Systems, methods, and software are disclosed herein for routing in-bound communications to an infrastructure service. In an implementation, an infrastructure service receives a request from an end point for content associated with an origin. The service sends a connection request to the origin from an initial network address. After detecting a failure of the origin to respond to the connection request, the service sends multiple connection requests to the origin from different network addresses. Upon receiving one or more replies to the connection requests, the service identifies which reply was received first and a network address to which the reply was sent. The service proceeds to establish a connection with the origin using the identified network address and obtains the content from the origin over the connection. The infrastructure service may then send the content to the end point.

A cloud-based multi-tenant system for policy-driven locality route and traffic management is disclosed. The cloud-based multi-tenant system includes a plurality of routes through the cloud-based multi-tenant system to deliver services to a plurality of end user devices. Each route is characterized by one or more of locality and residency. The plurality of routes are specified for a plurality of policies. An application running on an end user device requests a policy chosen from the plurality of policies. A route of the plurality of routes corresponding to the policy, traffic rules, and route maps corresponding to the policy for the end user device are returned. Communication is performed via the route between the application and a cloud service according to the policy. Compliance with the policy is tested for locality and residency, telemetry according to the testing is reported, and the plurality of routes is updated based upon the telemetry.

An apparatus and method is disclosed for segment routing (SR) over label distribution protocol (LDP). In one embodiment, the method includes a node receiving a packet with an attached segment ID. In response, the node may attach a label to the packet. Thereafter, the node may forward the packet with the attached label and segment ID to another node via a label switched path (LSP).

A method by a network device functioning as a provider edge (PE) in an ethernet virtual private network (EVPN) to prevent transient loops between multi-home peer PEs. The method includes advertising a first EVPN label to one or more PEs that are multi-home peer PEs of the PE, advertising a second EVPN label to one or more PEs that are not multi-home peer PEs of the PE, receiving first traffic for a CE that is encapsulated with the first EVPN label as opposed to the second EVPN label, and discarding the first traffic in response to determining that a link between the PE and the CE is not operational and the first traffic for the CE is encapsulated with the first EVPN label.

Provided are an information exchange method and apparatus, a tunnel establishment method and apparatus, a communication node and a storage medium. The method includes: receiving segment routing Internet Protocol version 6 (SRv6) path segment compression information reported by a second communication node, where the SRv6 path segment compression information includes node construction information and node behavior information of an SRv6 path segment identifier; and sending SRv6 path segment compression configuration information to a third communication node according to the SRv6 path segment compression information.

A network device obtains Border Gateway Protocol (BGP) flow specification (FlowSpec) information, and generates, based on the BGP FlowSpec information, a first forwarding information base (FIB) table entry including a first prefix and an action, where the BGP FlowSpec information indicates to perform an action on traffic matching a filter condition, where the filter condition includes an attribute of a destination address, where the first FIB table entry indicates the network device to perform the action on the traffic matching the first prefix, and where an attribute of the first prefix is the same as the attribute of the destination address in the filter condition.

A method for configuring and/or correcting misconfigurations within a clustered network includes determining, at each node of multiple nodes in the clustered network, configuration data that identifies a connection type between the node and at least one device connected to the node, where the connection type is either a switched or switchless connection. The method further provides for publishing the configuration data determined at each of the multiple nodes to a location mutually accessible by other nodes in the clustered network generating a map of physical network topology of the clustered network based on the published configuration data; using the map of the physical network topology to determine a correct logical layer configuration for the network; and configuring one or more aspects of the network to match the determined correct logical layer configuration.

A route determining method, apparatus, and a network device are disclosed. The method includes a first forwarding node receives routing information from a second forwarding node, and then sends a packet to a destination node based on the routing information. The routing information includes a node identifier of the destination node and at least one piece of indication information that is in a one-to-one correspondence with at least one third forwarding node, and the second forwarding node belongs to the at least one third forwarding node. The packet includes the at least one piece of indication information, and the at least one piece of indication information indicates to forward the packet along the at least one third forwarding node.

This application provides an address processing method and a network device. The method includes: obtaining, by a first network device, an address; determining, by the first network device, a length of a valid address of the address, where the valid address of the address is a 1.sup.st bit, whose bit value is 1, of the address to a last bit of the address; and adding, by the first network device when the length of the valid address of the address is less than a table width of a target table, S zeros before the valid address of the address to obtain an adjusted address, and processing the adjusted address based on the adjusted address and the target table, where S is a difference between the table width of the target table and the length of the valid address of the address.

A method and apparatus are provided. The method includes: a first network device sends route information of a destination network device, where the route information includes a destination address of the destination network device, a primary next-hop address, and a backup next-hop address, the primary next-hop address includes a common address of the first network device and a second network device, for example, a loopback address, and the backup next-hop address includes an address of the first network device, for example, an IP address of the first network device. By using this method, when a fault occurs in a connection between the second network device and the destination network device, another network device may directly send a packet to the first network device according to the backup next-hop address, to ensure normal packet forwarding.