KR102153563B1 - Apparatus for managing distributed cloud centers in integrated manner - Google Patents

Abstract

The present invention relates to an apparatus for integrated management of distributed cloud centers.
The distributed cloud integrated management device according to the present invention is a device for integrated management of a plurality of micro data centers (DCs), and when a request for creating a distributed service is received from a user or a higher system, provisioning for the requested distributed service is performed. A distributed service control block to perform; An application automatic installation block for controlling automatic installation of an application required for the distributed service according to the request of the distributed service control block; And a distributed micro DC integrated control block for selecting a micro DC required for the infrastructure of the distributed service according to the request of the distributed service control block and generating control information to be transmitted to the selected DC.

Description

Apparatus for managing distributed cloud centers in integrated manner}

The present invention relates to distributed cloud center management, and to an apparatus for integrated management of resources of locally distributed cloud centers.

The cloud center is operated through a management system called a cloud management platform (or Cloud OS) existing in the cloud data center. Cloud data centers are not located in one location, but are gradually distributed in multiple locations due to various causes such as power issues, regional issues, network issues, and quality of service. In particular, in recent years, there is a discussion on a micro data center in which small cloud centers are distributed and deployed in many places.

Existing cloud management platforms are described as being able to support regionally distributed centers because resources can be divided into multiple zones, but in practice the management platform and each resource element (server, storage, switch) If) is far away, various problems can be caused in control and management. In particular, for stability and immediacy in management and control work, it is common to connect a management platform and resources using a management-only switch and interface even in a short distance (when configured together in a data center in a region).

Therefore, in the case of direct control of individual resources (server, storage, network) of a micro DC located in a remote location through the Internet, it is difficult to cope with failure due to the scalability of resources, delay of management and control signals, and stability/reliability of the management network. It has to bring many problems. In particular, when trying to allocate resources in consideration of proximity, there may be a problem of maintaining information on regions in individual resource units, and a problem in which it is difficult to provide proximity for each service based on this.

For a method of managing locally distributed cloud centers in order to solve the above-mentioned problem, refer to the contents described in the previously filed "Cloud center management method and its system" (application number: 2013-0086295). The above-described invention proposes a concept and a schematic procedure of dividing and managing a cloud management system into a global management system (integrated management system) and a local management system in order to effectively manage a distributed cloud center. In order to systemize this in more detail, a method for functions and structures of the global management system and detailed procedures is required. In particular, a device capable of integrated management of physical resources, virtual resources, and even application software in a distributed environment is required.

Accordingly, embodiments of the present invention provide a distributed cloud center integrated management apparatus for integrated management of a plurality of cloud centers.

Embodiments of the present invention provide a distributed cloud center integrated management apparatus that integrates and manages physical resources, virtual resources, and application software resources belonging to a plurality of cloud centers, maps them to services, and operates them in an integrated manner.

According to an aspect of the present invention, a distributed cloud integrated management device for integrated management of a plurality of micro data centers (DCs) is provided. The apparatus may include a distributed service control block for performing provisioning for the requested distributed service when a request for creating a distributed service is received from a user or an upper system; An application automatic installation block for controlling automatic installation of an application required for the distributed service according to the request of the distributed service control block; And a distributed micro DC integrated control block for selecting a micro DC required for the infrastructure of the distributed service according to the request of the distributed service control block and generating control information to be transmitted to the selected DC.

In one embodiment, the device may further include an access control management block for verifying the access right of the user requesting the creation of the distributed service or the upper system and the access right of the micro DC.

In one embodiment, the device further includes a micro DC interface for exchanging information with the micro DC, and the distributed micro DC integrated control block may transmit the control information to the selected DC through the micro DC interface. have.

In one embodiment, the micro DC interface converts the generated control information into an API suitable for the selected micro DC, and converts the API result received from the micro DC into an information format used in the device.

In one embodiment, the device may further include a network interface interworking with an external network management system to control a micro-DC network.

The distributed micro DC integrated control block may request the network management system to create a DC-to-DC network through the network interface.

In one embodiment, the device may further include an integrated infrastructure management block for managing information on each of the plurality of micro DCs and physical resources of the micro DCs.

In an embodiment, the device may further include an integrated monitoring block for monitoring the distributed service and resources of the micro DC used for the distributed service according to the request of the distributed service control block.

In an embodiment, the integrated monitoring block collects and manages state information of virtual resources and physical resources for each of the plurality of micro DCs, and network resource state information connecting the micro DCs.

In an embodiment, the integrated monitoring block may receive a performance related alarm message from the micro DC and transmit it to the distributed service control block.

Alternatively, the integrated monitoring block may analyze the state information collected from the micro DC, generate a performance-related alarm message based on the analysis result, and transmit it to the distributed service control block.

When the performance-related alarm message is received from the integrated monitoring block, the distributed service control block performs at least one of an application installation change request to the automatic application installation block and a distributed service infrastructure modification request to the distributed micro DC integrated control block. can do.

According to an embodiment of the present invention, physical resources, virtual resources, and application software resources can be efficiently integrated and managed and operated in a distributed cloud environment.

1 shows a management structure of a distributed cloud center.
2 is a block diagram showing a detailed configuration of a distributed cloud integrated management apparatus according to an embodiment of the present invention.
3 shows a distributed service provisioning procedure performed by the distributed cloud integrated management apparatus according to an embodiment of the present invention.
4 shows a distributed service monitoring procedure performed by the distributed cloud integrated management apparatus according to an embodiment of the present invention.
5 shows a physical resource monitoring procedure performed by the distributed cloud integrated management apparatus according to an embodiment of the present invention.
6 and 7 illustrate an orchestration procedure performed by the distributed cloud integrated management apparatus according to an embodiment of the present invention.
8 is a block diagram showing a detailed structure of a micro DC interface according to an embodiment of the present invention.

In the present invention, various modifications may be made and various embodiments may be provided. Specific embodiments are illustrated in the drawings and will be described in detail through detailed description. However, this is not intended to limit the present invention to a specific embodiment, it is to be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

In describing the present invention, when it is determined that a detailed description of a related known technology may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

In addition, the singular expressions used in the specification and claims are to be construed as meaning “one or more” in general, unless otherwise stated.

1 shows a management structure of a distributed cloud center.

As shown in FIG. 1, in order to effectively manage a distributed cloud center (or micro data center), a cloud management system is divided into a global management system 110 and a local management system 120 and operated. In particular, the global management system 110 does not directly manage or control individual resources belonging to each distributed data center, and requests for abstracted or abbreviated information or management and control from the global management system to be processed. do. Such a management structure is disclosed in "Cloud center management method and system" (application number: 2013-0086295) previously filed with the present applicant.

The present invention is to propose a detailed structure and procedure of the global management system disclosed in the above application.

2 is a block diagram showing a detailed configuration of a distributed cloud integrated management apparatus according to an embodiment of the present invention.

The distributed cloud integrated management apparatus 200 according to an embodiment of the present invention corresponds to the global management system of FIG. 1. As shown, the distributed cloud integrated management device (hereinafter,'integrated management device', 200) includes a user interface 201, an access control management block 202, an integrated infrastructure management block 203, a distributed service management block ( 204), distributed service control block 205, distributed micro DC integrated control block 206, integrated monitoring block 207, micro DC interface 208, network interface 209, and some of the application automatic installation block 210 Or all. Here, the'block' refers to software, hardware, or a combination thereof that performs a specific unit function.

The user interface 201 can receive a request for creating a distributed service, a request for monitoring a service, etc. by providing API processing or an integrated management GUI function to a user (operator) and/or a higher system, and can respond to the request result to the user. have.

The access control management block 202 manages access rights of a user or an upper system requesting a service from the integrated management device 200 and access rights of micro DCs.

The integrated infrastructure management block 203 manages information on the micro DC and physical resources of the micro DC.

The distributed service management block 204 manages the configuration of a distributed service infrastructure.

The distributed service control block 205 manages the life cycle of the distributed service infrastructure. The distributed service control block 205 may perform provisioning for a distributed service requested from a user/upper system.

The distributed Micro DC integrated control block 206 performs resource allocation and orchestration of the micro DC. The distributed micro DC integrated control block 206 selects at least one or more micro DCs required to generate the distributed service infrastructure according to the request of the distributed service control block 205 and generates control information to be transmitted to the selected DC.

The integrated monitoring block 207 monitors the state of physical resources, virtual resources, and application software of micro DCs, and collects and manages the monitored information according to the request of the distributed service control block 205.

The micro DC interface 208 is responsible for an interface for exchanging information with micro DCs. In addition, the micro DC interface 208 controls interworking between micro DCs.

The network interface 209 interworkes with an external network management system to control a (virtual) network between micro DCs according to the request of the distributed service control block 205.

The automatic application installation block 210 automatically installs application software required for a specific virtual machine (or virtual server) according to the request of the distributed service control block 205 and performs settings related thereto. To this end, an application agent can be pre-installed on the virtual server, through which application installation, setting, and operation status monitoring are possible.

As described above, the integrated management device 200 includes physical resources, virtual resources of a plurality of micro DCs through the integrated infrastructure management block 203, the distributed micro DC integrated control block 206, and the automatic application installation block 210, respectively. Application software can be simultaneously controlled and managed, and physical resources, virtual resources, and application software status can be monitored through the integrated monitoring block 207, and monitoring results can be collected and managed.

In addition, the integrated management device 200 may automatically configure or control a distributed service infrastructure by interlocking with a separate network operator or a network management system between micro DCs through the network interface 209.

3 illustrates a distributed service provisioning procedure performed by an integrated management device according to an embodiment of the present invention.

When a user or a higher-level system (eg, CSB: Cloud Service Broker) requests service creation through the user interface block 201 (S301), the distributed service control block 205 is defined in the automatic application installation block 210. Depending on the shape, the automatic application installation preparation is requested (S304). The automatic application installation block 210 installs an application required for a virtual server or a virtual server group (S313). The application agent is installed in the virtual server, and the application installation status can be inquired through the application agent (S313).

In addition, the distributed service control block 205 requests the integrated monitoring block 207 to monitor services and resources for orchestration (eg, performance-based warning) (S305).

Next, the distributed service control block 205 requests the distributed micro DC integrated control block 206 to create a distributed service infrastructure. The order of the application installation request (S304), the integrated monitoring request (S305), and the distributed service infrastructure creation request (S306) may be changed according to implementation.

The distributed micro DC integrated control block 206 selects a micro DC for the requested shape, generates control information (for example, a template or a control script) necessary for the selected micro DC, through the micro DC interface 208 A distributed service creation request is made to the micro DC (S307, S308). Accordingly, a virtual server required for a distributed service requested to the micro DC may be created. When a DC-to-DC network connection is required, the distributed micro-DC integrated control block 206 may also request the network management system to create a DC-to-DC network through the network interface 209 (S309 and S310).

The distributed micro DC integrated control block 206 inquires the distributed service creation progress state through the micro DC interface 208 (S312), and the information is retrieved from the user (or upper system) through the API processing/integrated management GUI block 201. ) Can be notified periodically/aperiodically (S314, S315, S316).

To provision and manage services in distributed micro DCs, monitoring of services and resources is required. Detailed procedures for this will be described with reference to FIG. 4.

4 shows a distributed service monitoring procedure performed by the distributed cloud integrated management apparatus according to an embodiment of the present invention.

The integrated monitoring block 207 may monitor the state of an application running in the virtual server through a monitoring function of each micro DC or an application agent installed in the virtual server, and periodically collect and manage the state information (S401).

The integrated monitoring block 207 also collectively collects and manages state information of the network when there is a micro-DC network (S402, S403).

In addition, the integrated monitoring block 207 may monitor the state of the virtual resource through the micro DC interface 208 and periodically collect and manage the state information (S406).

When a user requests a distributed service monitoring through the user interface 201 (S407), the access control management block 202 verifies the authority for the user (S408), and the distributed service monitoring request is sent to the distributed service control block. It is transmitted to (205) (S409). In response to this, the distributed service control block 205 provides application, virtual resource, and network state information collected and managed by the integrated monitoring block 207 to the user (S410 to S413).

In order for an operator other than a service user to manage physical resources, monitoring of physical resources is required, and detailed procedures for this will be described with reference to FIG. 5.

5 shows a physical resource monitoring procedure performed by the distributed cloud integrated management apparatus according to an embodiment of the present invention.

As shown, the integrated monitoring block 207 periodically collects physical resource information of the micro DC or receives a report and stores it (S501 to S503).

When the administrator requests physical resource monitoring through the user interface 201 (S504), the access control management block 202 verifies the authority for the user (S505), and the physical resource monitoring request is sent to the integrated monitoring block 207 It is transmitted to (S506). In response, the integrated monitoring block 207 provides monitoring information of a physical resource. If necessary, the administrator may receive an alarm from the integrated monitoring block 207 by setting an alarm to occur in the integrated monitoring block 207.

6 and 7 illustrate an orchestration procedure performed by a distributed cloud integrated management apparatus according to an embodiment of the present invention.

The above-described automatic application installation block 210 and the application agent installed in the virtual server provide the function of installing application software on the corresponding virtual server and performing necessary settings regardless of the location of the micro DC or physical server where the virtual server will be installed. . Using this, it is possible to provide an auto-scaling function that considers even the setting of application software. That is, unlike simply expanding a virtual resource by an alarm, it can be extended to include a necessary application function, and if necessary, the virtual resource can be automatically extended to another DC.

The autoscaling procedure can be considered by dividing into two as follows.

The first is to determine the expansion or contraction of the virtual server accordingly when a performance related alarm is received from the micro DC, and the procedure for this is as shown in FIG. 6.

Referring to FIG. 6, when the integrated monitoring block 207 receives a performance-related alarm message from the data center through the micro DC interface 208 (S601, S602), it transmits it to the distributed service control block 205 (S603). ).

In response to this, the distributed service control block 205 may request the automatic application installation block 210 to change the application setting (S604), and request the distributed micro DC integrated control block 206 to modify the distributed service infrastructure (S605). ).

The distributed micro-DC integrated control block 206, which has been requested to modify the distributed service infrastructure, can request to modify the micro-DC network from the (external) network management system through the network interface 209 if necessary (S606, S607), and It is possible to request modification of the virtual infrastructure of the micro DC through the DC interface 208.

The automatic application installation block 210 may change or query application installation information through an application agent installed in the virtual server (S610). In addition, the distributed service control block 205 may query the result of modifying the virtual infrastructure from the data center through the distributed micro DC integrated control block 206 (S611, S612, S613).

The second is a case of performing auto-scaling when the integrated monitoring block 207 complexly analyzes various status information collected from the data center and generates an alarm based thereon. A detailed procedure for this is shown in FIG. 7.

Referring to FIG. 7, the integrated monitoring block 207 transmits an alarm message generated by itself to the distributed service control block 205 (S701). Subsequent procedures (S702 to S711) including the procedure performed by the distributed service control block 205 receiving the alarm are substantially similar to the steps S604 to S613 of FIG. 6, and thus detailed descriptions thereof will be omitted. In the case of using the procedure shown in FIG. 7, autoscaling processing is possible based on various performance (state) information generated in the service layer, not simply virtual resources, and more detailed orchestration is possible.

8 is a block diagram showing a detailed structure of a micro DC interface according to an embodiment of the present invention.

Distributed micro DCs may use different cloud OSes, and related control APIs may be different. However, for this purpose, it is not efficient to implement the functions of the integrated management device differently for each micro DC. In order to reduce the dependence of the integrated management device for each cloud OS, the micro DC interface block 208 processes API relevance and interlocks control signals with other blocks through a common message.

To this end, the micro DC interface block 208 is. Micro DC access control processing module (208-1) that handles micro DC access control, the control information of the micro DC generated by the distributed micro DC integrated control block 206 is converted into an API suitable for the micro DC, or vice versa. Micro DC control processing module (208-2) that converts the API result received from DC into information format used in the integrated management device, Rest API client (208-3) that processes Rest API, and alarms or notifications as internal messages. It may include a notification module 208-4 that converts and delivers it to the appropriate block, and a Rest server 208-5 that receives an alarm or notification signal from the micro DC.

In particular, access control and operation processing functions for the use of multiple micro DCs, as well as functions that support various types of command APIs (e.g., local orchestration API, network control API, computing control API, image management API, etc.) are the micro DC interface. It can be said that it is a characteristic of the block.

The apparatus and method according to the embodiment of the present invention may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like alone or in combination.

Program instructions recorded on a computer-readable medium may be specially designed and configured for the present invention, or may be known to and usable by those skilled in the computer software field. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. -Includes magneto-optical media and hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Further, the above-described medium may be a transmission medium such as an optical or metal wire, a waveguide including a carrier wave for transmitting a signal specifying a program command, a data structure, or the like. Examples of program instructions include not only machine language codes such as those produced by a compiler but also high-level language codes that can be executed by a computer using an interpreter or the like.

The above-described hardware device may be configured to operate as one or more software modules to perform the operation of the present invention, and vice versa.

So far, the present invention has been looked at around the examples. Those of ordinary skill in the art to which the present invention pertains will be able to understand that the present invention may be implemented in a modified form without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered from an illustrative point of view rather than a limiting point of view. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope equivalent thereto should be construed as being included in the present invention.

Claims (12)

As a distributed cloud integrated management device that integrates and manages a plurality of micro data centers (DCs),
A distributed service control block for performing provisioning for the requested distributed service when a request for creating a distributed service is received from a user or an upper system;
An application automatic installation block for controlling automatic installation of an application required for the distributed service according to the request of the distributed service control block; And
In accordance with the request of the distributed service control block, including a distributed micro DC integrated control block for selecting a micro DC required for the infrastructure of the distributed service and generating control information to be transmitted to the selected micro DC,
The application automatic installation block installs an application agent on the virtual server,
The application agent is a distributed cloud integrated management device for extending virtual resources by installing application software on a specific virtual server and setting application functions necessary for the virtual server. The apparatus of claim 1, wherein the device further comprises an access control management block for verifying an access right of a user or an upper system requesting the creation of the distributed service and an access right of the micro DC. The method of claim 1, wherein the device further comprises a micro DC interface for exchanging information with the micro DC,
The distributed micro DC integrated control block delivers the control information to the selected micro DC through the micro DC interface. The apparatus of claim 3, wherein the micro DC interface converts the control information into an API suitable for the micro DC, and converts an API result received from the micro DC into an information format used in the device. The method of claim 1, wherein the device further comprises a network interface interworking with an external network management system to control a network between the plurality of micro DCs,
The distributed micro-DC integrated control block requests the external network management system to create a network between the plurality of micro DCs through the network interface. The apparatus of claim 1, wherein the apparatus further comprises an integrated infrastructure management block for managing information and physical resources on the micro DC. The method of claim 1, wherein the device further comprises an integrated monitoring block for monitoring the distributed service and resources of the micro DC used for the distributed service according to the request of the distributed service control block,
The integrated monitoring block is a distributed cloud integrated management device for collecting and integrated management of state information of virtual and physical resources for the micro DC and network resource state information connecting the plurality of micro DCs. The apparatus of claim 7, wherein the integrated monitoring block receives a performance-related alarm message from the micro DC and delivers it to the distributed service control block. The distributed cloud integrated management of claim 7, wherein the integrated monitoring block analyzes state information collected from at least one micro DC, generates a performance-related alarm message based on the analysis result, and delivers it to the distributed service control block. Device. The method of claim 8 or 9, wherein, when the performance-related alarm message is received from the integrated monitoring block, the distributed service control block requests an application installation change to the automatic application installation block and the distributed micro DC integrated control block. Distributed cloud integrated management device that performs at least one of requests to modify distributed service infrastructure. delete delete

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