Virtual Private Network (VPN) © N. Ganesan, Ph.D

Virtual Private Network (VPN)

© N. Ganesan, Ph.D.

Chapter Objectives

Chapter Modules

Primary Reference

• VPN Overview by Microsoft

VPN

• A virtual private network that is established over, in general, the Internet

• It is virtual because it exists as a virtual entity within a public network

• It is private because it is confined to a set of private users

Why is it a Virtual Private Network?

• From the user’s perspective, it appears as a network consisting of dedicated network links

• These links appear as if they are reserved for the VPN clientele

• Because of encryption, the network appears to be private

Example of a VPN

VPN Major Characteristics

• Must emulate a point-to-point link– Done by encapsulating the data that

would facilitate allow it to travel the Internet to reach the end point

• Must emulate a private link– Done by encrypting the data in the

data packets

Typical VPN Connection

Tunnel and Connections

• Tunnel– The portion of the network where the

data is encapsulated

• Connection– The portion of the network where the

data is encrypted

Application Areas

• In general, provide users with connection to the corporate network regardless of their location

• The alternative of using truly dedicated lines for a private network are expensive propositions

Some Common Uses of VPN

• Provide users with secured remote access over the Internet to corporate resources

• Connect two computer networks securely over the Internet– Example: Connect a branch office network

to the network in the head office

• Secure part of a corporate network for security and confidentiality purpose

Remote Access Over the Internet

Connecting Two Computer Networks Securely

Securing a Part of the Corporate Network

Basic VPN Requirements

• User Authentication• Address Management • Data Encryption• Key Management• Multi-protocol Support

User Authentication

• VPN must be able to verify user authentication and allow only authorized users to access the network

Address Management

• Assign addresses to clients and ensure that private addresses are kept private on the VPN

Data Encryption

• Encrypt and decrypt the data to ensure that others on the not have access to the data

Key Management

• Keys must be generated and refreshed for encryption at the server and the client

• Note that keys are required for encryption

Multi-protocol Support

• The VPN technology must support commons protocols on the Internet such as IP, IPX etc.

VPN Implementation Protocols

• Point-to-Point Tunneling Protocol (PPTP) of Layer 2 Tunneling Protocol (L2TP)

• IPSec

More on Tunneling

• Tunneling involves the encapsulation, transmission and decapsulation of data packets

• The data is encapsulated with additional headers

• The additional headers provide routing information for encapsulated data to be routed between the end points of a tunnel

Tunneling

Point-to-Point Tunneling Protocol (PPTP)

• Encapsulate and encrypt the data to be sent over a corporate or public IP network

Level 2 Tunneling Protocol

• Encrypted and encapsulated to be sent over a communication links that support user datagram mode of transmission – Examples of links include X.25, Frame

Relay and ATM

IPSec Tunnel Mode

• Encapsulate and encrypt in an IP header for transmission over an IP network

Layer 2 Tunneling Protocols

• PPTP• L2TP• Both encapsulate the payload in a

PPP frame

Layer 3 Tunneling Protocol

• IPSec Tunneling Mode– Encapsulates the payload in an

additional IP header

PPP Format

PPTP Format

L2TP Format

Windows Implementation of VPN

• L2TP for tunneling• IPSec for encryption • Known as L2TP/IPSec

Windows Implementation

IPSec Tunnel Mode

• Supports only IP networks

Tunnel Types

• Voluntary– VPN request is initiated by the client– The client remains the end point

• Compulsory – VPN access server creates a compulsory

tunnel for the client – In this case, the dial-up access server

between the user’s computer and the tunnel server is the tunnel end point that acts as a client

The Choice

• Voluntary tunneling is used in most applications

Other Important Protocols in VPN

• Microsoft Point-to-Point Encryption (MPPE)

• Extensible Authentication Protocol (EAP)

• Remote Authentication Dial-in User Service (RADIUS)

A Note on RADIUS

Keys

• Symmetric Keys• Asymmetric Keys

Summary

End of Module

VPN Scenarios

© N. Ganesan, Ph.D.

Chapter Objectives

Chapter Modules

Reference

Some Example Scenarios

• VPN remote access for employees. • On-demand branch office access. • Persistent branch office access. • Extranet for business partners. • Dial-up and VPNs with RADIUS

authentication

VPN Remote Access for Employees

VPN Remote Access for Employees

Router-to-Router Branch Office Connection

Branch Office Connection (Router-to-Router)

VPN Based Extranet

Dial-up and VPNS with RADIUS Authentication

Module

Configuring a VPN Environment

Test Scenario

Component Details

• A computer running Windows Server 2003, Enterprise Edition, named DC1 that is acting as a domain controller, a Domain Name System (DNS) server, a Dynamic Host Configuration Protocol (DHCP) server, and a certification authority (CA).

• A computer running Windows Server 2003, Standard Edition, named VPN1 that is acting as a VPN server. VPN1 has two network adapters installed.

• A computer running Windows Server 2003, Standard Edition, named IAS1 that is acting as a Remote Authentication Dial-in User Service (RADIUS) server.

Component Details Cont.

• A computer running Windows Server 2003, Standard Edition, named IIS1 that is acting as a Web and file server.

• A computer running Windows XP Professional named CLIENT1 that is acting as a VPN client.

Private and Public Networks

• Private – 172.16.0.0/24

• Simulated Public– 10.0.0.0/24

DC1

• DC1 is a computer running Windows Server 2003, Enterprise Edition that is providing the following services:– •A domain controller for the example.com

Active Directory domain– .•A DNS server for the example.com DNS

domain.– •A DHCP server for the intranet network

segment– •The enterprise root certification authority

(CA) for the example.com domain.

Step 1: Configuring DC1

• The first step is to configure the following– Active Directory– DNS– DHCP– CA

Step 2: Configure IAS1

• Install Windows Server – Provides RADIUS authentication,

authorization, and accounting for VPN1

• Register server in active directory• Configure new remote access policies • Specify authentication method and

encryption level

Step 3: Configure IIS1

• Configure this as a web server for web access as well as file sharing

Step 4: Configure VPN1

• Install VPN1 as a member server in the domain

• Configure TCP/IP for the Intranet and Internet sides

• Configure and enable routing and remote access

• Setup the server to work with a RADIUS server

• Setup the DHCP relay agent parameters

Step 5: Configure Client1

• CLIENT1 is a computer running Windows XP Professional that is acting as a VPN client and gaining remote access to intranet resources across the simulated Internet. To configure CLIENT1 as a VPN client for a PPTP connection, perform the following steps:

• 1.Connect CLIENT1 to the intranet network segment.

• 2.On CLIENT1, install Windows XP Professional as a member computer named CLIENT1 of the example.com domain.

• 3.Add the VPNUser account in the example.com domain to the local Administrators group.

• 4.Log off and then log on using the VPNUser account in the example.com domain.

• 5.From Control Panel-Network Connections, obtain properties on the Local Area Network connection, and then obtain properties on the Internet Protocol (TCP/IP).

• 6.Click the Alternate Configuration tab, and then click User configured.

• 7.In IP address, type 10.0.0.1. In Subnet mask, type 255.255.255.0. This is shown in the following figure.

• 8.Click OK to save changes to the Internet Protocol (TCP/IP). Click OK to save changes to the Local Area Network connection.

• 9.Shut down the CLIENT1 computer.• 10.Disconnect the CLIENT1 computer

from the intranet network segment, and connect it to the simulated Internet network segment.

• 11.Restart the CLIENT1 computer and log on using the VPNUser account.

• 12.On CLIENT1, open the Network Connections folder from Control Panel.

• 13.In Network Tasks, click Create a new connection.

• 14.On the Welcome to the New Connection Wizard page of the New Connection Wizard, click Next.

• 15.On the Network Connection Type page, click Connect to the network at my workplace. This is shown in the following figure.

• 19.Click Next. On the Connection Availability page, click Next.

• 20.On the Completing the New Connection Wizard page, click Finish. The Connect PPTPtoCorpnet dialog box is displayed. This is shown in the following figure.

• 21.Click Properties, and then click the Networking tab.

• 22.On the Networking tab, in Type of VPN, click PPTP VPN. This is shown in the following figure

• 23.Click OK to save changes to the PPTPtoCorpnet connection. The Connect PPTPtoCorpnet dialog box is displayed.

• 24.In User name, type example/VPNUser. In Password, type the password you chose for the VPNUser account. This is shown in the following figure.

• 25.Click Connect.• 26.When the connection is complete, run

Internet Explorer.• 27.If prompted by the Internet Connection

Wizard, configure it for a LAN connection. In Address, type http://IIS1.example.com/winxp.gif. You should see a Windows XP graphic.

• 28.Click Start, click Run, type \\IIS1\ROOT, and then click OK. You should see the contents of the Local Drive (C:) on IIS1.

• 29.Right-click the PPTPtoCorpnet connection, and then click Disconnect.

End of Chapter