DOC HOME SITE MAP MAN PAGES GNU INFO SEARCH PRINT BOOK
 

Chapter 1. No-Frills Samba Servers

Table of Contents

Introduction
Assignment Tasks
Drafting Office
Charity Administration Office
Accounting Office
Questions and Answers

This is the start of the real journey toward the successful deployment of Samba. For some this chapter is the end of the road because their needs will have been adequately met. For others, this chapter is the beginning of a journey that will take them well past the contents of this book. This book provides example configurations of, for the greater part, complete networking solutions. The intent of this book is to help you to get your Samba installation working with the least amount of pain and aggravation.

Introduction

This chapter lays the groundwork for understanding the basics of Samba operation. Instead of a bland technical discussion, each principle is demonstrated by way of a real-world scenario for which a working solution[1] is fully described.

The practical exercises take you on a journey through a drafting office, a charity administration office, and an accounting office. You may choose to apply any or all of these exercises to your own environment.

Every assignment case can be implemented far more creatively, but remember that the solutions you create are designed to demonstrate a particular solution possibility. With experience, you should find much improved solutions compared with those presented here. By the time you complete this book, you should aim to be a Samba expert, so do attempt to find better solutions and try them as you work your way through the examples.

Assignment Tasks

Each case presented highlights different aspects of Windows networking for which a simple Samba-based solution can be provided. Each has subtly different requirements taken from real-world cases. The cases are briefly reviewed to cover important points. Instructions are based on the assumption that the official Samba Team RPM package has been installed.

This chapter has three assignments built around fictitious companies:

  • A drafting office

  • A charity administration office

  • An accounting office

Let's get started.

Drafting Office

Our fictitious company is called Abmas Design, Inc. This is a three-person computer-aided design (CAD) business that often has more work than can be handled. The business owner hires contract draftspeople from wherever he can. They bring their own notebook computers into the office. There are four permanent drafting machines. Abmas has a collection of over 10 years of plans that must be available for all draftsmen to reference. Abmas hires the services of an experienced network engineer to update the plans that are stored on a central server one day per month. She knows how to upload plans from each machine. The files available from the server must remain read-only. Anyone should be able to access the plans at any time and without barriers or difficulty.

Mr. Bob Jordan has asked you to install the new server as economically as possible. The central server has a Pentium-IV 1.6GHz CPU, 768MB RAM, a 20GB IDE boot drive, a 160GB IDE second disk to store plans, and a 100-base-T Ethernet card. You have already installed Red Hat Fedora CoreX and have upgraded Samba to version 3.0.20 using the RPM package that is provided from the Samba FTP sites. (Note: Fedora CoreX indicates your favorite version.)

The four permanent drafting machines (Microsoft Windows workstations) have attached printers and plotters that are shared on a peer-to-peer basis by any and all network users. The intent is to continue to share printers in this manner. The three permanent staff work together with all contractors to store all new work on one PC. A daily copy is made of the work storage area to another PC for safekeeping. When the network consultant arrives, the weekly work area is copied to the central server and the files are removed from the main weekly storage machine. The office works best with this arrangement and does not want to change anything. Old habits are too ingrained.

Dissection and Discussion

The requirements for this server installation demand simplicity. An anonymous read-only file server adequately meets all needs. The network consultant determines how to upload all files from the weekly storage area to the server. This installation should focus only on critical aspects of the installation.

It is not necessary to have specific users on the server. The site has a method for storing all design files (plans). Each plan is stored in a directory that is named YYYYWW,[2] where YYYY is the year, and WW is the week of the year. This arrangement allows work to be stored by week of year to preserve the filing technique the site is familiar with. There is also a customer directory that is alphabetically listed. At the top level are 26 directories (A-Z), in each is a second-level of directory for the first plus second letters of the name (A-Z); inside each is a directory by the customers' name. Inside each directory is a symbolic link to each design drawing or plan. This way of storing customer data files permits all plans to be located both by customer name and by the date the work was performed, without demanding the disk space that would be needed if a duplicate file copy were to be stored. The share containing the plans is called Plans.

Implementation

It is assumed that the server is fully installed and ready for installation and configuration of Samba 3.0.20 and any support files needed. All TCP/IP addresses have been hard-coded. In our case the IP address of the Samba server is 192.168.1.1 and the netmask is 255.255.255.0. The hostname of the server used is server.

Procedure 1.1. Samba Server Configuration

  1. Download the Samba-3 RPM packages for Red Hat Fedora Core2 from the Samba FTP servers.

  2. Install the RPM package using either the Red Hat Linux preferred GUI tool or the rpm:

    root#  rpm -Uvh samba-3.0.20-1.i386.rpm
    

  3. Create a mount point for the file system that will be used to store all data files. You can create a directory called /plans:

    root#  mkdir /plans
    root#  chmod 755 /plans
    

    The 755 permissions on this directory (mount point) permit the owner to read, write, and execute, and the group and everyone else to read and execute only.

    Use Red Hat Linux system tools (refer to Red Hat instructions) to format the 160GB hard drive with a suitable file system. An Ext3 file system is suitable. Configure this drive to automatically mount using the /plans directory as the mount point.

  4. Install the smb.conf file shown in ??? in the /etc/samba directory.

    Example 1.1. Drafting Office smb.conf File

    # Global Parameters
    [global]
    workgroup = MIDEARTH
    security = SHARE
    [Plans]
    path = /plans
    read only = Yes
    guest ok = Yes


  5. Verify that the /etc/hosts file contains the following entry:

    192.168.1.1	server
    

  6. Use the standard system tool to start Samba and to configure it to restart automatically at every system reboot. For example,

    root#  chkconfig smb on
    root#  /etc/rc.d/init.d/smb restart
    

Procedure 1.2. Windows Client Configuration

  1. Make certain that all clients are set to the same network address range as used for the Samba server. For example, one client might have an IP address 192.168.1.10.

  2. Ensure that the netmask used on the Windows clients matches that used for the Samba server. All clients must have the same netmask, such as 255.255.255.0.

  3. Set the workgroup name on all clients to MIDEARTH.

  4. Verify on each client that the machine called SERVER is visible in the Network Neighborhood, that it is possible to connect to it and see the share Plans, and that it is possible to open that share to reveal its contents.

Validation

The first priority in validating the new Samba configuration should be to check that Samba answers on the loop-back interface. Then it is time to check that Samba answers its own name correctly. Last, check that a client can connect to the Samba server.

  1. To check the ability to access the smbd daemon services, execute the following:

    root#  smbclient -L localhost -U%
            Sharename     Type     Comment
            ---------     ----     -------
            Plans         Disk
            IPC$          IPC      IPC Service (Samba 3.0.20)
            ADMIN$        IPC      IPC Service (Samba 3.0.20)
    
            Server             Comment
            ---------          -------
            SERVER             Samba 3.0.20
    
            Workgroup          Master
            ---------          --------
            MIDEARTH           SERVER 
    

    This indicates that Samba is able to respond on the loopback interface to a NULL connection. The -U% means send an empty username and an empty password. This command should be repeated after Samba has been running for 15 minutes.

  2. Now verify that Samba correctly handles being passed a username and password, and that it answers its own name. Execute the following:

    root#  smbclient -L server -Uroot%password
    

    The output should be identical to the previous response. Samba has been configured to ignore all usernames given; instead it uses the guest account for all connections.

  3. From the Windows 9x/Me client, launch Windows Explorer: [Desktop: right-click] Network Neighborhood+Explore[Left Panel] [+] Entire Network[Left Panel] [+] Server[Left Panel] [+] Plans. In the right panel you should see the files and directories (folders) that are in the Plans share.

Charity Administration Office

The fictitious charity organization is called Abmas Vision NL. This office has five networked computers. Staff are all volunteers, staff changes are frequent. Ms. Amy May, the director of operations, wants a no-hassle network. Anyone should be able to use any PC. Only two Windows applications are used: a custom funds tracking and management package that stores all files on the central server and Microsoft Word. The office prepares mail-out letters, invitations, and thank-you notes. All files must be stored in perpetuity. The custom funds tracking and management (FTM) software is configured to use a server named SERVER, a share named FTMFILES, and a printer queue named PRINTQ that uses preprinted stationery, thus demanding a dedicated printer. This printer does not need to be mapped to a local printer on the workstations.

The FTM software has been in use since the days of Windows 3.11. The software was configured by the vendor who has since gone out of business. The identities of the file server and the printer are hard-coded in a configuration file that was created using a setup tool that the vendor did not provide to Abmas Vision NL or to its predecessors. The company that produced the software is no longer in business. In order to avoid risk of any incompatibilities, the share name and the name of the target print queue must be set precisely as the application expects. In fact, share names and print queue names should be treated as case insensitive (i.e., case does not matter), but Abmas Vision advises that if the share name is not in lowercase, the application claims it cannot find the file share.

Printer handling in Samba results in a significant level of confusion. Samba presents to the MS Windows client only a print queue. The Samba smbd process passes a print job sent to it from the Windows client to the native UNIX printing system. The native UNIX printing system (spooler) places the job in a print queue from which it is delivered to the printer. In this book, network diagrams refer to a printer by the name of the print queue that services that printer. It does not matter what the fully qualified name (or the hostname) of a network-attached printer is. The UNIX print spooler is configured to correctly deliver all jobs to the printer.

This organization has a policy forbidding use of privately owned computers on site as a measure to prevent leakage of confidential information. Only the five PCs owned by Abmas Vision NL are used on this network.

The central server was donated by a local computer store. It is a dual processor Pentium-III server, has 1GB RAM, a 3-Ware IDE RAID Controller that has four 200GB IDE hard drives, and a 100-base-T network card. The office has 100-base-T permanent network connections that go to a central hub, and all equipment is new. The five network computers all are equipped with Microsoft Windows Me. Funding is limited, so the server has no operating system on it. You have approval to install Samba on Linux, provided it works without problems. There are two HP LaserJet 5 PS printers that are network connected. The second printer is to be used for general office and letter printing. Your recommendation to allow only the Linux server to print directly to the printers was accepted. You have supplied SUSE Enterprise Linux Server 9 and have upgraded Samba to version 3.0.20.

Dissection and Discussion

This installation demands simplicity. Frequent turnover of volunteer staff indicates that a network environment that requires users to logon might be problematic. It is suggested that the best solution for this office would be one where the user can log onto any PC with any username and password. Samba can accommodate an office like this by using the force user parameter in share and printer definitions. Using the force user parameter ensures that all files are owned by same user identifier (UID) and thus that there will never be a problem with file access due to file access permissions. Additionally, you elect to use the nt acl support = No option to ensure that access control lists (Posix type) cannot be written to any file or directory. This prevents an inadvertent ACL from overriding actual file permissions.

This organization is a prime candidate for Share Mode security. The force user allows all files to be owned by the same user and group. In addition, it would not hurt to set SUID and set SGID shared directories. This means that all new files that are created, no matter who creates it, are owned by the owner or group of the directory in which they are created. For further information regarding the significance of the SUID/SGID settings, see ???, ???.

All client workstations print to a print queue on the server. This ensures that print jobs continue to print in the event that a user shuts down the workstation immediately after sending a job to the printer. Today, both Red Hat Linux and SUSE Linux use CUPS-based printing. Older Linux systems offered a choice between the LPRng printing system or CUPS. It appears, however, that CUPS has become the leading UNIX printing technology.

The print queues are set up as Raw devices, which means that CUPS will not do intelligent print processing, and vendor-supplied drivers must be installed locally on the Windows clients.

The hypothetical software, FTM, is representative of custom-built software that directly uses a NetBIOS interface. Most such software originated in the days of MS/PC DOS. NetBIOS names are uppercase (and functionally are case insensitive), so some old software applications would permit only uppercase names to be entered. Some such applications were later ported to MS Windows but retain the uppercase network resource naming conventions because customers are familiar with that. We made the decision to name shares and print queues for this application in uppercase for the same reason. Nothing would break if we were to use lowercase names, but that decision might create a need to retrain staff something well avoided at this time.

NetBIOS networking does not print directly to a printer. Instead, all printing is done to a print queue. The print spooling system is responsible for communicating with the physical printer. In this example, therefore, the resource called PRINTQ really is just a print queue. The name of the print queue is representative of the device to which the print spooler delivers print jobs.

Implementation

It is assumed that the server is fully installed and ready for configuration of Samba 3.0.20 and for necessary support files. All TCP/IP addresses should be hard-coded. In our case, the IP address of the Samba server is 192.168.1.1 and the netmask is 255.255.255.0. The hostname of the server used is server. The office network is built as shown in ???.

Figure 1.1. Charity Administration Office Network

Charity Administration Office Network

Procedure 1.3. Samba Server Configuration

  1. Create a group account for office file storage:

    root#  groupadd office
    

  2. Create a user account for office file storage:

    root#  useradd -m abmas 
    root#  passwd abmas 
    Changing password for abmas.
    New password: XXXXXXXX
    Re-enter new password: XXXXXXXX
    Password changed
    

    where XXXXXXXX is a secret password.

  3. Use the 3-Ware IDE RAID Controller firmware utilities to configure the four 200GB drives as a single RAID level 5 drive, with one drive set aside as the hot spare. (Refer to the 3-Ware RAID Controller Manual for the manufacturer's preferred procedure.) The resulting drive has a capacity of approximately 500GB of usable space.

  4. Create a mount point for the file system that can be used to store all data files. Create a directory called /data:

    root#  mkdir /data
    root#  chmod 755 /data
    

    The 755 permissions on this directory (mount point) permit the owner to read, write, and execute, and the group and everyone else to read and execute only.

  5. Use SUSE Linux system tools (refer to the SUSE Administrators Guide for correct procedures) to format the partition with a suitable file system. The reiserfs file system is suitable. Configure this drive to automount using the /data directory as the mount point. It must be mounted before proceeding.

  6. Under the directory called /data, create two directories named ftmfiles and officefiles, and set ownership and permissions:

    root#  mkdir -p /data/{ftmfiles,officefiles/{letters,invitations,misc}}
    root#  chown -R abmas:office /data
    root#  chmod -R ug+rwxs,o-w,o+rx /data
    

    These demonstrate compound operations. The mkdir command creates in one step these directories:

    /data/fmtfiles
    /data/officefiles
    /data/officefiles/letters
    /data/officefiles/invitations
    /data/officefiles/misc
    

    The chown operation sets the owner to the user abmas and the group to office on all directories just created. It recursively sets the permissions so that the owner and group have SUID/SGID with read, write, and execute permission, and everyone else has read and execute permission. This means that all files and directories are created with the same owner and group as the directory in which they are created. Any new directories created still have the same owner, group, and permissions as the directory they are in. This should eliminate all permissions-based file access problems. For more information on this subject, refer to TOSHARG2[3] or refer to the UNIX man page for the chmod and the chown commands.

  7. Install the smb.conf file shown in ??? in the /etc/samba directory. This newer smb.conf file uses user-mode security and is more suited to the mode of operation of Samba-3 than the older share-mode security configuration that was shown in the first edition of this book.

    Note: If you want to use the older-style configuration that uses share-mode security, you can install the file shown in ??? in the /etc/samba directory.

  8. We must ensure that the smbd can resolve the name of the Samba server to its IP address. Verify that the /etc/hosts file contains the following entry:

    192.168.1.1	server
    

  9. Configure the printers with the IP address as shown in ???. Follow the instructions in the manufacturer's manual to permit printing to port 9100 so that the CUPS spooler can print using raw mode protocols.

  10. Configure the CUPS Print Queues:

    root#  lpadmin -p PRINTQ -v socket://192.168.1.20:9100 -E
    root#  lpadmin -p hplj5 -v socket://192.168.1.30:9100 -E
    

    This creates the necessary print queues with no assigned print filter.

  11. Edit the file /etc/cups/mime.convs to uncomment the line:

    application/octet-stream     application/vnd.cups-raw      0     -
    

  12. Edit the file /etc/cups/mime.types to uncomment the line:

    application/octet-stream
    

  13. Use the standard system tool to start Samba and CUPS to configure them to restart automatically at every system reboot. For example,

    root#  chkconfig smb on
    root#  chkconfig cups on
    root#  /etc/rc.d/init.d/smb restart
    root#  /etc/rc.d/init.d/cups restart
    

Example 1.2. Charity Administration Office smb.conf New-style File

# Global Parameters - Newer Configuration
[global]
workgroup = MIDEARTH
printing = CUPS
printcap name = CUPS
map to guest = Bad User
show add printer wizard = No
wins support = yes
[FTMFILES]
comment = Funds Tracking & Management Files
path = /data/ftmfiles
read only = No
force user = abmas
force group = office
guest ok = Yes
nt acl support = No
[office]
comment = General Office Files
path = /data/officefiles
read only = No
force user = abmas
force group = office
guest ok = Yes
nt acl support = No
[printers]
comment = Print Temporary Spool Configuration
path = /var/spool/samba
printable = Yes
guest ok = Yes
use client driver = Yes
browseable = No

Example 1.3. Charity Administration Office smb.conf Old-style File

# Global Parameters - Older Style Configuration
[global]
workgroup = MIDEARTH
security = SHARE
printing = CUPS
printcap name = CUPS
disable spoolss = Yes
show add printer wizard = No
wins support = yes
[FTMFILES]
comment = Funds Tracking & Management Files
path = /data/ftmfiles
read only = No
force user = abmas
force group = office
guest ok = Yes
nt acl support = No
[office]
comment = General Office Files
path = /data/officefiles
read only = No
force user = abmas
force group = office
guest ok = Yes
nt acl support = No
[printers]
comment = Print Temporary Spool Configuration
path = /var/spool/samba
printable = Yes
guest ok = Yes
use client driver = Yes
browseable = No

Procedure 1.4. Windows Client Configuration

  1. Configure clients to the network settings shown in ???.

  2. Ensure that the netmask used on the Windows clients matches that used for the Samba server. All clients must have the same netmask, such as 255.255.255.0.

  3. On all Windows clients, set the WINS Server address to 192.168.1.1, the IP address of the server.

  4. Set the workgroup name on all clients to MIDEARTH.

  5. Install the “Client for Microsoft Networks.” Ensure that the only option enabled in its properties is the option “Logon and restore network connections.

  6. Click OK when you are prompted to reboot the system. Reboot the system, then log on using any username and password you choose.

  7. Verify on each client that the machine called SERVER is visible in My Network Places, that it is possible to connect to it and see the share office, and that it is possible to open that share to reveal its contents.

  8. Disable password caching on all Windows 9x/Me machines using the registry change file shown in ???. Be sure to remove all files that have the PWL extension that are in the C:\WINDOWS directory.

    Example 1.4. Windows Me Registry Edit File: Disable Password Caching

    REGEDIT4
    
    [HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\
    	Windows\CurrentVersion\Policies\Network]
    	"DisablePwdCaching"=dword:00000001
    


    The best way to apply this change is to save the patch in a file called ME-dpwc.reg and then execute:

    C:\WINDOWS: regedit ME-dpwc.reg
    

  9. Instruct all users to log onto the workstation using a name and password of their own choosing. The Samba server has been configured to ignore the username and password given.

  10. On each Windows Me workstation, configure a network drive mapping to drive G: that redirects to the uniform naming convention (UNC) resource \\server\office. Make this a permanent drive connection:

    1. My NetworkMap Network Drive...

    2. In the box labeled “Drive:”, type G.

    3. In the box labeled “Path:”, enter \\server\officefiles.

    4. Click Reconnect at logon. Click OK.

  11. On each workstation, install the FTM software following the manufacturer's instructions.

    1. During installation, you are prompted for the name of the Windows 98 server. Enter the name SERVER.

    2. You are prompted for the name of the data share. The prompt defaults to FTMFILES. Press enter to accept the default value.

    3. You are now prompted for the print queue name. The default prompt is the name of the server you entered (SERVER as follows: \\SERVER\PRINTQ). Simply accept the default and press enter to continue. The software now completes the installation.

  12. Install an office automation software package of the customer's choice. Either Microsoft Office 2003 Standard or OpenOffice 1.1.0 suffices for any functions the office may need to perform. Repeat this on each workstation.

  13. Install a printer on each workstation using the following steps:

    1. Click StartSettingsPrinters+Add Printer+Next. Do not click Network printer. Ensure that Local printer is selected.

    2. Click Next. In the Manufacturer: panel, select HP. In the Printers: panel, select the printer called HP LaserJet 5/5M Postscript. Click Next.

    3. In the Available ports: panel, select FILE:. Accept the default printer name by clicking Next. When asked, “Would you like to print a test page?”, click No. Click Finish.

    4. You may be prompted for the name of a file to print to. If so, close the dialog panel. Right-click HP LaserJet 5/5M PostscriptPropertiesDetails (Tab)Add Port.

    5. In the Network panel, enter the name of the print queue on the Samba server as follows: \\SERVER\hplj5. Click OK+OK to complete the installation.

    6. It is a good idea to test the functionality of the complete installation before handing the newly configured network over to the Charity Administration Office for production use.

Validation

Use the same validation process as was followed in ???.

Accounting Office

Abmas Accounting is a 40-year-old family-run business. There are nine permanent computer users. The network clients were upgraded two years ago. All computers run Windows 2000 Professional. This year the server will be upgraded from an old Windows NT4 server (actually running Windows NT4 Workstation, which worked fine for fewer than 10 users) that has run in workgroup (standalone) mode, to a new Linux server running Samba.

The office does not want a Domain Server. Mr. Alan Meany wants to keep the Windows 2000 Professional clients running as workgroup machines so that any staff member can take a machine home and keep working. It has worked well so far, and your task is to replace the old server. All users have their own workstation logon (you configured it that way when the machines were installed). Mr. Meany wants the new system to operate the same way as the old Windows NT4 server users cannot access each others' files, but he can access everyone's files. Each person's work files are in a separate share on the server. Users log on to their Windows workstation with their username and enter an assigned password; they do not need to enter a password when accessing their files on the server.

The new server will run Red Hat Fedora Core2. You should install Samba-3.0.20 and copy all files from the old system to the new one. The existing Windows NT4 server has a parallel port HP LaserJet 4 printer that is shared by all. The printer driver is installed on each workstation. You must not change anything on the workstations. Mr. Meany gave instructions to replace the server, “but leave everything else alone to avoid staff unrest.

You have tried to educate Mr. Meany and found that he has no desire to understand networking. He believes that Windows for Workgroups 3.11 was “the best server Microsoft ever sold ” and that Windows NT and 2000 are “too fang-dangled complex!

Dissection and Discussion

The requirements of this network installation are not unusual. The staff are not interested in the details of networking. Passwords are never changed. In this example solution, we demonstrate the use of User Mode security in a simple context. Directories should be set SGID to ensure that members of a common group can access the contents. Each user has his or her own share to which only they can connect. Mr. Meany's share will be a top-level directory above the share point for each employee. Mr. Meany is a member of the same group as his staff and can access their work files. The well-used HP LaserJet 4 is available as a service called hplj.

You have finished configuring the new hardware and have just completed installation of Red Hat Fedora Core2. Roll up your sleeves and let's get to work.

Implementation

The workstations have fixed IP addresses. The old server runs Windows NT4 Workstation, so it cannot be running as a WINS server. It is best that the new configuration preserves the same configuration. The office does not use Internet access, so security really is not an issue.

The core information regarding the users, their passwords, the directory share point, and the share name is given in ???. The overall network topology is shown in ???. All machines have been configured as indicated prior to the start of Samba configuration. The following prescriptive steps may now commence.

Figure 1.2. Accounting Office Network Topology

Accounting Office Network Topology

Table 1.1. Accounting Office Network Information

UserLogin-IDPasswordShare NameDirectoryWkst
Alan Meanyalanalm1961alan/dataPC1
James Meanyjamesjimm1962james/data/jamesPC2
Jeannie Meanyjeanniejema1965jeannie/data/jeanniePC3
Suzy Millicentsuzysuzy1967suzy/data/suzyPC4
Ursula Jenningujenujen1974ursula/data/ursulaPC5
Peter Panpeterpete1984peter/data/peterPC6
Dale Rolanddaledale1986dale/data/dalePC7
Bertrand E Paolettiericeric1993eric/data/ericPC8
Russell Lewisrussruss2001russell/data/russellPC9

Procedure 1.5. Migration from Windows NT4 Workstation System to Samba-3

  1. Rename the old server from CASHPOOL to STABLE by logging onto the console as the Administrator. Restart the machine following system prompts.

  2. Name the new server CASHPOOL using the standard configuration method. Restart the machine following system prompts.

  3. Install the latest Samba-3 binary Red Hat Linux RPM that is available from the Samba FTP site.

  4. Add a group account for the office to use. Execute the following:

    root#  groupadd accts
    

  5. Install the smb.conf file shown[4] in ???.

  6. For each user who uses this system (see ???), execute the following:

    root#  useradd -m -G accts -c "Name of User" "LoginID"
    root#  passwd "LoginID"
    Changing password for user "LoginID"
    New Password: XXXXXXXXX	<-- the password from the table
    Retype new password: XXXXXXXXX
    root#  smbpasswd -a "LoginID"
    New SMB password: XXXXXXXXX <-- the password from the table
    Retype new SMB password: XXXXXXXXX
    Added user "LoginID"
    

  7. Create the directory structure for the file shares by executing the following:

    root#  mkdir -p /data
    root#  chown alan /data
    root#  for i in james suzy ujen peter dale eric jeannie russ
    > do
    > 	mkdir -p /data/$i
    > 	chown $i /data/$i
    > done
    root#  chgrp -R accts /data
    root#  chmod -R ug+rwxs,o-r+x /data
    

    The data storage structure is now prepared for use.

  8. Configure the CUPS Print Queues:

    root#  lpadmin -p hplj -v parallel:/dev/lp0 -E
    

    This creates the necessary print queues with no assigned print filter.

  9. Edit the file /etc/cups/mime.convs to uncomment the line:

    application/octet-stream     application/vnd.cups-raw      0     -
    

  10. Edit the file /etc/cups/mime.types to uncomment the line:

    application/octet-stream
    

  11. Use the standard system tool to start Samba and CUPS to configure them to restart automatically at every system reboot. For example,

    root#  chkconfig smb on
    root#  chkconfig cups on
    root#  /etc/rc.d/init.d/smb restart
    root#  /etc/rc.d/init.d/cups restart
    

  12. On Alan's workstation, use Windows Explorer to migrate the files from the old server to the new server. The new server should appear in the Network Neighborhood with the name of the old server (CASHPOOL).

    1. Log on to Alan's workstation as the user alan.

    2. Launch a second instance of Windows Explorer and navigate to the share called files on the server called STABLE.

    3. Click in the right panel, and press Ctrl-A to select all files and directories. Press Ctrl-C to instruct Windows that you wish to copy all selected items.

    4. Launch the Windows Explorer, and navigate to the share called files on the server called CASHPOOL. Click in the right panel, and then press Ctrl-V to commence the copying process.

  13. Verify that the files are being copied correctly from the Windows NT4 machine to the Samba-3 server. This is best done on the Samba-3 server. Check the contents of the directory tree under /data by executing the following command:

    root#  ls -aR /data
    

    Make certain to check the ownership and permissions on all files. If in doubt, execute the following:

    root#  chown alan /data
    root#  for i in james suzy ujen peter dale eric jeannie russ
    > do
    > 	chown $i /data/$i
    > done
    root#  chgrp -R accts /data
    root#  chmod -R ug+rwxs,o-r+x /data
    

  14. The migration of all data should now be complete. It is time to validate the installation. For this, you should make sure all applications, including printing, work before asking the customer to test drive the new network.

Example 1.5. Accounting Office Network smb.conf Old Style Configuration File

# Global parameters
[global]
workgroup = BILLMORE
printcap name = CUPS
disable spoolss = Yes
show add printer wizard = No
printing = cups
[files]
comment = Work area files
path = /data/%U
read only = No
[master]
comment = Master work area files
path = /data
valid users = alan
read only = No
[printers]
comment = Print Temporary Spool Configuration
path = /var/spool/samba
printable = Yes
guest ok = Yes
use client driver = Yes
browseable = No

Questions and Answers

The following questions and answers draw from the examples in this chapter. Many design decisions are impacted by the configurations chosen. The intent is to expose some of the hidden implications.

What makes an anonymous Samba server more simple than a non-anonymous Samba server?
How is the operation of the parameter force user different from setting the root directory of the share SUID?
When would you both use the per share parameter force user and set the share root directory SUID?
What is better about CUPS printing than LPRng printing?
When should Windows client IP addresses be hard-coded?
Under what circumstances is it best to use a DHCP server?
What is the purpose of setting the parameter guest ok on a share?
When would you set the global parameter disable spoolss?
Why would you disable password caching on Windows 9x/Me clients?
The example of Abmas Accounting uses User Mode security. How does this provide anonymous access?

What makes an anonymous Samba server more simple than a non-anonymous Samba server?

In the anonymous server, the only account used is the guest account. In a non-anonymous configuration, it is necessary to add real user accounts to both the UNIX system and to the Samba configuration. Non-anonymous servers require additional administration.

How is the operation of the parameter force user different from setting the root directory of the share SUID?

The parameter force user causes all operations on the share to assume the UID of the forced user. The new default GID that applies is the primary GID of the forced user. This gives all users of this resource the actual privilege of the forced user.

When a directory is set SUID, the operating system forces files that are written within it to be owned by the owner of the directory. While this happens, the user who is using the share has only the level of privilege he or she is assigned within the operating system context.

The parameter force user has potential security implications that go beyond the actual share root directory. Be careful and wary of using this parameter.

When would you both use the per share parameter force user and set the share root directory SUID?

You would use both parameters when it is necessary to guarantee that all share handling operations are conducted as the forced user, while all file and directory creation are done as the SUID directory owner.

What is better about CUPS printing than LPRng printing?

CUPS is a print spooling system that has integrated remote management facilities, provides completely automated print processing/preprocessing, and can be configured to automatically apply print preprocessing filters to ensure that a print job submitted is correctly rendered for the target printer. CUPS includes an image file RIP that supports printing of image files to non-PostScript printers. CUPS has lots of bells and whistles and is more like a supercharged MS Windows NT/200x print monitor and processor. Its complexity can be eliminated or turbocharged to suit any fancy.

The LPRng software is an enhanced, extended, and portable implementation of the Berkeley LPR print spooler functionality. It provides the same interface and meets RFC1179 requirements. LPRng can be configured to act like CUPS, but it is in principle a replacement for the old Berkeley lpr/lpd spooler. LPRng is generally preferred by those who are familiar with Berkeley lpr/lpd.

Which spooling system is better is a matter of personal taste. It depends on what you want to do and how you want to do it and manage it. Most modern Linux systems ship with CUPS as the default print management system.

When should Windows client IP addresses be hard-coded?

When there are few MS Windows clients, little client change, no mobile users, and users are not inclined to tamper with network settings, it is a safe and convenient matter to hard-code Windows client TCP/IP settings. Given that it is possible to lock down the Windows desktop and remove user ability to access network configuration controls, fixed configuration eliminates the need for a DHCP server. This reduces maintenance overheads and eliminates a possible point of network failure.

Under what circumstances is it best to use a DHCP server?

In network configurations where there are mobile users, or where Windows client PCs move around (particularly between offices or between subnets), it makes complete sense to control all Windows client configurations using a DHCP server. Additionally, when users do tamper with the network settings, DHCP can be used to normalize all client settings.

One underappreciated benefit of using a DHCP server to assign all network client device TCP/IP settings is that it makes it a pain-free process to change network TCP/IP settings, change network addressing, or enhance the ability of client devices to benefit from new network services.

Another benefit of modern DHCP servers is their ability to register dynamically assigned IP addresses with the DNS server. The benefits of Dynamic DNS (DDNS) are considerable in a large Windows network environment.

What is the purpose of setting the parameter guest ok on a share?

If this parameter is set to yes for a service, then no password is required to connect to the service. Privileges are those of the guest account.

When would you set the global parameter disable spoolss?

Setting this parameter to Yes disables Samba's support for the SPOOLSS set of MS-RPCs and yields behavior identical to Samba 2.0.x. Windows NT/2000 clients can downgrade to using LanMan style printing commands. Windows 9x/Me are unaffected by the parameter. However, this disables the ability to upload printer drivers to a Samba server via the Windows NT/200x Add Printer Wizard or by using the NT printer properties dialog window. It also disables the capability of Windows NT/200x clients to download print drivers from the Samba host on demand. Be extremely careful about setting this parameter.

The alternate parameter use client driver applies only to Windows NT/200x clients. It has no effect on Windows 95/98/Me clients. When serving a printer to Windows NT/200x clients without first installing a valid printer driver on the Samba host, the client is required to install a local printer driver. From this point on, the client treats the printer as a local printer and not a network printer connection. This is much the same behavior that occurs when disable spoolss = yes.

Under normal circumstances, the NT/200x client attempts to open the network printer using MS-RPC. Because the client considers the printer to be local, it attempts to issue the OpenPrinterEx() call requesting access rights associated with the logged on user. If the user possesses local administrator rights but not root privilege on the Samba host (often the case), the OpenPrinterEx() call fails. The result is that the client now displays an “Access Denied; Unable to connect” message in the printer queue window (even though jobs may be printed successfully). This parameter MUST not be enabled on a print share that has a valid print driver installed on the Samba server.

Why would you disable password caching on Windows 9x/Me clients?

Windows 9x/Me workstations that are set at default (password caching enabled) store the username and password in files located in the Windows master directory. Such files can be scavenged (read off a client machine) and decrypted, thus revealing the user's access credentials for all systems the user may have accessed. It is most insecure to allow any Windows 9x/Me client to operate with password caching enabled.

The example of Abmas Accounting uses User Mode security. How does this provide anonymous access?

The example used does not provide anonymous access. Since the clients are all Windows 2000 Professional, and given that users are logging onto their machines, by default the client attempts to connect to a remote server using currently logged in user credentials. By ensuring that the user's login ID and password are the same as those set on the Samba server, access is transparent and does not require separate user authentication.



[1] The examples given mirror those documented in The Official Samba-3 HOWTO and Reference Guide, Second Edition (TOSHARG2) Chapter 2, Section 2.3.1. You may gain additional insight from the standalone server configurations covered in TOSHARG2, sections 2.3.1.2 through 2.3.1.4.

[2] This information is given purely as an example of how data may be stored in such a way that it will be easy to locate records at a later date. The example is not meant to imply any instructions that may be construed as essential to the design of the solution; this is something you will almost certainly want to determine for yourself.

[4] This example uses the smbpasswd file in an obtuse way, since the use of the passdb backend has not been specified in the smb.conf file. This means that you are depending on correct default behavior.