In general, techniques are described for atomically installing and withdrawing host routes along paths connecting network routers to attenuate packet loss for mobile nodes migrating among wireless LAN access networks and a mobile network. In some examples, whenever the mobile node moves from one attachment point to the next, it triggers the distribution of its host route from the new attachment point toward the service provider network hub provider edge (PE) router that anchors the mobile node on a service provider network. Routers participating in the Mobile VPN install the host route “atomically” from the attachment point to the mobile gateway so as to ensure convergence of the network forwarding plane with the host route toward the new attachment point prior to transitioning mobile node connectivity from a previous attachment point.

A first device may determine an Internet Protocol version R (IPvR) interface address associated with a second device, where R is greater than or equal to four. The first device and the second device may be associated with an external border gateway protocol peering session. The first device may generate an Internet Protocol version S (IPvS) interface address based on the IPvR interface address associated with the second device, where S is greater than or equal to six and different than R. The first device may store the IPvS interface address in a routing table. The first device may receive, from the second device, a service route that includes the IPvS interface address, and may provide the service route to a third device. The first device may provide a labeled route to the third device. The labeled route may include a label associated with the IPvS interface address.

In one implementation, a method for tap traffic redirection can include identification of a request protocol and a source network element, selection of a redirector protocol based on a list of device capabilities, instruction of the source network element to send a first copy of network traffic to an intermediary network element using the redirector protocol, and instruction of the intermediary network element to forward a second copy of the network traffic using the request protocol.

The present invention provides a method for rapidly synchronizing a medium access control (MAC) address table. The method includes: initializing a forwarding plane and a control plane, and starting a forwarding plane timer when determining that the forwarding plane and the control plane are initialized successfully (101); when determining that a MAC address table synchronization condition is met, the forwarding plane acquiring a memory operation authority (102); acquiring a MAC address table entry to be synchronized, and synchronizing the MAC address table entry to be synchronized to a designated location in a memory area according to changed content of the MAC address table entry to be synchronized (103). The present invention further provides a device for rapidly synchronizing a MAC address table, and a storage medium.

To determine whether to a delay a routing update, a router generates graphs of the network topology before and after the failure of a link or node and compares the graphs to identify changes in the network topology. Based on an analysis of the changes, the router determines whether to implement, continue and/or abort a preconfigured delay for making routing updates.

Provided is an intermediate system to intermediate system routing protocol based notification method. The method includes: within a delay period since an intermediate system (IS) establishes a new neighbor, notifying the outside through a link state protocol (LSP) data packet that a METRIC for traffic of the IS reaching the new neighbor is a preset value; after the delay period expires, restoring the METRIC to a normal value, where the preset value is greater than the normal value. Further provided are an intermediate system to intermediate system routing protocol based notification apparatus, a storage medium and a processor.

An edge computing device controlling method includes executing some function modules of a plurality of function modules for processing a service request from a user device on a first edge computing device of a plurality of edge computing devices and additionally executing the some function modules on a second edge computing device of the plurality of edge computing devices when additional resource is required for the some function modules.

In an example, when a network device receives a route advertised by a Border Gateway Protocol (BGP) neighbor, the network device distributes the route to hardware thereof, records the route into a linked list of routes to be advertised, and determines a BGP state of the device. If the BGP state indicates waiting to advertise a route, the network device updates the BGP state to advertising a route after a set time length and advertises a route in the linked list of routes to be advertised. If the BGP state indicates advertising a route, the network device advertises a route in the linked list of routes to be advertised.

Some embodiments provide a method for a managed forwarding element that processes packets through a set of packet processing tables by matching rules in the tables. The method receives an update that requires modification to at least one of the packet processing tables. Each rule in the packet processing tables is assigned a range of packet processing table versions in which the rule is valid for processing packets. The method modifies the packet processing tables according to the received update by at least one of (i) modifying the range of packet processing table versions in which an existing rule is valid to end after a current packet processing table version and (ii) adding a new rule with a range of valid packet processing table versions that begins with a next packet processing table version. The method increments the current version of the packet processing tables to commit the modifications.

A device and method monitor integrity of a communication network. A local clock maintains a local time. A network interface receives time synchronization packets and associates with each the local time of receipt at the network interface. A processing system implements a neural network for classifying whether integrity of the communication network is compromised from originate, receive, and transmit values determined from the time synchronization packets. The originate value is a difference between the local time of the receipt of the request packet and a transmission timestamp of the request packet. The receive value is a difference between a reception timestamp of the request packet or the reply packet and the local time of the receipt of the request packet or the reply packet. The transmit value is a difference between the local time of the receipt of the reply packet and a transmission timestamp of the reply packet.