A mail processing method and apparatus, a device, a medium, a computer program product, and a computer program provided in the present disclosure, where the method includes: receiving a to-be-sent mail; obtaining, if it is identified that the to-be-sent mail includes an instant messaging group identifier, a group mail address corresponding to the instant messaging group identifier; and taking the group mail address as a recipient address and performing a sending operation on the to-be-sent mail. In the present disclosure, in a case of receiving, by a mail server, a mail sent by a mail client, if it is identified that the recipient includes an instant messaging group name, the mail is sent to a group address corresponding to the group name, which improves functional integration of email and IM software, thereby providing richer collaborative office functions.

A mail processing method and apparatus, a device, a medium, a computer program product, and a computer program provided in the present disclosure, where the method includes: receiving a to-be-sent mail; obtaining, if it is identified that the to-be-sent mail includes an instant messaging group identifier, a group mail address corresponding to the instant messaging group identifier; and taking the group mail address as a recipient address and performing a sending operation on the to-be-sent mail. In the present disclosure, in a case of receiving, by a mail server, a mail sent by a mail client, if it is identified that the recipient includes an instant messaging group name, the mail is sent to a group address corresponding to the group name, which improves functional integration of email and IM software, thereby providing richer collaborative office functions.

A first edge server of multiple edge servers of a distributed edge computing network receives a request from a client device regarding a resource hosted at an origin server according to an anycast implementation. The first edge server modifies the request to include identifying information for the first edge server prior to sending the request to the origin server. The origin server responds with a response packet that includes the identifying information of the first edge server. Instead of routing the response packet to the client device directly, one of the multiple edge servers receives the response packet due to the edge servers each having the same anycast address. If the edge server that receives the response packet is not the first edge server, that edge server transmits the response packet to the first edge server, who processes the response packet and transmits the response packet to the client device.

A first edge server of multiple edge servers of a distributed edge computing network receives a request from a client device regarding a resource hosted at an origin server according to an anycast implementation. The first edge server modifies the request to include identifying information for the first edge server prior to sending the request to the origin server. The origin server responds with a response packet that includes the identifying information of the first edge server. Instead of routing the response packet to the client device directly, one of the multiple edge servers receives the response packet due to the edge servers each having the same anycast address. If the edge server that receives the response packet is not the first edge server, that edge server transmits the response packet to the first edge server, who processes the response packet and transmits the response packet to the client device.

The technology disclosed relates to detection and resolution of conflicts between requested internet services and package of internet services associated with a domain. The method disclosed includes receiving a request from a client to add a requested internet service to a package of internet services. The method includes searching a domain name system (DNS) database for DNS records or a DNS server for external domains having attribute fields indicating attributes of the internet services in the package of internet services. The method includes comparing attributes of the requested internet service to attribute fields for the internet services in the package of internet services using a set of conflict definitions to identify attributes of the internet service requested conflicting with attributes of the package of internet services. When conflicting attributes are identified, the method includes invoking a resolution process to resolve the conflict.

A method for process control in a network centric process control system. The network centric process control system includes a plurality of nodes, wherein each node includes one or more control services being a separate executable running in a separate operating system process provided by a real time operating system thereof, wherein configuration data defining a communication interface for process data between the plurality of nodes has been received from an engineering node. The method includes publishing, by one or more of the plurality of controller nodes and plurality of device nodes, process data information in a middleware service, the process data information having an identity unique in the network centric process control system, a data type for process data, and process data, wherein the middleware service being a separate executable running in a separate operating system process provided by a real time operating system thereof, and subscribing, by the one or more of the plurality of nodes, to process data information published in the middleware service. A network centric process control system, a computer program, and a computer program product thereof are also presented.

A method for process control in a network centric process control system. The network centric process control system includes a plurality of nodes, wherein each node includes one or more control services being a separate executable running in a separate operating system process provided by a real time operating system thereof, wherein configuration data defining a communication interface for process data between the plurality of nodes has been received from an engineering node. The method includes publishing, by one or more of the plurality of controller nodes and plurality of device nodes, process data information in a middleware service, the process data information having an identity unique in the network centric process control system, a data type for process data, and process data, wherein the middleware service being a separate executable running in a separate operating system process provided by a real time operating system thereof, and subscribing, by the one or more of the plurality of nodes, to process data information published in the middleware service. A network centric process control system, a computer program, and a computer program product thereof are also presented.

A first edge server of multiple edge servers of a distributed edge computing network receives a request from a client device regarding a resource hosted at an origin server according to an anycast implementation. The first edge server modifies the request to include identifying information for the first edge server prior to sending the request to the origin server. The origin server responds with a response packet that includes the identifying information of the first edge server. Instead of routing the response packet to the client device directly, one of the multiple edge servers receives the response packet due to the edge servers each having the same anycast address. If the edge server that receives the response packet is not the first edge server, that edge server transmits the response packet to the first edge server, who processes the response packet and transmits the response packet to the client device.

A first edge server of multiple edge servers of a distributed edge computing network receives a request from a client device regarding a resource hosted at an origin server according to an anycast implementation. The first edge server modifies the request to include identifying information for the first edge server prior to sending the request to the origin server. The origin server responds with a response packet that includes the identifying information of the first edge server. Instead of routing the response packet to the client device directly, one of the multiple edge servers receives the response packet due to the edge servers each having the same anycast address. If the edge server that receives the response packet is not the first edge server, that edge server transmits the response packet to the first edge server, who processes the response packet and transmits the response packet to the client device.

A method comprising: at a multi-link device (MLD) configured for multi-link operation: establishing a first Internet Protocol (IP) stack of a first IP type and configured with a first IP address of the first IP type, wherein the first IP stack is associated to a first MLD media access control (MAC) address of a first station of the MLD; establishing a second IP stack of a second IP type and configured with a second IP address of the second IP type, wherein the second IP stack exists concurrently with the first IP stack and is associated to a second MLD MAC address of a second station of the MLD; and exchanging, with a peer MLD, IP traffic using one or more of (i) the first IP stack and the first MLD MAC address, and (ii) the second IP stack and the second MLD MAC address.