gencache: fix an extra newline in a DEBUG message in gencache_iterate_fn()

[Samba/gebeck_regimport.git] / docs-xml / Samba3-Developers-Guide / encryption.xml

<?xml version="1.0" encoding="iso-8859-1"?>
<!DOCTYPE chapter PUBLIC "-//Samba-Team//DTD DocBook V4.2-Based Variant V1.0//EN" "http://www.samba.org/samba/DTD/samba-doc">
<chapter id="pwencrypt">


<chapterinfo>
        <author>
                <firstname>Jeremy</firstname><surname>Allison</surname>
                <affiliation>
                        <orgname>Samba Team</orgname>
                        <address>
                                <email>samba@samba.org</email>
                        </address>
                </affiliation>
        </author>

        <pubdate>19 Apr 1999</pubdate>
</chapterinfo>
        
<title>LanMan and NT Password Encryption</title>

<sect1>
        <title>Introduction</title>
        
        <para>With the development of LanManager and Windows NT 
        compatible password encryption for Samba, it is now able 
        to validate user connections in exactly the same way as 
        a LanManager or Windows NT server.</para>

        <para>This document describes how the SMB password encryption 
        algorithm works and what issues there are in choosing whether 
        you want to use it. You should read it carefully, especially 
        the part about security and the "PROS and CONS" section.</para>
        
</sect1>

<sect1>
        <title>How does it work?</title>

        <para>LanManager encryption is somewhat similar to UNIX 
        password encryption. The server uses a file containing a 
        hashed value of a user's password.  This is created by taking 
        the user's plaintext password, capitalising it, and either 
        truncating to 14 bytes or padding to 14 bytes with null bytes. 
        This 14 byte value is used as two 56 bit DES keys to encrypt 
        a 'magic' eight byte value, forming a 16 byte value which is 
        stored by the server and client. Let this value be known as 
        the "hashed password".</para>
        
        <para>Windows NT encryption is a higher quality mechanism, 
        consisting of doing an MD4 hash on a Unicode version of the user's 
        password. This also produces a 16 byte hash value that is 
        non-reversible.</para>

        <para>When a client (LanManager, Windows for WorkGroups, Windows 
        95 or Windows NT) wishes to mount a Samba drive (or use a Samba 
        resource), it first requests a connection and negotiates the 
        protocol that the client and server will use. In the reply to this 
        request the Samba server generates and appends an 8 byte, random 
        value - this is stored in the Samba server after the reply is sent 
        and is known as the "challenge".  The challenge is different for 
        every client connection.</para>

        <para>The client then uses the hashed password (16 byte values 
        described above), appended with 5 null bytes, as three 56 bit 
        DES keys, each of which is used to encrypt the challenge 8 byte 
        value, forming a 24 byte value known as the "response".</para>

        <para>In the SMB call SMBsessionsetupX (when user level security 
        is selected) or the call SMBtconX (when share level security is 
        selected), the 24 byte response is returned by the client to the 
        Samba server.  For Windows NT protocol levels the above calculation 
        is done on both hashes of the user's password and both responses are 
        returned in the SMB call, giving two 24 byte values.</para>

        <para>The Samba server then reproduces the above calculation, using 
        its own stored value of the 16 byte hashed password (read from the 
        <filename>smbpasswd</filename> file - described later) and the challenge 
        value that it kept from the negotiate protocol reply. It then checks 
        to see if the 24 byte value it calculates matches the 24 byte value 
        returned to it from the client.</para>

        <para>If these values match exactly, then the client knew the 
        correct password (or the 16 byte hashed value - see security note 
        below) and is thus allowed access. If not, then the client did not 
        know the correct password and is denied access.</para>

        <para>Note that the Samba server never knows or stores the cleartext 
        of the user's password - just the 16 byte hashed values derived from 
        it. Also note that the cleartext password or 16 byte hashed values 
        are never transmitted over the network - thus increasing security.</para>
</sect1>

<sect1>
        <title>The smbpasswd file</title>
        <anchor id="SMBPASSWDFILEFORMAT"/>
        <para>In order for Samba to participate in the above protocol 
        it must be able to look up the 16 byte hashed values given a user name.
        Unfortunately, as the UNIX password value is also a one way hash
        function (ie. it is impossible to retrieve the cleartext of the user's
        password given the UNIX hash of it), a separate password file
        containing this 16 byte value must be kept. To minimise problems with
        these two password files, getting out of sync, the UNIX <filename>
        /etc/passwd</filename> and the <filename>smbpasswd</filename> file, 
        a utility, <command>mksmbpasswd.sh</command>, is provided to generate
        a smbpasswd file from a UNIX <filename>/etc/passwd</filename> file.
        </para>


        <para>To generate the smbpasswd file from your <filename>/etc/passwd
        </filename> file use the following command:</para>
        
        <para><prompt>$ </prompt><userinput>cat /etc/passwd | mksmbpasswd.sh
        &gt; /usr/local/samba/private/smbpasswd</userinput></para>
        
        <para>If you are running on a system that uses NIS, use</para>

        <para><prompt>$ </prompt><userinput>ypcat passwd | mksmbpasswd.sh
        &gt; /usr/local/samba/private/smbpasswd</userinput></para>
        
        <para>The <command>mksmbpasswd.sh</command> program is found in 
        the Samba source directory. By default, the smbpasswd file is 
        stored in :</para>

        <para><filename>/usr/local/samba/private/smbpasswd</filename></para>

        <para>The owner of the <filename>/usr/local/samba/private/</filename> 
        directory should be set to root, and the permissions on it should 
        be set to 0500 (<command>chmod 500 /usr/local/samba/private</command>).
        </para>

        <para>Likewise, the smbpasswd file inside the private directory should 
        be owned by root and the permissions on is should be set to 0600
        (<command>chmod 600 smbpasswd</command>).</para>


        <para>The format of the smbpasswd file is (The line has been 
        wrapped here. It should appear as one entry per line in 
        your smbpasswd file.)</para>
        
        <para><programlisting>
username:uid:XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX:XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX:
        [Account type]:LCT-&lt;last-change-time&gt;:Long name
        </programlisting></para>
        
        <para>Although only the <replaceable>username</replaceable>, 
        <replaceable>uid</replaceable>, <replaceable>
        XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX</replaceable>,
        [<replaceable>Account type</replaceable>] and <replaceable>
        last-change-time</replaceable> sections are significant 
        and are looked at in the Samba code.</para>

        <para>It is <emphasis>VITALLY</emphasis> important that there by 32 
        'X' characters between the two ':' characters in the XXX sections - 
        the smbpasswd and Samba code will fail to validate any entries that 
        do not have 32 characters  between ':' characters. The first XXX 
        section is for the Lanman password hash, the second is for the 
        Windows NT version.</para>

        <para>When the password file is created all users have password entries
        consisting of 32 'X' characters. By default this disallows any access
        as this user. When a user has a password set, the 'X' characters change
        to 32 ascii hexadecimal digits (0-9, A-F). These are an ascii
        representation of the 16 byte hashed value of a user's password.</para>

        <para>To set a user to have no password (not recommended), edit the file
        using vi, and replace the first 11 characters with the ascii text
        <constant>"NO PASSWORD"</constant> (minus the quotes).</para>

        <para>For example, to clear the password for user bob, his smbpasswd file 
        entry would look like :</para>

        <para><programlisting>
bob:100:NO PASSWORDXXXXXXXXXXXXXXXXXXXXX:XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX:
        [U          ]:LCT-00000000:Bob's full name:/bobhome:/bobshell
        </programlisting></para>
        
        <para>If you are allowing users to use the smbpasswd command to set 
        their own passwords, you may want to give users NO PASSWORD initially 
        so they do not have to enter a previous password when changing to their 
        new password (not recommended). In order for you to allow this the
        <command>smbpasswd</command> program must be able to connect to the 
        <command>smbd</command> daemon as that user with no password. Enable this 
        by adding the line :</para>

        <para><command>null passwords = yes</command></para>
        
        <para>to the [global] section of the smb.conf file (this is why 
        the above scenario is not recommended). Preferably, allocate your
        users a default password to begin with, so you do not have
        to enable this on your server.</para>

        <para><emphasis>Note : </emphasis>This file should be protected very 
        carefully. Anyone with access to this file can (with enough knowledge of 
        the protocols) gain access to your SMB server. The file is thus more 
        sensitive than a normal unix <filename>/etc/passwd</filename> file.</para>
</sect1>

</chapter>