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

Sat, 04 Mar 2017

Official(ish) deep dark onion code::j0rg3 mirror

Recently I decided that I wanted my blog to be available inside of the Deep, Dark Onion (Tor).

First time around, I set up a proxy that I modified to access only the clear web version of the blog and to avail that inside Tor as a ‘hidden service’.

My blog is hosted on equipment provided by the kind folk at insomnia247.nl and I found that, within a week or so, the address of my proxy was blocked. It’s safe for us to assume that it was simply because of the outrageous popularity it received inside Tor.

By “safe for us to assume” I mean that it is highly probable that no significant harm would come from making that assumption. It would not be a correct assumption, though.

What’s more true is that within Tor things are pretty durn anonymous. Your logs will show Tor traffic coming from 127.0.0.1 only. This is a great situation for parties that would like to scan sites repeatedly looking for vulnerabilities — because you can’t block them. They can scan your site over and over and over. And the more features you have (e.g., comments, searches, any form of user input), the more attack vectors are plausible.

So why not scan endlessly? They do. Every minute of every hour.

Since insomnia247 is a provider of free shells, it is incredibly reasonable that they don’t want to take the hit for that volume of traffic. They’re providing this service to untold numbers of other users, blogs and projects.

For that reason, I decided to set up a dedicated mirror.

Works like this: my blog lives here. I have a machine at home which uses rsync to make a local copy of this blog. Immediately thereafter it rsyncs any newly gotten data up to the mirror in onionland.

After consideration, I realized that this was also a better choice just in case there is something exploitable in my blog. Instead of even risking the possibility that an attacker could get access to insomnia247, they can only get to my completely disposable VPS which has hardly anything on it except this blog and a few scripts to which I’ve already opened the source code.

I’ve not finished combing through but I’ve taken efforts to ensure it doesn’t link back to clear web. To be clear, there’s nothing inherently wrong with that. Tor users will only appear as the IP address of their exit node and should still remain anonymous. To me, it’s just onion etiquette. You let the end-user decide when they want to step outside.

To that end, the Tor mirror does not have the buttons to share to Facebook, Twitter, LinkedIn, Google Plus.

That being said, if you’re a lurker of those Internet back-alleys then you can find the mirror at: http://aacnshdurq6ihmcs.onion

Happy hacking, friends!


Tags: , , , , , , , , , , ,
Permalink: 20170304.deep.dark.onion

Mon, 02 Jan 2017

Securing a new server

Happy new year! New year means new servers, right?

That provides its own set of interesting circumstances!

The server we’re investigating in this scenario was chosen for being a dedicated box in a country that has quite tight privacy laws. And it was a great deal offered on LEB.

So herein is the fascinating bit. The rig took a few days for the provider to set up and, upon completion, the password for SSHing into the root account was emailed out. (o_0)

In very security-minded considerations, that means that there was a window of opportunity for bad guys to work on guessing the password before its owner even tuned in. That window remains open until the server is better secured. Luckily, there was a nice interface for reinstalling the OS permitting its purchaser to select a password.

My preferred approach was to script the basic lock-down so that we can reinstall the base OS and immediately start closing gaps.


In order:

  • Set up SSH keys (scripted)
  • Disable password usage for root (scripted)
  • Install and configure IPset (scripted. details in next post)
  • Install and configure fail2ban
  • Install and configure PortSentry

  • In this post, we’re focused on the first two steps.


    The tasks to be handled are:

  • Generate keys
  • Configure local SSH to use key
  • Transmit key to target server
  • Disable usage of password for ‘root’ account

  • We’ll use ssh-keygen to generate a key — and stick with RSA for ease. If you’d prefer ECC then you’re probably reading the wrong blog but feel encouraged to contact me privately.

    The code:

    #!/bin/bash
    #configure variables
    remote_host="myserver.com"
    remote_user="j0rg3"
    remote_pass="thisisaratheraquitecomplicatedpasswordbatterystaple" # https://xkcd.com/936/
    local_user=`whoami`
    local_host=`hostname`
    local_date=`date -I`
    local_filename=~/.ssh/id_rsa@$remote_host

    #generate key without passphrase
    ssh-keygen -b 4096 -P "" -C $local_user@local_host-$local_date -f $local_filename

    #add reference to generated key to local configuration
    printf '%s\n' "Host $remote_host" "IdentityFile $local_filename" >> ~/.ssh/config

    #copy key to remote host
    sshpass -p $remote_pass ssh-copy-id $remote_user@$remote_host

    #disable password for root on remote
    ssh $remote_user@$remote_host "cp /etc/ssh/sshd_config /etc/ssh/sshd_config.bak && sed -i '0,/RE/s/PermitRootLogin yes/PermitRootLogin no/' /etc/ssh/sshd_config"

    We just run this script soon as the OS is reinstalled and we’re substantially safer. As a Deb8 install, quickly pulling down fail2ban and PortSentry makes things quite a lot tighter.

    In another post, we’ll visit the 2017 version of making a DIY script to batten the hatches using a variety of publicly provided blocklists.

    Download here:
        ssh_quick_fix.sh


    Tags: , , , ,
    Permalink: 20170102.securing.a.new.server

    Sun, 13 Jul 2014

    Simple Protection with iptables, ipset and Blacklists

    Seems I’ve always just a few more things going on than I can comfortably handle. One of those is an innocent little server holding the beginnings of a new project.

    If you expose a server to the Internet, very quickly your ports are getting scanned and tested. If you’ve an SSH server, there are going to be attempts to login as ‘root’ which is why it is ubiquitously advised that you disable root login. Also why many advise against allowing passwords at all.

    We could talk for days about improvements; it’s usually not difficult to introduce some form of two-factor authentication (2FA) for sensitive points of entry such as SSH. You can install monitoring software like Logwatch which can summarize important points from your logs, such as: who has logged via SSH, how many times root was used, etc.

    DenyHosts and Fail2ban are very great ways to secure things, according to your needs.

    DenyHosts works primarily with SSH and asks very little from you in way of configuration, especially if you’re using a package manager to install a version that is configured for the distribution on which you’re working. If you’re installing from source you may need to find where are your SSH logs (e.g., /var/log/secure, /var/log/auth.log). It’s extremely easy to set up DenyHosts to synchronize so that you’re automatically blocking widely-known offenders whether or not they’re after your server.

    In contrast, Fail2ban is going to take more work to get set up. However, it is extremely configurable and works with any log file you point it toward which means that it can watch anything (e.g., FTP, web traffic, mail traffic). You define your own jails which means you can ban problematic IP addresses according to preference. Ban bad HTTP attempts from HTTP only or stick their noses in the virtual corner and don’t accept any traffic from them until they’ve served their time-out by completely disallowing their traffic. You can even use Fail2ban to scan its own logs, so repeating offenders can be locked out for longer.

    Today we’re going to assume that you’ve a new server that shouldn’t be seeing any traffic except from you and any others involved in the project. In that case, you probably want to block traffic pretty aggressively. If you’ve physical access to the server (or the ability to work with staff at the datacenter) then it’s better to err in the direction of accidentally blocking good guys than trying to be overly fault-tolerant.

    The server we’re working on today is a Debian Wheezy system. It has become a common misconception that Ubuntu and Debian are, intents and purposes, interchangeable. They’re similar in many respects and Ubuntu is great preparation for using Debian but they are not the same. The differences, I think, won’t matter for this exercise but I am unsure because this was written using Wheezy.

    Several minutes after bringing my new server online, I started seeing noise in the logs. I was still getting set up and really didn’t want to stop and take protective measures but there’s no point in securing a server after its been compromised. The default Fail2ban configuration was too forgiving for my use. It was scanning for 10 minutes and banning for 10 minutes. Since only a few people should be accessing this server, there’s no reason for anyone to be trying a different password every 15 minutes (for hours).

    I found a ‘close-enough’ script and modified it. Here, we’ll deal with a simplified version.

    First, lets create a name for these ne’er-do-wells in iptables:
    iptables -N bad_traffic

    For this one, we’ll use Perl. We’ll look at our Apache log files to find people sniffing ‘round and we’ll block their traffic. Specifically, we’re going to check Apache’s ‘error.log’ for the phrases ‘File does not exist’ and ‘client denied by server configuration’ and block people causing those errors. This would be excessive for servers intended to serve the general populace. For a personal project, it works just fine as a ‘DO NOT DISTURB’ sign.


    #!/usr/bin/env perl
    use strict;
    use POSIX qw(strftime);

    my $log = ($ARGV[0] ? $ARGV[0] : "/var/log/apache2/error.log");
    my $chain = ($ARGV[1] ? $ARGV[1] : "bad_traffic");

    my @bad = `grep -iE 'File does not exist|client denied by server configuration' $log |cut -f8 -d" " | sed 's/]//' | sort -u`;
    my @ablk = `/sbin/iptables -S $chain|grep DROP|awk '{print $4}'|cut -d"/" -f1`;

    foreach my $ip (@bad) {
    if (!grep $_ eq $ip, @ablk) {
    chomp $ip;
    `/sbin/iptables -A $chain -s $ip -j DROP`;
    print strftime("%b %d %T",localtime(time))." badht: blocked bad HTTP traffic from: $ip\n";
    }
    }

    That gives us some great, utterly unforgiving, blockage. Looking at the IP addresses attempting to pry, I noticed that most of them were on at least one of the popular block-lists.

    So let’s make use of some of those block-lists! I found a program intended to apply those lists locally but, of course, it didn’t work for me. Here’s a similar program; this one will use ipset for managing the block-list though only minor changes would be needed to use iptables as above:

    #!/bin/bash
    IP_TMP=ip.tmp
    IP_BLACKLIST_TMP=ip-blacklist.tmp

    IP_BLACKLIST=ip-blacklist.conf

    WIZ_LISTS="chinese nigerian russian lacnic exploited-servers"

    BLACKLISTS=(
    "http://danger.rulez.sk/projects/bruteforceblocker/blist.php" # BruteForceBlocker IP List
    "http://rules.emergingthreats.net/blockrules/compromised-ips.txt" # Emerging Threats - Compromised IPs
    "http://www.spamhaus.org/drop/drop.txt" # Spamhaus Don't Route Or Peer List (DROP)
    "http://www.spamhaus.org/drop/edrop.txt" # Spamhaus Don't Route Or Peer List (DROP) Extended
    "http://cinsscore.com/list/ci-badguys.txt" # C.I. Army Malicious IP List
    "http://www.openbl.org/lists/base.txt" # OpenBL.org 90 day List
    "http://www.autoshun.org/files/shunlist.csv" # Autoshun Shun List
    "http://lists.blocklist.de/lists/all.txt" # blocklist.de attackers
    )

    for address in "${BLACKLISTS[@]}"
    do
    echo -e "\nFetching $address\n"
    curl "$address" >> $IP_TMP
    done

    for list in $WIZ_LISTS
    do
    wget "http://www.wizcrafts.net/$list-iptables-blocklist.html" -O - >> $IP_TMP
    done

    wget 'http://wget-mirrors.uceprotect.net/rbldnsd-all/dnsbl-3.uceprotect.net.gz' -O - | gunzip | tee -a $IP_TMP

    grep -o '^[0-9]\{1,3\}\.[0-9]\{1,3\}\.[0-9]\{1,3\}\.[0-9]\{1,3\}[/][0-9]\{1,3\}' $IP_TMP | tee -a $IP_BLACKLIST_TMP
    grep -o '^[0-9]\{1,3\}\.[0-9]\{1,3\}\.[0-9]\{1,3\}\.[0-9]\{1,3\}[^/]' $IP_TMP | tee -a $IP_BLACKLIST_TMP

    sed -i 's/\t//g' $IP_BLACKLIST_TMP
    sort -u $IP_BLACKLIST_TMP | tee $IP_BLACKLIST

    rm $IP_TMP
    rm $IP_BLACKLIST_TMP

    wc -l $IP_BLACKLIST

    if hash ipset 2>/dev/null
    then
    ipset flush bloxlist
    while IFS= read -r ip
    do
    ipset add bloxlist $ip
    done < $IP_BLACKLIST
    else
    echo -e '\nipset not found\n'
    echo -e "\nYour bloxlist file is: $IP_BLACKLIST\n"
    fi


    Download here:
        bad_traffic.pl
        bloxlist.sh


    Tags: , , , , , , , , , ,
    Permalink: 20140713.simple.protection.with.iptables.ipset.and.blacklilsts

    Tue, 18 Mar 2014

    Random datums with Random.org

    I was reading about the vulnerability in the ‘random’ number generator in iOS 7 (http://threatpost.com/weak-random-number-generator-threatens-ios-7-kernel-exploit-mitigations/104757) and thought I would share a method that I’ve used. Though, I certainly was not on any version of iOS but, at least, I can help in GNU/Linux and BSDs.

    What if we want to get some random numbers or strings? We need a salt or something and, in the interest of best practices, we’re trying to restrain the trust given to any single participant in the chain. That is, we do not want to generate the random data from the server that we are on. Let’s make it somewhere else!

    YEAH! I know, right? Where to get a random data can be a headache-inducing challenge. Alas! The noble people at Random.org are using atmospheric noise to provide randomness for us regular folk!

    Let’s head over and ask for some randomness:
    https://www.random.org/strings/?num=1&len=16&digits=on&loweralpha=on&unique=on&format=html&rnd=new

    Great! Still feels a little plain. What if big brother saw the string coming over and knew what I was doing? I mean, aside from the fact that I could easily wrap the string with other data of my choosing.

    Random.org is really generous with the random data, so why don’t we take advantage of that? Instead of asking for a single string, let’s ask for several. Nobunny will know which one I picked, except for me!

    We’ll do that by increasing the 'num' part of the request that we’re sending:
    https://www.random.org/strings/?num=25&len=16&digits=on&loweralpha=on&unique=on&format=html&rnd=new

    They were also thinking of CLI geeks like us with the 'format' variable. We set that to 'plain' and all the fancy formatting for human eyes is dropped and we get a simple list that we don’t need to use any clever tricks to parse!
    curl -s 'https://www.random.org/strings/?num=25&len=16&digits=on&loweralpha=on&unique=on&format=plain&rnd=new'

    Now we’ve got 25 strings at the CLI. We can pick one to copy and paste. But what if we don’t want to do the picking? Well, we can use the local system to do that. We’ll have it pick a number between 1 and 25. It’s zero-indexed, so we’re going to increment by 1 so that our number is really between 1 and 25.
    echo $(( (RANDOM % 25)+1 ))

    Next, we’ll send our list to head with our random number. Head is going to give us the first X lines of what we send to it. So if our random number is 17, then it will give us the first 17 lines from Random.org
    curl -s 'https://www.random.org/strings/?num=25&len=16&digits=on&loweralpha=on&unique=on&format=plain&rnd=new' | head -$(( (RANDOM % 25)+1 ))

    After that, we’ll use the friend of head: tail. We’ll tell tail that we want only the last record of the list, of psuedo-random length, of strings that are random.
    curl -s 'https://www.random.org/strings/?num=25&len=16&digits=on&loweralpha=on&unique=on&format=plain&rnd=new' | head -$(( (RANDOM % 25)+1 )) | tail -1

    And we can walk away feeling pretty good about having gotten some properly random data for our needs!


    Tags: ,
    Permalink: 20140318.random.data

    Wed, 26 Jun 2013

    Terminal suddenly Chinese

    The other day, I was updating one of my systems and I noticed that it had decided to communicate with me in Chinese. Since I don’t know a lick of Chinese, it made for a clumsy exchange.

    It was Linux Mint (an Ubuntu variant), so a snip of the output from an ‘apt-get upgrade’ looked like this: terminal screen with Chinese characters

    I’m pretty sure I caused it — but there’s no telling what I was working on and how it slipped past me. Anyway, it’s not a difficult problem to fix but I imagine it could look like big trouble.

    So, here’s what I did:
    > locale

    The important part of the output was this:
    LANG=en_US.UTF-8
    LANGUAGE=zh_CN.UTF-8

    If you want to set your system to use a specific editor, you can set $EDITOR=vi and then you’re going to learn that some programs expect the configuration to be set in $VISUAL and you’ll need to change it there too.

    In a similar way, many things were using the en_US.UTF-8 set in LANG, but other things were looking to LANGUAGE and determining that I wanted Chinese.

    Having identified the problem, the fix was simple. Firstly, I just changed it in my local environment:
    > LANGUAGE=en_US.UTF-8

    That solved the immediate problem but, sooner or later, I’m going to reboot the machine and the Chinese setting would have come back. I needed to record the change somewhere for the system to know about it in the future.

    > vim /etc/default/locale

    Therein was the more permanent record, so I changed LANGUAGE there also, giving the result:

    LANG=en_US.UTF-8
    LANGUAGE=en_US.UTF-8
    LC_CTYPE=en_US.UTF-8
    LC_NUMERIC=en_US.UTF-8
    LC_TIME=en_US.UTF-8
    LC_COLLATE=”en_US.UTF-8”
    LC_MONETARY=en_US.UTF-8
    LC_MESSAGES=”en_US.UTF-8”
    LC_PAPER=en_US.UTF-8
    LC_NAME=en_US.UTF-8
    LC_ADDRESS=en_US.UTF-8
    LC_TELEPHONE=en_US.UTF-8
    LC_MEASUREMENT=en_US.UTF-8
    LC_IDENTIFICATION=en_US.UTF-8
    LC_ALL=

    And now, the computer is back to using characters that I (more-or-less) understand.


    Tags: , , , , ,
    Permalink: 20130626.terminal.suddenly.chinese