In one embodiment, a method comprises: receiving, by a parent network device providing at least a portion of a directed acyclic graph (DAG) according to a prescribed routing protocol in a low power and lossy network, a destination advertisement object (DAO) message, the DAO message specifying a target Internet Protocol (IP) address claimed by an advertising network device in the DAG and the DAO message further specifying a secure token associated with the target IP address; and selectively issuing a cryptographic challenge to the DAO message to validate whether the advertising network device generated the secure token.

A method for configuring performance measurement indication information and a related device. The method includes: a control node determines performance measurement indication information and sends a first advertisement packet in the communication network based on the BGP, where the first advertisement packet carries the performance measurement indication information, so that a plurality of forwarding nodes configure the performance measurement indication information on the plurality of forwarding nodes. In this way, when a data flow on which performance measurement is to be performed is transmitted between a plurality of different ASs, each forwarding node in the different ASs may obtain the performance measurement indication information from the first advertisement packet.

A system includes reception of an instruction to send a message to a computer server, determination of a plurality of segments of the message, determination, for each of the plurality of segments, of a network path from a plurality of network paths to the computer server based on performance-related characteristics of the plurality of network paths, and assignment, for each of the plurality of segments, of the segment to a transmission queue associated with the network path determined for the segment.

A method for improving availability of a type of network element in a mobile network includes receiving a first message from a source network element at a first network element instance that belongs to a network element anycast set. The first message is addressed to an anycast address that is assigned to the network element anycast set. The first network element instance processes the first message and accesses an anycast set data store in relation to processing the first message. The method also includes receiving a second message from the source network element at a second network element instance that also belongs to the network element anycast set. The second message is also addressed to the anycast address and can be received when the first network element instance is unavailable. The second network element instance processes the second message and accesses the anycast set data store in relation thereto.

The present invention provides a method for controlling a remote service access path including the steps of: receiving a datagram sent by any terminal intending to access the remote service; requesting a node management server to determine an optimal gateway server as an optimal node for transferring the datagram, the optimal gateway server being selected from a number of gateway servers provided for a distributed deployment architecture established for a server cluster of the remote service; testing transmission quality of a number of accessed data connections to the optimal gateway server, and determining an optimal data connection having optimal transmission quality; and invoking the optimal data connection to send a datagram after tunnel encapsulation thereof, and the optimal gateway server forwarding the datagram to a business server connected to the optimal gateway server and belonging to the server cluster.

Some embodiments provide a novel method for adjusting a path for a packet flow from a source machine to a destination machine in a network. The method of some embodiments identifies a condition at a first forwarding element along a first path traversed by the packet flow through the network. The first path traverses through a hardware, second forwarding element before the first forwarding element. In some embodiments, the second forwarding element includes a programmable data plane circuit. The method, in some embodiments, uses an application programming interface (API) of the programmable data plane circuit to provide a set of parameters to the data plane circuit that cause the data plane circuit to forego selecting the first path to forward the packets of the packet flow to the destination machine and instead to select a second path, not traversing the first forwarding element, to the destination machine.

A routing method for routing an application data stream from a routing device in a vehicle to a receiving device. The routing device has available to it a plurality of communication arrangements. Before a movement of the vehicle, at least one parameter representative of the performance is estimated along a planned itinerary for each communication arrangement. Theoretical routing rules are then defined based on the estimated parameters and application requirements. During the movement of the vehicle, at least one parameter representative of the performance is estimated for each communication arrangement. The application stream is then routed by using routing rules determined in response to a comparison between the parameters representative of the performance estimated before movement and the corresponding parameters estimated during the movement.

A method and system for interfacing heterogenous computing networks to accomplish a cross-network that spans at least two networks and has a source node and a destination node. A graph structure is traversed to define a transaction path. The graph structure includes transaction nodes within transfer networks and bridges that span networks. Each node in the graph structure exists on a network and has an associated set of attribute variables that specify supported tokens. A bridge path defined by two nodes spanning two logical networks is determined. The source node and the destination node are also connected via one or more out of band network paths which are separate from the bridge path. Disclosed implementations link the speed and convenience of P2P conversion models with B2B trading channels using a ledger-agnostic overlay and computing architecture to enable value transfers and conversion spanning dissimilar digital communication networks.

Some embodiments establish for an entity a virtual network over several public clouds of several public cloud providers and/or in several regions. In some embodiments, the virtual network is an overlay network that spans across several public clouds to interconnect one or more private networks (e.g., networks within branches, divisions, departments of the entity or their associated datacenters), mobile users, and SaaS (Software as a Service) provider machines, and other web applications of the entity. The virtual network in some embodiments can be configured to optimize the routing of the entity's data messages to their destinations for best end-to-end performance, reliability and security, while trying to minimize the routing of this traffic through the Internet. Also, the virtual network in some embodiments can be configured to optimize the layer 4 processing of the data message flows passing through the network.

A Protocol Independent Multicast (PIM) designated networking device election system includes a first networking device and a second networking device that are coupled to the first edge device. The second networking device receives a first PIM message from the first networking device and determines that the first PIM message indicates that the first networking device supports designated networking device election based on an interface performance property. The second networking device then determines whether a first interface performance property indication indicates that a first interface performance property of the first networking device or a second interface performance property of the second networking device satisfy an interface performance property condition. In response to determining that the second interface performance property satisfies the interface performance property condition, the second networking device forwards first data traffic received at the second networking device toward the first edge device.