JPH11338647A - Method for generating duplexed data - Google Patents

Abstract

PROBLEM TO BE SOLVED: To duplex data with high reliability while minimizing decrease in information processing capability by making a choice whether data of a main system and a subordinate system are doubled synchronously or asynchronously according to characteristics, etc., of the data. SOLUTION: An external storage control unit is provided with an update change management table 13 which manages information whether the data of the main system and subordinate system are duplexed synchronously or asynchronously, and a service processor 16 is connected which can set a change to update data to an external storage device 11 of the subordinate system, etc. A channel processing processor is provided with a channel command analysis part 14 and a command issue part 15. When data which is important to a user are updated, the consistency between the data of both the main and subordinate systems is given importance, so the synchronous duplexing is set with high possibility, but when data whose response is taken into consideration are updated, the asynchronous duplexing is set with high possibility.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for forming duplicated data and an external storage control device. More specifically, the same data is stored in an external storage device of a primary system and an external storage device of a secondary system. Regarding technology to improve data reliability and maintainability by retaining and duplicating data,
In particular, it relates to data transfer technology.

[0002]

2. Description of the Related Art An external storage device having the same data is provided under different external storage controllers as a method of duplicating data by holding data used by a host device in an external storage device. It is common to connect them with any information communication link.

As disclosed in Japanese Patent Application Laid-Open No. Hei 8-509565, when a write command is issued from a higher-level device in such a system environment, an external storage controller of the primary data storage system connects to the write command. There is a technology for achieving data duplication by issuing a similar write command to an external storage control device of a secondary data storage system.
Specifically, this is a technique for issuing a similar write command to the external storage control device of the secondary data storage system in synchronization with the reception of the write command from the higher-level device. In this method, data update of the secondary data storage system is performed. Since the next write command is not received until the process is completed, data duplication can be surely realized. However, since the completion report to the higher-level device is waited for until the writing process of the secondary data storage system is completed, the response to the higher-level device is increased and the system cannot be said to be an efficient system.

Further, such a system environment is likely to be installed in a relatively remote place for the purpose of minimizing data loss due to a disaster such as an earthquake or a fire, so that the system throughput is large. Have an effect.

On the other hand, there is a technique in which a write command is issued to an external storage control device of a secondary data storage system asynchronously with reception of a write command from a host device. In this method, the write command is issued to the external storage control device of the secondary data storage system regardless of the enjoyment of data with the host device, so that the response time is shortened. Therefore, there is a time zone in which data consistency between the primary data storage system and the secondary data storage system cannot be ensured. Therefore, recovery of data at the time of disaster becomes complicated.

[0006] In addition, two of the means described above, must choose one in advance either. In other words, inefficient processing occurs such that data that may be updated by asynchronous processing must be intentionally performed by synchronous processing.

[0007]

SUMMARY OF THE INVENTION An object of the present invention is to determine whether data duplication between a primary system and a secondary system is performed synchronously or asynchronously according to the characteristics and importance of data to be duplicated. An object of the present invention is to provide a technique for selectively duplicating data efficiently.

Another object of the present invention is to provide a technique for realizing highly reliable data duplication while minimizing deterioration of the original information processing capability of the system.

[0009]

SUMMARY OF THE INVENTION It is an object of the present invention to provide an external storage control device of a primary system that: (1) means for recognizing synchronization or non-synchronization; and (2) a higher-level device or a service processor.
This is achieved by means of setting whether data duplication between the primary system and the secondary system is performed synchronously or asynchronously in an arbitrary storage device and information storage unit.

[0010]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a configuration diagram of a data processing system according to an embodiment of the present invention. The primary system includes a central processing unit 1, a channel device 2, an external storage control device 3, and an external storage device 7 connected thereto. Further, the external storage control device 3 includes a channel processing execution processor 4 for exchanging data with the channel device 2, a cache memory 5, and a drive processing execution processor 6 for exchanging data with the drive. Similarly, the secondary system includes a central processing unit 8, a channel device 9, an external storage control device 10, and an external storage device 11 connected thereto.
It consists of. The external storage controller 3 and the external storage controller 10 are connected by an interface cable 12. When a system is constructed in a relatively remote place, an optical fiber cable or the like is used as the interface cable.

FIG. 2 shows the information processing system shown in FIG. 1 in more detail. External storage control device 3
In addition to the numbers 4 to 6, the update trigger management table 13 that manages information on whether data duplication between the primary system and the secondary system is performed synchronously or asynchronously, and the channel processing execution processor 5 Is the channel command analysis unit 14,
A command issuing unit 15 is provided. The external storage control device 3 of the primary system is connected to a service processor (SVP) 16 which can set a data update trigger (synchronous or asynchronous) for the external storage device 11 of the secondary system.

FIGS. 3 and 4 show an example of the update trigger management table 13 for managing data update triggers. FIG.
The device processing information A indicates that synchronization or asynchronous has been set for each device, and the track processing information B indicates that synchronization or asynchronous has been set for an arbitrary information storage unit (here, track unit). FIG. 4 shows a bitmap table C indicating a synchronous / asynchronous setting state for each device, and a bitmap table D indicating a synchronous / asynchronous setting state for each track. When the bit is ON, it indicates that data update to the secondary system is performed asynchronously.

When the user sets synchronous or asynchronous for each device from the SVP 16, this information is written into the device processing information A, and then the bit of the device number in the bit map table C is turned on. Triggers for setting this information include system construction and external storage devices 7 and 1
When 1 is in a volume pair state with the same data,
And so on. In addition, when the user sets synchronous or asynchronous in the track unit from the SVP 16, the information is first written into the track processing information B in FIG. Next, the bits of the bit map table D in the corresponding range of the designated track are turned on.

When the setting of this information is for updating data that is highly important to the user, the data consistency between the primary system and the secondary system is emphasized, so that data duplication is performed synchronously. Is high, and conversely, in the case of updating data in which the importance is not so high but the response is valued, it is highly likely that the setting is performed asynchronously.

FIG. 5 is a flowchart showing an example of the operation of the present embodiment. Hereinafter, description will be given according to this flowchart.

When the external storage control device 3 of the primary system receives a command from the central processing unit 1 (step 10).
1) It is determined whether the command is a write command for updating data (step 102). If it is determined that the command is not a write command, normal processing for the command is performed (step 103), and step 101 is executed.
Return to If it is determined in step 102 that the command is a write command, it is determined whether or not the setting is made in device units by referring to the device processing information A (step 104).

If the setting has been made in units of devices, it is checked whether or not the bit of the requested device number is ON by referring to the bit map table C (step 10).
5). If the corresponding bit is ON, it is determined that the data update to the secondary system is performed asynchronously, and the data is updated only in the external storage device of the primary system (step 1).
08), returning to step 101. At this time, the channel end and the device end are reported to the central processing unit, and thereafter, the update data is transferred to the external storage control device of the secondary system.

If the bit of the requested device number is OFF in step 105, it is determined that the data of the secondary system is to be updated in synchronization with the reception of the command, and the data of the external storage device of the primary system is updated. At the same time, the update data is transferred to the external storage control device of the secondary system (step 109), and the process returns to step 101. At this time, the channel end is reported to the central processing unit, and after the data transfer to the external storage controller of the secondary system is completed, the device end is reported.

If the setting is not in units of devices in step 104, it is determined whether or not the setting is in units of tracks by referring to the track processing information B (step 10).
6). If the setting is in units of tracks, it is checked whether or not the bits in the requested track range are ON by referring to the bitmap table D (step 107). If the corresponding bit is ON, it is determined that the data update to the secondary system is performed asynchronously, and the data is updated only in the external storage device of the primary system (step 108).
It returns to step 101.

If the bit of the requested track range is OFF in step 107, it is determined that the data of the secondary system is to be updated in synchronization with the reception of the command, and the external storage device of the primary system is updated. Along with data updates,
The update data is transferred to the external storage control device of the secondary system (step 109), and the process returns to step 101.

If the setting is not track unit in step 106, it is determined that the data of the secondary system is to be updated in synchronization with the reception of the command. The update data is transferred to the external storage control device of the local system (step 109),
It returns to step 101.

[0023]

According to the present invention, it is possible to select whether to perform data duplication between the primary system and the secondary system synchronously or asynchronously according to the characteristics and importance of the data to be duplicated. It is possible to efficiently duplicate data.

Further, it is possible to realize highly reliable data multiplexing while minimizing the deterioration of the original information processing capability of the system.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of an information processing system constituting a data duplication system according to an embodiment of the present invention.

FIG. 2 is an internal configuration diagram showing the configuration of the information processing system illustrated in FIG. 1 in further detail;

FIG. 3 is a conceptual diagram illustrating an example of various types of control information according to an embodiment of the present invention.

FIG. 4 is a conceptual diagram showing an example of various types of control information according to an embodiment of the present invention.

FIG. 5 is a flowchart of an operation of the information processing system according to the embodiment of the present invention;

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Central processing device, 2 ... Channel device, 3 ... External storage control device, 4 ... Channel processing execution processor, 5 ... Channel processing execution processor, 6 ... Drive processing execution processor, 7 ... External storage device, 8 ... Central processing device , 9 ... channel device, 10 ... external storage control device, 11 ...
External storage device, 12 ... interface cable, 13
... update trigger management table, 14 ... channel command analysis unit, 15 ... command issue unit, 16 ... service processor.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor: Yu Koide 2880 Kozu, Odawara-shi, Kanagawa Prefecture Storage Systems Division, Hitachi, Ltd.

Claims (2)

[Claims] An external storage device and an external storage control device for controlling the external storage device (hereinafter collectively referred to as a primary system)
And a data processing system composed of a higher-level device, and the same external storage device (hereinafter collectively referred to as a secondary system) under another external storage control device connected by an arbitrary information communication link. In a data duplication system that retains data as backup data,
A method of forming duplicated data, characterized in that information can be updated to the secondary system synchronously or asynchronously for each data unit. 2. A duplex data forming method according to claim 1, wherein updating of information of the secondary system can be arbitrarily set to be performed synchronously or asynchronously for each data unit.