A method of generating a user interface for presentation to a user. The method comprises executing a first application computer program to provide a user interface, executing agent computer program code to interrogate and modify said user interface during execution of said first application computer program, and presenting said modified user interface. The first application computer program may be run on a server, while the modified user interface may be presented to a user at a client connected to said server.

Techniques for integrating applications using a container image of an integration flow are disclosed. In some embodiments, a computer system performs operations comprising: providing a low-code no-code (LCNC) development platform to a computing device, the LCNC development platform being configured to enable a user to develop an integration flow; receiving a configuration of the integration flow from the computing device via the LCNC development platform, the integration flow being configured to enable communication between a first application being hosted on a first system and a second application being hosted on a second system; building a container image of the integration flow based on the configuration of the integration flow, the container image being configured to execute the integration flow; and deploying the container image of the integration flow on the second system, the deployed container image of the integration flow enabling communication between the first application and the second application.

A method of generating a user interface for presentation to a user. The method comprises executing a first application computer program to provide a user interface, executing agent computer program code to interrogate and modify said user interface during execution of said first application computer program, and presenting said modified user interface. The first application computer program may be run on a server, while the modified user interface may be presented to a user at a client connected to said server.

A Point-Of-Sale (POS) processing environment is encapsulated within a container running on a first Operating System (OS) of a transaction terminal. Peripheral drivers for connected peripherals run on a second and different OS of the transaction terminal. A platform processing environment runs the peripheral drivers on the second and different OS of the terminal. A socket interface is provided for communication between transaction applications of the POS processing environment with the peripheral drivers of the platform processing environment for purposes of allowing the transaction applications to control and access the connected peripherals during transactions performed at the transaction terminal via the socket interface.

In one example, a server system facilitates an exchange of messages with a remote client application. An Application Program Interface (API) receives a first request message and a second request message, wherein the first request message includes a first data payload defined by a common definition and including a first payload data, the first payload defined by a first schema definition. The second request message includes a second data payload defined by the common definition and a second payload data, wherein the second payload is defined by a second schema definition different than the first schema definition. In response to receiving the first request message, the API transmits a first response message, and in response to receiving the second request message, the API transmits a second response.

Described herein are systems and methods that provide a mechanism to proxy and protect HyperText Transport Protocol/Transport Layer Security (HTTP/TLS) redirection attempts. This technique mirrors an intended target request with a new request, never forwarding the original request from the scanner. This action provides protection to the end target as only key elements of the HTTP request are used while crafting a new HTTP request.

Embodiments of the present disclosure may provide a streamlined process for performing operations, such as data sharing and data replication, using multiple accounts. A global identity (also referred to as an organization user) may be employed, where the global identity may have access to multiple accounts across the same or different deployments. The global identity may switch between accounts from its login session and perform various tasks in the context of different accounts without undergoing further authentication.

Systems and methods relate generally to interprocess communication. In an example, a method relating generally to interprocess communication is disclosed. In such a method, a first interprocess communication library and a second interprocess communication library is provided each having server and client components configured for client-server communication with one another. A first process domain having a first function and having the first interprocess communication library is provided. A second process domain having a second function and having the second interprocess communication library is provided. A function call for the first function is transformed to a message using a base class. The message is communicated from the first interprocess communication library to the second interprocess communication library. The message is communicated from the second interprocess communication library to the second function.

Techniques and configurations for streaming metadata between devices are disclosed herein. In one example embodiment, streaming textual data, for example subtitles or closed caption data, are provided from a consumer television or set top box (STB) platform to a tablet computer platform. XMPP and BOSH are used as infrastructural components to help establish the client/server connection between the platforms. These components also maintain this connection and support real-time communications and transfer of data between the platforms. In an example embodiment, an application on the primary platform has a string of metadata which is communicated to a client application on a second platform. For example, client application may be a smart phone app in the form of an HTML5 app running on browser. The system may stream and control bi-directionally. In this architecture an XMPP-implementing JavaScript library allows XMPP client interaction through an XML stanza.

In one embodiment, a method includes receiving, at a client system, an audio input, where the audio input comprises a coreference to a target object, accessing visual data from one or more camera associated with the client system, where the visual data comprises images portraying one or more objects, resolving the coreference to the target object from among the one or more objects, resoling the target object to a specific entity, and providing, at the client system, a response to the audio input, where the response comprises information about the specific entity.