&author.jht;
&author.jeremy;
&author.jerry;
&author.tridge;
&author.jelmer;
&person.gd;LDAP updatesDomain Membershipdomain membermachine trust accountdomain security
Domain membership is a subject of vital concern. Samba must be able to
participate as a member server in a Microsoft domain security context, and
Samba must be capable of providing domain machine member trust accounts;
otherwise it would not be able to offer a viable option for many users.
domain membershipmisinformation
This chapter covers background information pertaining to domain membership,
the Samba configuration for it, and MS Windows client procedures for joining a
domain. Why is this necessary? Because both are areas in which there exists
within the current MS Windows networking world, and particularly in the
UNIX/Linux networking and administration world, a considerable level of
misinformation, incorrect understanding, and lack of knowledge. Hopefully
this chapter will fill the voids.
Features and Benefitsdomain securitysingle sign-onSSO
MS Windows workstations and servers that want to participate in domain security need to
be made domain members. Participating in domain security is often called
single sign-on, or SSO for short. This
chapter describes the process that must be followed to make a workstation
(or another server &smbmdash; be it an MS Windows NT4/200x
server) or a Samba server a member of an MS Windows domain security context.
native memberADSdomain controlServer TypeDomain Member
Samba-3 can join an MS Windows NT4-style domain as a native member server, an
MS Windows Active Directory domain as a native member server, or a Samba domain
control network. Domain membership has many advantages:
SAM
MS Windows workstation users get the benefit of SSO.
access rightsfile ownershipaccess controlsSAM
Domain user access rights and file ownership/access controls can be set
from the single Domain Security Account Manager (SAM) database
(works with domain member servers as well as with MS Windows workstations
that are domain members).
domain membersnetwork logon
Only MS Windows NT4/200x/XP Professional
workstations that are domain members can use network logon facilities.
domain memberpolicy filesNTConfig.POLdesktop profiles
Domain member workstations can be better controlled through the use of
policy files (NTConfig.POL) and desktop profiles.
logon scripttransparent accessapplication servers
Through the use of logon scripts, users can be given transparent access to network
applications that run off application servers.
user access managementSAMLDAPADS
Network administrators gain better application and user access management
abilities because there is no need to maintain user accounts on any network
client or server other than the central domain database
(either NT4/Samba SAM-style domain, NT4 domain that is backend-ed with an
LDAP directory, or via an Active Directory infrastructure).
MS Windows Workstation/Server Machine Trust AccountsMachine Trust Accountsauthenticatedomain controllerrogue user
A Machine Trust Account is an account that is used to authenticate a client machine (rather than a user) to
the domain controller server. In Windows terminology, this is known as a computer account. The
purpose of the machine trust account is to prevent a rogue user and domain controller from colluding to gain
access to a domain member workstation.
machine trust accountpasswordshared secretunauthorizedWindows NT/200x/XP ProfessionalWindows 9x/Me/XP Home
The password of a Machine Trust Account acts as the shared secret for secure communication with the domain
controller. This is a security feature to prevent an unauthorized machine with the same NetBIOS name from
joining the domain, participating in domain security operations, and gaining access to domain user/group
accounts. Windows NT/200x/XP Professional clients use machine trust accounts, but Windows 9x/Me/XP Home
clients do not. Hence, a Windows 9x/Me/XP Home client is never a true member of a domain because it does not
possess a Machine Trust Account, and, thus, has no shared secret with the domain controller.
Windows RegistryPDCADSMachine Trust Account
A Windows NT4 PDC stores each Machine Trust Account in the Windows Registry.
The introduction of MS Windows 2000 saw the introduction of Active Directory,
the new repository for Machine Trust Accounts. A Samba PDC, however, stores
each Machine Trust Account in two parts,
as follows:
domain security accountaccount informationbackend database
A domain security account (stored in the ) that has been configured in
the &smb.conf; file. The precise nature of the account information that is stored depends on the type of
backend database that has been chosen.
smbpasswdUNIX login IDUIDLanManNT-encrypted passwordUNIX user identifierUID
The older format of this data is the smbpasswd database
that contains the UNIX login ID, the UNIX user identifier (UID), and the
LanMan and NT-encrypted passwords. There is also some other information in
this file that we do not need to concern ourselves with here.
databaseldapsamsmbpasswdaccount controls
The two newer database types are called ldapsam and tdbsam. Both store considerably more data than the older
smbpasswd file did. The extra information enables new user account controls to be
implemented.
UNIX account/etc/passwd
A corresponding UNIX account, typically stored in /etc/passwd. Work is in progress to
allow a simplified mode of operation that does not require UNIX user accounts, but this has not been a feature
of the early releases of Samba-3, and is not currently planned for release either.
Machine Trust Accountscreating
There are three ways to create Machine Trust Accounts:
manual UNIX account creation
Manual creation from the UNIX/Linux command line. Here, both the Samba and
corresponding UNIX account are created by hand.
Server ManagerNexus toolkit
Using the MS Windows NT4 Server Manager, either from an NT4 domain member
server or using the Nexus toolkit available from the Microsoft Web site.
This tool can be run from any MS Windows machine as long as the user is
logged on as the administrator account.
Machine Trust Accountjoined clientOn-the-fly creation. The Samba Machine Trust Account is automatically
created by Samba at the time the client is joined to the domain.
(For security, this is the recommended method.) The corresponding UNIX
account may be created automatically or manually.
enforcingmachine trust accountcreation
Neither MS Windows NT4/200x/XP Professional, nor Samba, provide any method for enforcing the method of machine
trust account creation. This is a matter of the administrator's choice.
Manual Creation of Machine Trust Accounts/etc/passwduseraddvipw
The first step in manually creating a Machine Trust Account is to manually
create the corresponding UNIX account in /etc/passwd.
This can be done using vipw or another adduser command
that is normally used to create new UNIX accounts. The following is an example for
a Linux-based Samba server:
&rootprompt;/usr/sbin/useradd -g machines -d /var/lib/nobody \
-c "machine nickname" \
-s /bin/false machine_name$
&rootprompt;passwd -l machine_name$primary groupGIDmachine accounts
In the example above there is an existing system group machines which is used
as the primary group for all machine accounts. In the following examples the machines group
numeric GID is 100.
chpassBSD
On *BSD systems, this can be done using the chpass utility:
&rootprompt;chpass -a \
'machine_name$:*:101:100::0:0:Windows machine_name:/dev/null:/sbin/nologin'/etc/passwd$null shellhome directory
The /etc/passwd entry will list the machine name
with a $ appended, and will not have a password, will have a null shell and no
home directory. For example, a machine named doppy would have an
/etc/passwd entry like this:
doppy$:x:505:100:machine_nickname:/dev/null:/bin/false
machine_nicknamemachine_nameMachine Trust Account
in which machine_nickname can be any
descriptive name for the client, such as BasementComputer.
machine_name absolutely must be the NetBIOS
name of the client to be joined to the domain. The $ must be
appended to the NetBIOS name of the client or Samba will not recognize
this as a Machine Trust Account.
UNIX accountSamba accountMachine Trust Accountpassword
Now that the corresponding UNIX account has been created, the next step is to create
the Samba account for the client containing the well-known initial
Machine Trust Account password. This can be done using the
smbpasswd command
as shown here:
&rootprompt;smbpasswd -a -m machine_namemachine_nameNetBIOS nameRIDUID
where machine_name is the machine's NetBIOS
name. The RID of the new machine account is generated from the UID of
the corresponding UNIX account.
Join the client to the domain immediatelyMachine Trust AccountPDCServer Managerchanges passwordNetBIOS name
Manually creating a Machine Trust Account using this method is the
equivalent of creating a Machine Trust Account on a Windows NT PDC using
Server Manager
the Server Manager. From the time at which the
account is created to the time the client joins the domain and
changes the password, your domain is vulnerable to an intruder joining
your domain using a machine with the same NetBIOS name. A PDC inherently
trusts members of the domain and will serve out a large degree of user
information to such clients. You have been warned!
Managing Domain Machine Accounts using NT4 Server Managermachine trust accountsautomatic account creationServer Manager
A working is essential
for machine trust accounts to be automatically created. This applies no matter whether
you use automatic account creation or the NT4 Domain Server Manager.
SRVTOOLS.EXESrvMgr.exeUsrMgr.exedomain management tools
If the machine from which you are trying to manage the domain is an
MS Windows NT4 workstation or MS Windows 200x/XP Professional,
the tool of choice is the package called SRVTOOLS.EXE.
When executed in the target directory it will unpack SrvMgr.exe
and UsrMgr.exe (both are domain management tools for MS Windows NT4 workstation).
Nexus.exeMicrosoft Windows 9x/Me
If your workstation is a Microsoft Windows 9x/Me family product,
you should download the Nexus.exe package from the Microsoft Web site.
When executed from the target directory, it will unpack the same tools but for use on
this platform.
Further information about these tools may be obtained from Knowledge Base articles
173673, and
172540srvmgr.exeServer Manager for Domains
Launch the srvmgr.exe (Server Manager for Domains) and follow these steps:
Server Manager Account Machine Account Management
From the menu select Computer.
Click Select Domain.
Click the name of the domain you wish to administer in the
Select Domain panel and then click
OK.
Again from the menu select Computer.
Select Add to Domain.
In the dialog box, click the radio button to
Add NT Workstation of Server, then
enter the machine name in the field provided, and click the
Add button.
On-the-Fly Creation of Machine Trust AccountsMachine Trust Accountcreation
The third (and recommended) way of creating Machine Trust Accounts is simply to allow the Samba server to
create them as needed when the client is joined to the domain.
Machine Trust AccountUNIX accountUNIX accountadd machine script
Since each Samba Machine Trust Account requires a corresponding UNIX account, a method
for automatically creating the UNIX account is usually supplied; this requires configuration of the
add machine script option in &smb.conf;. This method is not required; however, corresponding UNIX
accounts may also be created manually.
useraddRed Hat Linux
Here is an example for a Red Hat Linux system:
/usr/sbin/useradd -d /var/lib/nobody -g 100 -s /bin/false -M %uMaking an MS Windows Workstation or Server a Domain Member
The procedure for making an MS Windows workstation or server a member of the domain varies
with the version of Windows.
Windows 200x/XP Professional Clientdomain membermachine trust accountcreate privilegeprivilegesroot
When the user elects to make the client a domain member, Windows 200x prompts for
an account and password that has privileges to create machine accounts in the domain.
A Samba administrator account (i.e., a Samba account that has root privileges on the
Samba server) must be entered here; the operation will fail if an ordinary user
account is given.
administrator account/etc/passwd
For security reasons, the password for this administrator account should be set
to a password that is other than that used for the root user in /etc/passwd.
accountcreate domain memberrootmap
The name of the account that is used to create domain member machine trust accounts can be
anything the network administrator may choose. If it is other than root,
then this is easily mapped to root in the file named in the &smb.conf; parameter
/etc/samba/smbusers.
administrator accountencryption keymachine trust account
The session key of the Samba administrator account acts as an encryption key for setting the password of the machine trust
account. The Machine Trust Account will be created on-the-fly, or updated if it already exists.
Windows NT4 ClientMachine Trust AccountCreate a Computer Accountjoin the machine
If the Machine Trust Account was created manually, on the
Identification Changes menu enter the domain name, but do not
check the box Create a Computer Account in the Domain.
In this case, the existing Machine Trust Account is used to join the machine
to the domain.
Machine Trust Accounton the flyComputer Accountadministrator account
If the Machine Trust Account is to be created on the fly, on the Identification Changes menu enter the domain
name and check the box Create a Computer Account in the Domain. In this case, joining
the domain proceeds as above for Windows 2000 (i.e., you must supply a Samba administrator account when
prompted).
Samba Client
Joining a Samba client to a domain is documented in the next section.
Domain Member Serverdomain securitysecurity contextauthentication regimeADS
This mode of server operation involves the Samba machine being made a member
of a domain security context. This means by definition that all user
authentication will be done from a centrally defined authentication regime.
The authentication regime may come from an NT3/4-style (old domain technology)
server, or it may be provided from an Active Directory server (ADS) running on
MS Windows 2000 or later.
authenticationbackenddistributed directoryLDAPOpenLDAPiPlanetSunNovelle-Directory
Of course it should be clear that the authentication backend itself could be
from any distributed directory architecture server that is supported by Samba.
This can be LDAP (from OpenLDAP), or Sun's iPlanet, or Novell e-Directory
Server, and so on.
LDAPidentity managementmachine authentication
When Samba is configured to use an LDAP or other identity management and/or
directory service, it is Samba that continues to perform user and machine
authentication. It should be noted that the LDAP server does not perform
authentication handling in place of what Samba is designed to do.
create a domain machine accountdomain member serverjoin the domain
Please refer to Domain Control, for more information regarding
how to create a domain machine account for a domain member server as well as for
information on how to enable the Samba domain member machine to join the domain
and be fully trusted by it.
Joining an NT4-type Domain with Samba-3Assumptions lists names that are used in the remainder of this chapter.
First, you must edit your &smb.conf; file to tell Samba it should now use domain security.
security = userstandalone serverdomain member serverdomain security
Change (or add) your line in the [global] section
of your &smb.conf; to read:
domain
Note that if the parameter security = user is used, this machine would function as a
standalone server and not as a domain member server. Domain security mode causes Samba to work within the
domain security context.
Next change the line in the
section to read:
&example.workgroup;
This is the name of the domain we are joining.
authenticatePDC
You must also have the parameter
set to yes in order for your users to authenticate to the NT PDC.
This is the default setting if this parameter is not specified. There is no need to specify this
parameter, but if it is specified in the &smb.conf; file, it must be set to Yes.
PDCBDCauthenticate usersdomain controllers
Finally, add (or modify) a line in the [global]
section to read:
DOMPDC DOMBDC1 DOMBDC2
These are the PDC and BDCs Samba
will attempt to contact in order to authenticate users. Samba will
try to contact each of these servers in order, so you may want to
rearrange this list in order to spread out the authentication load
among Domain Controllers.
list of domain controllersmechanismbroadcast-based name resolutionDNS name resolution
Alternatively, if you want smbd to determine automatically the list of domain controllers to use for
authentication, you may set this line to be:
*WINS
This method allows Samba to use exactly the same mechanism that NT does. The
method either uses broadcast-based name resolution, performs a WINS database
lookup in order to find a domain controller against which to authenticate,
or locates the domain controller using DNS name resolution.
To join the domain, run this command:
netrpcjoin
&rootprompt;net rpc join -S DOMPDC -UAdministrator%passwordNetBIOS namePDCWINS lookupNetBIOS broadcast
If the argument is not given, the domain name will be obtained from &smb.conf; and
the NetBIOS name of the PDC will be obtained either using a WINS lookup or via NetBIOS broadcast based name
look up.
joining the domainPDCAdministrator%passwordJoined domain
The machine is joining the domain DOM, and the PDC for that domain (the only machine
that has write access to the domain SAM database) is DOMPDC; therefore, use the
option. The Administrator%password is the login name and
password for an account that has the necessary privilege to add machines to the
domain. If this is successful, you will see the following message in your terminal window.
Where the older NT4-style domain architecture is used:
Joined domain DOM.netadsjoinADSjoin the ADS domain
Where Active Directory is used, the command used to join the ADS domain is:
&rootprompt; net ads join -UAdministrator%password
And the following output is indicative of a successful outcome:
Joined SERV1 to realm MYREALM.
Refer to the net man page and to the chapter on remote
administration for further information.
join the domaincreate machine trust accountPDC
This process joins the server to the domain without separately having to create the machine
trust account on the PDC beforehand.
machine account passwordchange protocolrandom machine account password/usr/local/samba/private/secrets.tdb/etc/samba/secrets.tdb
This command goes through the machine account password change protocol, then writes the new (random) machine
account password for this Samba server into a file in the same directory in which a smbpasswd file would be
normally stored. The trust account information that is needed by the DMS is written into the file
/usr/local/samba/private/secrets.tdb or /etc/samba/secrets.tdb.
domain-level securityshadow password file
This file is created and owned by root and is not readable by any other user. It is
the key to the domain-level security for your system and should be treated as carefully
as a shadow password file.
Samba daemonsdistribution/etc/init.d/samba
Finally, restart your Samba daemons and get ready for clients to begin using domain
security. The way you can restart your Samba daemons depends on your distribution,
but in most cases the following will suffice:
&rootprompt;/etc/init.d/samba restart
Why Is This Better Than security = server?domain securityUNIX usersauthentication
Currently, domain security in Samba does not free you from having to create local UNIX users to represent the
users attaching to your server. This means that if domain user DOM\fred attaches to your
domain security Samba server, there needs to be a local UNIX user fred to represent that user in the UNIX file
system. This is similar to the older Samba security mode server, where Samba would pass through the authentication request to a Windows
NT server in the same way as a Windows 95 or Windows 98 server would.
winbindUIDGID
Please refer to Winbind: Use of Domain Accounts, for information on a system
to automatically assign UNIX UIDs and GIDs to Windows NT domain users and groups.
domain-levelauthenticationRPC
The advantage of domain-level security is that the authentication in domain-level security is passed down the
authenticated RPC channel in exactly the same way that an NT server would do it. This means Samba servers now
participate in domain trust relationships in exactly the same way NT servers do (i.e., you can add Samba
servers into a resource domain and have the authentication passed on from a resource domain PDC to an account
domain PDC).
PDCBDCconnection resources
In addition, with server, every Samba daemon on a server has to
keep a connection open to the authenticating server for as long as that daemon lasts. This can drain the
connection resources on a Microsoft NT server and cause it to run out of available connections. With
domain, however, the Samba daemons connect to the PDC or BDC
only for as long as is necessary to authenticate the user and then drop the connection, thus conserving PDC
connection resources.
PDCauthentication replySIDNT groups
Finally, acting in the same manner as an NT server authenticating to a PDC means that as part of the
authentication reply, the Samba server gets the user identification information such as the user SID, the list
of NT groups the user belongs to, and so on.
Much of the text of this document was first published in the Web magazine
LinuxWorld as the article Doing the NIS/NT Samba.
Samba ADS Domain MembershipActive DirectoryADSActive DirectoryKDCKerberos
This is a rough guide to setting up Samba-3 with Kerberos authentication against a
Windows 200x KDC. A familiarity with Kerberos is assumed.
Configure &smb.conf;
You must use at least the following three options in &smb.conf;:
your.kerberos.REALMADSThe following parameter need only be specified if present.The default setting if not present is Yes.yesADSrealmDNSADS DCpassword server
In case samba cannot correctly identify the appropriate ADS server using the realm name, use the
option in &smb.conf;:
your.kerberos.server
The most common reason for which Samba may not be able to locate the ADS domain controller is a consequence of
sites maintaining some DNS servers on UNIX systems without regard for the DNS requirements of the ADS
infrastructure. There is no harm in specifying a preferred ADS domain controller using the password
server.
smbpasswdauthenticated
You do not need an smbpasswd file, and older clients will be authenticated as
if domain, although it will not do any harm and
allows you to have local users not in the domain.
Configure /etc/krb5.conf/etc/krb5.confKerberos/etc/krb5.confMITHeimdal
With both MIT and Heimdal Kerberos, it is unnecessary to configure the /etc/krb5.conf,
and it may be detrimental.
ADSSRV recordsDNS zonKDC_kerberos.REALM.NAME
Microsoft ADS automatically create SRV records in the DNS zone
_kerberos._tcp.REALM.NAME for each KDC in the realm. This is part
of the installation and configuration process used to create an Active Directory domain.
A KDC is a Kerberos Key Distribution Center and forms an integral part of the Microsoft
active directory infrastructure.
kinitDES-CBC-MD5DES-CBC-CRCencryption typeskerberosWindows 2000
UNIX systems can use kinit and the DES-CBC-MD5 or DES-CBC-CRC encryption types to authenticate to the Windows
2000 KDC. For further information regarding Windows 2000 ADS kerberos interoperability please refer to the
Microsoft Windows 2000 Kerberos Interoperability
guide. Another very useful document that may be referred to for general information regarding Kerberos
interoperability is RFC1510. This RFC
explains much of the magic behind the operation of Kerberos.
MITKRB5SRV recordskrb5.confDNS lookuplibraries
MIT's, as well as Heimdal's, recent KRB5 libraries default to checking for SRV records, so they will
automatically find the KDCs. In addition, krb5.conf only allows specifying
a single KDC, even there if there may be more than one. Using the DNS lookup allows the KRB5
libraries to use whichever KDCs are available.
krb5.conf
When manually configuring krb5.conf, the minimal configuration is:
[libdefaults]
default_realm = YOUR.KERBEROS.REALM
[realms]
YOUR.KERBEROS.REALM = {
kdc = your.kerberos.server
}
[domain_realms]
.kerberos.server = YOUR.KERBEROS.REALM
Heimdal
When using Heimdal versions before 0.6, use the following configuration settings:
[libdefaults]
default_realm = YOUR.KERBEROS.REALM
default_etypes = des-cbc-crc des-cbc-md5
default_etypes_des = des-cbc-crc des-cbc-md5
[realms]
YOUR.KERBEROS.REALM = {
kdc = your.kerberos.server
}
[domain_realms]
.kerberos.server = YOUR.KERBEROS.REALM
KDCkinit
Test your config by doing a kinit
USERNAME@REALM and
making sure that your password is accepted by the Win2000 KDC.
HeimdalADSKDCWindows 2003
With Heimdal versions earlier than 0.6.x you can use only newly created accounts
in ADS or accounts that have had the password changed once after migration, or
in case of Administrator after installation. At the
moment, a Windows 2003 KDC can only be used with Heimdal releases later than 0.6
(and no default etypes in krb5.conf). Unfortunately, this whole area is still
in a state of flux.
realmuppercaseKDC
The realm must be in uppercase or you will get a Cannot find KDC for
requested realm while getting initial credentials error (Kerberos
is case-sensitive!).
synchronizecredentialstime differenceclock skew
Time between the two servers must be synchronized. You will get a kinit(v5): Clock skew too
great while getting initial credentials if the time difference (clock skew) is more than five minutes.
clock skewKerberos
Clock skew limits are configurable in the Kerberos protocols. The default setting is five minutes.
DNSKDChostnamerealm
You also must ensure that you can do a reverse DNS lookup on the IP address of your KDC. Also, the name that
this reverse lookup maps to must either be the NetBIOS name of the KDC (i.e., the hostname with no domain
attached) or it can be the NetBIOS name followed by the realm.
/etc/hostsKDCrealm
The easiest way to ensure you get this right is to add a /etc/hosts entry mapping the IP
address of your KDC to its NetBIOS name. If you do not get this correct, then you will get a local
error when you try to join the realm.
KerberosCreate the Computer AccountTesting Server Setup
If all you want is Kerberos support in &smbclient;, then you can skip directly to Testing with &smbclient; now. Create the Computer Account and Testing Server Setup are needed only if you want Kerberos support for &smbd;
and &winbindd;.
Create the Computer Accountwrite permissionSamba private directoryAdministrator accountADS
As a user who has write permission on the Samba private directory (usually root), run:
&rootprompt; net ads join -U Administrator%password
The Administrator account can be any account that has been designated in the ADS domain security settings with
permission to add machines to the ADS domain. It is, of course, a good idea to use an account other than Administrator.
On the UNIX/Linux system, this command must be executed by an account that has UID=0 (root).
ADSmachine trust accountorganizational unitADS managerkinitnetadsjoin
When making a Windows client a member of an ADS domain within a complex organization, you
may want to create the machine trust account within a particular organizational unit. Samba-3 permits
this to be done using the following syntax:
&rootprompt; kinit Administrator@your.kerberos.REALM
&rootprompt; net ads join "organizational_unit"
Your ADS manager will be able to advise what should be specified for the "organizational_unit" parameter.
organizational directorymachine trust accountcontainerADS
For example, you may want to create the machine trust account in a container called Servers
under the organizational directory Computers\BusinessUnit\Department, like this:
&rootprompt; net ads join "Computers\BusinessUnit\Department\Servers"
This command will place the Samba server machine trust account in the container
Computers\BusinessUnit\Department\Servers. The container should exist in the ADS directory
before executing this command.
Possible ErrorsADS support not compiled inconfig.cacheKerberosheaders files
Samba must be reconfigured (remove config.cache) and recompiled (make clean all install) after the
Kerberos libraries and headers files are installed.
net ads join prompts for user namekinitrights
You need to log in to the domain using kinit
USERNAME@REALM.
USERNAME must be a user who has rights to add a machine to the domain.
Unsupported encryption/or checksum types/etc/krb5.confunsupported encryptionKerberos
Make sure that the /etc/krb5.conf is correctly configured
for the type and version of Kerberos installed on the system.
Testing Server Setupsuccessful joincomputer accountADS
If the join was successful, you will see a new computer account with the
NetBIOS name of your Samba server in Active Directory (in the Computers
folder under Users and Computers.
Windows 2000netuseDES-CBC-MD5
On a Windows 2000 client, try net use * \\server\share. You should
be logged in with Kerberos without needing to know a password. If this fails, then run
klist tickets. Did you get a ticket for the server? Does it have
an encryption type of DES-CBC-MD5?
DES-CBC-MD5ARCFOUR-HMAC-MD5encoding
Samba can use both DES-CBC-MD5 encryption as well as ARCFOUR-HMAC-MD5 encoding.
Testing with &smbclient;smbclientKerberosKerberos authentication
On your Samba server try to log in to a Windows 2000 server or your Samba
server using &smbclient; and Kerberos. Use &smbclient; as usual, but
specify the option to choose Kerberos authentication.
Notesadministrator passwordchange passwordencryption types
You must change the administrator password at least once after installing a domain controller,
to create the right encryption types.
_kerberos._udp_ldap._tcpdefault DNS setup
Windows 200x does not seem to create the _kerberos._udp and
_ldap._tcp in the default DNS setup. Perhaps this will be fixed later in service packs.
Sharing User ID Mappings between Samba Domain Membersmaps UNIX users and groupsUIDGIDSID
Samba maps UNIX users and groups (identified by UIDs and GIDs) to Windows users and groups (identified by SIDs).
These mappings are done by the idmap subsystem of Samba.
mappingsCIFSNFS
In some cases it is useful to share these mappings between Samba domain members,
so name->id mapping is identical on all machines.
This may be needed in particular when sharing files over both CIFS and NFS.
LDAPldap idmap suffix
To use the LDAPldap idmap suffix, set:
ou=Idmap
See the &smb.conf; man page entry for the
parameter for further information.
smbpasswdLDAP administrative passwordsecrets.tdb
Do not forget to specify also the
and to make certain to set the LDAP administrative password into the secrets.tdb using:
&rootprompt; smbpasswd -w ldap-admin-password
In place of ldap-admin-password, substitute the LDAP administration password for your
system.
Common Errorsdomain membermachine trust accounts
In the process of adding/deleting/re-adding domain member machine trust accounts, there are
many traps for the unwary player and many little things that can go wrong.
It is particularly interesting how often subscribers on the Samba mailing list have concluded
after repeated failed attempts to add a machine account that it is necessary to reinstall
MS Windows on the machine. In truth, it is seldom necessary to reinstall because of this type
of problem. The real solution is often quite simple, and with an understanding of how MS Windows
networking functions, it is easy to overcome.
Cannot Add Machine Back to Domainmachine trust accountalready existsA Windows workstation was reinstalled. The original domain machine trust
account was deleted and added immediately. The workstation will not join the domain if I use
the same machine name. Attempts to add the machine fail with a message that the machine already
exists on the network &smbmdash; I know it does not. Why is this failing?NetBIOS name cachenbtstat
The original name is still in the NetBIOS name cache and must expire after machine account
deletion before adding that same name as a domain member again. The best advice is to delete
the old account and then add the machine with a new name. Alternately, the name cache can be flushed and
reloaded with current data using the nbtstat command on the Windows client:
&dosprompt; nbtstat -R
Adding Machine to Domain FailsPDCfailsAdding a Windows 200x or XP Professional machine to the Samba PDC Domain fails with a
message that says, "The machine could not be added at this time, there is a network problem.
Please try again later." Why?check logs
You should check that there is an in your &smb.conf;
file. If there is not, please add one that is appropriate for your OS platform. If a script
has been defined, you will need to debug its operation. Increase the
in the &smb.conf; file to level 10, then try to rejoin the domain. Check the logs to see which
operation is failing.
Possible causes include:
scriptpath specified
The script does not actually exist, or could not be located in the path specified.
UNIX system accountSamba SAM accountCorrective action: Fix it. Make sure when run manually
that the script will add both the UNIX system account and the Samba SAM account.
UNIX system account/etc/passwd
The machine could not be added to the UNIX system accounts file /etc/passwd.
legal UNIX system account nameuppercaseCorrective action: Check that the machine name is a legal UNIX
system account name. If the UNIX utility useradd is called,
then make sure that the machine name you are trying to add can be added using this
tool. Useradd on some systems will not allow any uppercase characters
nor will it allow spaces in the name.
backend databaseUNIX system accountSamba backend database
The does not create the
machine account in the Samba backend database; it is there only to create a UNIX system
account to which the Samba backend database account can be mapped.
I Can't Join a Windows 2003 PDCSMB signingSMBWindows 2003SMB/CIFS
Windows 2003 requires SMB signing. Client-side SMB signing has been implemented in Samba-3.0.
Set yes when communicating
with a Windows 2003 server. This will not interfere with other Windows clients that do not
support the more advanced security features of Windows 2003 because the client will simply
negotiate a protocol tha both it and the server suppport. This is a well-known fall-back facility
that is built into the SMB/CIFS protocols.