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Introduction

This directory contains check scripts to monitor unexpected infrastructure changes with the aim of finding potential Machine-in-the-Middle situations. These scripts are Nagios/Icinga scripts. They can be run as probes from your monitoring station or as stand-alone scripts.

The following approaches are implemented:

  • check_traceroute.py: This script implements a traceroute for IPv4 or IPv6 using TCP to a destination host and port(s). It establishes a TCP connection using increasing TTL values and traces the hops towards the destination host:port. The script compares the last N hops from the current route against a list of expected routes. You can pass these expected last N hosts via command line or via a configuration file. You can specify multiple ports. It is expected that the route to any port follows the expected last hops.
  • check_jarm.py: Salesforces once implemented a fingerprinting for SSL/TLS servers, known as JARM. To fingerprint a SSL/TLS server, the tool sends several SSL/TLS Client Hello messages and looks at the corresponding Server Hello messages to fingerprint the server implementation. The results are then hashed. This check script allows you to compare a server's fingerprint against an expected fingerprint.

The entire story and background is explained in our blog post at: https://www.pentagrid.ch/en/blog/domain-verification-bypass-prevention-caa-accounturi/

Preventive is better than reactive!

Installation

check_traceroute.py

  • To install dependencies on a Debian-style Linux, run:
apt install python3-scapy python3-seccomp python3-cap-ng
  • There is also a requirements.txt if you prefer this approach, but I would recommend using the libaries from your package system.
  • Install the script check_traceroute.py on your monitoring station, for example under /usr/local/bin/check_traceroute.py and ensure the script has proper file permissions:
FILE=/usr/local/bin/check_traceroute.py
chown root:nagios $FILE
chmod 750 $FILE
  • For Icinga: The tool needs a raw socket, which requires elevated privileges. Setting Linux Capabilities on a Python script does not work. So we could use capsh as a wrapper, but it requires elevated privileges as well and need to be allowed in sudo as well. Therefore, we allow the ''nagios'' user to run the check_traceroute.py script with ''sudo'' and without password (to compensate the risk a bit, we use SECCOMP and drop capabilities within the script):
FILE=/etc/sudoers.d/icinga_check_traceroute
echo 'nagios ALL=(root) NOPASSWD:/usr/local/bin/check_traceroute.py' > $FILE
chown root:root $FILE
chmod 440 $FILE
  • If you want to use the script from Icinga, define the check command. Depending on your setup, edit for example /etc/icinga2/conf.d/commands_check_traceroute.conf:
object CheckCommand "traceroute" {
  import "plugin-check-command"

  command = [ "sudo", "/usr/local/bin/check_traceroute.py", "--last-hops-config", "/usr/local/etc/check_traceroute.conf" ]
  # You may add:
  #   "--disable-seccomp",
  #   "--disable-cap-dropping",

  arguments = {
    "--target" = "$traceroute_target$"
    "--port" = {
      value = "$traceroute_ports$"
      repeat_key = true
    }
  }
}

check_jarm.py

  • To install dependencies on Debian-style Linux, run:
apt install python3-scapy
  • Install the script check_jarm.py on your monitoring station, for example under /usr/local/bin/check_jarm.py and ensure the script has proper file permissions:
FILE=/usr/local/bin/check_jarm.py
chown root:nagios $FILE
chmod 750 $FILE
  • For Icinga: The tool needs a raw socket, which requires elevated privileges and using Linux Capabilities is not that easy. Therefore, we allow the ''nagios'' user to run this specific script with ''sudo'' and without password:
FILE=/etc/sudoers.d/icinga_check_jarm
echo 'nagios ALL=(root) NOPASSWD:/usr/local/bin/check_jarm.py' > $FILE
chown root:root $FILE
chmod 440 $FILE
  • If you want to use the script from Icinga, define the check command. Depending on your setup, edit for example /etc/icinga2/conf.d/commands_check_jarm.conf:
object CheckCommand "jarm" {
  import "plugin-check-command"

  command = [ "/usr/local/bin/check_jarm.py",
          "--hostname", "$jarm_hostname$",
          "--target", "$jarm_target$",
          "--port", "$jarm_port$",
          "--expected-hash", "$jarm_expected_hash$" ]

  if (vars.jarm_socks5_host) {
    command += [ "--socks5-host", "$jarm_socks5_host$"]
  }
  if (vars.jarm_socks5_port) {
    command += [ "--socks5-port", "$jarm_socks5_port$" ]
  }

}

Configuration

check_traceroute.py

  • If you want to use the script from Icinga, add a configuration file for Icinga, for example /etc/icinga2/conf.d/services_traceroute.conf. The target is specified via an IPv4 or IPv6 address, so it will work in DNS round-robin environments.
object Service "traceroute-www.example.org" {
  import "generic-service-internet"
  host_name = "www.example.org"
  check_command = "traceroute"

  vars.traceroute_target = "192.168.23.42"
  vars.traceroute_ports = "80 443"
}
  • Run ''mtr'', ''traceroute'', ''traceroute6'' or another tool to determine the last hops of your systems.
  • If you want to use a config file for the expected routes, adjust the example from last_hops.conf.sample and store it in the file system of your test station, for example as /usr/local/etc/check_traceroute.conf and fix file permissions:
FILE=/usr/local/etc/check_traceroute.conf
chown root:root $FILE
chmod 640 $FILE

check_jarm.py

  • If you want to use the script from Icinga, add a configuration file for Icinga, for example /etc/icinga2/conf.d/services_traceroute.conf. The target is specified via an IPv4 or IPv6 address, so it will work in DNS round-robin environments.
object Service "jarm-www.example.org" {
  import "generic-service-internet"
  host_name = "www.example.org"
  check_command = "jarm"

  vars.jarm_hostname = "aspecificvhost.example.org"
  vars.jarm_target = "192.168.23.42"
  vars.jarm_port = "443"
  vars.jarm_expected_hash = "28d28d28d00028d00042d42d000000d2e61cae37a95f75ef00cafe1337ca523"
  # you could set a SOCKS5 proxy as well
  # vars.jarm_socks5_host = "localhost"
  # vars.jarm_socks5_port = "8080"
}
  • To determine JARM hashes, run for example the following command. Here, the target is specified as IP address to also connect to a specific address if you use round-robin addresses or similar things. The hostname is used for SNI. We assume that the hash is from your server and not already from a MITM.
/usr/local/bin/check_jarm.py --target 45.10.26.156 --hostname www.pentagrid.ch --port 443 --show
JARM: 28d28d28d00028d00042d42d000000d2e61cae37a985f75ecafb81b33ca523

Copyright and Licence

check_traceroute.py was developed by Martin Schobert <[email protected]> and published under a 3-clause BSD licence.

check_jarm.py was developed by Martin Schobert <[email protected]> and published under a 3-clause BSD licence. It is derived from the jarm.py script, which was developed by John Althouse, Andrew Smart, RJ Nunaly, Mike Brady and Caleb Yu and which is copyrighted by salesforce.com, inc and published under a BSD 3-Clause license as well.

Please read the the license header in the corresponding files for further details.