Synopses & Reviews
Expert solutions for securing network infrastructures and VPNs
- Build security into the network by defining zones, implementing secure routing protocol designs, and building safe LAN switching environments
- Understand the inner workings of the Cisco PIX Firewall and analyze in-depth Cisco PIX Firewall and Cisco IOS Firewall features and concepts
- Understand what VPNs are and how they are implemented with protocols such as GRE, L2TP, and IPSec
- Gain a packet-level understanding of the IPSec suite of protocols, its associated encryption and hashing functions, and authentication techniques
- Learn how network attacks can be categorized and how the Cisco IDS is designed and can be set upto protect against them
- Control network access by learning how AAA fits into the Cisco security model and by implementing RADIUS and TACACS+ protocols
- Provision service provider security using ACLs, NBAR, and CAR to identify and control attacks
- Identify and resolve common implementation failures by evaluating real-world troubleshooting scenarios
As organizations increase their dependence on networks for core business processes and increase access to remote sites and mobile workers via virtual private networks (VPNs), network security becomes more and more critical. In today's networked era, information is an organization's most valuable resource. Lack of customer, partner, and employee access to e-commerce and data servers can impact both revenue and productivity. Even so, most networks do not have the proper degree of security. Network Security Principles and Practices provides an in-depth understanding of the policies, products, and expertise that brings organization to this extremely complex topic and boosts your confidence in the performance and integrity of your network systems and services. Written by a CCIE engineer who participated in the development of the CCIE Security exams, Network Security Principles and Practices is the first book that provides a comprehensive review of topics important to achieving CCIE Security certification.
Network Security Principles and Practices is a comprehensive guide to network security threats and the policies and tools developed specifically to combat those threats. Taking a practical, applied approach to building security into networks, the book shows you how to build secure network architectures from the ground up. Security aspects of routing protocols, Layer 2 threats, and switch security features are all analyzed. A comprehensive treatment of VPNs and IPSec is presented in extensive packet-by-packet detail. The book takes a behind-the-scenes look at how the Cisco PIX(r) Firewall actually works, presenting many difficult-to-understand and new Cisco PIX Firewall and Cisco IOS® Firewall concepts. The book launches into a discussion of intrusion detection systems (IDS) by analyzing and breaking down modern-day network attacks, describing how an IDS deals with those threats in general, and elaborating on the Cisco implementation of IDS. The book also discusses AAA, RADIUS, and TACACS+ and their usage with some of the newer security implementations such as VPNs and proxy authentication. A complete section devoted to service provider techniques for enhancing customer security and providing support in the event of an attack is also included. Finally, the book concludes with a section dedicated to discussing tried-and-tested troubleshooting tools and techniques that are not only invaluable to candidates working toward their CCIE Security lab exam but also to the security network administrator running the operations of a network on a daily basis.
Synopsis
Design and Implementation recommendations for secure network infrastructures and CCIE preparation
- Prepare for the CCIE Security exam with a thorough explanation of key network security topics
- Written by a CCIE who helped create the new CCIE Security Recertification Exam
- Expert level, practical advice for securing a variety of network environments
- Includes implementation advice that illustrates the concepts in real-world settings
"Network Security Principles and Practices is a comprehensive guide to network security threats and the policies and tools developed specifically to combat those threats. Starting with a general discussion of network security concepts and design philosophy, the book shows readers how they can build secure network architectures from the ground up. Taking a practical, applied approach to building security into networks, the book focuses on showing readers how to implement and verify security features and products in a variety of environments. Security aspects of routing protocols are discussed and various options for choosing and using them analyzed. The book goes into a detailed discussion of the security threats posed by increasingly prevalent LAN to LAN Virtual Private Networks and remote access VPN installations and how to minimize large vulnerabilities caused by these non-traditional network portals. Firewalls, including the PIX and IOS firewalls, and underlying protocols are presented in depth. Intrusion Detection, is fully examined. The book shows the reader how to control dial-in access by setting up access servers with AAA, PPP, Tacacs+, and Radius. Finally, protections at the service provider are discussed byshowing the reader how to provision security at the service provider level. All topics covered in the book are cross-referenced to Cisco implementations and case studies utilizing Cisco solutions are presented throughout.
Saadat Malik, CCIE #4955, is the manager of technical support for the VPN solutions team at Cisco Systems, and was a key participant in the recent development of the new CCIE Security Recertification Exam. Saadat holds a Masters degree in electrical engineering from Purdue University, as well as a Bachelors degree from GIK Institute in Pakistan.
About the Author
Saadat Malik, CCIE No. 4955, manages the Technical Support Operations for the VPN and Network Security groups at Cisco Systems. As a contributor to the CCIE Security exams, he has developed deep knowledge of the issues important to CCIE Security certification. Saadat has taught computer networking at the graduate level at San Jose State University, and he is a regular speaker on various advanced network security topics at industry events and conferences.
Table of Contents
(NOTE:
Each chapter concludes with a Summary and Review Questions.)
Foreword.
Introduction.
I. INTRODUCTION TO NETWORK SECURITY. 1. An Introduction to Network Security.
Implementing a Network Security Policy. Network Security Architecture Implementation. Audit and Improvement. Case Study.
II. BUILDING SECURITY INTO THE NETWORK. 2. Defining Security Zones.
An Introduction to Security Zones. Designing a Demilitarized Zone. Case Study: Creating Zones Using the PIX Firewall. 3. Device Security.
Physical Security. Device Redundancy. Router Security. PIX Firewall Security. Switch Security. 4. Secure Routing.
Building Security into Routing Design. Router and Route Authentication. Directed Broadcast Control. Black Hole Filtering. Unicast Reverse Path Forwarding. Path Integrity. Case Study: Securing the BGP Routing Protocol. Case Study: Securing the OSPF Routing Protocol. 5. Secure LAN Switching.
General Switch and Layer 2 Security. Port Security. IP Permit Lists. Protocol Filtering and Controlling LAN Floods. Private VLANs on the Catalyst 6000. Port Authentication and Access Control Using the IEEE 802.1x Standard. 6. Network Address Translation and Security.
Security Benefits of Network Address Translation. Disadvantages of Relying on NAT for Security.
III. FIREWALLS. 7. What Are Firewalls?
Firewalls. Types of Firewalls. Positioning of Firewalls. 8. PIX Firewall.
Adaptive Security Algorithm. Basic Features of the PIX Firewall. Advanced Features of the PIX Firewall. Case Studies. 9. IOS Firewall.
Context-Based Access Control. Features of IOS Firewall. Case Study: CBAC on a Router Configured with NAT.
IV. VIRTUAL PRIVATE NETWORKS. 10. The Concept of VPNs.
VPNs Defined. VPN Types Based on Encryption Versus No-Encryption. VPN Types Based on OSI Model Layer. VPN Types Based on Business Functionality. 11. GRE.
GRE. Case Studies. 12. L2TP.
Overview of Layer 2 Tunneling Protocol. Functional Details of L2TP. Case Studies. 13. IPsec.
Types of IPsec VPNs. Composition of IPsec. Introduction to IKE. IPsec Negotiation Using the IKE Protocol. IKE Authentication Mechanisms. Encryption and Integrity-Checking Mechanisms in IPsec. Packet Encapsulation in IPsec. IKE Enhancements for Remote-Access Client IPsec. IPsec Dead Peer Discovery Mechanism. Case Studies.
V. INTRUSION DETECTION. 14. What Is Intrusion Detection?
The Need for Intrusion Detection. Types of Network Attacks Based on Mode of Attack. Types of Network Attacks Based on the Attacks Perpetrator. Common Network Attacks. The Process of Detecting Intrusions. Case Study: Kevin Metnicks Attack on Tsutomu Shimomuras Computers and How IDS Could Have Saved the Day. 15. Cisco Secure Intrusion Detection.
Components of the Cisco Secure IDS. Construction of the Management Console. Construction of the Sensor. Responses to Intrusions. Types of Signatures. Using a Router, PIX, or IDSM as a Sensor. Case Studies.
VI. NETWORK ACCESS CONTROL. 16. AAA.
Definitions of AAA Components. An Introduction to Authentication. Setting up Authentication. An Introduction to Authorization. Setting up Authorization. An Introduction to Accounting. Setting up Accounting. Case Studies. 17. TACACS+.
Introduction to TACACS+. TACACS+ Communications Architecture. TACACS+ Header Format. TACACS+ Packet Encryption. Authentication in TACACS+. Authorization in TACACS+. Accounting in TACACS+. 18. RADIUS.
Introduction to RADIUS. RADIUS Communications Architecture. 19. Special Cases of Using AAA for Implementing Security Features.
Using AAA to Provide Preshared Keys for IPsec. Using AAA for X-Auth in ISAKMP. Using AAA for Auth-Proxy. Using AAA for VPDN. Using AAA for Lock and Key. Using AAA for Command Authorization.
VII. SERVICE PROVIDER SECURITY. 20. Benefits and Challenges of Service Provider Security.
Motivation for Having Service Provider Security. Challenges of Implementing Security at the Service Provider Level. Key Components of Service Provider Security. 21. Using Access Control Lists Effectively.
Overview of Access Control Lists. Using ACLs to Stop Unauthorized Access. Using ACLs to Recognize Denial of Service Attacks. Using ACLs to Stop Denial of Service Attacks. IP Fragment Handling by ACLs. Performance Impact of ACLs. Turbo ACLs. NetFlow Switching and ACLs. 22. Using NBAR to Identify and Control Attacks.
Overview of NBAR. Using NBAR to Classify Packets. Using NBAR to Counter Network Attacks. Using PDLM in Conjunction with NBAR to Classify Network Attacks. Performance Impact of Using NBAR-Based Access Control Techniques. Case Study: The Code Red Worm and NBAR. 23. Using CAR to Control Attacks.
Overview of CAR. Using CAR to Rate-Limit or Drop Excessive Malicious Traffic. Case Study: Using CAR to Limit DDoS Attacks.
VIII. TROUBLESHOOTING. 24. Troubleshooting Network Security Implementations.
Troubleshooting NAT. Troubleshooting PIX Firewalls. Troubleshooting IOS Firewalls. Troubleshooting IPsec VPNs. Troubleshooting Intrusion Detection. Troubleshooting AAA.
IX. APPENDIXES. Appendix A. Answers to Review Questions.
Appendix B. SAFE: A Security Blueprint for Enterprise Networks White Paper.
Bibliography.
Index.