Tunnelling, a technique that involves the encapsulation of data in wrapper packets to transport it from one point to another is a networking technique that has been around for some years. Claiming to have its neck ahead of the pack, Digital Equipment Corp said its Internet Tunnel has extended this capability to provide encryption and […]
Tunnelling, a technique that involves the encapsulation of data in wrapper packets to transport it from one point to another is a networking technique that has been around for some years. Claiming to have its neck ahead of the pack, Digital Equipment Corp said its Internet Tunnel has extended this capability to provide encryption and authentication technologies for the Internet, enabling corporate data to be transmitted securely over the Internet. Digital Internet Tunnel uses a regular Internet Protocol jacket, encrypted and encapsulated inside a TCP/IP packet. The source and destination IP applications work as normal but data on the network between the two tunnel servers appears scrambled. When a client wants to initiate a connection with an Internet Group Tunnel server, a connection request is sent over the network. The connection request message contains an identification message that is encrypted by the client with the server’s public key, and then decrypted by the server with its own private key. The server’s database contains a list of clients authorised to establish tunnels. If and when the request has been granted, the tunnel server sends a response, encrypted using the client’s public key, which is then decrypted by the client using its private key. After the authentication session, the two parties exchange portions of a session key, which is then combined to form a secret session key. DEC uses the RSA encryption technology. Versions for the US and Canada use a 128-bit RC4 key, international versions (because of US government restrictions) use a 40-bit version only. The session key is changed periodically to enhance security. The tunnel comes as a Group tunnel and Personal tunnel. The Group tunnel software runs under Digital Unix, with a SLIP Serial Line Internet Protocol, Point-to-Point Protocol, Ethernet or FDDI connection.
Personal Tunnel Software
It manages the construction and operation of tunnels from other tunnel servers. Performance depends on system configuration and end-to-end network throughput: DEC claims to support up to 512 tunnel connections. The authentication key generation and management software is included with the Tunnel product. Personal Tunnel software installed on a personal computer must have Windows95 TCP/IP software active, connected to a network with communications and using a valid IP address for the local subnet. Personal Tunnel includes a Win32 Windows application to enable the request, operation and management of an encrypted tunnel. The Internet Tunnel is intended to complement firewall products, and unlike other tunnel products is said to be firewall-independent. DEC reckons its tunnelling technology differs from that of router and firewall vendors because it offers connections from home or mobiles to the corporate network, whereas routers provide only a single private data circuit and do not support end-to-end or trans-Internet privacy. Firewall tunnelling prodcts require the use of their tunnels at both ends, since interoperability standards don’t exist. DEC said its approach also wins out over Netscape’s SSL Secure Socket Layer protocol, which also uses RSA encryption, since it is used at a different level of the IP stack. Secure Socket Layer encrypts information for applications, while tunnels establish a link for all connections between two networks. With Netscape applications the need to encrypt a specific session, such as Web browsers, Telnet or File Transfer Protocol must be modified to enable the request for an encrypted link. In contrast, Digital Internet tunnel applications are not modified, and all the traffic between the tunnels is encrypted. The international version is due out this month and costs from $10,000 under Digital Unix.