c0d3 :: j0rg3

A collection of tips, tricks and snips. A proud Blosxom weblog. All code. No cruft.

Thu, 13 Jul 2017

Improved Anonymity on Kali Linux

I’m not entirely certain when BackTrack/Kali began behaving more like a regular desktop distro but I seem to recall that originally, networking subsystems were down when you booted up into Run Level 3. It was up to you to turn on the interfaces and fire up a GUI if such was desired. IMO, that’s precisely how it should be. I get it. Most of us aren’t ever won’t ever find ourselves in a clandestine lot, inside of a snack and caffeine filled, non-descript, conversion van with a Yagi pointed at the bubble-window, ready to pilfer innocent datums just trying to get by in this lossy-protocoled, collision-rife, world.

Rather, very many of us just want the stinking box online so we can run through our tutorials and hack our own intentionally vulnerable VMs. A thorough taste of hacking’s un-glamorous underbelly is quite enough for many.

I’m confident that the BT fora were inundated with fledgling hackers complaining that their fresh install couldn’t find WiFi or didn’t load the desktop. However, I feel that distros dedicated to the Red Team should try to instill good habits. Having your machine boot and activate an interface announcing your presence and spewing out MAC and hostname is bad for business. Booting into a (comparatively) heavy GUI is also not where I want to begin.

Let’s imagine that we’re trying to crack into a thing. Don’t we want to apply maximal CPU resources, rather than having GUI elements bringing little beyond cost? If you notice, very many of the related tools still live on the CLI. The typical course of development (e.g.: Nmap, Metasploit) is that the CLI version is thoroughly developed before someone drops a GUI atop (respectively: Zenmap, Armitage).

So let’s take our Kali and make a few quick changes. We want to boot up in text/CLI mode and we want networking left off until we choose to make noise. Further, we want to randomize our MAC address and hostname at every boot.

We’ll use iwconfig to enumerate our wireless interfaces.
lo        no wireless extensions.

wlan1     IEEE 802.11 ESSID:"ESSID"
          Mode:Managed Frequency:2.412 GHz Access Point: 17:23:53:96:BE:67
          Bit Rate=72.2 Mb/s Tx-Power=20 dBm
          Retry short limit:7 RTS thr:off Fragment thr:off
          Encryption key:off
          Power Management:off
          Link Quality=70/70 Signal level=-21 dBm
          Rx invalid nwid:0 Rx invalid crypt:0 Rx invalid frag:0
          Tx excessive retries:253 Invalid misc:400 Missed beacon:0

eth0      no wireless extensions.

wlan0     IEEE 802.11 ESSID:off/any
          Mode:Managed Access Point: Not-Associated Tx-Power=0 dBm
          Retry short limit:7 RTS thr:off Fragment thr:off
          Encryption key:off
          Power Management:on

We have two wireless interfaces: wlan0, wlan1

Okay, first let’s configure to start up in text mode:
> systemctl set-default multi-user.target
Created symlink /etc/systemd/system/default.target → /lib/systemd/system/multi-user.target.

Traditionally from text mode, we bring up the GUI desktop with the command startx. Since we don’t yet have that command, let’s create it:
> echo "systemctl start gdm3.service" > /usr/sbin/startx && chmod +x /usr/sbin/startx

Disable network-manager autostart:
> systemctl disable network-manager.service
> sed -i 's/5min/30sec/' /etc/systemd/system/network-online.target.wants/networking.service

Now, let’s randomize our hostname and MAC addresses at every boot by adding some cronjobs:
> crontab -e

We’ll add two jobs to randomize MAC address and one for our host name:
@reboot macchanger -r wlan0
@reboot macchanger -r wlan1
@reboot hostname `strings /dev/urandom | grep -o '[[:alnum:]]' | head -n 30 | tr -d '\n'`

We ‘re good! We’ve improved efficiency by staving off the GUI for when we genuinely want it and improved anonymity by randomizing some common ways of identifying the rig.

Tags: , , , , , , , ,
Permalink: 2017-07-10.improved.anonymity.on.kali.linux

Tue, 07 Mar 2017

Privacy Part II: VPN/IPVanish - Install IPVanish on Kali Linux

Okay, so you’re running Whonix, Tails or, at least, TorBrowser.

What’s next? You may wish to consider using a VPN. In simple terms, it’s somewhat similar to what Tor offers. That is: you connect to the VPN and your connection passes through them such that the site that you are visiting will see the VPN’s IP address rather than yours. Of course, that means that you can chain them.

That is: (You)->VPN->Tor->Exit node->Web site

The reason that you might feel compelled to take this step is that a party which is able to see your traffic into and out of Tor could still identify you. The thinking is that the parties who wish to interfere with your privacy could be compelled to run Tor bridges, relays and exit nodes. If traffic from your IP address could be matched to requests coming from the Tor exit node then you could, effectively, be identified.

Some people hold that using a VPN to access Tor does not improve your anonymousness. I am not among them. In particular, you will find that IPVanish offers VPN service for under $7 per month and is popular among users of the Tor network. Which means that in addition to the fact that IPVanish is not logging your traffic, there’s an excellent chance that other users are going from IPVanish into Tor, helping to reduce the uniqueness of your traffic.

By the way, I’d suggest poking around the web a little bit. While their prices are already great you can find some even deeper discounts: https://signup.ipvanish.com/?aff=vpnfan-promo

IPVanish’s site offers instructions for installing the VPN in Ubuntu so we’re going to take a look at using IPVanish in Kali — including an interesting and unanticipated snag (and, of course, how to fix it).

Let’s grab the OpenVPN configuration:
wget http://www.ipvanish.com/software/configs/ca.ipvanish.com.crt; wget http://www.ipvanish.com/software/configs/ipvanish-US-New-York-nyc-a01.ovpn

We will need the OpenVPN package for Gnome:
apt install network-manager-openvpn-gnome

Click on the tray in the upper right corner, then the wrench/screwdriver icon:

Select the ‘Network’ folder icon:

We’re choosing ‘Wired’ (even though we’re using wlan0 interface):

We’re setting up a VPN, of course:

Import from file:

Choose the configuration file that we downloaded previously:

Enter ‘User name’ and ‘Password’:

We are connected!

Verified at IPVanish’s site: https://www.ipvanish.com/checkIP.php

And this is where I had anticipated the installation instructions would end.

I just wanted to check a few more things. And I would love to tell you that it was simply my thoroughness and unbridled CLI-fu that led to discover that I was still making ipv6 connections outside of the VPN. Seems that it wasn’t noticed by the test at IPVanish because they deal only in ipv4. I was able to prove my ipv6 address and geolocation by using: http://whatismyipaddress.com/

Further, we can establish that the test at IPVanish is not ipv6-compatible with a quick test.

The easy fix here is to disable ipv6 locally. It is plausible that this could cause unintended consequences and, to be thorough, it would be best to handle your VPN at the firewall. Having support for OpenVPN, you’ll be able to get this running with a huge variety of routing/firewall solutions. You can grab any number of tiny computers and build a professional-quality firewall solution with something like pfSense. Maybe we’ll take a look at getting that configured in a future post.

But, for now, let’s shut down ipv6 in a way that doesn’t involve any grandiose hand-waving magic (i.e., unexplained commands which probably should work) and then test to get confidence in our results.

Let’s use sysctl to find our ipv6 kernel bits and turn them off. Then we’ll load our configuration changes. As a safety, it wouldn’t be a bad idea to look in /etc/sysctl.conf to verify that there aren’t any ipv6 configs in there.

We’ll back up our config file then turn off everything ipv6 by listing everything with the words ‘ipv6’ and ‘disable’:
cp /etc/sysctl.conf /etc/$(date +%Y-%m-%d.%H-%M-%S).sysctl.conf.bak && \
sysctl -a | grep -i ipv6 | grep disable | sed 's/0/1/g' >> /etc/sysctl.conf && \
sysctl -p

To explain what we’re doing:
List all kernel flags; show uonly those containing the string ‘ipv6’; of those that remain, show only those that contain the string ‘disable’:
sysctl -a | grep -i ipv6 | grep disable
Replace the 0 values with 1, to turn ON the disabling, by piping output to:
sed 's/0/1/g'
That all gets stuck on the end of ‘sysctl.conf’ by redirecting stdout to append to the end of that file:
>> /etc/sysctl.conf
Then we reload with:
sysctl -p

Then as a final sanity-check we’ll make sure we can’t find any ipv6 packets sneaking about:
tcpdump -t -n -i wlan0 -s 256 -vv ip6

At this point, assuming our tcpdump doesn’t show any traffic, we should be ipv6-free with all of our ipv4 traffic shipped-off nicely through IPVanish!

Tags: , , , , , , , , , , , , ,
Permalink: 20170307.privacy.vpn.ipvanish

Tue, 10 Jan 2017

[-] Auxiliary failed: Msf::OptionValidateError The following options failed to validate: RHOSTS.

Mucking about with a fresh copy of Kali brings to attention that it’s packaged with an Armitage that doesn’t correctly work.

I know what you’re thinking… Good. Type the commands into Msfconsole like a real man, y’uh lazy good-fer-naught! And, in practice, that was my immediate solution. But I can’t resist a good tinker when things are misbehaving.

I was anticipating that the problem would be thoroughly solved when I ixquicked it. That was partially correct. Surprised, however, when apt-get update && apt-get upgrade didn’t fix the issue. More surprised at the age of the issue. Most surprised that I could see lots of evidence that users have been plagued by this issue — but no clear work arounds were quickly found.

Guess what we’re doing today?

Okay. The issue is quite minor but just enough to be heartbreaking to the fledgling pentester trying to get a VM off the ground.

In brief, the owner of Armitage’s Github explains:

The MSF Scans feature in Armitage parses output from Metasploit’s portscan/tcp module and uses these results to build a list of targets it should run various Metasploit auxiliary modules against. A recent-ish update to the Metasploit Framework changed the format of the portscan/tcp module output. A patch to fix this issue just needs to account for the new format of the portscan/tcp module.

That is, a colon makes it into the input for the Msfconsole command to define RHOSTS. I.e.: set RHOSTS -

An other kind coder tweaked the regex and submitted the patch and pull request, which was successfully incorporated into the project.

Sadly, things have stalled out there. So if this problem is crippling your rig, let’s fix it!

We just want a fresh copy of the project.
root@kali:~/armitage# git clone https://github.com/rsmudge/armitage

Cloning into ‘armitage’…
remote: Counting objects: 7564, done.
remote: Total 7564 (delta 0), reused 0 (delta 0), pack-reused 7564
Receiving objects: 100% (7564/7564), 47.12 MiB | 2.91 MiB/s, done.
Resolving deltas: 100% (5608/5608), done.

Kali is Debian-based and we’re going to need Apache Ant:
root@kali:~/armitage# apt-get install ant

Then, we’ll build our new fella:
root@kali:~/armitage# cd armitage
root@kali:~/armitage# ./package.sh

Buildfile: /root/test/armitage/build.xml


Total time: 0 seconds
Buildfile: /root/test/armitage/build.xml

[mkdir] Created dir: /root/test/armitage/bin

[javac] Compiling 111 source files to /root/test/armitage/bin
[javac] depend attribute is not supported by the modern compiler
[javac] Note: /root/test/armitage/src/ui/MultiFrame.java uses or overrides a deprecated API.
[javac] Note: Recompile with -Xlint:deprecation for details.
[javac] Note: Some input files use unchecked or unsafe operations.
[javac] Note: Recompile with -Xlint:unchecked for details.

Total time: 2 seconds
Buildfile: /root/test/armitage/build.xml



[unzip] Expanding: /root/test/armitage/lib/sleep.jar into /root/test/armitage/bin
[unzip] Expanding: /root/test/armitage/lib/jgraphx.jar into /root/test/armitage/bin
[unzip] Expanding: /root/test/armitage/lib/msgpack-0.6.12-devel.jar into /root/test/armitage/bin
[unzip] Expanding: /root/test/armitage/lib/postgresql-9.1-901.jdbc4.jar into /root/test/armitage/bin
[unzip] Expanding: /root/test/armitage/lib/javassist-3.15.0-GA.jar into /root/test/armitage/bin
[copy] Copying 4 files to /root/test/armitage/bin/scripts-cortana
[jar] Building jar: /root/test/armitage/armitage.jar
[jar] Building jar: /root/test/armitage/cortana.jar

Total time: 1 second
adding: readme.txt (deflated 55%)
adding: armitage.exe (deflated 49%)
adding: cortana.jar (deflated 5%)
adding: armitage.jar (deflated 5%)
adding: whatsnew.txt (deflated 65%)
Archive: ../../armitage.zip
inflating: readme.txt
inflating: armitage.exe
inflating: cortana.jar
inflating: armitage.jar
inflating: whatsnew.txt

And here, best I can guess from messages read, is where a lot of people are running into trouble. We have successfully produced our new working copy of armitage. However, it is in our own local directory and will not be run if we just enter the command: armitage

Let’s review how to figure out what we want to do about that.

First, we want to verify what happens when we run the command armitage.
root@kali:~/armitage# which armitage


Good! Let’s check and see what that does!
root@kali:~/armitage# head /usr/bin/armitage


cd /usr/share/armitage/
exec ./armitage “$@”

Almost there! It’s running /usr/share/armitage/armitage with whatever variables we’ve passed in. We’ll check that out.
root@kali:~/armitage# head /usr/share/armitage/armitage

java -XX:+AggressiveHeap -XX:+UseParallelGC -jar armitage.jar $@

We have enough information to assemble a solution.

I trust that the people behind Kali and Armitage will get this corrected so I don’t want to suggest a solution that would replace the armitage command and prevent an updated version from running later. So, let’s just make a temporary replacement?

root@kali:~/armitage# echo -e '#!/bin/sh\njava -XX:+AggressiveHeap -XX:+UseParallelGC -jar ~/armitage/armitage.jar $@' > /usr/bin/tmparmitage

Hereafter, we can use the command ‘tmparmitage’ (either CLI or ALT-F2) to run our fresh version until things catch up.

And, of course, to save you the time, weary hacker:

Download here:

Tags: , , , , , , ,
Permalink: 20170110.armitage.not.working.in.kali

Thu, 30 May 2013

Making ixquick your default search engine

In this writer’s opinion, it is vitally important that we take reasonable measures now to help insure anonymity, lest we create a situation where privacy no longer exists, and the simple want of, becomes suspicious.

Here’s how to configure your browser to automatically use a search engine that respects your privacy.


  1. Click Settings.
  2. Click “Set pages” in the “On startup” section.
  3. Enter https://ixquick.com/eng/ in the “Add a new page” text field.
  4. Click OK.
  5. Click “Manage search engines…”
  6. At the bottom of the “Search Engines” dialog, click in the “Add a new search engine” field.
  7. Enter
  8. Click “Make Default”.
  9. Click “Done”.


  1. Click the Tools Menu.
  2. Click Options.
  3. Click the General tab.
  4. In “When Firefox Starts” dropdown, select “Show my home page”.
  5. Enter https://ixquick.com/eng/ in the “Home Page” text field.
  6. Click one of the English options here.
  7. Check box for “Start using it right away.”
  8. Click “Add”.


  1. Click “Manage Search Engines
  2. Click “Add”
  3. Enter
    Name: ixquick
    Keyword: x
    Address: https://ixquick.com/do/search?lui=english&language=english&cat=web&query=%s
  4. Check “Use as default search engine”
  5. Click “OK”

Internet Explorer:

      _     ___  _ __        ___   _ _____ ___ 
     | |   / _ \| |\ \      / / | | |_   _|__ \
     | |  | | | | | \ \ /\ / /| | | | | |   / /
     | |__| |_| | |__\ V  V / | |_| | | |  |_| 
     |_____\___/|_____\_/\_/   \___/  |_|  (_) 
    (This is not a good strategy for privacy.)



You are now one step closer to not having every motion on the Internet recorded.

This is a relatively small measure, though. You can improve your resistance to prying eyes (e.g., browser fingerprinting) by using the Torbrowser Bundle, or even better, Tails, and routing your web usage through Tor, i2p, or FreeNet.

If you would like more on subjects like anonymyzing, privacy and security then drop me a line via email or Bitmessage me: BM-2D9tDkYEJSTnEkGDKf7xYA5rUj2ihETxVR

Tags: , , , , , , , , , , , , , ,
Permalink: 20130530.hey.you.get.offa.my.data