Routing and Remote Access Service

Routing and Remote Access Service (RRAS) is a Microsoft API and server software that makes it possible to create applications to administer the routing and remote access service capabilities of the operating system, to function as a network router. Developers can also use RRAS to implement routing protocols. The RRAS server functionality follows and builds upon the Remote Access Service (RAS) in Windows NT 4.0.[1]

Overview

RRAS was introduced with Windows 2000 and offered as a download for Windows NT 4.0.

  • Multiprotocol router - The computer running RRAS can route IP, IPX, and AppleTalk simultaneously. All routable protocols are configured from the same administrative utility. RRAS included two unicast routing protocols, Routing Information Protocol (RIP) and Open Shortest Path First (OSPF) as well as IGMP routing and forwarding features for IP multicasting.
  • Demand-dial router - IP and IPX can be routed over on-demand or persistent WAN links such as analog phone lines or ISDN, or over VPN connections.
  • Remote access server - provides remote access connectivity to dial-up or VPN remote access clients that use IP, IPX, AppleTalk, or NetBEUI.

Routing services and remote access services used to work separately. Point-to-Point Protocol (PPP), the protocol suite commonly used to negotiate point-to-point connections, has allowed them to be combined.

RRAS can be used to create client applications. These applications display RAS common dialog boxes, manage remote access connections and devices, and manipulate phone-book entries.[2]

Routing and Remote Access Service Management Pack

The Routing and Remote Access Service Management Pack helps a network administrator monitor the status and availability of computers running Windows Server 2008 R2.[3]

Features introduced in Windows Server 2008

  • Server Manager – Application used to assist system administrators with installation, configuration, and management of other RRAS features.
  • Secure Socket Tunneling Protocol
  • VPN enforcement for Network Access Protection – Limits VPN connections to defined network services.
  • IPv6 support – added PPPv6, L2TP, DHCPv6, and RADIUS technologies allowing them to work over IPv6.
  • New cryptographic support – strengthened encryption algorithms to comply with U.S. government security requirements, in addition to removing algorithms which could not be strengthened.[4]

Removed technologies

See also

References

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