KR101784681B1 - Container based operational automation system for supporting isolation of -muti-tenancy on cloud platform - Google Patents

Abstract

A container-based server operation management system for supporting multi-tenancy in a cloud platform of the present invention includes a management command unit for requesting a tenant manager for information about an object to be managed and accessing the server management container through the acquired information; A container manager for managing a life cycle of the server management containers; A container engine for creating server management containers through the container manager; A container store for storing actual images of the server management container and providing consistency in operation of the server management container; A virtualization server group for executing a command received from the server management container; And a package manager for providing a package repository to the virtualization server group.

Description

[0001] Container based operational automation system for supporting multi-user independence in a cloud platform [

The present invention relates to a remote operation automation system for automatically performing operations such as remote configuration, distribution, patching, and monitoring of a plurality of server groups. More specifically, the present invention relates to a remote operation automation system, Based server operation management system for automating the operation of the container-based server.

To manage a large number of servers requires a lot of manpower and time, so a number of automated operation support tools are being developed.

In the cloud platform, since multiple tenants are occupied and used at the same time, independence between individual tenants must be ensured, and a plurality of servers must be managed simultaneously. Development of an automated server operating tool satisfying all of them is insufficient.

The present invention provides a container-based operation automation system that assures independence of different tenants in a cloud system and ensures independence of multiple users in a cloud platform capable of simultaneously managing a plurality of servers have.

A container-based operation automation system for assuring the independence of multiple users in a cloud platform according to an aspect of the present invention includes: a management unit for requesting information on a target to be managed from a tenant manager, Command section; A container manager for managing a life cycle of the server management containers; A container engine for creating server management containers through the container manager; A container store for storing actual images of the server management container and providing consistency in operation of the server management container; A virtualization server group for executing a command received from the server management container; And a package manager for providing a package repository to the virtualization server group.

In the present invention, the tenant manager may create a server management container for each tenant or provide access information to the container manager through communication with the container manager.

In the present invention, the server management container accesses the virtualization server group and executes the command received from the management command unit.

In the present invention, the package repository provides a virtual file repository that can store packages commonly used by virtualization server groups through a package manager.

According to the present invention, it is possible to provide an independent server management and operation automation tool for cloud tenants. Also, by providing a common package repository, it is possible to improve performance and service quality of the entire cloud.

Further, the present invention has the effect of supporting multi-tenants at a low cost by utilizing container technology.

In addition, the present invention has the effect of securing security and flexibility even in a multi-user environment by applying a container-based technology.

1 is a block diagram illustrating a container-based operation automation system that supports multi-tenancy in a cloud platform according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating an application of a container-based operation automation system supporting multi-tenancy in a cloud platform according to an exemplary embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

Hereinafter, a container-based server operation management system supporting multi-tenancy in a cloud platform according to an embodiment of the present invention will be described in detail.

1 is a block diagram illustrating a container-based operation automation system that supports multi-tenancy in a cloud platform according to an embodiment of the present invention.

Referring to FIG. 1, a container-based server operation management system supporting multi-tenancy in the cloud platform of the present invention includes a management command unit 100, a tenant manager 110, a container engine 120, a container manager 130, A container repository 140, a server management container 150, a virtualization server group 160, a package manager 170, and a package repository 180.

The management command unit 100 requests the tenant manager 110 for information on an object to be managed and accesses the server management container 150 through the obtained information.

The tenant manager 110 generates a server management container 150 for each tenant or provides access information to the container manager 130 through communication with the container manager 130.

The container engine 120 plays a role of creating the server management containers 150 through the container manager 130.

The container manager 130 manages the life cycle of the server management containers 150 generated through the container engine 120.

The container store 140 stores actual images of the server management container 150. Thereby providing consistency in the operation of the server management container 150. Here, the image is binary data and image metadata information of a Linux container image loaded with a series of programs for managing software packages of belonging VMs, and is managed by being loaded and stored for each institution and version in a container image store.

The server management containers 150 connect to the virtualization server group 160 and execute the commands received from the management command unit 100. Here, the command includes commands for the operating system of the virtualization server and configuration management of the software.

Operating system commands include all the commands necessary for an operating system such as OS account management, file system management, network configuration management, logging and monitoring information collection, security and firewall management, system module and service daemon management.

Here, the software configuration management collects information on the installation state of the software package and the information (version, manufacturer, installation date, etc.) of the installed package, and provides a function for allowing an exploratory approach to security and functional patch objects.

The virtualization server group 160 executes a command received from the server management container 150.

The package manager 170 provides the package repository 180 to the virtualization server group 160.

The package repository 180 provides a virtual file repository that can store packages commonly used by the virtualization server groups 160 through the package manager 170.

Hereinafter, an application example of a container-based operation automation system supporting multi-tenancy in a cloud platform according to an embodiment of the present invention will be described in detail.

FIG. 2 is a block diagram illustrating an application of a container-based operation automation system that supports multi-tenancy in a cloud platform according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the cloud user console 210 provides information on the virtualization server and a user UI for controlling the virtualization server.

Here, the multi-user transmits a control request to the operation automation system 200 through the cloud user console 210 to the virtualization server. Here, the request form is based on the command detail definition defined in the operation automation system 200.

In addition, the operation automation system 200 receives requests from multiple users and confirms the requestor's authority to the virtualization server group 160 in the command unit, and applies the commands necessary for the control to the virtualization server group 160.

Here, the virtualization server group 160 is a server for arranging a business system used by a cloud user.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

100: management command unit 110: tenant manager
120: Container engine 130: Container manager
140: Container store 150: Server management container
160: Virtualization server group 170: Package Manager
180: Package storage 200: Operation automation system
210: Cloud User Console

Claims (4)

An administrative command unit for requesting the tenant manager for information about an object to be managed and accessing the server management container through the obtained information;
A container manager for managing a life cycle of the server management containers;
A container engine for creating server management containers through the container manager;
A container storage for storing binary data and image metadata information of a Linux container image of the server management container;
A virtualization server group for executing a command received from the server management container; And
And a package manager for providing a package repository to the virtualization server group. The system of claim 1, The method according to claim 1,
Wherein the tenant manager creates a server management container for each tenant or provides access information to the container manager through communication with the container manager. The method according to claim 1,
Wherein the server management container accesses the virtualization server group and executes the command received from the management command unit, and executes the command. The method according to claim 1,
Wherein the package repository provides a virtual file repository that can store packages commonly used by virtualization server groups through a package manager.

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