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
B-4 Virtual Private Networking
202-10015-01
The ESP header is inserted into the packet between the IP header and any subsequent packet
contents. However, because ESP encrypts the data, the payload is changed. ESP does not encrypt
the ESP header, nor does it encrypt the ESP authentication.
Authentication Header (AH)
AH provides authentication and integrity, which protect against data tampering, using the same
algorithms as ESP. AH also provides optional anti-replay protection, which protects against
unauthorized retransmission of packets. The authentication header is inserted into the packet
between the IP header and any subsequent packet contents. The payload is not touched.
Although AH protects the packet’s origin, destination, and contents from being tampered with, the
identity of the sender and receiver is known. In addition, AH does not protect the data’s
confidentiality. If data is intercepted and only AH is used, the message contents can be read. ESP
protects data confidentiality. For added protection in certain cases, AH and ESP can be used
together. In the following table, IP HDR represents the IP header and includes both source and
destination IP addresses.
Figure B-2: Original packet and packet with IPSec Authentication Header
IKE Security Association
IPSec introduces the concept of the Security Association (SA). An SA is a logical connection
between two devices transferring data. An SA provides data protection for unidirectional traffic by
using the defined IPSec protocols. An IPSec tunnel typically consists of two unidirectional SAs,
which together provide a protected, full-duplex data channel.
The SAs allow an enterprise to control exactly what resources may communicate securely,
according to security policy. To do this an enterprise can set up multiple SAs to enable multiple
secure VPNs, as well as define SAs within the VPN to support different departments and business
partners.