Systems and methods are described for managing services of a computing device over a mobile network where requests for managed or unmanaged services are translated to corresponding IP addresses sent to the computing device and corresponding requests sent to the translated IP addresses are either permitted, rated, quality controlled or secured if the computing device has a valid data plan or is otherwise permissioned for using the mobile network, are denied if filtered and if the computing device does not have a valid data plan or is not otherwise permissioned and the request corresponds to the first address, and are permitted, rated, quality controlled or not secured even if the computing device does not have a valid data plan or is not otherwise permissioned if the request corresponds to the second address.

Systems and methods are described for managing services of a computing device over a mobile network where requests for managed or unmanaged services are translated to corresponding IP addresses sent to the computing device and corresponding requests sent to the translated IP addresses are either permitted, rated, quality controlled or secured if the computing device has a valid data plan or is otherwise permissioned for using the mobile network, are denied if filtered and if the computing device does not have a valid data plan or is not otherwise permissioned and the request corresponds to the first address, and are permitted, rated, quality controlled or not secured even if the computing device does not have a valid data plan or is not otherwise permissioned if the request corresponds to the second address.

The present disclosure describes methods and systems for an automatic device discovery. A registration request is transmitted to register a media device with a server, the registration request comprising a device identifier associated with the media device. A discovery request is caused to be issued to allow client devices previously registered with the server and connected to the first network to discover the media device, wherein the discovery request is to cause at least a subset of the client devices previously registered with the server and connected to the first network to initiate discovery of the media device without requesting permission from a user of a respective client device to initiate the discovery of the media device, wherein the at least the subset of the client devices includes two or more client devices each associated with an auto-connect status. An identifier of each of the one or more client devices that are previously registered with the server and connected to a first network and an indication of whether each of the one or more client devices has discovered the media device are received, wherein each of the plurality of client devices is associated with a registration identifier pertaining to the first network.

The present disclosure describes methods and systems for an automatic device discovery. A registration request is transmitted to register a media device with a server, the registration request comprising a device identifier associated with the media device. A discovery request is caused to be issued to allow client devices previously registered with the server and connected to the first network to discover the media device, wherein the discovery request is to cause at least a subset of the client devices previously registered with the server and connected to the first network to initiate discovery of the media device without requesting permission from a user of a respective client device to initiate the discovery of the media device, wherein the at least the subset of the client devices includes two or more client devices each associated with an auto-connect status. An identifier of each of the one or more client devices that are previously registered with the server and connected to a first network and an indication of whether each of the one or more client devices has discovered the media device are received, wherein each of the plurality of client devices is associated with a registration identifier pertaining to the first network.

Some embodiments provide a method for connecting a client of a first network to a service of a second network. The method includes registering the service of the second network. The method then receives, from a client of the first network, a request to communicate with the service, the client not having an address of the service. The method further assigns an IP address to the service and sends the IP address to the client. Additionally, the method sends, to an inter-network hub that connects the first network and the second network, a message in order for the inter-network hub to establish a first tunnel between the inter-network hub and a first gateway associated with the client and a second tunnel between the inter-network hub and a second gateway associated with the service.

Disclosed are a communication method and apparatus based on edge computing, a computer storage medium, and an electronic device. The communication method based on edge computing includes: receiving an uplink Internet Protocol (IP) packet transmitted by a user equipment, a destination address of the uplink IP packet being a network address of a target application server; determining a network address of a local edge server that is configured to respond to the uplink IP packet according to the network address of the target application server; and modifying the destination address of the uplink IP packet to the network address of the local edge server, and forwarding the modified uplink IP packet to the local edge server for processing.

A computer-implemented method is for providing a digital certificate to a device. In an embodiment, the method is based on receiving, from the device, authentication data via a secure communication channel. Furthermore, the method is based on receiving, from the device, or determining, by the server, a first certificate identifier. In particular, the first certificate identifier is a hash value. Further aspects of the method are verifying the authentication data and receiving, from the device, a first public key created by the device. In an embodiment, the method is furthermore based on sending a first certificate signing request related to a first domain name based on the first public key to a certificate authority. Herein, the first domain name comprises the certificate identifier, and a domain related to the first domain name is controlled by the server. In particular, the first domain name is a wildcard domain.

Embodiments of this application disclose an information obtaining method that may be applied to the multi-access edge computing MEC field, for example, a vehicle to everything scenario of MCE or an internet of things scenario of the MEC. The method in the embodiments of this application includes: A first server receives information about a first instance of an application and information about a second instance of the application from a second server and a third server respectively, and then the first server stores the information about the first instance and the information about the second instance. In this way, the first server can centrally maintain information about different instances of the application, so that another device can directly obtain the information about the application instances from the first server.

Described embodiments provide systems and methods for resolving Domain Name Service (DNS) requests. An authoritative DNS server may receive, from a recursive resolver, a DNS request to resolve a query on behalf of a client. The authoritative DNS server may determine whether the recursive resolver is classified as a non-client representative resolver or a client representative resolver. The authoritative DNS server may identify a redirect server based on the recursive resolver classified as the non-client representative resolver or the resolved server based on the recursive resolver classified as the client representative resolver. The authoritative DNS server may transmit, to the recursive resolver, a response to the DNS request including an address of one of the redirect server or the resolved server.

Described embodiments provide systems and methods for resolving Domain Name Service (DNS) requests. An authoritative DNS server may receive, from a recursive resolver, a DNS request to resolve a query on behalf of a client. The authoritative DNS server may determine whether the recursive resolver is classified as a non-client representative resolver or a client representative resolver. The authoritative DNS server may identify a redirect server based on the recursive resolver classified as the non-client representative resolver or the resolved server based on the recursive resolver classified as the client representative resolver. The authoritative DNS server may transmit, to the recursive resolver, a response to the DNS request including an address of one of the redirect server or the resolved server.