Example methods and computer systems for packet handling for active-active stateful service insertion are disclosed. One example may involve a computer system detecting a packet addressed from a source address to a service endpoint address. Based on configuration information associated with the service endpoint address, the computer system may identify a first active logical service router (SR) and a second active logical SR that are both associated with the service endpoint address and configured to operate in an active-active mode. The first active logical SR may be selected over the second active logical SR by mapping tuple information to the first active logical SR. The computer system may generate an encapsulated packet by encapsulating the packet with an outer header addressed to an outer destination address associated with the first active logical SR and send the encapsulated packet towards the first active logical SR for processing according to a stateful service.

An aircraft data network is provided that can include a first Remote Data Concentrator (RDC), a network switch and a second RDC. The first RDC can receive one or more input signals comprising data from a transmitting system, and translate the data per a network protocol to generate translated data having a format in accordance with the network protocol. The network switch can receive the translated data from the first RDC, determine a destination for at least some of the translated data, and route at least some of the translated data toward a first receiving system. The second RDC can receive at least some of the translated data from the network switch, convert at least some of the translated data to generate converted data having a format designed for use by the first receiving system, and communicate the converted data to the first receiving system.

The present disclosure provides a method and apparatus for learning a MAC address of a TRILL network. The method comprises: learning, by a routing bridge connected to an end system, a MAC address of the end system; encapsulating the MAC address in a link-state packet, sending the link-state packet to a neighbor routing bridge; after the neighbor routing bridge receives the link-state packet, judging whether the MAC address in the link-state packet is locally present; if not, learning the MAC address in the link-state packet and setting a local confidence to a confidence of the MAC address in the link-state packet; if yes, updating a confidence of a local MAC address to the confidence of the MAC address in the link-state packet, increasing the confidence of the MAC address in the link-state packet by 1, and sending the link-state packet to all neighbor routing bridges except a receiving end.

Systems, methods, and devices for improved routing operations in a network computing environment. A system includes a virtual customer edge router and a host routed overlay comprising a plurality of host virtual machines. The system includes a routed uplink from the virtual customer edge router to one or more of the plurality of leaf nodes. The system is such that the virtual customer edge router is configured to provide localized integrated routing and bridging (TRB) service for the plurality of host virtual machines of the host routed overlay.

Systems, methods, and computer-readable media for requesting a cellular IP address by initiating a call with a modem, establishing data packet network connectivity with the cellular IP address, assigning the cellular IP address to a virtual L2-bridge interface, wherein the virtual L2-bridge interface includes a MAC address, mapping a MAC address of a virtual machine with the MAC address of the virtual L2-bridge interface, detecting a change in the cellular IP address, and updating the virtual L2-bridge interface with a different cellular IP address while maintaining the data packet network connectivity.

Transferring data in a network is disclosed. Transferring includes receiving a Provider Backbone Transport (PBT) frame, identifying a plurality of location specific identifiers in the PBT frame, mapping the PBT frame to a service based at least in part on the plurality of location specific identifiers, formatting the PBT frame according to the service to obtain a service frame, and transferring the service frame to a network associated with the service.

A SDN controller receives a packet sent by a VTEP to be forwarded at the layer-3. The SDN controller may determine at least one VXLAN gateway that could reach the destination node of the packet and which is located in the same VXLAN with a source node of the packet, as a forwarding gateway. After forwarding gateway is determined, the SDN controller may distribute a flow entry to the VTEP, which may help VTEP to forward the packets sent from the source node to the destination node to the determined forwarding gateway.

Systems and methods are disclosed for effectuating control-plane changes at increased speeds to protect a network in which switching operations are performed. Operations to effectuate control-plane changes in the network can be divided between software and more-rapid, dedicated hardware within a line card. Examples of operations reserved to hardware implementation can include blocking and unblocking of ports, flushing of learned entries from switch tables, and coordination of control-plane changes through the generation of messages sent between nodes, and also between line cards of a node. Determinations about the need for hardware-driven, control-plane changes may be made based on events occurring in the network in accordance with any of a number of different network protection protocols. The protocol may be implemented in a state machine and the software may determine the state of the hardware through a master/slave relationship.

A next-generation mobile communication network apparatus and method using link layer routing. The network apparatus uses an existing IP address as an identifier while using a link layer address as a locator, and utilizers a location server that manages mapping between the IP address and the link layer address, thereby providing mobility.

The present disclosure generally discloses an addressing mechanism adapted for extending a customer local area network of a customer premises of a customer outside of the customer premises and into a private data network with improved scalability and performance. The extension of a local area network of a customer premises of a customer outside of the customer premises and into a private data network may be provided using a customer bridge associated with the customer local area network of the customer, a customer bridging domain hosted on a network gateway device for the customer, and a switching element hosted in the private data network for the customer for one or more customer components hosted within the private data network for the customer. The addressing mechanism may include one or more of address announcement functions, address resolution functions, address translation functions, or the like, as well as various combinations thereof.