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Securing Debian Manual
Chapter 3 - Before and during the installation

3.1 Choose a BIOS password

Before you install any operating system on your computer, set up a BIOS password. After installation (once you have enabled bootup from the hard disk) you should go back to the BIOS and change the boot sequence to disable booting from floppy, CD-ROM and other devices that shouldn't boot. Otherwise a cracker only needs physical access and a boot disk to access your entire system.

Disabling booting unless a password is supplied is even better. This can be very effective if you run a server, because it is not rebooted very often. The downside to this tactic is that rebooting requires human intervention which can cause problems if the machine is not easily accessible.

Note: many BIOSes have well known default master passwords, and applications also exist to retrieve the passwords from the BIOS. Corollary: don't depend on this measure to secure console access to system.

3.2 Partitioning the system

3.2.1 Choose an intelligent partition scheme

An intelligent partition scheme depends on how the machine is used. A good rule of thumb is to be fairly liberal with your partitions and to pay attention to the following factors:

In the case of a mail server it is important to have a separate partition for the mail spool. Remote users (either knowingly or unknowingly) can fill the mail spool (/var/mail and/or /var/spool/mail). If the spool is on a separate partition, this situation will not render the system unusable. Otherwise (if the spool directory is on the same partition as /var) the system might have important problems: log entries will not be created, packages cannot be installed, and some programs might even have problems starting up (if they use /var/run).

Also, for partitions in which you cannot be sure of the needed space, installing Logical Volume Manager (lvm-common and the needed binaries for your kernel, this might be either lvm10, lvm6, or lvm5). Using lvm, you can create volume groups that expand multiple physical volumes. Selecting the appropriate file systems

During the system partitioning you also have to decide which file system you want to use. The default file system[3] selected in the Debian installation for Linux partitions is ext3, a journaling file system. It is recommended that you always use a journaling file system, such as ext3, reiserfs, jfs or xfs, to minimize the problems derived from a system crash in the following cases:

Leaving aside the performance issues regarding journalling file systems (since this can sometimes turn into a religious war), it is usually better to use the ext3 file system. The reason for this is that it is backwards compatible with ext2, so if there are any issues with the journalling you can disable it and still have a working file system. Also, if you need to recover the system with a bootdisk (or CD-ROM) you do not need a custom kernel. If the kernel is 2.4 or 2.6 ext3 support is already available, if it is a 2.2 kernel you will be able to boot the file system even if you lose journalling capabilities. If you are using other journalling file systems you will find that you might not be able to recover unless you have a 2.4 or 2.6 kernel with the needed modules built-in. If you are stuck with a 2.2 kernel on the rescue disk, it might be even more difficult to have it access reiserfs or xfs.

In any case, data integrity might be better under ext3 since it does file-data journalling while others do only meta-data journalling, see http://lwn.net/2001/0802/a/ext3-modes.php3.

Notice, however, that there are some partitions that might not benefit from using a journaling filesystem. For example, if you are using a separate partition for /tmp/ you might be better off using a standard ext2 filesystem as it will be cleaned up when the system boots.

3.3 Do not plug to the Internet until ready

The system should not be immediately connected to the Internet during installation. This could sound stupid but network installation is a common method. Since the system will install and activate services immediately, if the system is connected to the Internet and the services are not properly configured you are opening it to attack.

Also note that some services might have security vulnerabilities not fixed in the packages you are using for installation. This is usually true if you are installing from old media (like CD-ROMs). In this case, the system could even be compromised before you finish installation!

Since Debian installation and upgrades can be done over the Internet you might think it is a good idea to use this feature on installation. If the system is going to be directly connected to the Internet (and not protected by a firewall or NAT), it is best to install without connection to the Internet, using a local packages mirror for both the Debian package sources and the security updates. You can set up package mirrors by using another system connected to the Internet with Debian-specific tools (if it's a Debian system) like apt-move or apt-proxy, or other common mirroring tools, to provide the archive to the installed system. If you cannot do this, you can set up firewall rules to limit access to the system while doing the update (see Security update protected by a firewall, Appendix F).

3.4 Set a root password

Setting a good root password is the most basic requirement for having a secure system. See passwd(1) for some hints on how to create good passwords. You can also use an automatic password generation program to do this for you (see Generating user passwords, Section 4.11.14).

Plenty of information on choosing good passwords can be found on the Internet; two that provide a decent summary and rationale are Eric Wolfram's How to: Pick a Safe Password and Walter Belgers' Unix Password Security

3.5 Run the minimum number of services required

Services are programs such as ftp servers and web servers. Since they have to be listening for incoming connections that request the service, external computers can connect to yours. Services are sometimes vulnerable (i.e. can be compromised under a given attack) and hence present a security risk.

You should not install services which are not needed on your machine. Every installed service might introduce new, perhaps not obvious (or known), security holes on your computer.

As you may already know, when you install a given service the default behavior is to activate it. In a default Debian installation, with no services installed, the number of running services is quite low and the number of network-oriented services is even lower. In a default Debian 3.1 standard installation you will end up with OpenSSH, Exim (depending on how you configured it) and the RPC portmapper available as network services[4]. If you did not go through a standard installation but selected an expert installation you can end up with no active network services. The RPC portmapper is installed by default because it is needed for many services, for example NFS, to run on a given system. However, it can be easily removed, see Securing RPC services, Section 5.13 for more information on how to secure or disable RPC services.

When you install a new network-related service (daemon) in your Debian GNU/Linux system it can be enabled in two ways: through the inetd superdaemon (i.e. a line will be added to /etc/inetd.conf) or through a standalone program that binds itself to your network interfaces. Standalone programs are controlled through the /etc/init.d files, which are called at boot time through the SysV mechanism (or an alternative one) by using symlinks in /etc/rc?.d/* (for more information on how this is done read /usr/share/doc/sysvinit/README.runlevels.gz).

If you want to keep some services but use them rarely, use the update-* commands, e.g. update-inetd and update-rc.d to remove them from the startup process. For more information on how to disable network services read Disabling daemon services, Section 3.5.1. If you want to change the default behaviour of starting up services on installation of their associated packages[5] use policy-rc.d, please read /usr/share/doc/sysv-rc/README.policy-rc.d.gz for more information.

invoke-rc.d support is mandatory in Debian, which means that for Debian 4.0 etch and later releases you can write a policy-rc.d file that forbids starting new daemons before you configure them. Although no such scripts are packaged yet, they are quite simple to write. See policyrcd-script-zg2.

3.5.1 Disabling daemon services

Disabling a daemon service is quite simple. You either remove the package providing the program for that service or you remove or rename the startup links under /etc/rc${runlevel}.d/. If you rename them make sure they do not begin with 'S' so that they don't get started by /etc/init.d/rc. Do not remove all the available links or the package management system will regenerate them on package upgrades, make sure you leave at least one link (typically a 'K', i.e. kill, link). For more information read Customizing runlevels section of the Debian Reference (Chapter 2 - Debian fundamentals).

You can remove these links manually or using update-rc.d (see update-rc.d(8)). For example, you can disable a service from executing in the multi-user runlevels by doing:

       # update-rc.d name stop XX 2 3 4 5 .

Where XX is a number that determines when the stop action for that service will be executed. Please note that, if you are not using file-rc, update-rc.d -f service remove will not work properly, since all links are removed, upon re-installation or upgrade of the package these links will be re-generated (probably not what you wanted). If you think this is not intuitive you are probably right (see Bug 67095). From the manpage:

       If any files /etc/rcrunlevel.d/[SK]??name already exist then
       update-rc.d does nothing.  This is so that the system administrator 
       can rearrange the  links,  provided that  they  leave  at  least one
       link remaining, without having their configuration overwritten.

If you are using file-rc all the information regarding services bootup is handled by a common configuration file and is maintained even if packages are removed from the system.

You can use the TUI (Text User Interface) provided by sysv-rc-conf to do all these changes easily (sysv-rc-conf works both for file-rc and normal System V runlevels). You will also find similar GUIs for desktop systems. You can also use the command line interface of sysv-rc-conf:

       # sysv-rc-conf foobar off

The advantage of using this utility is that the rc.d links are returned to the status they had before the 'off' call if you re-enable the service with:

       # sysv-rc-conf foobar on

Other (less recommended) methods of disabling services are:

Nevertheless, the files under /etc/init.d are configuration files and should not get overwritten due to package upgrades if you have made local changes to them.

Unlike other (UNIX) operating systems, services in Debian cannot be disabled by modifying files in /etc/default/service_name.

FIXME: Add more information on handling daemons using file-rc.

3.5.2 Disabling inetd or its services

You should check if you really need the inetd daemon nowadays. Inetd was always a way to compensate for kernel deficiencies, but those have been taken care of in modern Linux kernels. Denial of Service possibilities exist against inetd (which can increase the machine's load tremendously), and many people always preferred using stand-alone daemons instead of calling services via inetd. If you still want to run some kind of inetd service, then at least switch to a more configurable Inet daemon like xinetd, rlinetd or openbsd-inetd.

You should stop all unneeded Inetd services on your system, like echo, chargen, discard, daytime, time, talk, ntalk and r-services (rsh, rlogin and rcp) which are considered HIGHLY insecure (use ssh instead).

You can disable services by editing /etc/inetd.conf directly, but Debian provides a better alternative: update-inetd (which comments the services in a way that it can easily be turned on again). You could remove the telnet daemon by executing this commands to change the config file and to restart the daemon (in this case the telnet service is disabled):

       /usr/sbin/update-inetd --disable telnet

If you do want services listening, but do not want to have them listen on all IP addresses of your host, you might want to use an undocumented feature on inetd (replace service name with service@ip syntax) or use an alternative inetd daemon like xinetd.

3.6 Install the minimum amount of software required

Debian comes with a lot of software, for example the Debian 3.0 woody release includes 6 or 7 (depending on architecture) CD-ROMs of software and thousands of packages, and the Debian 3.1 sarge release ships with around 13 CD-ROMs of software. With so much software, and even if the base system installation is quite reduced [6] you might get carried away and install more than is really needed for your system.

Since you already know what the system is for (don't you?) you should only install software that is really needed for it to work. Any unnecessary tool that is installed might be used by a user that wants to compromise the system or by an external intruder that has gotten shell access (or remote code execution through an exploitable service).

The presence, for example, of development utilities (a C compiler) or interpreted languages (such as perl - but see below -, python, tcl...) may help an attacker compromise the system even further:

Of course, an intruder with local shell access can download his own set of tools and execute them, and even the shell itself can be used to make complex programs. Removing unnecessary software will not help prevent the problem but will make it slightly more difficult for an attacker to proceed (and some might give up in this situation looking for easier targets). So, if you leave tools in a production system that could be used to remotely attack systems (see Remote vulnerability assessment tools, Section 8.1) you can expect an intruder to use them too if available.

Please notice that a default installation of Debian sarge (i.e. an installation where no individual packages are selected) will install a number of development packages that are not usually needed. This is because some development packages are of Standard priority. If you are not going to do any development you can safely remove the following packages from your system, which will also help free up some space:

     Package                    Size
     gdb                     2,766,822
     gcc-3.3                 1,570,284
     dpkg-dev                  166,800
     libc6-dev               2,531,564
     cpp-3.3                 1,391,346
     manpages-dev            1,081,408
     flex                      257,678
     g++                         1,384 (Note: virtual package)
     linux-kernel-headers    1,377,022
     bin86                      82,090
     cpp                        29,446
     gcc                         4,896 (Note: virtual package)
     g++-3.3                 1,778,880
     bison                     702,830
     make                      366,138
     libstdc++5-3.3-dev        774,982

This is something that is fixed in releases post-sarge, see Bug #301273 and Bug #301138. Due to a bug in the installation system this did not happen when installing with the installation system of the Debian 3.0 woody release.

3.6.1 Removing Perl

You must take into account that removing perl might not be too easy (as a matter of fact it can be quite difficult) in a Debian system since it is used by many system utilities. Also, the perl-base is Priority: required (that about says it all). It's still doable, but you will not be able to run any perl application in the system; you will also have to fool the package management system to think that the perl-base is installed even if it's not. [8]

Which utilities use perl? You can see for yourself:

       $ for i in /bin/* /sbin/* /usr/bin/* /usr/sbin/*; do [ -f $i ] && {
       type=`file $i | grep -il perl`; [ -n "$type" ] && echo $i; }; done

These include the following utilities in packages with priority required or important:

So, without Perl and, unless you remake these utilities in shell script, you will probably not be able to manage any packages (so you will not be able to upgrade the system, which is not a Good Thing).

If you are determined to remove Perl from the Debian base system, and you have spare time, submit bug reports to the previous packages including (as a patch) replacements for the utilities above written in shell script.

If you wish to check out which Debian packages depend on Perl you can use

     $ grep-available -s Package,Priority -F Depends perl


     $ apt-cache rdepends perl

3.7 Read the Debian security mailing lists

It is never wrong to take a look at either the debian-security-announce mailing list, where advisories and fixes to released packages are announced by the Debian security team, or at mailto:debian-security@lists.debian.org, where you can participate in discussions about things related to Debian security.

In order to receive important security update alerts, send an email to debian-security-announce-request@lists.debian.org with the word "subscribe" in the subject line. You can also subscribe to this moderated email list via the web page at http://www.debian.org/MailingLists/subscribe.

This mailing list has very low volume, and by subscribing to it you will be immediately alerted of security updates for the Debian distribution. This allows you to quickly download new packages with security bug fixes, which is very important in maintaining a secure system (see Execute a security update, Section 4.2 for details on how to do this).

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Securing Debian Manual

Version: 3.17, built on Sun, 08 Apr 2012 02:48:09 +0000

Javier Fernández-Sanguino Peña jfs@debian.org
Authors, Section 1.1