Various embodiments herein each include at least one of systems, methods, software, and devices for edge system health monitoring and auditing. One embodiment, in the form of a method includes performing a system audit over a first network of devices deployed within the facility to determine a status of each respective device. This embodiment further includes determining an overall system status for the facility based on results of the system audit including consideration of a status of each of the devices deployed within the facility and storing data representative of the overall system status of the facility. This embodiment also transmits at least a portion of the data representative of the overall system status of the facility over a second network to a facility system status monitoring application which may then present a single indicator of the overall system status or health.

A distributed storage system includes a first access device and a plurality of nodes. The nodes include a first node and a second node, the first node accesses the first access device, and the first node is a storage node, a compute node, or a control node. The first access device is configured to detect a status of the first node and send a first notification message to the second node when the status meets a preset condition. The first notification message includes an identifier of the first node and status information of the first node. The second node is configured to receive the first notification message and perform a processing operation based on the first notification message.

A method for providing end-to-end monitoring of an application is disclosed. The method includes receiving, via a graphical user interface, a request to monitor the application, the request including information relating to the application; generating a service call based on the request, the service call relating to a synthetic transaction in a master configuration; scheduling the service call in the master configuration; generating a synthetic workflow based on the service call; executing the synthetic workflow based on a result of the scheduling; and capturing a metric from the executed synthetic workflow.

The present disclosure discloses a method and apparatus of monitoring an interface performance of a distributed application, a device and a storage medium, which relates to a field of computer technology, in particular to a field of cloud platform. The method includes: in case of detecting a caller request for calling an interface of the distributed application, obtaining a performance data of the interface for responding the caller request; updating a performance data distribution characteristic of the interface according to the performance data of the interface for responding the caller request, so as to obtain an updated performance data distribution characteristic; and monitoring the interface performance of the distributed application, according to the updated performance data distribution characteristic of the interface.

Managing data center recovery from failure events can include a failure event platform having aspects provided via a user interface that integrates multiple failure and recovery management and execution features. The features can include, among others, application drift monitoring between production and recovery environments, real-time health checks of system components, user-modifiable scripting for prioritizing and customizing data center recovery actions, and a recovery execution tool.

In some implementations, a device may receive, via a data stream, log data associated with a set of register devices and may extract state information associated with the set of register devices from the log data. The device may transmit, to a client device, presentation information to cause the state information associated with the set of register devices and one or more user selection options for initiating actions to be performed by the set of register devices to be displayed by the client device via a graphical user interface (GUI). The device may receive an indication of a user input provided via the GUI associated with a user selection option of the one or more user selection options, that indicates an action to be performed by a register device. The device may communicate, with the register device, to cause the register device to perform the action.

One aspect relates to a system that integrates a user interface of a device with a cloud based database system without use of a database application. A user may access a cloud based database system without the complexity of installing additional software or managing connections to the cloud based database system. The system may establish a communication link between the user interface and intelligent agents running on the database system in order to allow a user(s) to carry out various database monitoring and verification activities.

A method, performed by a computing device, includes (a) building a data structure that describes dependence relationships between components of a virtual appliance, the components comprising respective computational processes which may be invoked during booting, a dependence relationship indicating that one component must complete before a second component may be invoked, (b) identifying, with reference to the data structure and an essential set of components which were pre-defined to be essential to the virtual appliance, a set of components that must complete for booting to be considered finished, and, after identifying the required set of components, repeatedly (c) querying each required component for its respective completion status, (d) calculating an estimated completion percentage for booting the virtual appliance with reference to the respective completion statuses of each required component versus all required components, and (e) displaying an indication of the completion percentage to a user via a user interface.

An information handling system may include a host information handling system comprising at least one host processor and a network interface that includes an on-board storage. The network interface may be configured to enable remote debugging of a crash associated with the host information handling system by: exposing the on-board storage to the host information handling system as a virtual storage resource; receiving, from the host information handling system, a core dump file associated with the crash; and allowing access to the core dump file from a remote information handling system.

Provided are a computer program product, system, and method for scanning a computing system to determine a computing system profile and problems to recommend actions to initiate with the computing system. A package is transmitted to the computing system including package code to scan the computing system to determine a computing system profile comprising a computing architecture and installed applications at the computing system. The computing system profile is processed to determine a recommended action to perform with respect to the computing system to improve operations of the computing system based on the computing system profile. A display element is generated in a user interface with information on the recommended action to enable a user of the computing system to implement the recommended action. The package code executes within the computing system without communicating over the network to an external system outside of a computing environment of the computing system.