Difference between revisions of "Setting up Samba as an Active Directory Domain Controller"

m (Migrating an Existing Samba Domain to Samba)
(Condensed the wiki a lot, moving some things to their own pages.)
Line 13: Line 13:
 
Samba is developing rapidly. This HOWTO is frequently updated to reflect the latest changes in the Samba git repository. Please see the [[Release_Planning_for_Samba_4.0|Samba 4.0 Release Planning]] for more specifics on the release planning.
 
Samba is developing rapidly. This HOWTO is frequently updated to reflect the latest changes in the Samba git repository. Please see the [[Release_Planning_for_Samba_4.0|Samba 4.0 Release Planning]] for more specifics on the release planning.
  
== Server Information ==
+
Please review the [[Samba4#Previous_Releases|Release Notes]] for the version you have installed, it may contain important information not yet reflected in this HOWTO.
For the rest of this tutorial, we will be using the following configuration for our example AD DC configuration.
 
 
 
  Installation Directory: /usr/local/samba
 
  Server Hostname: samba
 
  DNS Domain Name: samdom.example.com
 
  NT4 Domain Name: samdom
 
  IP Address: 192.168.1.2
 
  Server Role: DC
 
 
 
== Samba OS Requirements ==
 
 
 
Because of the constantly changing and ever expanding nature of Linux, the '''OS Requirements for Samba 4 have been moved''' from Step 2, to [[Samba_4/OS_Requirements]].
 
This not only includes the required packages for a successful Samba AD DC deployment, but also the required file system features.  Please consider that page as a prerequisite to a successful Samba AD DC setup.
 
 
 
== Step 1: Download Samba ==
 
 
 
Currently, there are three methods to download the current Samba sources, either as a tarball of the latest stable release, or a development version via git or rsync.  If you hope to work with the team on a development version to resolve issues you may hit via code changes, we recommend using the git method for downloading Samba, as it makes getting updates easier, and also allows you to integrate test patches from Samba developers more easily in case of problems.
 
 
 
In the following examples we will assume that your top-level source is named <tt>samba4</tt>.  If you downloaded a tarball this will instead be based on the name of the tarball downloaded (e.g.  <tt>samba-4.0.0</tt> for the tarball samba-4.0.0.tar.gz).  Also note that in the <tt>master</tt> branch the
 
Samba 4 code in our current git tree is now located in the top level directory.
 
 
 
=== Downloading a tarball ===
 
 
 
If you wish to use a released version of Samba 4.0, you can download the latest Samba 4.0 tarball from [http://ftp.samba.org/pub/samba/ the Samba website]
 
 
 
=== Downloading via git ===
 
 
 
Git allows you to download the source tree via either the <tt>git</tt> or <tt>http</tt>protocols.  In general, the <tt>git</tt> protocol is the preferred choice since it compresses the data being transferred.  To download the source tree via <tt>git</tt>, run the following command:
 
 
 
$ git clone git://git.samba.org/samba.git samba4
 
 
 
Alternatively, if you prefer to use the <tt>http</tt> protocol, run the following command:
 
 
 
$ git clone http://gitweb.samba.org/samba.git samba4
 
 
 
Either command will create a directory called <tt>samba4</tt> in the current
 
directory. This directory will hold a checkout of the branch you choose to download (master, test, or stable).
 
 
 
'''If you are using the checkout for a production installation you should use the following git branches:'''
 
* 'v4-0-stable' (which contains the lastest stable 4.0.x release)
 
    $ git clone -b v4-0-stable git://git.samba.org/samba.git samba4
 
'''or'''
 
* 'v4-0-test' (which contains the patches scheduled for the next stable 4.0.x release)
 
    $ git clone -b v4-0-test git://git.samba.org/samba.git samba4
 
 
 
==== Updating via git ====
 
 
 
If you already have downloaded the source tree via <tt>git</tt> and want to update the tree to the latest version, run the following command in your <tt>samba4</tt> directory:
 
 
 
$ git pull
 
 
 
If you get an error like this:
 
fatal: Unable to create '[...]/samba_master/.git/index.lock': File exists.
 
Run the command below to reset your tree.
 
 
 
If you are having trouble compiling the source, it may be due to stale files.  You can reset your <tt>git</tt> tree to correct these errors.  To reset your <tt>git</tt> tree, run the following command in your <tt>samba4</tt> directory:
 
 
 
$ git clean -x -f -d
 
 
 
== Step 2: Compile Samba ==
 
 
 
To build Samba, run the following commands in your Samba source directory:
 
 
 
  $ ./configure --enable-debug --enable-selftest
 
  $ make
 
 
 
The above command will setup Samba to install in <tt>/usr/local/samba</tt>. If you want Samba to install in a different directory, then you should use the <tt>--prefix</tt> option to <tt>configure</tt>.
 
 
 
The reason we recommend using <tt>--enable-debug --enable-selftest</tt> for Samba is that it will include extra debug information that will help us diagnose problems in case of failures, and will also allow you to run our selftest <tt>make test</tt> to validate that Samba can behave correctly on your platform.  Both of these are however, entirely '''optional'''.
 
 
 
'''Profiling with google-perftools'''
 
  
If you want to enable profiling support, change the configure command above to the following:
+
== Installing Samba ==
  $ LDFLAGS="-ltcmalloc -lprofiler" ./configure.developer
 
:''(This also works for CFLAGS)''
 
  
== Step 3: Install Samba ==
+
You will either need to install samba from a your distributions package manager or [[Build_Samba| Build Samba]]. At this time the packages are generally older and very hard to support due to the rapid development of the samba project, so it is recommended to build from source.
 
 
To install Samba, run the following command in your Samba source directory:
 
 
 
  $ make install
 
 
 
Note that this must be run as a user who has permission to write to the install directory, which defaults to <tt>/usr/local/samba</tt>. See [[#Step 2: Compile Samba4|Step 2: Compile Samba ]] for instructions on how to change the install directory.
 
 
For the rest of this HOWTO we will assume that you have installed
 
Samba in the default location.  All future Samba commands will stem from the <tt>/usr/local/samba/sbin</tt> and <tt>/usr/local/samba/bin</tt> directories.
 
 
 
Please review the [[Samba4#Previous_Releases|Release Notes]] for the version you have installed, it may contain important information not yet reflected in this HOWTO.
 
  
 
=== Upgrading ===
 
=== Upgrading ===
Line 107: Line 23:
 
If you are upgrading from a previous release of Samba 4.x, be sure to review all the [[Samba4#Previous_Releases|Release Notes]] for the new version, as well as the notes for all the interim versions.
 
If you are upgrading from a previous release of Samba 4.x, be sure to review all the [[Samba4#Previous_Releases|Release Notes]] for the new version, as well as the notes for all the interim versions.
  
To upgrade to the latest Samba 4.x version from a previous Samba 4.x release, you must first download the latest tarball or git tree. If using git, you may either do a full download of the latest git tree as described in the [http://wiki.samba.org/index.php/Samba4/HOWTO#Downloading_via_git Downloading via git] section, or you may upgrade your current git tree as described in the [http://wiki.samba.org/index.php/Samba4/HOWTO#Updating_via_git Updating via git] section. Once you have obtained the latest version, simply run the following commands.
+
If you are upgrading from source please refer to the [[Build_Samba#Upgrading_a_source_version|upgrading a source version]] otherwise please consult your distributions upgrade procedure.
  
  $ ./configure --enable-debug --enable-selftest
+
== Server Information ==
  $ make
+
For the rest of this tutorial, we will be using the following configuration for our example AD DC configuration.  
  $ make install
 
  
For more information on the commands above and their associated options, please refer to [http://wiki.samba.org/index.php/Samba4/HOWTO#Step_2:_Compile_Samba Step 2]
+
  Installation Directory: /usr/local/samba
 +
  Server Hostname: samba (Your linux hostname will be used here)
 +
  DNS Domain Name: samdom.example.com (This will also be your '''realm''')
 +
  NT4 Domain Name: samdom
 +
  IP Address: 192.168.1.2
 +
  Server Role: DC
  
== Step 4: Provision Samba ==
+
== Step 1: Provision Samba ==
  
 
The provision step sets up a basic user database, and is used when you are setting up your Samba
 
The provision step sets up a basic user database, and is used when you are setting up your Samba
 
server in its own domain. If you instead want to setup your Samba server as an additional domain controller
 
server in its own domain. If you instead want to setup your Samba server as an additional domain controller
in an existing domain, then please see the [[#Joining a Windows Domain Controller as an Additional DC in a Domain|Joining a Windows Domain Controller as an Additional DC in a Domain]] section on this page.  If you want to migrate an existing Samba 3.x domain to Samba 4.0 as an AD DC, see the [[#Migrating_an_Existing_Samba__Domain_to_Samba|Migrating an Existing Samba 3 Domain to Samba 4]] section on this page.
+
in an existing domain, then please see the [[#Joining a Windows Domain Controller as an Additional DC in a Domain|Joining a Windows Domain Controller as an Additional DC in a Domain]] section on this page.  If you want to migrate an existing Samba 3.x domain to Samba 4.0 as an AD DC, see the [[#Migrating_an_Existing_Samba_Domain_to_Samba|Migrating an Existing Samba 3 Domain to Samba 4]] section on this page.
  
 
The provision step must be run as a user with permission to write to the install directory.
 
The provision step must be run as a user with permission to write to the install directory.
Line 132: Line 52:
 
You can pass options to <tt>samba-tool domain provision</tt> command. You can run it with the <tt>--help</tt> option to see a list of them.
 
You can pass options to <tt>samba-tool domain provision</tt> command. You can run it with the <tt>--help</tt> option to see a list of them.
  
* Note: As of September 11, 2012 (Samba 4.0.0 RC1) the provision command now uses Samba's internal DNS server, if you would like the older behavior, add <tt>--dns-backend=BIND9_DLZ</tt> to the above provision command.
+
* Note: As of Samba 4.0.0 RC1 the provision command now uses Samba's internal DNS server by default, if you would like the older behavior, add <tt>--dns-backend=BIND9_DLZ</tt> or <tt>--dns-backend=BIND_FLATFILE</tt> to the above provision command.
 
* Note: You may need to remove the <tt>/usr/local/samba/etc/smb.conf</tt> file if you are re-running the provision command.
 
* Note: You may need to remove the <tt>/usr/local/samba/etc/smb.conf</tt> file if you are re-running the provision command.
 
* Note: If you use the --adminpass='password' switch, be aware that there are password complexity requirements, so if you are getting some odd error with provision, try a more complex password ie. 'Pa$$w0rd'
 
* Note: If you use the --adminpass='password' switch, be aware that there are password complexity requirements, so if you are getting some odd error with provision, try a more complex password ie. 'Pa$$w0rd'
* Note: If you have a "password complexity" failure during domain provisionsing - read the following! <br>[I think the requirement is: at least one uppercase letter, and one number, and at least eight characters long.]<br>If you don't use a complex enough password, the provision script will bomb and re-running it will also bomb - because it doesn't know how to handle a partially provisioned setup.<br>A solution is: delete the ../samba directory. [Deleting only the smb.conf wasn't doing it, in my case.]<br>Thus, if you installed samba to the "default" location, do the following: rm /usr/local/samba/ -rf <br> Then run [make install] again to re-install the files. <br> Finally, run the domain provision again - with a better password.
+
* Note: If you have a "password complexity" failure during domain provisioning - read the following! The password complexity requirement is at least one uppercase letter, and one number, and at least eight characters long. If you don't use a complex enough password, the provision script will error, and you will need to delete the /usr/local/samba/private and /usr/local/samba/etc directories, then run samba-tool domain provision again - with a better password.
  
== Step 5: Starting Samba as an AD DC ==
+
== Step 2: Starting your Samba AD DC ==
  
 
If you are planning to run Samba as a production server, then just run the <tt>samba</tt> binary as root
 
If you are planning to run Samba as a production server, then just run the <tt>samba</tt> binary as root
Line 155: Line 75:
 
This will start <tt>samba</tt> with all log messages printed to stdout, and restricting it to a
 
This will start <tt>samba</tt> with all log messages printed to stdout, and restricting it to a
 
single process. That mode of operation makes debugging <tt>samba</tt> with <tt>gdb</tt>
 
single process. That mode of operation makes debugging <tt>samba</tt> with <tt>gdb</tt>
easier. If you want to launch it under <tt>gdb</tt>, run <tt>samba</tt> as follows:
+
easier.  
 +
 
 +
If you want to launch it under <tt>gdb</tt>, run <tt>samba</tt> as follows:
  
 
  # gdb --args /usr/local/samba/sbin/samba -i -M single
 
  # gdb --args /usr/local/samba/sbin/samba -i -M single
Line 167: Line 89:
 
  # samba -V
 
  # samba -V
  
== Step 6: Testing Samba as an AD DC ==
+
== Step 3: Testing connectivity to your Samba AD DC ==
  
 
First check you have the right version of <tt>smbclient</tt> by running the following command:
 
First check you have the right version of <tt>smbclient</tt> by running the following command:
Line 193: Line 115:
  
 
  # killall samba
 
  # killall samba
# rm -v -- /usr/local/samba/var/run/smbd-fileserver.conf.pid
 
 
  # /usr/local/samba/sbin/samba
 
  # /usr/local/samba/sbin/samba
  
Line 203: Line 124:
 
The output of the command should be similar to what is shown below:
 
The output of the command should be similar to what is shown below:
  
  Domain=[SAMDOM] OS=[Unix] Server=[Samba 4.0.0beta9-GIT-e4677e3]
+
  Domain=[SAMDOM] OS=[Unix] Server=[Samba 4.0.0]
 
   .                                  D        0  Wed Sep 12 21:00:36 2012
 
   .                                  D        0  Wed Sep 12 21:00:36 2012
 
   ..                                  D        0  Wed Sep 12 21:02:28 2012
 
   ..                                  D        0  Wed Sep 12 21:02:28 2012
  
== Step 7: Configure DNS ==
+
== Step 4: Configure DNS ==
  
 
A working DNS setup is essential to the correct operation of
 
A working DNS setup is essential to the correct operation of
Line 216: Line 137:
 
lot of time later on.
 
lot of time later on.
  
=== DNS Server ===
 
 
==== Samba's Internal DNS Server ====
 
==== Samba's Internal DNS Server ====
  
If you specified <tt>--dns-backend=SAMBA_INTERNAL</TT> or did not specify any backend at all when you provisioned, there is no further setup required for the DNS server. However, you still need to configure your <tt>/etc/resolv.conf</tt> as shown in [[#Configure /etc/resolv.conf|Configure /etc/resolv.conf]]
+
If you specified <tt>--dns-backend=SAMBA_INTERNAL</TT> or did not specify any backend at all when you provisioned, there is no further setup required for the DNS server, however you used any other --dns-backend= option in your provision line see [[Dns-backend_bind|using bind as your dns backend]] for additional setup instructions.
 +
After you have dns configured, you still need to configure your <tt>/etc/resolv.conf</tt> as shown in [[#Configure /etc/resolv.conf|Configure /etc/resolv.conf]]
  
 
If you want the internal DNS server to forward requests it isn't responsible for, then add the following to your smb.conf:
 
If you want the internal DNS server to forward requests it isn't responsible for, then add the following to your smb.conf:
 
   dns forwarder = {IP-Address of the DNS you want to forward to}
 
   dns forwarder = {IP-Address of the DNS you want to forward to}
  
'''Warning:''' If you are running X windows on your machine, networkmanager could be spawning dnsmasq, check the logs for lines like:
+
'''Warning:''' If you are running X windows on your machine, networkmanager could be spawning dnsmasq or if you are using another DNS server, check the logs for lines like:
  
 
  Failed to bind to 0.0.0.0:53 TCP - NT_STATUS_ADDRESS_ALREADY_ASSOCIATED
 
  Failed to bind to 0.0.0.0:53 TCP - NT_STATUS_ADDRESS_ALREADY_ASSOCIATED
Line 230: Line 151:
 
If you need to disable this you can open <tt>/etc/NetworkManager/NetworkManager.conf</tt> in your favorite editor as root, and comment out the line <tt>dns=dnsmasq</tt>, then <tt>restart network-manager</tt>
 
If you need to disable this you can open <tt>/etc/NetworkManager/NetworkManager.conf</tt> in your favorite editor as root, and comment out the line <tt>dns=dnsmasq</tt>, then <tt>restart network-manager</tt>
  
==== Bind 9.8.0 or newer ====
+
* More information about troubleshooting can be found on the [[Samba_troubleshooting_temp|Samba Troubleshooting]] page.
 
 
If using BIND, the next step to get a working DNS setup for Samba is to start
 
with the DNS configuration file that is created by the
 
[[#Step 4: Provision Samba4|provision step]] or if you are using any of the other samba-tool options (classicupgrade for example) you can specify --dns-backend=BIND9_DLZ or --dns-backend=BIND9_FLATFILE.
 
 
 
You can
 
activate the configuration that the provision has created by including this configuration file in bind's named configuration file.  This file is typically located in the <tt>/etc/bind</tt> directory, please refer to your distribution documentation for the location of this file on your system. Once located, add the following line to the configuration file:
 
 
 
include "/usr/local/samba/private/named.conf";
 
 
 
Edit that file to uncomment the correct dlz plugin line, based on your version of bind.  Open the <tt>/usr/local/samba/private/named.conf</tt> file in a text editor and follow the instructions inside.
 
 
 
After adding that line you should restart your Bind server and check
 
in the system logs for any problems.  If available, you can run <tt>named-checkconf</tt> to help you fix any problems with your named configuration.
 
 
 
==== Bind 9.7.x ====
 
 
 
Users of bind-9.7.x are strongly encouraged to upgrade to bind-9.8 or bind-9.9.  If this is not possible, refer to the section [[#Step 9: Configure Kerberos DNS Dynamic Updates|Configure Kerberos DNS Dynamic Updates]] for instructions on configuring bind-9.7.
 
 
 
==== Bind (All Versions) ====
 
 
 
A common problem you may encounter is that many modern Linux distributions activate
 
'Apparmor' or 'SELinux' by default, and these may be configured to
 
deny access to Bind for your the <tt>named.conf</tt> and zone files created in
 
the provision. If your Bind logs show that Bind is getting a access
 
denied error accessing these files, please see your local system
 
documentation for how to enable access to these files in Bind (hint:
 
for Apparmor systems such as Ubuntu, the command <tt>aa-logprof</tt> may be
 
useful).
 
 
 
*Note: On Debian systems, the zone auto-generation might detect and use <tt>127.0.1.1</tt> as the domain controller's IP address.  This will cause problems when trying to connect to the server from client machines.  To fix this, you will need to adjust <tt>/usr/local/samba/private/named.conf</tt> by changing <tt>127.0.1.1</tt> to reflect the actual IP address of the server you're setting up.
 
*Note: On Debian SID (bind9 package), <tt>/etc/bind/named.conf.options</tt> is missing and this will cause the <tt>named</tt> daemon to fail to start.  To fix this either create an empty file, or comment out corresponding line in <tt>/etc/bind/named.conf</tt>.  See your syslog messages for more information.
 
  
 
=== Configure /etc/resolv.conf ===
 
=== Configure /etc/resolv.conf ===
Line 290: Line 179:
 
carefully check your system logs to locate the problem.
 
carefully check your system logs to locate the problem.
  
== Step 8: Configure Kerberos ==
+
== Step 5: Configure Kerberos ==
 +
 
 +
Kerberos configuration is handled by the <tt>krb5.conf</tt> file.  This file is typically located in the <tt>/etc</tt> directory, please refer to your distribution documentation for the location of this file on your system.  There is a sample file located at <tt>/usr/local/samba/share/setup/krb5.conf</tt> that is a suitable replacement for an existing file. This file is generated by provision and will look similar to the following:
  
Kerberos configuration is handled by the <tt>krb.conf</tt> file.  This file is typically located in the <tt>/etc</tt> directory, please refer to your distribution documentation for the location of this file on your system.  Replace the existing file, if any, with the sample from <tt>/usr/local/samba/share/setup/krb5.conf</tt>.  Edit the file and replace <tt>${REALM}</tt> with the value you chose for the <tt>--realm</tt> parameter of the provision command above, make sure to enter the realm in '''uppercase letters''':
 
*Note: If you've already forgotten <gasp!> what Realm you supplied, you can find it in the smb.conf file. [for default installs that's /usr/local/samba/etc/smb.conf]
 
 
  [libdefaults]
 
  [libdefaults]
 
     default_realm = SAMDOM.EXAMPLE.COM
 
     default_realm = SAMDOM.EXAMPLE.COM
 
     dns_lookup_realm = false
 
     dns_lookup_realm = false
 
     dns_lookup_kdc = true
 
     dns_lookup_kdc = true
 +
 +
*Note: If you have forgotten your realm, running <tt>samba-tool testparm --suppress-prompt | grep realm</tt> will let you know what you used.
  
 
=== Testing Kerberos ===
 
=== Testing Kerberos ===
Line 307: Line 198:
  
 
*Note: You must specify your domain realm <tt>SAMDOM.EXAMPLE.COM</tt> in '''uppercase letters'''
 
*Note: You must specify your domain realm <tt>SAMDOM.EXAMPLE.COM</tt> in '''uppercase letters'''
 +
*Note: Depending on your distribution <tt>kinit</tt> may just return you to a prompt, however, some distributions may return something like '''Warning: Your password will expire in 41 days on Thu Mar 28 04:38:35 2013.'''
  
<tt>kinit</tt> will not give you any output. [It may give you a password expiration notice.] To verify that Kerberos is working, and that you received a ticket, run the following:
+
To verify that Kerberos is working, and that you received a ticket, run the following:
 
 
  
 
  $ klist
 
  $ klist
Line 316: Line 207:
 
    
 
    
 
  Valid starting    Expires            Service principal
 
  Valid starting    Expires            Service principal
  02/10/10 19:39:48  02/11/10 19:39:46  krbtgt/SAMDOM.EXAMPLE.COM@SAMDOM.EXAMPLE.COM
+
  02/10/13 19:39:48  02/11/13 19:39:46  krbtgt/SAMDOM.EXAMPLE.COM@SAMDOM.EXAMPLE.COM
  
 
If either <tt>kinit</tt> or <tt>klist</tt> do not exist on your system, refer to [[Samba_4_OS_Requirements]] on how to install the necessary packages.
 
If either <tt>kinit</tt> or <tt>klist</tt> do not exist on your system, refer to [[Samba_4_OS_Requirements]] on how to install the necessary packages.
Line 326: Line 217:
 
  [kdc]
 
  [kdc]
 
     check-ticket-addresses = false
 
     check-ticket-addresses = false
 +
 
*Note: If provision generated you a password and you forgot it or didn't get it saved in some way, you can use "samba-tool user setpassword administrator" as root to reset it.
 
*Note: If provision generated you a password and you forgot it or didn't get it saved in some way, you can use "samba-tool user setpassword administrator" as root to reset it.
  
== Step 9: Configure DNS Dynamic Updates via Kerberos ==
+
== Configure NTP (Optional) ==
 
+
The [[Configure_NTP|Configure NTP]] page includes the full NTP configuration process and the SELinux policies.
Samba has the capability to automatically update the bind zone files via Kerberos.  While this step is optional, it is highly recommended.  If you are using Samba's internal DNS server, no configuration is needed, and you can skip this step.
 
 
 
To setup dynamic DNS updates you need to have a recent version of bind installed. It is highly recommended that you install at least version 9.8.0 as that version includes a set of patches from the Samba Team to make dynamic DNS updates much more robust and easier to configure. In the instructions below we give instructions for both bind 9.7.2 and 9.8.0, but please use 9.8.0 or later if at all possible.
 
 
 
You can tell what version of bind you have using the command <tt>/usr/sbin/named -V</tt>. If your OS does not have bind-9.8.0 or later, then please consider getting it from a package provided by a 3rd party (for example, on Ubuntu there is a ppa available with the newer versions of bind).
 
 
 
=== Bind 9.8.0 or Later ===
 
 
 
When using bind-9.8.0 or later you need to add the following to the options section of your bind config:
 
options {
 
  [...]
 
  tkey-gssapi-keytab "/usr/local/samba/private/dns.keytab";
 
  [...]
 
  };
 
 
 
This file is typically located in the <tt>/etc/bind</tt> directory, please refer to your distribution documentation for the location of this file on your system.
 
 
 
=== Bind 9.7.x ===
 
 
 
If you have bind-9.7.x (specifically 9.7.2 or later), then first determine if you can
 
at all possibly run bind-9.8.  You will have far fewer problems.  Otherwise, follow these instructions.
 
 
 
The Samba provision will have created a custom <tt>/usr/local/samba/private/named.conf.update</tt> configuration file. You need to include this file in your master <tt>named.conf</tt> to allow Samba/Kerberos DNS updates to automatically take place.  Be advised that if you include this file in Bind versions that don't support it, Bind will fail to start.
 
 
 
You additionally need to set two environment variables when using bind-9.7.x:
 
 
 
  KEYTAB_FILE="/usr/local/samba/private/dns.keytab"
 
  KRB5_KTNAME="/usr/local/samba/private/dns.keytab"
 
  export KEYTAB_FILE
 
  export KRB5_KTNAME
 
 
 
These should be put in your settings file for bind. On Debian based
 
systems (including Ubuntu) this is in <tt>/etc/default/bind9</tt>. On RedHat and SUSE derived systems it is
 
in <tt>/etc/sysconfig/named</tt>, please refer to your distribution documentation for the correct location to set these environment variables. Strictly speaking you only either need
 
<tt>KEYTAB_FILE</tt> or <tt>KRB5_KTNAME</tt>, but which you need depends on your distribution,
 
so it's easier to just set both.
 
 
 
The <tt>dns.keytab</tt> must be readable by the bind server process.  Generally, this is accomplished by executing:
 
  $ chown named:named /usr/local/samba/private/dns.keytab
 
 
 
(the provision should have setup these permissions for you automatically).
 
 
 
Finally, you need to add the following to the options section of your bind config:
 
options {
 
  [...]
 
  tkey-gssapi-credential "DNS/server.samdom.example.com";
 
  tkey-domain "SAMDOM.EXAMPLE.COM";
 
  [...]
 
  };
 
 
 
The last part of the credential in the first line must match the dns name of the server you have set up.  This file is typically located in the <tt>/etc/bind</tt> directory, please refer to your distribution documentation for the location of this file on your system.
 
 
 
=== Testing/Debugging Dynamic DNS Updates ===
 
 
 
The way the automatic DNS update in Samba works is that the provision
 
will create a file <tt>/usr/local/samba/private/dns_update_list</tt>, which
 
contains a list of DNS entries that Samba will try to dynamically
 
update at startup and every 10 minutes thereafter using <tt>samba_dnsupdate</tt> utility.
 
Updates will only happen if the DNS entries do not already exist.
 
Remember that you need <tt>nsupdate</tt> utility from bind the distribution
 
for all these to work.
 
 
 
If you want to test or debug this process, then please run this as root:
 
 
 
/usr/local/samba/sbin/samba_dnsupdate --verbose --all-names
 
 
 
The command line options specified will force an update of all records in the <tt>dns_update_list</tt>, as well as output detailed information on what is being done.
 
 
 
=== Interaction With Apparmor or SELinux ===
 
 
 
If you are using Apparmor or SELinux, you have to ensure that the bind process has read access to the <tt>/usr/local/samba/private/dns.keytab</tt> file, the
 
<tt>/usr/local/samba/private/named.conf</tt> file as well as read-write access to the <tt>/usr/local/samba/private/dns</tt> directory and it's own zone file. The Samba provision tries to setup the permissions
 
correctly for these files, but you may find you need to make changes
 
in your Apparmor or SELinux configuration if you are running either of
 
those. If you are using Apparmor then the <tt>aa-logprof</tt> command may help
 
you add any missing permissions you need to add after you start Samba
 
and bind for the first time after configuring them.
 
 
 
Please refer to [[#Step 11: Permissions, SELinux Labeling and Policy|Step 11: Permissions, SELinux Labeling and Policy]] for more information.
 
 
 
== Step 10: Configure NTP (Optional) ==
 
 
 
You require a recent ntpd version (=>4.2.6) that supports signed ntp. E. g. the version shipped with RHEL6 and Ubuntu < 11.04 are to old. The Ntpd of Debian Squeeze supports signed ntp.
 
 
 
1a. Download ntpd from ntp.org (verify md5 sum) and compile it (add additionals ./configure parameters, if needed):
 
 
 
  $ tar -zxvf ntp-4.x.x.tar.gz
 
  $ cd ntp-4.x.x
 
  $ ./configure --enable-ntp-signd
 
  $ make
 
  $ make install
 
 
 
1b. Set the permission of the ntp_signd directory (default /usr/local/samba/var/lib/ntp_signd/) to 0750 and its owner to root:ntp to ensure that it is readable from ntpd.
 
 
 
2a. If you already have a supported ntpd version and ntp.conf, you have to add/adjust only the following lines for minimal:
 
  ntpsigndsocket /usr/local/samba/var/lib/ntp_signd/
 
  restrict default mssntp
 
 
 
2b. If a minimal/simple ntp.conf is fine for you, then fill the file with the following:
 
  server 127.127.1.0
 
  fudge 127.127.1.0  stratum 12
 
  ntpsigndsocket /usr/local/samba/var/lib/ntp_signd/
 
  restrict default mssntp
 
 
 
2c. A more complex ntp.conf is the following:
 
  server 127.127.1.0
 
  fudge  127.127.1.0 stratum 10
 
  server 0.pool.ntp.org  iburst prefer
 
  server 1.pool.ntp.org  iburst prefer
 
  driftfile /var/lib/ntp/ntp.drift
 
  logfile /var/log/ntp
 
  ntpsigndsocket /usr/local/samba/var/lib/ntp_signd/
 
  restrict default kod nomodify notrap nopeer mssntp
 
  restrict 127.0.0.1
 
  restrict 0.pool.ntp.org mask 255.255.255.255 nomodify notrap nopeer noquery
 
  restrict 1.pool.ntp.org mask 255.255.255.255 nomodify notrap nopeer noquery
 
For explanation: This config allows clients to receive time from this NTP host, localhost
 
doesn't have any restrictions, and the servers we receive the time from ,are not allowed
 
to do anything else than providing the time to us. For mor information about ntpd
 
access controll, see
 
http://support.ntp.org/bin/view/Support/AccessRestrictions
 
 
 
3. On members of the domain you don't have to configure anything. Per default they will receive
 
the time from the DC that has the FSMO role PDC.
 
 
 
== Step 11: Permissions, SELinux Labeling and Policy ==
 
 
 
These instructions are intended for RedHat 6.X, but may serve as a guide for other distributions/versions.
 
 
 
There is still more work to be done in regards of creating a Samba 4 specific SELinux policy but for now you should be
 
able to have everything working '''without''' disabling SELinux.
 
 
 
For all the commands below, make sure you have set the following environment variable:
 
MYREALM="samdom.example.com"
 
 
 
=== Bind ===
 
 
 
Set Permissions:
 
chown named:named /usr/local/samba/private/dns
 
chgrp named /usr/local/samba/private/dns.keytab
 
chmod g+r /usr/local/samba/private/dns.keytab
 
chmod 775 /usr/local/samba/private/dns
 
 
 
Label files:
 
chcon -t named_conf_t /usr/local/samba/private/dns.keytab
 
chcon -t named_conf_t /usr/local/samba/private/named.conf.update
 
chcon -t named_var_run_t /usr/local/samba/private/dns
 
chcon -t named_var_run_t /usr/local/samba/private/dns/${MYREALM}.zone
 
 
 
Set Label Persistence:
 
semanage fcontext -a -t named_conf_t /usr/local/samba/private/dns.keytab
 
semanage fcontext -a -t named_conf_t /usr/local/samba/private/named.conf
 
semanage fcontext -a -t named_conf_t /usr/local/samba/private/named.conf.update
 
semanage fcontext -a -t named_var_run_t /usr/local/samba/private/dns
 
semanage fcontext -a -t named_var_run_t /usr/local/samba/private/dns/${MYREALM}.zone
 
semanage fcontext -a -t named_var_run_t /usr/local/samba/private/dns/${MYREALM}.zone.jnl
 
semanage fcontext -a -t ntpd_t /usr/local/samba/var/run/ntp_signd
 
 
 
=== NTP ===
 
Set Permissions:
 
$ chgrp ntp /usr/local/samba/var/lib/ntp_signd
 
 
 
Multiple attempts to set the context for ntp failed so the below policy was needed for windows clients time sync after joining the DOMAIN.
 
$ chcon -u system_u -t ntpd_t /usr/local/samba/var/run/ntp_signd
 
$ chcon -u system_u -t ntpd_t /usr/local/samba/var/run/
 
$ chcon -t ntpd_t /usr/local/samba/var/run/ntp_signd/socket
 
  
<tt>samba4.te</tt> policy:
+
== Setup a basic File Share ==
module samba4 1.0;
 
 
 
 
 
require {
 
    type ntpd_t;
 
    type usr_t;
 
    type initrc_t;
 
    class sock_file write;
 
    class unix_stream_socket connectto;
 
}
 
 
 
#============= ntpd_t ==============
 
allow ntpd_t usr_t:sock_file write;
 
 
 
#============= ntpd_t ==============
 
allow ntpd_t initrc_t:unix_stream_socket connectto;
 
 
 
Check and load policy:
 
$ checkmodule -M -m -o samba4.mod samba4.te
 
$ semodule_package -o samba4.pp -m samba4.mod
 
$ semodule -i samba4.pp
 
 
 
== Step 12: Setup a File Share ==
 
  
 
The provisioning will create a very simple <tt>/usr/local/samba/etc/smb.conf</tt> file with no non-system shares by
 
The provisioning will create a very simple <tt>/usr/local/samba/etc/smb.conf</tt> file with no non-system shares by
Line 531: Line 234:
 
       read only = no
 
       read only = no
  
*Note: In older alpha versions of Samba 4, you need to restart Samba to make new shares visible.
+
*Note: You will need to restart Samba to make new shares visible.
 
 
== Step 13: Setup a Printer share ==
 
 
 
You can share any printers already configured with CUPS, keep in mind that Samba communicates with CUPS via sockets, so you don't need to set any configure any special permissions beyond a listen directive for the CUPS socket.
 
 
 
=== Basic Print Sharing ===
 
 
 
# Create a print spool directory, and set the permissions properly. This is where Samba will store temporary files related to print documents:
 
mkdir /usr/local/samba/var/spool
 
chmod 1777 /usr/local/samba/var/spool
 
 
 
# Configure samba to use it, by adding the following to <tt>/usr/local/samba/etc/smb.conf</tt>:
 
 
 
[printers]
 
    comment = All Printers
 
    path = /usr/local/samba/var/spool
 
    browseable = Yes
 
    read only = No
 
    printable = Yes
 
 
 
=== Point and Print Drivers ===
 
 
 
For the sake of convenience, Windows clients can query the server that is sharing a printer for a print driver.  To enable this functionality in Samba, we have to create a special <tt>print$</tt> file share.
 
 
 
# Create the print file share directory, and architecture sub-directories:
 
 
 
mkdir -p /usr/local/samba/var/print/{COLOR,IA64,W32ALPHA,W32MIPS,W32PPC,W32X86,WIN40,x64}
 
 
 
# Configure samba to use it, by adding the following to <tt>/usr/local/samba/etc/smb.conf</tt>:
 
 
 
[print$]
 
    comment = Point and Print Printer Drivers
 
    path = /usr/local/samba/var/print
 
    read only = No
 
 
 
# Log in as a Domain Administrator on a client computer
 
# Click Start -> Run '\\samba\'
 
# In the list of shares, Double-Click 'Printers and Faxes'
 
# Click File -> Server Properties
 
# On the Drivers Tab, Click 'Add...', then 'Next'
 
#:[[Image:SambaServerDrivers.jpg]]
 
# In the following prompts, choose the driver you would like to install, and click 'Next'
 
#:[[Image:SambaServerChooseDriver.jpg]]
 
# Choose the architectures you are installing the drivers for.  Be aware if you choose an architecture that the client computer does not have the driver for you will be prompted to provide a disk with the drivers.
 
#:[[Image:SambaServerChooseArch.jpg]]
 
# Close the Server Driver Dialog box
 
# Right-click on the printer the driver is for and choose Properties
 
# On the Advanced tab, change the Driver drop-down box to the driver you just installed
 
 
 
== Note: Filesystem Support ==
 
 
 
This information has been included in the [[Samba_4_OS_Requirements#File_System_Support]]
 
 
 
= Backup and Recovery of a Samba AD DC =
 
 
 
See the Samba [[Backup_and_Recovery|Backup and Recovery]] HowTo.
 
 
 
= Configure a Windows Client to join a Samba 4 Active Directory =
 
 
 
Active Directory is a powerful administration service which enables an Administrator to centrally manage a network of Windows 2000, Windows XP Pro, Windows 2003, Windows Vista Business Edition, and Windows 7 Professional (and up) effectively. To test the real Samba capability, we use Windows XP Pro as testing environment (Windows XP Home doesn't include Active Directory functionality and won't work).
 
 
 
To allow Samba 4 Active Directory or Microsoft Active Directory to manage a computer, we need to join the computer into the active directory.
 
It involves:
 
  
# Configuring DNS Settings
+
== Setup a Printer share ==
# Configuring Date & Time and Time Zone
 
# Joining the domain
 
  
== Step 1: Configure DNS Setting for Windows ==
+
You can also [[Setup_a_printer_share|Setup a printer share]] for samba.
  
Before we configure the DNS settings, verify that you are able to ping the server's IP address. If you are not able to ping the server, double check your IP address, firewall, routing, etc.
+
= Configure a Windows Client to join our Samba Active Directory =
  
Once you have verified network connectivity between the Samba server and client,
+
[[Configuring_a_windows_client_for_AD|Configuring a windows client to join our domain]] is useful when you need to start connecting windows clients.
  
# Right Click My Network Places, Select Properties
+
= Samba AD management =
# Right Click Local Area Network, Select Properties
 
# Double click TCP/IP
 
# Use a static DNS server, add the Samba server's IP address inside the Primary DNS Server Column.
 
#:[[Image:Samba4dnsclient.jpg]]
 
# Press OK on all opened windows.
 
# Open a command prompt, type 'ping samdom.example.com' (as per your provision).
 
  
If you get replies, then it means that your Windows settings are correct for DNS, and the Samba server's DNS service is working as well.
+
You can manage your Samba AD just like a windows AD using the windows tools by using the following link [[Samba_AD_management_from_windows|Samba AD Management from windows]]
  
== Step 2: Configure Date & Time and Time Zone ==
+
You may also want to use the linux command line, so you can [[Adding_users_with_samba_tool|add users with samba-tool]] as well.
 
 
Active Directory uses Kerberos as the backend for authentication. Kerberos requires that the system clocks on the client and server be synchronized to within a few seconds of each other.  If they are not synchronized, then authentication will fail for apparently no reason.
 
 
 
=== Configure the Date & Time ===
 
# Right-Click on the Time display in the system notification area, Select Adjust Date/Time.
 
# Change the Date and Time so the client matches the server to the minute, and click OK
 
#:[[Image:Samba4time.jpg]]
 
 
 
=== Configure the Time Zone ===
 
# Right-Click on the Time display in the system notification area, Select Adjust Date/Time.
 
# Click on the Time Zone Tab
 
# Change the Time Zone to match the Time Zone on the server.
 
#:[[Image:Samba4timezone.jpg]]
 
 
 
== Step 3: Joining Windows Clients to the Domain ==
 
 
 
Now your Windows computer is ready to join the Active Directory (AD) domain,
 
 
 
As an Administrator:
 
 
 
# Right Click My Computer -> Properties
 
# Choose the Computer Name tab, click Change...
 
# Click option 'Domain', insert SAMDOM.EXAMPLE.COM.  If this fails, try SAMDOM.
 
#:[[Image:Samba4joindomain.jpg]]
 
# When it requests a username and password, type '''Administrator''' as the username, and '''p4$$word''' as the password.
 
# You should get a message box stating "Welcome to the SAMDOM.EXAMPLE.COM domain."
 
# Click OK on this message box and the Properties window, and you will be instructed to restart your computer.
 
# After restarting, you should be presented with the normal logon dialog.
 
# Change the domain to SAMDOM and type '''Administrator''' as the username, and '''p4$$word''' as the password.
 
#:[[Image:Samba4logindomain.jpg]]
 
 
 
= Viewing Samba 4 Active Directory object from Windows =
 
 
 
We need install Windows 2003 Adminpak into Windows XP in order to use
 
GUI tools to manage the domain.  Before you begin, make sure that the domain
 
administrators have administrative rights to control your computer.(To
 
give any user administrative rights in Windows XP Pro, right click My
 
Computer, select Manage-> choose Groups-> double click Administrators
 
and add members from domain into the member list. When you add
 
members from Active Directory, it will prompt you to enter an
 
Active Directory username and password).
 
 
 
== Step 1: Installing Windows Remote Administration Tools onto Windows ==
 
 
 
=== Windows 8/7/Vista ===
 
 
 
#Download the  Windows Remote Administration Tools from:
 
#* http://www.microsoft.com/download/details.aspx?id=28972 (Windows 8)
 
#* http://www.microsoft.com/downloads/details.aspx?FamilyId=9FF6E897-23CE-4A36-B7FC-D52065DE9960&displaylang=en (Vista)
 
#* http://www.microsoft.com/downloads/details.aspx?FamilyID=7D2F6AD7-656B-4313-A005-4E344E43997D&displaylang=en (Windows 7)
 
#Follow the "Install RSAT" instructions ''(Just a note: After installing, you have to enable the features in "Turn Windows features on or off" in "Programs" of the Control Panel!)''.
 
 
 
=== Windows XP Pro ===
 
 
 
==== Administration Tools Pack & Support Tools ====
 
# Download adminpak and supporttools from:
 
#* http://www.microsoft.com/downloads/en/details.aspx?FamilyID=86b71a4f-4122-44af-be79-3f101e533d95
 
#* http://download.microsoft.com/download/3/e/4/3e438f5e-24ef-4637-abd1-981341d349c7/WindowsServer2003-KB892777-SupportTools-x86-ENU.exe
 
#:If you installed an older version of the adminpak, you'll notice the dial-in tab is missing from property pages. Just follow the link above to get SP2 which does not have this issue.
 
# Run through the installation.
 
# Press start->run, type 'dsa.msc', if a window 'active directory users and computers' prompt up, it mean you had install adminpak it successfully.  You can also find this at Start>Programs>Administrative Tools, which should have a lot more items now.
 
# Go to c:\Program Files\Support Tools to check whether the support tools were installed correctly; if yes, then your XP workstation is ready to manage the Samba 4 Active Directory.
 
 
 
==== Group Policy Management Console ====
 
# You may also find the Group Policy Management Console useful. You can download it from
 
#* http://www.microsoft.com/downloads/details.aspx?FamilyId=0A6D4C24-8CBD-4B35-9272-DD3CBFC81887&displaylang=en
 
#:This is primarily useful when you have larger installs and are managing many machines. You may need to download the .NET Framework first.
 
 
 
== Step 2: Viewing Samba Active Directory Content ==
 
 
 
# When logged on as a Domain Administrator, start the Active Directory Users and Computers Snap-In, either by clicking Start -> Programs\Administrative Tools\Active Directory Users and Computers, or by clicking Start -> Run 'dsa.msc'
 
# Expand the samdom.example.com tree to see existing objects in the domain.
 
#:[[Image:Samba4dsa.msc.jpg]]
 
 
 
= Managing Samba 4 Active Directory From a Windows Client =
 
One of Samba 4's goals is to integrate with (and replace) Active Directory as a system.  At this point, if everything has worked correctly you should have an "Administrative Tools" menu under Programs.  If, under Administrative Tools you have "Active Directory Users and Computers", that is a very good sign.  Most times, if there is a configuration or bug in Samba, the AD Users & Computers (among other interfaces) won't show up as an option.  You can run it by hand (Start->Run->dsa.msc) but it's unlikely to work correctly.
 
 
 
 
 
== Step 1: Adding Users into Samba 4 Active Directory ==
 
Unlike Samba 3, Samba 4 does not require a local Unix user for each Samba user that is created.
 
 
 
To create a Samba user, use the following command:
 
 
 
/usr/local/samba/bin/samba-tool user add USERNAME
 
 
 
To inspect the allocated user ID and SID, use the following command:
 
 
 
$ /usr/local/samba/bin/wbinfo --name-to-sid USERNAME
 
S-1-5-21-4036476082-4153129556-3089177936-1005 SID_USER (1)
 
 
$ /usr/local/samba/bin/wbinfo --sid-to-uid S-1-5-21-4036476082-4153129556-3089177936-1005
 
3000011
 
 
 
If you want to change this mapping, then use <tt>ldbedit<tt> on the <tt>/usr/local/samba/private/idmap.ldb</tt>, as shown:
 
 
 
$ ldbedit -e emacs -H /usr/local/samba/private/idmap.ldb objectsid=S-1-5-21-4036476082-4153129556-3089177936-1005
 
 
 
*Note: You can replace <tt>emacs</tt> with your editor of choice.
 
 
 
You will find records that look like this:
 
 
 
# record 1
 
dn: CN=S-1-5-21-4036476082-4153129556-3089177936-1005
 
cn: S-1-5-21-4036476082-4153129556-3089177936-1005
 
objectClass: sidMap
 
objectSid: S-1-5-21-4036476082-4153129556-3089177936-1005
 
type: ID_TYPE_BOTH
 
xidNumber: 3000011
 
distinguishedName: CN=S-1-5-21-4036476082-4153129556-3089177936-1005
 
 
 
If you change the <tt>xidNumber</tt> attribute and save your editor then exit,
 
then Samba will update the mapping to between the SID and the user
 
ID. Updating group mappings works in the same way.
 
 
 
*Note: You can also manage users using the normal Windows AD user management tools.
 
 
 
= Setting Up Roaming Profiles =
 
 
 
1. You will need to create a share for the profiles, typically named <tt>profiles</tt>.  Edit the <tt>/usr/local/samba/etc/smb.conf</tt> to include:
 
 
 
[profiles]
 
      path = /usr/local/samba/var/profiles
 
      read only = no
 
 
 
2. Create the directory above using:
 
 
 
  $ sudo mkdir /usr/local/samba/var/profiles
 
 
 
3. In Windows, start ''Active Directory Users and Computers'', select all the users, right click, and hit properties
 
 
 
4. Under the profile tab, in the ''Profile path'', type the path to your share along with %USERNAME% as follows:
 
 
 
  \\sambaserver.samdom.example.com\profiles\%USERNAME%
 
 
 
5. click OK, logout and login as one of those users. When you logout again, you should see that the profile has been synced onto the samba server.
 
 
 
*Note: An excellent walk-through on configuring Roaming Profiles and Folder Redirection is available [http://www.grouppolicy.biz/2010/08/best-practice-roaming-profiles-and-folder-redirection-a-k-a-user-virtualization/ here.]
 
 
 
= Adding Organization Units (OU) Into a Samba  Domain =
 
 
 
The Organizational Unit (OU) is a powerful feature in Active
 
Directory. This is a type of container which allows you to drag & drop
 
users and/or computers into it.
 
 
 
We can link several types of group policies to an OU, and the settings
 
will push out to all users/computers that sit under the OU. Withing a single domain,
 
you can have as many OUs and sub-OUs as you'd like. The result is that
 
it can greatly reduce administrative overhead since you are able to
 
manage everything via an OU. The implementation of Group Policy will
 
be discussed in the next chapter.
 
 
 
Before we create an OU, we must know what one looks like. By default
 
we can see a sample OU called 'Domain Controllers', which uses a different
 
icon in the Windows management tools than the 'users' and 'computers'
 
containers. We can deploy Group Policy to the users or the computers container.
 
 
 
# To create an OU as the Domain Administrator, click Start -> Run -> dsa.msc
 
# Right click your domain.
 
# Select New -> Organizational Unit
 
# Type 'OU Demo'
 
# You will see a new OU appear, with the name 'OU Demo'.
 
# You can drag the user 'demo' into the new OU (Don't move other users! Unless you want to get stuck!).
 
# Right click 'OU Demo', A sub-OU can be created with New -> Organizational Unit.
 
 
 
Normally OUs are created according to the department setup of your
 
organization. Be careful not to confuse Groups and OUs. Groups are
 
used to control permissions, OUs are used for deploying settings to
 
all users/computers within the OU.
 
 
 
= Implementing Group Policies (GPO) in A Samba Domain =
 
 
 
Samba Active Directory has support for Goup Plicies, and can create
 
the Goup Plicy on the fly. The basic idea of Goup Plicies is:-
 
 
 
# Group Policies have two kinds of settings: computers and users.
 
# Computer settings apply to computers, while user settings apply to users.
 
# We link the group policy to a particular OU, and the group policy will effect all computers/users under the OU.
 
# To add a group policy, right click 'OU Demo' OU->properties.
 
# Choose group policy.
 
# Press new, and name it as 'GP Demo'.
 
# Press edit to modify the policy.
 
# Here will demonstrate how to block users from access to the control panel. Open the tree 'User Configuration'->'Administrative Templates'->'Control Panel'.
 
# Double click on 'Prohibit access to the Control Panel'.
 
# Press enabled and then press OK. Now the all users under 'OU Demo' won't able to access to the control panel.
 
# Make sure that the user 'demo' is inside the 'OU Demo' (You can drag and drop it).
 
# Logout and login as user 'demo'.
 
# You'll find user demo is not able to access control panel.
 
 
 
== Notes ==
 
:User configuration will take effect once you logout and login.
 
:Computer configuration will take effect when you restart the computer.
 
:GPO Password Policies are not read by Samba when assigning passwords, to change the policy that Samba uses you must use '''samba-tool domain passwordsettings'''
 
 
 
To learn more about managing and implementing organizational units, group policies, and Active Directory, try a web search for Google in Windows 2003 Active Directory implementation.
 
  
 
= Joining a Windows Domain Controller as an Additional DC in a Domain =
 
= Joining a Windows Domain Controller as an Additional DC in a Domain =
Line 831: Line 269:
 
or use Samba and bind9 for DNS. Mixing the two can work, but it is an
 
or use Samba and bind9 for DNS. Mixing the two can work, but it is an
 
advanced topic that is beyond the scope of this howto.
 
advanced topic that is beyond the scope of this howto.
 +
 +
= Backup and Recovery of a Samba AD DC =
 +
 +
See the Samba [[Backup_and_Recovery|Backup and Recovery]] howto.
  
 
= Migrating an Existing Samba Domain to Samba  =
 
= Migrating an Existing Samba Domain to Samba  =
Line 840: Line 282:
 
If you finished setting up or migrating to Samba 4, you maybe want to connect other services
 
If you finished setting up or migrating to Samba 4, you maybe want to connect other services
 
to your new Active Directory. Have a look at the [[Samba4/beyond|Beyond Samba]] page.
 
to your new Active Directory. Have a look at the [[Samba4/beyond|Beyond Samba]] page.
 +
 +
= Setup your firewall =
 +
 +
If you are setting up samba to work with your firewall, check out the [[Configure_your_firewall| configure your firewall]] page.
  
 
= Report Your Success/Failure! =
 
= Report Your Success/Failure! =

Revision as of 03:38, 4 April 2013

HOWTO to set up Samba as an Active Directory compatible Domain Controller

This document explains how to setup a simple Samba server as a Domain Controller compatible with Microsoft's Active Directory, for use particularly by Microsoft Windows clients that are joined to the Active Directory Domain, for services such as Domain Logon. We refer to this capability as being an AD DC for short.

Video Demonstrations of This HOWTO

A set of demonstration videos is available that may provide a useful overview of the contents of this HOWTO.

A Note on Versions

Samba is developing rapidly. This HOWTO is frequently updated to reflect the latest changes in the Samba git repository. Please see the Samba 4.0 Release Planning for more specifics on the release planning.

Please review the Release Notes for the version you have installed, it may contain important information not yet reflected in this HOWTO.

Installing Samba

You will either need to install samba from a your distributions package manager or Build Samba. At this time the packages are generally older and very hard to support due to the rapid development of the samba project, so it is recommended to build from source.

Upgrading

If you are upgrading from a previous release of Samba 4.x, be sure to review all the Release Notes for the new version, as well as the notes for all the interim versions.

If you are upgrading from source please refer to the upgrading a source version otherwise please consult your distributions upgrade procedure.

Server Information

For the rest of this tutorial, we will be using the following configuration for our example AD DC configuration.

 Installation Directory: /usr/local/samba
 Server Hostname: samba (Your linux hostname will be used here)
 DNS Domain Name: samdom.example.com (This will also be your realm)
 NT4 Domain Name: samdom
 IP Address: 192.168.1.2
 Server Role: DC

Step 1: Provision Samba

The provision step sets up a basic user database, and is used when you are setting up your Samba server in its own domain. If you instead want to setup your Samba server as an additional domain controller in an existing domain, then please see the Joining a Windows Domain Controller as an Additional DC in a Domain section on this page. If you want to migrate an existing Samba 3.x domain to Samba 4.0 as an AD DC, see the Migrating an Existing Samba 3 Domain to Samba 4 section on this page.

The provision step must be run as a user with permission to write to the install directory.

 # /usr/local/samba/bin/samba-tool domain provision

This will run the provision tool interactively. For realm use something like samdom.example.com, for domain (it should suggest this) use samdom.

If you run the previous command with a user who does not have write permission to the install directory, you will get an error similar to this:

tdb_open_ex: could not open file /usr/local/samba/private/sam.ldb.d/DC=SAMDOM,DC=EXAMPLE,DC=COM. ldb: Permission denied

You can pass options to samba-tool domain provision command. You can run it with the --help option to see a list of them.

  • Note: As of Samba 4.0.0 RC1 the provision command now uses Samba's internal DNS server by default, if you would like the older behavior, add --dns-backend=BIND9_DLZ or --dns-backend=BIND_FLATFILE to the above provision command.
  • Note: You may need to remove the /usr/local/samba/etc/smb.conf file if you are re-running the provision command.
  • Note: If you use the --adminpass='password' switch, be aware that there are password complexity requirements, so if you are getting some odd error with provision, try a more complex password ie. 'Pa$$w0rd'
  • Note: If you have a "password complexity" failure during domain provisioning - read the following! The password complexity requirement is at least one uppercase letter, and one number, and at least eight characters long. If you don't use a complex enough password, the provision script will error, and you will need to delete the /usr/local/samba/private and /usr/local/samba/etc directories, then run samba-tool domain provision again - with a better password.

Step 2: Starting your Samba AD DC

If you are planning to run Samba as a production server, then just run the samba binary as root

# /usr/local/samba/sbin/samba

That will run Samba in 'standard' mode, which is suitable for production use. Samba doesn't yet have init scripts included for each platform, but making one for your platform should not be difficult. There are some example scripts (for RedHat/Fedora, Debian and Ubuntu) on the Samba4/InitScript page.

If you are running Samba as a developer you may find the following more useful:

# /usr/local/samba/sbin/samba -i -M single

This will start samba with all log messages printed to stdout, and restricting it to a single process. That mode of operation makes debugging samba with gdb easier.

If you want to launch it under gdb, run samba as follows:

# gdb --args /usr/local/samba/sbin/samba -i -M single

Note that if you are running any Samba 3 smbd or nmbd processes they need to be stopped before starting samba from Samba 4.

Take care when running Samba commands if you also have a previous version of Samba installed. To avoid inadvertently running the wrong version, you should consider putting the /usr/local/samba/bin and /usr/local/samba/sbin directories in the beginning of your PATH variable.

You can see what version of Samba, if any, is in your PATH variable by running the following:

# samba -V

Step 3: Testing connectivity to your Samba AD DC

First check you have the right version of smbclient by running the following command:

 $ /usr/local/samba/bin/smbclient --version

This should show you a version starting with "Version 4.0.XXXXX".

Now run this command to list the shares on your Samba server:

$ /usr/local/samba/bin/smbclient -L localhost -U%

The output of the command should be similar to what is shown below:

       Sharename       Type      Comment
       ---------       ----      -------
       netlogon        Disk
       sysvol          Disk
       IPC$            IPC       IPC Service (Samba 4.0.0)

The netlogon and sysvol shares are basic shares needed for Active Directory server operation.

If the command failed, restart samba by running the following:

# killall samba
# /usr/local/samba/sbin/samba

To test that authentication is working, you should try to connect to the netlogon share using the Administrator password you set earlier:

$ smbclient //localhost/netlogon -UAdministrator%'p4$$word' -c 'ls'

The output of the command should be similar to what is shown below:

Domain=[SAMDOM] OS=[Unix] Server=[Samba 4.0.0]
  .                                   D        0  Wed Sep 12 21:00:36 2012
  ..                                  D        0  Wed Sep 12 21:02:28 2012

Step 4: Configure DNS

A working DNS setup is essential to the correct operation of Samba. Without the right DNS entries, Kerberos won't work, which in turn means that many of the basic features of Samba won't work.

It is worth spending some extra time to ensure your DNS setup is correct, as debugging problems caused by mis-configured DNS can take a lot of time later on.

Samba's Internal DNS Server

If you specified --dns-backend=SAMBA_INTERNAL or did not specify any backend at all when you provisioned, there is no further setup required for the DNS server, however you used any other --dns-backend= option in your provision line see using bind as your dns backend for additional setup instructions. After you have dns configured, you still need to configure your /etc/resolv.conf as shown in Configure /etc/resolv.conf

If you want the internal DNS server to forward requests it isn't responsible for, then add the following to your smb.conf:

 dns forwarder = {IP-Address of the DNS you want to forward to}

Warning: If you are running X windows on your machine, networkmanager could be spawning dnsmasq or if you are using another DNS server, check the logs for lines like:

Failed to bind to 0.0.0.0:53 TCP - NT_STATUS_ADDRESS_ALREADY_ASSOCIATED

If you need to disable this you can open /etc/NetworkManager/NetworkManager.conf in your favorite editor as root, and comment out the line dns=dnsmasq, then restart network-manager

Configure /etc/resolv.conf

For all the local DNS lookups to resolve correctly, we need to modify the server's /etc/resolv.conf file. The following example should be sufficient to have DNS resolve properly:

domain samdom.example.com
nameserver 192.168.1.2
  • Note: Remember to change the IP Address to your Samba server's IP Address
  • Note: If your server is set up to receive its IP configuration via DHCP, the /etc/resolv.conf file might be automatically updated. Refer to your distribution's documentation on how to stop this behavior.

Testing DNS

To test that DNS is working properly, run the following commands and compare the output to what is shown:

$ host -t SRV _ldap._tcp.samdom.example.com.
_ldap._tcp.samdom.example.com has SRV record 0 100 389 samba.samdom.example.com.
$ host -t SRV _kerberos._udp.samdom.example.com.
_kerberos._udp.samdom.example.com has SRV record 0 100 88 samba.samdom.example.com.
$ host -t A samba.samdom.example.com.
samba.samdom.example.com has address 10.0.0.1

The answers you get should be similar to the ones above (adjusted for your DNS domain name and hostname). If you get any errors, carefully check your system logs to locate the problem.

Step 5: Configure Kerberos

Kerberos configuration is handled by the krb5.conf file. This file is typically located in the /etc directory, please refer to your distribution documentation for the location of this file on your system. There is a sample file located at /usr/local/samba/share/setup/krb5.conf that is a suitable replacement for an existing file. This file is generated by provision and will look similar to the following:

[libdefaults]
    default_realm = SAMDOM.EXAMPLE.COM
    dns_lookup_realm = false
    dns_lookup_kdc = true
  • Note: If you have forgotten your realm, running samba-tool testparm --suppress-prompt | grep realm will let you know what you used.

Testing Kerberos

The simplest test is to use the kinit command as follows:

$ kinit administrator@SAMDOM.EXAMPLE.COM
Password:
  • Note: You must specify your domain realm SAMDOM.EXAMPLE.COM in uppercase letters
  • Note: Depending on your distribution kinit may just return you to a prompt, however, some distributions may return something like Warning: Your password will expire in 41 days on Thu Mar 28 04:38:35 2013.

To verify that Kerberos is working, and that you received a ticket, run the following:

$ klist
Ticket cache: FILE:/tmp/krb5cc_1000
Default principal: administrator@SAMDOM.EXAMPLE.COM
 
Valid starting     Expires            Service principal
02/10/13 19:39:48  02/11/13 19:39:46  krbtgt/SAMDOM.EXAMPLE.COM@SAMDOM.EXAMPLE.COM

If either kinit or klist do not exist on your system, refer to Samba_4_OS_Requirements on how to install the necessary packages.

You can also test Kerberos form a remote client, but you must first configure the client's krb5.conf and resolve.conf as shown previously.

  • Note: If you are using a client behind NAT then you have to add the following to the krb5.conf on the domain controller server:
[kdc]
    check-ticket-addresses = false
  • Note: If provision generated you a password and you forgot it or didn't get it saved in some way, you can use "samba-tool user setpassword administrator" as root to reset it.

Configure NTP (Optional)

The Configure NTP page includes the full NTP configuration process and the SELinux policies.

Setup a basic File Share

The provisioning will create a very simple /usr/local/samba/etc/smb.conf file with no non-system shares by default. For the server to be useful you, will need to update it to have at least one share. For example:

[test]
      path = /data/test
      comment = Test Share
      read only = no
  • Note: You will need to restart Samba to make new shares visible.

Setup a Printer share

You can also Setup a printer share for samba.

Configure a Windows Client to join our Samba Active Directory

Configuring a windows client to join our domain is useful when you need to start connecting windows clients.

Samba AD management

You can manage your Samba AD just like a windows AD using the windows tools by using the following link Samba AD Management from windows

You may also want to use the linux command line, so you can add users with samba-tool as well.

Joining a Windows Domain Controller as an Additional DC in a Domain

Once you have a Samba domain controller set up, you can choose to join additional domain controllers to the domain, whether they be additional Samba domain controllers, or additional Windows domain controllers.

If you wish to join an additional Samba domain controller to a domain, then please see the Joining a domain as a DC page. The instructions on that page are the same for joining Samba to a Windows domain as they are for joining Samba to an existing Samba domain.

If you wish to join a new Windows domain controller to a Samba domain, then you should use the 'dcpromo' tool on the Windows machine. Please see the normal instructions for installing dcpromo on Windows, with the exception that you should not check the 'DNS server' option box when it is offered. Right now you should either use Windows for DNS, or use Samba and bind9 for DNS. Mixing the two can work, but it is an advanced topic that is beyond the scope of this howto.

Backup and Recovery of a Samba AD DC

See the Samba Backup and Recovery howto.

Migrating an Existing Samba Domain to Samba

It is very likely that you already have a running Samba3 domain on your network. The question is, how do you migrate that domain and all of its users and machines over to a new Samba 4 based domain without having to move every user profile and machine to the new domain? The answer is the samba-tool domain classicupgrade function.

Connecting other services to your new/migrated Active Directory

If you finished setting up or migrating to Samba 4, you maybe want to connect other services to your new Active Directory. Have a look at the Beyond Samba page.

Setup your firewall

If you are setting up samba to work with your firewall, check out the configure your firewall page.

Report Your Success/Failure!

Samba, as a replicating domain controller, is still developing rapidly. We'd like to hear from users about their successes and failures. We would encourage you to report both your successes and failures to the samba-technical mailing list on http://lists.samba.org