KR101713034B1 - Server duplication system using invisible virtualization volume - Google Patents

Abstract

The present invention relates to a server duplication system, and more particularly, to a server duplication system using an invisible virtualization volume, which duplicates a server to replicate and store content, which is stored or updated in a database through at least one physical server, in a virtualization server pre-mapped to each physical server in real time. Therefore, when the virtualization server is driven as an alternative system due to the failure of the physical server, a recovery point of the database, which is restored by the virtualization server, is kept up-to-date, and data registered in the physical server are replicated in real time while maintaining the virtualization server in an invisible state in which the virtualization server is invisible from the outside. Accordingly, even though the physical server is exposed to various types of cyber attacks such as external hacking, data are stably stored in the virtualization server, which is not exposed to the outside, without damage.

Description

TECHNICAL FIELD [0001] The present invention relates to a server redundancy system using an invisible virtual volume,

The present invention relates to a server duplication system, and more particularly, to a server duplication system in which contents stored or updated in a database through at least one physical server are duplicated in real time in a virtualization server mapped to each physical server, The recovery point of the database restored by the virtualization server can be kept up to date when the virtualization server is driven as an alternative system due to the occurrence of a failure in the physical server, and at the same time, The data registered in the physical server can be replicated in real time while the physical server is exposed to various cyber attacks such as hacking outside, so that the data stored in the virtualization server which is not exposed to the outside is not damaged within One may be able to preservation, to a server duplication system using invisible virtual volume.

Recently, as the development of information and communication technology, the activities of individuals and companies are digitized and accumulated in database continuously. In addition, there are cases where data stored in the database is deleted or modified through viruses, hacking, and the like, resulting in loss. As a result, Is recognized as a more important issue.

In order to safely protect important data of individuals or corporations, it is necessary to copy the data stored in the original server or the original system and store the copied data in another server or the system, In case of a problem such as a failure, it is possible to perform the function of the original server or the original system. In addition, a server redundancy system that can be used to recover the data stored in the original server or the original system is constructed .

In other words, when a source server or a source system that is being driven is stopped for some reason or another, a neighboring server or a system is in a standby state and then is switched to an active state, The contents stored in a database or the like are copied and stored in a separate standby server mapped to each of the source servers through the source server so that the same contents are stored in the source server and the standby server To be stored.

However, in a conventional general server duplication system, data stored in a source server or the like must be copied to another server in a standby state. Therefore, in the case of a large-capacity database or data, There has been a problem that there is a limit to a specific point in the past since the copying has proceeded. As a result, when a failure occurs in the source server and the like, the database can not be restored to the latest database.

Since the data stored in the original server or the like is stored in another server in the standby state by copying, the original server and other servers in the standby state are continuously exposed to the online state. Therefore, There is a problem that the data may be deleted together with the original server and other servers in the standby state due to the deletion command.

In fact, systems configured with server redundancy at the time of 3.20 and 3.25 cyber terror were also attacked, and data was deleted from all the redundant servers. As a result, the redundancy configuration of the server did not achieve the intended purpose and became obsolete. Server duplication is a means for data protection.

Accordingly, when server redundancy is implemented through a network, latest data can be simultaneously stored in real time between a source server and a standby server, and in addition to being not easily damaged by attacks from the outside such as hacking, There is still a need for a new type of server duplication system that can prevent data from being easily deformed or deleted by undesired internal mistakes.

Korean Patent Publication No. 10-2015-0111608 Korea Patent No. 10-1250881 Korean Patent No. 10-1506250

In the present invention, a virtual server in which contents stored or updated in a database through at least one physical server is pre-mapped to each physical server is replicated in real time so that the virtual server can be stored together. Therefore, when the virtualization server is operated as an alternative system, the recovery point of the database restored by the virtualization server can be kept up to date. In addition, while the virtualization server remains in an invisible state that is not visible from the outside, Data can be copied in real time so that data stored in a virtualization server that is not exposed to the outside even if the physical server is exposed to various cyber attacks such as hacking outside can be stably preserved without being damaged. Using volumes To provide a redundant server system.

According to an aspect of the present invention, there is provided a server duplication system using an invisible virtual volume,

At least one physical server coupled to the client terminal and storing input data in a database or providing stored data to a client terminal; Allocates a virtual volume having a capacity corresponding to a database volume of the physical server, creates a virtualization server by mapping the physical server to the virtual volume, and transmits a CPU command for storing data to the physical server and a virtualization server A duplication control server that allows the contents stored in the physical server to be replicated in real time to the virtualization server and blocks the virtual volume allocated to the virtualization server from being accessed by the standard explorer on the network, And a virtual volume allocated by the replication control server, each of the physical servers is mapped to implement server redundancy, and the data stored in the mapped physical server is replicated in real time and is stored together to maintain the standby state. And a virtualization server activated by a control command of the redundancy control server when a failure occurs in the server and is replaced with a corresponding physical server.

At this time, the duplication control server,

A virtualization server mapping unit that allocates an ISCSI virtual volume, which is a space in which data stored in the physical server is copied and stored, and creates a virtualization server by mapping a physical server to the allocated ISCSI virtual volume; And a write command for inputting data to the physical server through a bus (BUS) to the physical server and a virtualization server mapped to the virtualization server simultaneously, so that data stored in the physical server is also replicated And a real time data copying unit for allowing the data to be stored together.

In addition, the duplication control server further includes an invisible implementation unit for intercepting access and search in the standard searcher using an index on the network, by replacing the index of the ISCSI virtual volume created by the virtualization server .

In addition, the redundancy control server analyzes the CPU command input to the physical server and transmits the write command to the virtualization server (WRITE, MOVE, COPY, or the like) for instructing input of data, (DELETE, FORMAT, etc.) for erasing the data, and to prevent the virtualization server from transmitting the deletion command to the virtualization server.

The duplication control server may further include:

An event monitoring unit monitoring at least one physical server and a virtualization server mapped to the at least one physical server and detecting whether a failure event has occurred; And a duplication control unit for stopping the operation of the corresponding physical server and activating a virtual server mapped thereto and performing an alternate drive if it is determined that a fault event has occurred in the physical server as a result of monitoring in the event monitoring unit .

In the present invention, a server is duplicated and constructed so that contents stored or updated in a database through one or more physical servers are replicated in real time to a virtual server in which the physical servers are mapped in advance, When the virtualization server is operated as an alternative system, the recovery point of the database restored by the virtualization server can be kept up to date.

In addition, the present invention enables data registered in a physical server to be replicated in real time while the virtualization server is kept in an invisible state invisible from outside, so that even if a physical server is exposed to various cyber attacks such as an external hacking, The data stored in the virtualization server can be stably stored.

FIG. 1 is an overall conceptual diagram illustrating a server virtualization server implemented by allocating an invisible virtual volume according to an embodiment of the present invention. FIG.
2 is a detailed block diagram of a server duplication system using an invisible virtual volume according to the present invention;
3 is a block diagram illustrating creation of a virtualization server by allocating an ISCSI virtual volume to each physical server according to the present invention;
4 is a flowchart showing a command process for executing a CPU command transmitted to a redundancy control server in a physical server and a virtualization server according to the present invention;

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is an overall conceptual view showing an implementation of server redundancy in a virtualization server created by allocating an invisible virtual volume according to the present invention. FIG. 2 is a detailed block diagram of a server redundancy system using a non- And FIG. 3 is a block diagram illustrating creation of a virtualization server by allocating an ISCSI virtual volume to each physical server according to the present invention.

1 to 3, a server duplication system using an invisible virtual volume according to an embodiment of the present invention is a system for connecting a client terminal and storing data in a database or providing stored data to a client terminal At least one physical server (100); Allocates a virtual volume having a capacity corresponding to a database volume of the physical server, creates a virtualization server by mapping the physical server to the virtual volume, and transmits a CPU command for storing data to the physical server and a virtualization server So that the contents stored in the physical server can be replicated to the virtualization server in real time and the search and access to the standard searcher on the network are blocked by replacing the index indicating the virtual volume allocated to the virtualization server, A duplication control server (200) for sharing information; The virtualization server is configured to be a virtual volume allocated by the replication control server, and each physical server is mapped to implement server redundancy. Data stored in the mapped physical server is replicated in real time and stored together, And a virtualization server 400 activated by a control command of the redundancy control server to replace the physical server when the failure occurs.

The physical server 100 is an actual server capable of receiving data input from at least one client terminal connected on a network such as the Internet and storing the received data in a database. The database provides a space for storing and searching data, Volume, and is composed of a DB server and a web server that can access the client terminal through the Internet.

The physical server 100 may be configured to allow a user to input or upload various personal contents (e.g., pictures, videos, etc.) using a smart terminal such as a smart phone or a tablet PC or a client terminal such as a personal computer An SNS server, or a cloud server.

Although the physical server 100 may be configured as a single server, the redundancy control server can map a virtualization server to each physical server to implement a server redundancy. As a result, not only a single physical server having a large capacity, Or may be constituted by a plurality of physical servers classified into various types for management convenience.

The redundancy control server 200 creates a virtualization server by mapping a virtual volume, which can be stored while the data stored in the physical server is replicated in real time, to each physical server, so that redundancy of a server made up of a physical server and a virtualization server As shown in FIG.

By realizing a real-time replication environment of a server capable of real-time data replication by the physical server 100 and the virtualization server 400 mapped thereto, even when a server recovery due to a physical server failure is required, The virtualization server can be restored by using the latest database by the reflected virtualization server.

To this end, the redundancy control server 200 allocates an ISCSI virtual volume, which is a space in which data stored in the physical server is replicated and stored for redundancy of the server, maps the physical server to the allocated ISCSI virtual volume, And a virtualization server mapped to the virtualization server through a bus (BUS), so that data stored in the physical server is transferred to the virtualization server A real-time data replication unit 220 for real-time copying and storing of the virtualization mapped to the virtualization server, and an ISCSI virtual volume created by the virtualization server, And an invisible visualization unit 230 for blocking access and searching and making the visualization unnecessary.

The virtualization server mapping unit 210 allocates an ISCSI virtual volume having a capacity corresponding to a database volume included in each physical server, maps the physical server 100 to the allocated ISCSI virtual volume, And to create a virtualization server 400 for redundancy. At this time, the physical server can be composed of at least one or more physical servers, and by creating a virtualization server by allocating an ISCSI virtual volume to each of the plurality of physical servers, it is possible to independently implement server redundancy of each physical server do.

As described above, the virtualization server mapping unit 210 allocates the ISCSI virtual volumes driven by the virtual machines to each of the plurality of physical servers to implement the virtualization server 400, thereby using the virtual volume having no actual physical form Thereby realizing a server redundancy environment capable of real-time replication with an actual physical server.

The real-time data replication unit 220 can also replicate data stored in the virtual server, which is input or stored through the physical server, to the virtual server. Hardware-based RAID BLOCK Data redundancy and virtual machine configuration enable virtualization servers to store up-to-date data so server redundancy can be implemented.

To this end, the real-time data replication unit 220 may be configured to copy a CPU command, which is a write command such as WRITE, MOVE, COPY, input through a client terminal or the like to the physical server 100, And the virtualization server 400, so that the contents stored in the physical server are simultaneously stored in the virtualization server, so that server redundancy can be achieved.

Conventionally, after storing DB transactions or data in the main server, the contents stored in the main server are damaged by copying the data to a backup server such as a standby server and replacing them. However, in this case, The data was copied at a specific point in time of the past, and the user would have to face the limit of restoration in which the real-time data stored before the occurrence of the failure occurred in the main server could not be reflected.

However, in the real-time data replication unit 220, contents stored in the physical server are simultaneously stored in the virtualization server. Therefore, when a failure occurs in the physical server and recovery is attempted to the contents stored in the virtualization server, Because the contents are stored in the virtualization server, they can be restored to the latest data without being restricted by the point of recovery. Also, the work that the user is expected to perform using the physical server can be continuously . ≪ / RTI >

In addition, the invisible implementation unit 230 replaces or changes the index of the ISCSI virtual volume created by the virtualization server so that it can not access the virtualization server mapped to the physical server using the standard searcher on the network .

In the case of a general server redundancy system, since the main server and the backup server are both browsed and checked on the network, the data stored in the main server due to a cyber terror attack such as hacking or an administrator mistake, The stored data was also corrupted, and the server redundancy configuration became obsolete.

Accordingly, in the duplication control server, the virtualization server 400 functioning as a backup server is blocked by the invisible implementation unit 230 from being searched on the network using a standard searcher as if it is located on the off-line, The virtualization server can be prevented from being directly exposed to cyber terror attacks such as hacking.

4, the redundancy control server 200 analyzes a CPU command input to the physical server and, in the case of a write command (WRITE, MOVE, COPY, or the like) for instructing input of data, (DELETE, FORMAT, etc.) for erasing the data, the command analysis unit 240 for blocking data from being transmitted to the virtualization server And the like.

Accordingly, even if the nonvisualization implementing unit 230 accesses the virtualization server that has become invisible from the outside, a delete command that causes data corruption by the command analyzing unit 240 is transmitted to the virtualization server It is possible to prevent the data stored in the virtualization server from being damaged even if a delete command is input due to a mistake of an administrator or the like as well as hacking.

By keeping the virtualization server invisible invisible on the system, the virtualization server can be prevented from being directly exposed to cyber terror attacks such as hacking that are encountered on the network, and the virtualization server can be prevented from being directly transmitted to the virtualization server. Server redundancy system can be implemented.

The redundancy control server 200 includes an event monitoring unit 250 for monitoring occurrence of a failure event while monitoring at least one physical server and a virtualization server mapped to the at least one physical server, And a redundancy control unit 300 for stopping the operation of the corresponding physical server and activating the virtualization server mapped thereto and controlling the alternate driving of the virtualization server if it is determined that a failure event has occurred in the physical server.

Accordingly, the server duplication system according to the present invention may include at least one or more virtualization servers, and each virtualization server stores data stored in the physical server in real time while being kept in an inactive state, When a failure event such as network, process, DB integrity, or the like is detected while monitoring the physical servers in the event monitoring unit 250, the redundancy control unit 300 recognizing the occurrence of the failure event drives the physical server that generated the failure event And activates and activates the virtualization server mapped to the virtualization server.

To this end, the redundancy control server 200 includes a redundancy control unit for monitoring at least one physical server and a virtualization server and controlling activation and activation of the virtualization server according to the monitoring result, and a hypervisor Hypervisor), and the underlying hardware.

At this time, the event monitoring unit 250 is connected to each physical server, monitors the current state and the generated events of the corresponding physical server, and transmits the monitoring result to the duplication control unit 300, Can be collected and managed.

The redundancy control unit 300 is configured to acquire the monitoring result received from the event monitoring unit to identify the physical server where the failure event has occurred, and to control whether the virtual server mapped to the physical server is activated or not.

The virtualization server 400 includes an ISCSI virtual volume to which each physical server is mapped. The virtualization server 400 maintains a standby state while replicating and storing the contents stored in the physical server in an inactive state in a normal state, And is configured to perform functions of the server by being driven by replacing the physical server.

Thus, between the database volume used by the physical server itself and the ISCSI virtual volume allocated to the virtualization server, the server serves as a redundant server, such as a main server and a backup server.

Accordingly, if a CPU command protocol pattern analysis of the physical server is performed in advance and an actual CPU command is transmitted to a bus (BUS), a protocol in a BIOS chip provided in a control device of an ISCSI virtual volume, which is a virtualization server, Allowing CPU commands to be simultaneously run on the virtualization server. At this time, when the CPU command is executed in the physical server, simultaneous data transfer is performed between the active volume being used by the physical server and the ISCSI volume mapped to the physical volume in a block manner, thereby real-time replication is performed.

In addition, the redundancy control unit 300 collects network information of each physical server, process state information, database duplication integrity, authentication information, and the like, which are acquired through the event monitoring unit, and monitors whether a failure event has occurred. In this way, the redundancy control unit can monitor the physical server at all times and manage the situation prediction and information analysis of each physical server.

Also, as shown in FIG. 3, the ISCSI virtual volume allocated by the duplication control server and provided by mapping each physical server is provided in an invisible form, unlike the database volume provided in each physical server. This invisible form of ISCSI virtual volume replaces indexes used in volume, volume file and directory lookups in the standard explorer, making it impossible to search and access the standard explorer. By providing the virtualization server of the ISCSI virtual volume in an invisible form, the integrity of the database and the safety of the data can be improved in preparation for the accident or hacking.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

100: physical server
200: duplication control server 210: virtualization server mapping unit
220: real-time data replication unit 230: non-visualization implementation unit
240: command analysis unit 250: event monitoring unit
300:
400: Virtualization server

Claims (5)

At least one physical server coupled to the client terminal and storing input data in a database or providing stored data to a client terminal;
Allocates a virtual volume having a capacity corresponding to a database volume of the physical server, creates a virtualization server by mapping the physical server to the virtual volume, and transmits a CPU command for storing data to the physical server and a virtualization server A duplication control server that allows the contents stored in the physical server to be replicated in real time to the virtualization server and blocks the virtual volume allocated to the virtualization server from being accessed by the standard explorer on the network, And
The virtualization server is configured to be a virtual volume allocated by the replication control server, and each physical server is mapped to implement server redundancy. Data stored in the mapped physical server is replicated in real time and stored together, And a virtualization server activated by a control command of the redundancy control server to replace the physical server when a failure occurs in the virtualization server. The method according to claim 1,
The duplication control server,
A virtualization server mapping unit that allocates an ISCSI virtual volume, which is a space in which data stored in the physical server is copied and stored, and creates a virtualization server by mapping a physical server to the allocated ISCSI virtual volume; And
A write command for inputting data to the physical server is simultaneously transmitted to the physical server and a virtualization server mapped to the physical server via a bus so that data stored in the physical server is also replicated in real time to a virtualization server mapped to the physical server And a real-time data replication unit that allows the virtual volume to be stored together with the nonvirtual virtual volume. 3. The method of claim 2,
The duplication control server,
And an invisible virtual volume for blocking access and search in a standard searcher using an index on the network by replacing the index of the ISCSI virtual volume created by the virtualization server with the index of the ISCSI virtual volume, Server redundancy system. The method of claim 3,
The duplication control server analyzes the CPU command input to the physical server and sends the data to a virtualization server when the write command (WRITE, MOVE, COPY, or the like) instructs input of data, (DELETE, FORMAT, etc.) for erasing the data, and to prevent the virtualization server from transmitting the deletion command to the virtualization server. system. 5. The method of claim 4,
The duplication control server,
An event monitoring unit monitoring at least one physical server and a virtualization server mapped to the at least one physical server and detecting whether a failure event has occurred; And
And a duplication control unit for stopping the operation of the physical server and activating the virtual server mapped thereto and controlling the virtual server to be alternatively driven if it is determined that a failure event has occurred in the physical server as a result of the monitoring by the event monitoring unit A server duplication system using an invisible virtual volume.

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