You should conduct security updates frequently. The vast majority of exploits
result from known vulnerabilities that have not been patched in time, as this
http://www.cs.umd.edu/~waa/vulnerability.html
name="paper by Bill Arbaugh"> (presented at the 2001 IEEE
Symposium on Security and Privacy) explains. Updates are described under Execute a security update, Section
4.8.
If you're looking for a tool to quickly check and report system security
vulnerabilities, try the tiger
package. This package is a set of
Bourne shell scripts, C programs and data files used to perform security
audits. The Debian GNU/Linux package has additional enhancements oriented
toward the Debian distribution, providing more functionality than the Tiger
scripts provided by TAMU (or even TARA, a tiger version distributed by ARSC).
See the README.Debian file and the man page tiger(8)
for more
information.
One of these enhancements is the deb_checkadvisories script. This script takes a list of DSA's and checks against the installed package base, reporting back any packages that are vulnerable according to the Debian Security Team. This is a slightly different, more general approach than is implemented by the Tiger check_signatures script, which checks MD5sums of known vulnerable programs.
Since Debian currently does not ship a list of MD5sums of known vulnerable programs (utilized by some other operating systems like Sun Solaris), the check-against-DSA approach is used. The DSA approach and the MD5sums approach both suffer from the problem that signatures have to be updated regularly.
This is currently solved by making new versions of the Tiger package, but the
package maintainer might not make a new version every time a DSA is announced.
A nice addition, which is not yet implemented, might be to do this proactively.
That is, download the DSAs from the web, make the list and then run the check.
The DSAs are currently updated from the maintainer's local CVS update of the
WML sources used to build http://security.debian.org
(the
web server, that is).
A program to parse published DSAs, either received through e-mail or available
in security.debian.org, and then generate the file used by
'deb_checkadvisories' to confirm vulnerabilities would be appreciated. Send it
as a bug report for tiger
.
The mentioned check is run through the standard program configuration once
installed (see /etc/tiger/cronrc
):
# Check for Debian security measures every day at 1 AM # 1 * * deb_checkmd5sums deb_nopackfiles deb_checkadvisories #
There is an additional check that you might want to add, which is not yet part
of the standard cron
scripts. That check is the script
check_patches, which works in the following way:
If you are running a stable system and add the security.debian.org
apt
source line to your /etc/apt/sources.list
(as
described in Execute a security update,
Section 4.8), this script will be able to tell you if there are new
packages that you need to install. Since the only packages changing in this
setup are security updates, then you have just what you wanted.
Of course, this will not work if you are running testing or sid/unstable, since currently, the new packages are probably much more than security updates.
You can add this script to the checks done by the cron
job (in the
above configuration file) and tigercron
would mail (to whomever
Tiger_Mail_RCPT was set to in /etc/tiger/tigerrc
) the
new packages:
# Check for Debian security measures every day at 1 am # 1 * * deb_checkmd5sums deb_nopackfiles check_patches #
Unless you want to dedicate time to patch packages yourself when a vulnerability arises, you should not use Debian's unstable branch for production-level systems. The main reason for this is that there are no security updates for unstable (see How is security handled for testing and unstable?, Section 11.3.5).
The fact is that some security issues might appear in unstable and not in the stable distribution. This is due to new functionality constantly being added to the applications provided there, as well as new applications being included which might not yet have been throughly tested.
In order to do security upgrades in the unstable branch, you might have to do full upgrades to new versions (which might update much more than just the affected package). Although there have been some exceptions, security patches are usually only back ported into the stable branch. The main idea being that between updates, no new code should be added, just fixes for important issues.
If you are using the testing branch, there are some issues that you must take into account regarding the availability of security updates:
First of all, automatic updates are not fully recommended, since administrators should review the DSAs and understand the impact of any given security update.
If you want to update your system automatically you should:
apt
so that those packages that you do not want to
update stay at their current version, either with apt
's
pinning feature or marking them as hold with
dpkg
or dselect
.
To pin the packages under a given release, you must edit
/etc/apt/preferences
(see apt_preferences(5)
) and
add:
Package: * Pin: release a=stable Pin-Priority: 100
FIXME: verify if this configuration is OK.
cron
entry so that the update is run daily, for example:
apt-get update && apt-get -y upgrade
The -y option will have apt
assume 'yes' for all the
prompts that might arise during the update. In some cases, you might want to
use the --trivial-only option instead of the
--assume-yes (equivalent to -y). [21]
cron
so that debconf
will not ask for any
input during upgrades, that way they are done non-interactively. [22]
cron
execution, which will be mailed to
the superuser (unless changed with MAILTO environment variable in
the script).
A safer alternative might be to use the -d (or
--download-only) option, which will download but not install the
necessary packages. Then if the cron
execution shows that the
system needs to be updated, it can be done manually.
In order to accomplish any of these tasks, the system must be properly configured to download security updates as discussed in Execute a security update, Section 4.8.
However, this is not recommended for unstable without careful analysis, since you might bring your system into an unusable state if some serious bug creeps into an important package and gets installed in your system. Testing is slightly more secure with regard to this issue, since serious bugs have a better chance of being detected before the package is moved into the testing branch (although, you may have no security updates available whatsoever).
If you have a mixed distribution, that is, a stable installation with
some packages updated to testing or unstable, you can fiddle
with the pinning preferences as well as the --target-release
option in apt-get
to update only those packages that you
have updated. [23]
Debian GNU/Linux includes tools for intrusion detection, which is the practice of detecting inappropriate or malicious activity on your local system, or other systems in your private network. This kind of defense is important if if the system is very critical or you are truly paranoid. The most common approaches to intrusion detection are statistical anomaly detection and pattern-matching detection.
Always be aware that in order to really improve the system's security with the introduction of any of these tools, you need to have an alert+response mechanism in place. Intrusion detection is a waste of time if you are not going to alert anyone.
When a particular attack has been detected, most intrusion detection tools will
either log the event with syslogd
or send e-mail to the root user
(the mail recipient is usually configurable). An administrator has to properly
configure the tools so that false positives do not trigger alerts. Alerts may
also indicate an ongoing attack and might not be useful, say, one day later,
since the attack might have already succeeded. So be sure that there is a
proper policy on handling alerts and that the technical mechanisms to implement
this policy are in place.
An interesting source of information is CERT's
Intrusion Detection Checklist
Network based intrusion detection tools monitor the traffic on a network segment and use this information as a data source. Specifically, the packets on the network are examined, and they are checked to see if they match a certain signature.
Snort
is a flexible packet sniffer or logger that detects attacks
using an attack signature dictionary. It detects a variety of attacks and
probes, such as buffer overflows, stealth port scans, CGI attacks, SMB probes,
and much more. Snort
also has real-time alerting capability. You
can use snort
for a range of hosts on your network as well as for
your own host. This is a tool which should be installed on every router to
keep an eye on your network. Just install it with apt-get install
snort, follow the questions, and watch it log.
Debian's snort
package has many security checks enabled by
default. However, you should customize the setup to take into account the
particular services you run on your system. You may also want to seek
additional checks specific to these services.
There are other, simpler tools that can be used to detect network attacks.
portsentry
is an interesting package that can tip you off to port
scans against your hosts. Other tools like ippl
or
iplogger
will also detect some IP (TCP and ICMP) attacks, even if
they do not provide the kind of advanced techniques snort
does.
You can test any of these tools with the Debian package idswakeup
,
a shell script which generates false alarms, and includes many common attack
signatures.
Host based intrusion detection involves loading software on the system to be monitored which uses log files and/or the systems auditing programs as a data source. It looks for suspicious processes, monitors host access, and may even monitor changes to critical system files.
Tiger
is an older intrusion detection tool which has been ported
to Debian since the Woody branch. Tiger
provides checks of common
issues related to security break-ins, like password strength, file system
problems, communicating processes, and other ways root might be compromised.
This package includes new Debian-specific security checks including: MD5sums
checks of installed files, locations of files not belonging to packages, and
analysis of local listening processes. The default installation sets up
tiger
to run each day, generating a report that is sent to the
superuser about possible compromises of the system.
Log analysis tools, such as logcheck
can also be used to detect
intrusion attempts. See Using and
customising logcheck
, Section 4.12.1.
In addition, packages which monitor file system integrity (see Checking file system integrity, Section 4.17.3) can be quite useful in detecting anomalies in a secured environment. It is most likely that an effective intrusion will modify some files in the local file system in order to circumvent local security policy, install Trojans, or create users. Such events can be detected with file system integrity checkers.
FIXME: This section needs to cover how these specific patches can be installed in Debian using the kernel-2.x.x-patch-XXX packages.
The following are some kernel patches which can significantly enhance system security:
/tmp
, a restricted
/proc
file system, special file descriptor handling,
non-executable user stack area and other. Homepage: http://www.openwall.com/linux/
http://www.lids.org
http://acl.bestbits.at/
http://trustees.sourceforge.net/
http://www.kerneli.org
chroot
environment, it
claims to be easier to construct and more flexible than a chroot
environment. Homepage: http://www.immunix.org/subdomain.html
http://ramses.smeyers.be/useripacct
.
http://www.freeswan.org
Loadable kernel modules are files containing dynamically loadable kernel components used to expand the functionality of the kernel. The main benefit of using modules is the ability to add additional devices, like an Ethernet or sound card, without patching the kernel source and recompiling the entire kernel. However, crackers are now using LKMs for root-kits (knark and adore), opening up back doors in GNU/Linux systems.
LKM back doors are more sophisticated and less detectable than traditional
root-kits. They can hide processes, files, directories and even connections
without modifying the source code of binaries. For example, a malicious LKM
can force the kernel into hiding specific processes from procfs
,
so that even a known good copy of the binary ps
would not list
accurate information about the current processes on the system.
There are two approaches to defending your system against LKM root-kits, a proactive defense and a reactive defense. The detection work can be simple and painless, or difficult and tiring, depending on the approach taken.
The advantage of this kind of defense is that it prevents damage to the system in the first place. One such strategy is getting there first, that is, loading a LKM designed to protect the system from other malicious LKMs. A second strategy is to remove capabilities from the kernel itself. For example, you can remove the capability of loadable kernel modules entirely.
Debian GNU/Linux has a few packages that can be used to mount a proactive defense:
kernel-patch-2.4-lsm
- LSM is the Linux Security Modules
framework.
lcap
- A user friendly interface to remove capabilities
(kernel-based access control) in the kernel, making the system more secure.
For example, executing lcap CAP_SYS_MODULE [24] will remove module loading
capabilities (even for the root user). [25]
If you don't really need many kernel features on your GNU/Linux system, you may
want to disable loadable modules support during kernel configuration. To
disable loadable module support, just set CONFIG_MODULES=n during the
configuration stage of building your kernel, or in the .config
file. This will prevent LKM root-kits, but you lose this powerful feature of
the Linux kernel. Also, disabling loadable modules can sometimes overload the
kernel, making loadable support necessary.
The advantage of a reactive defense is that it does not overload system
resources. It works by comparing the system call table with a known clean copy
in a disk file, System.map
. Of course, a reactive defense will
only notify the system administrator after the system has already been
compromised.
Detection of some root-kits in Debian can be accomplished with the
chkrootkit
package. The Chkrootkit
program checks for signs
of several known root-kits on the target system, but is not a definitive test.
Another helpful tool is KSTAT
(Kernel Security
Therapy Anti Trolls) by the S0ftproject group. KSTAT checks the kernel memory
area /dev/kmem
) for information about the target host to assist
the system administrator in finding and removing malicious LKMs.
This is probably the most unstable and funny section, since I hope that some of the "duh, that sounds crazy" ideas might be realized. The following are just some ideas for increasing security — maybe genius, paranoid, crazy or inspired depending on your point of view.
chattr
. (taken from the Tips-HOWTO,
written by Jim Dennis). After a clean install and initial configuration, use
the chattr
program with the +i attribute to make
files unmodifiable (the file cannot be deleted, renamed, linked or written to).
Consider setting this attribute on all the files in /bin
,
/sbin/
, /usr/bin
, /usr/sbin
,
/usr/lib
and the kernel files in root. You can also make a copy
of all files in /etc/
, using tar
or the like, and
mark the archive as immutable.
This strategy will help limit the damage that you can do when logged in as
root. You won't overwrite files with a stray redirection operator, and you
won't make the system unusable with a stray space in a rm -fr
command (you might still do plenty of damage to your data — but your
libraries and binaries will be safer.)
This strategy also makes a variety of security and denial of service (DoS) exploits either impossible or more difficult (since many of them rely on overwriting a file through the actions of some SETUID program that isn't providing an arbitrary shell command).
One inconvenience of this strategy arises during building and installing
various system binaries. On the other hand, it prevents the make
install
from over-writing the files. When you forget to read the
Makefile and chattr -i
the files that are to be overwritten, (and
the directories to which you want to add files) - the make command fails, and
you just use the chattr
command and rerun it. You can also take
that opportunity to move your old bin's and libs out of the way, into a .old/
directory or tar archive for example.
Note that this strategy also prevents you from upgrading your system's
packages, since the files updated packages provide cannot be overwritten. You
might want to have a script or other mechanism to disable the immutable flag on
all binaries right before doing an apt-get update
.
FIXME: More Content specific to Debian needed.
A honeypot is a system designed to teach system administrators how crackers probe for and exploit a system. It is a system setup with the expectation and goal that the system will be probed, attacked and potentially exploited. By learning the tools and methods employed by the cracker, a system administrator can learn to better protect their own systems and network.
A Debian GNU/Linux system can easily be setup as a honeypot, if you dedicate the time to implement and monitor it. Simply setup the fake server with a firewall and some sort of network intrusion detector, put it on the Internet, and wait. Do take care that if the system is exploited, you are alerted in time (see The importance of logs and alerts, Section 4.12) so that you can take appropriate measures and terminate the compromise when you've seen enough. Here are some of the packages and issues to consider when setting up your honeypot:
syslog-ng
, useful for sending logs from the honeypot to a remote
syslog server.
snort
, to set up capture of all the incoming network traffic to
the honeypot and detect the attacks.
osh
, a SETUID root, security enhanced, restricted shell with
logging (see Lance Spitzner's article below).
Deception Toolkit
tct
) to do post-attack audits.
You can read more about building honeypots in Lanze Spitzner's excellent
article To
Build a Honeypot
(from the Know your Enemy series), or David
Raikow's Building
your own honeypot
. Also, the Honeynet Project
provides
valuable information about building honeypots and auditing the attacks made on
them.
Securing Debian Manual
2.6 10 October 2002Wed, 18 Sep 2002 14:09:35 +0200[email protected]