---[ Anonymizing UNIX Systems ]---
version 0.7
--------------------
* I. THE AUDIENCE
This text is for any human being out there who wishes to keep their data and
doings private from any snooping eye - monitoring network traffic and
stealing/accessing the computer including electronic forensics.
Hackers, phreakers, criminals, members of democracy parties in totalitarian
states, human rights workers, and people with high profiles might be
interested in this information.
It was especially written for novice hackers so they are not so easily
convicted when busted for their early curiosity.
Thanks to Solar Designer, Fyodor, typo, tick, pragmatic, mixter and
doc holiday for comments, critics and ideas.
Special thanks to rookie who had the original idea writing this paper
but through personal problems couldn't do it himself.
* II. GOAL
Our goal is to provide solutions to the following statements:
(1) The solution should be simple and easy
(2) All user data should be inaccessible by anyone except their owner
(3) Nobody should be able to reconstruct what is happening on the system
Maybe you see contradictions ;-)
* III. PREREQUISITES
It is important to state the prerequisites for this project:
- The system should be secure. No remote vulnerabilities (and hopefully
no local ones either)
- The system administator(s) must be trusted and willing to set this up
- The operating system to achieve this is a UNIX
Note that the solutions presented do not 100% fit internet servers.
However it's (nearly, bah ;-) perfect for enduser systems.
For the UNIX part, we show the solutions for Linux because it is the unix
most easily for beginners to get their hands on and administrate.
The Linux distribution we use is the SuSE Linux Distribution 6.0
Debian is better but more complicated for beginners. And I dislike
redhat for it's missing security.
You should know enough about unix (what is portmap, mount, rc2.d etc.)
before trying to understand this text. It's *not* a Linux-Howto!
* IV. USER DATA
*** 1. Sensitive user data
What is sensitive user data? Well *any* data from a user account.
This includes:
- utmp/wtmp/lastlog data (login times and duration plus login hosts)
- history files (what commands you typed in your session)
- your emails
- temporary files from applications like mailers, browsers etc.
- applications and their configuration
- your own data (documents, porn pics, confidental data)
- time stamps on your data (when were you accessing/editing which data)
- on multiuser systems: what users CURRENTLY are doing.. this includes
process listing, and network connections as well as utmp (which is
already covered by another category). -> make proc more restrictive.
We are trying to protect all this data.
Note that utmp/wtmp/lastlog data and mail (mqueue/mail/fax/lpd) is handled
in the SYSTEM DATA section.
Note that all user accounts can be seen from /etc/passwd ;-) So maybe you'd
like to add some/many fake accounts, together with homedirs and crypted
data ...
*** 2. Protecting /home directories
Most important for protecting user data is protecting the users' /home
directories.
Each home directory must be encrypted with a strong cypher so that even
with full physical access to the system the data can't be obtained.
Currently I know of only one software provididing a solution to our
requirements: CFS - the cryptographic filesystem.
There are also some other crypto solutions available : TCFS, SFS and the
loop filesystem with crypt support. They are faster but have got the
disadvantage that you'll have to recompile your kernel with patches from
these tools. So for the sake of easeness, I stick with CFS here.
(Pointers to all tools mentioned in this text can be found at the end)
To enable CFS we must put these six lines in a rc2.d script:
portmap
rpc.mountd -P 894 # mountd should bind to port 894
cfsd 895 # cfsd should bind to port 895
rm -rf /tmp/.tmp
mkdir -p -m 700 /tmp/.tmp
mount -o port=895,intr localhost:/tmp/.tmp /home
Additionaly we have to put this entry into /etc/exports:
/tmp/.tmp localhost
Okay. This starts the sunrpc with the mountdaemon which are necessary
for CFS to be started and used.
Now we need to get the following going: if a user logs on, the system
has to check if he's already logged in to decide whether to decrypt the users'
home directory. This sounds hard but is easy: the user's /home/user
directory doesn't exist (even if it would, because of mount command nine
lines above would make it nonexistent), so the user's HOME variable is
set to '/' the root directory. Then his login shell is started which
looks for it's start scripts. And that's were we put our hooks in.
We create (this example is for bash) the file /.profile with the following
contents:
cattach /crypt/$USER $USER || exit 0
export HOME=/home/$USER
cd $HOME
if test -f $HOME/.profile; then
. $HOME/.profile
fi
When a user logs on the first time, this script will be executed. The user
has to enter the password for his crypted homedir, and after this his
correct HOME variable is set and the normal login profile is read and done.
If a user doesn't know the passphrase for his crypted homedir, he is logged
out.
But how do we remove the decrypted homedir after the user logs out? This
script should be clever, because a user could be logged in several times at
once, and it should only be removed when the last loginshell exits.
Thank god, this is easy too, we create a /home/user/.bash_logout script:
# if the number of user's login shells are > 3 then this is the last.
shells=`ps xu | grep -- "$USER .* S .* -[^ ]*sh" | wc -l`
test $shells -lt 3 || exit 0
export HOME=/
cd /
cdetach $USER
Thats all. From now on, the users' homedirectories are safe.
Note that a user can't login now, start a background job which writes data
in his homedirectory and log out because his homedirectory would be removed.
The full .bash_logout script I provide in (see two lines below) checks for
a $HOME/.keep file and if present doesn't remove the homedir.
For network logins you should keep in mind that they should not be done via
rlogin, telnet, etc. because they send all traffic (including passwords) in
plaintext over the network. You should use a tool which encrypts the whole
traffic like SSLtelnet or SSH (for SSH you need to set "UseLogin yes" in
the /etc/sshd_config file).
You'll find all these scripts with error checking, user creating, stop
scripts and config files etc. in section IX. EXAMPLE CONFIGURATION
Note that we started daemons in the section which can be contacted from
remote. If you don't want this (because there are no external users who
need to mount their crypted user data on their own machine) you should
firewall these ports. Look in you manpages ("man ipchains" or "man ipfwadm").
*** 3. Traceable user activity
[Warning, this section shows first how to perform simple electronic forensics]
It is easy to see who logged on the system and what he did by the
timestamps. Even if all your data is crypted, by checking the last access
time (atime) of your files, someone may check when you logged in last time,
for what duration and if you were idleing or doing much stuff.
If the systems doesn't have many users, someone might even tell what you
did.
Example: The earliest access time for a crypted file in your homedir
can be seen by:
ls -altur /crypt/$USER | head -1 # shows the logout file
ls -altu /crypt/$USER | more # with some brain you'll find
# the login time
then you also have the duration of the session.
By checking the change/modification and access time of those crypted files
with their timestamps someone can see how hard you were working, and get
more conclusions (e.g. if many files nested in a three levels deep
directory where modified this is probably a browser - so you were surfing
the net).
This insight will now make it possible to check what commands were run:
Let's say the login time as 22 hours ago, so you run:
find / -type f -atime 0 -ls # shows the accessed files
find / -type f -mtime 0 -ls # shows the modified files
(this can be done with directories too)
Now check the output for the correct timeframe and analyze what you found.
e.g. the telnet client was accessed. So it's probable, the user used it
to connect to another system. I think you can imagine now what is possible.
To protect against this is also very easy:
Create the file /usr/local/bin/touch_them and make it executable with
the following contents:
find /crypt /tmp /etc /var/spool 2> /dev/null | xargs -n 250 touch
Then put the following line into /etc/crontab:
50 * * * * root /usr/local/bin/touch_them
finally you change the 4th row of all lines in /etc/fstab which have the
keyword "ext2" in their third (the filesystem type) row:
defaults (or anything else)
should become
defaults,noatime (the old value is kept, and noatime is appended)
example:
/dev/hda1 / ext2 defaults 1 1
becomes
/dev/hda1 / ext2 defaults,noatime 1 1
What did we achieve? The crontab entry with the small script updates the
atime, mtime and ctime to the current time every hour of special
directories - especially those which may hold user data.
The mount options we changed now prevent the update of the atime.
However, this needs a current 2.2.x kernel - it isn't implemented on the
2.0 kernel tree!
*** 4. Protecting /var/spool/* files
/var/spool/mail :
Now it gets tricky. How can we protect the new mail for a user from
spying eyes? It can't be sent directly to a user's homedir like qmail would
do because it's crypted. The easiest solution is to use pgp to encrypt
your outgoing emails and tell all your friends that they should also encrypt
all emails to you.
However, this is not satisfying. An attacker can still see who sent the user
the email. The only possibility to hide this is using anonymous remailer.
This is not a great solution, so this is an open point (see section X.2:
Additional thoughts)
/var/spool/{mqueue|fax|lpd} :
Well, all you can do is try to flush the queues when shutting down.
After that you have to decide if you delete the remaining files in a
secure way or leave it where it is. Or program a special script which does
something with the data (like taring the data and encrypting it with pgp,
doing the reverse when the system is rebooted)
You can also create a whole crypted /var partition, but that would require
someone at the console while booting the system - every time.
* V. SYSTEM DATA
*** 1. Sensitive system data
What is sensitive system data? *Anything* which gives conclusion on incoming
and outgoing data, configuration files, logs, reboots and shutdowns.
This includes:
- utmp/wtmp/lastlog data (boot, reboot, shutdown times + user times)
- ppp dialup script
- sendmail and tcp wrapper configurations
- proxy cache data (e.g. squid web/ftp proxy)
- syslog messages
- /var/spool/* data {mqueue|fax|lpd|mail}
- temporary files from daemons
- time stamps on data (when were what data accessed/edited)
How to prevent time stamp forensica, see section IV.3
How to protect /var/spool/* data, see section IV.4 for an incomplete
solution.
*** 2. Traceable system activity
(prevent of time stamp forensic is handled in section IV.3)
To trace system activity, you can easily check temporary files
of daemons and applications. Some of them write to /tmp, root
applications usually (should) write to /var/run.
We handle this together with section V.3: Logging.
All you have to do is this, and only *once* :
cd /var
mv run log
ln -s log/run run
this moves the /var/run directory to /var/log/run and sets a symlink in it's
former place so that applications still find their files.
*** 3. Logging - important and dangerous
Logging is important to trace problems like misconfigurations.
Logging is dangerous because an attacker can see important data in
the logfiles, like the user's login and logout time, if they executed
"su" or other commands etc.
We try to find a balance between this.
Our solution: Write all log data to one special directory.
This directory is a RAM disk so the data is lost after a system shutdown.
Ensure that syslogd [/etc/syslog.conf] and daemons (e.g. httpd [apache])
only write to our special logging directory or a system console.
/var/log should be used as our special logging directory.
Now we put the following commands into /sbin/init.d/boot.local:
umask 027
mke2fs -m0 /dev/ram0 1> /dev/null 2>&1
rm -rf /var/log/* 2> /dev/null
mount -t ext2 /dev/ram0 /var/log
chmod 751 /var/log
cd /var/log
mkdir -m 775 run
chgrp uucp run
for i in `grep /var/log /etc/syslog.conf|grep -v '^#'| \
awk '{print $2}'|sed 's/^-//'`
do > $i ; done
umask 007 # 002 might be used too.
for i in run/utmp wtmp lastlog
do > $i ; chgrp tty $i ; done
cd /
kill -HUP `pidof syslogd` 2> /dev/null
After your next reboot it behaves like described above.
Some of you will not like the idea of having no logs after a reboot.
This way you can't trace an intruder or guess from your logs what
crashed the machine. Either you can tar the files and pgp before
the shutdown is complete (but the data would be lost if a crash occurs),
or you might also use ssyslog or syslog-ng, special syslogs with crypting
capabilities, and write the data you really want to keep to (just an example)
/var/slog.
You can also create a whole crypted /var partition, but that would require
someone at the console while booting the system - every time.
*** 4. Protecting system configs
This is tricky. It is easy to achieve but for a price.
If we create an account with uid which has his homedir in /home
and is hence protected by our CFS configuration, you need to
be at the console at every reboot. This isn't practical for server systems
that need to be administrated and rebooted remotely.
This solution is only good for end-user pcs.
Just create an account with the uid 0 (e.g. with the login name "admin").
You can use the create_user script from section IX.
Put all your sensitive configuration files you want to protect into this
directory (ppp dialup scripts, sendmail.cf configs, squid configs
with their cache directory set to a subdir of "admin" etc.)
Now create a small shellscript which starts these daemons with a command
line option to use the config files in your "admin" homedir.
Your system is then secure from extracting the sensitive information
from the config files. But for a price. You have to log in after each
reboot as user "admin", enter your CFS passphrase and start the script.
*** 5. Computer Memory and sensitive /proc interfaces
For a real multiuser system on which the administrator want additionally
ensure the privacy of the user online, he has to hide the user process
information, a user would normally see when issuing a "who" or "ps"
command. To protect the user's process information, you can use
Solar Designer's secure-linux kernel patch. To protect the utmp/wtmp/lastlog
we ensure that these files are only readable by root and group tty,
hence a normal user can't access this data. (This is done in the boot.local
example script)
Now one problem is left. Even with normal RAM a well funded organisation
can get the contents after the system is powered off. With the modern
SDRAM it's even worse, where the data stays on the RAM permanently until
new data is written. For this, I introduced a small tool for the
secure_delete package 2.1, called "smem" which tries to clean the memory.
This one should be called on shutdown. It is done in the example
in section VI.4
* VI. DELETE(D) DATA AND SWAP
*** 1. How to delete files in a secure way<
When a file is deleted, only the inode data is freed, the contents of
the data is NOT wiped and can be gathered with tools like "dd" or the
tool manpipulate_data from THC.
Peter Gutmann wrote a paper with the name "Secure Deletion of Data from
Magnetic and Solid-State Memory" presented 1996 at the 6th Usenix Security
Symposium. This is the best civilian paper on how to wipe data in a way that
it is hard for even electronic microscopes to regain the data.
There are four tools out there which uses the techniques described there,
two called "wipe", one called "srm" from THC's secure_delete package and
"shred" which is part of the new fileutil package from GNU.
Ours is still the best from it's design, features and security, and it
has also all important and advanced commandline options and speed you need.
To use one of these tools for deletion just set an alias in /etc/profile:
alias rm=srm # or wipe or shred
or even better, move /bin/rm to /bin/rm.orig and copy the secure delete
program to /bin/rm. This ensures, that all data which is deleted via
rm is securely wiped.
If you can't install THC's secure_delete package or any other (for any
reason) you can also set the wipe flag from the ext2 filesystem on files
you wish to wipe before rm'ing them. It's nearly the same, but it's NOT
a secure wipe like mentioned above. It's set by:
chattr +s filename(s)
[Note that it is *still* possible for a well funded organisation to get your
data. Don't rely on this! See section VI.4 !]
*** 2. How to wipe free disk space
Most times applications like the editor in your mail program write a
temporary file. And you don't know about it - you weren't even asked :(
Because they don't wipe the data in a secure way, an attacker can
get all your private emails just because you didn't know. That's bad.
The solution: You use a wiper program which cleans all unused data
from the disk partitions.
The only one available is the one from THC's secure_delete package.
You could put "sfill" (that is what it is called) in you crontab so it is
run regulary but this might create problems when at this moment this space
is needed by an important application. At least when the system shuts down,
sfill should be called.
Put this in the "stop" part of a late rc2.d script:
sfill -llf /tmp 2> /dev/null
sfill -llf /var/spool 2> /dev/null
Note that it is a good idea to generate a new paritition for /tmp itself,
and putting a symlink from /usr/tmp and /var/tmp to /tmp. This way it is
easier to control and wipe.
Again, if you can't install the secure_delete package for any reason,
you can also use this solution (slower and not as secure):
dd if=/dev/zero of=/tmp/cleanup
sync
rm /tmp/cleanup
*** 3. How to handle swap data
Securely wiping files and free diskspace - well what's left?
Today, harddisk MB's are cheaper than RAM, thats why swap space is used to
expand the available RAM. This is in reality a file or partition on your
harddisk. And can have your sensitive data in it.
Again there is only one tool which helps you out here, "sswap" from THC's
secure_delete package ;-)
Put this line after the "swapoff" line in /sbin/init.d/halt:
sswap -l /dev/XXXX # the device for your swap, check /etc/fstab
*** 4. How to handle RAM
In section V.5 I wrote about sensitive information in your RAM, the fast
memory of your computer system. It can hold very sensitive information
like the email you wrote before pgp'ing it, passwords, anything.
To ensure, that the memory is cleaned, use the smem utility.
It should be called like this in the stop part of a late rc2.d script (as
already mentioned above), after the wiping the file of /tmp etc. and
then wiping the free memory:
smem -ll
*** 5. Temporary data - it is evil
After you have secured/anonymized/privatized your system so far everything's
ready - or did you forget something?
Remember what we told you in section VI.1, that temporary data is written
somewhere and sometimes you don't know. If you are unlucky, all we've done
here was useless. We have to ensure that there's no temporary data
left on the devices and that it can't be recovered either.
We already dealed with /var/log, /var/run and sent email (/var/spool/...),
and we wipe all free diskspace from our temporary disk locations.
Now we must wipe also the temporary data.
Put this line in the stop part of a late rc2.d script (before sfill
from VI.3):
( cd /tmp ; ls -A | xargs -n 250 srm -r ; )
Also a $USER/tmp directory should be created for all users under the CFS
/home protection and a TMPDIR variable set to this directory.
See section IX. for all these scripts ...
* VII. NETWORK CONNECTIONS
This is a very specialized area of this document. I write here a few ways
how someone can protect some of their data being transfered on the internet.
The basic prerequisites are as following:
You've got an external POP3 and SMTP (mail relayer) where you get and send
your email. When your go on irc, you also don't like your real hostname
being printed on the channels.
Your external mail server should be in another country, because if maybe
some official agencies think you're doing something illegal (and I'm sure
you won't) it's harder to get a search warrant. It's also harder because
companies or individuals that try to get your data would need to invest more
time, work and money to get it.
You can tunnel your SMTP and POP3 via ssh to the external mail server.
For POP3 this is easy, but for SMTP this is a bit harder.
Just as an example, irc traffic can be tunneled through this as well,
but dcc stuff won't work (one way doesn't work, the other would reveal
your ip address to the sender and the data is not encrypted on any part
of the internet)
Note that you can also use redirectors and proxies to accomplish further
redirecting for other protocols (www, irc, ftp proxies etc.)
Thats all. All mail traffic (and as you can see below, irc traffic too) is
being crypted between you and your mail/proxy server.
sendmail.cf (important parts):
DSsmtp:[127.0.0.1]
DjTHE_DOMAIN_NAME_OF_YOUR_EMAIL
DMTHE_DOMAIN_NAME_OF_YOUR_EMAIL
- Msmtp, P=[IPC], F=mDFMuX, S=11/31, R=21, E=\r\n, L=990,
+ Msmtp, P=[IPC], F=mDFMuXk, S=11/31, R=21, E=\r\n, L=990,
(add the "k" switch to the smtp option config line)
~user/.fetchmailrc:
poll localhost protocol POP3:
user USER_REMOTE with pass PASSWORD_REMOTE is USER_LOCAL here
mda "/usr/sbin/sendmail -oem USER_LOCAL"
(enter the corresponding USER_* and PASSWORD in here)
The ssh commandline which tunnels the traffic for POP3, SMTP and irc:
ssh -a -f -x -L 110:localhost:110 -L 6667:irc.server.com:6667 -L \
25:localhost:25 your_mail_server.com
That's all. I won't tell you more. Use your brain ;-)
* VIII. HIDING PRIVACY SETTINGS
*** 1. Mount is your friend
Take a look at the following commands:
# ls -l /home
total 3
drwxr-x--- 1 root root 1024 Mar 28 14:53 admin
drwxr-x--- 1 vh thc 1024 Mar 28 16:22 vh
drwxr-x--- 1 user users 1024 Mar 28 11:22 user
# mount -t ext2 /dev/hda11 /home # or a ramdisk, doesn't matter
# ls -l /home
total 0
# : whoops, where are the homedirs ?
# umount /home
# ls -al /home
total 3
drwxr-x--- 1 root root 1024 Mar 28 14:53 admin
drwxr-x--- 1 vh thc 1024 Mar 28 16:22 vh
drwxr-x--- 1 user users 1024 Mar 28 11:22 user
# : ah, yeah there they are again ...
This is a nice feature to hide your crypted data and binaries.
Just put your files into e.g. /usr/local/bin and /usr/local/crypt
and mount a decoy filesystem over /usr/local. If you then have got
a process started in your boot scripts which opens a file on the decoy
filesystem, the filesystem can't be unmounted until the process is killed.
This way, it's much harder for someone to detect your data!
*** 2. Removable Medias
An even better possibility is: put all your sensitive data on a removable
media. Put your media in, mount it, it run the startscript from it
to activate all the privacy stuff. This way you made it one step harder
for someone to get to know whats going on.
*** 3. ???
Any other ideas? Think about it! (and maybe send me your ideas ;-)
* IX. EXAMPLE CONFIGURATION AND SCRIPTS
Click here to download the
anonymous-unix-0.7.tar.gz tools!
* X. FINAL COMMENTS
*** 1. Where to get the tools mentioned in this text
- Crypto Filesystems
- Tools
- The example Linux Distribution
*** 2. Additional thoughts
The following problems are still present:
- If an attacker can gain access to the system without rebooting
and in time before data is wiped, unmounted, etc. these countermeasures
are worthless.
- If a really well funded organisation is trying to decrypt your
data via brute force/dictionary or good electronic microscopes
and technical staff with excellent knowhow, your wiping won't
help you very much.
- The solution for /var/spool/mail and /var/spool/mqueue etc. is far
away from being perfect. Remember this. Ideas welcome.
- The configuration of your system daemons can only be secured if
you are present at the console after a reboot. That's the price.
- It is not very hard to detect the privacy stuff done. This might
bring you in trouble in countries like China or Iran. Removable
medias might help, or try a crypto filesystem with stegano support.
Secure your system against unauthorized (from your point of view) access
and use strong passwords.
*** 3. Greetings (what would the world be without greets?)
What would the world be without love and greetings? ;-)
Greets to individuals (in alphabetic order):
Doc Holiday, Froody, Fyodor, plasmoid, pragmatic, rookie,
Solar Designer, Tick, Wilkins.
Greets to groups:
ADM, THC (of course ;-) and arF
Greets to channel members:
#bluebox, #hack, #hax, #!adm and #ccc
*** 4. How to contact me for updates or comments
Please send me any further ideas you've got to make this documentation
better! Did I wrote bad bad english in some part? Could I rephrase parts
to make it easier to understand? What is wrong? What's missing? van Hauser / THC - [The Hacker's Choice]
THC's Webpage -> http://r3wt.base.org
(or http://thc.pimmel.com or http://www.infowar.co.uk/thc)
Type Bits/KeyID Date User ID
pub 2048/CDD6A571 1998/04/27 van Hauser / THC <vh@reptile.rug.ac.be>
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