Crates.io | rusthound |
lib.rs | rusthound |
version | 1.1.69 |
source | src |
created_at | 2022-10-12 16:35:25.884167 |
updated_at | 2023-12-11 11:41:36.250808 |
description | Active Directory data collector for Bloodhound written in rust. |
homepage | https://github.com/OPENCYBER-FR/RustHound |
repository | https://github.com/OPENCYBER-FR/RustHound |
max_upload_size | |
id | 686430 |
size | 10,301,851 |
Not all SharpHound features have been implemented. Some exist in RustHound and not in SharpHound or BloodHound-Python. Please refer to the roadmap for more information.
RustHound is a cross-platform BloodHound collector tool written in Rust, making it compatible with Linux, Windows, and macOS.
No AV detection and cross-compiled.
RustHound generates users, groups, computers, OUs, GPOs, containers, and domain JSON files that can be analyzed with BloodHound.
💡 If you can use SharpHound, use it. Use RustHound as a backup solution if SharpHound is detected by AV or if it not compatible with your OS.
You can use the make command to install RustHound or to compile it for Linux or Windows.
make install
rusthound -h
More command in the Makefile:
Default:
usage: make install
usage: make uninstall
usage: make debug
usage: make release
Static:
usage: make windows
usage: make windows_x64
usage: make windows_x86
usage: make linux_aarch64
usage: make linux_x86_64
usage: make linux_musl
usage: make macos
usage: make arm_musl
usage: make armv7
Without cli argument:
usage: make windows_noargs
Dependencies:
usage: make install_windows_deps
usage: make install_linux_musl_deps
usage: make install_macos_deps
Use RustHound with Docker to make sure to have all dependencies.
docker build --rm -t rusthound .
# Then
docker run --rm -v ./:/usr/src/rusthound rusthound windows
docker run --rm -v ./:/usr/src/rusthound rusthound linux_musl
docker run --rm -v ./:/usr/src/rusthound rusthound macos
You will need to install Rust on your system.
https://www.rust-lang.org/fr/tools/install
RustHound supports Kerberos and GSSAPI. Therefore, it requires Clang and its development libraries, as well as the Kerberos development libraries. On Debian and Ubuntu, this means clang-N, libclang-N-dev, and libkrb5-dev.
For example:
# Debian/Ubuntu
sudo apt-get -y update && sudo apt-get -y install gcc clang libclang-dev libgssapi-krb5-2 libkrb5-dev libsasl2-modules-gssapi-mit musl-tools gcc-mingw-w64-x86-64
Here is how to compile the "release" and "debug" versions using the cargo command.
git clone https://github.com/OPENCYBER-FR/RustHound
cd RustHound
cargo build --release
# or debug version
cargo b
The result can be found in the target/release or target/debug folder.
Below you can find the compilation methodology for each of the OS from Linux. If you need another compilation system, please consult the list in this link: https://doc.rust-lang.org/nightly/rustc/platform-support.html
# Install rustup and Cargo for Linux
curl https://sh.rustup.rs -sSf | sh
# Add Linux deps
rustup install stable-x86_64-unknown-linux-gnu
rustup target add x86_64-unknown-linux-gnu
# Static compilation for Linux
git clone https://github.com/OPENCYBER-FR/RustHound
cd RustHound
CFLAGS="-lrt";LDFLAGS="-lrt";RUSTFLAGS='-C target-feature=+crt-static';cargo build --release --target x86_64-unknown-linux-gnu
The result can be found in the target/x86_64-unknown-linux-gnu/release folder.
# Install rustup and Cargo in Linux
curl https://sh.rustup.rs -sSf | sh
# Add Windows deps
rustup install stable-x86_64-pc-windows-gnu
rustup target add x86_64-pc-windows-gnu
# Static compilation for Windows
git clone https://github.com/OPENCYBER-FR/RustHound
cd RustHound
RUSTFLAGS="-C target-feature=+crt-static" cargo build --release --target x86_64-pc-windows-gnu
The result can be found in the target/x86_64-pc-windows-gnu/release folder.
Amazing documentation: https://wapl.es/rust/2019/02/17/rust-cross-compile-linux-to-macos.html
# Install rustup and Cargo in Linux
curl https://sh.rustup.rs -sSf | sh
# Add macOS tool chain
sudo git clone https://github.com/tpoechtrager/osxcross /usr/local/bin/osxcross
sudo wget -P /usr/local/bin/osxcross/ -nc https://s3.dockerproject.org/darwin/v2/MacOSX10.10.sdk.tar.xz && sudo mv /usr/local/bin/osxcross/MacOSX10.10.sdk.tar.xz /usr/local/bin/osxcross/tarballs/
sudo UNATTENDED=yes OSX_VERSION_MIN=10.7 /usr/local/bin/osxcross/build.sh
sudo chmod 775 /usr/local/bin/osxcross/ -R
export PATH="/usr/local/bin/osxcross/target/bin:$PATH"
# Cargo needs to be told to use the correct linker for the x86_64-apple-darwin target, so add the following to your project’s .cargo/config file:
grep 'target.x86_64-apple-darwin' ~/.cargo/config || echo "[target.x86_64-apple-darwin]" >> ~/.cargo/config
grep 'linker = "x86_64-apple-darwin14-clang"' ~/.cargo/config || echo 'linker = "x86_64-apple-darwin14-clang"' >> ~/.cargo/config
grep 'ar = "x86_64-apple-darwin14-clang"' ~/.cargo/config || echo 'ar = "x86_64-apple-darwin14-clang"' >> ~/.cargo/config
# Static compilation for macOS
git clone https://github.com/OPENCYBER-FR/RustHound
cd RustHound
RUSTFLAGS="-C target-feature=+crt-static" cargo build --release --target x86_64-apple-darwin --features nogssapi
The result can be found in the target/x86_64-apple-darwin/release folder.
💡 To obtain an optimized compilation of RustHound add the following compilation parameters at the end of the
Cargo.toml
file.
[profile.release]
opt-level = "z"
lto = true
strip = true
codegen-units = 1
panic = "abort"
The size of the binary will be considerably minimized. Basic cargo compiler commands can be used.
make windows
More information here
git clone https://github.com/OPENCYBER-FR/RustHound
cd RustHound
cargo doc --open --no-deps
Usage: rusthound [OPTIONS] --domain <domain>
Options:
-v... Set the level of verbosity
-h, --help Print help information
-V, --version Print version information
REQUIRED VALUES:
-d, --domain <domain> Domain name like: DOMAIN.LOCAL
OPTIONAL VALUES:
-u, --ldapusername <ldapusername> LDAP username, like: user@domain.local
-p, --ldappassword <ldappassword> LDAP password
-f, --ldapfqdn <ldapfqdn> Domain Controler FQDN like: DC01.DOMAIN.LOCAL or just DC01
-i, --ldapip <ldapip> Domain Controller IP address like: 192.168.1.10
-P, --ldapport <ldapport> LDAP port [default: 389]
-n, --name-server <name-server> Alternative IP address name server to use for DNS queries
-o, --output <output> Output directory where you would like to save JSON files [default: ./]
OPTIONAL FLAGS:
--ldaps Force LDAPS using for request like: ldaps://DOMAIN.LOCAL/
--dns-tcp Use TCP instead of UDP for DNS queries
--dc-only Collects data only from the domain controller. Will not try to retrieve CA security/configuration or check for Web Enrollment
--old-bloodhound For ADCS only. Output result as BloodHound data for the original BloodHound version from @BloodHoundAD without PKI support
-z, --zip Compress the JSON files into a zip archive
OPTIONAL MODULES:
--fqdn-resolver Use fqdn-resolver module to get computers IP address
--adcs Use ADCS module to enumerate Certificate Templates, Certificate Authorities and other configurations.
(For the custom-built BloodHound version from @ly4k with PKI support)
Examples are done on the GOADv2 implemented by mayfly:
# Linux with username:password
rusthound -d north.sevenkingdoms.local -u 'jeor.mormont@north.sevenkingdoms.local' -p '_L0ngCl@w_' -o /tmp/demo -z
# Linux with username:password and ldapip
rusthound -d north.sevenkingdoms.local -i 192.168.56.11 -u 'jeor.mormont@north.sevenkingdoms.local' -p '_L0ngCl@w_' -o /tmp/demo -z
# Linux with username:password and ldaps
rusthound -d north.sevenkingdoms.local --ldaps -u 'jeor.mormont@north.sevenkingdoms.local' -p '_L0ngCl@w_' -o /tmp/demo -z
# Linux with username:password and ldaps and custom port
rusthound -d north.sevenkingdoms.local --ldaps -P 3636 -u 'jeor.mormont@north.sevenkingdoms.local' -p '_L0ngCl@w_' -o /tmp/demo -z
# Tips to redirect and append both standard output and standard error to a file > /tmp/rh_output 2>&1
rusthound -d north.sevenkingdoms.local --ldaps -u 'jeor.mormont@north.sevenkingdoms.local' -p '_L0ngCl@w_' -o /tmp/demo --fqdn-resolver > /tmp/rh_output 2>&1
# Windows with GSSAPI session
rusthound.exe -d sevenkingdoms.local --ldapfqdn kingslanding
# Windows simple bind connection username:password (do not use single or double quotes with cmd.exe)
rusthound.exe -d sevenkingdoms.local -u jeor.mormont@north.sevenkingdoms.local -p _L0ngCl@w_ -o output -z
# Kerberos authentication (Linux)
export KRB5CCNAME="/tmp/jeor.mormont.ccache"
rusthound -d sevenkingdoms.local -f kingslanding -k -z
# Kerberos authentication (Windows)
rusthound.exe -d sevenkingdoms.local -f kingslanding -k -z
# Linux with username:password and FQDN resolver module
rusthound -d essos.local -u 'daenerys.targaryen@essos.local' -p 'BurnThemAll!' -o /tmp/demo --fqdn-resolver -z
# Linux with username:password and ldaps and FQDN resolver module and TCP DNS request and custom name server
rusthound -d essos.local --ldaps -u 'daenerys.targaryen@essos.local' -p 'BurnThemAll!' -o /tmp/demo --fqdn-resolver --tcp-dns --name-server 192.168.56.12 -z
# Windows with GSSAPI session and FQDN resolver module
rusthound.exe -d essos.local -f meereen -o output --fqdn-resolver -z
# Windows simple bind connection username:password and FQDN resolver module and TCP DNS request and custom name server (do not use single or double quotes with cmd.exe)
rusthound.exe -d essos.local -u daenerys.targaryen@essos.local -p BurnThemAll! -o output -z --fqdn-resolver --tcp-dns --name-server 192.168.56.12
Example using @ly4k BloodHound version.
# Linux with username:password and ADCS module for @ly4k BloodHound version
rusthound -d essos.local -u 'daenerys.targaryen@essos.local' -p 'BurnThemAll!' -o /tmp/adcs --adcs -z
# Linux with username:password and ADCS module and dconly flag (will don't check webenrollment)
rusthound -d essos.local -u 'daenerys.targaryen@essos.local' -p 'BurnThemAll!' -o /tmp/adcs --adcs --dc-only -z
# Linux with username:password and ADCS module using "--old-bloodhound" argument for official @BloodHoundAd version
rusthound -d essos.local -u 'daenerys.targaryen@essos.local' -p 'BurnThemAll!' -o /tmp/adcs --adcs --old-bloodhound -z
# Windows with GSSAPI session and ADCS module
rusthound.exe -d essos.local -f meereen -o output -z --adcs
# Windows with GSSAPI session and ADCS module and TCP DNS request and custom name server
rusthound.exe -d essos.local --ldapfqdn meereen -o output -z --adcs --tcp-dns --name-server 192.168.56.12
# Windows simple bind connection username:password (do not use single or double quotes with cmd.exe)
rusthound.exe -d essos.local -u daenerys.targaryen@essos.local -p BurnThemAll! -o output -z --adcs --dc-only
You can find the custom queries used in the demo in the resource folder.
Use the following command to install it:
cp resources/customqueries.json ~/.config/bloodhound/customqueries.json
In order to make statistics on a DC with more LDAP objects, run the BadBlood on the domain controller ESSOS.local from GOAD. The DC should now have around 3500 objects. Below is the average time it takes to run the following tools:
Tool | Environment | Objects | Time | Command |
---|---|---|---|---|
SharpHound.exe | Windows | ~3500 | ~51.605s | Measure-Command { sharphound.exe -d essos.local --ldapusername 'khal.drogo' --ldappassword 'horse' --domaincontroller '192.168.56.12' -c All } |
BloodHound.py | Linux | ~3500 | ~9.657s | time python3 bloodhound.py -u khal.drogo -p horse -d essos.local -ns 192.168.56.12 --zip -c all |
RustHound.exe | Windows | ~3500 | ~5.315s | Measure-Command { rusthound.exe -d essos.local -u khal.drogo@essos.local -p horse -z } |
RustHound | Linux | ~3500 | ~3.166s | time rusthound -d essos.local -u khal.drogo@essos.local -p horse -z |
BIND
NTLM
Kerberos
Retreive LAPS password if your user can read them automatic
Resolve FQDN computers found to IP address --fqdn-resolver
Retrieve certificates for ESC exploitation with Certipy --adcs
Kerberos attack module (ASREPROASTING and KERBEROASTING) --attack-kerberos
Retrieve datas from trusted domains --follow-trust (Currently working on it, got beta version of this module)
Parsing Features
HasSIDHistory
Properties
: sfupassword
DCERPC (dependencies)
Sessions
LocalAdmins
RemoteDesktopUsers
DcomUsers
PSRemoteUsers
User Specified SAN
Request Disposition