A method for loading multiple versions of the same native library in a native runtime environment. In one embodiment, the method comprises cloning a native library workspace with a first version number as a cloned native library; applying a namespace across the cloned native library; injecting a macro into source code associated with the cloned native library; adding a dependency to the cloned native library in source code associated with the native runtime environment; and registering the first version number in a project configuration of the native runtime environment.

A barcode reader may include barcode reading hardware, which may include an image sensor. The image sensor may capture an image of a barcode within a field of view. The barcode reading hardware may also include a communication interface for output of decoded data to a remote computing system. The barcode reader may also include volatile memory and non-volatile memory. The non-volatile memory may include start-up instructions. The barcode reader may also include a processor. The processor may be configured to, upon power-up of the barcode reader, execute the start-up instructions to obtain firmware for operating the barcode reader from a remote configuration server, load the firmware to the volatile memory, and commence execution of the firmware to commence barcode reading functions of the barcode reader without performing a re-boot operation.

A do-not-disturb method and a terminal are provided. The method includes: displaying, by the terminal, an interface of a first application, then, if the interface of the first application includes a media playing window, and the first application is in a media do-not-disturb mode, determining whether any first media playing in the window was triggered by a playing operation of a user. If the playing of the first media in the window was triggered by the playing operation of the user, the method includes playing the corresponding media, and if the playing of the first media in the window was not triggered by the playing operation of the user, the method includes pausing or stopping play of the corresponding media. This method can avoid automatic playing of media, to reduce resource waste, data traffic consumption, a processing load of a mobile phone, and power consumption.

Disclosed herein are systems and method for providing nested frontend applications in a user interface of a management application. An exemplary method may include: generating a graphical user interface (GUI) for the management application, wherein the GUI includes a first extension point that includes a plurality of extensions, wherein each extension of the plurality of extensions is a standalone frontend application; injecting, during runtime of the management application, a first extension into the first extension point based on a personal configuration file, wherein the first extension is included in the plurality of extensions after injection; in response to receiving, via the GUI, a selection of the first extension, generating, on the GUI, a second extension point corresponding to the first extension, wherein the second extension point includes an additional plurality of extensions; and injecting, during the runtime, a second extension into the second extension point.

Disclosed herein are systems and method for providing nested frontend applications in a user interface of a management application. An exemplary method may include: generating a graphical user interface (GUI) for the management application, wherein the GUI includes a first extension point that includes a plurality of extensions, wherein each extension of the plurality of extensions is a standalone frontend application; injecting, during runtime of the management application, a first extension into the first extension point based on a personal configuration file, wherein the first extension is included in the plurality of extensions after injection; in response to receiving, via the GUI, a selection of the first extension, generating, on the GUI, a second extension point corresponding to the first extension, wherein the second extension point includes an additional plurality of extensions; and injecting, during the runtime, a second extension into the second extension point.

An operating system service for persistently executing programs comprises a registration service configured to register a manifest defining a persistence mode of a user-controllable program. The operating system service further comprises a runtime service configured, based on the persistence mode defined via the manifest, to detect and reject termination requests for the program, and to detect that the program has terminated and restart execution of the program.

Systems and methods are described for modifying input and output (I/O) to an object storage service by implementing one or more owner-specified functions to I/O requests. A function can implement a data manipulation, such as filtering out sensitive data before reading or writing the data. The functions can be applied prior to implementing a request method (e.g., GET or PUT) specified within the I/O request, such that the data to which the method is applied my not match the object specified within the request. For example, a user may request to obtain (e.g., GET) a data set. The data set may be passed to a function that filters sensitive data to the data set, and the GET request method may then be applied to the output of the function. In this manner, owners of objects on an object storage service are provided with greater control of objects stored or retrieved from the service.

Embodiments described herein provide for virtual machine (VM) based exploit mitigation techniques that can be used to harden web content frameworks and JavaScript Engines. Some embodiments described herein are also generally applicable to other system frameworks, libraries, and program code that executes on a processor that is vulnerable to an attack using a security exploit. Program code that implements the techniques described herein can prevent the use of security exploit attacks to bypass security properties within the program code.

The various implementations described herein include methods, devices, and systems for interactive cloud gaming. In one aspect, an interface device with processors and memory storing an application program is used for cloud gaming. The interface device includes a communication module for receiving and/or transmitting messages and media streams between the interface device, a game controller, and a remote gaming server. The interface device further includes an output module configured to provide output of the application to an input of a display device coupled to or integrated with the interface device. The application is configured to implement a first mode in which the interface device processes and displays outputs associated with substantially all messages transmitted by the game controller, and a second mode in which the interface device processes and displays a predefined subset of messages from the game controller and displays gaming media streams from the gaming server.

Embodiments disclose a method and a device for processing frequency converter monitoring data and a storage medium. An embodiment of the method includes: acquiring a script file containing a monitoring parameter specifying field and a storage location; parsing the script file to acquire the storage location and the monitoring parameter specifying field and determining the monitoring parameter specified by the monitoring parameter specifying field; collecting the monitoring data corresponding to the monitoring parameter; and storing the monitoring data in the storage location. The embodiments provide a script file based processing solution for frequency converter monitoring data, without no special tracking or debugging software tool required. Thus, the implementation complexity is reduced and the service cost and time are saved.