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README.md

Infection Monkey

Data center Security Testing Tool


Welcome to the Infection Monkey!

The Infection Monkey is an open source security tool for testing a data center's resiliency to perimeter breaches and internal server infection. The Monkey uses various methods to self propagate across a data center and reports success to a centralized C&C server. To read more about the Monkey, visit https://www.guardicore.com/infectionmonkey/

http://www.guardicore.com/the-infected-chaos-monkey/

Features include:

  • Multiple propagation techniques:
    • Predefined passwords
    • Common exploits
  • Multiple exploit methods:
    • SSH
    • SMB
    • RDP
    • WMI
    • Shellshock
  • A C&C server with a dedicated UI to visualize the Monkey's progress inside the data center

Getting Started

The Infection Monkey is comprised of two parts: the Monkey and the C&C server. The monkey is the tool which infects other machines and propagates to them, while the C&C server collects all Monkey reports and displays them to the user.

Requirements

The C&C Server has been tested on Ubuntu 14.04,15.04 and 16.04. The Monkey itself has been tested on Windows XP, 7, 8.1 and 10. The Linux build has been tested on Ubuntu server 14.04 and 15.10.

Installation

For off-the-shelf use, download our Debian package from our website and follow the guide written in our blog. To manually set up and the C&C server follow the instructions on Monkey Island readme. If you wish to compile the binaries yourself, follow the instructions under Building the Monkey from Source.

Initial configuration.

Whether you're downloading or building the Monkey from source, the Infection Monkey is comprised of 4 executable files for different platforms plus a default configuration file.

Monkey configuration is stored in two places:

  1. By default, the Monkey uses a local configuration file (usually, config.bin). This configuration file must include the address of the Monkey's C&C server.
  2. After successfully connecting to the C&C server, the monkey downloads a new configuration from the server and discards the local configuration. It is possible to change the default configuration from the C&C server's UI.

In both cases the command server hostname should be modified to point to your local instance of the Monkey Island (note that this doesn't require connectivity right off the bat). In addition, to improve the Monkey's chances of spreading, you can pre-seed it with credentials and usernames commonly used.

Both configuration options use a JSON format for specifying options; see "Options" below for details.

Running the C&C Server

To run the C&C Server, install our infected Monkey debian package on a specific server. The initial infected machine doesn't require a direct link to this server.

Unleashing the Monkey

Once configured, run the monkey using ./monkey-linux-64 m0nk3y -c config.bin -s 41.50.73.31:5000 (Windows is identical). This can be done at multiple points in the network simultaneously.

Command line options include:

  • -c, --config: set configuration file. JSON file with configuration values, will override compiled configuration.
  • -p, --parent: set monkeys parent uuid, allows better recognition of exploited monkeys in c&c
  • -t, --tunnel: ip:port, set default tunnel for Monkey when connecting to c&c.
  • -d, --depth : sets the Monkey's current operation depth.

How the Monkey works

  1. Wakeup connection to c&c, sends basic info of the current machine and the configuration the monkey uses to the c&c.
  2. First try direct connection to c&c.
  3. If direct connection fails, try connection through a tunnel, a tunnel is found according to specified parameter (the default tunnel) or by sending a multicast query and waiting for another monkey to answer.
  4. If no connection can be made to c&c, continue without it.
  5. If a firewall app is running on the machine (supports Windows Firewall for Win XP and Windows Advanced Firewall for Win 7+), try to add a rule to allow all our traffic.
  6. Startup of tunnel for other Monkeys (if connection to c&c works).
  7. Firewall is checked to allow listening sockets (if we failed to add a rule to Windows firewall for example, the tunnel will not be created)
  8. Will answer multicast requests from other Monkeys in search of a tunnel.
  9. Running exploitation sessions, will run x sessions according to configuration:
  10. Connect to c&c and get the latest configuration
  11. Scan ip ranges according to configuration.
  12. Try fingerprinting each host that answers, using the classes defined in the configuration (SMBFinger, SSHFinger, etc)
  13. Try exploitation on each host found, for each exploit class in configuration: 1. check exploit class supports target host (can be disabled by configuration) 2. each exploitation class will use the data acquired in fingerprinting, or during the exploit, to find the suitable Monkey executable for the host from the c&c.
    1. If c&c connection fails, and the source monkeys executable is suitable, we use it.
    2. If a suitable executable isnt found, exploitation will fail.
    3. Executables are cached in memory.
  14. will skip hosts that are already exploited in next run
  15. will skip hosts that failed during exploitation in next run (can be disabled by configuration)
  16. Close tunnel before exiting Wait for monkeys using the tunnel to unregister for it Cleanup Remove firewall rules if added

Configuration Options

Key Type Description Possible Values
alive bool sets whether or not the monkey is alive. if false will stop scanning and exploiting
command_servers array addresses of c&c servers to try to connect example: ["russian-mail-brides.com:5000"]
singleton_mutex_name string string of the mutex name for single instance example: {2384ec59-0df8-4ab9-918c-843740924a28}
self_delete_in_cleanup bool sets whether or not to self delete the monkey executable when stopped
use_file_logging bool sets whether or not to use a log file
monkey_log_path_[windows/linux] string file path for monkey logger.
kill_file_path_[windows/linux] string file path that the Monkey checks to prevent running
timeout_between_iterations int how long to wait between scan iterations
max_iterations int how many scan iterations to perform on each run
internet_services array addresses of internet servers to ping and check if the monkey has internet acccess
victims_max_find int how many victims to look for in a single scan iteration
victims_max_exploit int how many victims to exploit before stopping
retry_failed_explotation bool sets whether or not to retry failed hosts on next scan
local_network_scan bool sets whether to auto detect and scan local subnets
range_class class name sets which ip ranges class is used to construct the list of ips to scan FixedRange - scan list is a static ips list, RelativeRange - scan list will be constructed according to ip address of the machine and size of the scan, ClassCRange - will scan the entire class c the machine is in.
range_fixed tuple of strings list of ips to scan
RelativeRange range_size int number of hosts to scan in relative range
scanner_class class name sets which scan class to use when scanning for hosts to exploit TCPScanner - searches for hosts according to open tcp ports, PingScanner - searches for hosts according to ping scan
finger_classes tuple of class names sets which fingerprinting classes to use in the list: SMBFinger - get host os info by checking smb info, SSHFinger - get host os info by checking ssh banner, PingScanner - get host os type by checking ping ttl. For example: (SMBFinger, SSHFinger, PingScanner)
exploiter_classes tuple of class names SmbExploiter - exploit using smb connection, WmiExploiter - exploit using wmi connection, RdpExploiter - exploit using rdp connection, Ms08_067_Exploiter - exploit using ms08_067 smb exploit, SSHExploiter - exploit using ssh connection
tcp_target_ports list of int which ports to scan using TCPScanner
tcp_scan_timeout int timeout for tcp connection in tcp scan (in milliseconds)
tcp_scan_interval int time to wait between ports in the tcp scan (in milliseconds)
tcp_scan_get_banner bool sets whether or not to read a banner from the tcp ports when scanning
ping_scan_timeout int timeout for the ping command (in milliseconds) utilised by PingScanner
skip_exploit_if_file_exist bool sets whether or not to abort exploit if the monkey already exists in target, used by SmbExploiter
psexec_user string user to use for connection, utilised by SmbExploiter/WmiExploiter/RdpExploiter
psexec_passwords list of strings list of passwords to use when trying to exploit
rdp_use_vbs_download bool sets whether to use vbs payload for rdp exploitation in RdpExploiter. If false, bits payload is used (will fail if bitsadmin.exe doesnt exist)
ms08_067_exploit_attempt int number of times to try and exploit using ms08_067 exploit
ms08_067_remote_user_add string user to add to target when using ms08_067 exploit
ms08_067_remote_user_pass string password of the user the exploit will add
ssh_user string user to use for ssh connection, used by SSHExploiter
ssh_passwords list of strings list of passwords to use when trying to exploit using SSHExploiter
dropper_set_date bool whether or not to change the monkey file date to match other files
dropper_target_path_[windows/linux] string path for the dropper
serialize_config bool sets whether or not to locally save the running configuration after finishing

Building the Monkey from source

If you want to build the monkey from source instead of using our provided packages, follow the instructions at the readme files under chaos_monkey and monkey_island.

License

Copyright (c) 2016 Guardicore Ltd

See the LICENSE file for license rights and limitations (GPLv3).

Dependent packages

Dependency License
libffi-dev https://github.com/atgreen/libffi/blob/master/LICENSE
PyCrypto Public domain
upx Custom license, http://upx.sourceforge.net/upx-license.html
bson BSD
enum34 BSD
pyasn1 BSD
psutil BSD
flask BSD
flask-Pymongo BSD
Flask-Restful BSD
python-dateutil Simplified BSD
zope ZPL 2.1
Bootstrap MIT
Bootstrap Switch Apache 2.0
Bootstrap Dialog MIT
JSON Editor MIT
Datatables MIT
jQuery MIT
cffi MIT
twisted MIT
typeahead.js MIT
Font Awesome MIT
vis.js MIT/Apache 2.0
impacket Apache Modified
Start Bootstrap (UI Theme) Apache 2.0
requests Apache 2.0
grequests BSD
odict Python Software Foundation License
paramiko LGPL
rdpy GPL-3
winbind GPL-3
pyinstaller GPL
Celery BSD