/AD_Miner

AD Miner is an Active Directory audit tool that leverages cypher queries to crunch data from the #Bloodhound graph database to uncover security weaknesses

Primary LanguageJavaScriptGNU General Public License v3.0GPL-3.0

ADMiner

ADMiner is an Active Directory audit tool that leverages cypher queries to crunch data from the BloodHound graph database (neo4j) and gives you a global overview of existing weaknesses through a web-based static report, including detailed listing, dynamic graphs, key indicators history, along with risk ratings.

Main page

You can also observe indicators over time to help measuring mitigation efficiency. Main page

ADMiner was created and is maintained by the Mazars Cybersecurity Audit & Advisory team.

Installation and setup

The easier way is to do the following command using pipx:

pipx install 'git+https://github.com/Mazars-Tech/AD_Miner.git'

Or, the same way using pip:

pip install 'git+https://github.com/Mazars-Tech/AD_Miner.git'

But remain careful and aware that doing this with pip will "polute" your packages.

Usage

Run the tool:

AD-miner [-h] [-b BOLT] [-u USERNAME] [-p PASSWORD] [-e EXTRACT_DATE] [-r RENEWAL_PASSWORD] [-a] [-c] [-l LEVEL] -cf CACHE_PREFIX [-ch NB_CHUNKS] [-co NB_CORES] [--rdp] [--evolution EVOLUTION] [--cluster CLUSTER]

Example:

AD-miner -c -cf My_Report -u neo4j -p mypassword

To better handle large data sets, it is possible to enable multi-threading and also to use a cluster of neo4j databases, as shown in the following example (where server1 handles 32 threads and server2 handles 16) :

AD-miner -c -cf My_Report -b bolt://server1:7687 -u neo4j -p mypassword  --cluster server1:7687:32,server2:7687:16

Options:

-h, --help              Show this help message and exit
-b, --bolt              Neo4j bolt connection (default: bolt://127.0.0.1:7687)
-u, --username          Neo4j username (default : neo4j)
-p, --password          Neo4j password (default : neo5j)
-e, --extract_date      Extract date (e.g., 20220131). Default: last logon date
-r, --renewal_password  Password renewal policy in days. Default: 90
-a, --azure             Use Azure relations
-c, --cache             Use local file for neo4j data
-l, --level             Recursive level for path queries
-cf, --cache_prefix     Cache file to use (in case of multiple company cache files)
-ch, --nb_chunks        Number of chunks for parallel neo4j requests. Default : number of CPU
-co, --nb_cores         Number of cores for parallel neo4j requests. Default : number of CPU
--gpo_low               Perform a faster but incomplete query for GPO
--rdp                   Include the CanRDP edge in graphs
--evolution             Evolution over time : location of json data files. ex : '../../tests/'
--cluster               Nodes of the cluster to run parallel neo4j queries. ex : host1:port1:nCore1,host2:port2:nCore2,...

In the graph pages, you can right-click on the graph nodes to cluster them or to open the cluster.

Evolution

If you have multiple AD-Miner reports over time, you can easily track the evolution with the --evolution argument: each AD-Miner report generates a JSON data file alongside the index.html file. You just need to gather these different JSON files into a single folder and specify the path to that folder after the --evolution argument.

A tab called 'Evolution over time' then appears on the main page.

Also, views by categories 'permissions,' 'passwords,' 'kerberos' also allow you to track changes over time.

Discord

You can join the AD Miner Discord : https://discord.com/invite/5Hpj4Gs5SS

Feel free to share any thoughts, feedback or issue that you can come up with regarding AD Miner as it's still evolving 🛠️

Implemented controls

The following provides a list controls that have already been implemented in AD Miner :

Dormant accounts Tier 0 sessions violation Control path cross domain from DA to DA
Ghost computers Machine accounts with admin privs Control paths to GPOs
Accounts without password expiration Obsolete OS Control paths to servers
Accounts with old passwords Inadequate number of domain admins Control paths to OU
Accounts with clear-text passwords RDP access Control paths to GMSA passwords
Kerberoastable accounts Domain functional level Control path to AdminSDHolder container
AS-REP Roastable accounts Users with admin privs Users with path to DNS Admins
Accounts with SID history Machine accounts with high privs ACL anomalies on group objects
LAPS status Non tier 0 with DCSync capabilities Objects with path to an Operator Member
LAPS access Unconstrained delegations ADCS local admin privs
KRBTGT password age Constrained delegations Empty groups/OU
DC Shadow to DA Role-based constrained delegations
DC Shadow to all Control paths to domain admins

Contributing

Check out how to contribute here.