Provided are a message processing method and apparatus, a control-plane device and a computer storage medium. The method includes receiving a first message containing at least one type of private-format data; determining identification information of a target device according to the first message and selecting a message parsing plug-in that matches the determined identification information of the target device; and sending the first message to the selected message parsing plug-in and receiving parsed data from the selected message parsing plug-in, where the parsed data is data obtained after the selected message parsing plug-in parses the at least one type of private-format data in the first message; and determining, according to the parsed data, a manner in which the target device processes a second message used for accessing a website.

An information handling system may include at least one processor; and a non-transitory memory coupled to the at least one processor. The information handling system may be configured to: receive a command associated with an Intelligent Platform Management Interface (IPMI) protocol; package the command for transmission according to a Redfish protocol; and transmit the packaged command to a Redfish interface of a management controller, wherein the management controller is configured to unpackage and execute the command.

An interworking gateway for X2 interface communication is disclosed, comprising: an X2 internal interface for communicating with, and coupled to, a plurality of radio access networks (RANs) using a X2AP protocol; a database for associating each of the plurality of RANs with support status for an X2AP protocol version; an X2AP interworking broker for determining, based on communications with each of the plurality of RANs via the X2 internal interface, the support status for an X2AP protocol version for each of the plurality of RANs, the communications further comprising an observed response to a X2AP message of a first X2AP protocol version; and an X2 external interface for communicating with, and coupled to, a destination outside of the plurality of RANs.

A brownfield security gateway is configured to support a trusted execution environment (TEE) that employs cryptographic and physical security—which forms a trusted cyber physical system—to protect sensitive transmissions on route to a controllable device. The gateway may be implemented with a System on Chip (SoC) that utilizes an application layer gateway to filter content within a transmission. When the application layer gateway authorizes the transmission, the transmission is forwarded to a trusted peripheral device that is configured with communication transport protocols, and the trusted peripheral device transfers the transmission to the controllable device. The trusted peripheral device and the controllable device are physically protected by, for example, protected distribution systems. Accordingly, the trusted peripheral device functions as a gateway between the SoC and the controllable device.

Embodiments include a system, method, and computer program product that enable secure access to cameras in smart buildings. Some embodiments control outbound video from an environment such as a local network through an intelligent on-event video pushing mechanism. The local intelligent on-event video pushing mechanism hides the IP address of a source video camera, transcodes the video to a reduced size for wide area distribution, and pushes video to a recipient upon an event triggered received within the local environment (e.g., the local network.) Embodiments enable a remote video client on the far-side of the local network firewall to view the video streams of cameras on the near-side of the local network firewall when an event or trigger occurs.

Embodiments of the present disclosure provide an Internet-of-Things resource access system and method. The system comprises a protocol management subsystem, a data conversion subsystem, and a load balancing subsystem. The protocol management subsystem is configured to obtain protocol frames from shared storage queues of protocol data packets, use a protocol stack to parse the protocol frames into original data payloads and provide the original data payloads to a data conversion subsystem; the data conversion subsystem is configured to perform protocol management, resource binding and data conversion, load Internet-of-Things resources and convert the original data payloads into observation data through multi-threaded concurrency; and the load balancing subsystem is configured to access the Internet-of-Things resources to the system through virtual IP, connect the Internet-of-Things resource to background service nodes through load balancing servers and send the protocol frames to the shared storage queues of the protocol data packets.

Embodiments of the present disclosure provide an Internet-of-Things resource access system and method. The system comprises a protocol management subsystem, a data conversion subsystem, and a load balancing subsystem. The protocol management subsystem is configured to obtain protocol frames from shared storage queues of protocol data packets, use a protocol stack to parse the protocol frames into original data payloads and provide the original data payloads to a data conversion subsystem; the data conversion subsystem is configured to perform protocol management, resource binding and data conversion, load Internet-of-Things resources and convert the original data payloads into observation data through multi-threaded concurrency; and the load balancing subsystem is configured to access the Internet-of-Things resources to the system through virtual IP, connect the Internet-of-Things resource to background service nodes through load balancing servers and send the protocol frames to the shared storage queues of the protocol data packets.

A host device establishes a wireless communication link with a client device, and implements a wired communication standard on the link to transfer a first data stream. To increase data throughput while complying with the standard, the host device replaces synchronizing information in a packet to be sent during a first synchronizing frame with configuration information indicating that packet exchange data of a second data stream is to be sent or received during a second synchronizing frame. The host device sends or receives the packet exchange data of the second data stream to or from the client device during the second synchronizing frame via the wireless communication link. The host device may send or receive the packet exchange data of the second data stream during delays or idle periods between sending and/or receiving packets of the first data stream via the wireless communication link according to the wired communication standard.

A gateway (1), arranged for providing cloud connectivity to a network of communicatively interconnected network nodes. The gateway (1) comprises a backend function (2)and a plurality of physical frontend devices (3), for deployment in the network. The frontend devices (3) communicatively connect(4)to the backend function (2) for exchanging messages between a network node and the backend function (2). The backend function (2) is common to the plurality of frontend devices (3) and arranged in a at least one server of a plurality of operatively connected servers, that may form part of the cloud, thereby providing for ‘cloud processing’ or ‘virtual processing’ of the messages for exchange thereof with the cloud. The physical frontend devices (3) may be designed to comprise transceiver functionality.

Certain aspects of the present disclosure provide techniques for communicating between an application executing on a client device and a server using a persistent connection. An example method generally includes initializing a persistent connection between an application executing on a client device and a server. Information about an event within the application is received. Communications between the application and the server are performed via streaming data related to the information about the event carried on the persistent connection. Generally, the streaming data may be translated from an application-native format to a platform-agnostic format and may include application-specific information. One or more actions are taken within the application based on the streaming data related to the event and carried on the persistent connection.