Disclosed are various embodiments for automatic enrollment of Internet of Things (IoT) endpoints. An enrollment request is received from an internet of things (IoT) gateway, the enrollment request comprising an identifier for an IoT endpoint and at least one property of the IoT endpoint. In response to enrollment of the IoT endpoint, a campaign template is identified that matches the at least one property of the IoT endpoint. A campaign associated with the campaign template is then identified, the campaign comprising a collection of policies that are applicable to individual IoT endpoints assigned to the campaign. Subsequently, the IoT endpoint is assigned to the campaign.

A system and method for monitoring and modifying the security configurations of multiple devices is disclosed. The method includes monitoring multiple devices for security triggers and taking action in response to the triggers. The triggers include changes in security configurations, known security issues and pending updates. The devices may be any connected devices, including Internet of Things devices.

A computing device may perform a method that includes graphically presenting a plurality of virtual routing and forwarding (VRF) elements which represent a plurality of stored VRF profiles, with each VRF element presenting profile data from one of the plurality of stored VRF profiles. The method may further include receiving input selecting a VRF element which represents and presents profile data from a selected stored VRF profile and receiving input modifying the profile data presented by the selected VRF element. A VRF profile may be generated, for a networking device of a networking infrastructure, based on the selected stored VRF profile and the input modifying the profile data presented by the selected VRF element. Thereafter, a VRF element may be graphically presented which represents and presents profile data from the generated VRF profile for the networking device.

Techniques are described for automatically generating a consistent configuration state version 2 for a network device with no or minimal help from a user and/or from a provider of the network device when updating from a configuration state version 1 to the configuration state version 2. The techniques and architecture also provide for migration from configuration state version 1 to configuration state version 2 when at least some of a configuration state are located in text files that are applied to the network device at start-up of the network device.

Presented herein are embodiments that use a language model to embed or encode configuration elements (e.g., commands, prompts, etc.) into dense, latent representations that incorporate semantic and contextual information. Using a trained language model, a configuration for a network device may be converted into a set of configuration path sentences. Given a first set of encoded configuration path sentences for a first configuration and a second set of encoded configuration path sentences for a second configuration, these two sets may be compared to gauge a degree of difference between the two sets. In one or more embodiments, an Optimal Transport method with Wasserstein distance metric may be used to obtain a comparison value that gauges difference between the two configurations. In one or more embodiments, the comparison valuation may be labeled or classified by comparing the comparison value to one or more pre-defined thresholds.

A resource management system of a computing resource service provider performs adoptions of virtual resource instances, such as virtual machine instances and virtual data store instances that were not instantiated as members of a logical container, into logical containers that are used to manage members of the logical containers as a group. Adopting such “candidate” resources that were not generated from programmable infrastructure templates allows the resources to be managed in accordance with an infrastructure-as-code framework, alongside resources that are generated from such templates. A template for launching infrastructure instances may be modified to include an adopted resource definition describing the configuration of the adopted resource, so that management operations can be performed on the adopted resource together with the other members of the container. The system can generate an adopted resource definition from metadata of the adopted resource, to be included in the template or to validate the template.

A communication device is disclosed including a communication unit configured to receive a message including an SCG configuration, wherein the communication unit transmits a message, which does not include the SCG configuration, to another communication device and causes the another communication device to perform full configuration. In other aspects, another communication device and a communication method are also disclosed.

Provided are an edge computing-based control method and apparatus, an edge device and a storage medium. The method includes that: an analysis processing tool for implementing image analysis processing in a cloud server is acquired; in a case where the cloud server is in a fault state, image analysis processing is performed on a to-be-processed image with the analysis processing tool to obtain an analysis processing result; and the analysis processing result is synchronized to the cloud server.

The embodiment of the present disclosure provides a back-to-source relationship management system, method, apparatus, server and storage medium. The back-to-source relationship management system comprises a back-to-source relationship management server, which is configured for obtaining a target domain name corresponding to a target CDN node back-to-source relationship to be adjusted and adjustment information; using the adjustment information to adjust the target CDN node back-to-source relationship to obtain the adjusted target CDN node back-to-source relationship; synchronizing the target domain name and the adjusted target CDN node back-to-source relationship to a cache management server; the cache management server is configured for receiving the target domain name and the adjusted target CDN node back-to-source relationship; using the adjusted target CDN node back-to-source relationship to update the CDN node back-to-source relationship corresponding to the target domain name and obtain a new CDN node back-to-source relationship.

A method includes receiving, from an agent executing in a virtual machine, network information associated with the virtual machine, the virtual machine to be migrated to a container. The method further includes generating a container networking configuration based on the network information. The container networking configuration is to provide network access to processes migrated from the virtual machine to the container. The method further includes providing the container networking configuration to a container orchestration system. The container orchestration system is to use the container networking configuration to provide network access to the container.