CN114021054A - Operation and maintenance management method based on kvm combined industrial internet mode - Google Patents

Abstract

The invention discloses an operation and maintenance management method based on a kvm combined industrial internet mode, and relates to the technical field of virtualization management; in an industrial internet mode, an operation and maintenance service end receives a request of a front end, and corresponding node operation and maintenance management is carried out according to the request, wherein the operation and maintenance service end receives a virtualization platform request and carries out Kvm virtualization platform control node management, and/or the operation and maintenance service end receives a data acquisition request and carries out data acquisition node management, and/or the operation and maintenance service end receives a command interaction request and carries out command interaction node management.

Description

Operation and maintenance management method based on kvm combined industrial internet mode

Technical Field

The invention discloses a method, relates to the technical field of virtualization management, and particularly relates to an operation and maintenance management method based on a kvm combined industrial internet mode.

Background

With the advent of the concept of "industrial internet", various types of industrial units and factory enterprises of various scales have started to gradually shift towards intelligent transformation in order to improve their own core productivity, and the core essence of "industrial internet" is to tightly connect and merge devices, production lines, factories, suppliers, products and customers, so as to form interconnection and intercommunication across devices, systems, factories and regions in a "man-machine interconnection" mode, thereby realizing the spanning development between manufacturing industry and service industry, finally improving efficiency and promoting the intellectualization of the whole manufacturing service system.

In the large form of the "industrial internet", there is a need to connect real world machines, devices, teams and networks through advanced sensors, controllers and software applications. However, in the manufacturing industry of all industries, most of factory staff take the industry where the staff is located as the specialty, lack knowledge in the computer field, cannot control intelligent equipment, or even cannot know the existing state of the intelligent equipment by oneself.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an operation and maintenance management method based on a kvm combined industrial internet mode, which can be used for centralized management operation and simple and clear operation and maintenance management.

The specific scheme provided by the invention is as follows:

an operation and maintenance management method based on a kvm-combined industrial internet mode comprises the steps of receiving a front-end request through an operation and maintenance server under the industrial internet mode, and carrying out corresponding node operation and maintenance management according to the request, wherein the operation and maintenance server receives a virtualization platform request and carries out Kvm virtualization platform control node management, and/or the operation and maintenance server receives a data acquisition request and carries out data acquisition node management, and/or the operation and maintenance server receives a command interaction request and carries out command interaction node management.

Further, the Kvm management of the control node of the virtualization platform in the kvm-based operation and maintenance management method in the industrial internet mode includes:

and receiving the virtualization platform request through the operation and maintenance server, finding a corresponding Kvm virtualization platform control node for forwarding, and acquiring Kvm execution results fed back by the virtualization platform control node.

Further, the management of the data acquisition nodes in the operation and maintenance management method based on the kvm-combined industrial internet mode includes:

receiving the data acquisition request through the operation and maintenance server, finding the corresponding data acquisition node for forwarding,

and reading the server data which is acquired by the data acquisition node and put into the message queue after analysis.

Further, the management of the command interaction node in the operation and maintenance management method based on the kvm and industrial internet mode includes:

receiving the command interaction request and the execution script transmitted by the client through the operation and maintenance server, finding the corresponding command interaction node for forwarding,

and acquiring an execution result of analyzing and executing the execution script by the command interaction node.

An operation and maintenance management system based on a kvm combined industrial internet mode comprises an operation and maintenance server, wherein the operation and maintenance server comprises a server receiving module and a background management module,

in an industrial internet mode, an operation and maintenance server receives a request of a front end through a server receiving module, and performs corresponding node operation and maintenance management according to the request through a background management module, wherein the operation and maintenance server receives a virtualization platform request through the server receiving module and performs Kvm management of virtualization platform control nodes through the background management module, and/or the operation and maintenance server receives a data acquisition request through the server receiving module and performs data acquisition node management through the background management module, and/or the operation and maintenance server receives a command interaction request through the server receiving module and performs command interaction node management through the background management module.

Further, the management of Kvm virtualization platform control nodes is performed by the background management module in the kvm-based operation and maintenance management system in combination with the industrial internet mode, which includes:

and receiving the virtualization platform request through a server receiving module, wherein the background management module finds out the corresponding Kvm virtualization platform control node for forwarding, and acquires Kvm execution results fed back by the virtualization platform control node.

Further, the background management module in the kvm-based operation and maintenance management system based on the industrial internet mode performs management on the data acquisition nodes, and the method includes:

and receiving the data acquisition request through a server receiving module, finding a corresponding data acquisition node by the background management module for forwarding, reading and analyzing server data acquired by the data acquisition node and put into a message queue.

Further, the management of the command interaction node by the background management module in the kvm-based operation and maintenance management system in combination with the industrial internet mode includes:

receiving the command interaction request and the execution script transmitted by the client through the server receiving module, finding the corresponding command interaction node for forwarding,

and acquiring an execution result of analyzing and executing the execution script by the command interaction node.

The invention has the advantages that:

the invention provides an operation and maintenance management method based on a kvm combined industrial internet mode, which can enable a user to access an address of a communication and maintenance management platform based on a structure of Bs and operate at any time and any place;

by using the front-end interface for operation, people unfamiliar with kvm commands can get hands more easily and conveniently, and the use threshold is reduced;

the server end is used for managing a plurality of nodes, so that a platform can acquire information of a plurality of machines and perform effective asset management, and operation and maintenance personnel can work conveniently;

the deployment of virtual machine software is controlled by the server end on the kvm virtualization platform, so that the time of manual operation is saved, the occurrence of human errors is reduced, the time period of each operation is shortened, and the labor efficiency is improved;

the server side is used for monitoring, resource condition data of different types of equipment are collected in a unified mode and can be displayed at the front end, the resource utilization condition of the equipment can be visually seen, and problems caused by insufficient resources can be prevented in advance;

the server end manages the command interaction nodes, so that the required server can be selected, and the script is executed on the server.

Drawings

Fig. 1 is a schematic flow chart of the management of the control node by the method of the present invention.

FIG. 2 is a schematic view of the management process of the data acquisition node according to the method of the present invention.

FIG. 3 is a schematic diagram illustrating the establishment of a connection between a server and a command interaction node according to the method of the present invention.

FIG. 4 is a schematic diagram of the management flow of the command interaction node according to the method of the present invention.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

The invention provides an operation and maintenance management method based on a kvm combined industrial internet mode, which comprises the steps of receiving a front-end request through an operation and maintenance server under the industrial internet mode, carrying out corresponding node operation and maintenance management according to the request, receiving a virtualization platform request through the operation and maintenance server, carrying out Kvm virtualization platform control node management, and/or receiving a data acquisition request through the operation and maintenance server, carrying out data acquisition node management, and/or receiving a command interaction request through the operation and maintenance server, and carrying out command interaction node management.

The operation and maintenance management platform is provided with a front-end operation interface, monitors the resources and the running states of various machines and equipment, can generate a chart, displays the current conditions of the various machines and equipment in real time on a page, and prefabricates a processing scheme of certain monitoring results.

In specific application, when some embodiments of the method of the present invention are based on kvm and the operation and maintenance management in the industrial internet mode, the method may perform corresponding setting on the front end, and the Server end background provides support for the front end page in the form of an http interface, to perform management of Kvm virtualization platform control nodes, including:

receiving a virtualization platform request through the operation and maintenance server, finding a corresponding Kvm virtualization platform control node for forwarding, and obtaining Kvm execution results fed back by the virtualization platform control node;

the management of the data acquisition nodes comprises the following steps:

receiving the data acquisition request through the operation and maintenance server, finding the corresponding data acquisition node for forwarding,

and reading the server data which is acquired by the data acquisition node and put into the message queue after analysis.

Performing management of command interaction nodes, comprising:

receiving the command interaction request and the execution script transmitted by the client through the operation and maintenance server, finding the corresponding command interaction node for forwarding,

and acquiring an execution result of analyzing and executing the execution script by the command interaction node.

Based on the embodiment, the Server-side background can perform group management of the nodes, data collection processing of the monitoring logs and a preprocessing scheme script, and manage the authority through user management.

Wherein, the background of the Server end is used for finding out corresponding Kvm control nodes of the virtualization platform for forwarding after processing and analyzing according to the virtualization platform request transmitted by the front page, and the control nodes of the KVM virtualization platform realize the functions of checking all virtual machines, checking running virtual machines, starting the virtual machines, closing the virtual machines, forcibly powering off the virtual machines, suspending the virtual machines, recovering the suspended virtual machines, deleting the virtual machines, checking the configuration information of network cards, checking the disk positions of the virtual machines, starting the self-starting virtual machines, canceling the self-starting of the starting, adding network cards to the virtual machines, adding disks to the virtual machines, cloning the virtual machines, modifying the names of the virtual machines, modifying the CPUs of the KVM virtual machines and the like by calling command lines, and simultaneously realize the timed backup of the virtual machines and the remote backup by logic, virtual machine backup functions such as restoring images across hosts,

and the control node of the kvm virtualization platform provides service support in the form of an http interface, communicates with the server end, and calls back an execution result.

The method comprises the steps of acquiring and receiving a data acquisition request through a Server end background, finding a corresponding data acquisition node for forwarding, actively putting acquired information into a message queue according to frequency through the data acquisition node, and comparing the information with previous records, wherein the information comprises the CPU model, the CPU version, the CPU manufacturer, the CPU core number, the CPU frequency, the memory size, the disk space size, the disk type, network card information and the like of a Server, if the information changes, the data information is updated according to a required format and is put into the message queue, the information in the message queue can be analyzed by the data acquisition analysis node and stored into an infiluxdb time sequence database, and the analyzed information is read through the Server end background.

The method comprises the steps of initiating a websocket link through a front end, forwarding to each command interaction node through a Server end background to establish socket connection, recording all software lists and all node installation records including installation and installed version numbers through the Server end background, calling the command interaction node to install and update selected software needing to be installed through an installation script in a docker image mode, receiving an execution script transmitted from a client end by the command interaction node, analyzing the content of the execution script, executing the analyzed commands one by one, collecting execution results on a Server, and putting the execution results into the socket to reply.

In the above embodiment, the front-end page may be further utilized to perform operation and maintenance management in the industrial internet mode based on kvm. Wherein, the operations of checking all virtual machines, checking running virtual machines, starting virtual machines, closing virtual machines, forcibly powering off virtual machines, suspending virtual machines, recovering suspended virtual machines, deleting virtual machines, checking configuration information of network cards, checking disk positions of the virtual machines, starting self-starting virtual machines, canceling starting self-starting, adding network cards to virtual machines, adding disks to virtual machines, cloning virtual machines, modifying the names of virtual machines, modifying CPUs of KVM virtual machines, timing backup, remote backup, virtual machine backup cross-host restoration and the like can be carried out through a virtualization platform menu of a front-end page to obtain feedback,

on the node management page, taking a group as a node, checking the number of servers and host information under each group, including a cpu model, a cpu version, a cpu manufacturer, a cpu core number, a cpu frequency, a memory size, a disk space size, a disk type, network card information and the like, performing webshell function on the node, realizing that the servers can be operated on an operation and maintenance management platform webpage,

providing graph information such as CPU utilization rate, memory utilization rate, network flow, disk usage and the like of a host computer by taking a node as a unit through a monitoring interface, setting and processing a threshold value of each monitoring value, including alarming or preprocessing,

the software installed and the version of the node are displayed by taking the node as a unit through the software management interface, and the software in the uninstalled software list can be selected to be installed in a one-key mode,

a certain existing operation and maintenance operation script can be selected through other operation and maintenance interfaces, a single server or a plurality of servers can be selected to execute the script in batches, and the execution result, the feedback content of the node server and the like are displayed.

The method can monitor and generate graphs of resources and running states of various machines and equipment through an operation and maintenance management server side in an industrial internet mode, display the current conditions of the various machines and equipment in real time on a page, and prefabricate processing schemes of certain monitoring results. The method comprises the steps of obtaining the installation condition and the version condition of the equipment software, and carrying out one-key deployment, updating and uninstalling of the software.

The invention also provides an operation and maintenance management system based on the kvm combined industrial internet mode, which comprises an operation and maintenance server, wherein the operation and maintenance server comprises a server receiving module and a background management module,

in an industrial internet mode, an operation and maintenance server receives a request of a front end through a server receiving module, and performs corresponding node operation and maintenance management according to the request through a background management module, wherein the operation and maintenance server receives a virtualization platform request through the server receiving module and performs Kvm management of virtualization platform control nodes through the background management module, and/or the operation and maintenance server receives a data acquisition request through the server receiving module and performs data acquisition node management through the background management module, and/or the operation and maintenance server receives a command interaction request through the server receiving module and performs command interaction node management through the background management module.

The information interaction, execution process and other contents between the modules in the system are based on the same concept as the method embodiment of the present invention, and specific contents can be referred to the description in the method embodiment of the present invention, and are not described herein again.

Similarly, the system can allow a user to access the address of the communication and maintenance management platform based on the architecture of Bs, and operate anytime and anywhere;

by using the front-end interface for operation, people unfamiliar with kvm commands can get hands more easily and conveniently, and the use threshold is reduced;

the server end is used for managing a plurality of nodes, so that a platform can acquire information of a plurality of machines and perform effective asset management, and operation and maintenance personnel can work conveniently;

the deployment of virtual machine software is controlled by the server end on the kvm virtualization platform, so that the time of manual operation is saved, the occurrence of human errors is reduced, the time period of each operation is shortened, and the labor efficiency is improved;

the server side is used for monitoring, resource condition data of different types of equipment are collected in a unified mode and can be displayed at the front end, the resource utilization condition of the equipment can be visually seen, and problems caused by insufficient resources can be prevented in advance;

the server end manages the command interaction nodes, so that the required server can be selected, and the script is executed on the server.

It should be noted that not all steps and modules in the processes and system structures in the preferred embodiments are necessary, and some steps or modules may be omitted according to actual needs. The execution order of the steps is not fixed and can be adjusted as required. The system structure described in the above embodiments may be a physical structure or a logical structure, that is, some modules may be implemented by the same physical entity, or some modules may be implemented by a plurality of physical entities, or some components in a plurality of independent devices may be implemented together.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims (8)

1. An operation and maintenance management method based on a kvm-combined industrial internet mode is characterized in that in the industrial internet mode, an operation and maintenance server receives a request of a front end, and corresponding node operation and maintenance management is performed according to the request, wherein the operation and maintenance server receives a virtualization platform request and performs Kvm management of virtualization platform control nodes, and/or receives a data acquisition request and performs data acquisition node management, and/or receives a command interaction request and performs command interaction node management.

2. The operation and maintenance management method based on kvm combined with industrial internet mode as claimed in claim 1, wherein said managing Kvm virtualization platform control nodes comprises:

and receiving the virtualization platform request through the operation and maintenance server, finding a corresponding Kvm virtualization platform control node for forwarding, and acquiring Kvm execution results fed back by the virtualization platform control node.

3. The operation and maintenance management method based on the kvm-combined industrial internet mode as claimed in claim 1 or 2, wherein the performing management of the data collection node comprises:

receiving the data acquisition request through the operation and maintenance server, finding the corresponding data acquisition node for forwarding,

and reading the server data which is acquired by the data acquisition node and put into the message queue after analysis.

4. The operation and maintenance management method based on kvm combined with industrial internet mode as claimed in claim 1, wherein said performing management of command interaction node comprises:

receiving the command interaction request and the execution script transmitted by the client through the operation and maintenance server, finding the corresponding command interaction node for forwarding,

and acquiring an execution result of analyzing and executing the execution script by the command interaction node.

5. An operation and maintenance management system based on a kvm combined industrial internet mode is characterized by comprising an operation and maintenance server, wherein the operation and maintenance server comprises a server receiving module and a background management module,

in an industrial internet mode, an operation and maintenance server receives a request of a front end through a server receiving module, and performs corresponding node operation and maintenance management according to the request through a background management module, wherein the operation and maintenance server receives a virtualization platform request through the server receiving module and performs Kvm management of virtualization platform control nodes through the background management module, and/or the operation and maintenance server receives a data acquisition request through the server receiving module and performs data acquisition node management through the background management module, and/or the operation and maintenance server receives a command interaction request through the server receiving module and performs command interaction node management through the background management module.

6. The operation and maintenance management system based on kvm combined with industrial internet mode as claimed in claim 5, wherein said back-end management module performs Kvm management of virtualization platform control node, comprising:

and receiving the virtualization platform request through a server receiving module, wherein the background management module finds out the corresponding Kvm virtualization platform control node for forwarding, and acquires Kvm execution results fed back by the virtualization platform control node.

7. The operation and maintenance management system based on kvm combined with industrial internet mode as claimed in claim 5 or 6, wherein the background management module manages data collection nodes, and comprises:

and receiving the data acquisition request through a server receiving module, finding a corresponding data acquisition node by the background management module for forwarding, reading and analyzing server data acquired by the data acquisition node and put into a message queue.

8. The operation and maintenance management system based on kvm combined with industrial internet mode as claimed in claim 5, wherein said background management module performs management of command interaction node, comprising:

receiving the command interaction request and the execution script transmitted by the client through the server receiving module, finding the corresponding command interaction node for forwarding,

and acquiring an execution result of analyzing and executing the execution script by the command interaction node.

Images