User's Manual
Table Of Contents
- Reference Manual for the NETGEAR ProSafe VPN Client
- Contents
- Chapter 1 About This Manual
- Chapter 2 Introduction
- Chapter 3 Installation
- Chapter 4 Configuring L2TP Connections
- Chapter 5 Using the Security Policy Editor
- What is the Security Policy Editor?
- Basic Steps to Configure a Security Policy
- How to Secure All Connections
- How to Configure Global Policy Settings
- How to Configure Other Connections
- How to Add and Configure a Connection
- How to Enter a Preshared Key
- How to Configure a Gateway
- Configure My Identity
- Configure Security Policy Connection Options
- Configure Authentication (Phase 1)
- Configure Key Exchange (Phase 2)
- Edit a Distinguished Name
- Configure and Manage Connections
- Manage Proposals
- Manage Redundant Gateways
- Manage the Security Policy
- Chapter 6 Using the Certificate Manager
- What is the Certificate Manager?
- Obtain Certificates
- With Online (SCEP) Enrollment
- CAs that Support SCEP
- Retrieve a CA Certificate Online
- Configure a CA Certificate
- Use an HTTP Proxy Server for Online Certificate Requests and CRL Updates
- Import a CA Certificate
- Select a CSP
- Request a Personal Certificate
- Define How Often to Check for and Retrieve New Personal Certificates
- Retrieve a Personal Certificate Manually
- Manage Certificate Requests
- With Manual (File-Based) Enrollment
- Obtain Certificates Through Internet Explorer
- With Online (SCEP) Enrollment
- Manage Certificates
- Manage Certificate Revocation Lists (CRLs)
- Manage the Trust Policy
- Chapter 7 Using Sessions
- Chapter 8 Distributing Customized Profiles
- Chapter 9 Troubleshooting
- Appendix A Networks, Routing, and Firewall Basics
- Appendix B Virtual Private Networking
- Appendix C NETGEAR ProSafe VPN Client to NETGEAR FVS318 or FVM318 VPN Routers
- Appendix D NETGEAR VPN Client to NETGEAR FVL328 or FWAG114 VPN Router
- Glossary
- Index
Reference Manual for the NETGEAR ProSafe VPN Client
Virtual Private Networking B-3
202-10015-01
• Encapsulating Security Payload (ESP): Provides confidentiality, authentication, and
integrity.
• Authentication Header (AH): Provides authentication and integrity.
• Internet Key Exchange (IKE): Provides key management and Security Association (SA)
management.
Encapsulating Security Payload (ESP)
ESP provides authentication, integrity, and confidentiality, which protect against data tampering
and, most importantly, provide message content protection.
IPSec provides an open framework for implementing industry standard algorithms, such as SHA
and MD5. The algorithms IPSec uses produce a unique and unforgeable identifier for each packet,
which is a data equivalent of a fingerprint. This fingerprint allows the device to determine if a
packet has been tampered with. Furthermore, packets that are not authenticated are discarded and
not delivered to the intended receiver.
ESP also provides all encryption services in IPSec. Encryption translates a readable message into
an unreadable format to hide the message content. The opposite process, called decryption,
translates the message content from an unreadable format to a readable message. Encryption/
decryption allows only the sender and the authorized receiver to read the data. In addition, ESP has
an option to perform authentication, called ESP authentication. Using ESP authentication, ESP
provides authentication and integrity for the payload and not for the IP header.
Figure B-1: Original packet and packet with IPSec Encapsulated Security Payload