The disclosure provides a service request processing method. A service consumer transmits a service request, including a plurality of service producer types, and an access order of service producer instances corresponding to the plurality of service producer types is determined. The service producer instances corresponding to the plurality of service producer types are controlled to process the service request according to the access order.

Described embodiments provide for routing remote application data. A device can receive a request to access an application. The application can be provided by data centers and accessible via service providers. The device can select a data center from the plurality of data centers and a service provider based at least on a metric indicative of a connection between the data center and the service provider. The device can query a database including one or more connection metrics using the application identified in the request and a location of a router transmitting the request. The device can determine the location of the router based on an internet protocol (IP) address of a client communicably coupled to the router. The device can transmit a response to the request identifying the selected data center and the selected service provider.

Described embodiments provide for routing remote application data. A device can receive a request to access an application. The application can be provided by data centers and accessible via service providers. The device can select a data center from the plurality of data centers and a service provider based at least on a metric indicative of a connection between the data center and the service provider. The device can query a database including one or more connection metrics using the application identified in the request and a location of a router transmitting the request. The device can determine the location of the router based on an internet protocol (IP) address of a client communicably coupled to the router. The device can transmit a response to the request identifying the selected data center and the selected service provider.

A method includes receiving from a transmitting data interface, a data stream mapping of a data input into data shards for transmission in a data stream over a data stream communication channel. Data capacity for a data producing software application from a plurality of data producing software applications is adjusted by increasing or decreasing a number of data shards in the data stream assigned to the data producing software application. An updated data stream mapping of the data input into the plurality of data shards is generated by updating a start hash key and an end hash key in a range for each of the data shards assigned to the data producing software application. The updated data stream mapping is sent to the transmitting data interface for adjusting the data capacity in the data stream transmitted over the data stream communication channel of the data producing software application.

Embodiments of the present disclosure disclose a method for responding to a resource request, a redirect server, and a decision delivery server. The redirect server classifies a first resource request from a client based on a first screening rule (201), and responds to the first resource request determined to be of an unprocessable type, to enable the client to send a second resource request to the decision delivery server (202). The decision delivery server determines, based on a second screening rule, whether the second resource request from the client is of a serviceable type (203), and performs proxy acceleration for the second resource request if it is determined the second resource request is of the serviceable type (204).

Aspects of the present disclosure relate to a partnership configuration engine. In examples, a configuration engine may maintain configuration information associated with one or more providers for which a partnership service provides computing functionality. For example, a partnership service may provide a website, generate electronic communications, and/or perform data processing associated with a third-party provider. The configuration engine may maintain a set of configuration items associated with such a third-party provider, such that functionality of the partnership service is configured accordingly. Thus, as a result of maintaining such configuration information, the partnership service may be configured to provide functionality for any number of providers. Further, data duplication may be reduced and complexity may be reduced as a result of such a configuration information repository.

Systems and methods for a security network integrating security system and network devices are disclosed. A system may comprise a gateway and first and second security panels, each located at a premises. The first and second security panels may be connected, via respective first and second wireless communication protocols, to respective first and second security system components. The first and second security panels may receive respective first and second security data from the respective first and second security system components. The gateway may be configured to receive, via the first and second wireless communication protocols, the respective first and second security data. The gateway may be configured to transmit at least one of the first security data and the second security data to a security server located external to the premises.

Examples of techniques for validation of approver identifiers in a cloud computing environment are described herein. An aspect includes receiving, by a processor, a template that defines a plurality of actions to be performed by the processor. Another aspect includes determining for a first action of the plurality of actions whether the template specifies a first user identifier under which to run the first action. Another aspect includes, based on determining that the template specifies the first user identifier, determining whether the template specifies a second user identifier to approve running of the first action under the first user identifier. Another aspect includes, based on determining that the template specifies the second user identifier to approve running of the first action under the first user identifier, validating whether the second user identifier has permission to approve the running of the first action under the first user identifier.

Examples of techniques for validation of approver identifiers in a cloud computing environment are described herein. An aspect includes receiving, by a processor, a template that defines a plurality of actions to be performed by the processor. Another aspect includes determining for a first action of the plurality of actions whether the template specifies a first user identifier under which to run the first action. Another aspect includes, based on determining that the template specifies the first user identifier, determining whether the template specifies a second user identifier to approve running of the first action under the first user identifier. Another aspect includes, based on determining that the template specifies the second user identifier to approve running of the first action under the first user identifier, validating whether the second user identifier has permission to approve the running of the first action under the first user identifier.

A method and a system for providing one or more services to one or more user devices [202] in an IoT network in a scalable M2M (Machine to Machine) framework. The method comprises receiving a connection request from the one or more user devices [202] at a load balance of the IoT network, the connection request comprises at least a username comprising a cluster identifier. The load balancer [204] determines a cluster identifier based on the connection request and identifies at least one target cluster from the one or more clusters [206], said target cluster being associated with the identifier cluster identifier. The load balancer [204] routes the connection request to the at least one target cluster to provide the one or more services to the one or more user devices [202].