Various embodiments described or referenced herein are directed to different methods, systems, and computer program products for providing contextual information regarding database records via a user interface. A user interface is provided in a browser in accordance with information received from one or more servers in communication with a database system storing records and contextual information. The user interface comprises a first component and a second component, the first component comprising data of a record stored in the database system, the second component comprising contextual information related to the record data. A modification to the record data is received. A request for updated contextual information is transmitted to the one or more servers, the request identifying at least a portion of the modification. The updated contextual information is received from the one or more servers and displayed in the second component without reloading the user interface.

There is provided a method for handling a service request. The method is performed by a first service communication proxy (SCP) node. If no response is received from a second network function (NF) node of a service producer to a first request transmitted towards the second NF node via the first SCP node, where the first request is for the second NF node to execute a service requested by a first NF node of a service consumer, transmission of information is initiated towards the first NF node. The information is indicative that no response is received from the second NF node to the first request.

There is provided a method for handling a service request. The method is performed by a first service communication proxy (SCP) node. If no response is received from a second network function (NF) node of a service producer to a first request transmitted towards the second NF node via the first SCP node, where the first request is for the second NF node to execute a service requested by a first NF node of a service consumer, transmission of information is initiated towards the first NF node. The information is indicative that no response is received from the second NF node to the first request.

A method for filtering, distributing, and organizing domain name system queries in a communications network may include receiving a first domain name system query from a first endpoint device connected to the network, identifying a first network address of the first endpoint device from the first domain name system query, classifying the first domain name system query into a first class of a plurality of classes, wherein each class of the plurality of classes is associated with one predefined numerical range of a plurality of predefined numerical ranges, and wherein a target address unit of the first network address falls into the predefined numerical range associated with the first class, and forwarding the first domain name system query to a first collection server of a plurality of collection servers, wherein the first collection server is dedicated for collecting domain name system queries that are classified into the first class.

A method for filtering, distributing, and organizing domain name system queries in a communications network may include receiving a first domain name system query from a first endpoint device connected to the network, identifying a first network address of the first endpoint device from the first domain name system query, classifying the first domain name system query into a first class of a plurality of classes, wherein each class of the plurality of classes is associated with one predefined numerical range of a plurality of predefined numerical ranges, and wherein a target address unit of the first network address falls into the predefined numerical range associated with the first class, and forwarding the first domain name system query to a first collection server of a plurality of collection servers, wherein the first collection server is dedicated for collecting domain name system queries that are classified into the first class.

Techniques for a selection or reselection a user-plane path in a mobile network are disclosed herein. A user-plane gateway (GW-U) can be configured to decode a packet received from a control plane gateway (GW-C) in a packet data network gateway (PGW) to determine a forwarding policy. Additionally, the GW-U can decode, from an evolved node B (eNB), an internet protocol (IP) packet having a header field. Furthermore, the GW-U can determine a user-plane path for the IP packet based on a comparison of the header field and the forwarding policy. Based on the determined user-plane path, the GW-U can forward the IP packet to a local application server (AS), encapsulate and forward the IP packet to the PGW, or discard the IP packet. Moreover, the GW-U can encode the IP packet for transmission based on the determined user-plane selection.

Techniques for a selection or reselection a user-plane path in a mobile network are disclosed herein. A user-plane gateway (GW-U) can be configured to decode a packet received from a control plane gateway (GW-C) in a packet data network gateway (PGW) to determine a forwarding policy. Additionally, the GW-U can decode, from an evolved node B (eNB), an internet protocol (IP) packet having a header field. Furthermore, the GW-U can determine a user-plane path for the IP packet based on a comparison of the header field and the forwarding policy. Based on the determined user-plane path, the GW-U can forward the IP packet to a local application server (AS), encapsulate and forward the IP packet to the PGW, or discard the IP packet. Moreover, the GW-U can encode the IP packet for transmission based on the determined user-plane selection.

Redirecting message flows to bypass load balancers. A destination intermediary receives a source-side message that includes a virtual address of a load balancer as a destination, and that is augmented to include a network address of a destination machine as a destination. The destination intermediary determines that a source intermediary should address subsequent network messages that originate from a source machine and that are associated with the same multi-message flow to the destination machine while bypassing the load balancer. The destination intermediary modifies the source-side message so the destination for the source-side message addresses the destination machine, and passes the modified source-side message to the destination machine. The destination intermediary receives a response from the destination machine identifying the source machine as its destination, and modifies the response so a source address identifies the virtual address of the load balancer, and dispatches the modified response to the source machine.

Methods, systems and computer program products for load balancing using Mobile Internet Protocol (IP) Version 6 are provided. A request for a connection is received from a client at a routing stack. A Mobile IP Version 6 Binding Update message is transmitted from the routing stack to the client responsive to the received request. The Binding Update message identifies a selected target stack so as to allow the client to communicate directly with the target stack bypassing the routing stack.

Methods, systems and computer program products for load balancing using Mobile Internet Protocol (IP) Version 6 are provided. A request for a connection is received from a client at a routing stack. A Mobile IP Version 6 Binding Update message is transmitted from the routing stack to the client responsive to the received request. The Binding Update message identifies a selected target stack so as to allow the client to communicate directly with the target stack bypassing the routing stack.