tothi / ad-honeypot-autodeploy

Deploy a small, intentionally insecure, vulnerable Windows Domain for RDP Honeypot fully automatically.
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ad-honeypot-autodeploy

Deploy a small, intentionally insecure, vulnerable Windows Domain for RDP Honeypot fully automatically.

Runs on self-hosted virtualization using libvirt with QEMU/KVM (but it can be customized easily for cloud-based solutions).

Used for painlessly set up a small Windows Domain from scratch automatically (without user interaction) for the purpose of RDP Honeypot testing.

Features a Domain Controller, a Desktop Computer and a configured Graylog server for logging the actions of the bad guys.

Automatic deployment phases

  1. Packer: download the necessary install media and setup the automated base virtual machine images unattended.

  2. Terraform: provision the libvirt virtualization infrastructure (network + virtual machines) using the packer-prepared virtual machine images.

  3. Ansible: Configure the infrastructure (DC, Desktop, Graylog) automatically, without user interaction.

After going through the Packer+Terraform+Ansible pipeline, the configured Windows Domain should be up and running, you could attach the RDP service of the Desktop to the public internet, and let's monitor the events through the Graylog.

Features

Features of the running system are:

Host System Requirements

Virtualization needs some power of your host system:

Tested on Ubuntu 18.04 LTS host.

Installation and Usage

First, clone the repo:

git clone https://github.com/tothi/ad-honeypot-autodeploy
cd ad-honeypot-autodeploy

Before starting with Packer, set up the intial passwords (watch for complexity requirements):

./init_passwords.sh

Packer

Now build the initial images.

cd packer

Windows Server 2016 and Ubuntu installation media should be downloaded by the Packer script. VirtIO needs to be downloaded by the attached get-virtio.sh script:

./get-virtio.sh

Windows 10 should be downloaded manually by getting a temporary download link and save it to the ISO folder. The download link could be obtained from here. Select the English (International), 64-bit version and save the ISO to ISO/Win10_21H2_EnglishInternational_x64.iso.

For mapping IP locations on a World Map in Graylog, the MaxMind GeoIP database is needed. Unfortunately due to licensing terms it cannot be redistributed, so you have to download it manually (after registering) from the MaxMind site. The free GeoLite2 version should work, get the "GeoLite2 City" Database in MMDB format (download the GZIP and untar) and put it at resources/GeoLite2-City.mmdb.

If you do not have Packer, get the latest version from the packer.io site (download the pre-compiled binary) or try to add the Hashicorp repository to your packaging system (useful for Terrafrom also).

If you are rebuilding the images, do not forget to clean up previous builds:

rm -fr output_*

If you want to re-download the images, remove packer_cache:

rm -fr packer_cache

After these preparing steps, run the Packer builds in parallel:

./packer-build-all.sh

Packer in action

The images should be ready in a reasonable time (~20-30 mins depending on your host hardware power).

Terraform

Now the infrastructure can be deployed using Terraform.

Get Terraform (>=0.13) if you do not have it (look at the install methods at Packer, above).

Terraform provider for libvirt should be automatically downloaded from the Terraform Registry during the apply phase.

Enter Terraform folder:

cd ../terraform

Initialize the working directory (only needed for first time use):

terraform init

Build and launch the infrastructure ("apply the changes"):

terraform apply

Note, that if the user running terraform apply is not root, sudo privileges for running /usr/sbin/iptables is needed (without password).

Terraform in action

After a short time (~2-3 mins), the network and virtual machines are up and running. If there are any failures, terraform destroy might not be enough, manual undefining resources may be necessary.

WARNING: You should take care of protecting your private network. The terraform config (main.tf) provided here just contains a custom firewall rule for my own testing environment (blocking 192.168.0.0/16 destination traffic from the 192.168.3.0/24 honeypot network).

Next is the configuration phase.

Ansible

Get into the ansible folder:

cd ../ansible

Recommended installation method is installing the latest Ansible with some required additional dependencies in a Python venv virtualized environment:

python3 -m venv venv
. ./venv/bin/activate
pip3 install -r requirements.txt

For later use just activate the venv by

. ./venv/bin/activate

And just deactivate if it is not needed anymore in your current session.

You should put an SSH public key with filename id.pub (use ssh-keygen) into the ansible folder for accessing the Ubuntu Graylog machine with the ubuntu user (ansible will add it to ~ubuntu/.ssh/authorized_keys).

The wordlist.txt file contains some (intentionally weak) passwords for the populated domain users which can be customized.

Run the configuration phase:

ansible-playbook -i hosts setup-domain.yml -v

Ansible in action

After 20-25 mins everything is ready.

The deployed system

hostname ip address operating system role
dc1 192.168.3.100 Windows Server 2016 Domain Controller
desktop12 192.168.3.112 Windows 10 (version 2004) Domain Member Workstation
graylog 192.168.3.191 Ubuntu 18.04 LTS Graylog Server
kali 192.168.3.192 Kali Rolling (2022.3) Offensive Operations

According to the libvirt network configuration (NAT), the hosts can access the public internet (if your host system allows it).

Accessing the hosts is possible through the host system. Practically using an SSH socks tunnel and proxychains for RDP or WinRM access is very comfortable.

For example, if your libvirt host IP is 192.168.0.10, create a socks tunnel listening on localhost:5000 by

ssh 192.168.0.10 -D5000 -NTv

And access the Windows 10 desktop (using an appropriate /etc/proxychains.conf configured for the :5000 tunnel):

proxychains xfreerdp /v:192.168.3.112 /u:administrator

Or, access the Graylog web interface listening on :9000 locally on the Graylog Ubuntu server by SSH ProxyJump and custom forward tunnel:

ssh -J 192.168.0.10 ubuntu@192.168.3.191 -NTv -L9000:127.0.0.1:9000

Then open URL http://localhost:9000 and you reach the Graylog web interface.

For activating the RDP honeypot, just allow public access to 192.168.3.112:3389 (for example with some port forwarding configuration on your router and iptables rules on the host machine; my helper script is rdp_public.sh) and keep watching the Graylog. ;)