JP2556275B2 - Data storage method - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data storage system, and more particularly to a method of reducing I / O operation in data storage processing and restoring the latest valid data pointer on the memory of stored data to a state immediately before a system down after system down. Regarding the method.

[0002]

2. Description of the Related Art Conventionally, this type of data storage system has been used as a management means for valid data pointers, in order to improve the performance of an online system by reducing I / O operations, in order to improve the performance of online systems, a management system for valid data pointers in memory or online. After the system goes down, in order to obtain the valid data pointer before the system goes down, the valid data pointer is updated every time the data is stored in the disc, and the storage address is managed.

[0003]

However, in this conventional data storage method, when the valid data pointer is managed in the memory, the valid data pointer cannot be taken over after restarting due to a failure such as system down. Therefore, there are problems such as discard of stored data and delay of recovery time.

Further, if the valid data pointer is also updated inside the disk every time data is stored in the disk, there is a big problem that the performance of the online system is deteriorated due to an increase in I / O operations.

[0005]

As a means for solving the above problems, the present invention provides an initialization means for clearing a data storage file area of an external storage device with dummy data, and data for the external storage device. When storing the data, a system date and time are added to the data, and the data storage means stores the data in the data storage file in order; A data block pointer, an all record pointer indicating the total number of records in the data storage file, a valid data pointer indicating the latest storage position provided on the memory, and a reference to the valid data block pointer at the time of failure recovery , The system date and time of each data in the latest data block are compared in order, and the latest storage address is added. There is provided a data storage system and having a system date / time comparing means for setting the scan enable data pointer on the memory.

The data storage system is also characterized by having a valid data block pointer updating means for updating the valid data block pointer in the external storage device only when the block is updated.

[0007]

According to the present invention, since an external storage device such as a disk device is provided with only a pointer indicating stored data in block units, it is not necessary to update the pointer every time data is stored, unlike the conventional case, and the block is stored. It only needs to be updated when it changes, so I / O (Inp
It is possible to reduce the number of ut / output accesses).

Further, since the date and time are added to the stored data and stored, the position of the latest valid data can be easily known by comparing the date and time at the time of failure recovery.

[0009]

【Example】

[Embodiment 1] Next, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 shows an embodiment of the present invention and is a file configuration diagram of a disk as an external storage device. FIG.
Is the first round until the storage file 1 becomes full.

First, as the initial setting of the disc, the total number of records is set in the management unit in the valid data block pointer P1 indicating the storage address of the stored data and the total record pointer P2 indicating the total number of records. Further, the stored file is dummy-written, and ALL-NULL is set to the system date / time to be added to the stored data (initial setting means 10).

The stored data D1 is sequentially stored by adding the system date / time from the start address A1 of the stored file, and when the stored file is full, that is, (valid data pointer P3)> (all record pointer P2).
When it becomes, it returns to the head address A1 of the stored file again and is used cyclically (data storage means 20).

Next, the operation of FIG. 1 will be described. Normally, the update address to the storage file is such that the effective data pointer P3 on the memory is the address of the storage file, the system date / time SYS1 is added to the storage data D1, and the data storage means 20 sequentially from the beginning to the storage file. The data is stored (S1). Then, the valid data block pointer updating unit 30 updates the valid data pointer P3 to the management unit valid data block pointer P1 every n times the stored data is output (S2) (S2).
5). Further, when the valid data pointer P3 becomes larger than all record pointers P2, it returns to the head address A1 of the stored file again.

At the time of online restart due to a failure, the latest storage address of the storage file cannot be taken over by the valid data pointer P3 on the memory. Therefore, the system date / time comparing means 40 determines the valid data pointer P3 by the system date / time comparing means 40. The system date / time SYS2 of the stored data D2 and the system date / time SYS3 of the next stored data D3 are compared from the storage address A2 by the management unit valid data block pointer P1 (S3),
If (system date / time SYS2)> (system date / time SYS3), that is, if the system date / time SYS3 is NULL, the storage address A2 of the storage data D2 is determined to be the latest valid data pointer P3 ( K1) and subsequent stored data are stored at this storage address A2.
Is stored as a valid data pointer P3.

Further, (system date / time SYS2) ≦
If (system date / time SYS3), the system date / time SYS4 of the next stored data D4 and the system date / time SYS3 are sequentially compared (S4), and (system date / time SYSx)> (system date / time) (SYSy)
Sy (where y = x + 1), that is, the time Sy when the system date / time SYSy becomes NULL.
The storage address Ax of the storage data Dx of the system date / time SYSx is determined to be the latest valid data pointer P3 (K2), and subsequent storage data stores this storage address Ax as the valid data pointer P3.

FIG. 2 is a file structure diagram of a disk showing another embodiment of the present invention. FIG. 2 shows the second and subsequent cycles after the storage file 1 is full.

Next, the operation of FIG. 2 will be described. The normal operation is the same as in FIG.

At the time of online restart due to a failure or the like, the latest storage address of the storage file cannot be taken over by the valid data pointer P3 on the memory. Therefore, the management unit valid data block pointer P1 is used to determine the valid data pointer P3. From the address A2, the system date / time SYS2 of the stored data D2 and the system date / time SYS3 of the next stored data D3 are compared (S3), (system date / time SYS2)> (system date / time SYS3). If so, the storage address A2 of the storage data D2 is determined to be the latest valid data pointer P3 (K1), and subsequent storage data stores this storage address A2 as the valid data pointer P3.

Further, (system date / time SYS2) ≦
If (system date / time SYS3), the system date / time SYS4 of the next stored data D4 and the system date / time SYS3 are sequentially compared (S4), and (system date / time SYSx)> (system date / time) (SYSy)
The storage address Ax of the storage data Dx of the system date / time SYSx at the time Sy is determined to be the latest valid data pointer P3 (K2), and the subsequent storage data is
This storage address Ax is stored as the valid data pointer P3.

[Embodiment 2] Next, the operation of a more specific embodiment will be outlined with reference to FIGS. (1) The valid data pointer 1 for managing valid data is set in the memory, and the valid data block pointer 2 is set in the management unit in the disk.

The stored data is stored sequentially from the beginning of the stored file, and when it is full, it is stored cyclically from the beginning again (FIGS. 3, 4-).

The valid data pointer 1 is set to the storage address of the stored data, and the valid data block pointer 2 on the disk is set to the nth latest data storage address (FIGS. 3, 4-). The storage area for n cases is called a data block 3.

Therefore, the latest valid data exists within n data blocks from the data block pointed to by the valid data block pointer 2. (2) The storage file has a dummy write (N
(ULL) to clear. (3) When data is stored, the system date / time at the time of storage is added and stored (FIGS. 3, 4-).

Therefore, the system dates / times are arranged in ascending order. (4) Normally, the valid data pointer 1 on the memory is used for processing (FIGS. 3, 4-), but when the online system is restarted due to a failure, the valid data block pointer 2 on the disk is used for processing.

(A) In the case of the first round (FIG. 3) after the dummy write until it becomes full first, the valid data block 4 is determined from the valid data block pointer 2 (FIG. 3), and further, in the block. The stored data is searched from the beginning (Fig. 3-), and the data immediately before the data whose system date / time is NULL (Fig. 3-)
The data of 23:55 on November 4, 1992) is determined as the latest valid data 5.

(B) In the second and subsequent cycles (FIG. 4) The valid data block 6 is determined from the valid data block pointer 2 (FIG. 4), and the system date / time of the stored data in the block is determined from the beginning. Sequential comparison (Fig. 4-
), And the NEXT system date / time is older than the system date / time of the immediately preceding data (shown in FIG. 4).
The data of 23:55 on November 4, 1992) is determined as the latest valid data 7.

[0027]

As described above, in the data storage system according to the present invention, the effective data pointer is memory-managed and disk-managed, and the system date / time is added to the stored data to make this system date. Since the / time is arranged in ascending order, even after restarting due to a failure due to a system down or the like, the latest storage address of the stored data before startup can be easily discriminated without particular consideration. Even in the normal storage process, there is an effect that the performance as an online system is improved.

The conventional method and the I / O according to the present invention will be described below.
A comparison of the number of O operations will be shown.

Disk I / when storing data disk output
The number of times of O is: N: number of disk I / O required to output the number of stored data n: management unit valid data block pointer update for every n output of stored data, ∴ (method of the present invention) / (conventional method) = [(1 + 1 / n)
N / 2] / [N] = (1 + 1 / n) / 2 However, the value of n is determined by the frequency of failure and the processing capacity by I / O reduction.

As described above, by implementing the present invention, it is possible to accurately restore the valid data pointer when the system is down and reduce the normal I / O operation, so that the performance and quality can be improved. .

[Brief description of drawings]

FIG. 1 is a file configuration diagram of a first embodiment of the present invention (first round of storage file).

FIG. 2 is a diagram showing another file configuration according to the first embodiment of the present invention (the second or later round of the storage file).

FIG. 3 is a file configuration diagram of the second embodiment of the present invention (first round of storage file).

FIG. 4 is a file configuration diagram of the second embodiment of the present invention (after the second lap of the storage file).

[Explanation of symbols]

 10 Initial Setting Means 20 Data Storage Means 30 System Date / Time Comparison Means 40 Effective Data Block Pointer Updating Means

Claims (2)

(57) [Claims] 1. An initial setting means for clearing a data storage file area of an external storage device with dummy data, and adding a system date and time to the data when storing the data in the external storage device, Data storage means for sequentially storing in the data storage file, a valid data block pointer provided in the external storage device for indicating the data storage file in block units, and a total record pointer for indicating the total number of records in the data storage file And a valid data pointer provided in the memory, which indicates the latest storage location, and the system date and time of each data in the latest data block are sequentially compared by referring to the valid data block pointer at the time of failure recovery. And set the latest storage address to the valid data pointer on the memory Data storage method, characterized in that it comprises a biasing / time comparing means. 2. The data storage system according to claim 1, further comprising a valid data block pointer updating unit that updates the valid data block pointer in the external storage device only when a block is updated.