A first customer edge network device receives an encapsulated packet that includes inner headers comprising source address information for a first service running on a first computing apparatus in a first home cloud and destination address information for a second service running on a second computing apparatus in a second home cloud. The customer edge network device inserts a predetermined portion of bits of a virtual domain identifier of the encapsulated packet into a label to form a virtual domain label for label-based routing. The virtual domain label is appended to the encapsulated packet. The encapsulated packet is sent to a first provider edge network device of a provider network. The first provider edge network device appends an virtual private network label to the encapsulated packet, and sends the encapsulated packet to a provider network device for label-based routing in the provider network.

In one example, an autonomous system boundary router (ASBR) forms part of a first autonomous system (AS). The ASBR is between a first provider edge (PE) router of the first AS and a second PE router of a second, different AS. The first PE router and the second PE router form a Multiprotocol Label Switching (MPLS) path. The ASBR includes an interface communicatively coupled to a routing device external to the first AS, a memory configured to store a forwarding table associated with the interface, and one or more processing units configured to receive a packet via the interface, determine that the packet is encapsulated by an MPLS label, select a forwarding table based on the interface by which the packet was received, and forward the packet according to forwarding information of the forwarding table when the forwarding table includes the MPLS label.

A device for connecting base station(s) to a cellular label switched network in a cellular network. The cellular network includes: base station(s), the connecting device(s); cellular label switched network(s); and service area(s). The base station(s) communicates with mobile terminals using wireless technology. The wireless technology uses a protocol layer architecture that includes at least one of the following: a wireless physical layer; a wireless medium access control protocol layer; a radio link control layer; and a network layer. The connecting device(s) include: a first interface to connect to the base station(s); a second interface to connect to cellular label switched network(s); and a label forwarding layer that: forwards packets between base station(s) and cellular label switched network(s); attaches label(s) to packets and removes label(s) from packets. A service area divided into a multitude of cells through which mobile terminals can move through and communicate with base station(s).

A method for processing data packets in a communication network includes establishing a path for a flow of the data packets through the communication network. At a node along the path having a plurality of aggregated ports, a port is selected from among the plurality to serve as part of the path. A label is chosen responsively to the selected port. The label is attached to the data packets in the flow at a point on the path upstream from the node. Upon receiving the data packets at the node, the data packets are switched through the selected port responsively to the label.

A method of providing information regarding an Ethernet frame, within the Ethernet preamble of the Ethernet frame, comprises inserting into the Ethernet preamble an inter-line-card header that includes a start control character, a version number, a parity bit, a source port, a destination port, and a forwarding domain entry; and preserving said inter-line-card header, inside of said Ethernet preamble, in a Media Access Control (MAC) sub-layer in said Ethernet frame. The method may include a step of selecting the decoding format for the inter-line-card header corresponding to the version number and/or forwarding other Ethernet frames according to additional forwarding information provided by the forwarding domain entry. The inter-line-card header may be preserved in the MAC sub-layer by keeping the Ethernet preamble at the beginning of an Ethernet frame received over an Ethernet backplane, and passing the combined preamble and associated Ethernet frame to an inter-line-card header processing module.