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* '''Alternative''': There is a new installation script. Just run: <tt>setup-cip-2fa</tt> on shellinit.
  +
* '''Alternative (Teil-) Anleitung''' von C. Damm [https://univz.uni-goettingen.de/qisserver/rds?state=verpublish&status=init&vmfile=no&moduleCall=webInfo&publishConfFile=webInfoPerson&publishSubDir=personal&keep=y&purge=y&personal.pid=8786] in deutscher Sprache: https://user.informatik.uni-goettingen.de/~damm/info1/aktuell/2FA.html
  +
* Please '''do log out when you have finished your work!'''
  +
  +
<!--
 
{| style="border: 1pt black dashed"
 
{| style="border: 1pt black dashed"
 
|-
 
|-
| [[Image:Diamond-caution.png]] || Beta Test. Please give feedback via '''<tt>feedback(ät)informatik.uni-goettingen.de</tt>'''<br />For problem reports: please include ''always'' information about your system, the exact date+time, your IP address, your user id, what you wanted to accomplish, what you did and what happened instead.<br />Currently most important topic: [[#2FA]]|| [[Image:Diamond-caution.png]]
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| [[Image:Diamond-caution.png]] || '''Beta Test!''' Please give feedback via '''<tt>feedback(ät)informatik.uni-goettingen.de</tt>'''<br /><small>For problem reports: please include ''always'' information about your system - ''at least'' the exact date+time, your IP address, your user id, what you ''wanted'' to accomplish, what you ''did'' and what happened ''instead''.<br />To remove this warning I need some ''positive'' feedback first...</small>|| [[Image:Diamond-caution.png]]
 
|-
 
|-
 
|}
 
|}
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-->
 
   
   
 
== Usage ==
 
== Usage ==
''Please read [[#2FA]] for initial contact.''
+
''Please read [[#2FA]] for initial setup.'' Then simply use SSH to login to this machine:
   
 
Simply use SSH to login to this machine:
 
 
<big>
 
<big>
~# ssh username@shell.stud.informatik.uni-goettingen.de
+
~$ '''ssh userid@shell.stud.informatik.uni-goettingen.de'''
####### shell.stud.informatik.uni-goettingen.de - login vm: shell5.cip.loc
 
 
...
 
...
  +
####### shell.stud.informatik.uni-goettingen.de - login vm: shell3.cip.loc
Password:
 
  +
...
Verification code:
 
  +
'''Verification code:'''
Welcome to Ubuntu 14.04.4 LTS (GNU/Linux 3.13.0-87-generic x86_64)
 
  +
'''Password:'''
username@shell5:~$
 
  +
Welcome to Ubuntu 16.04.2 LTS (GNU/Linux 4.4.0-72-generic x86_64)
  +
...
  +
userid@shell3:~$
 
</big>
 
</big>
   
  +
If you get a intentionally non-descriptive error message like
  +
~$ ssh userid@shell
  +
##
  +
/usr/local/sbin/fetch-secrets failed: exit code 12
  +
...you did not prepare the file <tt>.google_authenticator</tt> as required. Please check your setup.
   
   
  +
=== Verify Key Fingerprint ===
For '''Windows''': use [[PuTTY]] (simple) or [[Cygwin]] (more complex and powerful) or any other SSH-implementation.
 
  +
The first time you connect to ''any'' ssh-reachable resource via network '''you need to verify the fingerprint''' of the actually used key and ''only then accept it''.
   
  +
SHA256 Fingerprints:
  +
ECDSA L+FCMj2bm8x/BfR8AdaaLnqTmFD35D0EYNlFG7a2dt8
  +
ED25519 H4FLNG2aNYRZ3jxepIx5E0s0a2ZvtZbbmVLt56b+nK0
  +
RSA DpP5/EfbApVUwseVeQOVpAFvGiZIJmYmjUyC4Cnuatk
  +
  +
In notation for older clients which are using the no longer recommended hash function MD5:
  +
ECDSA 07:84:c9:e1:59:4f:03:75:69:b1:e4:d0:b4:1f:9a:cd
  +
ED25519 93:11:29:c4:a2:03:e1:2d:b1:82:05:74:dd:a5:3b:9a
  +
RSA de:db:6e:72:52:de:30:73:db:bb:6e:79:df:f9:2c:0d
  +
  +
* [[Shell/Fingerprints]] -- more details and an example on how it actually looks in a shell and on PuTTY on Windows
   
 
=== Target audience ===
 
=== Target audience ===
These machines are meant to be used by students. But ''of course'' they can be used by any staff members!
+
These machines are meant to be used by students. But ''of course'' they can be used by all staff members!
   
For first time users: the only requirement is to logon one single time using one of the (physical) pool computers in our building - this will make you a "known user" to our systems. Additionally you need to walk through [[#2FA]].
+
First time users: the only pre-condition is to logon one single time using one of the (physical) pool computers in our building - this will make you a "known user" to our systems. Only then you can (and must) walk through [[#2FA]]. (Alternatively: "ssh shellinit.informatik", see below.)
  +
  +
=== Windows ===
  +
For '''Windows''': use [[PuTTY]] (simple) or [[Cygwin]] (more complex and powerful) or any other SSH-implementation. [[Bash on Ubuntu on Windows]] works great too.
   
 
=== Load Balancing ===
 
=== Load Balancing ===
While this term is misleading on this specific installation (as it does simple "round-robin") the important point is that you'll get connected to ''any'' login machine. This will be the "next" machine one after another and probably ''not'' the same one as one session before. If you landed on an overcrowded system simply disconnect/reconnect to use another machine.
+
In fact this term is misleading on this specific installation as it simply does "round-robin", at least for now. The important point is that you'll get connected to ''any'' currently available login machine. This will be the "next" machine one after another and probably ''not'' the same one as one session before. If you landed on an overcrowded system simply disconnect/reconnect to use another machine.
 
<!--
 
<!--
 
=== Legacy <tt>login.stud</tt> ===
 
=== Legacy <tt>login.stud</tt> ===
 
Both <tt>login.stud.informatik.uni-goettingen.de</tt> and <tt>login.informatik.uni-goettingen.de</tt> (for staff only) are not affected by this new approach. These "old" machines will continue to work unmodified.
 
Both <tt>login.stud.informatik.uni-goettingen.de</tt> and <tt>login.informatik.uni-goettingen.de</tt> (for staff only) are not affected by this new approach. These "old" machines will continue to work unmodified.
 
-->
 
-->
  +
 
=== Timeout ===
 
=== Timeout ===
* The session Timeout is set to '''36 hours''' -- this is the HAproxy related Timeout regarding the TCP connection
+
* The session Timeout is set to '''3 hours''' -- this is the HAproxy related Timeout regarding an ''inactive'' connection
* [[Kerberos]]/[[OpenAFS]] have separate/shorter timeouts, usually 10 hours. Please check with <tt>klist</tt>. You need to run <tt>kinit && aklog</tt> when you're approaching timeout
+
* [[Kerberos]]/[[OpenAFS]] has separate timeouts, usually 10 hours. Please check with <tt>klist</tt>. You may run <tt>kinit && aklog</tt> if you're approaching timeout
   
 
<!--
 
<!--
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The goal - ''of course'' - is 24/7. Take a look at: http://shell.stud.informatik.uni-goettingen.de/ -- use <tt>ifi</tt>/<tt>ifi</tt> to login <small>("bots not welcome")</small>
 
The goal - ''of course'' - is 24/7. Take a look at: http://shell.stud.informatik.uni-goettingen.de/ -- use <tt>ifi</tt>/<tt>ifi</tt> to login <small>("bots not welcome")</small>
 
-->
 
-->
 
 
<!--
 
   
 
== Self defense of these servers ==
 
== Self defense of these servers ==
  +
Only relevant if your system fails to connect with errors like <tt>Server not reachable</tt>: [[Shell/Self Defense]]
''<small>There used to be some other mechanisms. The only one left currently is "Port knocking"</small>''
 
=== Rate Limiting ===
 
Usually we do utilize "<tt>fail2ban</tt>" to chase brute force attacks by bad guys trying to hack login credentials. For technical reasons this is not possible for this "<tt>haproxy</tt>" approach. The inconvenient workaround is:
 
   
  +
== 2FA ==
{| style="border: 1pt black dashed"
 
  +
''Two Factor Authentication'' -- '''required, not optional!'''
|-
 
| [[Image:Diamond-caution.png]] || We do limit the rate of ''new'' <tt>ssh</tt>- (<tt>tcp</tt>-) connections from any given source IP address to '''1 per minute'''. <br />This rate will get increased when "port knocking" is established.|| [[Image:Diamond-caution.png]]
 
|-
 
|}
 
   
  +
=== Concept ===
When you're going to login via ssh you usually have three tries to enter your password. Technically this is just ''one'' single connection! The next three tries come with the next connection, which is only possible after one minute. Trying to to log in too early gives just a generic error message:
 
  +
We use the well known <tt>google-authenticator</tt> to add a second factor as a requirement for (ssh-) logins. ''First'' you will get prompted for a "Verification code:". Then you'll get a second prompt asking for your normal password.
   
  +
The "Verification Code" changes every minute. This approach is called TOTP = '''T'''ime-based '''O'''ne '''T'''ime '''P'''assword.
~# ssh username@shell.stud.informatik.uni-goettingen.de
 
ssh_exchange_identification: read: Connection reset by peer
 
   
  +
<small>(Do not try to use "Counter based OTP". It might work first, but it will do so only for a short while! We are using ''copies'' of the secret file. State updates required by the incremental counter strategy are ''not'' written back. Authentication will fail after reaching the windows size.) </small>
This behavior should be fine for most users where each one has a different IP address than other people.
 
   
  +
The order of both inputs is relevant: if an attacker manages to crack the first element (being the TOTP) they has a benefit for some minutes only. If we would ask for the ''Password'' first then the benefit of cracking the first element gives advantages probably for a very long time.
If you are a group of students behind NAT this could be a problem. We need yet to find out if this might be a problem for students residential establishment in Göttingen.
 
   
  +
=== Port knocking ===
 
  +
You need to have a compatible [[#Generators|generator]] - usually implemented as a small application.
For security reasons a "port knocking daemon" got installed. It works like a secret knocking sequence at the door of a conspiracy meeting: only after you have successfully performed that secret sequence the door is opened ''for a moment''. In our technical context this means that the listening <tt>sshd</tt> is ''reachable'' '''for 300 seconds''' after knocking...
 
   
  +
Please note that often this approach is associated with a specific implementation: ''the'' [[Google Authenticator]]. This is misleading as there are other 100% compatible implementations. See also RFC 6238.
{| style="border: 1pt black dashed"
 
|-
 
| [[Image:Diamond-caution.png]] || Secret: 33778 &bull; 22999 &bull; 44333 || [[Image:Diamond-caution.png]]
 
|-
 
|}
 
   
  +
=== Initialization ===
{| style="border: 1pt black dashed"
 
  +
Before you can use this technology the first time you need to prepare your personal secret credentials. You do this by using a simple command line tool and answering some questions.
|-
 
| [[Image:Diamond-caution.png]] || This approach will get removed during the next days... || [[Image:Diamond-caution.png]]
 
|-
 
|}
 
   
  +
Of course you can not do this on these shellX-machines as you can not login successfully yet &mdash; this is the classic chicken-and-egg problem.
   
  +
You have two options to setup your account for 2FA:
Successfully triggering is possible using a variety of software tools:
 
  +
* using one of the physical pool computers
  +
* login using SSH to the server '''shellinit.informatik.uni-goettingen.de'''
  +
** You need to be in the network of the University e.g. Eduroam. From outside first establish a connection using VPN https://info.gwdg.de/docs/doku.php?id=en:services:network_services:vpn:start )
  +
** shellinit has a ''very'' limited instruction set. Only absolutely required commands are available
   
  +
(Your personal/private computer is probably ''not'' an option as you need access to your OpenAFS <tt>$HOME</tt>. If you ''do'' have access you might need to install the software by <tt>apt-get install libpam-google-authenticator</tt> which contains the required binary.)
* [[#Linux]]
 
* [[#Windows]]
 
* [[#Android]]
 
* [[#OS agnostic Web Browser]]
 
   
  +
As an alternative to the following process you can also run this command:
==== Linux ====
 
If you are using Linux and the package <tt>knockd</tt> is actually installed (which is not a requirement!) you can use this one-liner to log in:
 
~$ knock shell.stud.informatik.uni-goettingen.de 33778 22999 44333 && sleep 1; ssh username@shell.stud.informatik.uni-goettingen.de
 
   
  +
setup-cip-2fa
If this fails try a slower version:
 
~$ knock shell.stud.informatik.uni-goettingen.de 33778; knock shell.stud.informatik.uni-goettingen.de 22999; knock shell.stud.informatik.uni-goettingen.de 44333 && sleep 1; ssh username@shell.stud.informatik.uni-goettingen.de
 
   
  +
''The following instructions are copy-n-pastable as the commands are relative to anyones <tt>$HOME</tt>-folder. ''
   
  +
~$ '''google-authenticator'''
''Without'' having the package <tt>knockd</tt> installed: <tt>telnet</tt> to the rescue!
 
  +
Do you want authentication tokens to be time-based (y/n) '''y'''
~$ telnet shell.stud.informatik.uni-goettingen.de 33778
 
  +
... <small># For full output see [[Shell/2fa-example]]</small>
~$ telnet shell.stud.informatik.uni-goettingen.de 22999
 
~$ telnet shell.stud.informatik.uni-goettingen.de 44333
 
~$ ssh username@shell.stud.informatik.uni-goettingen.de
 
   
  +
=== Create dedicated sub-directory ===
   
  +
For '''new''' accounts the folder <tt>.ifi-login</tt> is created automatically on first login. If it actually exists already you can skip nearly this complete block and jump to ''the next section [[#Move_credential_file]] with the <tt>mv .google_authenticator</tt>-command''.
   
  +
A successful check:
[[Image:knockknock.png|343px|right]]
 
  +
~$ file .ifi-login
  +
.ifi-login: directory
  +
A missing folder gives:
  +
~$ file .ifi-login
  +
.ifi-loginx: cannot open `.ifi-login' (No such file or directory)
   
  +
----
==== Windows ====
 
* <tt>telnet</tt> is included in Windows also. But it is not ''installed'' by default. You need to activate it through "Windows-Features aktivieren oder deaktivieren"/"Add windows features" "Telnet-Client". You need Administrator privileges to do so, so this is not an option on foreign computers
 
* There are dedicated tools available for this purpose. This one is tested and found to work as expected: https://sourceforge.net/projects/knockknock/ <br />The zip-file contains a (surprisingly small) executable. It is usable without installation, so you do ''not'' need Admin privileges
 
* Use a web browser to tickle those ports
 
* <small><tt>telnet</tt> is included in Windows also, but unfortunately it seems not to work reliably. During reproducible tests the ''third'' knock did not reach the server while the first two were handled correctly</small>
 
&nbsp;<br />&nbsp;
 
   
  +
Due to some unusual behavior of [[OpenAFS]] regarding access rights (<small>they work ''only'' on directories, not on files</small>) we need to move that file into another, dedicated subdirectory. This man page explains the access rights mechanism and how to manipulate ''access-control-lists'':
==== Android ====
 
"Port Knocker" via [[F-Droid]]: It is recommended to integrate that repository by installing https://f-droid.org/FDroid.apk. A direct link to the relevant package is: https://f-droid.org/repo/com.xargsgrep.portknocker_8.apk
 
 
This tool allows an arbitrary application to launch automatically after knocking. Tested successfully with [[ConnectBot]].
 
 
 
==== OS agnostic Web Browser ====
 
 
Create a new folder for these bookmarks. Prepare three Bookmarks:
 
** http://shell.stud.informatik.uni-goettingen.de:33778
 
** http://shell.stud.informatik.uni-goettingen.de:22999
 
** http://shell.stud.informatik.uni-goettingen.de:44333
 
 
Of course you will end up running into a timeout as ''there is no webserver listening''. You do not have to wait for timeout; simply cancel loading...
 
 
You can "click" them one after another. Browsers like [[Firefox]] offer a context menu entry "Alle in Tabs öffnen"/"Open all bookmarks" which tries to do what it says. You need to close all three of them one by one though.
 
-->
 
 
== 2FA ==
 
''Two Factor Authentication''
 
 
=== Concept ===
 
We use the well known <tt>google-authenticator</tt> to add a second factor as a requirement for (ssh-) logins. First you will get prompted for your regular password. Then you'll get a second prompt asking for a "Verification Code". This code changes every minute.
 
 
The used approach is called TOTP = Time-based One Time Password. <small>(Just for reference: the wide spread alternative is "HOTP", Hash-base OTP. For this one you need a YubiKey or an RSA-Token.) </small>
 
 
You need to have a corresponding generator - usually implemented as a small application. See [[#Generators]]
 
 
Please note that often this approach is associated with a specific implementation: ''the'' [[Google Authenticator]]. This is misleading as there are other 100% compatible implementations. See also RFC 6238.
 
 
=== Initialization ===
 
Before you can use this technology the first time you need to prepare your personal secret credentials. You do this by using a tool with a surprising name and answering some questions:
 
 
~$ '''google-authenticator'''
 
Do you want authentication tokens to be time-based (y/n) y
 
... <small># For full output see [[Shell/2fa-example]]</small>
 
 
Due to some unusual behaviour of [[OpenAFS]] regarding access rights we need to move that file into a different, dedicated subdirectory. This man page explains the access rights mechanism and how to manipulate ''access-control-lists'':
 
 
~$ man fs_setacl
 
~$ man fs_setacl
   
First you need to create that directory. A special user with the name <tt>ifi-login</tt> needs to have read access to the files in that directory. To be able to reach into that directory he needs to "walk through" your home folder. The third line is required to make this possible by granting "l"="list" access rights to your <tt>$HOME</tt>:
+
First you need to create that directory. A special user with the name <tt>ifi-login</tt> needs to have read access to the files in the directory <tt>.ifi-login</tt> inside of your <tt>$HOME</tt>. To be able to reach into that directory they needs to "walk through" your home folder. The third line is required to make this possible by granting "l"="list" access rights to your <tt>$HOME</tt>:
 
~$ mkdir .ifi-login
 
~$ mkdir .ifi-login
 
~$ fs sa -dir .ifi-login -acl ifi-login read
 
~$ fs sa -dir .ifi-login -acl ifi-login read
 
~$ fs sa -dir . -acl ifi-login l
 
~$ fs sa -dir . -acl ifi-login l
  +
  +
Be aware that we are working with "dotfiles": both <tt>.ifi-login</tt> & <tt>.google_authenticator</tt> begin with a "." and are usually ''hidden'' from users eye. To see them use '''<tt>ls -a</tt>'''.
   
 
As usual access rights are inherited. For this reason there are more rights granted than required. You ''might'' remove them now by commands like
 
As usual access rights are inherited. For this reason there are more rights granted than required. You ''might'' remove them now by commands like
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username rlidwka
 
username rlidwka
 
username.system rl
 
username.system rl
  +
'''ifi-login rl''' '' # this is the important one (in this context) ''
ifi-login rl
 
   
WARNING: do not remove rights if you are not absolutely sure they are not needed. ''It is very easy to remove too many rights'', leaving you with a directory that is not usable anymore!
+
'''WARNING:''' do not remove rights if you are not absolutely sure they are not needed. ''It is very easy to remove too many rights'', leaving you with a directory that is not usable anymore!
  +
  +
=== Move credential file ===
   
 
Now move the created credential file into that new destination:
 
Now move the created credential file into that new destination:
 
~$ mv .google_authenticator .ifi-login/
 
~$ mv .google_authenticator .ifi-login/
   
Please remember to repeat this step if you modify your configuration!
+
Please remember to repeat this step if you modify/recreate your configuration!
   
=== Usage ===
+
=== Generators ===
  +
{| style="border: 1pt black dashed"
From another Linux system it looks like this (shortened):
 
  +
|-
  +
| [[Image:Diamond-caution.png]] || The '''system time''' is used equivalent to a shared secret! Make sure your clock is set correctly or all generated codes will fail.
  +
|-
  +
|}
   
  +
For all generators you need the secret created above. You can use any tool you want to look into the file <tt>.ifi-login/.google_authenticator</tt>. A one-liner which outputs ''only'' the "secret" is this:
~$ ssh username@shell4.cip.loc
 
  +
~$ head -n1 .ifi-login/.google_authenticator
...
 
  +
P2ZOMKQLEIC6SKCL
'''Password: '''
 
'''Verification code: '''
 
Welcome to Ubuntu 14.04.4 LTS (GNU/Linux 3.13.0-87-generic x86_64)
 
...
 
username@shell4:~$
 
   
  +
[[Image:winauth+putty.png|399px|right]]
=== Generators ===
 
   
 
* Android
 
* Android
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* Linux
 
* Linux
  +
** install <tt>oathtool</tt> to get some compatible command line utilities. Then this works:
** ...
 
  +
~$ oathtool --totp -b $(head -n1 .ifi-login/.google_authenticator)
  +
123456
   
 
* Ubuntu Touch
 
* Ubuntu Touch
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* Windows:
 
* Windows:
  +
** WinAuth: https://github.com/winauth/winauth -- This is an installation-free application, no setup and no administrative access needed.
** ...
 
  +
  +
* Windows Phone:
  +
** Token2: free application from Microsoft Store. The QR-Code seems to be incompatible, so you need to type in your secret manually. Nevertheless: ''it works''.
  +
   
 
* OS agnostic
 
* OS agnostic
 
** [[Chromium]] Browser: GAuth application
 
** [[Chromium]] Browser: GAuth application
  +
** https://5apps.com/gbraad/gauth -- direct use web-application (think twice!) & application for Chrome and Firefox
 
=== Error Messages ===
 
If the above preparation did not result in a valid setup ''and you've entered the'' correct ''password'' - you will get an error message like:
 
 
...
 
##
 
Password:
 
/usr/local/sbin/fetch-secrets failed: exit code 12
 
 
=== Problems, Todo ===
 
* Testing!
 
* how do scripts handle this?
 
* require 2FA only from outside the Institute
 
 
== Additionally... ==
 
If you have problems to login take a look at this page. These security aspects are definitely a work in progress and probably the final state is not reached yet...
 
   
 
== Tips 'n' Tricks ==
 
== Tips 'n' Tricks ==
   
=== Connect to a specific machine ===
+
=== Connecting to a specific machine ===
  +
<!--
Circumventing the Round-Robin mechanism is possible: connect to a specific port <tt>42000+''n''</tt> with <tt>''n''={1..6}</tt> :-)
 
  +
If you are trying to connect to the ''same machine as last time'' (for example to execute [[Long Running Processes]]) you need to connect from a ''semi-local source address'' which includes:
 
  +
* <tt>134.76.0.0/16</tt> - official Gönet address space
For machine number 4:
 
  +
* <tt>10.0.0.0/8</tt> - official gönet-wide routed RFC1918 address space
  +
* <tt>172.16.0.0/12</tt> - the Institute's local address space
  +
In this case -->Circumventing the Round-Robin mechanism is possible by connecting to a specific port <tt>42000+''n''</tt> with <tt>''n''={1..6}</tt>. The example connects to machine number 4:
 
 
 
~$ ssh -p 42004 username@shell.stud.informatik.uni-goettingen.de
 
~$ ssh -p 42004 username@shell.stud.informatik.uni-goettingen.de
  +
#######
  +
####### shell.stud.informatik.uni-goettingen.de - login vm: shell4.cip.loc
  +
  +
If you already have a shell ''inside the Institute'' this is much easier to achieve. This just works:
  +
~$ ssh user@shell4.cip.loc
 
#######
 
#######
 
####### shell.stud.informatik.uni-goettingen.de - login vm: shell4.cip.loc
 
####### shell.stud.informatik.uni-goettingen.de - login vm: shell4.cip.loc
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-->
 
-->
   
  +
=== Duplicate your Generators ===
  +
It is absolutely fine to have a well configured generator on every single device you own. Remember: without the second factor you can not login. That's the goal of this whole shebang after all.
  +
  +
=== Write down your Emergency codes ===
  +
Remember the console output during creation of the secret? "<tt>Your emergency scratch codes are:...</tt>". Write them down (or print them) and put that piece of paper into your pocket...
  +
  +
=== Credential problems ===
  +
* the actual password is '''not stored anywhere''' in Institute's systems
  +
** students: [[StudIT]] - https://wiki.student.uni-goettingen.de/support/account/passwort
  +
** staff: [[Gwdg]] - https://info.gwdg.de/faq/index.php?action=artikel&cat=52&id=215&artlang=de - Institute's Admins will help as we have some administrative access. While we can not tell you your password we can ''reset'' it
  +
  +
* problems with the Verification Code: simply start again with [[#Initialization]] and overwrite <tt>~/.ifi-login/.google_authenticator</tt>. You need to re-configure ''all'' of your [[#Generators]] of course
  +
  +
=== Feedback ===
  +
Please give feedback via '''<tt>feedback(ät)informatik.uni-goettingen.de</tt>'''. '''For problem reports:''' please include ''always'' information about your system:
  +
* the exact date+time, your IP address and your user id
  +
* the local Operating System and the used software you are using. (PuTTY? Which code generator?)
  +
* what you ''wanted'' to accomplish, what you actually ''did'' and what happened ''instead'' of the expected result. Try to supply a transscript of your session - this means input ''and'' output
  +
  +
=== Reset / fresh restart ===
  +
To ''delete'' old configuration is ''required'' only if those secrets are compromised, if a third person had access to it.
  +
  +
This is ''not'' necessary if you've lost your one and only generator. (Prepare more than one to avoid this scenario!)
  +
  +
To get access to the existing configuration you may use
  +
  +
ssh userid@shellinit.informatik.uni-goettingen.de
  +
  +
for this purpose. Note that this specific machine is reachable only from inside GÖNET.
  +
  +
* RESET
  +
If you actually want to ''reset'' your configuration simply execute the steps under [[Shell#Initialization]] again.
  +
  +
* ERASE your configuration
  +
You might delete the files <tt>~/.google_authenticator</tt> and all files in the folder <tt>~/.ifi-login/*</tt> to do so. Please note that instances of our Shell-machines might cache your old configuration files until they get rebootet.
   
 
== Todo ==
 
== Todo ==
  +
* <small>Nothing</small>
* Testing! -- the current state is considered "BETA". With the advent of [[#2FA]] --> back to "alpha"...
 
* make Status Information publicly available
+
<!-- * make Status Information publicly available? -- ''probably not'' -->
  +
<!-- * possibly require 2FA only from outside the Institute? -- ''Not decided yet'' -->
   
 
== See also ==
 
== See also ==
  +
* [[Shell/Fingerprints]] -- more details and an example on how it actually looks in a shell and on PuTTY on Windows
  +
* [[Shell/2fa-example]] -- initialization sequence
  +
* [[Shell/Self Defense]]
  +
* [[2FA/Multiple]] -- use multiple identities
 
* [[Remote Access]]
 
* [[Remote Access]]
* [[Long Running Processes]]
+
* [[Long Running Processes]] -- leave processes running
  +
* [[SSH Key]] -- usage ''not'' possible
 
   
 
== Links ==
 
== Links ==
  +
* https://user.informatik.uni-goettingen.de/~damm/info1/aktuell/2FA.html -- '''Alternative (Teil-) Anleitung''' von C. Damm[https://univz.uni-goettingen.de/qisserver/rds?state=verpublish&status=init&vmfile=no&moduleCall=webInfo&publishConfFile=webInfoPerson&publishSubDir=personal&keep=y&purge=y&personal.pid=8786] in deutscher Sprache
 
* https://tools.ietf.org/html/rfc6238
 
* https://tools.ietf.org/html/rfc6238
 
* https://github.com/google/google-authenticator
 
* https://github.com/google/google-authenticator

Aktuelle Version vom 11. Oktober 2023, 22:29 Uhr


Usage

Please read #2FA for initial setup. Then simply use SSH to login to this machine:

~$ ssh userid@shell.stud.informatik.uni-goettingen.de
...
#######  shell.stud.informatik.uni-goettingen.de - login vm: shell3.cip.loc
...
Verification code:  
Password: 
Welcome to Ubuntu 16.04.2 LTS (GNU/Linux 4.4.0-72-generic x86_64)
...
userid@shell3:~$ 

If you get a intentionally non-descriptive error message like

~$ ssh  userid@shell
##
/usr/local/sbin/fetch-secrets failed: exit code 12

...you did not prepare the file .google_authenticator as required. Please check your setup.


Verify Key Fingerprint

The first time you connect to any ssh-reachable resource via network you need to verify the fingerprint of the actually used key and only then accept it.

SHA256 Fingerprints:

ECDSA   L+FCMj2bm8x/BfR8AdaaLnqTmFD35D0EYNlFG7a2dt8
ED25519 H4FLNG2aNYRZ3jxepIx5E0s0a2ZvtZbbmVLt56b+nK0
RSA     DpP5/EfbApVUwseVeQOVpAFvGiZIJmYmjUyC4Cnuatk 

In notation for older clients which are using the no longer recommended hash function MD5:

ECDSA   07:84:c9:e1:59:4f:03:75:69:b1:e4:d0:b4:1f:9a:cd
ED25519 93:11:29:c4:a2:03:e1:2d:b1:82:05:74:dd:a5:3b:9a 
RSA     de:db:6e:72:52:de:30:73:db:bb:6e:79:df:f9:2c:0d
 
  • Shell/Fingerprints -- more details and an example on how it actually looks in a shell and on PuTTY on Windows

Target audience

These machines are meant to be used by students. But of course they can be used by all staff members!

First time users: the only pre-condition is to logon one single time using one of the (physical) pool computers in our building - this will make you a "known user" to our systems. Only then you can (and must) walk through #2FA. (Alternatively: "ssh shellinit.informatik", see below.)

Windows

For Windows: use PuTTY (simple) or Cygwin (more complex and powerful) or any other SSH-implementation. Bash on Ubuntu on Windows works great too.

Load Balancing

In fact this term is misleading on this specific installation as it simply does "round-robin", at least for now. The important point is that you'll get connected to any currently available login machine. This will be the "next" machine one after another and probably not the same one as one session before. If you landed on an overcrowded system simply disconnect/reconnect to use another machine.

Timeout

  • The session Timeout is set to 3 hours -- this is the HAproxy related Timeout regarding an inactive connection
  • Kerberos/OpenAFS has separate timeouts, usually 10 hours. Please check with klist. You may run kinit && aklog if you're approaching timeout


Self defense of these servers

Only relevant if your system fails to connect with errors like Server not reachable: Shell/Self Defense

2FA

Two Factor Authentication -- required, not optional!

Concept

We use the well known google-authenticator to add a second factor as a requirement for (ssh-) logins. First you will get prompted for a "Verification code:". Then you'll get a second prompt asking for your normal password.

The "Verification Code" changes every minute. This approach is called TOTP = Time-based One Time Password.

(Do not try to use "Counter based OTP". It might work first, but it will do so only for a short while! We are using copies of the secret file. State updates required by the incremental counter strategy are not written back. Authentication will fail after reaching the windows size.)

The order of both inputs is relevant: if an attacker manages to crack the first element (being the TOTP) they has a benefit for some minutes only. If we would ask for the Password first then the benefit of cracking the first element gives advantages probably for a very long time.


You need to have a compatible generator - usually implemented as a small application.

Please note that often this approach is associated with a specific implementation: the Google Authenticator. This is misleading as there are other 100% compatible implementations. See also RFC 6238.

Initialization

Before you can use this technology the first time you need to prepare your personal secret credentials. You do this by using a simple command line tool and answering some questions.

Of course you can not do this on these shellX-machines as you can not login successfully yet — this is the classic chicken-and-egg problem.

You have two options to setup your account for 2FA:

  • using one of the physical pool computers
  • login using SSH to the server shellinit.informatik.uni-goettingen.de

(Your personal/private computer is probably not an option as you need access to your OpenAFS $HOME. If you do have access you might need to install the software by apt-get install libpam-google-authenticator which contains the required binary.)

As an alternative to the following process you can also run this command:

setup-cip-2fa

The following instructions are copy-n-pastable as the commands are relative to anyones $HOME-folder.

~$ google-authenticator      
Do you want authentication tokens to be time-based (y/n) y
... # For full output see Shell/2fa-example

Create dedicated sub-directory

For new accounts the folder .ifi-login is created automatically on first login. If it actually exists already you can skip nearly this complete block and jump to the next section #Move_credential_file with the mv .google_authenticator-command.

A successful check:

~$ file .ifi-login
.ifi-login: directory

A missing folder gives:

~$ file .ifi-login
.ifi-loginx: cannot open `.ifi-login' (No such file or directory)

Due to some unusual behavior of OpenAFS regarding access rights (they work only on directories, not on files) we need to move that file into another, dedicated subdirectory. This man page explains the access rights mechanism and how to manipulate access-control-lists:

~$ man fs_setacl

First you need to create that directory. A special user with the name ifi-login needs to have read access to the files in the directory .ifi-login inside of your $HOME. To be able to reach into that directory they needs to "walk through" your home folder. The third line is required to make this possible by granting "l"="list" access rights to your $HOME:

~$ mkdir .ifi-login     
~$ fs sa -dir .ifi-login -acl ifi-login read 
~$ fs sa -dir . -acl ifi-login l

Be aware that we are working with "dotfiles": both .ifi-login & .google_authenticator begin with a "." and are usually hidden from users eye. To see them use ls -a.

As usual access rights are inherited. For this reason there are more rights granted than required. You might remove them now by commands like

~$ fs sa -dir .ifi-login -acl mta none
~$ fs sa -dir .ifi-login -acl spamassassin none
~$ fs sa -dir .ifi-login -acl web-home none

You can always check the current settings. At the end it may look like this:

~$ fs la .ifi-login
Access list for .ifi-login is
Normal rights:
 system:administrators rlidwka
 username rlidwka
 username.system rl
 ifi-login rl    # this is the important one (in this context) 

WARNING: do not remove rights if you are not absolutely sure they are not needed. It is very easy to remove too many rights, leaving you with a directory that is not usable anymore!

Move credential file

Now move the created credential file into that new destination:

~$ mv .google_authenticator .ifi-login/

Please remember to repeat this step if you modify/recreate your configuration!

Generators

Diamond-caution.png The system time is used equivalent to a shared secret! Make sure your clock is set correctly or all generated codes will fail.

For all generators you need the secret created above. You can use any tool you want to look into the file .ifi-login/.google_authenticator. A one-liner which outputs only the "secret" is this:

~$ head -n1 .ifi-login/.google_authenticator 
P2ZOMKQLEIC6SKCL
Winauth+putty.png
  • Linux
    • install oathtool to get some compatible command line utilities. Then this works:
~$ oathtool --totp -b $(head -n1 .ifi-login/.google_authenticator)
123456
  • Ubuntu Touch
    • Authenticator
  • Windows Phone:
    • Token2: free application from Microsoft Store. The QR-Code seems to be incompatible, so you need to type in your secret manually. Nevertheless: it works.


Tips 'n' Tricks

Connecting to a specific machine

Circumventing the Round-Robin mechanism is possible by connecting to a specific port 42000+n with n={1..6}. The example connects to machine number 4:

~$ ssh -p 42004 username@shell.stud.informatik.uni-goettingen.de
#######
#######  shell.stud.informatik.uni-goettingen.de - login vm: shell4.cip.loc

If you already have a shell inside the Institute this is much easier to achieve. This just works:

~$ ssh user@shell4.cip.loc 
#######
#######  shell.stud.informatik.uni-goettingen.de - login vm: shell4.cip.loc


Duplicate your Generators

It is absolutely fine to have a well configured generator on every single device you own. Remember: without the second factor you can not login. That's the goal of this whole shebang after all.

Write down your Emergency codes

Remember the console output during creation of the secret? "Your emergency scratch codes are:...". Write them down (or print them) and put that piece of paper into your pocket...

Credential problems

  • problems with the Verification Code: simply start again with #Initialization and overwrite ~/.ifi-login/.google_authenticator. You need to re-configure all of your #Generators of course

Feedback

Please give feedback via feedback(ät)informatik.uni-goettingen.de. For problem reports: please include always information about your system:

  • the exact date+time, your IP address and your user id
  • the local Operating System and the used software you are using. (PuTTY? Which code generator?)
  • what you wanted to accomplish, what you actually did and what happened instead of the expected result. Try to supply a transscript of your session - this means input and output

Reset / fresh restart

To delete old configuration is required only if those secrets are compromised, if a third person had access to it.

This is not necessary if you've lost your one and only generator. (Prepare more than one to avoid this scenario!)

To get access to the existing configuration you may use

	ssh  userid@shellinit.informatik.uni-goettingen.de 

for this purpose. Note that this specific machine is reachable only from inside GÖNET.

  • RESET

If you actually want to reset your configuration simply execute the steps under Shell#Initialization again.

  • ERASE your configuration

You might delete the files ~/.google_authenticator and all files in the folder ~/.ifi-login/* to do so. Please note that instances of our Shell-machines might cache your old configuration files until they get rebootet.

Todo

  • Nothing

See also

Links