A method is provided in one example embodiment and includes, for each of a plurality of individual storage units collectively comprising a virtual storage unit, mapping an internal address of the storage unit to a unique IP address, wherein each of the storage units comprises a block of storage on one of a plurality of physical storage devices and wherein the IP address includes a virtual storage unit number identifying the virtual storage unit; receiving from a client a request to perform an operation on at least one of the data storage units, wherein the request identifies the internal address of the at least one of the data storage units; translating the internal address of the at least one of the data storage unit to the unique IP address of the at least one of the data storage units; and performing the requested operation on the at least one of the data storage units.

Disclosed herein are various systems, apparatuses, software, and methods relating to data diode-TCP proxy with a User Datagram Protocol (UDP) across a wide area network (WAN) providing a WAN data diode using a uni-directional semantics protocol, providing a set of data diode proxies in either end of a point-to-point WAN link, providing a symmetric key encryption semantics to extend the WAN data diode securely across a WAN that is specified, wherein the symmetric key encryption semantics are implemented through the set of data diode proxies on either end of the point-to-point WAN link, employing a unidirectional protocol in communication transmitted using the WAN and, with data diode proxies, terminating one or more data channels on either end of the point-to-point WAN link or transporting a requisite information across the WAN over the uni-directional protocol.

Disclosed herein are various systems, apparatuses, software, and methods relating to data diode-TCP proxy with a User Datagram Protocol (UDP) across a wide area network (WAN) providing a WAN data diode using a uni-directional semantics protocol, providing a set of data diode proxies in either end of a point-to-point WAN link, providing a symmetric key encryption semantics to extend the WAN data diode securely across a WAN that is specified, wherein the symmetric key encryption semantics are implemented through the set of data diode proxies on either end of the point-to-point WAN link, employing a unidirectional protocol in communication transmitted using the WAN and, with data diode proxies, terminating one or more data channels on either end of the point-to-point WAN link or transporting a requisite information across the WAN over the uni-directional protocol.

An example embodiment may involve a network interface configured to transmit and receive frames. The embodiment may also involve a network protocol stack configured to: (i) perform encapsulation of outgoing messages into outgoing frames for transmission by way of the network interface, or (ii) perform decapsulation of incoming frames received by way of the network interface into incoming messages. The embodiment may also involve a parsing and validation module configured to: (i) receive representations of the incoming or the outgoing messages, and (ii) perform one or more validation checks on the representations, wherein the representations define transactions that are functionally equivalent to corresponding transactions that are defined by the messages, wherein the one or more validation checks are performed in parallel to performance of the encapsulation or decapsulation, and wherein a representation of a message failing the one or more validation checks causes the message to be discarded.

A method for fetching a content from a web server to a client device is disclosed, using tunnel devices serving as intermediate devices. The tunnel device is selected based on an attribute, such as IP Geolocation. A tunnel bank server stores a list of available tunnels that may be used, associated with values of various attribute types. The tunnel devices initiate communication with the tunnel bank server, and stays connected to it, for allowing a communication session initiated by the tunnel bank server. Upon receiving a request from a client to a content and for specific attribute types and values, a tunnel is selected by the tunnel bank server, and is used as a tunnel for retrieving the required content from the web server, using standard protocol such as SOCKS, WebSocket or HTTP Proxy. The client only communicates with a super proxy server that manages the content fetching scheme.

A method for fetching a content from a web server to a client device is disclosed, using tunnel devices serving as intermediate devices. The tunnel device is selected based on an attribute, such as IP Geolocation. A tunnel bank server stores a list of available tunnels that may be used, associated with values of various attribute types. The tunnel devices initiate communication with the tunnel bank server, and stays connected to it, for allowing a communication session initiated by the tunnel bank server. Upon receiving a request from a client to a content and for specific attribute types and values, a tunnel is selected by the tunnel bank server, and is used as a tunnel for retrieving the required content from the web server, using standard protocol such as SOCKS, WebSocket or HTTP Proxy. The client only communicates with a super proxy server that manages the content fetching scheme.

Methods and systems for providing software applications on a client device with dynamic control over low-latency mode (LLM) operations of the client device. The client device may monitor downlink data packets of a client software application operating on the client device to detect trigger events. The client device may determine operating parameters of the modem based on a detected trigger event and dynamically adjust the low-latency mode of the modem based on the detect trigger event or the determined operating parameters.

Methods and systems for providing software applications on a client device with dynamic control over low-latency mode (LLM) operations of the client device. The client device may monitor downlink data packets of a client software application operating on the client device to detect trigger events. The client device may determine operating parameters of the modem based on a detected trigger event and dynamically adjust the low-latency mode of the modem based on the detect trigger event or the determined operating parameters.

Methods and systems for providing software applications on a client device with dynamic control over low-latency mode (LLM) operations of the client device. The client device may monitor downlink data packets of a client software application operating on the client device to detect trigger events. The client device may determine operating parameters of the modem based on a detected trigger event and dynamically adjust the low-latency mode of the modem based on the detect trigger event or the determined operating parameters.

Methods and systems for providing software applications on a client device with dynamic control over low-latency mode (LLM) operations of the client device. The client device may monitor downlink data packets of a client software application operating on the client device to detect trigger events. The client device may determine operating parameters of the modem based on a detected trigger event and dynamically adjust the low-latency mode of the modem based on the detect trigger event or the determined operating parameters.