JP2002007185A - Backup device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To receive communication contents between file server and a client, and to prepare the copy of data in the file server on the other device based on the contents. SOLUTION: Data are recorded from client computers 1 and 2 through a computer network 3 in a server storage device 7 of a server computer 5. A backup computer 6 is connected through a hub device 4 to a server computer 5 and a computer network 3. At the time of updating data, update information is transmitted from the client computers 1 and 2 through the network 3 to the server computer 5. The backup computer 6 receives the update information transmitted through a hub device 4 in front of the server computer 5, and reflects the instructed data update on a backup storage device 8 connected to the backup computer 6 itself in the same way as the server computer 5.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a backup apparatus, and more particularly to a network file system backup apparatus for storing and managing data in a distributed processing computer system.

[0002]

2. Description of the Related Art In a computer system, for example, in preparation for a failure of a magnetic disk device, it is necessary to store a copy of data stored in the magnetic disk device on another recording device. Conventionally, in order to record such a copy, another magnetic disk device is connected to a computer to which the magnetic disk device is connected, and when data is written to one device, the other is also written to the other device. At the same time, writing has been performed and data duplication has been maintained.

[0003]

However, conventionally, dedicated software has been incorporated into the operating system or special hardware has been prepared, and RAID technology has been used to write data on a magnetic disk for storing copies. It needed to be done.

[0004] In view of the above, the present invention makes it possible for a server computer and a client computer to use an existing system that does not support a backup computer when adding a backup device.
It is an object of the present invention to provide a backup device that does not require additional special software or hardware. Further, the present invention provides a method of intercepting communication contents between a file server and a client, and making a copy of data in the file server on another device based on the contents, thereby saving and managing the data. Aim.

[0005]

In particular, the present invention intercepts a signal transmitted via a network by another computer (backup computer) and does not make any modifications to an existing computer system. In addition, it is possible to automatically create a copy of data recorded on a magnetic disk device connected to a server computer in a magnetic disk device connected to a backup computer.

According to the solution of the present invention, a network, a hub device connected to the network and branching a signal, a server computer connected to the hub device, and a server storage device connected to the server computer A backup computer connected to the hub device, and a backup storage device connected to the backup computer, wherein the server computer transmits a file control request transmitted from the client computer to the network via the hub device. The backup computer updates the server storage device according to the file control request addressed to the server computer, and the backup computer transmits the file control request transmitted from the client computer to the network via the hub device. And Shin, according to the file control request addressed to the server computer, providing backup apparatus that updates the backup storage device.

[0007]

FIG. 1 shows a configuration diagram of a network file system according to the present invention. This system is
The system includes client computers 1 and 2, a computer network 3, a hub device 4, a server computer 5, a backup computer 6, a server storage device 7 such as a magnetic disk device, and a backup storage device 8.

As shown in FIG. 1, it is assumed that a client computer 1 and a server computer 5 are connected to a computer network 3. Due to the decentralization of the computer system using the network, data to be recorded in the server storage device 7 is transmitted from the client computer at hand of the user to another computer (the server computer 5) via the network and received. It is recorded on a server storage device connected to the computer. The backup computer 6 is connected to the computer network 3 via a hub device 4 connecting the server computer 5 and the computer network 3.

When updating data, update information is sent from the client computer 1 to the server computer 5 via the network. Backup computer 6
Intercepts update information transmitted via the hub device 4 in front of the server computer 5 and records the specified data update in the backup storage device 8 connected to the backup computer 1 in the same manner as the server computer 5 To reflect.

FIG. 2 is an explanatory diagram of the basic algorithm. In normal file processing, when a control request such as a file read request and a file write request is made from the client computers 1 and 2 (201), the packet is transmitted from the client computers 1 and 2 to the server computer 5
Sent over the network. Usually, this packet is a packet of a format such as TCP / IP or UDP / IP (203), but when actually transmitted, a lower-level packet such as Ethernet (registered trademark) is used.
The packet is decomposed into packets and transmitted (205). Note that this
Packets such as TCP / IP or UDP / IP may pass through a router or the like. The server computer 5 converts the Ethernet packet into the original packet, for example, TCP / IP or
Restore to UDP / IP packets.

In an Ethernet (such as IEEE802.3) widely used as the computer network 3, an Ethernet packet sent to the network is received by all server computers 5 connected to the same Ethernet (207). It should be noted that there are other broadcast networks such as Ethernet, such as wireless LAN, and the present invention can be applied to broadcast, multi-guest, etc., or appropriate networks such as loop, bus, and star configurations. . The received server computer 5 examines the received packet, discards the packet if it is addressed to another person, and processes only the packet addressed to itself (209).
For example, the file system is restored to a TCP / IP or UDP / IP packet, and the file system is updated (213) according to a write prohibition request or the like (211).

In the present invention, a backup is made to the same computer network 3 via the hub device 4 so that the backup computer 6 can receive the Ethernet packet transmitted to the computer network 3 to which the server computer 5 is connected, for example, Ethernet. The computer 6 is connected (215). The backup computer 6 selects, among the Ethernet packets, those destined for itself as well as those destined for the server computer 5, processes them without discarding them, and restores them into packets such as TCP / IP or UDP / IP packets. (217). That is,
The backup computer 6 selects only packets addressed to the server computer 5 from the restored packets such as TCP / IP or UDP / IP packets addressed to the server computer 5 by discriminating the destination port number, and discards the others. By reading the contents of the packet thus obtained, the backup computer 6 can obtain a file write request or the like from the client (21).
9). Ignore file read requests that are unrelated to backup.

The backup computer 6 updates its own file system in accordance with the file write request (221). The file system is usually constructed on a backup storage device 8 such as a magnetic disk device, but is not limited to this, and an appropriate internal or external storage device can be used. Here, for example, there are two types of update methods: full replication and differential replication.

In the complete duplication, the file system (backup storage device 8) is updated so that it completely matches that of the server computer 5. In this updating method, when the server computer 5 breaks down, the backup computer 6 can be immediately substituted for the server computer 5. On the other hand, the backup computer 6 also requires a large-capacity backup storage device 8.

In differential replication, only the history of file write requests is stored in the file system (backup storage device 8) of the backup computer 6. This updating method is used in combination with a complete backup of data by another storage device, for example, a magnetic tape device. Therefore, the backup computer 6 is used to restore the file system of the server computer 5 although the server computer 5 cannot be replaced when the server computer 5 fails.

Next, FIG. 3 is an explanatory diagram of an algorithm at the time of overload. Upon receiving the write request (301), the backup computer 6 executes the following processing according to low load or overload. The low load / overload is determined, for example, by using a function provided by the operating system, or by determining whether the number of write requests processed per fixed time exceeds a certain number. When the load is low, the backup file and the system are updated (303).

On the other hand, for example, when a large number of file write requests occur, the backup computer 6 may be overloaded, and the received request may not be immediately reflected in its own file system. When such an overload occurs, the backup computer 6 stores information (for example, the name of the file for which the write request is made) of which file has been updated in its own file system (backup storage device 8) or an appropriate internal memory. (305). The backup computer 6 waits until the time elapses and the load becomes low. The load is monitored at regular intervals, and when it is determined that the load has decreased, a request to read the target file (for example, a request to read the contents of the file in which the name is recorded) is sent to the server computer 5.
Is transmitted as a client (307). The backup computer 6 receives the latest contents of the updated target file from the server computer 5 (309). Thereafter, the backup storage device 8 is updated and reflected in its own file system (311).

In the present invention, instead of using a special protocol for communication between the server computer 5 and the backup computer 6, the backup computer 6 becomes a normal client and issues a request to the server computer 5. This eliminates the need to make special modifications to the server computer 5.

[0019]

According to the present invention, as described above, when a backup device is added, a server computer and a client computer can use an existing system that does not correspond to a backup computer, and special software can be used. And a backup device that does not require additional hardware. According to the present invention, it is also possible to store and manage data by intercepting communication contents between a file server and a client and creating a copy of data in the file server on another device based on the contents. Can be.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a network file system.

FIG. 2 is an explanatory diagram of a basic algorithm.

FIG. 3 is an explanatory diagram of an algorithm at the time of overload.

[Explanation of symbols]

 1, 2 Client computer 3 Computer network 4 Hub device 5 Server computer 6 Backup computer 7 Server storage device 8 Backup storage device

Claims (5)

[Claims] 1. A network, a hub device connected to the network for branching a signal, a server computer connected to the hub device, a server storage device connected to the server computer, and a connection to the hub device And a backup storage device connected to the backup computer, wherein the server computer receives, via the hub device, a file control request transmitted from the client computer to the network, and the server The backup computer updates the server storage device in accordance with a file control request addressed to a computer, receives the file control request transmitted from the client computer to the network via the hub device, and A backup device that updates the backup storage device according to a file control request addressed to a computer. 2. The backup device according to claim 1, wherein the backup computer determines the amount of load, and updates the backup storage device when the load is low. 3. The backup computer determines the amount of load, and when overloaded, records identification information of a target file for a file control request in the backup storage device or the internal memory, and determines that the load has been reduced. Then, based on the recorded identification information, a read request for the target file is transmitted to the server computer, the latest content of the updated target file is received from the server computer, and the backup storage device is updated. The backup device according to claim 1, wherein the backup is performed. 4. The file in the backup storage device,
4. The backup device according to claim 1, wherein the update is performed so as to completely match the file in the server storage device. 5. The file in the backup storage device,
4. The backup device according to claim 1, wherein only the history information of the file control request is stored.