A distributed radio frequency communication system facilitates communication between a wireless terminal and a core network. The system includes a remote radio unit (RRU) coupled to at least one antenna to communicate with the wireless terminal. The RRU includes electronic circuitry to perform at least a first portion of a first-level protocol of a radio access network (RAN) for communicating between the wireless terminal and the core network. The system also includes a baseband unit (BBU) coupled to the core network, and configured to perform at least a second-level protocol of the RAN. A fronthaul link is coupled to the BBU and the RRU. The fronthaul link utilizes an adaptive fronthaul protocol for communication between the BBU and the RRU. The adaptive fronthaul protocol has provisions for adapting to conditions of the fronthaul link and radio network by changing the way data is communicated over the fronthaul link.

In some examples, a provider edge device provides L2 virtual bridge connectivity for at least one customer network using an EVPN instance and L3 routing using an IRB interface that is a L3 routing interface assigned to the EVPN instance; the provider edge device obtains an indication of a new binding for an endpoint device of the at least one customer network, the new binding comprising a first L2 address and a L3 address that are assigned to the endpoint device; and the provider edge device outputs, in response to determining the provider edge device stores a prior binding for the endpoint device of a second L2 address and the L3 address that are assigned to the endpoint device, an EVPN route comprising an indication of the new binding and an indication the new binding is an updated binding of the prior binding for the endpoint device.

Embodiments of this application disclose a communication method, and a communications apparatus, device, and system. When customer premise equipment has an overlay virtual network instance, a loopback interface is established in the overlay virtual network instance, and an IP address is allocated to the loopback interface. In addition, the customer premise equipment establishes a transmission path to a server side based on the overlay virtual network instance, and sends a packet to the server side by using the transmission path. The packet includes the IP address of the loopback interface, to register with a server by using the IP address, so that the server can identify the customer premise equipment based on the IP address. In the method, when the customer premise equipment sends the packet by using the transmission path, a source address of the sent packet is the IP address of the loopback interface in the overlay virtual network instance. Therefore, the customer premise equipment can register with the server by using the same IP address, so that the server can uniquely identify the customer premise equipment.

A method for enabling secure communication. The method includes providing a first virtual network function (“VNF”) at a first network location and providing a second VNF at a second network location. A first Layer 3 virtual private network (“L3 VPN”) tunnel is constructed by the first VNF and the second VNF between the first network location and the second network location, and a first local area network (“LAN”) at the first network location and a second LAN at the second network location are connected by the first L3 VPN tunnel. Further provided is a method for establishing a secure communication environment.

Systems and methods for performing User Plane (UP) path selection or reselection over a communications network with a 3.sup.rd party entity, and for notifying network entities of UP changes in a communications network, are disclosed. The method includes: receiving an application program interface based request for UP path selection from the 3.sup.rd party entity; performing a validation and authorization procedure with the request; transmitting a UP path selection configuration request to a Control Plane Function that maintains configuration data; obtaining a reference number confirming the UP path selection configuration request; and installing the UP path selection according to the reference number.

A transmit device may generate a first part and a second part that are used to advertise a plurality of pieces of network layer reachable information (NLRI) of pieces of destination end information. The first part includes a common information field corresponding to the pieces of NLRI, the common information field includes same information in the pieces of NLRI, the second part includes private information fields corresponding to the plurality of pieces of NLRI, and each of the private information fields includes information other than the same information in NLRI corresponding to each private information field. The first part and the second part may be carried in an advertisement packet, to implement compression and sending of information used to advertise the pieces of NLRI, thereby improving efficiency of advertising a route by the transmit device without affecting normal running of a service.

Aspects of the subject disclosure may include, for example, instantiating a virtual provider edge router (VPE) of a network operator on a layer 3 public cloud network operated by a cloud operator, establishing a virtual layer 2 bridging domain over the layer 3 public cloud network between a core network of the network operator and the VPE, wherein the virtual layer 2 bridging domain shields infrastructure addressing of the core network of the network operator, and establishing an Interior Gateway Protocol (IGP) of the network operator on top of the virtual layer 2 bridging domain for layer 2 communication between the core network of the network operator and the VPE over the layer 3 public cloud network. Other embodiments are disclosed.

A device, system, and method, according to various embodiments, can include, for example, a hybrid cloud network, one or more personal cloud virtual LANs, and a home area network. The hybrid cloud network can be configured to provide public access and private access. The one or more personal cloud virtual LANs are provided at an overlapping segment of the hybrid cloud network to provide privacy within the hybrid cloud network. The home area network can include a single purpose computer configured as a gateway for the hybrid cloud network and configured to establish a site-to-site secure connection with the one or more personal cloud virtual LANs.

Cloud delivered access may be provided. A network device may provide a client device with a pre-authentication virtual network and a pre-authentication address. Next, a policy may be received in response to the client device authenticating. The client device may then be moved to a post-authentication virtual network based on the policy. A post-authentication address may then be obtained for the client device in response to moving the client device to a post-authentication virtual network. Traffic for the client device may then be translated to the post-authentication address.

A networking manager of an extension server of a virtualized computing service detects that a data link layer frame has been obtained at the extension server. The networking manager delivers at least a portion of contents of the frame to a compute instance running at the extension server in response to determining that a destination media access control (MAC) address of the frame matches a MAC address of a local-premise-access virtual network interface attached to the compute instance. The local-premise-access virtual network interface is not assigned an Internet Protocol (IP) address from a range of IP addresses managed by the virtualized computing service.