&author.tridge;
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Server Types and Security Modes
This chapter provides information regarding the types of server that Samba may be
configured to be. A Microsoft network administrator who wishes to migrate to or
use Samba will want to know the meaning, within a Samba context, of terms familiar to MS Windows
administrator. This means that it is essential also to define how critical security
modes function before we get into the details of how to configure the server itself.
The chapter provides an overview of the security modes of which Samba is capable
and how they relate to MS Windows servers and clients.
A question often asked is, Why would I want to use Samba? Most chapters contain a section
that highlights features and benefits. We hope that the information provided will help to
answer this question. Be warned though, we want to be fair and reasonable, so not all
features are positive towards Samba. The benefit may be on the side of our competition.
Features and Benefits
Two men were walking down a dusty road, when one suddenly kicked up a small red stone. It
hurt his toe and lodged in his sandal. He took the stone out and cursed it with a passion
and fury befitting his anguish. The other looked at the stone and said, This is a garnet.
I can turn that into a precious gem and some day it will make a princess very happy!
The moral of this tale: Two men, two very different perspectives regarding the same stone.
Like it or not, Samba is like that stone. Treat it the right way and it can bring great
pleasure, but if you are forced to use it and have no time for its secrets, then it can be
a source of discomfort.
Samba started out as a project that sought to provide interoperability for MS Windows 3.x
clients with a UNIX server. It has grown up a lot since its humble beginnings and now provides
features and functionality fit for large scale deployment. It also has some warts. In sections
like this one we tell of both.
So, what are the benefits of features mentioned in this chapter?
Samba-3 can replace an MS Windows NT4 Domain Controller.
Samba-3 offers excellent interoperability with MS Windows NT4-style
domains as well as natively with Microsoft Active Directory domains.
Samba-3 permits full NT4-style Interdomain Trusts.
Samba has security modes that permit more flexible
authentication than is possible with MS Windows NT4 Domain Controllers.
Samba-3 permits use of multiple account database backends.
The account (password) database backends can be distributed
and replicated using multiple methods. This gives Samba-3
greater flexibility than MS Windows NT4 and in many cases a
significantly higher utility than Active Directory domains
with MS Windows 200x.
Server TypesServer Type
Administrators of Microsoft networks often refer to three
different type of servers:Domain ControllerPrimary Domain ControllerBackup Domain ControllerADS Domain ControllerDomain Member ServerActive Directory Domain ServerNT4 Style Domain Domain ServerStand-alone Server
The chapters covering Domain Control, Backup Domain Control and Domain Membership provide
pertinent information regarding Samba configuration for each of these server roles.
The reader is strongly encouraged to become intimately familiar with the information
presented.
Samba Security ModesSecurity Modesecurity
In this section the function and purpose of Samba's security
modes are described. An accurate understanding of how Samba implements each security
mode as well as how to configure MS Windows clients for each mode will significantly
reduce user complaints and administrator heartache.
In the SMB/CIFS networking world, there are only two types of security: User Level
and Share Level. We refer to these collectively as security levels.
In implementing these two security levels, Samba provides flexibilities
that are not available with Microsoft Windows NT4/200x servers. In actual fact, Samba implements
Share Level security only one way, but has four ways of implementing
User Level security. Collectively, we call the Samba implementations
Security Modes. They are known as: SHARE, USER,
DOMAIN, ADS, and SERVER modes.
They are documented in this chapter.
An SMB server tells the client at startup what security level it is running. There are two options:
Share Level and User Level. Which of these two the client receives affects the way the client then
tries to authenticate itself. It does not directly affect (to any great extent) the way the Samba
server does security. This may sound strange, but it fits in with the client/server approach of SMB.
In SMB everything is initiated and controlled by the client, and the server can only tell the client
what is available and whether an action is allowed.
User Level Security
We will describe User Level Security first, as its simpler.
In User Level Security, the client will send a
session setup request directly following protocol negotiation.
This request provides a username and password. The server can either accept or reject that
username/password combination. At this stage the server has no idea what
share the client will eventually try to connect to, so it can't base the
accept/reject on anything other than:
the username/password.the name of the client machine.
If the server accepts the username/password then the client expects to be able to
mount shares (using a tree connection) without specifying a
password. It expects that all access rights will be as the username/password
specified in the session setup.
It is also possible for a client to send multiple session setup
requests. When the server responds, it gives the client a uid to use
as an authentication tag for that username/password. The client can maintain multiple
authentication contexts in this way (WinDD is an example of an application that does this).
Example Configuration
The &smb.conf; parameter that sets user level security is:
user
This is the default setting since Samba-2.2.x.
Share Level Security
In Share Level security, the client authenticates
itself separately for each share. It sends a password along with each
tree connection (share mount). It does not explicitly send a
username with this operation. The client expects a password to be associated
with each share, independent of the user. This means that Samba has to work out what
username the client probably wants to use. It is never explicitly sent the username.
Some commercial SMB servers such as NT actually associate passwords directly with
shares in Share Level security, but Samba always uses the UNIX authentication scheme
where it is a username/password pair that is authenticated, not a share/password pair.
To understand the MS Windows networking parallels, one should think
in terms of MS Windows 9x/Me where one can create a shared folder that provides read-only
or full access, with or without a password.
Many clients send a session setup even if the server is in Share Level security. They
normally send a valid username but no password. Samba records this username in a list
of possible usernames. When the client then does a tree connection it also adds to this list the name
of the share they try to connect to (useful for home directories) and any users
listed in the parameter in the &smb.conf; file.
The password is then checked in turn against these possible usernames. If a match is found
then the client is authenticated as that user.
Example Configuration
The &smb.conf; parameter that sets Share Level security is:
shareDomain Security Mode (User Level Security)Domain Member
When Samba is operating in domain mode,
the Samba server has a domain security trust account (a machine account) and causes
all authentication requests to be passed through to the Domain Controllers.
In other words, this configuration makes the Samba server a Domain Member server.
Example Configuration
Samba as a Domain Member Server
Server TypeDomain Member
This method involves addition of the following parameters in the &smb.conf; file:
domain&example.workgroup;
In order for this method to work, the Samba server needs to join the MS Windows NT
security domain. This is done as follows:
netrpcDomain MemberjoiningOn the MS Windows NT Domain Controller, using
the Server Manager, add a machine account for the Samba server.
On the UNIX/Linux system execute:&rootprompt;net rpc join -U administrator%password
Samba-2.2.4 and later can auto-join a Windows NT4-style Domain just by executing:
&rootprompt;smbpasswd -j DOMAIN_NAME -r PDC_NAME \
-U Administrator%password
Samba-3 can do the same by executing:
&rootprompt;net rpc join -U Administrator%password
It is not necessary with Samba-3 to specify the DOMAIN_NAME or the
PDC_NAME as it figures this out from the &smb.conf; file settings.
Use of this mode of authentication does require there to be a standard UNIX account
for each user in order to assign a UID once the account has been authenticated by
the remote Windows DC. This account can be blocked to prevent logons by clients other than
MS Windows through means such as setting an invalid shell in the
/etc/passwd entry.
An alternative to assigning UIDs to Windows users on a Samba member server is
presented in Winbind: Use of Domain Accounts.
For more information regarding Domain Membership, see Domain Membership.
ADS Security Mode (User Level Security)
Both Samba-2.2, and Samba-3 can join an Active Directory domain. This is
possible if the domain is run in native mode. Active Directory in
native mode perfectly allows NT4-style Domain Members. This is contrary to
popular belief. Active Directory in native mode prohibits only the use of
Backup Domain Controllers running MS Windows NT4.
If you are using Active Directory, starting with Samba-3 you can
join as a native AD member. Why would you want to do that?
Your security policy might prohibit the use of NT-compatible
authentication protocols. All your machines are running Windows 2000
and above and all use Kerberos. In this case Samba as an NT4-style
domain would still require NT-compatible authentication data. Samba in
AD-member mode can accept Kerberos tickets.
Example Configurationyour.kerberos.REALMADS
The following parameter may be required:
your.kerberos.server
Please refer to Domain Membership and Samba ADS Domain Membership
for more information regarding this configuration option.
Server Security (User Level Security)
Server Security Mode is left over from the time when Samba was not capable of acting
as a Domain Member server. It is highly recommended not to use this feature. Server
security mode has many drawbacks that include:
Potential Account Lockout on MS Windows NT4/200x password servers.Lack of assurance that the password server is the one specified.Does not work with Winbind, which is particularly needed when storing profiles remotely.This mode may open connections to the password server, and keep them open for extended periods.Security on the Samba server breaks badly when the remote password server suddenly shuts down.With this mode there is NO security account in the domain that the password server belongs to for the Samba server.
In Server Security Mode the Samba server reports to the client that it is in User Level
security. The client then does a session setup as described earlier.
The Samba server takes the username/password that the client sends and attempts to login to the
by sending exactly the same username/password that
it got from the client. If that server is in User Level Security and accepts the password,
then Samba accepts the client's connection. This allows the Samba server to use another SMB
server as the .
You should also note that at the start of all this where the server tells the client
what security level it is in, it also tells the client if it supports encryption. If it
does, it supplies the client with a random cryptkey. The client will then send all
passwords in encrypted form. Samba supports this type of encryption by default.
The parameter server means that Samba reports to clients that
it is running in user mode but actually passes off all authentication
requests to another user mode server. This requires an additional
parameter that points to the real authentication server.
The real authentication server can be another Samba server, or it can be a Windows NT server,
the latter being natively capable of encrypted password support.
When Samba is running in Server Security Mode it is essential that
the parameter password server is set to the precise NetBIOS machine
name of the target authentication server. Samba cannot determine this from NetBIOS name
lookups because the choice of the target authentication server is arbitrary and cannot
be determined from a domain name. In essence, a Samba server that is in
Server Security Mode is operating in what used to be known as
workgroup mode.
Example Configuration
Using MS Windows NT as an Authentication Server
This method involves the additions of the following parameters in the &smb.conf; file:
Yesserver"NetBIOS_name_of_a_DC"
There are two ways of identifying whether or not a username and password pair is valid.
One uses the reply information provided as part of the authentication messaging
process, the other uses just an error code.
The downside of this mode of configuration is the fact that for security reasons Samba
will send the password server a bogus username and a bogus password and if the remote
server fails to reject the username and password pair then an alternative mode of
identification of validation is used. Where a site uses password lock out after a
certain number of failed authentication attempts this will result in user lockouts.
Use of this mode of authentication requires a standard UNIX account for the user.
This account can be blocked to prevent logons by non-SMB/CIFS clients.
Password Checking
MS Windows clients may use encrypted passwords as part of a challenge/response
authentication model (a.k.a. NTLMv1 and NTLMv2) or alone, or clear-text strings for simple
password-based authentication. It should be realized that with the SMB protocol,
the password is passed over the network either in plain-text or encrypted, but
not both in the same authentication request.
When encrypted passwords are used, a password that has been entered by the user
is encrypted in two ways:
An MD4 hash of the unicode of the password
string. This is known as the NT hash.
The password is converted to upper case,
and then padded or truncated to 14 bytes. This string is
then appended with 5 bytes of NULL characters and split to
form two 56-bit DES keys to encrypt a magic 8-byte value.
The resulting 16 bytes form the LanMan hash.
MS Windows 95 pre-service pack 1, MS Windows NT versions 3.x and version 4.0
pre-service pack 3 will use either mode of password authentication. All
versions of MS Windows that follow these versions no longer support plain
text passwords by default.
MS Windows clients have a habit of dropping network mappings that have been idle
for 10 minutes or longer. When the user attempts to use the mapped drive
connection that has been dropped, the client re-establishes the connection using
a cached copy of the password.
When Microsoft changed the default password mode, support was dropped for caching
of the plain-text password. This means that when the registry parameter is changed
to re-enable use of plain-text passwords it appears to work, but when a dropped
service connection mapping attempts to revalidate, this will fail if the remote
authentication server does not support encrypted passwords. It is definitely not
a good idea to re-enable plain-text password support in such clients.
The following parameters can be used to work around the issue of Windows 9x/Me clients
upper-casing usernames and passwords before transmitting them to the SMB server
when using clear-text authentication:
integerinteger
By default Samba will convert to lower case the username before attempting to lookup the user
in the database of local system accounts. Because UNIX usernames conventionally
only contain lower-case characters, the parameter
is rarely needed.
However, passwords on UNIX systems often make use of mixed-case characters.
This means that in order for a user on a Windows 9x/Me client to connect to a Samba
server using clear-text authentication, the
must be set to the maximum number of upper case letters that could
appear in a password. Note that if the server OS uses the traditional DES version
of crypt(), a of 8 will result in case
insensitive passwords as seen from Windows users. This will also result in longer
login times as Samba has to compute the permutations of the password string and
try them one by one until a match is located (or all combinations fail).
The best option to adopt is to enable support for encrypted passwords wherever
Samba is used. Most attempts to apply the registry change to re-enable plain-text
passwords will eventually lead to user complaints and unhappiness.
Common Errors
We all make mistakes. It is okay to make mistakes, as long as they are made in the right places
and at the right time. A mistake that causes lost productivity is seldom tolerated, however a mistake
made in a developmental test lab is expected.
Here we look at common mistakes and misapprehensions that have been the subject of discussions
on the Samba mailing lists. Many of these are avoidable by doing your homework before attempting
a Samba implementation. Some are the result of a misunderstanding of the English language. The
English language, which has many phrases that are potentially vague and may be highly confusing
to those for whom English is not their native tongue.
What Makes Samba a Server?
To some the nature of the Samba security mode is obvious, but entirely
wrong all the same. It is assumed that server means that Samba
will act as a server. Not so! This setting means that Samba will try
to use another SMB server as its source for user authentication alone.
What Makes Samba a Domain Controller?
The &smb.conf; parameter domain does not really make Samba behave
as a Domain Controller. This setting means we want Samba to be a Domain Member. See Samba as a PDC for more information.
What Makes Samba a Domain Member?
Guess! So many others do. But whatever you do, do not think that user
makes Samba act as a Domain Member. Read the manufacturer's manual before the warranty expires. See
Domain Membership for more information.
Constantly Losing Connections to Password Server
Why does server_validate() simply give up rather than re-establish its connection to the
password server? Though I am not fluent in the SMB protocol, perhaps the cluster server
process passes along to its client workstation the session key it receives from the password
server, which means the password hashes submitted by the client would not work on a subsequent
connection whose session key would be different. So server_validate() must give up.
Indeed. That's why server
is at best a nasty hack. Please use domain;
server mode is also known as pass-through authentication.