A method for using a user-fillable form in a host container includes receiving, at a host container, a user-fillable form bound to dynamic data from an underlying data source where the user-fillable form has a data structure generated by prepopulated coding. The method further includes translating the user-fillable form into a hostable format for the host container. The method also includes rendering, using the hostable format for the host container, the user-fillable form in a user interface. The method further includes receiving, at the user interface of the host container, from a user of the host container, a data entry for input to the user-fillable form and updating, by the host container, the dynamic data from the underlying data source by persisting data from the data entry in a data store associated with the underlying data source.

Various embodiments of the present application set forth a computer-implemented method comprising receiving, at an endpoint device, a user input associated with a first remote application running on a workstation instance associated with the user, determining, based on a context associated with the user input, a first asset associated with the user input, and causing the workstation instance to modify an asset file in a local file system of the workstation instance, wherein the asset file corresponds to at least a portion of the first asset.

Systems and methods are provided that may be implemented to manage screen sharing of local system windows from a local information handling system to other remote information handling systems by a screen sharing application. In one example, the disclosed systems and methods may be implemented to allow selected local system window/s to continue to remain visible to a local user on the local display screen of a local information handling system that is executing a screen sharing application, while at the same time blocking or otherwise preventing the selected local system window/s from being shared by the screen sharing application across a network with other remote information handling systems, e.g., that are participating with the local information handling system in a common web conference session.

A system allows for higher security guarantees on public or shared or even compromised equipment, which may be designated as untrusted equipment, without a need to install additional software on it or connect to it outside of general browser interactions. Based on this system, even if it is compromised, proper information separation may ensure security of the sensitive parts of data. That is, trusted information will only go to (outputs) or come from (inputs) trusted devices and insensitive information can go to or come from both trusted and untrusted devices.

A system for managing and controlling a mesh VPN includes a management computing platform, a control computing platform, teleworker computing subsystems, and an office computing subsystem. The management computing platform provides deployment and management services to an organization for operation of a mesh VPN in a WAN in accordance with a service profile. The mesh VPN includes a hub node and a plurality of end nodes. Each end node communicates with the VPN hub node and with other end nodes via peer-to-peer paths. The control computing platform is the hub node and provide a control service for operation of the mesh VPN based on the service profile. The teleworker and office computing subsystems are end nodes. Various methods for operation of the computing platforms and subsystems in the mesh VPN are also provided.

Systems and methods of the present disclosure are directed to providing remote access capabilities in information technology infrastructure. In particular, systems and methods of the present disclosure can provide remotely access capabilities to facilitate the management, configuration, or maintenance of information technology infrastructure.

Embodiments generally enable a mobile device to display a window of a remote desktop on a mobile device with a native layout. In some embodiments, a method includes receiving a remote desktop display request from a mobile client device, wherein the remote desktop display request includes display information of the mobile client device. The method further includes generating a copy of a window process of a remote desktop computer. The method further includes generating a virtual display based at least in part on the copy of the window process of the remote desktop computer and on the display information of the mobile client device. The method further includes sending virtual display information to the mobile client device based at least in part on the virtual display.

Various example embodiments for providing device application support are presented. In at least some example embodiments, device application support may be configured to support device programmability. In at least some example embodiments, device application support may be configured to support device programmability for enabling a customer that operates a device to develop a customer application for the device and to run the customer application on the device. In at least some example embodiments, device application support may be provided in a manner for enabling a customer to develop and run a customer application for a device without a need for the customer to use a software development kit (SDK) to develop the customer application.

Provided herein are systems and methods for providing insights or metrics in connection with provisioning applications and/or desktop sessions to end-users. Network devices (e.g., appliances, intermediary devices, gateways, proxy devices or middle-boxes) can gather insights such as network-level statistics. Additional insights (e.g., metadata and metrics) associated with virtual applications and virtual desktops can be gathered to provide administrators with comprehensive end-to-end real-time and/or historical reports of performance and end-user experience (UX) insights. Insights relating to an application or desktop session can be used to determine and/or improve the overall health of the infrastructure of the session, Citrix Virtual Apps and Desktops, the applications (e.g., remote desktop application) being delivered using the infrastructure, and/or the corresponding user experience.

An interaction method, including displaying, by a first electronic device, a multi-task management interface, including N device labels corresponding to N electronic devices and including a first, second and third device label of the first, second and third electronic device, receiving a first operation for dragging the first task record to the second device label performed by a user on a first task record, enabling, in response to the first operation, the second electronic device to display at least one first task corresponding to the first task record, receiving a second operation for dragging the second task record to the third device label performed by a user on a second task record in the multi-task management interface, and enabling, by the first electronic device in response to the second operation, the third electronic device to display at least one of second task corresponding to the second task record.