusterable features from string data. For example, an administration command that does some maintenance on thousands of servers with a commandline like the following
install-update -hostname {host.fqdn} -tmp:/tmp/{GUID}/rollback
can be collapsed into a single cluster pattern by ignoring the character values of the host and guids in the string and using delimiters or tokens to group the values. This allows you to more easily see distinct patterns of activity.
outliers
Similar to the eventcluster module, but a little bit more experimental (read 'less tested'). It uses SkLearn Isolation Forest to identify outlier events in a single data set or using one data set as training data and another on which to predict outliers.
auditdextract
Module to load and decode Linux audit logs. It collapses messages sharing the same message ID into single events, decodes hex-encoded data fields and performs some event-specific formatting and normalization (e.g. for process start events it will re-assemble the process command line arguments into a single string).
This is still a work-in-progress.
syslog_utils
Module to support an investigation of a linux host with only syslog logging enabled. This includes functions for collating host data, clusting logon events and detecting user sessions containing suspicious activity.
cmd_line
A module to support he detection of known malicious command line activity or suspicious patterns of command line activity.
Notebook tools sub-package - nbtools
This is a collection of display and utility modules designed to make working with security data in Jupyter notebooks quicker and easier.
- nbwidgets - groups common functionality such as list pickers, time boundary settings, saving and retrieving environment variables into a single line callable command.
- nbdisplay - functions that implement common display of things like alerts, events in a slightly more consumable way than print()
- entityschema - implements entity classes (e.g. Host, Account, IPAddress) used in Log Analytics alerts and in many of these modules. Each entity encaspulates one or more properties related to the entity.
Notebook Tools Notebook and Event Timeline Visualization
Data sub-package - data
These components are currently still part of the nbtools sub-package but will be refactored to separate them into their own package.
- QueryProvider - extensible query library targeting Log Analytics or OData endpoints. Built-in parameterized queries allow complex queries to be run from a single function call. Add your own queries using a simple YAML schema.
- security_alert and security_event - encapsulation classes for alerts and events.
- entity_schema - definitions for multiple entities (Host, Account, File, IPAddress, etc.)
Each has a standard 'entities' property reflecting the entities found in the alert or event.
These can also be used as meta-parameters for many of the queries.
For example, the following query will extract the value for the hostname
query parameter
from the alert:
qry.list_host_logons(query_times, alert)
Clone the notebooks in this repo to Azure Notebooks
Requires sign-in to Azure Notebooks
More Notebooks
View directly on GitHub or copy and paste the link into nbviewer.org
Notebook examples with saved data
See the following notebooks for more examples of the use of this package in practice:
- Windows Alert Investigation in github or NbViewer
- Office 365 Exploration in github or NbViewer
- Cross-Network Hunting in github or NbViewer
To-Do Items
- Add additional notebooks to document use of the tools.
- Expand list of supported TI provider classes.
Supported Platforms and Packages
- msticpy is OS-independent
- Requires Python 3.6 or later
- Requires the following python packages: pandas, bokeh, matplotlib, seaborn, setuptools, urllib3, ipywidgets, numpy, attrs, requests, networkx, ipython, scikit_learn, typing
- The following packages are recommended and needed for some specific functionality: Kqlmagic, maxminddb_geolite2, folium, dnspython, ipwhois
See requirements.txt for more details and version requirements.
Contributing
This project welcomes contributions and suggestions. Most contributions require you to agree to a Contributor License Agreement (CLA) declaring that you have the right to, and actually do, grant us the rights to use your contribution. For details, visit https://cla.microsoft.com.
When you submit a pull request, a CLA-bot will automatically determine whether you need to provide a CLA and decorate the PR appropriately (e.g., label, comment). Simply follow the instructions provided by the bot. You will only need to do this once across all repos using our CLA.
This project has adopted the Microsoft Open Source Code of Conduct. For more information see the Code of Conduct FAQ or contact opencode@microsoft.com with any additional questions or comments.
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