This guide describes how to install Cowrie in shell mode. For proxy mode
read PROXY.rst.
- :ref:`Step 1: Install system dependencies<Step 1: Install system dependencies>`
- :ref:`Step 2: Create a user account<Step 2: Create a user account>`
- :ref:`Step 3: Checkout the code<Step 3: Checkout the code>`
- :ref:`Step 4: Setup Virtual Environment<Step 4: Setup Virtual Environment>`
- :ref:`Step 5: Install configuration file<Step 5: Install configuration file>`
- :ref:`Step 6: Starting Cowrie<Step 6: Starting Cowrie>`
- :ref:`Step 7: Listening on port 22 (OPTIONAL)<Step 7: Listening on port 22 (OPTIONAL)>`
- :ref:`Installing Backend Pool dependencies (OPTIONAL)<Installing Backend Pool dependencies (OPTIONAL)>`
- :ref:`Running using supervisord (OPTIONAL)<Running using supervisord (OPTIONAL)>`
- :ref:`Configure Additional Output Plugins (OPTIONAL)<Configure Additional Output Plugins (OPTIONAL)>`
- :ref:`Troubleshooting<Troubleshooting>`
- :ref:`Updating Cowrie<Updating Cowrie>`
- :ref:`Modifying Cowrie<Modifying Cowrie>`
First we install system-wide support for Python virtual environments and other dependencies. Actual Python packages are installed later.
On Debian based systems (last verified on Debian 10, 2021-04-29):
$ sudo apt-get install git python3-virtualenv libssl-dev libffi-dev build-essential libpython3-dev python3-minimal authbind virtualenv
It's strongly recommended to run with a dedicated non-root user id:
$ sudo adduser --disabled-password cowrie Adding user 'cowrie' ... Adding new group 'cowrie' (1002) ... Adding new user 'cowrie' (1002) with group 'cowrie' ... Changing the user information for cowrie Enter the new value, or press ENTER for the default Full Name []: Room Number []: Work Phone []: Home Phone []: Other []: Is the information correct? [Y/n] $ sudo su - cowrie
Check out the code:
$ git clone http://github.com/cowrie/cowrie Cloning into 'cowrie'... remote: Counting objects: 2965, done. remote: Compressing objects: 100% (1025/1025), done. remote: Total 2965 (delta 1908), reused 2962 (delta 1905), pack-reused 0 Receiving objects: 100% (2965/2965), 3.41 MiB | 2.57 MiB/s, done. Resolving deltas: 100% (1908/1908), done. Checking connectivity... done. $ cd cowrie
Next you need to create your virtual environment:
$ pwd /home/cowrie/cowrie $ python -m venv cowrie-env New python executable in ./cowrie/cowrie-env/bin/python Installing setuptools, pip, wheel...done.
Activate the virtual environment and install packages:
$ source cowrie-env/bin/activate (cowrie-env) $ python -m pip install --upgrade pip (cowrie-env) $ python -m pip install --upgrade -r requirements.txt
The configuration for Cowrie is stored in cowrie.cfg.dist and cowrie.cfg (Located in cowrie/etc). Both files are read on startup, where entries from cowrie.cfg take precedence. The .dist file can be overwritten by upgrades, cowrie.cfg will not be touched. To run with a standard configuration, there is no need to change anything. To enable telnet, for example, create cowrie.cfg and input only the following:
[telnet] enabled = true
Start Cowrie with the cowrie command. You can add the cowrie/bin directory to your path if desired. An existing virtual environment is preserved if activated, otherwise Cowrie will attempt to load the environment called "cowrie-env":
$ bin/cowrie start Activating virtualenv "cowrie-env" Starting cowrie with extra arguments [] ...
There are three methods to make Cowrie accessible on the default SSH port (22): iptables, authbind and setcap.
Port redirection commands are system-wide and need to be executed as root. A firewall redirect can make your existing SSH server unreachable, remember to move the existing server to a different port number first.
The following firewall rule will forward incoming traffic on port 22 to port 2222 on Linux:
$ sudo iptables -t nat -A PREROUTING -p tcp --dport 22 -j REDIRECT --to-port 2222
Or for telnet:
$ sudo iptables -t nat -A PREROUTING -p tcp --dport 23 -j REDIRECT --to-port 2223
Note that you should test this rule only from another host; it doesn't apply to loopback connections.
On MacOS run:
$ echo "rdr pass inet proto tcp from any to any port 22 -> 127.0.0.1 port 2222" | sudo pfctl -ef -
Alternatively you can run authbind to listen as non-root on port 22 directly:
$ sudo apt-get install authbind $ sudo touch /etc/authbind/byport/22 $ sudo chown cowrie:cowrie /etc/authbind/byport/22 $ sudo chmod 770 /etc/authbind/byport/22
Edit bin/cowrie and modify the AUTHBIND_ENABLED setting
Change the listening port to 22 in cowrie.cfg:
[ssh] listen_endpoints = tcp:22:interface=0.0.0.0
Or for telnet:
$ apt-get install authbind $ sudo touch /etc/authbind/byport/23 $ sudo chown cowrie:cowrie /etc/authbind/byport/23 $ sudo chmod 770 /etc/authbind/byport/23
Change the listening port to 23 in cowrie.cfg:
[telnet] listen_endpoints = tcp:2223:interface=0.0.0.0
Or use setcap to give permissions to Python to listen on ports<1024:
$ setcap cap_net_bind_service=+ep /usr/bin/python3
And change the listening ports in cowrie.cfg as above.
If you want to use the proxy functionality combined with the automatic backend pool, you need to install some dependencies, namely QEMU, libvirt, and their Python interface. In Debian/Ubuntu:
$ sudo apt-get install qemu qemu-system-arm qemu-system-x86 libvirt-dev libvirt-daemon libvirt-daemon-system libvirt-clients nmap
Then install the Python API to run the backend pool:
(cowrie-env) $ python -m pip install libvirt-python==6.4.0
To allow QEMU to use disk images and snapshots, set it to run with the user and group of the user running the pool (usually called 'cowrie' too:
$ sudo vim /etc/libvirt/qemu.conf
Search and set both user and group to "cowrie", or the username/group you'll be running the backend pool with.
On Debian, put the below in /etc/supervisor/conf.d/cowrie.conf:
[program:cowrie] command=/home/cowrie/cowrie/bin/cowrie start directory=/home/cowrie/cowrie/ user=cowrie autorestart=true redirect_stderr=true
Update the bin/cowrie script, change:
DAEMONIZE=""
to:
DAEMONIZE="-n"
Cowrie automatically outputs event data to text and JSON log files
in var/log/cowrie. Additional output plugins can be configured to
record the data other ways. Supported output plugins include:
- Cuckoo
- ELK (Elastic) Stack
- Graylog
- Kippo-Graph
- Splunk
- SQL (MySQL, SQLite3, RethinkDB)
See ~/cowrie/docs/[Output Plugin]/README.rst for details.
The following warnings may occur, these can be safely ignored, and are not the reason your Cowrie installation is not working:
CryptographyDeprecationWarning: Blowfish has been deprecated b"blowfish-cbc": (algorithms.Blowfish, 16, modes.CBC), CryptographyDeprecationWarning: CAST5 has been deprecated b"cast128-cbc": (algorithms.CAST5, 16, modes.CBC), CryptographyDeprecationWarning: Blowfish has been deprecated b"blowfish-ctr": (algorithms.Blowfish, 16, modes.CTR), CryptographyDeprecationWarning: CAST5 has been deprecated b"cast128-ctr": (algorithms.CAST5, 16, modes.CTR),
The algorithms are used in Cowrie to support old attackers that use these deprecated algorithms.
If you see twistd: Unknown command: cowrie there are two
possibilities. If there's a Python stack trace, it probably means
there's a missing or broken dependency. If there's no stack trace,
double check that your PYTHONPATH is set to the source code directory.
To make Cowrie logfiles public readable, change the --umask 0077
option in bin/cowrie into --umask 0022
Check the log file in var/log/cowrie/cowrie.log.
First stop your honeypot. Then pull updates from GitHub, and upgrade your Python dependencies:
$ bin/cowrie stop $ git pull $ python -m pip install --upgrade -r requirements.txt
If you use output plugins like SQL, Splunk, or ELK, remember to also upgrade your dependencies for these too:
$ python -m pip install --upgrade -r requirements-output.txt
And finally, restart Cowrie after finishing all updates:
$ bin/cowrie start
The pre-login banner can be set by creating the file honeyfs/etc/issue.net.
The post-login banner can be customized by editing honeyfs/etc/motd.