The present application discloses a method and an apparatus for implementing an OAM function. In this solution, a unified OAM management center processes, based on a unified OAM management data model, network OAM status information, but the unified OAM management data model is unrelated to a network technology used by a network entity.

Technologies related to personal assistant context building are generally described. In some examples, network service communications, such as network traffic resulting from the use of mobile applications or “apps” on a mobile device, may be captured, parsed, and included in personal assistant context databases for use in configuring automated personal assistant user interaction operations. In some examples, parsing services may be provided to parse forwarded network service communications and generate converted data for inclusion in personal assistant context databases.

The subject matter described herein includes methods, systems, and computer readable media for automated generation of test files and for related testing. According to one method, the method includes receiving a configuration file, where the configuration file indicates a test case or a test plan to be generated, wherein the configuration file includes a feature identifier or a bug identifier and information about a system under test (SUT). The method also includes generating at least one test file based on the configuration file, wherein the at least one test file is for testing a feature or a bug in the SUT associated with the feature identifier or the bug identifier in the configuration file. The method further includes generating at least one directory based on the configuration file and storing the at least one test file in the at least one directory. The method also includes testing the feature or bug in the SUT using the at least one test file.

A centralized configuration management system (CCM) may receive, from an NMS device, a request concerning a configuration for a microservice associated with the NMS device. The CCM may identify, based on the request, a first data model associated with default configuration information. The CCM may identify, based on the request, a second data model associated with customized configuration information. The CCM may generate, based on the first data model and the second data model, a response that includes at least one configuration parameter. The CCM may send the response to the NMS device to allow the microservice to be configured based on the at least one configuration parameter.

Techniques and systems are disclosed for enabling device configuration using signals that encode device policy settings. A method of configuring policy settings on a host device can include receiving a signal that encodes at least one policy setting; interpreting the signal to determine the at least one policy setting; and applying the at least one policy setting to the host device at its own authority.

A Yet Another Next Generation (YANG) module management method includes that a first network device determines a target YANG package in a second network device. The target YANG package includes at least two service-related YANG modules. The first network device generates a processing instruction for the target YANG package, and sends the processing instruction to the second network device. The processing instruction includes an identifier of the target YANG package. The identifier of the target YANG package includes a name of the target YANG package or the name and version information of the target YANG package.

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.

A method for migrating a data schema comprising combining a first deterministic finite automaton with a second deterministic finite automaton to generate a modified deterministic finite automation. Identifying a state of the modified deterministic finite automaton without computed followers. Computing a new vector of original states for each state of the modified deterministic finite automaton corresponding to the identified state.

A method for controlling selection of a communication method between an equipment control device belonging to a wide-area communication network and equipment belonging to a local communication network. The method includes the following steps relating to the control device: requesting the equipment to initiate a connection to the control device, the request being sent at the time of a routine connection of the equipment to the control device; determining whether the equipment can be reached by the control device using a direct method; and configuring the equipment if the equipment cannot be reached using a direct method.

A methodology for requesting at least one signed security measurement from at least one module with a corresponding cryptoprocessor is provided. The methodology includes receiving the at least one signed security measurement from the at least one module with the corresponding cryptoprocessor; validating the at least one signed security measurement; generating a signed dossier including all validated signed security measurements in a secure enclave, the signed dossier being used by an external network device for remote attestation of the device.