Table of Contents for
Practical UNIX and Internet Security, 3rd Edition

Version ebook / Retour

Cover image for bash Cookbook, 2nd Edition Practical UNIX and Internet Security, 3rd Edition by Alan Schwartz Published by O'Reilly Media, Inc., 2003
  1. Cover
  2. Practical Unix & Internet Security, 3rd Edition
  3. A Note Regarding Supplemental Files
  4. Preface
  5. Unix “Security”?
  6. Scope of This Book
  7. Which Unix System?
  8. Conventions Used in This Book
  9. Comments and Questions
  10. Acknowledgments
  11. A Note to Would-Be Attackers
  12. I. Computer Security Basics
  13. 1. Introduction: Some Fundamental Questions
  14. What Is Computer Security?
  15. What Is an Operating System?
  16. What Is a Deployment Environment?
  17. Summary
  18. 2. Unix History and Lineage
  19. History of Unix
  20. Security and Unix
  21. Role of This Book
  22. Summary
  23. 3. Policies and Guidelines
  24. Planning Your Security Needs
  25. Risk Assessment
  26. Cost-Benefit Analysis and Best Practices
  27. Policy
  28. Compliance Audits
  29. Outsourcing Options
  30. The Problem with Security Through Obscurity
  31. Summary
  32. II. Security Building Blocks
  33. 4. Users, Passwords, and Authentication
  34. Logging in with Usernames and Passwords
  35. The Care and Feeding of Passwords
  36. How Unix Implements Passwords
  37. Network Account and Authorization Systems
  38. Pluggable Authentication Modules (PAM)
  39. Summary
  40. 5. Users, Groups, and the Superuser
  41. Users and Groups
  42. The Superuser (root)
  43. The su Command: Changing Who You Claim to Be
  44. Restrictions on the Superuser
  45. Summary
  46. 6. Filesystems and Security
  47. Understanding Filesystems
  48. File Attributes and Permissions
  49. chmod: Changing a File’s Permissions
  50. The umask
  51. SUID and SGID
  52. Device Files
  53. Changing a File’s Owner or Group
  54. Summary
  55. 7. Cryptography Basics
  56. Understanding Cryptography
  57. Symmetric Key Algorithms
  58. Public Key Algorithms
  59. Message Digest Functions
  60. Summary
  61. 8. Physical Security for Servers
  62. Planning for the Forgotten Threats
  63. Protecting Computer Hardware
  64. Preventing Theft
  65. Protecting Your Data
  66. Story: A Failed Site Inspection
  67. Summary
  68. 9. Personnel Security
  69. Background Checks
  70. On the Job
  71. Departure
  72. Other People
  73. Summary
  74. III. Network and Internet Security
  75. 10. Modems and Dialup Security
  76. Modems: Theory of Operation
  77. Modems and Security
  78. Modems and Unix
  79. Additional Security for Modems
  80. Summary
  81. 11. TCP/IP Networks
  82. Networking
  83. IP: The Internet Protocol
  84. IP Security
  85. Summary
  86. 12. Securing TCP and UDP Services
  87. Understanding Unix Internet Servers and Services
  88. Controlling Access to Servers
  89. Primary Unix Network Services
  90. Managing Services Securely
  91. Putting It All Together: An Example
  92. Summary
  93. 13. Sun RPC
  94. Remote Procedure Call (RPC)
  95. Secure RPC (AUTH_DES)
  96. Summary
  97. 14. Network-Based Authentication Systems
  98. Sun’s Network Information Service (NIS)
  99. Sun’s NIS+
  100. Kerberos
  101. LDAP
  102. Other Network Authentication Systems
  103. Summary
  104. 15. Network Filesystems
  105. Understanding NFS
  106. Server-Side NFS Security
  107. Client-Side NFS Security
  108. Improving NFS Security
  109. Some Last Comments on NFS
  110. Understanding SMB
  111. Summary
  112. 16. Secure Programming Techniques
  113. One Bug Can Ruin Your Whole Day . . .
  114. Tips on Avoiding Security-Related Bugs
  115. Tips on Writing Network Programs
  116. Tips on Writing SUID/SGID Programs
  117. Using chroot( )
  118. Tips on Using Passwords
  119. Tips on Generating Random Numbers
  120. Summary
  121. IV. Secure Operations
  122. 17. Keeping Up to Date
  123. Software Management Systems
  124. Updating System Software
  125. Summary
  126. 18. Backups
  127. Why Make Backups?
  128. Backing Up System Files
  129. Software for Backups
  130. Summary
  131. 19. Defending Accounts
  132. Dangerous Accounts
  133. Monitoring File Format
  134. Restricting Logins
  135. Managing Dormant Accounts
  136. Protecting the root Account
  137. One-Time Passwords
  138. Administrative Techniques for Conventional Passwords
  139. Intrusion Detection Systems
  140. Summary
  141. 20. Integrity Management
  142. The Need for Integrity
  143. Protecting Integrity
  144. Detecting Changes After the Fact
  145. Integrity-Checking Tools
  146. Summary
  147. 21. Auditing, Logging, and Forensics
  148. Unix Log File Utilities
  149. Process Accounting: The acct/pacct File
  150. Program-Specific Log Files
  151. Designing a Site-Wide Log Policy
  152. Handwritten Logs
  153. Managing Log Files
  154. Unix Forensics
  155. Summary
  156. V. Handling Security Incidents
  157. 22. Discovering a Break-in
  158. Prelude
  159. Discovering an Intruder
  160. Cleaning Up After the Intruder
  161. Case Studies
  162. Summary
  163. 23. Protecting Against Programmed Threats
  164. Programmed Threats: Definitions
  165. Damage
  166. Authors
  167. Entry
  168. Protecting Yourself
  169. Preventing Attacks
  170. Summary
  171. 24. Denial of Service Attacks and Solutions
  172. Types of Attacks
  173. Destructive Attacks
  174. Overload Attacks
  175. Network Denial of Service Attacks
  176. Summary
  177. 25. Computer Crime
  178. Your Legal Options After a Break-in
  179. Criminal Hazards
  180. Criminal Subject Matter
  181. Summary
  182. 26. Who Do You Trust?
  183. Can You Trust Your Computer?
  184. Can You Trust Your Suppliers?
  185. Can You Trust People?
  186. Summary
  187. VI. Appendixes
  188. A. Unix Security Checklist
  189. Preface
  190. Chapter 1: Introduction: Some Fundamental Questions
  191. Chapter 2: Unix History and Lineage
  192. Chapter 3: Policies and Guidelines
  193. Chapter 4: Users, Passwords, and Authentication
  194. Chapter 5: Users, Groups, and the Superuser
  195. Chapter 6: Filesystems and Security
  196. Chapter 7: Cryptography Basics
  197. Chapter 8: Physical Security for Servers
  198. Chapter 9: Personnel Security
  199. Chapter 10: Modems and Dialup Security
  200. Chapter 11: TCP/IP Networks
  201. Chapter 12: Securing TCP and UDP Services
  202. Chapter 13: Sun RPC
  203. Chapter 14: Network-Based Authentication Systems
  204. Chapter 15: Network Filesystems
  205. Chapter 16: Secure Programming Techniques
  206. Chapter 17: Keeping Up to Date
  207. Chapter 18: Backups
  208. Chapter 19: Defending Accounts
  209. Chapter 20: Integrity Management
  210. Chapter 21: Auditing, Logging, and Forensics
  211. Chapter 22: Discovering a Break-In
  212. Chapter 23: Protecting Against Programmed Threats
  213. Chapter 24: Denial of Service Attacks and Solutions
  214. Chapter 25: Computer Crime
  215. Chapter 26: Who Do You Trust?
  216. Appendix A: Unix Security Checklist
  217. Appendix B: Unix Processes
  218. Appendixes C, D, and E: Paper Sources, Electronic Sources, and Organizations
  219. B. Unix Processes
  220. About Processes
  221. Signals
  222. Controlling and Examining Processes
  223. Starting Up Unix and Logging In
  224. C. Paper Sources
  225. Unix Security References
  226. Other Computer References
  227. D. Electronic Resources
  228. Mailing Lists
  229. Web Sites
  230. Usenet Groups
  231. Software Resources
  232. E. Organizations
  233. Professional Organizations
  234. U.S. Government Organizations
  235. Emergency Response Organizations
  236. Index
  237. Index
  238. Index
  239. Index
  240. Index
  241. Index
  242. Index
  243. Index
  244. Index
  245. Index
  246. Index
  247. Index
  248. Index
  249. Index
  250. Index
  251. Index
  252. Index
  253. Index
  254. Index
  255. Index
  256. Index
  257. Index
  258. Index
  259. Index
  260. Index
  261. Index
  262. Index
  263. About the Authors
  264. Colophon
  265. Copyright

Scope of This Book

This book is divided into six parts; it includes 26 chapters and 5 appendixes.

Part I, provides a basic introduction to computer security, the Unix operating system, and security policy. The chapters in this book are designed to be accessible to both users and administrators.

  • Chapter 1, takes a very basic look at several basic questions: What is computer security? What is an operating system? What is a deployment environment? It also introduces basic terms we use throughout the book.

  • Chapter 2, explores the history of the Unix operating system, and discusses the way that Unix history has affected Unix security.

  • Chapter 3, examines the role of setting good policies to guide the protection of your systems. It also describes the trade-offs you will need to make to account for cost, risk, and corresponding benefits.

Part II, provides a basic introduction to Unix host security. The chapters in this part of the book are also designed to be accessible to both users and administrators.

  • Chapter 4, is about Unix user accounts. It discusses the purpose of passwords, explains what makes good and bad passwords, and describes how the crypt( ) password encryption system works.

  • Chapter 5, describes how Unix groups can be used to control access to files and devices. It discusses the Unix superuser and the role that special users play. This chapter also introduces the Pluggable Authentication Module (PAM) system.

  • Chapter 6, discusses the security provisions of the Unix filesystem and tells how to restrict access to files and directories to the file’s owner, to a group of people, or to everybody using the computer system.

  • Chapter 7, discusses the role of encryption and message digests in protecting your security.

  • Chapter 8. What if somebody gets frustrated by your super-secure system and decides to smash your computer with a sledgehammer? This chapter describes physical perils that face your computer and its data and discusses ways of protecting against them.

  • Chapter 9, explores who you employ and how they fit into your overall security scheme.

Part III, describes the ways in which individual Unix computers communicate with one another and the outside world, and the ways in which these systems can be subverted by attackers who are trying to break into your computer system. Because many attacks come from the outside, this part of the book is vital reading for anyone whose computer has outside connections.

  • Chapter 10, describes how modems work and provides step-by-step instructions for testing your computer’s modems to see if they harbor potential security problems.

  • Chapter 11, provides background on how TCP/IP networking programs work and describes the security problems they pose.

  • Chapter 12, the longest chapter in this book, explores the most common TCP and UDP services and how you can secure them.

  • Chapter 13, one of the shortest chapters in the book, looks at the Remote Procedure Call system developed in the 1980s by Sun Microsystems. This RPC system is the basis of NFS and a number of other network-based services.

  • Chapter 14, discusses services for authenticating individuals over a network: NIS, NIS+, Kerberos, and LDAP. It continues the discussion of the PAM system.

  • Chapter 15, describes both Sun Microsystems’ Network Filesystem (NFS) and the Windows-compatible Server Message Block (SMB)—in particular, the Samba system.

  • Chapter 16, describes common pitfalls you might encounter when writing your own software. It gives tips on how to write robust software that will resist attack from malicious users. This information is particularly important when developing network servers.

Part IV, is directed primarily towards Unix system administrators. It describes how to configure Unix on your computer to minimize the chances of a break-in, as well as to limit the opportunities for a nonprivileged user to gain superuser access.

  • Chapter 17, discusses strategies for downloading security patches and keeping your operating system up to date.

  • Chapter 18, discusses why and how to make archival backups of your storage. It includes discussions of backup strategies for different types of organizations.

  • Chapter 19, describes ways that an attacker might try to initially break into your computer system. By finding these “doors” and closing them, you increase the security of your system.

  • Chapter 20, discusses how to monitor your filesystem for unauthorized changes. This chapter includes coverage of the use of message digests and read-only disks, and the configuration and use of the Tripwire utility.

  • Chapter 21, discusses the logging mechanisms that Unix provides to help you audit the usage and behavior of your system.

Part V, contains instructions for what to do if your computer’s security is compromised. This part of the book will also help system administrators protect their systems from authorized users who are misusing their privileges.

  • Chapter 22, contains step-by-step directions to follow if you discover that an unauthorized person is using your computer.

  • Chapter 23, discusses approaches for handling computer worms, viruses, Trojan Horses, and other programmed threats.

  • Chapter 24, describes ways that both authorized users and attackers can make your system inoperable. We also explore ways that you can find out who is doing what, and what to do about it.

  • Chapter 25. Occasionally, the only thing you can do is sue or try to have your attackers thrown in jail. This chapter describes legal recourse you may have after a security breach and discusses why legal approaches are often not helpful. It also covers some emerging concerns about running server sites connected to a wide area network such as the Internet.

  • Chapter 26, makes the point that somewhere along the line, you need to trust a few things, and people. We hope you are trusting the right ones.

Part VI, contains a number of useful lists and references.

  • Appendix A, contains a point-by-point list of many of the suggestions made in the text of the book.

  • Appendix B, is a technical discussion of how the Unix system manages processes. It also describes some of the special attributes of processes, including the UID, GID, and SUID.

  • Appendix C, lists books, articles, and magazines about computer security.

  • Appendix D, is a brief listing of some significant security tools to use with Unix, including descriptions of where to find them on the Internet.

  • Appendix E, contains the names, telephone numbers, and addresses of organizations that are devoted to ensuring that computers become more secure.