Table of Contents for
Linux Network Administrator's Guide, Second Edition

Version ebook / Retour

Cover image for bash Cookbook, 2nd Edition Linux Network Administrator's Guide, Second Edition by Terry Dawson Published by O'Reilly Media, Inc., 2000
  1. Cover
  2. Linux Network Administrator’s Guide, 2nd Edition
  3. Preface
  4. Sources of Information
  5. File System Standards
  6. Standard Linux Base
  7. About This Book
  8. The Official Printed Version
  9. Overview
  10. Conventions Used in This Book
  11. Submitting Changes
  12. Acknowledgments
  13. 1. Introduction to Networking
  14. TCP/IP Networks
  15. UUCP Networks
  16. Linux Networking
  17. Maintaining Your System
  18. 2. Issues of TCP/IP Networking
  19. IP Addresses
  20. Address Resolution
  21. IP Routing
  22. The Internet Control Message Protocol
  23. Resolving Host Names
  24. 3. Configuring the Networking Hardware
  25. A Tour of Linux Network Devices
  26. Ethernet Installation
  27. The PLIP Driver
  28. The PPP and SLIP Drivers
  29. Other Network Types
  30. 4. Configuring the Serial Hardware
  31. Introduction to Serial Devices
  32. Accessing Serial Devices
  33. Serial Hardware
  34. Using the Configuration Utilities
  35. Serial Devices and the login: Prompt
  36. 5. Configuring TCP/IP Networking
  37. Installing the Binaries
  38. Setting the Hostname
  39. Assigning IP Addresses
  40. Creating Subnets
  41. Writing hosts and networks Files
  42. Interface Configuration for IP
  43. All About ifconfig
  44. The netstat Command
  45. Checking the ARP Tables
  46. 6. Name Service and Resolver Configuration
  47. How DNS Works
  48. Running named
  49. 7. Serial Line IP
  50. SLIP Operation
  51. Dealing with Private IP Networks
  52. Using dip
  53. Running in Server Mode
  54. 8. The Point-to-Point Protocol
  55. Running pppd
  56. Using Options Files
  57. Using chat to Automate Dialing
  58. IP Configuration Options
  59. Link Control Options
  60. General Security Considerations
  61. Authentication with PPP
  62. Debugging Your PPP Setup
  63. More Advanced PPP Configurations
  64. 9. TCP/IP Firewall
  65. What Is a Firewall?
  66. What Is IP Filtering?
  67. Setting Up Linux for Firewalling
  68. Three Ways We Can Do Filtering
  69. Original IP Firewall (2.0 Kernels)
  70. IP Firewall Chains (2.2 Kernels)
  71. Netfilter and IP Tables (2.4 Kernels)
  72. TOS Bit Manipulation
  73. Testing a Firewall Configuration
  74. A Sample Firewall Configuration
  75. 10. IP Accounting
  76. Configuring IP Accounting
  77. Using IP Accounting Results
  78. Resetting the Counters
  79. Flushing the Ruleset
  80. Passive Collection of Accounting Data
  81. 11. IP Masquerade and Network Address Translation
  82. Configuring the Kernel for IP Masquerade
  83. Configuring IP Masquerade
  84. Handling Name Server Lookups
  85. More About Network Address Translation
  86. 12. Important Network Features
  87. The tcpd Access Control Facility
  88. The Services and Protocols Files
  89. Remote Procedure Call
  90. Configuring Remote Login and Execution
  91. 13. The Network Information System
  92. NIS Versus NIS+
  93. The Client Side of NIS
  94. Running an NIS Server
  95. NIS Server Security
  96. Setting Up an NIS Client with GNU libc
  97. Choosing the Right Maps
  98. Using the passwd and group Maps
  99. Using NIS with Shadow Support
  100. 14. The Network File System
  101. Mounting an NFS Volume
  102. The NFS Daemons
  103. The exports File
  104. Kernel-Based NFSv2 Server Support
  105. Kernel-Based NFSv3 Server Support
  106. 15. IPX and the NCP Filesystem
  107. IPX and Linux
  108. Configuring the Kernel for IPX and NCPFS
  109. Configuring IPX Interfaces
  110. Configuring an IPX Router
  111. Mounting a Remote NetWare Volume
  112. Exploring Some of the Other IPX Tools
  113. Printing to a NetWare Print Queue
  114. NetWare Server Emulation
  115. 16. Managing Taylor UUCP
  116. UUCP Configuration Files
  117. Controlling Access to UUCP Features
  118. Setting Up Your System for Dialing In
  119. UUCP Low-Level Protocols
  120. Troubleshooting
  121. Log Files and Debugging
  122. 17. Electronic Mail
  123. How Is Mail Delivered?
  124. Email Addresses
  125. How Does Mail Routing Work?
  126. Configuring elm
  127. 18. Sendmail
  128. Installing sendmail
  129. Overview of Configuration Files
  130. The sendmail.cf and sendmail.mc Files
  131. Generating the sendmail.cf File
  132. Interpreting and Writing Rewrite Rules
  133. Configuring sendmail Options
  134. Some Useful sendmail Configurations
  135. Testing Your Configuration
  136. Running sendmail
  137. Tips and Tricks
  138. 19. Getting Exim Up and Running
  139. If Your Mail Doesn’t Get Through
  140. Compiling Exim
  141. Mail Delivery Modes
  142. Miscellaneous config Options
  143. Message Routing and Delivery
  144. Protecting Against Mail Spam
  145. UUCP Setup
  146. 20. Netnews
  147. What Is Usenet, Anyway?
  148. How Does Usenet Handle News?
  149. 21. C News
  150. Installation
  151. The sys File
  152. The active File
  153. Article Batching
  154. Expiring News
  155. Miscellaneous Files
  156. Control Messages
  157. C News in an NFS Environment
  158. Maintenance Tools and Tasks
  159. 22. NNTP and the nntpd Daemon
  160. Installing the NNTP Server
  161. Restricting NNTP Access
  162. NNTP Authorization
  163. nntpd Interaction with C News
  164. 23. Internet News
  165. Newsreaders and INN
  166. Installing INN
  167. Configuring INN: the Basic Setup
  168. INN Configuration Files
  169. Running INN
  170. Managing INN: The ctlinnd Command
  171. 24. Newsreader Configuration
  172. trn Configuration
  173. nn Configuration
  174. A. Example Network: The Virtual Brewery
  175. B. Useful Cable Configurations
  176. A Serial NULL Modem Cable
  177. C. Linux Network Administrator’s Guide, Second Edition Copyright Information
  178. 1. Applicability and Definitions
  179. 2. Verbatim Copying
  180. 3. Copying in Quantity
  181. 4. Modifications
  182. 5. Combining Documents
  183. 6. Collections of Documents
  184. 7. Aggregation with Independent Works
  185. 8. Translation
  186. 9. Termination
  187. 10. Future Revisions of this License
  188. D. SAGE: The System Administrators Guild
  189. Index
  190. Colophon

Serial Devices and the login: Prompt

It was once very common that a Unix installation involved one server machine and many “dumb” character mode terminals or dial-up modems. Today that sort of installation is less common, which is good news for many people interested in operating this way, because the “dumb” terminals are now very cheap to acquire. Dial-up modem configurations are no less common, but these days they would probably be used to support a SLIP or PPP login (discussed in Chapter 7 and Chapter 8) than to be used for a simple login. Nevertheless, each of these configurations can make use of a simple program called a getty program.

The term getty is probably a contraction of “get tty.” A getty program opens a serial device, configures it appropriately, optionally configures a modem, and waits for a connection to be made. An active connection on a serial device is usually indicated by the Data Carrier Detect (DCD) pin on the serial device being raised. When a connection is detected, the getty program issues a login: prompt, and then invokes the login program to handle the actual system login. Each of the virtual terminals (e.g., /dev/tty1) in Linux has a getty running against it.

There are a number of different getty implementations, each designed to suit some configurations better than others. The getty that we’ll describe here is called mgetty. It is quite popular because it has all sorts of features that make it especially modem-friendly, including support for automatic fax programs and voice modems. We’ll concentrate on configuring mgetty to answer conventional data calls and leave the rest for you to explore at your convenience.

Configuring the mgetty Daemon

The mgetty daemon is available in source form from ftp://alpha.greenie.net/pub/mgetty/source/,and is available in just about all Linux distributions in prepackaged form. The mgetty daemon differs from most other getty implementations in that it has been designed specifically for Hayes-compatible modems. It still supports direct terminal connections, but is best suited for dialup applications. Rather than using the DCD line to detect an incoming call, it listens for the RING message generated by modern modems when they detect an incoming call and are not configured for auto-answer.

The main executable program is called /usr/sbin/mgetty, and its main configuration file is called /etc/mgetty/mgetty.config. There are a number of other binary programs and configuration files that cover other mgetty features.

For most installations, configuration is a matter of editing the /etc/mgetty/ mgetty.config file and adding appropriate entries to the /etc/inittab file to execute mgetty automatically.

Example 4.6 shows a very simple mgetty configuration file. This example configures two serial devices. The first, /dev/ttyS0, supports a Hayes-compatible modem at 38,400 bps. The second, /dev/ttyS0, supports a directly connected VT100 terminal at 19,200 bps.

Example 4-6. Sample /etc/mgetty/mgetty.config File

#
# mgetty configuration file
#
# this is a sample configuration file, see mgetty.info for details
#
# comment lines start with a "#", empty lines are ignored
#
# ----- global section -----
#
# In this section, you put the global defaults, per-port stuff is below
#
# access the modem(s) with 38400 bps
speed 38400
#
# set the global debug level to "4" (default from policy.h)
debug 4
#

# ----- port specific section -----
# 
# Here you can put things that are valid only for one line, not the others
#
#
# Hayes modem connected to ttyS0: don't do fax, less logging
#
port ttyS0
  debug 3
  data-only y
#
# direct connection of a VT100 terminal which doesn't like DTR drops
#
port ttyS1
  direct y
  speed 19200
  toggle-dtr n
#

The configuration file supports global and port-specific options. In our example we used a global option to set the speed to 38,400 bps. This value is inherited by the ttyS0 port. Ports we apply mgetty to use this speed setting unless it is overwritten by a port-specific speed setting, as we have done in the ttyS1 configuration.

The debug keyword controls the verbosity of mgetty logging. The data-only keyword in the ttyS0 configuration causes mgetty to ignore any modem fax features, to operate just as a data modem. The direct keyword in the ttyS1 configuration instructs mgetty not to attempt any modem initialization on the port. Finally, the toggle-dtr keyword instructs mgetty not to attempt to hang up the line by dropping the DTR (Data Terminal Ready) pin on the serial interface; some terminals don’t like this to happen.

You can also choose to leave the mgetty.config file empty and use command-line arguments to specify most of the same parameters. The documentation accompanying the application includes a complete description of the mgetty configuration file parameters and command-line arguments. See the following example.

We need to add two entries to the /etc/inittab file to activate this configuration. The inittab file is the configuration file of the Unix System V init command. The init command is responsible for system initialization; it provides a means of automatically executing programs at boot time and re-executing them when they terminate. This is ideal for the goals of running a getty program.

T0:23:respawn:/sbin/mgetty ttyS0
T1:23:respawn:/sbin/mgetty ttyS1

Each line of the /etc/inittab file contains four fields, separated by colons. The first field is an identifier that uniquely labels an entry in the file; traditionally it is two characters, but modern versions allow four. The second field is the list of run levels at which this entry should be active. A run level is a means of providing alternate machine configurations and is implemented using trees of startup scripts stored in directories called /etc/rc1.d, /etc/rc2.d, etc. This feature is typically implemented very simply, and you should model your entries on others in the file or refer to your system documentation for more information. The third field describes when to take action. For the purposes of running a getty program, this field should be set to respawn, meaning that the command should be re-executed automatically when it dies. There are several other options, as well, but they are not useful for our purposes here. The fourth field is the actual command to execute; this is where we specify the mgetty command and any arguments we wish to pass it. In our simple example we’re starting and restarting mgetty whenever the system is operating at either of run levels two or three, and are supplying as an argument just the name of the device we wish it to use. The mgetty command assumes the /dev/, so we don’t need to supply it.

This chapter was a quick introduction to mgetty and how to offer login prompts to serial devices. You can find more extensive information in the Serial-HOWTO.

After you’ve edited the configuration files, you need to reload init to make the changes take effect. Simply send a hangup signal to the init process; it always has a process ID of one, so you can use the following command safely:

# kill -HUP 1