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FreeBSD Security How-To Introduction

Is there really a need for this How-To?

FreeBSD is a very secure operating system. Since source code is freely available, the OS is constantly going through the review and audit. While FreeBSD comes very secure OOB (Out-Of-Box), there are many features that can make it more secure for those of you who are "paranoid". This How-To will go over some steps which will help you increase overall security of your machine.

Will you mention tripwire, tcp wrappers, crack, cops, other tools?

No I will not (except for SSH). This is FreeBSD specific How-To. There is a lot of information for non-OS specific tools already out there. I would like to concentrate on BSD only at this time. I will however provide links to the pages which talk about other, non-BSD specific security tools.

Who should read this How-To?

Anyone who wants to learn more about ways to make their system more secure. This How-To will cover some very basic steps and some very complex steps. If you have any questions or would like to contribute, please eMail the maintainer:
While this How-To is FreeBSD specific most of the material covered here will also apply to other Unix OSes (especially OpenBSD and NetBSD).

Is this How-To available in other languages?

As far as I know it has been translated to Russian:
and Chinese:



inetd (Inet Daemon)

Networking plays a very important role in overall system security. FreeBSD is based on 4.4BSD which comes with built in networking and actually has one of the most solid and fast TCP/IP stacks around. This stack provides support for protocols such as telnet, ftp, talk, rsh, and etc. Main configuration file for many of these services is located in /etc and is named inetd.conf - to edit this file type "vi /etc/inetd.conf "(I will use vi as in editor in these examples. You should however use an editor you are most comfortable with - if you want an easy way out try pico). If you are going to use pico, start pico with with -w option:

       -w     Disable word  wrap  (thus  allow  editing  of  long

-w is very useful when editing files such as /etc/inetd.conf You can also use ee - it comes with FreeBSD and is actually set as an editor of choice by default for root, but "echo $EDITOR" to check. When you open the file in editor you will see plain ascii text which tells inetd which services to run, what user to run them as and etc. Since this file is the main file which starts all the network services it is very important to configure it properly. To turn off a service you would place a "#" in front of the line. In general, placing a "#" before a line in any unix configuration file disables that line. A basic rule of thumb is to turn off the services which you unfamiliar with. If you don't know what it is or what it does, don't run it then. Ideally you would not run inetd at all. One example is if you are doing web serving only. Then you would run ssh and httpd only and NOTHING ELSE. More info on ssh follows below. If you decide not to run any of the daemons in the inetd.con file, then you can simply turn off inetd. To do that, edit /etc/rc.conf file and change


Now nobody will be able to telnet, rlogin or ftp into your computer. If you will be running inetd, consider using tcp wrappers. You can find more information at
If you do decide to leave inetd running, then make sure to enable logging and to increase the number of times a service can be invoked in one minute. (The default is 256, I recommend 1024 - adjust it yourself as you see fit). If you are connecting with a slow link (a modem for example), this will not matter, but if you have a fast connection this "feature" can be used to create a DoS (Denial of Service) attack. Someone can create a simple shell script to invoke more then 256 connections to your computer which will cause your inetd service to shut down. On the other hand, if you want to support 1024 simultaneous connection to your box make sure you have hardware to support that. Or else someone can also cause DoS and crash your computer by opening 1024 telnet connections at one time. Hence, in the file /etc/rc.conf the line right below

should be changed from:
inetd_flags="-l -R 1024" 

this will turn on logging (-l switch) and increase maximum connection number to 1024 from the default 256. You will also need to change your syslog.conf file in /etc directory, but we will talk about syslogd later.

SSH - Secure Shell

I mentioned above that in some cases you will not need to run inetd at all. For example, if you are running a web, news or nfs only server, there is no need to have another services running on the machine. "How do I control my machine?" one might ask? This is where SSH comes in. You can login into the machine remotely using SSH (Secure Shell). Secure Shell was designed as a replacement for rsh, rlogin and other Berkeley r* commands, but people quickly realized how useful SSH is and started using it instead of such applications as telnet and ftp. SSH has many features, but it is mostly used for encrypting connection to prevent clear text passwords and the rest of the data traveling in the clear on the wire. If you use telnet, your connection can be spied on. (If you think that S/Key is the solution there still exists the problems of data insertion and connection hijacking.) I hope by now you have been convinced to turn off inetd completely and install SSH instead. If you don't think you can live without services provided by inetd then at least enable logging and increase maximum allowed connections per minute (see above).
One can download SSH from
If you want an easy way out:

# cd /usr/ports/security/ssh
# make install

If you will have your users connect to you from non-Unix machines, some of the places to get Windows SSH clients are
SecureCRT from

Networking part II (details)


So you have decided to use inetd. Fine. Let us look at the options inside of /etc/inetd.conf which can make services a little more secure and informative. Every attacker at first will gather information about the network or the system he/she is about to attack. One of the things you can do to prevent this is to add "-h" switch to the telnet daemon:

telnet  stream  tcp     nowait  root    /usr/libexec/telnetd    telnetd -h

from the telnetd man page:

 -h      Disable the printing of host-specific information before login
         has been completed.

While there are many other ways for someone to gather system information, one step here and another step there will overall produce a good result. It should also be noted that there are some utilites which can tell you the OS by just "fingerprinting" the running TCP/IP stack of that OS. If you don't want to run telnet daemon at all, then simply add "#" in the very beginning of the line:

#telnet stream  tcp     nowait  root    /usr/libexec/telnetd    telnetd

By turning off telnetd your users (and you) will be forced to use a more secure alternative such as SSH. One of the quite extreme measures you can take is to refuse someone a telnet session if their IP does not resolve into a hostname. To do that, simply add "-U" switch to the telnet daemon:

telnet  stream  tcp     nowait  root    /usr/libexec/telnetd    telnetd -h -U

This will do very little, however, to increase the overall security of your system.


Now let's look at ftpd. FreeBSD has the ftp daemon configured to do some logging. You can see that because ftpd is started with "-l" switch from inetd.conf. However, you also need to configure your syslogd (syslog daemon) to provide support for the log generated by ftp daemon (ftpd).
From the man page:

 -l      Each successful and failed ftp(1) session is logged using syslog
         with a facility of LOG_FTP.  If this option is specified twice,
         the retrieve (get), store (put), append, delete, make directory,
         remove directory and rename operations and their filename argu-
         ments are also logged.  Note: LOG_FTP messages are not displayed
         by syslogd(8) by default, and may have to be enabled in syslogd(8)'s
         configuration file.

Let's enable ftpd logging in the syslog daemon's configuration file. This file is /etc/syslog.conf (also "man 5 syslog.conf"). Add the following line to the configuration file:

ftp.*						/var/log/ftpd

don't forget to issue the command "touch /var/log/ftpd" since syslogd can't write to a file which isn't created first. Don't forget to add the file to which you will log ftp activity into /etc/newsyslog.conf to make sure it is rotated properly. See below for newsyslog(8) information. If you want to add more information about your ftp daemon (ftpd) to the log files, just add second "-l" to the ftp line in /etc/inetd.conf:

ftp	stream	tcp	nowait	root	/usr/libexec/ftpd	ftpd -l -l

If you want to make sure your users are using scp (Secure Copy, which is part of SSH suite), but still want to allow anonymous ftp access, start your ftp daemon with "-A" switch:

ftp	stream	tcp	nowait	root	/usr/libexec/ftpd	ftpd -l -A

You can then also edit /etc/ftpwelcome to say that ftpd will only allow incoming anonymous connections and that existing users should use scp instead of ftpd. If you do enable anonymous ftpd, then you can use -S option to log anonymous ftp transfers:

ftp     stream  tcp     nowait  root    /usr/libexec/ftpd       ftpd -A -S


Finger service comes configured as "secure" by default: it does not allow queries without a user name. This is a good thing (tm). Yet, some people are paranoid and would like not to run finger service at all. In that case, again, comment it out by placing "#" at the beginning of the line. If you would like to continue running finger service, enable logging by adding "-l" switch:

finger	stream	tcp	nowait	nobody	/usr/libexec/fingerd	fingerd -s -l

Logs from fingerd will go into /var/log/messages by default. If you want to have finger daemon log to a specific file, add the following line to your /etc/syslog.conf file:

daemon.notice					/var/log/fingerd

% man 5 syslog.conf

You really should not have anything other then ftp, telnet and finger daemons enabled in your /etc/inetd.conf file. I usually disable talk and and comsat as well as other services I personally have no need for. As I mentioned before: if you don't know what the service does or think you don't need it, disable it. Some man pages which you might find useful relating to the networking configuration are: inetd, ftpd, telnetd, fingerd, syslogd, comsat, talkd, rshd, rlogind, and inetd.conf. Make sure to look at the "SEE ALSO" section of the man page for related information.

IP firewalling with ipfw

IP Firewall does packet filtering: Nothing more, nothing less. However, you should consider compiling support for ipfw into your kernel. I usually compile support for ipfw on most of my machines, HOWEVER, on most my kernel config looks like this:

options         IPFIREWALL			#finger the net
options         IPFIREWALL_VERBOSE      	#log the net
options		IPFIREWALL_DEFAULT_TO_ACCEPT	#just what it say

first line includes basic IP Firewall support. Second line configures ipfw to be able to log accepted or rejected packets. Third line is very important. It does exactly what it says: accept any connections and packets from anywhere by default. If you don't do this, ifpw will deny everything by default. I like to have ipfw built into the kernel just in case, but I don't like to deny everything by default on my personal workstation or for example a shell server.

********** WARNING ************
This is not the correct approach to firewall configurations. Everything should be denied by default. DO NOT add

if you are building a secure system or production firewall. Make sure everything is denied by default first and then add rules to allow connections/packets on a case by case bases. See /etc/rc.firewall for more info.
AGAIN: Do not use this options unless you just like to have ipfw built into the kernel to deny occasional DoS attacks or block certain ports/network temporarally.


One should take a closer look at /etc/rc.firewall for possible examples and basic firewall setup. Go here for FreeBSD ipfw config page.


You can also change some useful kernel variables through sysctl command:

# sysctl -w net.inet.tcp.log_in_vain=1
# sysctl -w net.inet.udp.log_in_vain=1

This will provide you with logging of attempted connections to your box to the port which does not have a server running to it. For example, if you do not have DNS server on your computer and someone would try to use your computer as DNS you would see a message such as:
Connection attempt to UDP yourIP:53 from otherIP:X
(where X is some high port #)
This will be seen with "dmesg" command. dmesg displays the system's kernel message buffer. However, this buffer only can store limited amount of information and hence this also gets logged to the messages file in /var/log directory:

# tail -1 /var/log/messages
Jun 12 19:36:03 ugh /kernel: Connection attempt to UDP yourIP:53 from otherIP:X 

I would like to point out that only tcp packets which have only SYN set as flag will be logged. This might not be enough in some cases. Apply this patch to be able to see all tcp packets.

Final notes

Now you should in theory have your machine a little more secure than when you just installed it. A few things you can do now to verify that everything you did above worked are:

% netstat -na | grep LISTEN

this will tell you which ports have services waiting for a connection. The less you have, the better. Also, run different port scanners to find out what ports you have open. I recommend nmap. And also make sure syslog is actually logging everything you want it to:

# cd /var/log
# tail -10 fingerd ftpd messages

If you don't see anything in your logs, make sure that you have restarted both inetd and syslogd processes:

# kill -HUP `cat /var/run/` `cat /var/run/`


Since Unix considers everything a file, it is very important to properly protect your filesystem. This process starts before installing the OS itself: you need to calculate and design your partition layout. There are a few main reasons for doing so. One is that you can mount different filesystems with different options (some examples below). Another is that if you want to export a filesystem, you will have a more granular control. If you are coming to FreeBSD from the Linux world you will notice that while Linux puts everything under one root partition "/", FreeBSD by default gives "/", "/usr" and "/var". This makes it easy to use programs like dump(8) also. But there are security advantages as well. One of the things I usually do is try to separate partitions where users will be able to write so that they can be mounted "nosuid". From the mount man page:

            nosuid  Do not allow set-user-identifier or set-group-identifier
                    bits to take effect.  Note: this option is worthless if a
                    public available suid or sgid wrapper like suidperl is
                    installed on your system.

Hence you would have one partition for user directories: /home or /usr/home. For example, you then could have something like:

% cat /etc/fstab
# Device                Mountpoint      FStype  Options         Dump    Pass#
/dev/sd0s1b             none            swap    sw              0       0
/dev/sd0s1a             /               ufs     rw              1       1
/dev/sd0s1g             /usr            ufs     rw              2       2
/dev/sd0s1h		/usr/home	ufs	rw,nosuid 	2	2	
/dev/sd0s1f             /var            ufs     rw,nosuid       2       2
/dev/sd0s1i		/tmp		ufs	rw,nosuid	2	2
/dev/sd0s1e             /var/tmp        ufs     rw,nosuid       2       2
proc                    /proc           procfs  rw              0       0

At this point you need to make sure all the directories where users can write are either mounted "-nosuid" or have been chmod'ed in such way that only root user can write to them. By default FreeBSD will have only one you should be concerned with: /var/spool/uucppublic
You can either mount your /var filesystem "-nosuid" or just do:

# chmod o-w /var/spool/uucppublic

If you want to find all your writable directories, issue:

# find / -perm -0777 -type d -ls

As the man page points out, having an suid/sgid wrapper will make mounting your other filesystems nosuid useless. Find out what files are installed on your system as suid or guid. To do that use find(1):

# find / -perm -2000 -ls
# find / -perm -4000 -ls

Also, you can simply not use the "-ls" switch to get a more compact output. One of the things you might do is to "chmod 000" binaries you will never ever find useful. Some examples would be uustat, uucico (even getting uid of uucp is not good) if you will never touch uucp. Or ppp and pppd if you never will do anything PPP related on the system. If you will never do ANY printing you can safely chmod to 000 lpr, lprq, lprm. There is a utility suidcontrol (currently in beta) which will help you to set a system wide suid/sgid policy.

At this point you might be asking what can stop an attacker from simply unmounting and then mounting the filesystem without "-nosuid" flag? Well, nothing, unless you change securelevel.

Kernel Securelevels and file flags

BSD kernel has a notion of securelevel. While some argue that it is not as perfect as it could be, it will do the job most of the time to stop your average "script kiddiez". Securelevel is simply the level with which your kernel runs - each level implementing different protections and checks. This description is taken from the init(8) man page:

     The kernel runs with four different levels of security.  Any superuser
     process can raise the security level, but only init can lower it.  The
     security levels are:

     -1    Permanently insecure mode - always run the system in level 0 mode.

     0     Insecure mode - immutable and append-only flags may be turned off.
           All devices may be read or written subject to their permissions.

     1     Secure mode - the system immutable and system append-only flags may
           not be turned off; disks for mounted filesystems, /dev/mem, and
           /dev/kmem may not be opened for writing.

     2     Highly secure mode - same as secure mode, plus disks may not be
           opened for writing (except by mount(2))  whether mounted or not.
           This level precludes tampering with filesystems by unmounting them,
           but also inhibits running newfs(8) while the system is multi-user.

     If the security level is initially -1, then init leaves it unchanged.
     Otherwise, init arranges to run the system in level 0 mode while single
     user and in level 1 mode while multiuser.  If level 2 mode is desired
     while running multiuser, it can be set while single user, e.g., in the
     startup script /etc/rc, using sysctl(8).

For example, if all your system does is web serving, you can safely set your securelevel to 2. However, if you are running an X server, setting your securelevel to 1 or higher will give you problems because X server needs to open /dev/mem and /dev/kmem for writing, and securelevel of 1 prevents doing so. One way around this is to set your securelevel after you start your X server, but IMHO if you are running X server you already have other security issues to worry about then kernel securelevel. To find out what your current securelevel is:

# sysctl kern.securelevel 
To raise your securelevel:
# sysctl -w kern.securelevel=N
where N is 0, 1 or 2.

You will also have problems upgrading your system via "make world" or when rebuilding the kernel if you are running with securelevel of 1 or higher. This is because by default "make install" will install your kernel with the system immutable flag:

# ls -lo /kernel
-r-xr-xr-x  1 root  wheel  schg 1061679 Jun 30 01:27 /kernel

That "schg" is what will prevent you from installing a new kernel:

nfr# id
uid=0(root) gid=0(wheel) groups=0(wheel), 2(kmem)

nfr# sysctl kern.securelevel
kern.securelevel: 2

nfr# rm -rf /kernel
rm: /kernel: Operation not permitted

nfr# mv /kernel /tmp/
mv: rename /kernel to /tmp//kernel: Operation not permitted

If you are running in securelevel of 1 or 2, this flag may not be turned off:

# chflags noschg /kernel
chflags: /kernel: Operation not permitted

It should be noted however that file /boot.config can be used to change kernel used at system boot-up. To prevent this, one should:

# touch /boot.config
# chflags schg /boot.config

By default you will also have some binaries installed with schg flag set on your system:

# ls -lo /sbin | grep schg
-r-x------  1 bin   bin       schg 204800 Jul 19 20:38 init
# ls -lo /bin | grep schg
-r-sr-xr-x  1 root  bin       schg 192512 Jul 19 20:36 rcp

But back to locking down your system. Since we are talking about system immutable flags, one might consider running "chflags schg" on the whole /sbin and /bin tree. This will make it harder for someone to backdoor your system with a "rootkit" (considering that you are also running with appropriate securelevel)

# chflags schg /bin/*
# chflags schg /sbin/*

Since /sbin can be moved out of the way and new /sbin can be created, it also makes sence to chflags both /sbin and /bin if you did the above:

# chflags schg /bin ; chflags schg /sbin

Doing a lot of changes to file flags is bound to and will in turn cause problems with "make world". It is best to do "make world" in single user mode anyway. For more information on "make world" and reasons why see:

At this point you should have your system reasonably locked down with very few services running, filesystems mounted the way they should and with appropriate kernel securelevel. Man pages related to the above topics: init(8), chflags(1), sysctl(8)

System logging via syslog

Logging is very important. It might provide you with clues that you are under attack, that attempts to break in have been made or that your system has been broken into. Standard Unix logging is done through syslog daemon, syslogd(8). This daemon is started upon boot up from /etc/rc and then keeps on running until you shut down your system. To make sure that syslogd is running on your system, do:

% ps -axu | grep syslogd

Syslog daemon reads configuration from /etc/syslog.conf file when it starts. This file is very important as it tells syslog what to log and where. You will probably want to read man pages for both syslogd and syslog.conf:

% man syslogd syslog.conf

Since Unix is designed around networking, syslog daemon can and will by default accept syslog datagrams from other systems. It in turn can itself send datagrams to other computers on the network also. And of course it can log everything locally - which is the default. Since syslog daemon uses UDP - datagrams can be forged very easy - much easier then TCP. One thing you can do is to tell your syslog daemon NOT to listen to syslog messages from other systems by running your syslog daemon in secure mode. To do so, add "-s" switch in your /etc/rc.conf file.

If you need your system to accept syslog datagrams from another devices (such as your router, our your web server), use "-a" switch to allow specific hosts, domains or subnets. Next time you reboot your system, syslogd will be running with "-s" switch and when someone will send datagrams to your syslogd over the network you will see the following in your logs:

Jul 21 10:52:35 nfr syslogd: discarded 1 unwanted packets in secure mode
Jul 21 10:52:35 nfr syslogd: discarded 2 unwanted packets in secure mode
Jul 21 10:52:35 nfr syslogd: discarded 4 unwanted packets in secure mode

If you don't want to reboot your system, simply kill -9 your syslog daemon and start it as root with "-s" switch. This is all nice and fine if all the attacks against your system fail and your syslog files are left uncompromised. But what if you actually were broken into and an attacker erased your /var/log directory? There are many ways to prevent this. One way is to set up a machine on your network which will do syslog logging for your whole network and NOTHING else. It will have no ports open except for UDP port 514 (syslogd). This way you can have all of your systems (routers, firewalls, server, workstation) send critical (or whichever you chose) information to this one machine. This can be an old 486 computer with a lot of disk space. Make sure to give correct options to the "-a" switch if you dedicate a system for syslogd. You can also connect an old line printer to your system and have syslog send certain information to the printer (failed logins, etc). If it is on the paper, it will be very hard for an attacker to erase the logs (unless she is works in the same place). Other options includes sending all your syslogd messages to another computer connected with a serial (cuaaN) or parallel (lpN) port cable.

Everyone will have different needs as to what they want to log. However, one thing I usually do is add to the /etc/syslog.conf the following line:

auth.*,authpriv.*				/var/log/authlog

FreeBSD comes with something called newsyslog. This program will rotate your logs for you so they don't grow big or take all your hard drive. The configuration file is /etc/newsyslog.conf - please take a look at the man page for more information:

% man newsyslog 

Unlike syslogd, newsyslog is not always running on your system, but instead is started from crontab ever so often:

% grep newsyslog /etc/crontab
0       *       *       *       *       root    /usr/sbin/newsyslog

You should modify /etc/newsyslog.conf to your needs. I usually change the default mode of 664 for some files to 640 - the reason is that there is no reasons for users to read your logs. You should also probably (as root) do the following:

# cd /var/log
# chmod g-w,o-r * ; chmod a+r wtmp

This will prevent your users from reading the log files, unless they are in the appropriate group (such as wheel or something else). You should probably make all your log files owned by group wheel -- this purely for convenience: if you are in group wheel, most likely you can su(1) to root and read log files anyway - this way you just don't have to su(1) one extra time. You will also have to add "root.wheel" to your /etc/newsyslog.conf file:

/var/log/maillog        root.wheel      640  7     100  *     Z
/var/log/authlog        root.wheel      640  7     100  *     Z
/var/log/messages       root.wheel      640  7     100  *     Z

This will rotate files when they reach size of 100K, gzip them, rotate old files, chmod to 640 and chown to root.wheel - exactly what we want.

There are a also a few alternatives to the standard Unix syslog:

To go with any of the above (standard syslog, ssyslog or nsyslog) one should probably also take a look at some utilities which will analyze log files for you, saving you the trouble of running grep yourself.

Miscellaneous hints and tips


One might want to disable use of LKM's on a production system. Why? See: Phrack Magazine Volume 7, Issue 51 September 01, 1997, article 09
To disable LKMs, add the following line to your kernel configuration file:

options	NO_LKM


By default FreeBSD comes with portmapper enabled. If you don't have a need for it: disable it. You will not have a need for portmap daemon if you are not using any programs which require RPC. To disable the portmap, edit /etc/rc.conf and replace:

portmap_enable="YES"             # Run the portmapper service (or NO).
portmap_enable="NO"             # Run the portmapper service (or NO).


By default FreeBSD ships with sendmail enabled. In the past sendmail was known for weak security. Lately people working on sendmail did a great job in cleaning up the code, but due to the size of sendmail's source it is no an easy thing to do. In other words: turn off sendmail also if you don't need it. If you do need to use sendmail, check with for patches and different hacks. Also, if you are running sendmail 8.8 please make sure that spammers can not use your system to relay spam. See for more information on anti-spam. To turn off sendmail in FreeBSD simply edit /etc/rc.conf (yes, again) and change:

sendmail_enable="YES"   # Run the sendmail daemon (or NO).
sendmail_enable="NO"   # Run the sendmail daemon (or NO).

Ports and Packages

It is best not to use ports or packages when building a secure system. You don't really know which ports or packages will install suid-root binaries on your system - and you don't want more then what you have already, trust me. Even though you can give different switches to the pkg_add command (such as "-v" or "-n"), it is best to download the software in source code form and compile it yourself.

Filesystem quota

If you are running a "shell" server, you might want to consider using quotas on the user filesystem (such as /usr/home for example). This can protect you from Denial of Service attack (accidental or not) of a random user filling up the whole filesystem. To enable quotas, modify the line in /etc/rc.conf from:

check_quotas="NO"       # Check quotas (or NO).
check_quotas="YES"       # Check quotas (or NO).

Please also take a look at the following man pages for more information and examples of how to use quotas: quotaon, edquota, repquota, quota
Make sure to add "userquota" to your /etc/fstab: man 5 fstab


If you are using /etc/crontab to run jobs which can give someone extra information about your system, make sure to:

# chmod 640 /etc/crontab


BPF stands for berkeley packet filter and is required to be in the kernel if you want to perform network sniffing. Programs such as tcpdump or NFR use BPF all the time. However, program which sniff the network from BSD systems also use BPF. If someone does manage to get root on your system, having BPF in the kernel will make sniffing of your network much easier for them. Don't compile BPF into the kernel if you won't have a need for it. By default FreeBSD's kernel does not support BPF.

Updating OS via CVSup, CVS, etc.

If you installed your system from a CD-Rom, chances are that by the time the code was frozen to the time you got your CD in the mail, some bugs were discovered. Most likely (or so we all hope), they were not security bugs. Yet, I would recommend upgrading your system to the latest -current (or -stable: whichever one you follow) source. By doing this you will know that you are running up-to-date OS. For more info see: Don't forget to read ERRATA file for your release.
A very good documentation on how to "make world" after you got the latest source can be found at:


I can't stress enough how important it is to use SSH instead of telnet, ftp, rlogin, rsh, etc. For people who are on slow speed lines (dial-up, 56K frame) ssh has -C option: [man page quote]

      -C     Requests compression of all data (including  stdin,
              stdout,  stderr,  and  data  for  forwarded X11 and
              TCP/IP connections).  The compression algorithm  is
              the  same used by gzip, and the "level" can be con-
              trolled by the CompressionLevel option (see below).
              Compression  is  desirable on modem lines and other
              slow connections, but will only slow down things on
              fast  networks.   The default value can be set on a
              host-by-host basis in the configuration files;  see
              the Compress option below.

This will "make your ssh connection faster" :) In other words, just use SSH. Please, PLEASE use ssh. If you won't, then no security will help you. SSH is also simply a must if you manage a server an via un-trusted networks (such as colocated server at an ISP, etc).

Related URLs:

FreeBSD Hardening Project:
FreeBSD ipfw Configuration Page:
FreeBSD Security advisories:
FreeBSD Security web page:
Security tools in FreeBSD:


I would like to thank the cast of many for help with this work. Your comments, support and feedback made it possible. Special thanks to Chris Peiffer for english grammar and spelling edits.

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