Cisco Cisco Packet Data Interworking Function (PDIF) Guía Para Resolver Problemas
GRE Protocol Interface
▀ Introduction
▄ Cisco ASR 5000 Series Enhanced Feature Configuration Guide
OL-22982-01
Introduction
GRE protocol functionality adds one additional protocol on ST-series Multimedia Core Platforms (ST40 or higher) to
support mobile users to connect to their enterprise networks through Generic Routing Encapsulation (GRE).
support mobile users to connect to their enterprise networks through Generic Routing Encapsulation (GRE).
GRE tunnels can be used by the enterprise customers of a carrier 1) To transport AAA packets corresponding to an APN
over a GRE tunnel to the corporate AAA servers and, 2) To transport the enterprise subscriber packets over the GRE
tunnel to the corporation gateway.
over a GRE tunnel to the corporate AAA servers and, 2) To transport the enterprise subscriber packets over the GRE
tunnel to the corporation gateway.
The corporate servers may have private IP addresses and hence the addresses belonging to different enterprises may be
overlapping. Each enterprise needs to be in a unique virtual routing domain, known as VRF. To differentiate the tunnels
between same set of local and remote ends, GRE Key will be used as a differentiator.
overlapping. Each enterprise needs to be in a unique virtual routing domain, known as VRF. To differentiate the tunnels
between same set of local and remote ends, GRE Key will be used as a differentiator.
It is a common technique to enable multi-protocol local networks over a single-protocol backbone, to connect non-
contiguous networks and allow virtual private networks across WANs. This mechanism encapsulates data packets from
one protocol inside a different protocol and transports the data packets unchanged across a foreign network. It is
important to note that GRE tunneling does not provide security to the encapsulated protocol, as there is no encryption
involved (like IPSEC offers, for example).
contiguous networks and allow virtual private networks across WANs. This mechanism encapsulates data packets from
one protocol inside a different protocol and transports the data packets unchanged across a foreign network. It is
important to note that GRE tunneling does not provide security to the encapsulated protocol, as there is no encryption
involved (like IPSEC offers, for example).
GRE Tunneling consists of three main components:
Passenger protocol-protocol being encapsulated. For example: CLNS, IPv4 and IPv6.
Carrier protocol-protocol that does the encapsulating. For example: GRE, IP-in-IP, L2TP, MPLS and IPSEC.
Transport protocol-protocol used to carry the encapsulated protocol. The main transport protocol is IP.
The most simplified form of the deployment scenario is shown in the following figure, in which GGSN has two APNs
talking to two corporate networks over GRE tunnels.
talking to two corporate networks over GRE tunnels.