Difference between revisions of "Active Directory Integration"

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<p> Let's assume that your AD is named example.com. Let's further assume your AD is ruled by two domain controllers, the primary and secondary one, which are named PDC and BDC, pdc.example.com and bdc.example.com respectively. Their IP adresses will be and in this example.  Take care to watch your syntax; upper-case is very important here.</p>
<p> Let's assume that your AD is named example.com. Let's further assume your AD is ruled by two domain controllers, the primary and secondary one, which are named PDC and BDC, pdc.example.com and bdc.example.com respectively. Their IP adresses will be and in this example.  Take care to watch your syntax; upper-case is very important here.</p>
==== /etc/krb5.conf ====
==== /etc/krb5.conf ====
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kdc = FILE:/var/log/kdc.log  
kdc = FILE:/var/log/kdc.log  

Revision as of 03:14, 6 February 2012

This guide explains how to include ArchLinux into an existing Windows Active Directory.



A key challenge for system administrators of any datacenter is trying to coexisting in Heterogeneous environments. By this we mean the mixing of different server operating system technologies (typicall Microsoft Windows & Unix/Linux). User management and authentication is by far the most difficult of these to solve. The most common way of solving this problem is to use a Directory Server. There are a number of open-source and commercial solutions for the various flavors of *NIX; however, few solve the problem of interoperating with Windows. Active Directory (AD) is a directory service created by Microsoft for Windows domain networks. It is included in most Windows Server operating systems. Server computers on which Active Directory is running are called domain controllers.

Active Directory serves as a central location for network administration and security. It is responsible for authenticating and authorizing all users and computers within a network of Windows domain type, assigning and enforcing security policies for all computers in a network and installing or updating software on network computers. For example, when a user logs into a computer that is part of a Windows domain, it is Active Directory that verifies his or her password and specifies whether he or she is a system administrator or normal user.[1]

Active Directory uses Lightweight Directory Access Protocol (LDAP) versions 2 and 3, Kerberos and DNS. These same standards are available as linux, but piecing them together is not an easy task. Following these steps will help you configure an ArchLinux host to authenticate against an AD domain.

Before continuing, you must have an existing Active Directory domain, and have a user with the appropriate rights within the domain to: query users and add computer accounts (Domain Join).

AD Basic Terminology

If you are not familiar with Active Directory, there are a few keywords that must be understood. * This document is not an inclusive guide, refer to the resources section for additional information.

  • Domain : The name used to group computers and accounts.
  • SID : Each computer that joins the domain as a member must have a unique SID or System Identifier.

Active Directory Configuration

NOTE: This section has not been validated. Proceed with caution

Updating the GPO

NOTE: These steps has not been validated. Proceed with caution

It may be necessary to disable Digital Sign Communication (Always) in the AD group policies. Dive into:

Local policies -> Security policies -> Microsoft Network Server -> Digital sign communication (Always) -> activate "define this policy" and use the disable radio button

If you use Windows Server 2008 R2, you need to modify that in GPO for Default Domain Controller Policy -> Computer Setting -> Policies -> Windows Setting -> Security Setting -> Local Policies -> Security Option -> Microsoft network client: Digitally sign communications (always)

Linux Host Configuration

The next few steps will begin the process of configuring the Host. You will need root or sudo access to complete these steps.

Arch Linux Packages

The following packages should also be installed:

  • samba
  • krb-5
  • pam-krb5
  • pam_pwcheck
  • openntpd (or) ntp
pacman -S samba pam-krb5 pam_pwcheck openntpd

Updating DNS

Active Directory is heavily dependent upon DNS. You will need to update /etc/resolv.conf to use one or more of the Active Directory domain controllers:

nameserver <IP1>
nameserver <IP2>

Replacing <IP1> and <IP2> with valid IP addresses for the AD servers. If your AD domains do not permit DNS forwarding or recursion, you may need to add additional resolvers.

Important: If your machine dual boots Windows and Linux, you should use a different DNS hostname and netbios name for the linux configuration if both operating systems will be members of the same domain.

Configuring NTP

In this example, we use OpenNTPD instead of ISC NTP. You may choose either package, but openntpd is cleaner and easier to configure.


Ensure the daemon is configured to 'sync' automatically on startup by adding the '-s' paramater to the config:



servers <IP1>
servers <IP2>

Replacing <IP1> and <IP2> with valid IP addresses for the AD servers. Alternatively, you can use other known NTP servers provided the Active directory servers sync to the same stratum. However, AD servers typically run NTP as a service.


Next, add 'openntpd' to the list of startup daemons in the ArchLinux configuration file:

DAEMONS=(!hwclock syslog-ng dbus network openntpd crond sshd)
  • Note we place it AFTER 'network' and BEFORE 'crond'

Start openntpd

Start the NTP daemon to sync the time now.

rc.d start openntpd


Let's assume that your AD is named example.com. Let's further assume your AD is ruled by two domain controllers, the primary and secondary one, which are named PDC and BDC, pdc.example.com and bdc.example.com respectively. Their IP adresses will be and in this example. Take care to watch your syntax; upper-case is very important here.


          1. /etc/krb5.conf ####


       default_realm 	= 	EXAMPLE.COM

clockskew = 300 ticket_lifetime = 1d

[realms] EXAMPLE.COM = { kdc = kdc = default_domain = EXAMPLE.COM }

[domain_realm] .example.com = EXAMPLE.COM example.com = EXAMPLE.COM example = EXAMPLE.COM

[appdefaults] pam = { ticket_lifetime = 1d renew_lifetime = 1d forwardable = true proxiable = false retain_after_close = false minimum_uid = 0 debug = false }

[logging] default = SYSLOG:NOTICE:DAEMON kdc = FILE:/var/log/kdc.log


Heimdal 1.3.1 deprecated DES encryption which is required for AD authentication before Windows Server 2008. You'll probably have to add
allow_weak_crypto = true
to the [libdefaults] section.

Creating a Kerberos Ticket =

Now you can query the AD domain controllers and request a kerberos ticket (uppercase is necessary):


Validating the Ticket

Run 'klist' to verify you did receive the token. You should see something similar to:

# klist
Ticket cache: FILE:/tmp/krb5cc_0
Default principal: administrator@EXAMPLE.COM

Valid starting    Expires           Service principal 
02/04/12 21:27:47 02/05/12 07:27:42 krbtgt/EXAMPLE.COM@EXAMPLE.COM
        renew until 02/05/12 21:27:47


Samba is a free software re-implementation of the SMB/CIFS networking protocol. It also includes tools for Linux machines to act as Windows networking servers and clients.


NOTE: The configuration can vary greatly depending on how the Windows environment is deployed. Be prepared to troubleshoot and research.

In this section, we will focus on getting Authentication to work first by editing the 'Global' section first. Later, we will go back and add shares.

  netbios name = MYARCHLINUX
  workgroup = EXAMPLE
  realm = EXAMPLE.COM
  server string = %h ArchLinux Host
  security = ads
  encrypt passwords = yes
  password server = pdc.example.com
  idmapd uid = 10000-20000
  idmapd gid = 10000-20000
  #idmapd backend = rid

  winbind use default domain = Yes
  winbind enum users = Yes
  winbind enum groups = Yes
  winbind nested groups = Yes
  winbind separator = +
  winbind refresh tickets = yes
  winbind gid = 10000-20000

  template shell = /bin/bash
  template homedir = /home/%D/%U
  preferred master = no
  dns proxy = no
  wins server = pdc.example.com
  wins proxy = no

  inherit acls = Yes
  map acl inherit = Yes
  acl group control = yes

  load printers = no
  debug level = 3
  use sendfile = no

We shall now explain to Samba that it shall use the PDC´s database for authentication queries. Again, we use winbindd which is a part of the samba package. Winbind maps the UID and GID of the AD to our Linux-machine. Winbind uses a Unix-implementation of RPC-calls, Pluggable Authentication Modules (aka PAM) and Name Service Switch (NSS) to allow Windows AD and users accessing and to grant permissions on the Linux-machine. The best part of winbindd is, that you don´t have to define the mapping yourself, but only define a range of UID and GID. That´s what we defined in smb.conf.


Update the samba initscript configuration file to enable the winbind daemon

##### /etc/conf.d/samba #####
#SAMBA_DAEMONS=(smbd nmbd)
SAMBA_DAEMONS=(smbd nmbd winbindd)


Next, add 'samba' to the list of startup daemons in the ArchLinux configuration file:

The daemons started by /etc/rc.d/samba are configured in the file /etc/conf.d/samba. * NOTE: Your actual list may vary.

DAEMONS=(hwclock syslog-ng dbus network openntpd crond sshd samba)


NSSwitch tells the Linux host how to retrieve information from various sources and in which order to do so. In this case, we are appending Active Directory as additional sources for Users, Groups, and Hosts.

passwd:            files winbind
shadow:            files winbind
group:             files winbind 

hosts:             files dns wins

Starting and testing services

Starting Samba

Hopefully, you have not rebooted yet! Fine. If you are in an X-session, quit it, so you can test login into another console, while you are still logged in.

Start Samba (including smbd, nmbd and winbindd:

/etc/rc.d/samba restart

Join the Domain

You need an AD Administrator account to do this. Let's assume this is named Administrator. The command is 'net ads join'

# net ads join -U Administrator
Administrator's password: xxx
Using short domain name -- PARADISE

Restart Samba

'winbindd' failed to start on the first try because we were not yet a domain. Restart the samba service and winbind should fire up as well:

rc.d restart samba

Testing Winbind

Let's check if winbind is able to query the AD. The following command should return a list of AD users:

wbinfo -u

We can do the same for AD groups:

wbinfo -g

Testing Samba commands

Try out some net commands to see if samba can communicate with AD:

# net ads info
[2012/02/05 20:21:36.473559,  0] param/loadparm.c:7599(lp_do_parameter)
  Ignoring unknown parameter "idmapd backend"
LDAP server:
LDAP server name: PDC.example.com
Bind Path: dc=EXAMPLE,dc=COM
LDAP port: 389
Server time: Sun, 05 Feb 2012 20:21:33 CST
KDC server:
Server time offset: -3
# net ads lookup
[2012/02/05 20:22:39.298823,  0] param/loadparm.c:7599(lp_do_parameter)
  Ignoring unknown parameter "idmapd backend"
Information for Domain Controller:

GUID: 2a098512-4c9f-4fe4-ac22-8f9231fabbad
        Is a PDC:                                   yes
        Is a GC of the forest:                      yes
        Is an LDAP server:                          yes
        Supports DS:                                yes
        Is running a KDC:                           yes
        Is running time services:                   yes
        Is the closest DC:                          yes
        Is writable:                                yes
        Has a hardware clock:                       yes
        Is a non-domain NC serviced by LDAP server: no
        Is NT6 DC that has some secrets:            no
        Is NT6 DC that has all secrets:             yes
Forest:                 example.com
Domain:                 example.com
Domain Controller:      PDC.example.com
Pre-Win2k Domain:       EXAMPLE
Pre-Win2k Hostname:     PDC
Server Site Name :              Office
Client Site Name :              Office
NT Version: 5
LMNT Token: ffff
LM20 Token: ffff
net ads status

Configuring PAM for Logins

Now we have to change /etc/pam.d/login so it sends its request to the AD controllers. In case of logins, PAM should first ask for AD accounts, and for local accounts if no matching AD account was found. Therefore, we add entries to include pam_winbindd.so into the authentication process. Furthermore, we include pam_mkhomedir.so. If an AD user logs in, /home/example/user will be created automatically.

#### /etc/pam.d/login ####
auth     sufficient     pam_unix2.so
auth     required       pam_winbind.so use_first_pass use_authtok
auth     required       pam_securetty.so
auth     required       pam_nologin.so
auth     required       pam_mail.so
account  sufficient     pam_unix2.so
account  sufficient     pam_winbind.so use_first_pass use_authtok
password required       pam_pwcheck.so
password sufficient     pam_unix2.so
password sufficient     pam_winbind.so use_first_pass use_authtok
session  required       pam_mkhomedir.so skel=/etc/skel/ umask=0022
session  sufficient     pam_unix2.so
session  sufficient     pam_winbind.so use_first_pass use_authtok
session  required       pam_limits.so

If you like to allow AD users to login into GDM, you have to do the same for /etc/pam.d/gdm. You may try to change other /etc/pam.d/ rules for other apps, to allow them to authenticate AD users.

Testing login

Now, start a new console session and try to login with an AD account. As we told winbind to use default_realms, it should not be necessary to add the AD name. Lets assume there is an AD user named kain. Try to login as


Both should work. You should notice that /home/example/kain will be created. Log into another session using an linux account. Check that you still be able to log in as root - but keep in mind to be logged in as root in at least one session!

Working with SMB Shares

Earlier we skipped configuration of the shares. Now that things are working, go back to /etc/smb.conf, and add the exports for the host that you want available on the windows network.

  comment = User´s homedirs
  path =/home/%U
  valid users = %S NET+%S
  browseable = no
  read only = no

  comment = Data
  valid users = %S net+%S
  path = /data
  read only = no
  browseable = yes
  comment = Backup filer
  path = /backup
  read only = no
  browseable = yes
  valid users = @"NET+Domain Admins"


Commercial Solutions

  • Centrify
  • Likewise