My next class:

Searching for Geographically Improbable Login Attempts

Published: 2018-07-17. Last Updated: 2018-07-17 11:48:00 UTC
by Xavier Mertens (Version: 1)
5 comment(s)

For the human brain, an IP address is not the best IOC because, like phone numbers, we are bad to remember them. That’s why DNS was created. But, in many log management applications, there are features to enrich collected data. One of the possible enrichment for IP addresses is the geolocalization. Based on databases, it is possible to locate an IP address based on the country and/or the city. This information is available in our DShield IP reputation database. But you can also find coordinates with a latitude and a longitude:

$ geoiplookup isc.sans.edu
GeoIP Country Edition: US, United States
GeoIP City Edition, Rev 1: US, MD, Maryland, Bethesda, 20814, 39.006001, -77.102501, 511, 301
GeoIP ASNum Edition: AS62669 SANS INSTITUTE

The command geoiplookup, as well as the GeoIP databases, are developed by Maxmind [1] which is one of the companies which provide this kind of services. Of course, you can also create your own/private database of IP address (or subnets) and attach coordinates to them[2]. This is very useful if you operate a worldwide network or if you’re based in a large country like the United States. In this case, if subnets are assigned per branch offices, you can search for their coordinates via Google maps and populate your database:

Once this exercise completed, the idea is to compute the distance between two IP addresses using the”Haversine” formula[3] which determines the distance between two points on a sphere given their longitudes and latitudes. Here is a quick and dirty Python script which implements the formula for two IP addresses GeoIP lookups:

#!/usr/bin/python
import sys
import geoip2.database
import math

def haversine((lat1, long1), (lat2, long2)):
    radius = 6371  # In kilometers
    dLat = math.radians(lat2 - lat1)
    dLong = math.radians(long2 - long1)
    a = (math.sin(dLat / 2) ** 2 + math.cos(math.radians(lat1)) * math.cos(math.radians(lat2)) * math.sin(dLong / 2) ** 2)
    c = 2 * math.atan2(math.sqrt(a), math.sqrt(1 - a))
    d = radius * c
    return d

reader=geoip2.database.Reader('GeoLite2-City.mmdb')
r1 = reader.city(sys.argv[1])
r2 = reader.city(sys.argv[2])
print "%s: %s, %s" % (sys.argv[1], r1.country.name, r1.city.name)
print "%s: %s, %s" % (sys.argv[2], r2.country.name, r2.city.name)
d = haversine((float(r1.location.latitude), float(r1.location.longitude)), (float(r2.location.latitude), float(r2.location.longitude)))
print "Distance: %f Kms" % d

Let’s try:

$ host -t a isc.sans.org
isc.sans.org has address 204.51.94.153
$ host -t a www.nsa.gov
www.nsa.gov is an alias for www.nsa.gov.edgekey.net.
www.nsa.gov.edgekey.net is an alias for e6655.dscna.akamaiedge.net.
e6655.dscna.akamaiedge.net has address 23.206.125.32
$ python distance.py 204.51.94.153 23.206.125.32
204.51.94.153: United States, Bethesda
23.206.125.32: United States, Cambridge
Distance: 629.667952 Kms

Now, we can implement more tests to detect unusual behaviours when consecutive connections are detected for the same username. Let’s assume that Johannes connected to my server at a specific time from isc.sans.org and, 15 minutes later, the same username was used from www.nsa.gov (this is just an example ;-). From a purely geographical point of view, this is suspicious and must be investigated.

The next checks can be implemented to detect geographically improbable login attempts:

  • If the distance between the two connection attempts is <1000 Kms: we can assume that the user will take a train or a car to travel (a slow means of transport). The minimum time between two connections must be above 8 hours (let’s assume the speed up to 100Km/h).
  • If the distance is above, we may expect that the user will use a plane to travel: 2 hours for the check-in process, a typical airliner is flying at ~800Km/h and add 2h to get out of the airport and travel to the final destination. We may assume a delay of min 24h.

It's up to you to analyze the behaviour of your users to apply efficient checks. This technique is quite easy to implement in your log management/SIEM solution (just a few math operations). By example, there is a Haversine app[4] available for Splunk.

Note: values have been computed using the metric system but for miles, divide km by 1.609344.

[1] https://www.maxmind.com/en/geoip2-databases
[2] https://github.com/threatstream/mhn/wiki/Customizing-Maxmind-IP-Geo-DB-for-Internal-Networks
[3] https://en.wikipedia.org/wiki/Haversine_formula
[4] https://splunkbase.splunk.com/app/936/#/details

Xavier Mertens (@xme)
ISC Handler - Freelance Security Consultant
PGP Key

5 comment(s)
My next class:

Comments

Also check out this tool:

https://www.fireeye.com/blog/threat-research/2018/05/remote-authentication-geofeasibility-tool-geologonalyzer.html
Thanks for sharing!
Good stuff, just keep in mind that the use of corporate VPNs can make it appear that a user is changing physical locations very quickly.
The geoip database on the Scientific Linux install is off by over 300 on the areacode and over 60 miles in So Cal. Usually it's only off by about 20 miles. I don't see fit to correct them, either.

The moral of this story is simple, "Don't trust geoip with your life."

{^_-}
Sorry 'buot the double post. The process took so long I thought it had stalled.
{o.o}

Diary Archives