JP2003532219A - Automatic backup and restoration system for data from multiple host devices in heterogeneous operating environments - Google Patents

Abstract

(57) Abstract: The present invention is connected to each element of information processing equipment via at least one information processing network, and connected to a physical backup device including a disk management device and a tape management device on the other hand. A plurality of host devices in a heterogeneous operating environment, comprising a backup server including at least one buffered hard disk, controlled by a monitoring program that ensures the communication of information between the various elements of the system and the processing of the exchanged numerical data The present invention relates to an automatic backup and restoration system for data resulting from a backup device that simulates a backup facility compatible with the operating environment of any information processing facility to be backed up by the backup server. Record some images Because of, and characterized in that it comprises an emulation program for exchanging the backup server by converting the data exchanged with elements of various host device to the data of a single format.

Description

Detailed Description of the Invention

The present invention relates to the area of information backup, and more particularly to an automatic data backup and restoration system provided by a plurality of host devices in different operating environments.

Various solutions are known in the state of the art that enable automatic backup and restoration of data at very high bit rates on large capacity physical recording media. Prior art solutions have been associated with similar operating environments, such as UNIX, the platform utilized in managing databases and associated applications, for example. Backup is used in addition to protection by RAID (registered trademark) type redundancy. To recover damaged data, current technology typically performs regular backups to physical recording media such as magnetic cartridges or disks during off-peak loads. At this time, since the maximum bit rates of various storage media are different, it is essential to have a server instructed by the management software to optimize the backup process.

The backup architecture can be divided into various architectures. The simplest one is the local architecture, which is directly on one or more disks or local recording media of each data processing device,
And for independent backup. This solution is, of course,
Not the most successful. This is because it is impossible to optimize the use of the capacity of the backup storage medium because the entire backup device of each facility is occupied.

A client server is also known as a backup architecture.

In this type of architecture, backup of the entire device is done over the network and through the server. This architecture uses a homogeneous operating environment, notably UNIX.

Similarly, in the state of the art, patent W099 / 66401 is known which describes a data server for data backup and restoration in heterogeneous operating environments.

An object of the present invention is to propose a system for backing up disk data on a magnetic recording medium, which enables centralized backup and mutualization of data in order to optimize the capacity of the magnetic recording medium. is there.

As a result, the present invention relates to a system for automatic backup and restoration of data from multiple host devices in different operating environments, the system comprising a backup server including at least one buffer hard disk, the backup server On the one hand is connected to each information processing device via at least one information processing network, and on the other hand it is connected to a physical backup device consisting of a disk management device and a tape management device. A system controlled by a monitoring program that guarantees information transmission between various elements of the system and processing of exchanged numerical data, and the backup server is an operating environment of any one of the information processing devices to be backed up. Compatible with Backup server for simulating backup equipment, for recording an image of at least part of a disk of a host device, and for converting data exchanged between various host devices into a single format of data And an emulation program for exchanging With the backup system of the present invention, time, date, and "volume" (Micro
It is possible to automatically back up according to a standard such as a subset such as "Soft (registered trademark) -defined meaning" or "Partition disk" (in Unix (registered trademark) -defined meaning). Become.

Preferably, the server encapsulates the data coming from the host device, temporarily records the encapsulated data on the buffer disk, and reorganizes the recorded data on the buffer disk. Means, means for transmitting the data to the backup server.

According to a variant, the server can also be connected to an external device, with the first connection exchanging data to be backed up or restored exclusively for the high bit rate and the second connection. The command signals are exchanged by.

The present invention also results from multiple host devices in heterogeneous operating environments,
The present invention relates to a method of automatic backup and restoration of data, which is activated by a transmission server that transmits data to be backed up recorded in a memory of an external device to a backup server, and records the data to be backed up in a magnetic storage medium. The method comprises the steps of: replicating onto a memory of a backup server of a physical storage medium of a memory of each host device; and recording onto at least one magnetic storage medium connected to the backup server. Processing the replicated data.

According to a preferred embodiment, the step of replicating comprises recording a copy of at least part of the volume or partition disk of the host device on the hard disk of the backup server.

Advantageously, the transfer of backup data between the external device and the temporary disk is performed by a high bit rate connection such as an optical fiber bus (fiber channel).

Preferably, the step of performing the replication is performed by the procedure RAI of the host device.
Temporarily suspending the "mirroring" function of D1 (registered trademark), recording the data of the part of the disk of the host equipment separated from the mirroring in the temporary memory, and mirroring after the replication of the data is completed. Including recovering.

The invention will be better understood by reading the description of the following non-limiting examples.

The architecture of the automatic data backup and restoration system according to the present invention comprises a control unit (1) for managing a user interface and a database describing a collection of magnetic backup storage media, and a host disk (4, 5, 6, 6). Data of 7) is backed up by the bus (8
) And one or a plurality of tapes for transferring the data of the stocked peripheral device to the host disk management device (2, 3) and the backup server bus (8). A management device (9) is provided.

The control unit (1) operates the host disk management device (2, 3) and the tape management device (9).

User data coming from the hard disk (4,5, 6, 7) of the host equipment is accessed by the disk management system. The functions of the management system include a mirroring (RAID1 (registered trademark)) function and a mirroring temporary suspension function, which enables connection of a part of the host separated from the mirroring. During the interruption of mirroring, a modification management function (bitmap) is needed to enable a quick recovery consistent with the mirroring. User data is managed by the system. User data continues to work on one side of the mirror. The other contains the data to be backed up. Once the data to be backed up is backed up, the mirroring is restored and the user data is restored to its original state.

To ensure the information transfer between the various elements of the backup server (disks, magnetic recording media development robots, etc.), the optical fiber bus (8) or (several hundreds or thousands of meters of the network can be secured. It is a copper fiber bus with a narrow geographical range (of 10 meters). The bit rate of the bus is usually (in half duplex) around 100 megaoctets. If the bit rate becomes high,
The system can incorporate multiple buses. Similarly, a single, ie busless, device implementation is possible.

The control unit (1) controls various elements of the system through a local network. The control unit includes: A database containing the name of the backup, the date, the volume, the links between the magnetic recording media and the location of each magnetic storage media in the robot. The database contains a name and definition of execution criteria (date, time, status) and retention criteria (date and / or revocation status for each backup case). The database may be duplicated for security reasons. The remote control means of the host device. The backup server needs to recognize the evolving external shape of the user disk. When backup is requested, the topology (physical positioning of the disk, sequence of volume names) is used. Addresses at the start and end of various volumes based on the user's request, which are created by the client software installed in each host device, describe the structure of each disk in the backup server. , Transfer at the request of the backup server. Based on the name of the backup, the control unit makes a backup plan including a list of the host disk management device, the disk device, and the disk address associated with the backup.The same operation is performed for data restoration. Data does not go through the control unit Bus management means: host disk device, tape management device, status of data being transferred (active, reacquiring, waiting), bit rate, reason for waiting, etc. Manages permanent dialog between: A means of remote maintenance and diagnostics with a local network or asynchronous line connected to a modem.

The host disk management device enables the backup server to connect to the constituent disk management mechanism and transfer the data to be backed up. The connection to the disk is made by the following media: 16 bit bus (SCSI) Fiber optic bus (fiber channel) dedicated to high bit rate

At the time of backup, the host disk management device uses the tape management device to operate the transfer of data to the backup peripheral device. The host disk management device is
The disk management system is recognized as a host in the sense of the operating system of the host device. The role of the host disk management device is to perform processing for guaranteeing inclusion of data (block header and end) and to send data to the management device of the control robot of the magnetic recording medium. The data needs to be stored for as long as the robot manager needs to consider.

The tape management device is a backup peripheral device (magnetic tape device (streamer)).
) And one or more robots including the peripheral device. The tape manager allows the transfer of data to be backed up at a maximum bit rate that takes into account the characteristics of the disk and configuration bus types. Buses (SCSI), ESCON channels (registered trademark), and high bit rate optical fibers (fiber channels) are the mediums for connecting to the backup peripheral devices. Upon receiving a command from the control unit, the tape management device permits the management robot to select or change the recording medium.

At the time of backup, the tape management device receives commands and data from the host disk management device. The acknowledgment of the data reception is sent to the transmitter. When restoring
The tape management device uses the host disk management device to operate the transfer of data to the host disk.

[Brief description of drawings]

FIG. 1 is a schematic diagram of the system principle according to the present invention.

─────────────────────────────────────────────────── ─── Continued front page    (81) Designated countries EP (AT, BE, CH, CY, DE, DK, ES, FI, FR, GB, GR, IE, I T, LU, MC, NL, PT, SE, TR), OA (BF , BJ, CF, CG, CI, CM, GA, GN, GW, ML, MR, NE, SN, TD, TG), AP (GH, G M, KE, LS, MW, MZ, SD, SL, SZ, TZ , UG, ZW), EA (AM, AZ, BY, KG, KZ, MD, RU, TJ, TM), AE, AG, AL, AM, AT, AU, AZ, BA, BB, BG, BR, BY, B Z, CA, CH, CN, CO, CR, CU, CZ, DE , DK, DM, DZ, EE, ES, FI, GB, GD, GE, GH, GM, HR, HU, ID, IL, IN, I S, JP, KE, KG, KP, KR, KZ, LC, LK , LR, LS, LT, LU, LV, MA, MD, MG, MK, MN, MW, MX, MZ, NO, NZ, PL, P T, RO, RU, SD, SE, SG, SI, SK, SL , TJ, TM, TR, TT, TZ, UA, UG, US, UZ, VN, YU, ZA, ZW (72) Inventor Assemble, Hubert             France, 91940 Les Zuri, Ryu de             U Valois 10 (72) Inventor Blanche, Claude             France, 91530 Saint-Chron, Re             You du fiev 27 F term (reference) 5B065 BA01 EA23 EA24 EA35                 5B082 DE06 GA02 JA05 JA13

Claims (7)

[Claims] 1. Between at least one information processing network, on the one hand, each information processing device, and on the other hand, a physical backup device comprising a disk management device and a tape management device, between the various elements of the system. Backup and restoration of data from multiple host devices in heterogeneous operating environment with a backup server containing at least one buffer hard disk, controlled by a supervisory program that ensures the communication of information and the processing of exchanged numerical data A system for recording an image of at least a portion of a disk of a host device, for simulating a backup device compatible with the operating environment of any information processing device to be backed up, And various phos A system comprising an emulator program for converting data exchanged between remote devices into a single format data and exchanging it with the backup server. 2. The server comprises means for encapsulating data coming from the host equipment, means for temporarily recording the encapsulated data on a buffer disk, and re-recording data recorded on the disk. A system for automatically backing up and restoring data coming from a plurality of host devices in different operating environments according to claim 1, characterized in that it comprises means for organizing and transmitting to said backup server. 3. The server is then connected to an external device by a first connection dedicated to high bit rate for exchanging data to be backed up or restored and a second connection for exchanging command signals. An automatic backup and restoration system for data provided by a plurality of host devices in different operating environments according to claim 1 or 2, which is characterized by being provided. 4. A transmission server for automatically backing up and restoring data provided from a plurality of host devices in different operating environments, the transmission server transmitting data to be backed up recorded in a memory of an external device to a backup server. And recording the data to be backed up on a magnetic recording medium, the method replicating the data onto a memory of a backup server of a physical recording medium of a memory of each host device, Processing said replicated data for recording on at least one magnetic recording medium connected to a backup server. 5. The method according to claim 4, wherein the replication step includes a step of recording a copy of at least a part of the volume or partition disk of the host device on the hard disk of the backup server. , A method for automatic backup and restoration of data from multiple host devices in heterogeneous operating environments. 6. The transfer of the data to be backed up between the external device and the temporary disk is executed by a high bit rate connection such as an optical fiber bus (fiber channel). Item 6. The method for automatically backing up and restoring data provided from a plurality of host devices in different operating environments according to Item 4 or 5. 7. The step of replicating temporarily suspends the "mirroring" function of the procedure RAID1 (registered trademark) of the host device, and the data of the part of the disk of the host device which is separated from the mirroring. 7. Heterogeneous according to any one of claims 4 to 6, characterized in that it comprises recording on a temporary memory and restoring the mirroring function after the replication of the data is completed. A method of automatically backing up and restoring data from multiple host devices in an operating environment.