The described technology is generally directed towards an automation agent for network equipment configuration. The automation agent can be incorporated into a network automation platform. The network automation platform can include, inter alia, a communication channel, such as a data movement as a platform (DMaaP) communication channel, which is used by various components of the network automation platform. The disclosed automation agent can monitor the communication channel for network equipment configuration communications generated by other components of the network automation platform. In response to a network equipment configuration communication, the automation agent can create an interface update file comprising the updated interface configuration data, and send the interface update file to a network equipment configuration update service for deployment to the network equipment.

Techniques for mechanized modify/add/create/delete (MACD) for network configuration are provided. A method can include creating a data object from input data relating to a requested change to a target network configuration, the data object comprising a first parameter indicating a type of the requested change and a second parameter identifying the target network configuration; retrieving, from a repository according to a group of logical rules, executable instructions associated with the type of the requested change, as given by the first parameter of the data object, and the target network configuration, as given by the second parameter of the data object; and performing, further according to the group of logical rules, the requested change to the target network configuration, the performing of the requested change comprising executing the executable instructions retrieved from the repository.

Embodiments of the disclosure provides a pico-base station configuration method and apparatus, a storage medium and an electronic apparatus, and relate to the technical field of wireless network pico-base station technology. The method includes: a request message for requesting data configuration of a pico-base station is acquired, wherein the request message includes parameters of a pico-base station configuration model object and a pico-base station configuration model sub-object; the request message is verified; a thread corresponding to the request message in a sqlite database is called to execute warehousing processing on the parameters of the pico-base station configuration model object and the pico-base station configuration model sub-object, in a case where the request message passes the verification; and configuration validation processing is carried out on the pico-base station configuration model object and the pico-base station configuration model sub-object, in a case of determining that the warehousing processing is executed successfully; with adoption of the disclosure, the problems of low data transmission speed and low data updating efficiency can be solved, and the effect of improving the data transmission efficiency is achieved.

The present disclosure relates to managing activity taken with respect to cloud-based software services. A platform manages data objects processed by software services and/or those entities that initiate processing events. The platform uses identifiers such as, for example, a persistent identifier (PID) to track processing events. The platform implements rules and/or permissions related to the managed data objects and/or managed entities to determine whettler processing events are in compliance. The platform may update database records, send alerts, send data graphs, or provide a real-time stream related to the managed data objects and/or managed entities. In addition, embodiments involve determining whether a PID-associated managed data object has been modified during processing to generate an additional version of the PID-associated managed data object and, if an object version is present, processing the additional version of the PID-associated managed data object to generate an integrated first PID-associated managed data object.

A method for a XML editor includes loading one or more files, extracting elements that extend a browser user interface from the one or more files, and presenting a graphical user interface (GUI) for editing the plug-in XML manifest file. The method further includes receiving one or more user edits to the plug-in XML manifest file through the GUI, validating the one or more user edits against properties of the elements, and generating a warning in the GUI for a user edit that conflicts with a property of an element. The method also includes generating or updating XML code in the plug-in XML manifest file in response to the one or more user edits, and saving the XML code.

In one embodiment, a networking device reroutes traffic in a network from a first path to a second path, based on a prediction that the first path will not satisfy a service level agreement associated with the traffic. The networking device enters a fast monitoring state during which the networking device performs fast probing of the first path and of the second path onto which the traffic was rerouted. The networking device makes, based on the fast probing, a determination as to whether the first path would have violated the service level agreement and whether the second path violates the service level agreement. The networking device enacts a routing decision for the traffic by applying a routing policy to the determination.

In a multi-stage network discovery system, a target device is identified by a logical address and associated with a configuration item (CI) record stored in a configuration management database (CMDB). A receiver module receives first probe data from a first probe running against the target device, the first probe data comprising constant attribute data of the target device, stores at least part of the first probe data in a first part of the CI record, receives subsequent probe data from at least one subsequent probe against the target device using the logical address, the subsequent probe data comprising the constant attribute data of the target device, determines that the constant attribute data from the subsequent probe matches the constant attribute data from the CI record, and in response to the determination, stores the subsequent data obtained from the second probe in a second part of the CI record.

A method for operating a network includes implementing at least one service function chain (SFC) including several service functions (SFs) for providing traffic steering; encoding traffic steering information related to the at least one SFC; and using redundant information in an addressing scheme of network hosts for addressing the SFs.

A computational instance of a remote network management platform may be dedicated to a managed network. The managed network may use computing resources of a cloud-based service provider. One or more processors may be disposed within the computational instance and may cause a provider-neutral cloud discovery software application to: (i) obtain a specification that defines an interface for accessing the cloud-based service provider, a discoverable set of computing resources provided by the cloud-based service provider, and mappings between descriptions of the discoverable set of computing resources and the database tables disposed within the computational instance, (ii) log on to the cloud-based service provider by way of the interface, (iii) request and receive, from the cloud-based service provider, descriptions of the discoverable set of computing resources, and (iv) store, in fields of database tables, the descriptions of the discoverable set of computing resources in accordance with the mappings.

Aspects of the embodiments are directed to designing a deployment environment for a continuous delivery tenant. Embodiments include receiving, via a natural language input, a set of parameters for building a deployment environment for an application; determining, by a natural language processing engine, a resource to satisfy a parameter of the set of parameters; identifying, for a resource, a resource provider for providing the resource; and installing, via a network interface, the application on the resource provider.